NX200 Transmitter. Troubleshooting Manual. Document: NHB-NX200-TRB-3.0. Issue:

Transcription

1 NX00 Transmitter Troubleshooting Manual Document: NHB-NX00-TRB-.0 Issue: Status: Standard

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3 Nautel Limited 00 Peggy s Cove Road Hackett s Cove, NS Canada BZ J Phone: or Toll Free: +..NAUTEL () (Canada & USA only) Fax: Nautel Inc. 0 Target Industrial Circle Bangor, Maine USA 00 Phone: Fax: Customer Service ( hour support) +... (Canada & USA only) (International) support@nautel.com Web: The comparisons and other information provided in this document have been prepared in good faith based on publicly available information. The reader is encouraged to consult the respective manufacturer's most recent published data for verification. Copyright 0 NAUTEL. All rights reserved.

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5 NX00 Troubleshooting Manual Table of contents Contents Release control record vii Responding to alarms - Corrective maintenance - Electrostatic protection - Identifying an alarm - Responding to alarms - Removing and reinstalling RF power modules - Troubleshooting RF power modules - Control/exciter panel board removal/replacement - PDM Drive Distribution PWB replacement - RF drive distribution PWB replacement - Rack Interface PWB replacement -0 SCR Rectifier Inspection/Replacement - Low Voltage Power Supply Replacement - RF Power Module Fan Tray replacement - Detailed Circuit Descriptions - Control/interface PWB (NAPC0A/0) - Digital AM exciter PWB (NAPEA/0) - Remote interface PWB (NAPI0) - RF power module (NAPA) - Parts Lists - Parts information - Family tree - How to locate information about a specific part - Column content - Page v

6 NX00 Troubleshooting Manual Table of contents OEM code to manufacturer s cross-reference - Common abbreviations/acronyms - Wiring/connector lists - Wiring lists provided - Wiring lists not provided - Connector mating information - Wire colours - Printed wiring board patterns - Reading Electrical Schematics - Component values - Graphic symbols - Logic symbols - Reference designations - Unique symbols - Identifying schematic diagrams - Structure of schematics - Locating schematic diagram(s) for a functional block - Locating a part or assembly on a schematic - Mechanical Drawings - Identifying mechanical drawings - Content of mechanical drawings - List of terms - Page vi Issue

7 NX00 Troubleshooting Manual Release control record Issue Date Reason Release of product (NARAA) Issue Page vii

8 NX00 Troubleshooting Manual Page viii Issue

9 NX00 Troubleshooting Manual Responding to alarms Section : Responding to alarms This section provides instructions you need when performing troubleshooting on the NX00 transmitter. This section includes the following topics: Corrective maintenance Electrostatic protection - see page - Identifying an alarm - see page - Responding to alarms - see page - Troubleshooting RF power modules - see page - Other Module Replacement Procedures - see page - If none of the procedures and alarms described in this section address your problem, contact Nautel for assistance. See Technical support on page viii. Corrective maintenance Corrective maintenance procedures consist of identifying and correcting defects or deficiencies that arise during transmitter operation. Local and/or remote alarm signals are generated when a malfunction occurs. If an alarm condition is caused by a malfunction in the RF power stage, the transmitter may maintain operation at a reduced RF output level. The nature of the fault and station policy will dictate whether an immediate maintenance response is necessary. Fault analysis and rectification may be conducted from three different levels, with a different technical competence level required for each: on-air troubleshooting, remote or local, and off-air troubleshooting. CAUTION: The transmitter contains many solid state devices that may be damaged if subjected to excessive heat or high voltage transients. Every effort must be taken to ensure that circuits are not overdriven or disconnected from their loads while turned on. On-air troubleshooting On-air troubleshooting can be performed from a remote location, or locally at the transmitter site. Issue Page -

10 NX00 Troubleshooting Manual Responding to alarms Remote troubleshooting Remote on-air troubleshooting consists of monitoring the transmitter's radiated signal using an on-air monitor, and observing the status of each remote fault alarm indicator. Information obtained from these sources should enable an operator to decide whether an alarm response may be deferred to a more convenient time, an immediate corrective action must be taken, or if a standby transmitter must be enabled (if one is available). It is recommended that the significance of remote indications, and the appropriate responses, be incorporated into a station's standard operating procedures. Refer to Identifying an alarm on page - to determine the remedial action required for a given fault. Local troubleshooting Local on-air troubleshooting consists of monitoring the transmitter's integral meters and fault alarm indicators. Analysis of this data will normally identify the type of fault, and in most cases will determine what corrective action must be taken. Refer to Identifying an alarm on page - to determine the remedial action required for a given fault. The power amplifier stage contains an integral modular reserve (IMR) feature. This feature permits the transmitter to operate at a reduced RF output level when a malfunction occurs in one of its power modules. Station operating procedures will dictate whether a reduced RF output level is acceptable. When a reduced RF output level can be tolerated, replacement of the defective RF power module may be deferred to a convenient time. A defective RF power module may be removed from the transmitter for servicing, while the transmitter is operating, provided that the conditions in the removal instructions detailed in Removing an RF power module on page - are met. Off-air troubleshooting Off-air troubleshooting must be performed when the replacement of a defective RF power amplifier module, or routine on-air calibration adjustments, will not restore operation. It is recommended that the transmitter s output be connected to a precision 0 Ω resistive dummy load (rated for at least the maximum transmitter power rating) before starting off-air troubleshooting procedures. If an appropriate dummy load is not available, troubleshooting for a majority of faults can be performed with RF power stage turned off. The transmitter may remain connected to its antenna system for these procedures. NOTE: Reduce the RF output level to a minimal value when troubleshooting faults in the power amplifier stage while the transmitter s RF output is connected to the antenna system. Page - Issue

11 NX00 Troubleshooting Manual Responding to alarms Electrostatic protection The transmitter's assemblies contain semiconductor devices that are susceptible to damage from electrostatic discharge. The following precautions must be observed when handling an assembly which contains these devices. CAUTION: Electrostatic energy is produced when two insulating materials are rubbed together. A person wearing rubber-soled shoes, walking across a nylon carpet or a waxed floor, can generate an extremely large electrostatic charge. This effect is magnified during periods of low humidity. Semiconductor devices such as integrated circuits, field-effect transistors, thyristors and Schottky diodes may be damaged by this high voltage unless adequate precautions are taken. Electrical discharging of personnel Personnel should be electrically discharged by a suitable grounding system (e.g., anti-static mats, grounding straps) when removing an assembly from the transmitter, and while handling the assembly for maintenance procedures. Handling/Storage An assembly should be placed in an anti-static bag when it is not installed in a host transmitter, or when it is not undergoing maintenance. Electronic components should be stored in anti-static materials. Tools/Test equipment Testing and maintenance equipment including soldering and unsoldering tools should be suitable for contact with static sensitive semiconductor devices. Stress current protection Every precaution should be taken to ensure the static sensitive semiconductor devices are protected from unnecessary stress current. This is achieved by ensuring that current is not flowing when an electrical connection is broken, and that voltages are not present on external control/monitoring circuits when they are connected. Issue Page -

12 NX00 Troubleshooting Manual Responding to alarms Identifying an alarm The best way to identify an alarm is by viewing the front panel s Transmitter Status page (Figure.). If an alarm exists, the Status button at the bottom of the AUI display will be red. Press or click the Status button to go to the Transmitter Status page. Figure.: Transmitter Status Page. View the list of active faults by pressing the Alarms tab. Alarms are listed by their origin (Device column), then by name (Alarm column), and then by severity [a single yellow! indicates low severity (RF output not affected), a single orange! indicates medium severity (RF output is reduced), two red! indicates high severity (RF output is inhibited); see Level column]. See List of current alarms on page -.. Attempt to clear any latching alarms by pressing the Reset button on the bottom banner of the page. If the alarm persists, it will not be cleared from the display.. Refer to Table. on page - for troubleshooting tips on the offending alarm(s), which may also reference replacement and subsequent re-calibration procedures. Note the origin of the alarm (i.e., contained within Controller, Exciter, Rack # or Cube # sub-system folders). Page - Issue

13 NX00 Troubleshooting Manual Responding to alarms. If the troubleshooting and subsequent replacement of a suspect PWB or RF power module does not remove the fault condition, contact Nautel. NOTE: Before undertaking any troubleshooting, record all AUI meter readings and note if any other alarms are displayed on the Transmitter Status page. Record all alarms. The most convenient way to do this is by using a web browser over a LAN connection to save screen shots of critical status, meter and alarm pages. From the Meters page, press the information (!) button for each sub-device (Controller, Exciter and Module) to view (and save) detailed information. List of current alarms If an alarm exists and is being recognized by the transmitter, it is displayed under the Alarms tab of the transmitter status page (see Figure. on page -). The Device name indicates the sub-system origin of the alarm. The sub-systems that can be displayed are: Controller: All alarms in this sub-system apply to the controller. Exciter A: All alarms in this sub-system apply to exciter A. Exciter B: All alarms in this sub-system apply to exciter B. Rack #: All alarms in this sub-system apply to the associated rack (or cabinet). Cube #: All alarms in this sub-system apply to the associated cube (or RF power module). Table. on page - contains a column for most Alarms that can occur, sorted alphanumerically for each sub-system. The Description and Troubleshooting Action column provides a brief description of the alarm, troubleshooting tips and a cross-reference to more detailed troubleshooting, as applicable. Issue Page -

14 NX00 Troubleshooting Manual Responding to alarms Table.: Troubleshooting Alarms Alarm (with Prefix) Controller: DRM Exciter Changeover Controller: EEPROM Failure: Thresholds Controller: EEPROM Failure: Potentiometers Controller: EEPROM Failure: Schedule Controller: Exciter Changeover Controller: External PDM Inhibit Controller: Firmware Checksum Failure Controller: Interlock Open Description and Troubleshooting Action This event is caused by a fault related to the optional DRM exciter(s). This alarm occurs if there is no valid EEPROM threshold data to load. TRemove and reapply the ac power to the transmitter. If the alarm persists after replacing the battery, replace the control/ interface PWB (see Control/interface PWB replacement on page -). This alarm occurs if there is no valid EEPROM potentiometers data to load. Remove and reapply the ac power to the transmitter. If the alarm persists after replacing the battery, replace the control/ interface PWB (see Control/interface PWB replacement on page -). This alarm occurs if there is no valid EEPROM schedule data to load. Remove and reapply the ac power to the transmitter. If the alarm persists after replacing the battery, replace the control/ interface PWB (see Control/interface PWB replacement on page -). This event is caused by a fault in the active exciter while the automatic changeover function is enabled. No further exciter changeovers can occur until the fault is cleared. Check for associated alarm(s) that may have caused the changeover and refer to their troubleshooting action. This alarm occurs if the external PDM inhibit, wired to the control/ interface PWB, is active. Transmitter power is reduced to 0 W. See Controller: External PDM Inhibit on page -. This alarm occurs if the Checksum for the firmware is in error. Remove and reapply the ac power to the transmitter. If the alarm persists after replacing the battery, replace the control/interface PWB (see Control/interface PWB replacement on page -). The external interlock input wired to the control/interface PWB is open. An alarm will be triggered by user-set conditions (e.g., the state of the door to the transmitter room). See Controller: Interlock Open on page -. Page - Issue

15 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Controller: Low Battery Controller: Not Responding Exciter A Controller: Not Responding Exgine Controller: PDM Duty Cycle High Controller: PDM Duty Cycle Low Controller: PDM Latch Controller: Rack (or ) Not Responding Description and Troubleshooting Action This alarm occurs if the voltage of the backup battery has fallen below an acceptable level. Replace the battery (BT) on the control/interface PWB while ac power is on. If the alarm persists after replacing the battery, replace the control/interface PWB (see Control/interface PWB replacement on page -). This alarm occurs if exciter A is not responding to serial messages. May cause an exciter changeover. Replace the digital AM exciter PWB of the exciter which is no longer responding (see Digital AM exciter PWB replacement on page -). This alarm occurs if the optional Exgine PWBis not responding to serial messages. Replace the Exgine PWB (see Exgine PWB replacement on page -). This alarm occurs if the duty cycle of the PDM drive on the active exciter is more than 0% above desired. Press RF Off, press the Reset button (S) on the digital AM exciter PWB, then press RF On. If the alarm persists, replace the digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). This alarm occurs if the duty cycle of the PDM drive on the active exciter is more than 0% below desired. Press RF Off, press the Reset button (S) on the digital AM exciter PWB, then press RF On. If the alarm persists, replace the digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). This alarm occurs if the duty cycle of the PDM drive on the active exciter is more than % steady state. Press RF Off, press the Reset button (S) on the digital AM exciter PWB, then press RF On. If the alarm persists, replace the digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). This alarm occurs if rack (or, as applicable) is not responding to serial messages. Check serial interface cabling between the affected cabinet s rack interface PWB and the other cabinets rack interface PWBs. If cabling is OK, replace the affected cabinet s rack interface PWB (see Rack Interface PWB replacement on page -0). Issue Page -

16 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Controller: RF Drive High Controller: RF Drive Low Controller: Synch Changeover Controller: Unknown PDM Inhibit Cube #: Bad RF Drive Cube #: B+ Voltage High Cube #: B+ Voltage Low Cube #: Close RF Relay Cube #: Disable PDM Description and Troubleshooting Action This alarm occurs if the duty cycle of the RF drive on the active exciter is more than 0%. PDM is inhibited and an exciter changeover occurs, if enabled. If the alarm persists, change over to the standby exciter. If this clears the alarm, there is likely a fault with one of the control/interface PWB s high speed comparators. Replace the control/interface PWB (see Control/interface PWB replacement on page -). This alarm occurs if the duty cycle of the RF drive on the active exciter is less than 0%. PDM is inhibited and an exciter changeover occurs, if enabled. If the alarm persists, change over to the standby exciter. If this clears the alarm, there is likely a fault with one of the control/interface PWB s high speed comparators. Replace the control/interface PWB (see Control/interface PWB replacement on page -). This event is caused by a fault reported by the active exciter related to the optional PPS, 0 MHz or khz synchronization signals. This alarm occurs if a PDM inhibit signal is active. It may be caused by an external PDM inhibit, an open interlock circuit, or another shutback source. Transmitter power is reduced to 0 W. Check for associated alarm(s) that may have caused the PDM inhibit and refer to their troubleshooting action. The duty cycle of the RF drive or the dead time between RF drive phases is not as expected. See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. The B+ voltage exceeds.% of its expected level. The B+ voltage is at least 0% below its expected level. Replace the fuse on the power module interface PWB for the affected cube (see Cube #: B+ voltage low on page -). See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. Status that indicates the cube s shorting relay contact is closed. Status that indicates the PDM drive in the cube is disabled. Page - Issue

17 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Cube #: EEPROM Failure Cube #: External Disable Active Cube #: Fan Speed (or ) Low Cube #: High DC Current Cube #: High PA Volts Cube #: High RF Drive Cube #: High Temperature Description and Troubleshooting Action There is no valid EEPROM data to load. See Removing and reinstalling RF power modules on page - to replace the affected cube. The PDM drive cable is unplugged. Reconnect or replace the PDM drive cable. If the problem persists, replace the affected cube (see Removing and reinstalling RF power modules on page -). If the problem persists, replace the PDM drive distribution PWB (see RF drive distribution PWB replacement on page -). The specified fan below the specified cube is rotating at a speed less than 000 RPM. If multiple cubes (from the same column) report this alarm, replace the associated fan tray assembly (see RF Power Module Fan Tray replacement on page -). If only one cube reports this alarm, replace the affected cube (see Removing and reinstalling RF power modules on page -). This alarm occurs if the dc current in the cube is above 0 A. See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. The PA voltage is at least 0% above the product of the B+ level and the PDM duty cycle (and the PDM duty cycle is at least 0%). See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. The duty cycle of the RF drive on the active exciter is more than 0%. PDM is inhibited. See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. The temperature of the cube is more than 0 C ( F). If this alarm is accompanied by another alarm, troubleshoot the other alarm first. If the alarm occurs on its own, see Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. Issue Page -

18 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Cube #: Invalid Thermistor Sample Cube #: Low Voltage Supply Fault Cube #: Low PA Volts Cube #: Low RF Drive Cube #: No Serial Comms Description and Troubleshooting Action A sample of the heatsink temperature is monitored. An alarm occurs if the sample is below an acceptable level for monitoring. See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. The voltage of the + V or + V power supply is more than its specified limits. The PA voltage is at least 0% below the product of the B+ level and the PDM duty cycle (and the PDM duty cycle is at least 0%). See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. The duty cycle of the RF drive on the active exciter is less than %. PDM is inhibited. See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. There is no serial communication with the cube. See Removing and reinstalling RF power modules on page - to replace the affected cube. Cube #: Overmodulation Cube #: PDM Enabled Cube #: Residual PA Volts Cube #: RF Drive Enabled Cube #: RF Relay Open Cube #: Serial RF OFF The average PDM duty cycle is more than %. If PDM is enabled, the High DC Current alarm will occur first. Status that indicates the PDM drive in the cube is enabled. An unexpected level of PA voltage is detected when the modulator or PA of a specific cube is disabled. See Troubleshooting RF power modules on page - to determine whether to replace the affected cube or to repair damaged parts. Status that indicates the RF drive in the cube is enabled. Status that indicates the cube s shorting relay contact is open. Status that indicates the cube is in an RF off state. Page -0 Issue

19 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Exciter A/B: Analog SRC Offline Exciter A/B: Audio Overmod Protection Exciter A/B: B+ ADC Overflow Exciter A/B: B+ High Exciter A/B: B+ Low Exciter A/B: Cutback Active Exciter A/B: Digital SRC Offline Exciter A/B: External Inhibit Active Exciter A/B: FPGA Test Failed Exciter A/B: High Current Foldback Active Exciter A/B: High DC Current Foldback Active Description and Troubleshooting Action The analog sample rate converter is malfunctioning. Cycle the power (off, then on) to the affected exciter. If the alarm persists, replace the affected digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). Due to a combination of audio and the current settings, too much power is being drawn from the transmitter. Decrease the audio input level until the alarm disappears. The B+ sample voltage is too high, causing clipping in the ADC. B+ compensation will be unreliable. The B+ voltage is significantly more than expected. Check samples and calibration. The B+ voltage is too far below expected for B+ compensation to function. The forward power has been reduced due to multiple shutbacks. The digital sample rate converter is malfunctioning. Cycle the power (off, then on) to the affected exciter. If the alarm persists, replace the affected digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). An externally generated PDM inhibit (via the control/interface PWB) is active. Transmitter power is reduced to 0 W. There was a programming failure with the FPGA. Possibly indicates a fault with the control/interface PWB. Cycle the power (off, then on) to the affected exciter. If the alarm persists, replace the affected digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). The forward power has been reduced due to a high level of RMS RF current. Decrease the transmitter s power level until the alarm disappears and/or check the transmitter s output network. The forward power has been reduced due to a high level of RMS dc current. Issue Page -

20 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Exciter A/B: High Fwd Foldback Active Exciter A/B: High Temperature Foldback Active Exciter A/B: Input Loss Side A (or B) Exciter A/B: Main PLL Unlocked Exciter A/B: Missed FPGA Watchdog Exciter A/B: Muted Analog Source Exciter A/B: Muted Digital Source Exciter A/B: No Analog AES Lock Exciter A/B: No Audio Description and Troubleshooting Action The forward power has been reduced due to a high level of RMS forward power. Decrease the transmitter s power level unttil the alarm disappears and/or check the transmitter s output network. The forward power has been reduced due to excessive temperature in the cubes or SCR rectifiers. Check the transmitter s output network and verify that the air filters in the back of each cabinet are clean. Verify the temperature of the transmitter building is within specifications. The input sample rate converter cannot lock OR the modulation level is less than 0% for an extended period (two minutes). The main clock source has unlocked. Usually accompanied by No Ext 0 MHz. Cycle the power (off, then on) to the affected exciter. If the alarm persists, replace the affected digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). The DSP software failed to synchronize with the FPGA. Due to a lack of input, the analog source has been muted. Check the audio input. Due to a lack of input, the digital source has been muted. Check the audio input. No AES stream is detected on the analog AES input. Check the audio input. There is no valid signal to transmit with the current settings. Check the audio input. Exciter A/B: No B+ Sample The B+ sample voltage is missing or is extremely low. If this alarm is accompanied by another alarm, troubleshoot the other alarm first. If the alarm occurs on its own, replace the affected digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). Page - Issue

21 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Exciter A/B: No Current Sample Exciter A/B: No Digital AES Lock Exciter A/B: No Ext 0 MHz Exciter A/B: No Voltage Sample Exciter A/B: Over Current Shutback Exciter A/B: Over Voltage Shutback Exciter A/B: PDM Inhibited Exciter A/B: Power Below Setpoint Exciter A/B: Serial IQ Stream Missing Exciter A/B: SWR Shutback Exciter A/B: VSWR Foldback Active Description and Troubleshooting Action The RF current sample voltage is missing or is extremely low. If the standby exciter does not indicate this alarm, replace the affected digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). If both exciters indicate this alarm, replace the affected digital AM exciter PWB (see Control/ interface PWB replacement on page -). No AES stream is detected on the digital AES input. Check the audio input. No 0 MHz is detected on the external 0 MHz input. Check the 0 MHz input. There is a fault with the transmitter s voltage probe. If the standby exciter does not indicate this alarm, replace the affected digital AM exciter PWB (see Digital AM exciter PWB replacement on page -). If both exciters indicate this alarm, replace the affected digital AM exciter PWB (see Control/interface PWB replacement on page -). The RF current is above its factory-set threshold. Check the output network. The RF voltage is above its factory-set threshold. Check the output network. An internally generated PDM inhibit (from the DSP) is active. Transmitter power is reduced to 0 W. The power set point cannot be attained, due to a foldback, cube failure(s), or a load impedance mismatch. No data detected on the LVDS interface to Exgine. The reflected power is above its factory-set threshold - approximately kw. Check the output network. The forward power has been reduced due to a high VSWR. Check the output network. Issue Page -

22 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Rack #: AC Phase Loss Rack #: EEPROM Failure Rack #: Firmware Checksum Failure Rack #: High B+ Fault Rack #: Low AC Rack #: Low B+ Alarm Rack #: Not Responding Cube # Rack #: Rectifier Fan (or ) Fail Rack #: + V PS A (or B) Fault Description and Troubleshooting Action The SCR rectifier assembly detects a phase loss on the ac input. Check the ac mains fuses for a phase loss. If the ac mains phases are OK, replace the SCR rectifier assembly (U) (see SCR Rectifier Inspection/Replacement on page -). There is no valid EEPROM data to load. Remove and reapply the ac power to the transmitter. If the alarm persists, replace the rack interface PWB (see Rack Interface PWB replacement on page -0). The Checksum for the firmware is in error. Remove and reapply the ac power to the transmitter. If the alarm persists, replace the rack interface PWB (see Rack Interface PWB replacement on page -0). This alarm occurs if the B+ voltage is at least 0% above its nominal level. If this alarm persists while the transmitter is producing RF power, replace the rack interface PWB (see Rack Interface PWB replacement on page -0). A sample of the power transformer s secondary voltage is monitored. An alarm occurs if the ac input voltage is more than % below nominal. Status indication. Occurs if the B+ voltage is at least % below its expected level. See Rack #: Low AC on page -0. This alarm occurs if one or more of the 0 RF power modules is not responding to serial messages. Try swapping the affected module with a module in another location (see Removing and reinstalling RF power modules on page -). If the alarm follows the module, replace the module. If the alarm follows the location, check the connections between the module location and its associated power module interface PWB and rack interface PWB. This alarm occurs if the speed of one of the SCR rectifier s cooling fans is below 0 RPM (half its nominal value of 00 RPM). Inspect the affected fan and, if necessary, replace it (see SCR Rectifier Inspection/Replacement on page -). The digital fault reporting output of either + V power supply (U or U) is active. Replace the affected V power supply (see Low Voltage Power Supply Replacement on page -). Page - Issue

23 NX00 Troubleshooting Manual Responding to alarms Alarm (with Prefix) Rack #: - V PS (A or B) Fault Rack #: +0 V PS Fault Rack #: + V PS A (or B) Fault Rack #: + V PS (A or B) Fault Description and Troubleshooting Action This alarm occurs if the - V rail is outside its acceptable range of - to - V. Suspect a faulty dc-dc converter (U for A or U for B) on the rack interface PWB. Remove the rack interface PWB (see Rack Interface PWB replacement on page -0) and replace the defective dc-dc converter or the entire rack interface PWB. This alarm occurs if the +0 V rail has varied outside its acceptable range of to V. Suspect a faulty dc-dc converter (U for A or U for B) on the rack interface PWB. Remove the rack interface PWB (see Rack Interface PWB replacement on page -0) and replace the defective dc-dc converter or the entire rack interface PWB. The + V power supplies (U and U) are monitored. An alarm occurs if the power supply voltage varies outside its acceptable range of to V. Replace the affected V power supply (see Low Voltage Power Supply Replacement on page -). This alarm occurs if the + V rail is outside its acceptable range of. to. V. Suspect a faulty dc-dc converter (U for A or U for B) on the rack interface PWB. Remove the rack interface PWB (see Rack Interface PWB replacement on page -0) and replace the defective dc-dc converter or the entire rack interface PWB. Issue Page -

24 NX00 Troubleshooting Manual Responding to alarms Table.: Module Replacement Procedures Module Replacement Procedure RF Power Module See page - Power Amplifier MOSFET See page - Modulator MOSFET See page -0 Remote Interface PWB See page - Digital AM Exciter PWB See page - Control/Interface PWB See page - GPS Sync PWB See page - Exgine PWB See page - PDM Distribution PWB See page - RF Drive Distribution PWB See page - Rack Interface PWB See page -0 Low Voltage Power Supplies See page - RF Power Module Fan Tray See page - Page - Issue

25 NX00 Troubleshooting Manual Responding to alarms Responding to alarms Controller: External PDM Inhibit The external PDM inhibit is wired to the control/interface PWB. A Controller: External PDM Inhibit alarm indicates that an external PDM inhibit command is present. The alarm could be caused by an short circuit in the external wiring path to the control/ interface PWB or a fault in the switching circuitry on the control/interface PWB. Troubleshoot as follows:. If the control/interface PWB s shorting jumper E is in the INT position (shorting pins and ), verify the dc voltage between J- and ground on the control/interface PWB is approximately V. This signifies there is no external PDM inhibit command.. If the control/interface PWB s shorting jumper E is in the EXT position (shorting pins and ), verify the dc voltage between J- and J- on the control/interface PWB is 0 V. This signifies there is no external PDM inhibit command.. If the conditions in Step and Step are met, suspect the control/interface PWB and if necessary, replace it (see Control/interface PWB replacement on page -). Controller: Interlock Open A Controller: Interlock Open alarm indicates an external interlock is open. The transmitter s RF output will be inhibited. The external interlock input is wired to the control/interface PWB by the end user and triggered by the conditions that they set (e.g., the state of the door to the transmitter room).. Gain access to the control/exciter panel (A) (see Figure. on page -) by opening the control cabinet s front door. The door is not latched and just swings open to the left.. Connect a digital multimeter (set to measure dc) between J- of the control/interface PWB and ground.. If V is present on J-, the external interlock circuit is intact and the probable cause of the alarm is a defective monitoring circuit. Suspect the control/interface PWB and if necessary, replace it (see Control/interface PWB replacement on page -).. If V is not present on J-, measure the voltage between J- (external V) of the control/interface PWB and ground, then between J- (+ V) and ground. Issue Page -

26 NX00 Troubleshooting Manual Responding to alarms. If V is present on J- and J-, the external interlock circuit is open (normally caused by an open interlock switch). Cube faults There are many alarms on the AUI, prefixed by the text Cube, that indicate faults related to one or more of the 0 RF power modules (or cubes) in a cabinet. The number that appears after Cube or CU, identifies the serial number of the affected cube. These serial numbers are labeled on the front panel of each RF power module.. Check the forward power reading on the AUI. If it is less than the preset level, one or more RF power modules are defective. Proceed to RF power module fault validation.. If the forward power reading in Step is normal press the Transmitter Status button on the AUI to check for other alarms that may have triggered the RF power module alarm. RF power module fault validation Each RF power module has a multi-colour LED on its front panel, which can help in identifying a fault and allowing you to determine whether remedial action is required now or later. Identify and isolate a defective RF power module, and verify the nature of the defect by checking the LEDs on the RF power modules front panels. Note which RF power module is not operating normally and producing RF power (i.e., LED is not solid green). Record which RF power modules are displaying an alarm and the state of its LED (see below). amber, off: module is RF off solid red: module has a non-latching alarm flashing red, then green: module is producing RF, but has an alarm long red, short amber: module has a latching alarm long red, short off: module has no valid serial number short red, long off: module has no valid serial address on the internal bus long amber, short green: module is producing RF, but no serial communications long amber, short red: module is not producing RF and no serial communications Except in the case of a High DC Current, High PA Volts and Residual PA Volts alarm, attempt to reset an RF power module by disconnecting and reconnecting the RJ plug in the front of the module. If you cannot reset the front panel LED alarm, see RF power module troubleshooting. Page - Issue

27 NX00 Troubleshooting Manual Responding to alarms RF power module troubleshooting Refer to Removing and reinstalling RF power modules on page - for removal and installation instructions and then refer to Troubleshooting RF power modules on page - for detailed troubleshooting information. NOTE: A defective RF power module can be removed for repair, without turning off the transmitter, as described in Removing an RF power module on page -. The transmitter can be operated at a reduced output power level with an RF power module removed. Cube #: B+ voltage low A Cube # B+ Voltage Low alarm is triggered when the B+ voltage is at least 0% below its expected level.. If all cubes are reporting this alarm, it is very likely there is also a Rack #: Low B+ alarm. If so, the fault is not likely associated with an RF power module; proceed to Rack #: Low AC on page -0 for further troubleshooting information. If not, proceed to Step.. Check and, if necessary, replace the the fuse on the power module interface PWB for the affected RF power module. Each power module interface PWB serves four RF power modules and therefore has four B+ fuses (F through F). Refer to Figures MD- and MD- in the Mechanical Drawings section of this manual to locate the associated power module interface PWB and then refer to Figure MD- or MD- to locate the specific fuse.. Check and, if necessary, replace the affected RF power module. See Troubleshooting RF power modules on page -. Issue Page -

28 NX00 Troubleshooting Manual Responding to alarms Rack #: Low AC A Rack # (-): Low AC alarm is triggered when the ac input voltage is at least % below its expected level. Recovery from this alarm is automatic when the ac voltage rises to an acceptable level. If the transmitter does not automatically recover from this alarm, the low ac voltage is normally caused by low ac mains voltage or improper primary taps on the power transformer. Troubleshoot a Rack #: Low AC alarm as follows. WARNING: Lethal voltages exist in the power supply compartment of the transmitter. Use extreme caution in this area.. Measure the ac input voltage and verify the power transformer is tapped as shown in Section, Connecting transformer taps/load wiring on page - of the NX00 Installation Manual. If necessary, turn off the transmitter, lock out the ac input voltage and retap the power transformer for the next highest voltage.. If the transformer taps are correct, the monitoring circuit is suspect. Contact Nautel for troubleshooting information. Rack #: Low B+ alarm A Rack # (-): B+ Voltage Low alarm is triggered when the B+ voltage is at least % below its expected level. Recovery from this alarm is automatic when the B+ voltage rises to an acceptable level. If the transmitter does not automatically recover from this alarm, the low B+ voltage is normally caused by low ac input voltage, improper primary taps on the power transformer, or a faulty rectifier assembly. Troubleshoot a Rack #: Low B+ alarm as follows. WARNING: Lethal voltages exist in the power supply compartment of the transmitter. Use extreme caution in this area.. Check the B+ voltage on the transmitter's AUI. If it is less than % of desired, the ac power source voltage or power transformer tap selection is suspect.. Measure the ac input voltage and verify the power transformer is tapped as shown in Section, Connecting transformer taps/load wiring on page - of the NX00 Installation Manual. If necessary, turn off the transmitter, lock out the ac input voltage and retap the power transformer for the next highest voltage. Page -0 Issue

29 NX00 Troubleshooting Manual Responding to alarms. If the transformer taps are correct, the monitoring circuit is suspect. Contact Nautel for troubleshooting information. Removing and reinstalling RF power modules Removing an RF power module. Confirm the location of the RF power module that is being removed. Note the alarm text includes a Module serial number that is also identified on the front panel of each RF power module. See Figure. on page - to determine the location for a given RF power module (A0 through A) for a given cabinet.. If possible, turn off the transmitter before removing an RF power module. If you need to remove a module while on air, disable the RF power module to be removed using the AUI. From the Meters page, click on the Rack information (i) button. The rack status screen (see Figure. on page -) should appear. Click on the associated RF power module s Cube Communication Status icon. The icon colour should change from green to yellow, indicating the RF power module is disabled. You should hear a relay in the back of the cabinet drop out (de-energize). Disconnect the RJ cable from the front of the RF power module. If the module was not disabled in Step, you should now hear a relay in the back of the cabinet drop out (deenergize). Remove both mounting screws from the RF power module s front panel.. Grasp the handle on the front of the RF power module and carefully pull the RF power module out of the transmitter. Issue Page -

30 NX00 Troubleshooting Manual Responding to alarms Figure.: Disabling/Enabling an RF Power Module Green indicates enabled. Click to disable (will turn yellow); clcik again to re-enable (will turn green) Page - Issue

31 NX00 Troubleshooting Manual Responding to alarms Installing an RF power module. If possible, turn off the transmitter before installing an RF power module. Grasp the handle on the front of the RF power module and insert it into the transmitter.. Carefully push the RF power module into place so that its card-edge connector mates with the transmitter.. Install both mounting screws in the RF power module s front panel.. Connect the RJ cable to the front of the RF power module. If you are installing the RF power module while the transmitter is on-air, click on the associated RF power module s Cube Communication Status icon as shown in Figure.. The icon colour should change from yellow to green, indicating the RF power module is enabled. You should hear a relay in the back of the transmitter pick up (energize).. Upgrade the subsystem software using the AUI s Upgrade Software page under the System Settings menu. See the NX00 Operations and Maintenance Manual for detailed instructions. Issue Page -

32 NX00 Troubleshooting Manual Responding to alarms Figure.: RF Power Module Locations RF Power Modules Front Door Removed for Clarity Page - Issue

33 NX00 Troubleshooting Manual Responding to alarms Troubleshooting RF power modules Maintenance philosophy Recommended troubleshooting procedures for RF power modules are limited to go or no-go resistance or diode measurements on the module s power semi-conductors and replacement procedures for these devices. Special Tools and Test Equipment The following test equipment and cables are required to troubleshoot an RF power module. A digital multimeter with resistance and diode settings. A torque screwdriver with a torque range of 0.0 to. N-m (0-0 in.-lbs). Required for installing MOSFET attaching hardware. A soldering iron and desoldering tool. An NX00 spares kit (contains replacement semi-conductors). Electrostatic Precautions The RF power module contains semiconductor devices that are susceptible to damage from electrostatic discharge. Be sure to follow the electrostatic precautions in Electrostatic protection on page - at all times. Preparation for Troubleshooting. Follow the procedure in Removing an RF power module on page - to remove the RF power module from the transmitter.. Place the RF power module on a suitable work surface.. Perform the resistance measurements on the modulator and power amplifier MOSFETs as described in Resistance measurements on page -.. Perform the diode checks on the free-wheel diodes as described in Power Amplifier FET replacement on page - Issue Page -

34 NX00 Troubleshooting Manual Responding to alarms Resistance measurements Complete the following resistance measurements for each suspect RF power module. See Figure. on page - to identify the power MOSFETs on the RF power module.. Remove fuse F from its holder and measure its resistance using a digital multimeter. A blown fuse will measure an open circuit. If the fuse is OK, return it to its holder.. For each power amplifier MOSFET (Q through Q0) and each modulator MOSFET (Q, Q and Q), use a digital multimeter to make the following resistance measurements. Note that Q through Q0 have screw-head terminals and Q through Q have solder pads (see Figure. on page -): Check for,000 Ω between the gate and source. Check for an open circuit between the gate and drain.. If either measurement in Step is not satisfactory, replace the affected power amplifier MOSFET (see Power Amplifier FET replacement ) or modulator MOSFET (see Modulator FET replacement on page -0).. If both measurements in Step are satisfactory, replace the entire RF power module (see Removing and reinstalling RF power modules on page -). Diode checks Complete the following diode checks for each suspect RF power module. See Figure. on page - to identify the free-wheel diode on the RF power module.. Use a digital multimeter (on its diode setting) to check free-wheel diode CR, noting the anode (A) and cathode (K) markings (see Figure. on page -):. If the diode is not satisfactory, replace the it by desoldering its surface-mount leads and case from the PWB. Locate a replacement diode (Nautel Part # QM) in the spares kit, if purchased, and solder it to the PWB, noting correct orientation.. If the diode is satisfactory, proceed to MOSFET replacement, as necessary, or replace the entire RF power module (see Removing and reinstalling RF power modules on page -). Page - Issue

35 NX00 Troubleshooting Manual Responding to alarms Figure.: RF Power Module MOSFET and Diode Location Modulator MOSFETs G D S Q G D S Q G D S Q Freewheel diode CR A K Partial View of NAPA Modulator/Power Amplifier PWB Some parts removed for clarity Power Amplifier MOSFETs Q0 Q Q Q Issue Page -

36 NX00 Troubleshooting Manual Responding to alarms Power Amplifier FET replacement See Figure. on page -.. Remove five M screws that secure the modulator/power amplifier PWB to the chassis.. Remove M screws (four for each MOSFET) that secure the PWB to the MOSFETs.. Swing the PWB away from the chassis and remove two M screws that secure the defective MOSFET to the chassis. If necessary, remove the screw securing the thermistor wire to the PWB.. Discard the defective MOSFET and its associated thermal pad (between MOSFET and chassis).. Ensure the surface of the chassis/heat sink is clean and free of debris.. Obtain a replacement MOSFET (Nautel Part # QR) and a new thermal pad (Nautel Part # HAK) from the spares kit, if purchased, and install them on the RF power module chassis using the two M screws removed in step. Torque hardware to in-lbs (. N-m).. Replace any other defective MOSFETs and then re-install the PWB to the chassis by reversing the instructions in steps through. Torque the MOSFET screws (four for each MOSFET) to a maximum of 0 in-lbs (. N-m).. Return the RF power module to service (see Installing an RF power module on page - ). Page - Issue

37 NX00 Troubleshooting Manual Responding to alarms Figure.: Power Amplifier FET Replacement Issue Page -

38 NX00 Troubleshooting Manual Responding to alarms Modulator FET replacement. Remove five M screws that secure the modulator/power amplifier PWB to the chassis.. Remove M screws (four for each MOSFET) that secure the PWB to the MOSFETs.. Desolder the gate, drain and source connections that secure the defective MOSFET to the PWB (see Figure. on page -). Also desolder the two connections that secure the defective MOSFET s heatsink to the PWB. Remove the heat sink and MOSFET from the PWB.. Remove the heatsink clip that holds the MOSFET on its heat sink. Remove and discard the defective MOSFET. CAUTION: The heat sinks of modulator MOSFETs are coated with a film of thermal compound. Use care to ensure the film does not become contaminated with foreign particles. When installing a replacement MOSFET, visually inspect the mating surfaces of the MOSFET and its heat sink. Ensure the heat sink surface is coated with a thin film of thermal compound. Ensure foreign particles that may affect thermal transfer are not embedded in the compound.. Clean the surface of the heat sink and make sure its is free of debris.. Apply a thin film of thermal compound to the heatsink.. Obtain a replacement MOSFET (Nautel Part # QR) from the spares kit, if purchased, and install it on the heat sink using the alignment post on the heat sink as an installation aid. Reinstall the heat sink clip removed in Step.. Replace any other defective MOSFETs and then re-install the heatsink on the PWB, first by soldering the two heatsink connections and then by soldering the MOSFET s gate, drain and source leads.. Reinstall the PWB to the chassis by reversing the instructions in steps and. Torque the power amplifier MOSFET screws (four for each MOSFET) to a maximum of 0 in-lbs (. N-m). 0. Return the RF power module to service (see Installing an RF power module on page - ). Page -0 Issue

39 NX00 Troubleshooting Manual Responding to alarms Control/exciter panel board removal/replacement The control/exciter panel (A, see Figure.) contains the control/interface PWB (AA), two digital AM exciter PWBs [A (AA) and B (AA)], remote interface PWB (AA) and optional GPS sync PWBs (AA and AA) and Exgine PWB (AA). The control/interface PWB physically interconnects with both digital AM exciter PWBs and the remote interface PWB. NOTE: To remove the control/interface PWB, you must first remove either the remote interface PWB or both digital AM exciter PWBs. Figure.: NX00 Control/Exciter Panel Issue Page -

40 NX00 Troubleshooting Manual Responding to alarms Preparation. If you are removing the control/interface PWB, record (as a minimum) the following information from the front panel AUI: Scheduler page: record Rules and Daily Events information. Factory Settings page: record all information System Settings page: record all information in the Exciter Clock Calibration, RF Monitor Level, Power Lockout and Power Thresholds menus. Remote I/O page: record all information for the user-defined remote Inputs and Outputs, including Channel and Control settings.. Disconnect all the cables from the PWB(s) to be removed. See Figure. on page -.. Replace the PWB according to its replacement procedure in the following paragraphs. Remote interface PWB replacement. Remove and retain six sets of mounting hardware from the remote interface PWB (AA).. Pull the remote interface PWB away from the control/interface PWB (AA). It may be helpful to gently pry the connector loose with a screwdriver.. Set the STATUS/ALARM jumpers (E through E) on the new remote interface PWB to the same positions as the defective PWB.. Use an indelible marker to identify the LED and switch labels on the new remote interface PWB to match the labels on the defective PWB.. Install the new remote interface PWB by reversing Step and Step.. Reconnect all interface wiring to the new remote interface PWB. Digital AM exciter PWB replacement. Set the transmitter to its RF Off state.. Connect a cable between the defective digital AM exciter PWB s RS- connector (-pin D- sub J, see Figure. on page -) and a PC. Page - Issue

41 NX00 Troubleshooting Manual Responding to alarms Figure.: Part of Digital AM Exciter PWB - Location of RS- Connector J TP +.V P ND L0 C C C C C0 C TP C +.V U C L R0 R R C0 C C R R R R0 U U R R R RESET R U S R BOOTLOADER R MODE J E PROGRAM NORMAL U TP R R C C0 C U RS- J C C U C Y R R R R. On MODE program header E (see Figure.), install the shorting jumper in the PROGRAM position (shorting pins and ). Press RESET switch S, located directly above E.. From the PC, run the NCode Uploader application (see Figure.). Click Settings and ensure the COM port reflects the port that the serial cable is connected to on your PC. Figure.: NCode Uploader Menu Issue Page -

42 NX00 Troubleshooting Manual Responding to alarms Figure.: Upload DSP Firmware Menu. Click the Upload DSP Firmware button (see Figure. on page -). The menu shown in Figure. should appear, along with the Connected to DSP successfully! prompt. Click OK.. Once connected, click the Read Exciter Configuration button. Select Save file to disk and click OK (see Figure.0 on page -) to save the current calibration data. Browse to a desired location to save the file.. If the defective exciter does not allow the previous steps to be performed, try using the operational exciter to save the required calibration data. In this case, repeat Step through Step for the operational exciter s digital AM exciter PWB. If there is no operational exciter, contact Nautel for the required calibration data. Page - Issue

43 NX00 Troubleshooting Manual Responding to alarms Figure.0: Upload DSP Firmware Menu - Select an Option. Remove and retain four sets of mounting hardware from the digital AM exciter PWB being replaced (AA or AA).. Pull the digital AM exciter PWB away from the control/interface PWB (AA). It may be helpful to gently pry the connector loose with a screwdriver. 0. Install the new digital AM exciter PWB by reversing Step and Step.. Connect a cable between the replacement digital AM exciter PWB s RS- connector (-pin D-sub J, see Figure. on page -) and a PC.. On the digital AM exciter PWB s MODE program header E (see Figure.), install the shorting jumper in the PROGRAM position (shorting pins and ). Press RESET switch S, located directly above E.. Once connected, use the PC to browse to the configuration file saved in Step by clicking the Browse button next to the Please Select a Exciter Configuration file: field (see Figure. on page -). Issue Page -

44 NX00 Troubleshooting Manual Responding to alarms Figure.: Upload DSP Firmware Menu - Browse for configuration file. Click the Program Exciter Configuration checkbox (see Figure. on page -) so that the box contains a checkmark and then click the Program New Firmware button.. On the digital AM exciter PWB s MODE program header E (see Figure.), return the shorting jumper to the NORMAL position (shorting pins and ). Press RESET switch S, located directly above E.. On the front panel AUI, reset any active alarms.. Upgrade the subsystem software using the AUI s Upgrade Software page under the System Settings menu. See the NX00 Operations and Maintenance Manual for detailed instructions.. Set the transmitter to its RF On state. Page - Issue

45 NX00 Troubleshooting Manual Responding to alarms Control/interface PWB replacement. Remove either the remote interface PWB (AA) or both digital AM exciter PWBs (AA and AA), whichever is easier. It may be helpful to gently pry the connectors loose with a screwdriver.. Remove and retain sets of mounting hardware from the control/interface PWB (AA).. Set the EXT/DRM (E), PDM INH (E) and REMOTE SUPPLY (E) jumpers on the replacement PWB to the same positions as the defective PWB.. Install the new control/interface PWB by reversing Step and Step.. Reconnect all mating connectors to the new control/interface PWB.. Re-enter all the AUI information recorded in Step of Preparation on page -.. Upgrade the subsystem software using the AUI s Upgrade Software page under the System Settings menu. See the NX00 Operations and Maintenance Manual for detailed instructions. GPS Sync PWB replacement. Remove and retain four sets of mounting hardware from the GPS sync PWB being replaced (AA or AA).. Set the jumpers on the replacement PWB to the same positions as the defective PWB.. Install the new GPS sync PWB by reversing Step and Step. Exgine PWB replacement. Remove and retain four sets of mounting hardware from the exgine PWB (AA).. Set the jumpers on the replacement PWB to the same positions as the defective PWB.. Install the new exgine PWB by reversing Step and Step. Issue Page -

46 NX00 Troubleshooting Manual Responding to alarms PDM Drive Distribution PWB replacement See Figure.. WARNING: Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and verify the 0 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or PWBs. Figure.: Location of PDM Drive Distribution PWB FRONT OF CABINET Front Door Removed for Clarity PDM Drive Distribution PWB. Open the front door of the affected cabinet (rack,, etc).. Disconnect all cables attached to the PDM drive distribution PWB, taking note of the connector labels on the cables and the PWB.. Remove and save six sets of mounting hardware.. Remove the defective PWB from the transmitter.. Reverse Step through Step to install the new PWB. Page - Issue

47 NX00 Troubleshooting Manual Responding to alarms RF drive distribution PWB replacement See Figure.. WARNING: Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and wait until the 0 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or PWBs. Figure.: Location of RF Drive Distribution and Rack Interface PWBs PWBs located on underside of this chassis Back Door and Side Panel Removed for Clarity. Turn off the ac power at the source. Open the back door of the affected cabinet (rack,, etc.) and verify the green LEDs on the power module interface PWBs are off, indicating the capacitors are discharged. For additional safety, measure the dc voltage across the + and - terminals of any of the large, electrolytic capacitors on the floor of the cabinet. There should be little or no voltage.. Disconnect all cables attached to the RF drive distribution PWB, taking note of the connector labels on the cables and the PWB.. Carefully remove and save seven sets of mounting hardware.. Remove the PWB from the transmitter. Issue Page -

48 NX00 Troubleshooting Manual Responding to alarms. Reverse Step through Step to reinstall the PWB. Rack Interface PWB replacement WARNING: Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and wait until the 0 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or PWBs. See Figure. on page -.. Turn off the ac power at the source. Open the back door of the affected cabinet (rack,, etc.) and verify the green LEDs on the power module interface PWBs are off, indicating the capacitors are discharged. For additional safety, measure the dc voltage across the + and - terminals of any of the large, electrolytic capacitors on the floor of the cabinet. There should be little or no voltage.. Remove the interconnecting RF drive distribution PWB (see RF drive distribution PWB replacement on page -). It may be helpful to gently pry the connectors loose with a screwdriver.. Disconnect all cables attached to the rack interface PWB, taking note of the connector labels on the cables and the PWB.. Carefully remove and save sets of mounting hardware.. Remove the PWB from the transmitter.. Reverse Step through Step to reinstall the PWB.. If you are replacing the Controller s rack interface PWB, disengage all RF power modules in the transmitter (see Removing and reinstalling RF power modules on page -).. One at a time, reinstall each RF power module. The LED sequence on the front panel of each module should change to solid red.. Upgrade the subsystem software using the AUI s Upgrade Software page under the System Settings menu. See the NX00 Operations and Maintenance Manual for detailed instructions. Page -0 Issue

49 NX00 Troubleshooting Manual Responding to alarms SCR Rectifier Inspection/Replacement See Figure.. WARNING: Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and wait until the 0 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or assemblies. Figure.: Location of SCR Rectifier Assembly U and its Cooling Fans Cooling Fans and SCR Rectifier Assembly U Back Door and Side Panel Removed for Clarity. Turn off the ac power at the source. Open the back door of the affected cabinet (rack,, etc.) and verify the green LEDs on the power module interface PWBs are off, indicating the capacitors are discharged. For additional safety, measure the dc voltage across the + and - terminals of any of the large, electrolytic capacitors on the floor of the cabinet. There should be little or no voltage. Issue Page -

50 NX00 Troubleshooting Manual Responding to alarms. If you are responding to a Rectifier Fan (or ) Fail alarm (if not, proceed to Step ), inspect the SCR rectifier assembly s cooling fans (see Figure. on page -) for debris that might restrict proper movement of the fan blades. If there is no noticeable debris, remove the suspect fan ( or, as specified by the alarm) by disconnecting its wiring and then removing the four Philips screws securing it to the top of U. Replace the fan with a suitable replacement ( V muffin fan, EBM Part # WG0-AG0-0). Secure the replacement fan to the SCR rectifier assembly and connect the fan s wiring as it was previously installed. Return the transmitter to service.. Disconnect all wiring attached to the SCR rectifier assembly, taking note of the wiring labels.. While supporting the weight of the SCR rectifier assembly, remove and save sets of mounting hardware.. Remove the SCR rectifier assembly from the transmitter.. Reverse Step through Step to reinstall the new or repaired SCR rectifier assembly. Ensure all connections are tight, noting some connections have special torque requirements (e.g., torque the AWG wires connecting to LINE, LINE and LINE to N-m (0 in-lbs). For wiring termination assistance with connections to the SCR rectifier assembly (U), check the wiring list for the appropriate cabinet in Section, Wiring/connector lists on page -. Low Voltage Power Supply Replacement WARNING: Lethal voltages exist inside the transmitter when the power is turned on. Turn off the power at the source and wait until the 0 bright green LEDs on the power module interface PWBs - in the back of each cabinet - are off before removing any connections or assemblies. See Figure. on page -.. Turn off the ac power at the source. Open the back door (rack,, etc.) and verify the green LEDs on the power module interface PWBs are off, indicating the capacitors are discharged. For additional safety, measure the dc voltage across the + and - terminals of any of the large, electrolytic capacitors on the floor of the cabinet. There should be little or no voltage.. Disconnect all wiring attached to the affected power supply module (U through U), taking note of the connector labels on the cables. Page - Issue

51 NX00 Troubleshooting Manual Responding to alarms Figure.: Location of Low Voltage Power Supplies U through U V Power Supplies U (A) and U (B) V Power Supplies U (A) and U (B) V Power Supply U Back Door and Side Panel Removed for Clarity. Remove and save four sets of mounting hardware.. Remove the power supply module from the transmitter, noting its reference designation (U through U) should be marked on the side panel near the module.. Reverse Step through Step to reinstall the new power supply module. Reconnect all wiring. Issue Page -

52 NX00 Troubleshooting Manual Responding to alarms RF Power Module Fan Tray replacement See Figure.. Figure.: Location of Fan Tray Assemblies Fan Associated Cube #s Tray (A0-A) A0 A A A A A0,A,A0,A,A0,A,A0,A A,A,A,A,A,A,A,A A,A,A,A,A,A,A,A A,A,A,A,A,A,A,A A,A,A,A,A,A,A,A A0 A A A A Fan Tray Assemblies Front Door Removed for Clarity. Open the front door of the affected cabinet (rack,, etc).. Determine the suspect fan tray assembly (A0 through A) associated with the offending cube # alarm(s).. Remove and save two sets of mounting hardware. Pull the fan tray assembly out of the transmitter.. Reverse Step through Step to install the new fan tray assembly. Page - Issue

53 NX00 Troubleshooting Manual Detailed Circuit Descriptions Section : Detailed Circuit Descriptions Refer to the functional block diagram: NX Series Transmitter Block Diagram on page - and high level descriptions of the NX00 Operation and Maintenance Manual. This section provides a detailed description of the transmitter s key modules and assemblies, including: Control/interface PWB (NAPC0A/0) - see page - Digital AM exciter PWB (NAPEA/0) - see page - Remote interface PWB (NAPI0) - see page - RF power module (NAPA) - see page - NX00 electrical schematics The descriptions in this section all refer to the NX00 electrical schematics listed in Table. on page - of the NX00 Troubleshooting Manual. Control/interface PWB (NAPC0A/0) See electrical schematics Figures SD- through SD-. Microcontroller Microcontroller IC U interfaces with the transmitter via several serial buses. J provides an isolated RS- interface with the front panel s advanced user interface (AUI). J provides an isolated RS- interface for debugging. There are also serial interfaces with exciter A (via J), exciter B (via J), optional Exgine PWB (via J), optional DRM exciters A (via JA) and B (via JB) and optional GPS sync PWBs A (via JA) and B (via JB). U also acts as an internal and external serial interface for transmitter alarm and status signals. RF drive selection and distribution The RF drive signals from exciters A and B are applied to J- /J- and J- / J- respectively. Each signal is stepped up through a : transformer (T or T) to a nominal volts peak-to-peak. Issue Page -

54 NX00 Troubleshooting Manual Detailed Circuit Descriptions The RF drive signals are applied to high speed comparators U:A and U:A, which are used to generate a square wave. These comparators also receive threshold data from digital potentiometer U, which acts to control the RF drive duty cycle. The outputs of the high speed comparators are applied to multiplexer U, which selects the active RF drive signal based on the status of the Select Side B input on U-. The active RF drive and signals are buffered using AND gates U0:A through U0:D and then split, using differential line drivers U through U, to be applied to each cabinet s RF drive distribution PWB (A). An RF Drive Sample signal is also applied to microcontroller IC U for monitoring. PDM drive selection and distribution The PDM through signals from exciters A and B are applied to J- ()/J- ()/J- ()/ J- ()/J- ()/J- ()/J- ()/J- ()/J- () and J- ()/J- ()/J- ()/ J- ()/J- ()/J- ()/J- ()/J- ()/J- () respectively. The PDM signals are applied to multiplexers U, U and U, which select the active PDM signals based on the status of the Select Side B input on U-. The nine active PDM signals are split, using differential line drivers U through U and U through U, and applied in three groups to each cabinet s PDM distribution PWB (A). A Modulation Sample, representative of the sum of all nine signals, is also applied to microcontroller IC U for monitoring. Each PDM signal is monitored by a comparator (U, U or U). If one of the PDM signals goes logic high for longer than desired, a PDM Latch signal is generated and applied to microcontroller U. This will inhibit the transmitter s RF output power and generate an exciter changeover, if enabled. Audio input conditioning Various audio inputs can be applied to the control/interface PWB. All inputs are conditioned and then applied to the digital AM exciter PWBs via connectors J (exciter A) and J (exciter B). Serial frame, clock and data inputs from the optional Exgine PWB (AA) are applied to RJ connector J0. These low voltage differential inputs are converted to V CMOS output levels by LVDS receivers U and U. Page - Issue

55 NX00 Troubleshooting Manual Detailed Circuit Descriptions Synchronization input selection Various synchronization inputs ( PPS, khz and 0 MHz) can be applied to the control/interface PWB. Selection circuits determine which sources (A or B, then internal or external) provide the signals applied to the digital AM exciter PWBs via connectors J (exciter A) and J (exciter B). PPS, khz and 0 MHz inputs from the optional GPS sync PWBs [AA (A) and AA (B)] are applied to connectors JA and JB respectively. Multiplexer U selects which sync inputs are passed based on the status of the Select Sync B input on U-. Shorting jumper E must be installed in the EXT position (shorting pins and ). Multiplexer U selects either internal or external sync inputs based on the status of the Select Sync Int input on U-. For internal input selection, the inputs from the selected GPS sync PWB (from multiplexer U) are applied to the digital AM exciter PWBs. For external input selection, the externally sourced PPS (J) and 0 MHz (J) inputs are applied to the digital AM exciter PWBs. Remote inputs and outputs The user can interface with up to pre-defined digital inputs, digital outputs and four analog outputs via the remote interface PWB (AA) (see Remote interface PWB (NAPI0) on page - ). The control/interface PWB configures these inputs and outputs based on customer interface with the AUI. These inputs and outputs may be user-defined or factory defaulted (see the NX00 Installation Manual for default settings). Digital inputs RFI filtering is provided on all digital input lines to ensure transmitter operation is not interrupted due to RF pick up on control lines. Opto-couplers buffer/isolate the external circuits and prevent unwanted transients from affecting transmitter operation. The digital inputs on connector J are shifted in through shift registers U and U. These values are then relayed to microcontroller U over the SPI bus. Digital outputs Shift registers U and U, controlled by microcontroller U over the SPI bus, control the status of the digital outputs applied to connector J. Digital output logic levels are configured through the AUI. Analog outputs Digital samples of the selected (or defaulted) analog outputs are applied to DAC U by microcontroller U over the SPI bus. The analog outputs of DAC U are applied to connector J, via operational amplifiers U:A through U:D. Issue Page -

56 NX00 Troubleshooting Manual Detailed Circuit Descriptions RF monitor circuit Forward and reflected power samples of the transmitter s RF output are applied from the RF output filter to the Fwd Pwr Sample (J-) and Refld Pwr Sample (J-) inputs. One of these inputs, as selected by RF MON switch S, is applied through variable gain amplifier U, current feedback amplifier U:A and transformer T to the RF MONITOR BNC output (J). This output provides a true sample of the forward or reflected power waveform and is intended for use by a modulation monitor. The RF Mon Gain signal, applied to U from microcontroller U via DAC U, allows for automatic adjustment of the RF MONITOR output to maintain a constant output, regardless of power level. The user can set this level using the AUI s Hardware Configuration menu. The level should automatically adjust based using the power set-point as a reference. Page - Issue

57 NX00 Troubleshooting Manual Detailed Circuit Descriptions Digital AM exciter PWB (NAPEA/0) See Figure. on page - and electrical schematics Figures SD- through SD-. Figure.: Block Diagram - Digital Exciter Block Diagram DSP The DSP (U) is an Analog Devices BF Blackfin IC. It provides initial data conditioning, including initial filtering and interpolation of incoming audio or digital radio data before it is applied to the FPGA. The DSP acts as the master controller for the PWB in that it provides startup configuration for the FPGA and other ICs and also performs error monitoring while the PWB is in operation. The DSP has an external SDRAM IC (U), which is used as a capture buffer for precorrection data and for network/spectrum analyzer purposes. FPGA The FPGA (U) is a Xilinx Spartan- 000 IC. It performs digital up-conversion, reverse path demodulation and down-conversion, B+ voltage compensation, digital PDM generation and RF drive synthesis. It also monitors digitized samples of the RF output voltage and current and provides necessary corrections to the drive signals for amplifier and modulator non-linearities. See Figure. on page - for a block diagram of the FPGA. Issue Page -

58 NX00 Troubleshooting Manual Detailed Circuit Descriptions Figure.: Block Diagram - FPGA I,Q Ref 0 ksps I,Q to Mag Equalizer FIR Tap B+ Comp x FIR Interpolator AM/AM Correction Gate x CIC Interpolator Phase PDM Generator PDM MSPS x Interp FIR/CIC Gate I,Q to Mag Phase AM/PM Correction Mag Phase To I RF DAC RF Phase Modulated Carrier. MSPS Carrier Frequency Complex Oscillator Combiner Curren t 0 ksps Combiner Voltage 0 ksps x Decimate FIR/CIC x Decimate FIR/CIC Gate Gate Reflected Power Sense fc IIR Filter fc IIR Filter Scale & Phase Correction High RF Current Sense RF ADC RF ADC Combiner Current Combiner Voltage Digital PDM generator See Figure.. The FPGA generates nine modulation phases, each separately synthesized at MSPS, resulting in very low quantization noise. The nine-phase process samples the modulation envelope at over. million samples per second. Distortion due to the modulation process is essentially eliminated. Figure.: -Phase Digital Modulation Modulation Process Phase Modulator x Phase Modulation x x 0 - Page - Issue

59 NX00 Troubleshooting Manual Detailed Circuit Descriptions Audio and IBOC digitization Differential analog audio is applied to J-0 and J-. Differential line receiver U converts the incoming audio to a single-ended signal and ADC U digitizes the signal. Analog audio can also be applied - in AES/EBU format - to J-. In this case, SRC U digitizes and rate converts the incoming audio. A second SRC (U0) accepts I/Q data in two different formats. AES/EBU format, as generated by a DRM exciter, is applied to J-0. CMOS format, as generated by an Exgine PWB or NE IBOC generator, is applied to J- (data), J- (clock), and J- (FS). The digitized audio signals are applied to DSP U for conditioning and filtering. RF data conversion Synthesized RF drive data from FPGA U is applied to -bit DAC U. U provides an analog RF drive output (nominally V peak-to-peak) on J- and J-, via isolation transformer T. A low-pass reconstruction filter, comprised of capacitors C through C and inductors L through L, removes the high frequency images present in the synthesized output signal. Samples of the RF output voltage (J-) and the RF output current (J-0) are are applied to ADCs U and U, through isolation transformers T and T. FPGA U monitors the digitized sample data from the ADCs for metering and protection purposes as well as regulating the synthesized drive outputs to maintain acceptable operating levels or to correct for amplifer and modulator nonlinearity. 0 MHz sync A 0 MHz signal can be used to synchronize (i.e., GPS lock) with the system clock. An internal 0 MHz reference is provided by VCXO oscillator U. An external 0 MHz (J-) can also be applied from a user supplied source or an optional GPS sync PWB. This signal is first applied through the control/interface PWB. If supplied by the user, the external signal must be precisely 0.00 MHz and its peak-to-peak voltage (sine or square wave) must be between. V and.0 V. PDM inhibit When faults are detected or actions are initiated that may cause RF stress current thresholds to be exceeded, 0 V is applied to the PDM Inhibit input (J-). FPGA U inhibits the 'on time' of the PDM outputs and, in turn, the RF output of the transmitter. Issue Page -

60 NX00 Troubleshooting Manual Detailed Circuit Descriptions RS- interface Communications between the exciter and the front panel AUI are performed via an RS serial bus. The front panel AUI sends configuration settings for the exciter, such as operating frequency, power level and audio input. The exciter sends status and error conditions to the AUI. Remote interface PWB (NAPI0) See electrical schematic Figure SD-. The remote interface PWB (AAA) performs the following functions: Provides an interface between the remote control/monitor facility and the transmitter. Provides momentary contact activation switches for each of the digital inputs. Provides configurable status or alarm indicator LEDs for each of the digital outputs. Digital inputs Up to digital inputs can be connected to terminal blocks J, J and J. You can define these digital inputs using the advanced user interface (AUI). Each must provide a logic low input (0 V) in its active state to the associated terminal of the remote interface PWB. Momentary switches S (0) through S (), which can be labelled according to their function, provide a means to locally activate the digital inputs. Digital outputs Up to digital outputs can be connected to terminal blocks J, J and J. You can define these digital outputs (alarm or status) using the advanced user interface (AUI). Each provides a negative logic (current-sink-to-ground) output when a true (alarm condition or active status) exists. The outputs provide an open collector during logic 'false' conditions (non-alarm or non-active status condition) and have no influence on the external monitoring circuit. Each monitoring circuit must present impedance between the switching device and a positive dc voltage source that results in a current flow of not more than 0 ma. A + V supply is available for use by the remote monitoring circuits on J- or J- (ground on J- or J-). Bi-position shorting jumpers E through E allow you to connect each digital output to a STATUS (green) or ALARM (red) LED, depending on its function. The outputs can also be labelled according to their function. Page - Issue

61 NX00 Troubleshooting Manual Detailed Circuit Descriptions RF power module (NAPA) See electrical schematics Figures SD- and SD-. The RF power module is effectively four wideband RF amplifiers for the AM broadcast frequency band (0-0 khz). It operates from a 00 V dc bus with a carrier output level of 00 W and can deliver peak power levels of. kw. The module contains a three phase modulator section that feeds directly to a highly efficient class D RF amplifier. All circuitry has been integrated into a single PWB (NAPA Modulator/Power Amplifier PWB) eliminating the requirement for interconnect wiring between stages. This simplifies troubleshooting, and serviceability of the entire power chain. The RF power module contains three main operating blocks, which are described in the following paragraphs: Modulator RF amplifier Protection/monitoring circuitry Modulator circuit The modulator circuit is a voltage regulating stage between the B+ voltage and RF amplifier. The modulator output will vary with any change in PDM duty cycle. The PDM duty cycle is determined by the carrier level plus the envelope information. For an envelope peak (maximum duty cycle) the modulator output will be approaching the B+ level; for an envelope trough (minimum duty cycle) the modulator output will approaching zero. The modulator stage receives three separate PDM signals that are operating 0 out of phase from each other but with the same duty cycle. This acts to provide cancellation of the fundamental switching frequency. PDM Inputs The three-phase PDM signals are applied to the RF power module through the RJ connector (J) at the front of the module. The PDM signals are received as differential signals and converted to TTL signals through individual RS receivers U:A, U:C and U:D. A PDM sample is generated by summing the TTL outputs using resistors R, R0, and R. This sample allows for onboard monitoring of the PDM duty cycle. Each PDM signal is also fed to a FET driver IC (U:A, U:A and U:A). Issue Page -

62 NX00 Troubleshooting Manual Detailed Circuit Descriptions FET Driver FET drivers U:A, U:A and U:A are capable of switching at very high speeds and sinking/ sourcing high amounts of current. These devices switch the energy required to turn the modulator power MOSFETs gates on and off. They also contain enable circuitry that allows the PDM signals to be interrupted immediately during a fault condition. When the Enable input (pin ) of each FET driver IC is held high (), the driver output is enabled and a 0 to V PDM signal is applied to the power MOSFET. During a fault condition, the Enable input is held low and the FET driver outputs will be 0 V. The #Mod_Drive_Enable+ signal is common to all three modulator FET drivers and is generated by e microprocessor U and MOSFET Q. When the output from the microprocessor is low (0 V), Q will be off causing the #Mod_Drive_Enable+ signal to be + V. When the output from the microprocessor is high ( V), Q will turn on causing the #Mod_Drive_Enable+ signal to be low (near 0 V). Switching Power MOSFETs Power MOSFETs Q, Q, and Q are ground referenced power switches that turn on during the positive duty cycle of the PDM signals. The three power MOSFETs all switch based on the PDM duty cycle, but operate 0 out of phase from each other. The drain of each MOSFET switches between B+ and ground. When the MOSFET turns on it will conduct current and the drain voltage will fall to 0 V. When the MOSFET turns off it will stop conducting and the drain voltage will rise up to the B+ level. The modulator output voltage is determined by the duty cycle at which the switching MOSFETs are conducting (e.g., for a duty cycle of.% and B+ of 00 V dc, the output of the modulator will be 0 V dc). Each power MOSFET drain is connected to an individual filter inductor (L, L, L) and freewheeling diode (CR, CR0, CR). The three inductors sum the drain currents together at a common point in the modulator filter, providing cancellation of the fundamental PDM frequency. The freewheeling diodes provide a path for current to continue to flow through the inductors when the respective MOSFET turns off, clamping the drain voltage to B+. Modulator Filter The modulator filter is configured as a low pass filter that will filter the fundamental PDM frequency and harmonics. The first LC filter stage is comprised of capacitor C and the parallel combination of inductors L, L, and L. The second LC filter stage contains inductor L0/L and parallel RF decoupling capacitors C and C. Page -0 Issue

63 NX00 Troubleshooting Manual Detailed Circuit Descriptions The modulator filter s output voltage is across capacitors C and C, but is not ground referenced. The output (PA voltage) applied to the RF power amplifier will be positive and is the sum of a dc component (carrier level) and an ac component (modulating source). The output voltage is related directly to the PDM positive duty cycle. If the duty cycle is constant the modulator filter output will be a dclevel. If the duty cycle is varying the modulator filter output will be a dc value plus an ac component. Diodes CR and CR are connected in series between the modulator filter output and ground. They prevent the modulator filter output from going negative, and possible RF MOSFET damage due to overvoltage. Modulator Current Sense The modulator output passes through a hall effect current sensor (U). The sensor provides a dc voltage sample that is indicative of the modulator output current. Microprocessor U monitors the current sample and shuts down the power module during an overcurrent event. This provides short circuit protection for the modulator circuitry. The output of the current sensor (U pin ) has a zero current offset of 0. V dc. Its output sensitivity is mv/a. RF power amplifier circuit The RF power amplifier circuit contains a Class D, resonant switching amplifier. The switching MOSFET's have very low on resistance, minimizing conduction losses. This allows for very efficient operation of the amplifier. The amplifier is capable of operating from 0 to 0 khz into a tuned load. Different load impedances and dead times are required for different frequencies to ensure proper switching of the MOSFET's. Each MOSFET has its own gate drive circuit allowing asymmetrical drive signals to be used. This allows a dead time to be introduced between each switching cycle of the Class D amplifier. RF Drive Inputs The RF drive signals are applied to the RF power module through the card edge connector (P). There are two separate signals at the desired carrier frequency: RF Drive and RF Drive. They are operating 0 out of phase with each other, with a pre-determined dead time inserted. The dead time is what allows the zero voltage resonant switching to occur within the class D amplifier. The amount of required dead time depends on many factors such as operating frequency, MOSFET device, gate drive circuit, and load current. The balanced RF drive input signals are converted to TTL signals using RS receivers U:A and U:B. These receivers are always enabled allowing for a constant RF drive sample to be monitored by microcontroller U. Issue Page -

64 NX00 Troubleshooting Manual Detailed Circuit Descriptions Gate Drive Circuit Each RF power MOSFET is driven individually by gate driver IC's U:A, U:A, U:A, and U:A. The #RF_Drive_Enable+ is controlled by microcontroller U through Q. This allows the microcontroller to perform proper shutdown sequencing during a fault condition. The output of each driver is connected to individual gate transformers through a dc blocking capacitor and dampening resistor. A dc restoration circuit is present on the gate of each RF power MOSFET, providing the optimal turn on and turn off voltages for the MOSFET. The dc restoration circuit consists of a storage capacitor, blocking diode, zener diode, and dc loading resistor. Figure.: Dc restoration circuit V.V RF DRIVE 0 C.0. T : - (.) + -.V C.0 D D + (.) - R 000 TO MOSFET See Figure.. The MOSFET driver output can be considered a square wave switching between 0 and V. Initially the gate signal will switch between 0 and V until a dc voltage is developed across C. The voltage across C is determined by the combined clamp voltage of zener diode D and rectifier D. In this case the voltage V C = (Vcc/) - (V Z + V FD ). V C =. - (. + 0.) =. V dc The actual gate drive signals transition from -. V to +. V, ensuring proper turn on and turn off events. RF Drive Sample and Detection RF drive and RF drive are averaged together using 0 kω resistors R0 and R0 and capacitor C0. This allows for a slow responding, average sample for microcontroller U. U monitors the sample and disables the module if the sample is lost completely, or outside the range of <0% and >0% duty cycle. Page - Issue

65 NX00 Troubleshooting Manual Detailed Circuit Descriptions Fast RF drive loss detection is accomplished using XOR gate U:A and comparator U:A. The XOR gate monitors both RF drive signals and, during normal operation, delivers a short low pulse during the dead time between the two drive signals. If one of the drive signals is lost the XOR gate produces a longer pulse equal to half of the carrier period plus two dead times. This will cause the sample voltage applied to U:A s non-inverting input below the threshold on the inverting input (. V). In this case, U:A s inverting input will switch high and latch itself on for a minimum of us. The inverting output of U:A (#RF_Drive_Fail+) is applied to the INT0 input of microcontroller U. When this signal switches high, U will immediately (within - 0 us) produce an interrupt to disable the module. Power Amplifier The class D power amplifier consists of four switching devices (Q through Q0) arranged in an H- bridge configuration (see Figure.) to produce unfiltered, modulated RF output. The switching devices are controlled such that each diagonal pair turns on simultaneously, while the second diagonal pair remains off. This creates two opposite power strokes through the load which is connected in the center of the H-bridge. The amplifier will switch at the desired carrier frequency and generate an RF signal that varies between ± PA volts. Dc blocking capacitors are connected to one side of the bridge to ensure that dc current does not flow through the RF transformer connected to the module. Figure.: Power amplifier H-bridge Q Q Q Q Q Q Q Q Issue Page -

66 NX00 Troubleshooting Manual Detailed Circuit Descriptions Control, Monitoring and Protection Microprocessor U performs all control, monitoring, and protection services required. It monitors analog samples and alarm conditions and will report back to a rack master controller via a serial data bus. Each RF power module is programmed with a unique serial number and when inserted into a transmitter is assigned a serial address by the rack master. CONTROL Serial Bus: The RF power module uses the RS serial protocol for communication with the rack master. This allows many devices to communicate on the same serial bus without interfering with each other. Each RF power module is capable of sending status and analog sample data to the rack master for diagnosis and display purposes. Modules also receive control data from the rack master. Microcontroller U sends and receives data through RS transceiver U0. U0 converts either the RX or TX TTL data to a balanced RS signal that can interface with the serial bus. U determines if it is transmitting or receiving data by controlling drive enable and receive enable pins ( and ) of U0. Typically U only transmits data over the serial bus when requested by the rack master. Module Enable: A discrete enable control line is connected to each module through the front RJ connector (J). The enable signal is received as a differential signal and converted to a TTL signal through RS receiver U:B. When the mating cable is unplugged from J, the output of U:B defaults to a high state. This places V on pin (INT) of microprocessor U, which causes an interrupt to occur within U, disabling the module. A Cube #: External Disable Active alarm is generated. Mod Drive Enable: The Mod Drive Enable signal is a status line that is switched through Q. It enables and disables PDM MOSFET drivers U, U and U. RF Drive Enable: The RF Drive Enable signal is a status line that is switched through Q. It enables and disables RF MOSFET drivers U, U, U and U. RF Relay Close and Open: The RF Relay Close and RF Relay Open lines control the RF shorting relay connected across the primary of the RF output transformer at the output of each module. The RF shorting relay is a latching relay with both an operate and release coil. By default the RF shorting relay is forced into the closed position due to pullup resistor R on the gate of Q. This causes Q to conduct current through the operate coil as soon as the V supply is present. During normal operation microcontroller U holds the gate of Q low, preventing it from conducting current. Page - Issue

67 NX00 Troubleshooting Manual Detailed Circuit Descriptions During normal operation the RF shorting relay is in an open state. U sends out a V pulse for 0 ms to the gate of Q. This allows Q to conduct current through the release coil causing the RF shorting relay to open its contacts. After the 0 ms pulse the gate of Q will return to 0 V and Q will stop conducting, the relay will remain latched in the open position. A Cube #: RF Relay Open status event is generated. When the module is disabled or an internal alarm occurs, U disables the RF drive signal and then closes the RF shorting relay by sending a V 0 ms pulse to the gate of Q. The shorting relay will be latched into the closed position, allowing the module to be removed from the transmitter. LED Indicator: Bi-colour LED DS is visible from the front cover of the RF power module. Microcontroller U controls the light colour of DS by allowing Q, Q, or both, to conduct. Refer to the following colour codes to determine the status of the RF power module: green, solid: module is operating normally and producing RF power amber, off: module is RF off solid red: module has a non-latching alarm flashing red, then green: module is producing RF, but has an alarm long red, short amber: module has a latching alarm long red, short off: module has no valid serial number short red, long off: module has no valid serial address on the internal bus long amber, short green: module is producing RF, but no serial communications long amber, short red: module is not producing RF and no serial communications Programming Header: Connector J is a JTAG programming header used for initially programming microcontroller U. It is not used during normal operation. MONITORING Dc Current: The Dc Current sample from the modulator output is monitored by microcontroller U for diagnostic, telemetry and fault detecting purposes. The sample is monitored by two separate sections of U. The analog average dc current sample is detected by ADC0 (pin ) of U. The dc current sample is heavily filtered through R and C, minimizing current sample variations due to modulation. Issue Page -

68 NX00 Troubleshooting Manual Detailed Circuit Descriptions Fast overcurrent conditions are detected through the use of an internal comparator of U. The unfiltered dc current sample flows through diode CR0 and receives high frequency filtering with R and C. This voltage is applied to the comparator input AIN0 (pin 0) of U. The comparator reference voltage is applied to AIN (pin ) of U and is set through resistors R and R. This reference voltage should be.0 V dc. When the dc current sample exceeds this voltage, indicative of a peak current in excess of A, an interrupt occurs within U and the module will be latched off immediately. B+ Sample: The B+ Sample is generated by the output of a voltage divider formed with resistors R, R, R and R. The sample is filtered through R and C and buffered through U:A. This voltage is indicative of the B+ level applied to the module and is a nominal. V dc for a B+ level of 00 V dc. U monitors the analog sample through its ADC input (pin ). PA Volts Sample: The PA Volts Sample is generated by the output of a voltage divider formed with resistors R, R, R and R. The sample is filtered through R and C and buffered through U:B. This voltage is indicative of the PA voltage applied to the modulator circuit and is a nominal. V dc for a PA voltage of 0 V dc. U monitors the analog sample through its input ADC input (pin ). U uses this sample to calculate the actual PA voltage level that is present across the RF amplifier. The value is calculated by subtracting the PA voltage sample from the B+ sample. Modulation Sample: The Modulation sample is a low level dc voltage that indicates the average PDM positive duty cycle. The three PDM phases are summed together through resistors R, R0, and R, and form a voltage divider with R. Capacitor C provides heavy filtering to minimize the sample variation due to modulation. A nominal level of V dc (.% positive duty cycle) is applied to the ADC input (pin ) input of U. RF Drive Level: The RF Drive Level sample is a low level dc voltage that indicates the average RF drive positive duty cycle. RF Drive and RF Drive are summed together through resistors R0 and R0. A voltage divider is formed with R. Capacitor C0 filters the RF component out of the sample. The nominal RF drive positive duty cycle is between and %. This generate a dc voltage of between. and. V dc on the ADC input (pin ) of U. RF Drive Fail: The #RF_Drive_Fail + status line is a logic level signal that comes from the RF drive fast detection circuit. This signal is low during normal operation. In the event of an RF drive failure the output of comparator U:A switches high ( V). This voltage is applied to the INT0 input (pin ) of U, causing an immediate interrupt to occur within the U The RF power module will be disabled within 0 us. Page - Issue

69 NX00 Troubleshooting Manual Detailed Circuit Descriptions Fan Tach A and B: Each power module monitors the tachometer signals from both fans that are operating within its respective column. The fan tachometer output is an open collector output that will switch on and off in direct relation to the fan speed. Pullup resistors R and R provide switching signals from 0 to V. The tachometer signals are then applied to the T and T0 timer inputs (pins and ) of U, allowing for fan speed monitoring. Thermistor: A thermistor is mounted directly on the RF power module heatsink. A voltage sample is generated with resistor R and the parallel combination of R0 and the thermistor. Resistors R and R0 have been selected to provide the most linear voltage response for the operating temperature range of the RF power module. The voltage sample is filtered through R and C and buffered through U:C. The temperature sample is monitored by the ADC input (pin ) of U. U disables the module if the heatsink temperature exceeds 0 C. Analog Reference: An analog reference of. V dc is generated by a voltage divider formed by resistors R and R. The dc value is buffered through U:D and applied to the AREF input (pin 0) of U. U uses this reference for all of its internal analog to digital converters. Issue Page -

70 NX00 Troubleshooting Manual Detailed Circuit Descriptions Page - Issue

71 NX00 Troubleshooting Manual Parts Lists Section : Parts Lists Parts information This section contains reference designation lists that provide descriptive and provisioning information for all electrical and mechanical parts that have an assigned reference designation and form a part of the subject equipment. Family tree Figure. on page - through Figure. on page - depict the family trees for the subject equipment. They are based on the descending order of the reference designation hierarchy and identify all assemblies that have an assigned Nautel configuration control number. How to locate information about a specific part To locate the information for a specific part, the assigned reference designation for the part must be known. In addition, the Nautel nomenclature (e.g., NAP) assigned to the assembly containing the part or the full reference designation, including the reference designation of all higher assemblies, must be known. When the nautel nomenclature is known: Refer to the family tree (Figure. on page - through Figure. on page -) and identify the block(s) associated with the Nautel nomenclature. At the bottom of each family tree block, a reference is made to See Part Number Index Table. Locate the part's reference designation in the identified reference designation list in this section, noting they are sorted alphanumerically. When the reference designation is known: Refer to the family tree depicted in Figure. on page - through Figure. on page - with the full reference designation. Follow the family tree branches to the block that represents the lowest level assembly assigned a Nautel configuration control number. Then locate the part number index table for that Nautel configuration control number. Locate the part's reference designation in the specified table. Issue Page -

72 NX00 Troubleshooting Manual Parts Lists Reference designation lists Individual reference designation lists are provided for: assemblies that are assigned an alpha-prefixed Nautel nomenclature (e.g., NAP) cable harnesses that are assigned a numbered Nautel part (e.g., 0-0-0) optional kits that are assigned a numbered Nautel part To obtain the full reference designation for a specific part the Nautel configuration control number must be located in the family tree (Figure. on page - through Figure. on page -) to include the reference designation of all higher level assemblies. The reference designation lists, which are titled and presented in alphanumeric order, are divided into columns to aid in locating specific information. Column content The following paragraphs provide an explanation of the purpose and contents of each column in the part number indexes. Ref des column The 'ref des' column contains the reference designation for a specific part. These designations are assigned in accordance with the requirements of American National Standard Specification ANSI Y.. Description column This column contains the name and descriptive information for each part. The key word is presented first, followed by the adjective identifiers. When the description is 'See Family Tree for Assembly Nomenclature', the associated part is subject to its own part index table or is contained in an optional kit's list. Look up the reference designation list title (nomenclature) and the reference designation of the associated part in the family tree (Figure. on page - through Figure. on page -) to determine where to locate its part information. Nautel # column This column contains the Nautel number assigned to each part. This number is Nautel's drawing number for Nautel manufactured parts, Nautel's configuration control number for assemblies that are under configuration control management, or Nautel's inventory management number for purchased parts. When a Nautel configuration control number (e.g. NAPC*) is referenced in this column, the associated ref des item is subject to its own part index table. Page - Issue

73 NX00 Troubleshooting Manual Parts Lists Vendor # column This column contains an original equipment manufacturer's part number for a part. A single part number is listed for each part, even though there may be more than one known manufacturer. The listed number is Nautel's usual or preferred choice. The use of this number does not restrict Nautel from selecting and using commercial equivalents during manufacture, where their use will not degrade circuit operation or reliability. OEM code column This column typically contains a five digit coded group as the original equipment manufacturer's (OEM) identifier. The code was extracted from Cataloging Handbook H/H Commercial and Government Entity (Cage) Code. Manufacturers that were not listed in the catalog when this listing was compiled have been assigned a unique five-letter code. This code is assigned arbitrarily and has no other significance. The manufacturers identified for parts that have JAN or MIL part numbers are Nautel's normal supply source for that part. Note: OEM code is listed for parts manufactured by Nautel or to a Nautel control drawing. United States of America customers should refer all replacement part orders to Nautel Maine Incorporated (OEM code ). OEM code to manufacturer s cross-reference The OEM (CAGE) codes listed in the reference designation lists are representative of the original equipment manufacturers of those parts. To determine a specific part's manufacturer contact information, enter the five-character OEM (CAGE) code for that part in the following website: After entering the OEM (CAGE) code number, manufacturer pertinent information (address, telephone number, fax number, etc.) will be displayed. Please contact Nautel if a part cannot be obtained (see also On-Line Part Quotes in the Warranty section of this manual). Manufacturer's index For customers without web access, Table. provides a cross-reference from the original equipment manufacturer's (OEM) codes to the manufacturer's name. The listing is sorted alphanumerically by the OEM code. Issue Page -

74 NX00 Troubleshooting Manual Parts Lists Common abbreviations/acronyms The following abbreviations/acronyms may appear in the Description of Part column: SMT Denotes item is designed to be installed using Surface Mount Technology. MTA Denotes item is a Mass Termination Assembly connector. SIP Single In-line Package DIP Dual In-line Package IDC Denotes item is an Insulation Displacement connector for ribbon cable. Table.: OEM Codes / Manufacturers OEM Code Manufacturer OEM Code Manufacturer 00 CTS Company Incorporated 0DY Microsemi Corp-Power Products Grp 0 Texas Instruments Incorporated 0FMA Neutrik USA Inc 0 Pulse Engineering Inc. 0G Huffman Manufacturing Co. 00 Amphenol Corp., Spectra-Strip/ITD 0GP Radiall Inc. 0LB0 Sandisk Corporation 0PJ Kingston Technology Company Inc. 0 Motorola Incorporated 00 Diodes Inc. 000 Raychem Corporation Burr-Brown Corp. 0 Fairchild Semiconductor Corp Cornell Dubilier Electronics 0 Fairchild Semiconductor Corp Scientific Components Corp. 0EN Advanced Monolythic Ceramics AA Collmer Semiconductor Inc 0 Signal Transformer Co. Inc. EC SEI Electronics Inc. 0 Amp of Canada Limited FN Atmel Corporation 0 M Canada Incorporated JRT Epson Electronics American Inc. 0AK IXYS Corporation KK ITT Industries Incorporated 0AG Hirose Electric / USA / Inc. MQ0 ZRG Incorporated 0B0A Dallas Semiconductor Corporation NT0 Semikron Inc. 0CVK Allegro Microsystems Inc. W United Chemi-Con Mfg Inc. Page - Issue

75 NX00 Troubleshooting Manual Parts Lists Table.: OEM Codes / Manufacturers OEM Code Manufacturer OEM Code Manufacturer Thomas and Betts Limited Intel Corp Sales Office Ross Engineering Corp. D Fairchild Semiconductor Corporation M-Tron Industries Incorporated 0 Bourns Instrument Incorporated Analog Devices Incorporated 0 Dialight Corporation, DBA Dialight 0 National Semiconductor Corporation 00 Hammond Mfg. Co. Ltd. Molex Incorporated Keystone Electronics Corporation D Cornell Dubilier Electronics Corp. Honeywell Incorporated Kemet Electronics Corporation Alco Electronic Products Inc. Edac Incorporated 0 AVX Ceramics, Div of AVX Corp 0 Ferronics Incorporated AMP/TYCO Tyco Electronics Corporation 00 Dale Electronics ANALOG D Analog Devices Nautel Limited ASTEC Astec Power CYG Sanyo Denki America Inc. AVAGO Avago Technologies DX Citizen America Corporation AVX CORP AVX Corporation EH0 Murata Electronics North America Inc C0 Conec Elektronische Bauelemente USB Startech.com USA LLP C Epcos AG WCG0 Ferraz Shawmut Incorporated C & D C & D Technologies Digital Systems COMET GC Electronics Comp Corp Components Corporation S B E Incorporated CORNELL See D G Raychem Corporation CREE INC Cree Inc. TKQ UPE Inc. ER Texas Instruments Matsushita Electric Corp of America HYPERTR Hypertronics Corporation TDK Electronics Corp. IDT Integrated Device Technology, Inc. Sprague Electric Company ITT INDUS See KK BC Components KEYSTONE See Vishay Dale Electronics Inc. KYCON Kycon Cable & Connector Inc. KOA Speer Electronics Inc. LINEAR See International Rectifier Corp. LITEON Vishay-Liteon Power Semiconductor Y0 Phoenix Contact Inc. L Circuit-Test Electronics Ltd. 0 Premier Industrial Corp. MARKTEC Marktech Optoelectronics Linear Technology Corporation MICRON Micron Technology, Inc. Cypress Semiconductor Corp. MINI-CIRC Mini-Circuits 00 Cooper Bussman Inc. MOLEX Molex Inc. ITT Corporation NATIONAL See 0 0 TRW Incorporated NXP SEMI NXP Semiconductors Littelfuse World Headquarters ON-SEMI ON Semiconductor Issue Page -

76 NX00 Troubleshooting Manual Parts Lists Table.: OEM Codes / Manufacturers OEM Code Manufacturer OEM Code Manufacturer PANAS Panasonic SL Meanwell Sales Information PHOENIX See Y0 TDK See SARONIX Saronix TEXAS See ER SAW IEI Technology Corp. U00 ST Microelectronics SB ELE SB Electronics Incorporated VENKEL Venkel Ltd SCT0 Fairchild WANJIA Wanjia Page - Issue

77 NX00 Troubleshooting Manual Parts Lists Figure.: NX00 Family Tree (Sheet of ) NX00 00 kw AM BROADCAST TRANSMITTER NARAA (SEE PART NUMBER INDEX TABLES) A 00 kw CABINET, CONTROL NARAA (SEE SHEET ) A 00 kw CABINET, OUTPUT NARAA/0 (SEE SHEET ) F00 V Issue Page -

78 NX00 Troubleshooting Manual Parts Lists Figure.: NX00 Family Tree (Sheet of ) 00 kw CABINET, CONTROL NARAA A, A, A, A, A RF COMBINER BACK PLANE NAHC/0 A, A, A, A, A0 RF COMBINER BACK PLANE NAHC/0 A CONTROL/EXCITER PANEL NAEB/0 A, A, A NOT USED AA,AA,AA,AA,AA POWER MODULE INTERFACE PWB AA,AA,AA,AA,A0A POWER MODULE INTERFACE PWB AA CONTROL/INTERFACE PWB AA DIGITAL AM EXCITER PWB (A) NAPIA NAPIA/0 NAPC0A/0 NAPEA/0 AA DIGITAL AM EXCITER PWB (B) AA REMOTE INTERFACE PWB A RACK INTERFACE PWB A RF DRIVE DISTRIBUTION PWB NAPEA/0 NAPI0 NAPIA NAPI AA GPS SYNC PWB (A) AA GPS SYNC PWB (B) NAPX (OPTIONAL) NAPX (OPTIONAL) A PDM DRIVE DISTRIBUTION PWB NAPI A B+ DISTRIBUTION ASSEMBLY NAXA AA EXGINE PWB NAPE (OPTIONAL) A B+ DISTRIBUTION ASSEMBLY A0 RF POWER MODULE (A) A - A RF POWER MODULE (B - AP) A0 - A FAN TRAY ASSEMBLY NAXA NAP SAME AS A0 0- A0A MODULATOR/POWER AMPLIFIER PWB NAPA A CONTROL/DISPLAY DOOR ASSEMBLY A VOLTAGE PROBE A CURRENT PROBE A - A NOT USED A0 CAPACITOR ASSEMBLY A ARC DETECTOR ASSEMBLY A 00 kw RECTIFIER ASSEMBLY F00 V Page - Issue

79 NX00 Troubleshooting Manual Parts Lists Figure.: NX00 Family Tree (Sheet of ) 00 kw CABINET, OUTPUT NARAA/0 A, A, A, A, A RF COMBINER BACK PLANE NAHC/0 A, A, A, A, A0 RF COMBINER BACK PLANE NAHC/0 A - A NOT USED AA,AA,AA,AA,AA POWER MODULE INTERFACE PWB NAPIA AA,AA,AA,AA,A0A POWER MODULE INTERFACE PWB NAPIA/0 A RACK INTERFACE PWB A RF DRIVE DISTRIBUTION PWB A PDM DRIVE DISTRIBUTION PWB A B+ DISTRIBUTION ASSEMBLY NAPIA NAPI NAPI NAXA A B+ DISTRIBUTION ASSEMBLY A0 RF POWER MODULE (A) A - A RF POWER MODULE (B - AP) A0 - A FAN TRAY ASSEMBLY NAXA NAP SAME AS A0 0- A0A MODULATOR/POWER AMPLIFIER PWB NAPA A - A NOT USED A DIRECTIONAL COUPLER A CHOKE WINDING DETAIL ASSY A0 CAPACITOR ASSEMBLY NAFP0A A ARC DETECTOR ASSEMBLY A 00 kw RECTIFIER ASSEMBLY A ANTENNA GROUND SWITCH F00 V Issue Page -

80 NX00 Troubleshooting Manual Parts Lists Page -0 Issue

81 -00-0 Equipment Hardware Kit (Metric) Continued from previous page PLCA Change HT to HT PLCA -0 PLCA Copper Strap (RH) ECR NX RELEASE ECR ECR ECR Copper Strap (LH) ECR NX RELEASE ECR ECR ECR Transformer Assy ECR NX RELEASE ECR ECR ECR K0 Relay Assy K0 Relay Assy Transformer Assy ECR NX RELEASE ECR ECR ECR K0 Relay Assy K0 Relay Assy Relay Assy A0 Gas Discharge PWB Assy ECR NX RELEASE ECR ECR ECR K0 P0 Relay, Latching, 00A, Dbl Coil, Reverse Polarity KA0 K00B-0-0AR- 0(RoHS) MTA, Standard Dust Cover, pin JU0 0-0 P0 MTA, Keyed Closed End Housing, pin,awg JU --(ROHS) 00 AMP PLCA Change HT to HT PLCA -0 PLCA -0 Page of 0-0-0

82 Control Door Assy-NX Series ECR NX RELEASE ECR ECR ECR U0 Touchscreen Monitor Kit Assy (UR0) Bracket, LH,Rectifier Mounting ECR NX RELEASE ECR ECR ECR 0- Bracket, RH,Rectifier Mounting ECR NX RELEASE ECR ECR ECR Gas Discharge PWB Assy ECR NX RELEASE ECR ECR ECR U0 Gas Discharge Tube, 00V, Fail Short UM SL0A00RF(RoHS) 0--0 Voltage Probe Assy, NX00 C0 Capacitor, Mica, Dipped, 000pF % 00V CAP CDFDGOF(Ro HS) C0 Capacitor, Mica, Dipped, 000pF % 00V CAP CDFDGOF(Ro HS) ECR NX RELEASE ECR ECR ECR J0 Conn, Coax, BNC, Recept, 0ohm JDP UG0/U Voltage Probe Bracket ECR NX RELEASE ECR ECR ECR Page of 0-

83 0--0 Filter Front Panel ECR NX RELEASE ECR ECR ECR 0--0 Filter Front Panel ECR NX RELEASE ECR ECR ECR 0--0 Current Probe-NX, 0,00,00, 00 (Bom), 00 (Bom), RLS J0 Not Used - J0 Not Used - R0 Not Used - R0 Not Used - R0 Not Used - R0 Not Used - T0 Transducer, Current, 0mV/A into 0 Ohms, Float UC CM--Si-U KW Rectifier Assy A0 AC Power Indicator Assy, NX00-NX C0 Capacitor, Non-Polarized, 0uf, +/-0%, V CS NNR00MVX NICCOMP C0 Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV ECR NX RELEASE ECR ECR ECR U0 Rectifer,(BeO) SCR,-PH,00VDC 00A, FULL CTRL UR 0 Page of 0-0-0

84 0-0-0 Capacitor Assy, 00kW Rack C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA Capacitor,Elect.,0,000uf,0Vdc CT GN0T0MPA K0 Discharge Relay Assy R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY R Resistor, Wirewound, HL, 0 ohms/0w/% c/w mt fixture RX DQR-F 0W 0 ohms U0 Not Used - Page of 0-0-0

85 0-0-0 Capacitor Assy, 00kW Rack Continued from previous page U0 U0 U U U Rect/Assy, Bridge, 00V, A UF GBPC0 LITEON Rect/Assy, Bridge, 00V, A UF GBPC0 LITEON Rect/Assy, Bridge, 00V, A UF GBPC0 LITEON Rect/Assy, Bridge, 00V, A UF GBPC0 LITEON Rect/Assy, Bridge, 00V, A UF GBPC0 LITEON 0--0 AC Power Indicator Assy, NX00-NX00 DS0 DS0 DS0 J0 J0 LED, Pilot Light, Amber, 0Vac LED, Pilot Light, Amber, 0Vac LED, Pilot Light, Amber, 0Vac BAP BAP BAP LEDTECA0AC LEDTECA0AC LEDTECA0AC Conn, Mate-N-Lok, Cap,,00V/A,.0" Centerline JT -00-0(RoHS) L Conn, Contact, Socket, -,Mate-N-Lock JT AC Indicator Cable,NX00-NX00 E0 P0 P0 Connector, Quick-Dis, M,/ Tab, - AWG HAM Conn, Mate-N-Lok, Plug,,00V/A,.0" Centerline JT -00-0(RoHS) L Conn, Contact, Pin,-MATE-N-LOK JT 0-00 Page of 0-

86 Cableform, RF NX00-NX00 W W W W W W W W W W0 W W W W W W W W W W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet,0", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, 0", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, 0", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, 0", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet,0", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 UA0 UA0 UA UA0 UA UA0 UA0 UA0 UA UA UA0 UA0 UA UA UA0 UA0 UA0 UA0 UA0 PCF-SI- UA0G(RoHS) PCF-S0I- UA0G(RoHS) PCF-S0I- UA0G(RoHS) PCF-SI- UAG(RoHS) PCF-S0I- UA0G(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UAG(RoHS) PCF-S0I- UA0G(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UA0G(RoHS) PCF-S0I- UA0G(RoHS) PCF-SI- UA0G(RoHS) Page of

87 Cableform, PDM NX00-NX00 (RLS ) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA ECR NX RELEASE ECR ECR ECR W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 PCF-SI- UA0G(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 PCF-SI- UA0G(RoHS) W0 Cable, Ethernet, 0", Shld, Black, AWG, 0degC, with guard UA00 PCF-S0I- UA00G(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 PCF-SI- UA0G(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 PCF-SI- UA0G(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 PCF-SI- UA0G(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W Cable, Ethernet, 0", Shld, Black, AWG, 0degC, with guard UA00 PCF-S0I- UA00G(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 PCF-SI- UA0G(RoHS) W Cable, Ethernet, 0", Shld, Black, AWG, 0degC, with guard UA00 PCF-S0I- UA00G(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 PCF-SI- UA0G(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) W Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA PCF-SI- UAG(RoHS) PCF-SI- UAG(RoHS) Page of

88 Cableform, PDM NX00-NX00 (RLS ) Continued from previous page W W W W W0 W W W W W W W W W W0 Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard Cable, Ethernet, ", Shld, Black, AWG, 0degC, with guard UA0 UA UA UA UA0 UA UA UA UA0 UA UA UA0 UA UA0 UA PCF-SI- UA0G(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UAG(RoHS) PCF-SI- UA0G(RoHS) PCF-SI- UAG(RoHS) 0--0 Back Plate ECR NX RELEASE ECR ECR ECR 0-0- Control Cabinet "A" - NX00RLS ECR NX RELEASE ECR ECR ECR 0-0- Output Cabinet Cab Rack Assy,NX00 RLS ECR NX RELEASE ECR ECR ECR Page of 0-0-

89 0-- SIDE SKIN ECR NX RELEASE ECR ECR ECR 0-- SIDE SKIN ECR NX RELEASE ECR ECR ECR 0-- SIDE SKIN ECR NX RELEASE ECR ECR ECR 0-- SIDE SKIN ECR NX RELEASE ECR ECR ECR 0- Fan Tray Assy B0 Tach ZAP 0EC0(RoHS) CYG SANYO DENKI AMERICA INC B0 Tach ZAP 0EC0(RoHS) CYG SANYO DENKI AMERICA INC E0 Connector, Quick-Dis, M,/ Tab HAM E0 Connector, Quick-Dis, M,/ Tab HAM E0 Connector, Quick-Dis, M,/ Tab HAM E0 Connector, Quick-Dis, M,/ Tab HAM E0 Connector, Quick-Dis, M,/ Tab HAM E0 Connector, Quick-Dis, M,/ Tab HAM ECR NARAB NX00-CMT, WRS, PartsList and DWG ECR ECR Update J0 Conn, Plug, D-Sub, pin JR 00-0 J0 Conn, Lock Screw, D-Sub, Female JS D0 PLCA Change HO to 0- PLCA -00 PLCA -00 Page of 0-

90 0-0-0 Combiner Cover, NX00, Detail Assy ECR NARAA NX00 - Update DWG &Parts list for label ECR placemnet ECR Combiner Cover, NX00, DetailAssy ECR NARAA NX00 - Update DWG &Parts list for label ECR placemnet ECR 0-0- Combiner Cover, NX00, DetailAssy ECR NARAA NX00 - Update DWG &Parts list for label ECR placemnet ECR 0--0 Rear Door Inner Skin - NX00-NX00 ECR NX RELEASE ECR ECR ECR 0-0- Top, Control RacK, NX00/00,RLS ECR NX RELEASE ECR ECR ECR 0-0- Top, Output Rack, NX00/00,RLS ECR NX RELEASE ECR ECR ECR 0--0 Rear Door Detail Assy ECR NX RELEASE ECR ECR ECR Page 0 of 0--0

91 0--0 Bottom, NX00/00 RLS ECR NX RELEASE ECR ECR ECR 0--0 Rear Door Assy NX00-NX00 ECR NX RELEASE ECR ECR ECR 0- Cover ECR NX RELEASE ECR ECR ECR 0- Cover ECR NX RELEASE ECR ECR ECR 0--0 Ancillary Kit, NX00, RLS ECR NX RELEASE ECR ECR ECR PLCA Change HT to HT PLCA -0 PLCA -0 PLCA Change HT to HT PLCA -0 PLCA Discharge Relay Assy K0 Relay, KV, NC, 0V, AUX SW, Ext Range KC E-NC--T-- NAU 0--0 Coil Assy, NX00 ECR NX RELEASE ECR ECR ECR Page of 0--0

92 0-0 SBC Assy, NX Series, RLS B0 Fan, Intel ATOM CPU, V, 0mA ZAP SAW RS(RoHS) U0 Motherboard, EPIC, ATOM D,V UB NANO-PV-D- SAW R0(STATIC)(RoHS)IE I U0 Not Used - U0 Memory, G, DDR. MHz,SODIMM UX KVRDS/G(Ro 0PJ HS) U0 Not Used - U0 Memory, Compact Flash Card,GB UB SDCFH-00G- A(STATIC) SanDisk Corporation 0LB0 Page of 0-0

93 0--0 Cable Form, Main Side Rack,NX00, RLS E0 E0 Conn,Quick-Dis,F,/ Tab -Shrink HAM B Conn,Quick-Dis,F,/ Tab -Shrink HAM B ECR NX RELEASE ECR ECR ECR P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P P P P Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin, HDP-0 JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin, HDP-0 JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin, HDP-0 JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, HDP-0, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, HDP-0, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Connector,Plug, P,Socket,A,00V, mm JT PHOENIX Connector,Plug, P,Socket,A,00V, mm JT PHOENIX P Not Used - P P P Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn,Socket,-Pin,- AWG JT -0-0 P Not Used - P P Conn,Socket,-Pin,- AWG JT -0-0 Conn, HRS, DF, mm, DualSocket, Crimp JU DF-DS-C 0AG P0 Not Used - P Not Used - P Conn, HRS, DF, mm, DualSocket, Crimp JU DF-DS-C 0AG P Not Used - P Not Used - Page of 0--0

94 0--0 Cable Form, Main Side Rack,NX00, RLS Continued from previous page P P Conn, HRS, DF, mm, DualSocket, Crimp JU DF-DS-C 0AG Conn, HRS, DF, mm, DualSocket, Crimp JU DF-DS-C 0AG P Not Used - P Conn, Coax, BNC, Plug, 0ohm,Crimp JDP - 0 P Not Used - P0 Not Used - P Not Used - P Not Used - P P Conn, Socket, D-Sub, HDP-0, pin JR 00-0 Conn, Lock Screw, D-Sub, Female JS D0 P Conn, Shell, D-Sub, pin JS DB- W Cable, Ethernet,0ft, Shld, Black, AWG, 0degC, with guard UA PCF-S0- UAG(RoHS) W Cable, Ethernet,0ft, Shld, Black, AWG, 0degC, with guard UA PCF-S0- UAG(RoHS) W Not Used - W Cable, Ethernet,ft, Shld, Black, AWG, 0degC, with guard UA0 PCF-S- UA0G(RoHS) W Not Used - W Not Used - W Not Used - W RS Cable Ft, DB(M) todb(f) JN W0 RS Cable Ft, DB(M) todb(f) JN Page of 0--0

95 0-0-0 Cableform, Main Rack W/ CtrlDoor, NX00 E0 E0 E0 E0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P0 P P P P P P P P P P P P P Lug, Crimp, Joint, Butt,- AWG, Blue HAR 0 0 Lug, Crimp, Joint, Butt,- AWG, Blue HAR 0 0 Conn,Quick-Dis,F,/ Tab -Shrink HAM B Conn,Quick-Dis,F,/ Tab -Shrink HAM B Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin, HDP-0 JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin, HDP-0 JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin, HDP-0 JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, HDP-0, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, HDP-0, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Connector,Plug, P,Socket,A,00V, mm JT PHOENIX Connector,Plug, P,Socket,A,00V, mm JT PHOENIX Conn, Socket, D-Sub, HDP-0, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn,Socket,-Pin,- AWG JT -0-0 Conn, Socket, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn,Socket,-Pin,- AWG JT -0-0 Conn, HRS, DF, mm, DualSocket, Crimp JU DF-DS-C 0AG P0 Not Used - P Not Used - Page of 0-0-0

96 0-0-0 Cableform, Main Rack W/ CtrlDoor, NX00 Continued from previous page P P P P P P P P Conn, HRS, DF, mm, DualSocket, Crimp JU DF-DS-C 0AG Conn, Coax, BNC, Plug, 0ohm,Crimp JDP - 0 Conn, Coax, BNC, Plug, 0ohm,Crimp JDP - 0 Conn, HRS, DF, mm, DualSocket, Crimp JU DF-DS-C 0AG Conn, HRS, DF, mm, DualSocket, Crimp JU DF-DS-C 0AG Conn, Plug, D-Sub, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Coax, BNC, Plug, 0ohm,Crimp JDP - 0 P Not Used - P0 P P P P P Conn, Recept, Mini-Fit dualrow, -pin JP -0-0 MOLEX Conn, Socket, D-Sub, HDP-0, pin JR 00-0 Conn, Lock Screw, D-Sub, Male JT 00-0 Conn, Plug, D-Sub, pin, HDP-0 JR 00-0 Conn, Lock Screw, D-Sub, Female JS D0 Conn, Shell, D-Sub, pin JS DB- P Not Used - P Not Used - P P Conn, Housing, Dual Row, pin,.00 Grid Conn, Socket for JU, -AWG, AU Crimp JU JU 0-(RoHS) -00-(RoHS) P Not Used - W Cable, Ethernet,0", Shld, Black, AWG, 0degC, with guard UA0 PCF-S0I- UA0G(RoHS) W Cable, Ethernet,0", Shld, Black, AWG, 0degC, with guard UA0 PCF-S0I- UA0G(RoHS) W Not Used - W Cable, Ethernet,ft, Shld, Black, AWG, 0degC, with guard UA0 PCF-S- UA0G(RoHS) W Cable ft, AWG, Plug Ø.mm/.mm UB 0-0 L W Cable, ft.,-pin D-Sub,M/F,Straight-Through UA MXT00 USB W Cable, ft.,-pin D-Sub,M/F,Straight-Through UA MXT00 USB W RS Cable Ft, DB(M) todb(f) JN W0 RS Cable Ft, DB(M) todb(f) JN Bracket, Variable CapacitorFront ECR NX RELEASE ECR ECR ECR Page of 0--0

97 -00-0 Arc Detector Assy ECR NX RELEASE ECR ECR ECR U0 Board, UV TRON DRVR Pwb, PS -Vdc, Out OC 0ms UB C0MOD(STATIC) OJXJ U0CX Capacitor, Tantalum, Epoxy, uf 0% V CCF0 TA0K0AT(Ro HS) KEMET U0J Header, -pin, Square, Pol,", Rt Angle, PCB mount JT 00 0 U0 Installed at Next Higher Assy Arc Detector Bracket INSTALLED AT NEXT HIGHER ASSY ECR NX RELEASE ECR ECR ECR NAEB/0 Control/Exciter Panel Assy.NX00-NX00 (RLS ) A0 A0 A0 A0 Control/Interface PWB Assy, NXSeries NAPC0A/ NAUTEL Digital AM Exciter PWB Assy NAPEA/ Digital AM Exciter PWB Assy NAPEA/ Remote Interface PWB Assy NAPI A0 See Sales Order % A0 See Sales Order % A0 See Sales Order % ECR NAEB/0 NX00-NX00 - CreateNAEB/0 w/ new ECR filter door % SEE SALES ORDER % SEE SALES ORDER % SEE SALES ORDER ECR NAFP0A Directional Coupler, NX00+ &NXC Series A0 Directional Coupler PWB Assy,NX00+ & NXC Series NAPP C0 Not Used - C0 Not Used - ECR NX RELEASE ECR ECR ECR Page of NAFP0A

98 NAHC/0 Back Plane, RF Combiner(TOP -- >) A0 Power Module Interface PWB NAPIA/ A0 Transformer Assy A0 Transformer Assy ECR NX RELEASE ECR ECR ECR NAHC/0 Back Plane, RF Combiner(BOT< --) A0 Power Module Interface PWB NAPIA A0 Transformer Assy A0 Transformer Assy ECR NX RELEASE ECR ECR ECR NAP RF Power Module Assy,NX Series A0 Modulator/RF Amplifier PWBAssy, NX Series NAPA 0-0 ECR NX RELEASE ECR ECR ECR Q0 Transistor, FET, N Channel, 00V, 0.0ohm fast QR APT0m0JFLL(Static) Q0 Transistor, FET, N Channel, 00V, 0.0ohm fast QR APT0m0JFLL(Static) Q0 Transistor, FET, N Channel, 00V, 0.0ohm fast QR APT0m0JFLL(Static) Q0 Transistor, FET, N Channel, 00V, 0.0ohm fast QR APT0m0JFLL(Static) R0 Thermistor,-0/0ºC,0Kohms@ºC,Neg,Bvalue K RX ECF0A-0U00 Page of NAP

99 NAPA Modulator/RF Amplifier PWBAssy, NX Series C00 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC C00 Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C00 Not Used - C00 Not Used - C00 C00 C00 C00 C00 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPA

100 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page C0 Not Used - C0 Not Used - C0 Not Used - C0 Not Used - C0 Not Used - C00 C0 Capacitor,Polyprop,uF,%,00V CP PMA Capacitor,Polyprop,uF,%,00V CP PMA C0 Not Used - C0 Not Used - C0 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC C0 Not Used - C0 Not Used - C0 Not Used - C0 Not Used - C0 C00 C0 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Capacitor,Polyprop,uF,%,00V CP PMA C0 Not Used - C0 Not Used - C0 Not Used - C0 Capacitor,Polyprop,uF,%,00V CP PMA C0 Not Used - C0 C0 C0 C00 C0 C0 Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC C0 Not Used - C0 Not Used - C0 C0 C0 C0 C0 C00 Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Page 0 of NAPA

101 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 Page of Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 Cap,SMT,Ceramic,uF,0%,00V,XR,0 NAPA CCFS0 CCFS0 0C0KATA(RO HS) 0C0KATA(RO HS) AVX CORP AVX CORP

102 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page C0 C0 C0 C0 C0 C0 Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC C0 Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Capacitor, SMT, 0.0u, NPO,%, J-lead, x, CT HMCJNJ0TH0 SCM 000V C Capacitor, SMT, 0.0u, NPO,%, J-lead, x, CT HMCJNJ0TH0 SCM 000V C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C0 Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C Not Used - C Capacitor, SMT, Al Electroytic0uF, VDC,ESR CT AVSMGT D 0.ohm C0 Not Used - C Not Used - Page of NAPA

103 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page C Not Used - C C C C C C C C0 Capacitor, SMT, 0.u, 0V,XR, 0%, j-lead, MLCC CT CKGNXRJM( RoHS) Capacitor, SMT, 0.u, 0V,XR, 0%, j-lead, MLCC CT CKGNXRJM( RoHS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC C Not Used - C Not Used - C Not Used - C C C C Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS CR0 Not Used - CR0 Not Used - CR0 Not Used - CR0 Not Used - CR0 Not Used - CR0 Not Used - CR0 Not Used - CR0 Not Used - CR0 CR0 CR CR CR CR CR CR CR CR CR Diode, SMT, Ultrafast 00V,A, DPAK QM STTHG(RoHS) QN Diode,SMT,Zener,.V,%,W,SMB QDZS0 SMBBT 0 Diode,SMT,Fast Switching,0V,0.A SOD- QM NHWS-- 00 F(STATIC)(ROHS) Diode,SMT,Zener,.V,%,W,SMB QDZS0 SMBBT 0 Diode,SMT,Fast Switching,0V,0.A SOD- QM NHWS-- F(STATIC)(ROHS) 00 Diode,SMT,Fast Switching,0V,0.A SOD- QM NHWS-- 00 F(STATIC)(ROHS) Diode,SMT,Zener,.V,%,W,SMB QDZS0 SMBBT 0 Diode,SMT,Fast Switching,0V,0.A SOD- QM NHWS-- 00 F(STATIC)(ROHS) Diode,SMT,Zener,.V,%,W,SMB QDZS0 SMBBT 0 Diode,SMT,Fast Switching,0V,0.A SOD- QM NHWS-- 00 F(STATIC)(ROHS) Diode,Schottky,00V,0A,SIC QK0 CSD000A(STATIC) CREE INC Page of NAPA

104 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page CR0 CR Diode,Schottky,00V,0A,SIC QK0 CSD000A(STATIC) CREE INC Diode,Schottky,00V,0A,SIC QK0 CSD000A(STATIC) CREE INC CR Not Used - CR Not Used - CR Not Used - CR Not Used - CR Not Used - CR CR CR Diode,SMT,Fast Switching,0V,0.A SOD- QM NHWS-- F(STATIC)(ROHS) 00 Diode,SMT,Fast Switching,0V,0.A SOD- QM NHWS-- 00 F(STATIC)(ROHS) Diode,SMT,Ultrafast,00V,A,SMB QM MURS0T 0 CR0 Not Used - CR Not Used - CR Not Used - CR Not Used - CR Not Used - CR Not Used - CR Not Used - CR Not Used - CR CR CR0 Diode, SMT Ultrafast, 00V, ASMA QM MURA0TG(RoHS) 0 Diode, SMT Ultrafast, 00V, ASMA QM MURA0TG(RoHS) 0 Diode, SMT Ultrafast, 00V, ASMA QM MURA0TG(RoHS) 0 DS0 Diode,SMT,LED,Bicolor,Red/Green,0 QDLS (STATIC) ECR NX RELEASE ECR ECR ECR F0 J0 J0 L0 L0 L0 L0 L0 L0 L0 L0 Fuse,SMT,Fuse Block,A VeryFast Acting,Installed FA 00(ROHS) Conn, Modular Jack, RJ, Shld, Side, PWB, 0u JM - 0 Conn, Header,Square Post,Gold,Dual,0-pin JF Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R OHS) EH0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor,SMT,Pwr,Shielded DrumCore,Pseries, LS P.0 0 A, 0.0uH Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Page of NAPA

105 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page L0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) L0 Inductor Assy, L Inductor Assy, L Inductor Assy L Inductor Assy L Inductor Assy L Bead, Ferrite,.mm, B Mtl LXP0-00-B 0 PLCA Change HT to HT PLCA -0 PLCA -0 Q0 Transistor,SMT,MOSFET,N-Channel,00V,.A,SOT- QS IRLL0PbF(STATIC)( ROHS) Q0 Transistor,SMT,MOSFET,N-Channel,00V,.A,SOT- QS IRLL0PbF(STATIC)( ROHS) Q0 Transistor,SMT,MOSFET,N-Channel,00V,.A,SOT- QS IRLL0PbF(STATIC)( ROHS) Q0 Transistor,SMT,MOSFET,N-Channel,00V,.A,SOT- QS IRLL0PbF(STATIC)( ROHS) Q0 Transistor,SMT,MOSFET,N-Channel,00V,.A,SOT- QS IRLL0PbF(STATIC)( ROHS) Q0 Transistor,SMT,MOSFET,N-Channel,00V,.A,SOT- QS IRLL0PbF(STATIC)( ROHS) Q0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY Q0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY Q0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY Q0 Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY Q Transistor, FET, N, 00V, 0A, Ohm QR IXFH0N0P(STATIC) Q Transistor, FET, N, 00V, 0A, Ohm QR IXFH0N0P(STATIC) Q Transistor, FET, N, 00V, 0A, Ohm QR IXFH0N0P(STATIC) R00 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R00 Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF R00 Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF R00 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R00 Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF R00 Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF R00 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R00 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R00 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R00 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R0 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R0 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R0 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Page of NAPA

106 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R0 Not Used - R00 Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD R0 Not Used - R0 R0 R0 R0 R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R0 Resistor, SMT, 0 Ohms, %, W RAD CR-W- 000T(RoHS) R0 Not Used - Resistor, SMT, 0 Ohms, %, W RAD CR-W- 000T(RoHS) Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R0 Not Used - R0 Not Used - R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 Resistor,SMT,MF,0ohms,%,W RAD CR-W-0R0F VENKEL Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Page of NAPA

107 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Resistor,SMT,MF,00Kohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,. KOhms,%,/0W,00 RFFS RKHJTF Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Resistor, SMT, MF,.0M Ohms,% /W RAE RKHBL00F Resistor,SMT,MF,. KOhms,%,/0W,00 RFFS RKHJTF Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00Kohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,00Kohms,%,/0W,00 RFFS RKHJLTD00F Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R00 Not Used - R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Page of NAPA

108 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R0 R R R R R R R R Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF, 0 Ohms,% /W RAD RKHBLF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resister, SMT, Power, ohms,%, W RAD HPC.0 % R(RoHS) EC Resister, SMT, Power, ohms,%, W RAD HPC.0 % EC R(RoHS) Resistor,SMT,MF,0ohms,%,W RAD CR-W-0R0F VENKEL Resister, SMT, Power, ohms,%, W RAD HPC.0 % R(RoHS) EC Resister, SMT, Power, ohms,%, W RAD HPC.0 % EC R(RoHS) Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F R Not Used - R0 Not Used - R Not Used - R R R R R Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor, SMT, MF, 0 Ohms,%, W RAD ERJ- TYFU(RoHS) Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor, SMT, 0 Ohms, %, W RAD CR-W- 000T(RoHS) Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor,SMT,MF,0ohms,%,W RAD CR-W-0R0F VENKEL Page of NAPA

109 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page R Not Used - R Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD R Not Used - R0 Not Used - R Not Used - R Not Used - R Not Used - R Not Used - T0 T0 T0 T0 U0 U0 Toroid, Ferrite, Uncoated,.mmOD LA B0-A-X C Toroid, Ferrite, Uncoated,.mmOD LA B0-A-X C Toroid, Ferrite, Uncoated,.mmOD LA B0-A-X C Toroid, Ferrite, Uncoated,.mmOD LA B0-A-X C IC,SMT,Quad RS- Receiver,-SOIC IC, SMT, Quad FET Driver, A, Non-inverting UT UT DSCATM(STATIC NATIONAL ) ELCLZ(RoSH) U0 IC, MOSFET, Gate Driver, A,0Vpk IN UD ZXGD00E(STATIC) (RoHS) U0 IC, MOSFET, Gate Driver, A,0Vpk IN UD ZXGD00E(STATIC) (RoHS) U0 IC, MOSFET, Gate Driver, A,0Vpk IN UD ZXGD00E(STATIC) (RoHS) U0 Not Used - U0 Not Used - U0 Not Used - U0 Not Used - U0 Not Used - U Not Used - U Not Used - U Not Used - U Not Used - U Not Used - U Not Used - U U Current Sensor, Hall, 0A,AC/DC, Bi Direc UP0 ACSKCA-00B- PFF-T(Static)(RoHS) IC, SMT, High Speed Comparator, SOIC- UT0 TL0ID(STATIC) 0 U Not Used - U0 IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 U U U IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC- ULAS0 TLVID(STATIC) 0 IC,SMT,Micro, ADC,PWM,TQFP-,k Flash UX ATMEGA - 0AI(STATIC) IC, SMT, FET Driver, A, Non-inverting, TO- UT IXDDYI(STATIC)(R ohs) FN 0AK Page of NAPA

110 NAPA Modulator/RF Amplifier PWBAssy, NX Series Continued from previous page U U U U U U U0 U U Y0 IC, SMT, FET Driver, A, Non-inverting, TO- IC,SMT,Single, InputExclusive OR,SOT-L IC, SMT, FET Driver, A, Non-inverting, TO- IC,SMT,Quad RS- Receiver,-SOIC IC,SMT,Voltage Regulator,V,A, DPAK IC, SMT, FET Driver, A, Non-inverting, TO- IC, SMT, Delay Line, Taps,0-00nS, SOIC (0mil) IC, SMT, -Input Logic, UHSUniv Config SC0- IC, SMT, -Input Logic, UHSUniv Config SC0- Crystal, SMT, Fund,.0MHz UT UD UT UT UT UT UD UD UD XFPS IXDDYI(STATIC)(R ohs) VGSTR(STATIC) (ROHS) IXDDYI(STATIC)(R ohs) DSCATM(STATIC ) L0ABDT- TR(STATIC)(ROHS) IXDDYI(STATIC)(R ohs) DS00Z- 00+(Static)(RoHS) Dallas NCSZPX(Static)(R ohs) NCSZPX(Static)(R ohs) HCM-.0MABJ- UT(RoHS) 0AK SCE 0AK NATIONAL ST MICRO 0AK 0B0A 0 0 DX Page 0 of NAPA

111 NAPC0A/0 Control/Interface PWB Assy, NXSeries BT0 C00 C00 C00 C00 C00 C00 C00 C00 C00 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 Battery, Lithium, V,0mm Coin Cell BBLT0 CR0 PANAS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic,uF,0%,.V, 0 CCFS CXR0JM(Ro HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPC0A/0

112 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 Cap, SMT, Ceramic,uF,0%,.V, 0 CCFS CXR0JM(Ro HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic,uF,0%,.V, 0 CCFS CXR0JM(Ro HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPC0A/0

113 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C C Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic,uF,0%,.V, 0 CCFS CXR0JM(Ro HS) Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Page of NAPC0A/0

114 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC Page of NAPC0A/0

115 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C Cap, SMT, Ceramic, 0uF, 0%,V CCFS CXRE0K Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, 0uF, 0%,V CCFS CXRE0K Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0pF,%,0V,C0G,00 CCFS C00CGGAC Cap,SMT,Ceramic,0pF,%,0V,C0G,00 CCFS C00CGGAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic,uF,0%,.V, 0 CCFS CXR0JM(Ro HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPC0A/0

116 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page C C C C C C C C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C C C C C C C C0 C C C C C C C C C C0 C Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Page of NAPC0A/0

117 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPC0A/0

118 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page C C C C Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC C Not Used - C Not Used - C CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR CR CR CR CR CR CR CR CR CR0 CR CR CR CR CR Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Suppressor, Transient Voltage,SMT vdc Suppressor, Transient Voltage,SMT vdc Suppressor, Transient Voltage,SMT vdc Suppressor, Transient Voltage,SMT vdc Suppressor, Transient Voltage,SMT vdc QR0 QR0 QR0 QR0 QR0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- TR(RoHS) 00 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Diode, SMT, Zener,.V, %,W, SMB QDZ0 SMBBT 0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- TR(RoHS) 00 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Diode, SMT, Shottky, 0V, ma, SOD- QK NW-- 00 F(STATIC)(RoHS) Diode, SMT, Shottky, 0V, ma, SOD- QK NW-- 00 F(STATIC)(RoHS) Diode, SMT, Shottky, 0V, ma, SOD- QK NW-- 00 F(STATIC)(RoHS) Diode, SMT, Shottky, 0V, ma, SOD- QK NW-- 00 F(STATIC)(RoHS) Diode, SMT, Shottky, 0V, ma, SOD- QK NW-- 00 F(STATIC)(RoHS) Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 00ESDA- TR(RoHS) 00ESDA- TR(RoHS) 00ESDA- TR(RoHS) 00ESDA- TR(RoHS) 00ESDA- TR(RoHS) Page of NAPC0A/0

119 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page CR CR CR CR CR0 CR CR CR CR CR CR CR CR CR CR0 CR CR CR CR CR CR CR CR CR CR0 CR CR CR CR CR CR CR CR CR Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Schottky,0V,0.A,SOD- QDSS0 BATHT(STATIC) 0 Diode,SMT,Schottky,0V,0.A,SOD- QDSS0 BATHT(STATIC) 0 Diode,SMT,Transient Suppr,0V,SMB QM SMB0CAT 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Transient Suppr,0V,SMB QM SMB0CAT 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- TR(RoHS) 00 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Diode,SMT,Zener,V,%,W,SMB QDZS0 SMBBT 0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- 00 TR(RoHS) Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Zener,V,%,W,SMB QDZS0 SMBBT 0 Diode,SMT,Zener,V,%,W,SMB QDZS0 SMBBT 0 Page of NAPC0A/0

120 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page CR0 CR CR CR CR CR CR CR CR CR CR0 CR CR CR CR CR CR CR CR CR CR0 DS0 DS0 DS0 DS0 DS0 DS0 DS0 DS0 DS0 DS0 DS Page 0 of Diode,SMT,Zener,V,%,W,SMB QDZS0 SMBBT 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- TR(RoHS) Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- TR(RoHS) Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- TR(RoHS) Suppressor, Transient Voltage,SMT vdc QR0 00ESDA- TR(RoHS) Diode, SMT, LED, Amber,(nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Amber,(nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Amber,(nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Amber,(nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Amber,(nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Amber,(nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Red, (0nm),00 QDLS0 -- 0(STATIC) Diode, SMT, LED, Green,(0nm), 00 QDLS0 -- 0F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS0 -- 0F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS0 -- 0F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS0 -- 0F(STATIC)(RoHS) NAPC0A/

121 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page DS DS DS DS DS DS DS E0 Diode, SMT, LED, Green,(0nm), 00 QDLS0 -- 0F(STATIC)(RoHS) 0 Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 E0 Not Used - E0 J0 J0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Socket, D-Sub, pin, PWB Mt JQ K-ES-NJ KYCON J0 Conn, Dual, D-Sub, F/M, pin, Rt. Angle, PWB JT -00- LS R(RoHS) J0 Not Used - J0 Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ J0 Not Used - J0 J0 Conn, BNC, Recept, 0ohm,Insul, Rt Angle JT - 0 Conn, BNC, Recept, 0ohm,Insul, Rt Angle JT - 0 J0 Not Used - J0 J J J J J J J J J J0 J J J J J Conn,-pin,PWB Mount, Fem, XLR JT NCFAH- NEUTRIK A Conn,-pin,PWB Mount, Fem, XLR JT NCFAH- NEUTRIK A Conn,-pin,PWB Mount, Fem, XLR JT NCFAH- NEUTRIK A Conn, Socket, D-Sub, pin, PWB Mt JQ K-ES-NJ KYCON Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Modular Jack, RJ, Shld, Side, PWB, 0u JM - 0 Conn, Header, Ribbon Cbl, 0-Pin JQ Connector, Dual, D-Sub, F/F, pin, Rt. Angle, PWB JT -(RoHS) 0 Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Header,Square Post,Gold,Dual,0-pin JF Page of NAPC0A/0

122 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page J J L0 L0 L0 L0 L0 L0 L0 L0 L0 L0 L L L L L L L LS0 Conn, Header,Square Post,Gold,Dual,0-pin JF Conn, Modular Jack, RJ, Shld, Side, PWB, 0u JM - 0 Inductor, Choke,. Turns, JMtl LA --J 0 Inductor, Choke,. Turns, JMtl LA --J 0 Inductor, Choke,. Turns, JMtl LA --J 0 Inductor, Choke,. Turns, JMtl LA --J 0 Inductor, Choke,. Turns, JMtl LA --J 0 Inductor, Choke,. Turns, JMtl LA --J 0 Inductor, Choke,. Turns, JMtl LA --J 0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R OHS) EH0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Inductor, Choke,. Turns, JMtl LA --J 0 Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor, Choke,. Turns, JMtl LA --J 0 Alarm, Audio Piezoelectric,Sonalert LP0 MSRN 00 Q0 Transistor,SMT,NPN,Switch/Amp,SOT- QBNS0 MMBT0LT(STATI 0 C) Q0 Not Used - Q0 Not Used - R00 R00 Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF R00 Not Used - R00 R00 R00 R00 R00 R00 R00 R0 R0 R0 Resistor, SMT, MF, K Ohms,% /W RAE0 RKHBLF Resistor, SMT, MF, K Ohms,% /W RAE0 RKHBLF Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor, SMT, MF, K Ohms,% /W RAE0 RKHBLF Resistor, SMT, MF, K Ohms,% /W RAE0 RKHBLF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Page of NAPC0A/0

123 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R0 R0 R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F R0 Not Used - R0 Not Used - R0 R00 Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R0 Not Used - R0 Not Used - R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Page of NAPC0A/0

124 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.00Mohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor, Variable, Film, 0Kohms, /W RW W--0 0 Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.0Kohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R0 Not Used - R0 Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R0 Not Used - R0 Not Used - R0 R0 R00 R0 Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Page of NAPC0A/0

125 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R0 R0 R0 R0 R0 Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R0 Not Used - R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor, SMT, MF, 0 Ohms,% /W RAD RKHBLF Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,0ohms,%,W RAD CR-W-0R0F VENKEL Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R0 Not Used - R0 R R R R R R R R R R0 R R R R R R R Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor,SMT,MF,0ohms,%,W RAD0 CR-W-0R0F VENKEL Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R Not Used - R R0 Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,. Ohms, % RT0 RKHETRF Page of NAPC0A/0

126 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R R R R R R R R R R0 R R R R R R R Resistor,SMT,. Ohms, % RT0 RKHETRF Resistor,SMT,. Ohms, % RT0 RKHETRF Resistor,SMT,. Ohms, % RT0 RKHETRF Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,00Kohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,. Ohms, % RT0 RKHETRF Resistor,SMT,. Ohms, % RT0 RKHETRF Resistor,SMT,. Ohms, % RT0 RKHETRF Resistor,SMT,. Ohms, % RT0 RKHETRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - R R0 R R R R R R R R R R0 R R R R R R R R R Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 0 Ohms,% /W RAD RKHBLF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 0 Ohms,% /W RAD RKHBLF Resistor,SMT,MF,00Kohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Page of NAPC0A/0

127 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R0 R R R R R R R R R R0 R R R R R R R R R R0 R R R R R R R R R R00 R0 R0 R0 R0 R0 R0 R0 R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL000F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL000F Resistor,SMT,0 Ohms,,%,W RAD CR-W-00F EQW Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Page of NAPC0A/0

128 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R0 R0 R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - R R R R R R R R0 R R R R R R R Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R Not Used - R R0 R R R R R R R R R R0 R R R R R R R Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Page of NAPC0A/0

129 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R R R0 R R R R R R R R R R0 R R R R R R R R R R0 R R R R R R R R R R0 R R R R R R Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Page of NAPC0A/0

130 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R R R R0 R R R R R R R R R R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R0 R R R R R R R R R R0 R R R R R Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Page 0 of NAPC0A/0

131 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page R R R R R0 R R R R R R R R R R0 R R R R R R R R R R0 R R Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor, SMT, MF, 0 Ohms,%, /W RAD RKHBLF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor, SMT,00 ohms,%,w, RAD ERJ-TYF0U PANAS Resistor, SMT,00 ohms,%,w, RAD ERJ-TYF0U PANAS Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF R Not Used - R Not Used - R Not Used - R Not Used - R Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F R Not Used - R Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F R0 Not Used - R RT0 RT0 RT0 Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Thermistor, PTC,.-. Ohms,.A Hold RT RXE0 000 Thermistor, PTC,.-. Ohms,.A Hold RT RXE0 000 Thermistor, PTC,.0-. Ohms, 0.A Hold RT RXE Page of NAPC0A/0

132 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page RT0 S0 S0 S0 S0 S0 S0 S0 T0 T0 T0 Thermistor, PTC,.-. Ohms,.A Hold RT RXE0 000 Switch, SMT, SPST, Momentary,w/ESD gnd SD BSN-P(RoHS) Switch, SMT, SPST, Momentary,w/ESD gnd SD BSN-P(RoHS) Switch, SMT, SPST, Momentary,w/ESD gnd SD BSN-P(RoHS) Switch, SMT, SPST, Momentary,w/ESD gnd SD BSN-P(RoHS) Switch, Slide, DPDT, ON, ON SD0 MHS- Switch, SMT, SPST, Momentary,w/ESD gnd SD BSN-P(RoHS) Switch, SMT, SPST, Momentary,w/ESD gnd SD BSN-P(RoHS) Transformer,SMT,0 ohms,0.0to MHz TZ ADT-T+(ROHS) MINI-CIRC Transformer,SMT,0 ohms,0.0to MHz TZ ADT-T+(ROHS) MINI-CIRC Transformer, Gate Drive, HighFreq TZ P0 0 T0 Not Used - T0 Transmformer RF, :, 0.0 to MHz, Gull Wing TE T-T-KK+(RoHS) T0 Not Used - T0 T0 TB0 TP0 TP0 TP TP TP TP TP TP TP TP0 TP TP TP TP TP Page of Transmformer RF, :, 0.0 to MHz, Gull Wing TE T-T-KK+(RoHS) Transformer, Gate Drive, HighFreq TZ P0 0 Terminal Block,mm,-pos,PWBMt,Green JR0 - Y0 Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB NAPC0A/0 HAJ HAJ HAJ HAJ HAJ HAJ HAJ HAJ HAJ HAJ HAJ HAJ HAJ HAJ HAJ TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP

133 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page TP U0 U0 U0 U0 U0 U0 U0 U0 U0 U0 U U U U U U U U U U0 U U U Page of Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP IC,SMT,RS- Transceiver,.V,SO- UDTS0 ADM0ARN(STATIC ) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Optocoupler,High CMR &Speed Gull Wing UD N- AVAGO 00E(STATIC)(ROHS) AVAGO TECHNOLOGIES IC,SMT,Optocoupler,High CMR &Speed Gull Wing UD N- AVAGO 00E(STATIC)(ROHS) AVAGO TECHNOLOGIES IC,DC-DC Converter,kV ISO,V-V,W UT NMV00SA(STATIC) C&D IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC, SMT, High Speed Comparator, SOIC- UT0 TL0ID(STATIC) 0 IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Quad -input AND gate,so- UD0 MCACT0D(STATIC ON SEMI ) IC,SMT,Quad to DATA Sel/Mux States Outputs,V UD SNHCPW(STATI TEXAS C)(ROHS) IC, SMT, -Input Logic, UHSUniv Config SC0- UD NCSZPX(Static)(R 0 ohs) IC,SMT,Quad TO DATA Sel/Mux States UW0 LVCAPW(STATI NXP SEMI Output,.V C)(ROHS) NXP SEMICONDUCTOR IC,SMT,Quad TO DATA Sel/Mux States Output,.V IC,SMT,Quad TO DATA Sel/Mux States Output,.V NAPC0A/0 UW0 UW0 LVCAPW(STATI C)(ROHS) NXP SEMICONDUCTOR LVCAPW(STATI C)(ROHS) NXP SEMICONDUCTOR NXP SEMI NXP SEMI

134 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page U U U U U U U0 U U U U U U U U U U0 U U U U U U U U U U0 IC,SMT,Quad TO DATA Sel/Mux States Output,.V IC,SMT,RS- Transceiver,.V,SO- IC,SMT,CMOS,-Bit Shft Reg,Par O/P, SOIC- IC,SMT,CMOS,-Bit Shft Reg,Par O/P, SOIC- UW0 UDTS0 UDLS0 UDLS0 LVCAPW(STATI C)(ROHS) NXP SEMICONDUCTOR ADM0ARN(STATIC ) MCHCAD(STATI C) MCHCAD(STATI C) NXP SEMI 0 0 IC,SMT,Comparator,Quad,SOIC- ULCS0 MC0D(STATIC) 0 IC,SMT,Comparator,Quad,SOIC- ULCS0 MC0D(STATIC) 0 IC,SMT,Comparator,Quad,SOIC- ULCS0 MC0D(STATIC) 0 IC, SMT, High Speed Comparator, SOIC- UT0 TL0ID(STATIC) 0 IC,SMT,Quad RS- DIFF LineDriver UD DSCT/DSCM NATIONAL (STATIC) IC,SMT,Digital Pot,Quad,0K,TSSOP- UX ADBRU0(STATI C) IC, Voltage Regulator,.A,ADJ, Low Drop UT0 LP00TS- 0 ADJ(STATIC) National IC,SMT,Quad TO DATA Sel/Mux States UW0 LVCAPW(STATI NXP SEMI Output,.V C)(ROHS) NXP SEMICONDUCTOR IC,SMT,OP-AMP,Dual,CurrentFeedback,SO- UD OPAID(STATIC) TEXAS IC, SMT, High Speed Comparator, SOIC- UT0 TL0ID(STATIC) 0 IC,SMT,Quad TO DATA Sel/Mux States Output,.V IC,SMT,Quad TO DATA Sel/Mux States Output,.V UW0 UW0 LVCAPW(STATI C)(ROHS) NXP SEMICONDUCTOR LVCAPW(STATI C)(ROHS) NXP SEMICONDUCTOR NXP SEMI NXP SEMI IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 IC,SMT,OP-AMP,Dual,CurrentFeedback,SO- UD OPAID(STATIC) TEXAS IC,SMT,Dual Optocoupler,SOIC- UDOS0 MOCD-M(STATIC) D IC,SMT,CMOS,Quad -Input NANDGate,SO- UDLS0 MMHC00M(STATIC) 0 IC, SMT, Voltage Regulator,-V, DPAK UP0 MCM0BDT(STATIC ) ON SEMI IC,SMT,Quad RS- Receiver,-SOIC UT DSCATM(STATIC NATIONAL ) IC,SMT,Quad TO DATA Sel/Mux States UW0 LVCAPW(STATI NXP SEMI Output,.V C)(ROHS) NXP SEMICONDUCTOR IC,SMT,Trans Array, Darl.,SOIC- UDAS0 MCBD(STATIC) 0 IC,SMT,Quad RS- Receiver,-SOIC UT DSCATM(STATIC NATIONAL ) IC, SMT, -Input Logic, UHSUniv Config SC0- UD NCSZPX(Static)(R 0 ohs) IC,SMT,Dual Optocoupler,SOIC- UDOS0 MOCD-M(STATIC) D Page of NAPC0A/0

135 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page U U U U U U U U U U0 U U U U U U U U U U0 U U U U U U U U U IC,SMT,Low Voltage Temp SensorSO- UC TMPFS(STATIC) ANALOG D IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC- ULAS0 TLVID(STATIC) 0 IC,SMT,Micro,K Flash,V,TQFP-00 UX00 ATmega0- AUR(STATIC)(ROH S) ATMEL FN IC,SMT,Ultrafast Single Supply Comparator,TSSOP UT ADARUZ(STATIC ) IC,SMT,Op Amp,Audio,Dual,SO- UP OPGS(STATIC) IC, SMT, CMOS, Octal Latch,SOIC-0 UDLS0 SNAHCDW(STA 0 TIC) IC, SMT, real Time Clock, C, SOIC- UD ISL0IBZ(STATIC)( RoHS) IC. CMOS, EEPROM, kx,.v-v, SOIC UW ATAN-0SU-.(Static)(RoHS) ATMEL IC, SMT, SRAM, Kx, SOIC-(Wide) UDMS0 CYNLL- SNXI(STATIC)(RoH S) IC,SMT,Amp,MHz,CurrentFeedback.A,TO- UT0 LT0CR(STATIC) IC, SMT, Backup Battery Supervisor, 0-MSOP UP TPS- 0 0DGS(STATIC)(RoHS ) Texas IC,Variable Gain Amp,SMT,0MHz,SOIC- UT AD0AR(STATIC) IC,SMT,DAC,-Bit,-ch,SPI,SOIC- UMDS0 TLV0ID(STATIC) IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 IC,SMT,.V Reference,%,SOT-- UX LT0BIS-.(STATIC) IC,SMT,Opamp,Quad,Single Supply,SOIC- ULAS0 MC0AD(STATIC) 0 IC,SMT,DAC,-Bit,-ch,SPI,SOIC- UMDS0 TLV0ID(STATIC) IC,SMT,Quad LVDS Rxcvr,.V,SOIC- UX DS0LV0ATM(STAT 0 IC) IC,SMT,CMOS,-Bit Shft Reg,Par I/P, SOIC- UDLS0 MCHCAD(STATI 0 C) IC,SMT,CMOS,Quad Tri-State Buffer, SOIC- UDLS0 MCHCAD(STATI 0 C) IC,SMT,CMOS,-Bit Shft Reg,Par I/P, SOIC- UDLS0 MCHCAD(STATI 0 C) IC,SMT,CMOS,-Bit Shft Reg,Par O/P, SOIC- UDLS0 MCHCAD(STATI 0 C) IC,SMT,CMOS,-Bit Shft Reg,Par O/P, SOIC- UDLS0 MCHCAD(STATI 0 C) IC,SMT,Opamp,Quad,Single Supply,SOIC- ULAS0 MC0AD(STATIC) 0 IC,SMT,Dual Optocoupler,SOIC- UDOS0 MOCD-M(STATIC) D IC,SMT,Dual Optocoupler,SOIC- UDOS0 MOCD-M(STATIC) D IC,SMT,Dual Optocoupler,SOIC- UDOS0 MOCD-M(STATIC) D IC,SMT,Dual Optocoupler,SOIC- UDOS0 MOCD-M(STATIC) D IC,SMT,Dual Optocoupler,SOIC- UDOS0 MOCD-M(STATIC) D Page of NAPC0A/0

136 NAPC0A/0 Control/Interface PWB Assy, NXSeries Continued from previous page U0 U U U U U U U XBT0 XE0 XE0 Y0 Y0 IC,SMT,Dual Optocoupler,SOIC- IC,SMT,Dual Optocoupler,SOIC- IC,SMT,Dual Optocoupler,SOIC- UDOS0 UDOS0 UDOS0 MOCD-M(STATIC) D MOCD-M(STATIC) D MOCD-M(STATIC) D IC,SMT,Trans Array, Darl.,SOIC- UDAS0 MCBD(STATIC) 0 IC,SMT,Trans Array, Darl.,SOIC- UDAS0 MCBD(STATIC) 0 IC,SMT,Trans Array, Darl.,SOIC- UDAS0 MCBD(STATIC) 0 IC,SMT,RS- Transceiver,.V,SO- UDTS0 ADM0ARN(STATIC ) IC, SMT, -Input Logic, UHSUniv Config SC0- UD NCSZPX(Static)(R 0 ohs) Holder, 0mm Coin Cell, PWB Mt BBHT0 0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Crystal, SMT, Fund,.0MHz Crystal,SMT,Fund,ParRes,.kHz, 0ppm,.pF, - 0-C XFPS XFPS0 HCM-.0MABJ- DX UT(RoHS) ABS0-.KHZ- T(STATIC)(RoHS) Abracon Corp Page of NAPC0A/0

137 NAPEA/0 Digital AM Exciter PWB Assy C00 C00 C00 C00 Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,00pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,00pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC C00 Not Used - C00 C00 C00 C00 Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC C00 Not Used - C0 Not Used - C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,00pF,%,0V,C0G,0 CCFS C0CGGAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,00pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC C0 Not Used - C0 Not Used - C0 Not Used - C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic,uF,0%,.V, 0 CCFS CXR0JM(Ro HS) Cap, SMT, Ceramic,uF,0%,.V, 0 CCFS CXR0JM(Ro HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPEA/0

138 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page C0 C00 C0 C0 C0 C0 C0 C0 Cap, SMT, Ceramic,uF,0%,.V, 0 CCFS CXR0JM(Ro HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00CKRAC C0 Not Used - C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,0pF,%,0V,C0G,00 CCFS C00CGGAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,00pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,00pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,000pF,%,0V,C0G,00 CCFS C00C0GGAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,000pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,000pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,000pF,%,0V,C0G,00 CCFS C00C0GGAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,000pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,00pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,00pF,%,0V,C0G,00 CCFS C00C0GGAC Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC Page of NAPEA/0

139 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C C C C Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPEA/0

140 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page 0 of NAPEA/0

141 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Page of NAPEA/0

142 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page C C C C C C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C C C C C C C C0 DS0 DS0 DS0 DS0 E0 Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Diode, SMT, LED, Green,(0nm), 00 QDLS0 -- 0F(STATIC)(RoHS) 0 Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Diode, SMT, LED, Green,(0nm), 00 QDLS F(STATIC)(RoHS) Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 ECR NX RELEASE ECR ECR ECR J0 J0 J0 J0 J0 Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Socket, D-Sub, -Pin,Vertical PWB JS0 AX C0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header,Square Post,Gold,Dual,0-pin JF Page of NAPEA/0

143 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page J0 J0 Conn, Header,Square Post,Gold,Dual,0-pin JF Conn, Header,Square Post,Gold,Dual,0-pin JF L0 Inductor,SMT,0nH,mA,0 LS NLVT-RJ- TDK PF(ROHS) L0 Inductor,SMT,0nH,mA,0 LS0 NLVT-RJ- TDK PF(ROHS) L0 Inductor,SMT,0nH,mA,0 LS NLVT-RJ- TDK PF(ROHS) L0 Inductor,SMT,0nH,mA,0 LS NLVT-RJ- TDK PF(ROHS) L0 Inductor,SMT,0nH,mA,0 LS0 NLVT-RJ- TDK PF(ROHS) L0 Inductor,SMT,0nH,mA,0 LS NLVT-RJ- TDK PF(ROHS) L0 Not Used - L0 Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V L0 Not Used - L0 L L L L L L Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor,SMT,Pwr,Shielded,P Series,.A,.uH LS P. 0 Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V PLCA CHANGE UT TO UT PLCA -00 PLCA -00 R0 R0 Resistor, SMT, 00ohm, %,/0W, 00 RFFS RKHJLTD000F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R0 Not Used - R0 R0 R0 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor, SMT, 00ohm, %,/0W, 00 RFFS RKHJLTD000F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R0 Not Used - R0 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R0 Not Used - R0 R R R R R R R Resistor,SMT,MF,0Kohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.00ohms,%,/0W,00 RFFS0 RKHJLTDR00F Page of NAPEA/0

144 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page R R R0 R R R R R R Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,.00ohms,%,/0W,00 RFFS0 RKHJLTDR00F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R Not Used - R Not Used - R Not Used - R0 R R R R R R R R R R0 R R R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.00ohms,%,/0W,00 RFFS0 RKHJLTDR00F Resistor,SMT,MF,.00ohms,%,/0W,00 RFFS0 RKHJLTDR00F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF R Not Used - R Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R Not Used - R Not Used - R R R0 R R R R R R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,. KOhms,%,/0W,00 RFFS RKHJTF Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Resistor,SMT,MF,.R,%,/0W00 RAE RKHJTRF Page of NAPEA/0

145 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page R R R R0 R R R R R R R R R R0 R R R R R R R R R R0 R R R R R R R R R R0 R R R R R Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Page of NAPEA/0

146 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page R R R S0 T0 T0 T0 TP0 TP0 TP0 TP0 TP0 TP0 TP0 TP0 TP TP TP TP TP U0 U0 U0 U0 U0 U0 U0 U0 U0 Page of Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.ohms,%,/0W,00 RFFS RKHJLTDRF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Transformer, SMT,:,0.0 to MHz TZ ADT-T Transformer,SMT,0 ohms,0.0to MHz TZ ADT-T+(ROHS) MINI-CIRC Transformer,SMT,0 ohms,0.0to MHz TZ ADT-T+(ROHS) MINI-CIRC Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP IC,SMT,DAC,00MSPS, bittqfp- UW DACIPHPR(STAT TEXAS IC)(ROHS) TEXAS Oscillator,SMT,TCVCXO,0MHz,.V,ppm UT TC-0M000- TIMING BV00A(STATIC)(ROH S) IC,SMT,DAC, Bit Serial,MSOP- UW DACE(STATIC) IC, SMT, Inverter, UHS, Dual,UnBFR, p SC0.mm UD0 NCWZU0PX(RoHS SCT0 wide ) IC,SMT,Linear Regulator,A Adj,Q- DD UX LTAEQ(STATIC) IC,SMT,CMOS,Phase Locked Loop,SO- UDLS0 LMX0TM(STATIC) 0 IC,SMT,Quad TO DATA Sel/Mux States UW0 LVCAPW(STATI NXP SEMI Output,.V C)(ROHS) NXP SEMICONDUCTOR IC,SMT,ADC,RF, bit,tqfp- UW ADSIPAP(STATIC TEXAS )(ROHS) IC,SMT,.V Voltage Reference,SOT- UX REF0AIDBZT(STA TIC) NAPEA/0

147 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page U0 U U U U U U U U U U0 U U U U U U U U U U0 U U U U U U U XE0 IC,SMT,Linear Regulator,0mAAdj.,MSOP- UX LTEMS(STATIC) IC, SMT, SPI Flash, Mbit,SOICW IC,SMT,Quad TO DATA Sel/Mux States Output,.V UW0 UW0 IC,SMT,ECL Clock Divider /,SO- UX MC00EPD(STATIC ) MQ0 IC,SMT,ADC,RF, bit,tqfp- UW ADSIPAP(STATIC TEXAS )(ROHS) IC, SMT, Spartan-00 FPGA,FG0 UW XCS00E- FG0C(STATIC) IC,SMT,A Sync Buck Converter,SO-0 w/pwr pad UX TPS0PWP(STATI 0 C) IC,SMT,ADC,Serial, bit UW ADCS0CIMF(ST NATIONAL ATIC)(ROHS) IC,SMT,Linear Regulator,A Adj,Q- DD UX LTAEQ(STATIC) MP- VMWG(STATIC)(RoH S) LVCAPW(STATI C)(ROHS) NXP SEMICONDUCTOR NXP SEMI IC,SMT,RS- Transceiver,.V,SO- UDTS0 LTC0IS(STATIC) IC,SMT,SRC,Async,-ch,TQFP- UW0 SRCIPFBR(STATI TEXAS C)(ROHS) IC,SMT,Linear Regulator,A Adj,Q- DD UX LTAEQ(STATIC) IC,SMT,Power Supervisor,DualI/P,/.V,MSOP UX TPS0-0 DGK(STATIC) IC,SMT,SRC,Async,-ch,TQFP- UW0 SRCIPFBR(STATI TEXAS C)(ROHS) Res,SMT Network,00x,R UW EXBHV0J IC,SMT,Blackfin DSP,00 MHzmBGA0 UW ADSP-BFSBBC- ANALOG V(STATIC) Res,SMT Network,00x,R UW EXBHV0J IC,SMT,Mb,SDRAM, bit,.v,tsop- UX MTLCMATG- MICRON E(STATIC) Res,SMT Network,00x,R UW EXBHV0J IC,SMT,Differential LineReceivr, 00dB CMR UD SSMS(STATIC) LINEAR Res,SMT Network,00x,R UW EXBHV0J IC,SMT,Op Amp,Audio,Dual,SO- UP OPGS(STATIC) Res,SMT Network,00x,R UW EXBHV0J Res,SMT Network,00x,R UW EXBHV0J IC,SMT,RS- Transceiver,.V,SO- UDTS0 ADM0ARN(STATIC ) IC,SMT,Stereo ADC,bit,kHz,TSSOP- UP ADYRS(STATIC) IC,SMT,SPI UART,.V UW SCIS0IPW(STATI NXP C)(ROHS) IC,SMT,Voltage Regulator,V,A, DPAK UT L0ABDT- ST MICRO TR(STATIC)(ROHS) Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Page of NAPEA/0

148 NAPEA/0 Digital AM Exciter PWB Assy Continued from previous page Y0 Y0 Y0 Oscilitor, SMT, VCXO,.MHz LVPECL,.V, xmmx Oscillator,SMT,MHz,.V UT UT00 VCFRPE-M0- BBAY(STATIC)(RoHS ) TIMING SB-.0000(STATIC)(ROH S) SARONIX Crystal,SMT,Fund,Par Res,.MHz,Comm XFPS0 ATSM-.MHz Page of NAPEA/0

149 NAPI0 Remote Interface PWB Assy C0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR CR CR CR CR CR DS0 DS0 DS0 DS0 DS0 DS0 DS0 DS0 DS0 DS0 DS DS DS DS DS Page of Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) Diode,SMT,LED,Bicolor,Red/Green,0 QDLS0-0- 0(STATIC) NAPI

150 NAPI0 Remote Interface PWB Assy Continued from previous page DS E0 E0 E0 E0 E0 E0 E0 E0 E0 E0 E E E E E E J0 J0 J0 J0 J0 J0 J0 J0 J0 R0 R0 R0 R0 R0 R0 R0 R0 R0 R0 R R R Diode,SMT,LED,Bicolor,Red/Green,0 QDLS (STATIC) Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Post Shunt, Pos,.0 Centreline JQ 00-0 Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Terminal Block,-pos,PWB Mount,0 Deg JR 0(ROHS) PHOENIX Terminal Block,-pos,PWB Mount,0 Deg JR 0(ROHS) PHOENIX Terminal Block,-pos,PWB Mount,0 Deg JR 0(ROHS) PHOENIX Terminal Block,-pos,PWB Mount,0 Deg JR 0(ROHS) PHOENIX Terminal Block,-pos,PWB Mount,0 Deg JR 0(ROHS) PHOENIX Terminal Block,-pos,PWB Mount,0 Deg JR 0(ROHS) PHOENIX Terminal Block,-pos,PWB Mount,0 Deg JR 0(ROHS) PHOENIX Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Page 0 of NAPI0

151 NAPI0 Remote Interface PWB Assy Continued from previous page R R R S0 S0 S0 S0 S0 S0 S0 S0 S0 S0 S S S S S S XE0 XE0 XE0 XE0 XE0 XE0 XE0 XE0 XE0 XE0 XE XE XE XE XE XE Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, 00 Ohms,% /W RAD RKHBL0F Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Switch,SMt,Mom.,PSTNO SA0 KSCG ITT INDUST Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Conn, Header, SIP, Pin Breakaway,.0 Ctr JQ -0-0 Page of NAPI0

152 NAPIA Rack Interface PWB Assy C00 C00 C00 C00 C00 C00 C00 C00 C00 C00 C0 C0 C0 C0 C0 C0 C0 C0 Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Tantalum,uF,0%,V, CTFS0 TDK0AS Capacitor, Elect, uf, V,+/-0% CBP KMEVBRMXL UNITED L Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Capacitor, Elect, 000uF 0V CT SME0VB0MX W LL Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,pF,%,0V,C0G,00 CCFS C00C0GGAC C0 Not Used - C00 Not Used - C0 Not Used - C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Page of NAPIA

153 NAPIA Rack Interface PWB Assy Continued from previous page C0 C0 C0 Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC C00 Not Used - C0 C0 C0 C0 C0 C0 C0 C0 Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC C0 Not Used - C00 Not Used - C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPIA

154 NAPIA Rack Interface PWB Assy Continued from previous page C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Page of NAPIA

155 NAPIA Rack Interface PWB Assy Continued from previous page C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Capacitor,Elect,SnapMt,000uF+/-0% 0V CJ 0LXM00A0 CORNELL Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00C0KRAC Capacitor, Elect, 000uF 0V CT SME0VB0MX W LL Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0.00uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC C Not Used - C Not Used - C0 Not Used - C Not Used - C C C C Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Capacitor, SMT, Tantalum, uf 0%, V CX TRDK0C000( RoHS) VISHAY Page of NAPIA

156 NAPIA Rack Interface PWB Assy Continued from previous page C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C Cap,SMT,Tantalum,0uF,0%,V, CTFS0 TD0K0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.uF,0%,V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,0.uF,0%,V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,0.uF,0%,V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Tantalum,uF,0%,V, CTFS0 TDK0AS Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Capacitor, SMT, Tantalum, uf 0%, V CX TRDK0C000( RoHS) VISHAY Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.uF,0%,V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,0.uF,0%,V,XR,00 CCFS0 C00CKRAC Page of NAPIA

157 NAPIA Rack Interface PWB Assy Continued from previous page C C Cap,SMT,Ceramic,0.uF,0%,V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC C Not Used - C Not Used - C Not Used - C Not Used - C0 C Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC C Not Used - C C C C Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO HS) AVX CORP Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC C Not Used - C Not Used - C Not Used - C00 C0 Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC C0 Not Used - C0 Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC C0 Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) C0 Not Used - C0 Not Used - C0 Not Used - C0 Not Used - C0 C0 C C C C C C Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap,SMT,Ceramic,uF,0%,00V,XR,0 CCFS0 0C0KATA(RO AVX CORP HS) Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC Cap, SMT, Ceramic, uf, 0%V XR, 00 CCFS C00C0KRAC Cap,SMT,Ceramic,0.0uF,0%,0V,XR,00 CCFS0 C00CKRAC C Not Used - C Not Used - C Not Used - C0 Not Used - Page of NAPIA

158 NAPIA Rack Interface PWB Assy Continued from previous page CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode,SMT,Switching,0V,0.A,SOD- QDRS0 BASHT(STATIC) 0 Diode, Schottky Rectifier, 0V, A Diode, Schottky Rectifier, 0V, A QM0 QM0 MBR0 (RoHS) MBR0 (RoHS) Diode,SMT,Schottky,0V,0.A,SOD- QDSS0 BATHT(STATIC) 0 Diode, Schottky Rectifier, 0V, A Diode, Schottky Rectifier, 0V, A QM0 QM0 MBR0 (RoHS) MBR0 (RoHS) Diode,SMT,Schottky,0V,0.A,SOD- QDSS0 BATHT(STATIC) 0 CR0 Not Used - CR0 Not Used - CR Not Used - CR Not Used - CR Not Used - CR CR CR CR Diode,SMT,Zener,V,%,W,SMB QDZS0 SMBBT 0 Diode, Schottky Rectifier, 0V, A Diode, Schottky Rectifier, 0V, A Diode, Schottky Rectifier, 0V, A QM0 QM0 QM0 MBR0 (RoHS) MBR0 (RoHS) MBR0 (RoHS) CR Not Used - CR Not Used - CR0 Not Used - CR Not Used - CR CR Diode, Zener,.V,.W, % QN N0C(STATIC) 0 Diode, Zener,.V,.W, % QN N0C(STATIC) 0 CR Not Used - CR E0 E0 Diode,SMT,Schottky,0V,0.A,SOD- QDSS0 BATHT(STATIC) 0 Connector, Quick-Dis, M,/ Tab, PWB HR Connector, Quick-Dis, M,/ Tab, PWB HR ECR NX Series - Create NAPIA ECR ECR J0 J0 J0 J0 J0 J0 J0 J0 J0 J0 J Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Connector,Header, Pin,0 PWB,A,00v mm JT PHOENIX Connector,Header, Pin,0 PWB,A,00v mm JT PHOENIX Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Page of NAPIA

159 NAPIA Rack Interface PWB Assy Continued from previous page J J J J J Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Socket, D-Sub, pin, PWB Mt JQ K-ES-NJ KYCON Conn, Socket, D-Sub, pin, PWB Mt JQ K-ES-NJ KYCON Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 Conn, Header,Square Post,Gold,Dual,0-pin JF K0 Not Used - L0 Inductor, SMT, Choke, 00ohms,A, 00 LCFS0 ILHB00RK0V L0 Not Used - L0 L0 L0 Inductor, Choke,. Turns, JMtl LA --J 0 Choke, SMT, Common Mode, 000ohm, 00mA LS CME0R- 0(RoHS) Inductor, Choke,. Turns, JMtl LA --J 0 L0 Not Used - L0 Not Used - L0 Not Used - L0 Not Used - Q0 Q0 Q0 R00 Transistor,SMT,MOSFET,N-channel,SOT- QMNS0 MMFT0T(STATIC) 0 Thyristor, SCR, A, 00V QR S0K Thyristor, SCR, A, 00V QR S0K Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R00 Not Used - R00 Not Used - R00 R00 R00 R00 Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor, SMT, MF, K Ohms,%, /W RAD RKHBL0F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R00 Not Used - R00 R00 R0 R0 Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F R0 Not Used - R0 R0 Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R0 Not Used - R0 Resistor, SMT, MF,.K Ohms, % /W RAD RKHBLF R0 Not Used - R0 Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R00 Not Used - R0 Resistor,SMT,MF,.0Kohms,%,/0W,00 RFFS RKHJLTD0F Page of NAPIA

160 NAPIA Rack Interface PWB Assy Continued from previous page R0 R0 R0 Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.0Kohms,%,/0W,00 RFFS RKHJLTD0F R0 Not Used - R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R0 Not Used - R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R0 Not Used - R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,.0Kohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F R00 Not Used - R0 R0 R0 R0 R0 R0 R0 R0 Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor, SMT, MF, Ohms,% /W RAD RKHBL0F Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F R0 Not Used - R00 Not Used - R0 R0 R0 R0 Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD R0 Not Used - R0 R0 R0 R0 R00 Resistor,SMT,MF,.0Kohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.0Kohms,%,/0W,00 RFFS RKHJLTD0F Page 0 of NAPIA

161 NAPIA Rack Interface PWB Assy Continued from previous page R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 Resistor,SMT,MF,00Kohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor, SMT, MF, 000 Ohms,% /W RAD RKHBL00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Page of NAPIA

162 NAPIA Rack Interface PWB Assy Continued from previous page R00 R0 R0 Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F R0 Not Used - R0 R0 R0 R0 R0 R0 R0 R R R R R R R R R R0 R R R R R R R R R R0 R R R R R R R R Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,.0Kohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,.0Kohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Page of NAPIA

163 NAPIA Rack Interface PWB Assy Continued from previous page R R0 R R R R R R R R R R0 R R R R R R R R R R0 R R R R R R R R R R0 R R R R R R R Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,Kohms,%,/0W,00 RFFS0 RKHJLTDF Resistor,SMT,MF,00Kohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,00Kohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,0.0Kohms,%,/0W,00 RFFS0 RKHJLTD00F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0.0ohms,%,/0W,00 RFFS RKHJLTD0R0F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Page of NAPIA

164 NAPIA Rack Interface PWB Assy Continued from previous page R R R0 R R Resistor,SMT,MF,.Kohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R Not Used - R Not Used - R Not Used - R R R Resistor, SMT,. Ohms, %, W, Resistor, SMT,. Ohms, %, W, RAD RAD ERJ-TRQFRU ERJ-TRQFRU Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD R Not Used - R0 Resistor, SMT, Ohms, %, /W, 0 RAD ERJ- GEYJR0V(STATIC)( RoHS) R Not Used - R Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R Resistor, SMT, MF,. Ohms,% /W RAE RKHBLRF R Resistor, SMT, MF,. Ohms,% /W RAE RKHBLRF R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,000ohms,%,/0W,00 RFFS RKHJLTD00F R Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R00 Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R0 Not Used - R0 Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R0 Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R0 Resistor, SMT, MF, Kohms, %,/0W, 00 RFFS RKHJLTD0F R0 Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F R0 Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F R0 Resistor,SMT,MF,00ohms,%,/0W,00 RFFS RKHJLTD000F R0 Not Used - R0 Not Used - R0 Resistor, SMT, Ohms, %, /W, 0 RAD ERJ- GEYJR0V(STATIC)( RoHS) R Not Used - R Not Used - R Not Used - R Not Used - Page of NAPIA

165 NAPIA Rack Interface PWB Assy Continued from previous page R Resistor, SMT,. Ohms, %, W, RAD ERJ-TRQFRU R Not Used - R Not Used - R Resistor, SMT,. Ohms, %, W, RAD ERJ-TRQFRU R Not Used - R0 R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor, SMT, Ohms, %, /W, 0 RAD ERJ- GEYJR0V(STATIC)( RoHS) R Not Used - R Not Used - R Not Used - R Resistor, SMT,. Ohms, %, W, RAD ERJ-TRQFRU R Not Used - R Not Used - R Not Used - R0 Resistor, SMT,. Ohms, %, W, RAD ERJ-TRQFRU R Not Used - R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Not Used - R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Not Used - R Not Used - R Not Used - R Not Used - R0 Resistor, SMT, Ohms, %, /W, 0 RAD ERJ- GEYJR0V(STATIC)( RoHS) R Not Used - R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor, SMT,. Ohms, %, W, RAD ERJ-TRQFRU R Resistor, SMT,. Ohms, %, W, RAD ERJ-TRQFRU R Not Used - R Not Used - R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor, SMT,. Ohms, %, W, RAD ERJ-TRQFRU R0 Not Used - R Not Used - Page of NAPIA

166 NAPIA Rack Interface PWB Assy Continued from previous page R Not Used - R Resistor, SMT,. Ohms, %, W, RAD ERJ-TRQFRU R Not Used - R Not Used - R Resistor, SMT, Ohms, %, /W, 0 RAD ERJ- GEYJR0V(STATIC)( RoHS) R Not Used - R Resistor,SMT,MF,0ohms,%,/0W,00 RFFS RKHJLTDF R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R0 Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F R Resistor,SMT,MF,ohms,%,/0W,00 RFFS0 RKHJLTD0F RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT Thermistor, PTC, OhmsA Hold RT RUEF00(RoHS) RT Thermistor, PTC, OhmsA Hold RT RUEF00(RoHS) RT Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT Thermistor, PTC,.0-.0 Ohms,.A Hold RT RXE0 G RT0 Thermistor, PTC,.-. Ohms,.A Hold RT RXE0 000 RT Thermistor, PTC, OhmsA Hold RT RUEF00(RoHS) Page of NAPIA

167 NAPIA Rack Interface PWB Assy Continued from previous page S0 T0 TP0 TP TP TP TP TP TP TP TP U0 Switch, -position, DIP, PST SC0 SB0 0 Signal Transformer,.VA0V/V TD DST-- 0 Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 U0 IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 U U U U U U U U0 IC,DC-DC Converter,OUT.V-.V@0A,IN -V UT0 ATL00A0X- TYCO SR(STATIC) U0 Diode,Schottky,Dual 0A,A-K-A,TO- V VRRM QK STPS0LCW(STATI STMICRO C) U0 IC,DC-DC Converter,OUT.V-.V@0A,IN -V UT0 ATL00A0X- TYCO SR(STATIC) U0 IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC- UDLS0 SNAHCTD(STATI 0 C) U0 IC, SMT, Micro, ADC, PWM,Flash, TQFP- UDMS0 ATMEGA- FN AI(STATIC) U0 IC,SMT,Microprocessor Supervisor, SC0 UDSS0 ADM0- MAKS(STATIC) U0 IC, SMT, CMOS, Octal Latch,SOIC-0 UDLS0 SNAHCDW(STA 0 TIC) U0 Not Used - IC,DC-DC Converter,OUT +/-V@0.A,W, IN -V UT0 AEE00CC-L (STATIC) ASTEC IC,SMT,Opamp,Quad,Single Supply,SOIC- ULAS0 MC0AD(STATIC) 0 IC, SMT, SRAM, Kx, SOIC-(Wide) UDMS0 CYNLL- SNXI(STATIC)(RoH S) IC,DC-DC Converter,OUT +/-V@0.A,W, IN -V UT0 AEE00CC-L ASTEC (STATIC) IC,SMT,ADC,0-Bit,-ch,SPI,SOIC-0 UMAS0 TLCIDW(STATIC) 0 IC,SMT,Opamp,Quad,Single Supply,SOIC- ULAS0 MC0AD(STATIC) 0 IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC- ULAS0 TLVID(STATIC) 0 Page of NAPIA

168 NAPIA Rack Interface PWB Assy Continued from previous page U U U0 U U U U U U U U U U0 U U U U U IC,SMT,DAC,-Bit,-ch,SPI,SOIC- UMDS0 TLV0ID(STATIC) IC,SMT,.V Reference,%,SOT-- UX LT0BIS-.(STATIC) IC,SMT,Opamp,Quad,Rail-To-Rail,SOIC- ULAS0 TLVID(STATIC) 0 IC,SMT,ADC,0-Bit,-ch,SPI,SOIC-0 UMAS0 TLCIDW(STATIC) 0 IC,DC-DC Converter,OUT +/-V@0.A,W, IN -V UT0 AEE00CC-L ASTEC (STATIC) IC,SMT,Comparator,Quad,SOIC- ULCS0 MC0D(STATIC) 0 IC,SMT,CMOS,Quad Tri-State Buffer, SOIC- UDLS0 MCHCAD(STATI C) 0 IC,DC-DC Converter,OUT +/-V@0.A,W, IN -V UT0 AEE00CC-L ASTEC (STATIC) IC,SMT,CMOS,-Bit Shft Reg,Par I/P, SOIC- UDLS0 MCHCAD(STATI 0 C) IC,SMT,CMOS,Hex Schm,Trig,Inv,SOIC- UDLS0 SNAHCTD(STATI 0 C) IC,SMT,CMOS,-Bit Shft Reg,Par O/P, SOIC- UDLS0 MCHCAD(STATI 0 C) IC,SMT,Trans Array, Darl.,SOIC- UDAS0 MCBD(STATIC) 0 IC,SMT,Dual Optocoupler,SOIC- UDOS0 MOCD-M(STATIC) D IC,SMT,Quad -input AND gate,so- UD0 MCACT0D(STATIC ) ON SEMI IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 IC,SMT,RS- Transceiver,Sgl,SOIC- UDTS0 DSCTM(STATIC) 0 Y0 Crystal,SMT,Fund,Par Res,.0MHz XFPS0 CMR0T.0MAB JTR DX Page of NAPIA

169 NAPI PDM Drive Distribution PWB C00 C00 C00 C00 C00 C00 C00 C00 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC C00 Not Used - C00 Not Used - C0 Not Used - C0 Not Used - C0 C0 C0 C0 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC C0 Not Used - C0 Not Used - C0 C00 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC C0 Not Used - C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Page of NAPI

170 NAPI PDM Drive Distribution PWB Continued from previous page C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Page 0 of NAPI

171 NAPI PDM Drive Distribution PWB Continued from previous page C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M ECR NX RELEASE ECR ECR ECR J0 J0 J0 J0 J0 J0 J0 Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Conn, Modular Jack, RJ, Shld, Side, PWB, 0u JM - 0 Conn, Modular Jack, RJ, Shld, Side, PWB, 0u JM - 0 J0 Not Used - J0 L0 Conn, Plug, D-Sub, pin, PWBMt JQ K-EP-NJ Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R OHS) EH0 Page of NAPI

172 NAPI PDM Drive Distribution PWB Continued from previous page L0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) L0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) L0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) L0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) L0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) L0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) L0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) L0 Not Used - L0 Not Used - L Not Used - L Not Used - L R0 R0 R0 R0 R0 R0 R0 R0 R0 R0 R R R R R R Inductor, Choke,. Turns, JMtl LA --J 0 Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD R Not Used - R Not Used - R Not Used - R0 Not Used - R Not Used - R Not Used - R Not Used - R Not Used - Page of NAPI

173 NAPI PDM Drive Distribution PWB Continued from previous page R R R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - R R0 R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - R Not Used - R Not Used - R Not Used - R Not Used - R R R R0 R R R R R R R R R R0 R R Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF R Not Used - R Not Used - R Not Used - R Not Used - R Not Used - R Not Used - R Not Used - R0 Not Used - R R R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Page of NAPI

174 NAPI PDM Drive Distribution PWB Continued from previous page R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - R Not Used - R R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - R0 Not Used - R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - R Not Used - R R Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F R Not Used - TP0 Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP TP0 Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP TP0 Terminal, SMT, Test Point, PWB HAJ TP-0-0--T(RoHS) COMPONENTS CORP U0 IC,SMT,Quad RS- Receiver,-SOIC UT DSCATM(STATIC NATIONAL ) U0 IC,SMT,Quad RS- Receiver,-SOIC UT DSCATM(STATIC NATIONAL ) U0 Not Used - U0 IC,SMT,Quad to DATA Sel/Mux States Outputs,V UD SNHCPW(STATI TEXAS C)(ROHS) U0 Not Used - U0 U0 U0 U0 U0 U U U U Page of IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver NAPI UD UD UD UD UD UD UD UD UD DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC)

175 NAPI PDM Drive Distribution PWB Continued from previous page U U U U U U0 U U U U U U U U U U0 U U U U U U U U U U0 IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL Page of NAPI

176 NAPI PDM Drive Distribution PWB Continued from previous page U U U U U IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver UD UD UD UD UD DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL Page of NAPI

177 NAPIA Power Module Interface PWB C0 C0 C0 C0 C0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 DS0 DS0 DS0 DS0 E0 E0 E0 E0 E0 E0 E0 E0 E0 E0 Capacitor, Electrolytic, 0uF0V CBP LRM0A0 CORNELL Capacitor, Electrolytic, 0uF0V CBP LRM0A0 CORNELL Capacitor, Electrolytic, 0uF0V CBP LRM0A0 CORNELL Capacitor, Electrolytic, 0uF0V CBP LRM0A0 CORNELL Capacitor, Elect, 000uF 0V CT SME0VB0MX W LL Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode,LED,Ultrabright,Grn,mm QM /VC- ARTA/MS(STATIC) MARKTEC Diode,LED,Ultrabright,Grn,mm QM /VC- MARKTEC ARTA/MS(STATIC) Diode,LED,Ultrabright,Grn,mm QM /VC- MARKTEC ARTA/MS(STATIC) Diode,LED,Ultrabright,Grn,mm QM /VC- MARKTEC ARTA/MS(STATIC) Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE ECR NX Series - Create NAPIA to 0 ECR ECR F0 F0 F0 F0 J0 J0 J0 Fuse, 0A, 00Vdc, Non Time Delay, KLM FA KLM-0 00 Fuse, 0A, 00Vdc, Non Time Delay, KLM FA KLM-0 00 Fuse, 0A, 00Vdc, Non Time Delay, KLM FA KLM-0 00 Fuse, 0A, 00Vdc, Non Time Delay, KLM FA KLM-0 00 Conn,Edge Card, Contacts,Dual Row,0u Gold, M JN Conn,Edge Card, Contacts,Dual Row,0u Gold, M JN Conn,Edge Card, Contacts,Dual Row,0u Gold, M JN Page of NAPIA

178 NAPIA Power Module Interface PWB Continued from previous page J0 Conn,Edge Card, Contacts,Dual Row,0u Gold, M JN J0 Not Used - J0 J0 J0 J0 J0 Conn, Plug, D-Sub, pin, PWB Mt JS KX-BP-NJ 0 MTA, Keyed Square Post HeaderAssy, pin JU - 00 MTA, Keyed Square Post HeaderAssy, pin JU - 00 MTA, Keyed Square Post HeaderAssy, pin JU - 00 MTA, Keyed Square Post HeaderAssy, pin JU - 00 J JMT0 Pin Mod J JMT0 Pin Mod R0 R0 R0 R0 XF0 XF0 XF0 XF0 Resistor, Film, 00K Ohms, %, W RBP GS-, 00K OHMS 0 Resistor, Film, 00K Ohms, %, W RBP GS-, 00K OHMS 0 Resistor, Film, 00K Ohms, %, W RBP GS-, 00K OHMS 0 Resistor, Film, 00K Ohms, %, W RBP GS-, 00K OHMS 0 Fuse Clip, / Dia Fuse, PWB Mt FC A Fuse Clip, / Dia Fuse, PWB Mt FC A Fuse Clip, / Dia Fuse, PWB Mt FC A Fuse Clip, / Dia Fuse, PWB Mt FC A Page of NAPIA

179 NAPIA/0 Power Module Interface PWB C0 C0 C0 C0 C0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 CR0 DS0 DS0 DS0 DS0 E0 E0 E0 E0 E0 E0 E0 E0 E0 E0 Capacitor, Electrolytic, 0uF0V CBP LRM0A0 CORNELL Capacitor, Electrolytic, 0uF0V CBP LRM0A0 CORNELL Capacitor, Electrolytic, 0uF0V CBP LRM0A0 CORNELL Capacitor, Electrolytic, 0uF0V CBP LRM0A0 CORNELL Capacitor, Elect, 000uF 0V CT SME0VB0MX W LL Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode, General Purpose, 00V,A QE N00 0 Diode,LED,Ultrabright,Grn,mm QM /VC- ARTA/MS(STATIC) MARKTEC Diode,LED,Ultrabright,Grn,mm QM /VC- MARKTEC ARTA/MS(STATIC) Diode,LED,Ultrabright,Grn,mm QM /VC- MARKTEC ARTA/MS(STATIC) Diode,LED,Ultrabright,Grn,mm QM /VC- MARKTEC ARTA/MS(STATIC) Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE Terminal,PC Screw 0-,0 Amp HAC KEYSTONE ECR NX Series - Create NAPIA to 0 ECR ECR F0 F0 F0 F0 J0 J0 J0 Fuse, 0A, 00Vdc, Non Time Delay, KLM FA KLM-0 00 Fuse, 0A, 00Vdc, Non Time Delay, KLM FA KLM-0 00 Fuse, 0A, 00Vdc, Non Time Delay, KLM FA KLM-0 00 Fuse, 0A, 00Vdc, Non Time Delay, KLM FA KLM-0 00 Conn,Edge Card, Contacts,Dual Row,0u Gold, M JN Conn,Edge Card, Contacts,Dual Row,0u Gold, M JN Conn,Edge Card, Contacts,Dual Row,0u Gold, M JN Page of NAPIA/0

180 NAPIA/0 Power Module Interface PWB Continued from previous page J0 J0 J0 J0 J0 J0 J0 Conn,Edge Card, Contacts,Dual Row,0u Gold, M JN Conn, Socket, D-Sub, pin, PWB Mt JS K-BS-NJ Conn, Plug, D-Sub, pin, Vert PWB JS MTA, Keyed Square Post HeaderAssy, pin JU - 00 MTA, Keyed Square Post HeaderAssy, pin JU - 00 MTA, Keyed Square Post HeaderAssy, pin JU - 00 MTA, Keyed Square Post HeaderAssy, pin JU - 00 J JMT0 Pin Mod J JMT0 Pin Mod R0 R0 R0 R0 XF0 XF0 XF0 XF0 Resistor, Film, 00K Ohms, %, W RBP GS-, 00K OHMS 0 Resistor, Film, 00K Ohms, %, W RBP GS-, 00K OHMS 0 Resistor, Film, 00K Ohms, %, W RBP GS-, 00K OHMS 0 Resistor, Film, 00K Ohms, %, W RBP GS-, 00K OHMS 0 Fuse Clip, / Dia Fuse, PWB Mt FC A Fuse Clip, / Dia Fuse, PWB Mt FC A Fuse Clip, / Dia Fuse, PWB Mt FC A Fuse Clip, / Dia Fuse, PWB Mt FC A Page 00 of NAPIA/0

181 NAPI RF Drive Distribution PWB Assy C00 C00 C00 C00 C00 C00 C00 C00 C00 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Page 0 of NAPI

182 NAPI RF Drive Distribution PWB Assy Continued from previous page C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Page 0 of NAPI

183 NAPI RF Drive Distribution PWB Assy Continued from previous page C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 J0 J0 J0 J0 J0 L0 L0 L0 R0 R0 R0 R0 R0 Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,0uF,0%,.V,XR,00 CCFS C0XR0J0M Cap,SMT,Ceramic,uF,0%,0V,XR,00 CCFS0 C00C0KRAC Cap,SMT,Ceramic,uF,0%,V,,XR,0 CCFS0 C0C0KRAC Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Connector,Modular,x,RJ,Jack JT0 - AMP/TYCO Conn, Modular Jack, RJ, Shld, Side, PWB, 0u JM - 0 Conn, Plug, D-Sub, pin, PWBMt JQ K-EP-NJ Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R OHS) EH0 Choke,SMT,Common Mode,00 ohm,00ma,0 LS DLWSNSQL(R EH0 OHS) Inductor, Choke,. Turns, JMtl LA --J 0 Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Page 0 of NAPI

184 NAPI RF Drive Distribution PWB Assy Continued from previous page R0 R0 R0 R0 R0 R R TP0 TP0 U0 U0 U0 U0 U0 U0 U0 U0 U0 U0 U U U U U U U U U Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor,SMT,MF,0.0ohms,Jumper,00 RFFS0 RKZJLTD Resistor, SMT, MF,. Ohms,% /W RAD RKHBLRF Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Resistor,SMT,MF,ohms,%,/0W,00 RFFS RKHJLTD0F Terminal, SMT, Test Point, PWB Terminal, SMT, Test Point, PWB IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver HAJ HAJ UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD UD TP-0-0--T(RoHS) COMPONENTS CORP TP-0-0--T(RoHS) COMPONENTS CORP DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) DSCT/DSCM NATIONAL (STATIC) Page 0 of NAPI

185 NAPI RF Drive Distribution PWB Assy Continued from previous page U0 U U U U U U U U U U0 U IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Quad RS- DIFF LineDriver IC,SMT,Clock Driver,-TO-0,Fast CMOS,SOIC,." IC,SMT,Clock Driver,-TO-0,Fast CMOS,SOIC,." IC,SMT,Clock Driver,-TO-0,Fast CMOS,SOIC,." IC,SMT,Clock Driver,-TO-0,Fast CMOS,SOIC,." IC,SMT,Clock Driver,-TO-0,Fast CMOS,SOIC,." IC,SMT,Clock Driver,-TO-0,Fast CMOS,SOIC,." IC,SMT,Quad RS- Receiver,-SOIC UD UD UD UD UD UD UD UD UD UD UD UT DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) DSCT/DSCM (STATIC) IDTFCT0CTS0(ST ATIC)(ROHS) IDTFCT0CTS0(ST ATIC)(ROHS) IDTFCT0CTS0(ST ATIC)(ROHS) IDTFCT0CTS0(ST ATIC)(ROHS) IDTFCT0CTS0(ST ATIC)(ROHS) IDTFCT0CTS0(ST ATIC)(ROHS) DSCATM(STATIC ) NATIONAL NATIONAL NATIONAL NATIONAL NATIONAL IDT IDT IDT IDT IDT IDT NATIONAL Page 0 of NAPI

186 NAPP0 Directional Coupler PWB Assy,NX00+ & NXC Series C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Tantalum, Dipped, 0uF, V CCP TG0K0AT(Ro 0 HS) KEMET Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic,.0uF 00V CAP RPEZU0M00V Capacitor, Ceramic,.0uF 00V CAP RPEZU0M00V C C C C C C C0 C C C Capacitor, Tantalum, Dipped, 0uF, V CCP TG0K0AT(Ro 0 HS) KEMET Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Ceramic, uf 0%00V CCG0 CKR0BX0KRV Capacitor, Mica, Dipped, 00pF % 00V CB0 CM0FDG0 Capacitor, Mica, Dipped, 00pF % 00V CB0 CM0FDG0 Capacitor, Mica, Dipped, 00pF % 00V CB0 CM0FDG0 Capacitor, Mica, Dipped, 00pF % 00V CB0 CM0FDG0 C Not Used - C Not Used - CR0 CR0 CR0 CR0 CR0 CR0 Diode, General Purpose, 00V,A QAP N 0 Diode, General Purpose, 00V,A QAP N 0 Diode, Zener Transient Supressor, 0V QM PKE0CA 0 Diode, Zener Transient Supressor, 0V QM PKE0CA 0 Diode, General Purpose, 00V,A QAP N 0 Diode, General Purpose, 00V,A QAP N 0 ECR NX RELEASE ECR ECR ECR J0 J0 J0 J0 L0 Conn, BNC, Recept, Rt Angle, PWB Mt JS R 0GP Conn, BNC, Recept, Rt Angle, PWB Mt JS R 0GP Conn, Socket, D-Sub, pin, PWB Mt JQ K-ES-NJ KYCON Conn, BNC, Recept, Rt Angle, PWB Mt JS R 0GP Inductor, Choke,. Turns, JMtl LA --J 0 Page 0 of NAPP0

187 NAPP0 Continued from previous page Directional Coupler PWB Assy,NX00+ & NXC Series L0 R0 R0 R0 R0 R0 R0 R0 R0 R0 R0 R Inductor, Choke,. Turns, JMtl LA --J 0 Resistor,Variable,Film,00 ohm/w RW X-- 0 0LF(RoHS) Resistor, MF,.0K Ohms, PC/W RAB MF/DL0F Resistor, Film, Ohms, % W RBP0 GS-, OHMS 0 Resistor, MF, 0.0K Ohms, PC/W RAB MF/DL00F Resistor, MF, 00 Ohms, PC /W RAB MF/DL000F Resistor, MF, 00 Ohms, PC /W RAB MF/DL000F Resistor, MF, Ohms, PC /W RAB MF/DL0F Resistor, MF,.0K Ohms, PC/W RAB MF/DL0F Resistor, Film, Ohms, % W RBP0 GS-, OHMS 0 Resistor, MF, Ohms, PC /W RAB MF/DL0F Resistor, MF, Ohms, PC /W RAB MF/DL0F R Not Used - R R R R R Resistor, MF,.0K Ohms, PC/W RAB MF/DL0F Resistor, Film, Ohms, % W RBP0 GS-, OHMS 0 Resistor, MF, Ohms, PC /W RAB MF/DL0F Resistor, MF, Ohms, PC /W RAB MF/DL0F Resistor, Film, 00 Ohms, %W RBP0 GS-, 00 OHMS 0 T0 Transformer -0-0 U0 U0 U0 IC,Amplifier,MHz,CurrentFeedback,.A UT LT0CT(STATIC) IC,Amplifier,MHz,CurrentFeedback,.A UT LT0CT(STATIC) IC,Amplifier,MHz,CurrentFeedback,.A UT LT0CT(STATIC) NARAA Final Assy, NX00 RLS A0 Rack, 00KW with CTRL - NX00 RLS NARAA A0A Current Probe-NX, 0,00,00, 00 (Bom), (Bom), RLS A0 Rack, Side 00KW without CTRL - NX00 RLS NARAA/ A0A Antenna Ground Switch Assy -NX00 - NX PLCA CHANGE TO HAAA PLCA -00 PLCA -00 T0 See Master Work Order * * SEE MASTER WORK ORDER Page 0 of NARAA

188 NARAA Rack, 00KW with CTRL - NX00 RLS A0 A0 A0 A0 A0 A0 A0 A0 A0 A0 A Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Control/Exciter Panel Assy.NX00-NX00 (RLS ) NAEB/ A Not Used - A Not Used - A Not Used - A A A A A A0 A A A A A A A A A A0 A A A A A A A A A Rack Interface PWB Assy NAPIA RF Drive Distribution PWB Assy NAPI 0-00 PDM Drive Distribution PWB NAPI 0-0 B+ Distribution Assy NAXA B+ Distribution Assy NAXA RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 Page 0 of NARAA

189 NARAA Rack, 00KW with CTRL - NX00 RLS Continued from previous page A0 A A A A A A A A A A0 A A A A A A A A A RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 A0 Fan Tray Assy 0-0- A Fan Tray Assy 0-0- A Fan Tray Assy 0-0- A Fan Tray Assy 0-0- A Fan Tray Assy 0-0- A Control Door Assy-NX Series A Voltage Probe Assy, NX A Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY A Not Used - A Not Used - A0 Capacitor Assy, 00kW Rack A0R A0R0 A0R A0R A0R A0R A0R A0R Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Page 0 of NARAA

190 NARAA Rack, 00KW with CTRL - NX00 RLS Continued from previous page A0R A0R A0R A0R Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ A Arc Detector Assy AU Sensor, Flame UV photo tube,for UB UB R OJXJ A 00KW Rectifier Assy C0 Capacitor, Ceramic, 0pF +0%000V CCG T00KCOGW0 C See Master Work Order * C See Master Work Order * C See Master Work Order * C See Master Work Order * C See Master Work Order * C See Master Work Order * C See Master Work Order * C0 See Master Work Order * C Capacitor, Variable, Vacuum,-00pF, kv working CS * SEE MASTER WORK ORDER * SEE MASTER WORK ORDER * SEE MASTER WORK ORDER * SEE MASTER WORK ORDER * SEE MASTER WORK ORDER * SEE MASTER WORK ORDER * SEE MASTER WORK ORDER * SEE MASTER WORK ORDER CSVF-00-0 ECR NX RELEASE ECR ECR ECR F F L0 L0 L0 L0 L0 L0 Fuse, A, 00Vdc, Non Time Delay KLM FA KLM- 00 Fuse, A, 00Vdc, Non Time Delay KLM FA KLM- 00 Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc TZA TZA TZA TZA TZA TZA EC00 Rev A EC00 Rev A EC00 Rev A EC00 Rev A EC00 Rev A EC00 Rev A L0 Coil Assy, NX L0 Coil Assy, NX U0 Not Used - U0 U0 U0 U0 U0 Current Sensor, Hall, 00 amp UC HCTF00VB AA Power Supply.V,00W,Univ.Input, PFC, Rem UG RSP-00- SL ON/OFF Power Supply.V,00W,Univ.Input, PFC, Rem UG RSP-00- SL ON/OFF Power Supply,V,0W,Univ.Input,PFC, Rem ON/OFF UG SP-0- SL Power Supply,V,0W,Univ.Input,PFC, Rem ON/OFF UG SP-0- SL Page 0 of NARAA

191 NARAA Rack, 00KW with CTRL - NX00 RLS Continued from previous page U0 U0 XF Power Supply, V@00W, -VAC, PFC UG SP-00- S Surge Arrestor, KV, -electrodes UM LA- 0 Fuseblock, -Pole, 0A, 00V FD0 BM0SQ 00 Page of NARAA

192 NARAA/0 Rack, Side 00KW without CTRL - NX00 RLS A0 A0 A0 A0 A0 A0 A0 A0 A0 A0 Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ Back Plane, RF Combiner(BOT< --) NAHC/ Back Plane, RF Combiner(TOP -- >) NAHC/ A Not Used - A Not Used - A Not Used - A Not Used - A A A A A A0 A A A A A A A A A A0 A A A A A A A A A Rack Interface PWB Assy NAPIA RF Drive Distribution PWB Assy NAPI 0-00 PDM Drive Distribution PWB NAPI 0-0 B+ Distribution Assy NAXA B+ Distribution Assy NAXA RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 Page of NARAA/0

193 NARAA/0 Rack, Side 00KW without CTRL - NX00 RLS Continued from previous page A0 A A A A A A A A A A0 A A A A A A A A A RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 RF Power Module Assy,NX Series NAP 0-00 A0 Fan Tray Assy 0-0- A Fan Tray Assy 0-0- A Fan Tray Assy 0-0- A Fan Tray Assy 0-0- A Fan Tray Assy 0-0- A Not Used - A Not Used - A Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY A Directional Coupler, NX00+ &NXC Series NAFP0A A Choke Winding Detail Assy A0 Capacitor Assy, 00kW Rack A0R A0R0 A0R A0R A0R A0R A0R A0R Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Page of NARAA/0

194 NARAA/0 Rack, Side 00KW without CTRL - NX00 RLS Continued from previous page A0R A0R A0R A0R Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ Resistor,Cap Discharge,Komhs%,W RC UP0SR-K-J TKQ A Arc Detector Assy AU Sensor, Flame UV photo tube,for UB UB R OJXJ A 00KW Rectifier Assy A Installed at Next Higher Assy + INSTALLED AT NEXT HIGHER ASSY C Capacitor, Variable, Vacuum,000pF, kv CS CVC 000E/ COMET C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C0 See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C See Master Work Order * * SEE MASTER WORK ORDER C0 See Master Work Order * * SEE MASTER WORK ORDER C Capacitor, Ceramic, 0pF +0%000V CCG T00KCOGW0 C Capacitor, Ceramic, 0pF +0%000V CCG T00KCOGW0 ECR NX RELEASE ECR ECR ECR F F L0 L0 Fuse, A, 00Vdc, Non Time Delay KLM FA KLM- 00 Fuse, A, 00Vdc, Non Time Delay KLM FA KLM- 00 Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc TZA TZA EC00 Rev A EC00 Rev A Page of NARAA/0

195 NARAA/0 Rack, Side 00KW without CTRL - NX00 RLS Continued from previous page L0 L0 L0 L0 Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc Inductor, Choke,.mH, Adc TZA TZA TZA TZA EC00 Rev A EC00 Rev A EC00 Rev A EC00 Rev A L0 Coil Assy 0-0- U0 Not Used - U0 Current Sensor, Hall, 00 amp UC HCTF00VB AA U0 Power Supply.V,00W,Univ.Input, PFC, Rem UG RSP-00- SL ON/OFF U0 Power Supply.V,00W,Univ.Input, PFC, Rem UG RSP-00- SL ON/OFF U0 Power Supply,V,0W,Univ.Input,PFC, Rem ON/OFF UG SP-0- SL U0 Power Supply,V,0W,Univ.Input,PFC, Rem ON/OFF UG SP-0- SL U0 Not Used - U0 Not Used - U0 Transducer, Rogowski Current 00A 0 Ohms UC0 RC0 PWR ELEC. 00 MEASUREMENTS XF Fuseblock, -Pole, 0A, 00V FD0 BM0SQ 00 NAXA B+ Distribution Assy F0 F0 F0 F0 F0 J0 R0 R0 R0 R0 Fuse, 0A, 00V, Class J, OpenIndicator FD AJT0 WCG0 Fuse, 0A, 00V, Class J, OpenIndicator FD AJT0 WCG0 Fuse, 0A, 00V, Class J, OpenIndicator FD AJT0 WCG0 Fuse, 0A, 00V, Class J, OpenIndicator FD AJT0 WCG0 Fuse, 0A, 00V, Class J, OpenIndicator FD AJT0 WCG0 Conn, Coax, BNC, Recept, 0ohm JDP UG0/U 00 Resistor, Film, 0K Ohms, PC /W RD RL0SG 00 Resistor, Film, 0K Ohms, PC /W RD RL0SG 00 Resistor, Film, K Ohms, PC/W RD RL0SG 00 Resistor, Film, K Ohms, PC/W RD RL0SG 00 Page of NAXA

196

197 NX00 Troubleshooting Manual Wiring/connector lists Section : Wiring/connector lists This section contains the wiring information for the hard-wired assemblies of the transmitter, and applicable connector mating information. Wiring lists provided Wiring lists are provided in tabular format. Table. on page - lists the tables containing wiring information. These tables provide non-printed wiring pattern, point-to-point (source and destination) interconnection information. Wiring lists not provided Separate wiring lists are not provided for some assemblies, including: Assemblies that have a separate maintenance manual. Refer to the appropriate maintenance manual for detailed wiring information for these assemblies, if provided. Assemblies that have their wiring information shown in tables on their assembly detail drawing(s). Refer to the Mechanical Drawings section of this manual for detailed wiring information for these assemblies. Connector mating information Where applicable, a connector mating table is provided after the corresponding wiring list. Table. on page - identifies all provided connector information. Wire colours Every effort is made to manufacture assemblies using the wire colour shown in the Colour column of the wiring list tables. Sometimes, a white wire will be substituted for the listed colour. In such cases, wires must be identified by their assigned numbers. Printed wiring board patterns Printed wiring pattern information for printed wiring boards (PWBs) is beyond the scope of this manual, and therefore not provided. Issue Page -

198 NX00 Troubleshooting Manual Wiring/connector lists Table.: Wiring Lists Provided Table # Description Table. NX00 Transmitter - Rack (Control Cabinet) (page -) Table. NX00 Transmitter - Rack (Output Cabinet) (page -0) Table. Fan Tray Assembly (Nautel Part # 0-) (page -) Table. Power Supply Assembly (Nautel Part # 0-) (page -) Table.: Connector Mating Information Provided Table # Description Table. NX00 Transmitter - Rack (page -) Table. NX00 Transmitter - Rack (page -0) Table.: NX00 Transmitter - Rack (Control Cabinet) Source Destination Wire # Color Size Remarks AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE A0AE 0 Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black Page - Issue

199 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Control Cabinet) Source Destination Wire # Color Size Remarks U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B A0AE 0 Black AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 C0- C0- - White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 A0AE C- 0 White 0 C- C- - White 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 C0- C0- - Black 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 A0AE C- 0 Black 0 C- C- - Black 0 U-(AC) C0- White U-(AC) C0- White U0-(AC) C0- White U0-(AC) C0- White C0- U-(AC) White U-(AC) C0- White U(AC) C0- White U-(AC) C0- White U-(AC) C0- White Issue Page -

200 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Control Cabinet) Source Destination Wire # Color Size Remarks C- U-(AC) 0 White U- K- White U0- K- White U- K- White U- K- White U- K- White R- K- - Yellow Yellow Teflon Wire R- Near R - Yellow Yellow Teflon Wire L- U0- B Black L- U0- B Black L- U0- B Black L- U0- B Black L- U0- B 0 Black L- U0- B Black L- AE Black L- AE Black L- AE Black L- AE Black L- AE Black L- AE Black U0-B near U - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE-COM XF- - White AC XF- - White Fr Door - Braid Rr Door - Braid Ex Door - Braid UAP-White LINE-COM - White P0- P0-0 White P0- near A 0 Black P0- P0-0 White P0- P0-0 White Page - Issue

201 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Control Cabinet) Source Destination Wire # Color Size Remarks P0- near A 0 Black P0- P0-0 White P0- P0-0 White P0- near A 0 Black P0- P0-0 White P0- P0-0 White P0- near A Black P0- P0-0 White P0- P0- White P0- near A Black P0- P0- White P0- P0- White P0- near A Black P0- P0- White P0- P0- White P0- near A 0 Black P0- P0- White P0- P0- White P0- near A Black P0- P0- White P0- P0- White P0- near A Black P0- P0- White P0- P0- White P0- near A Black P0- P0-0 0 White P0- P- Black 0 P0- P- White 0 P0- P- White 0 P0- P- Black 0 P0- P- White P0- P- White P0- P- Black 0 P0- P- White 0 P0- P- Black 0 P0-0 P-0 0 Centre -Conductor shielded P0- P- 0 Shield - Issue Page -

202 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Control Cabinet) Source Destination Wire # Color Size Remarks P0- P- A White -Conductor shielded P0- P- B Black P0- P- Shield - P0- P- Black P0- P- White 0 P0- P- White 0 P0- P- White P0- P- White P0- P- White P0- AUTB- White P0- AUTB- 0 White P0- AUTB- Black P0- P- Black P0-0 P- White P0- AUTB-0 White P0- P (CENTER) Centre -Conductor shielded P0- P (BODY) Shield - P0- AUTB- Black P0- AUTB- Black P0- AUTB- 0 White P0- AUTB- Centre -Conductor shielded P0- AUTB- Shield - P0- AUTB- Centre -Conductor shielded P0- AUTB- Shield - P0- AUTB- Centre -Conductor shielded P0- AUTB- Shield - P0-0 AUTB- White E-B CR-Anode CR lead QK CR-Cathode UTB- CR lead - P0- P- White P0- P- White P0- AUTB- Black P0- P- White 0 P0- P- White P0- P- 0 Black 0 P- U-(V-) Black 0 P- U-(V-) Black 0 Page - Issue

203 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Control Cabinet) Source Destination Wire # Color Size Remarks P- U-(V+) White 0 P- P- White P- P- White P- P- White P- P- White P-0 P- White P- A0K-AUX-C White P- AUTB- 0 White P- U-(V-) Black 0 P- U-(V-) Black 0 P- U-(V+) White 0 P- U-(V+) White 0 P- P-0 Centre Coax shielded P-0 P-0 - Shield - P- P-0 Centre Coax shielded P- P- Black P- P- Black P- P-0 - Shield - P- U-(V+) White 0 P- U-(V-) 0 Black 0 P- U-(V+) White 0 P- U-(V-) Black 0 P- P- Centre Coax,0 Ohms RGA/U P- P- Shield - P- P-Centre Centre Coax,0 Ohms RGA/U P- P-Core Shield - P- P-Centre Centre Coax,0 Ohms RGA/U P- P-Core Shield - P- P- White P- P- White P- P- Centre Coax,0 Ohms RGA/U P- P- Shield - E XF- 0 White XF, COM Fuse (L) E XF- 0 White XF, LINE Fuse (R) U-L XF- 0 White U-N XF- 0 White U-G near U 0 Black Issue Page -

204 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Control Cabinet) Source Destination Wire # Color Size Remarks U-L U-L 0 White U-N U-N 0 White U-G U-G 0 Black U-L XF- 0 White U-N XF- White U-G U-G Black U-L U-L White U-N U-N White U-G U-G Black U-L U-L White U-N U-N White U-G U-G Black Near A Near U Black U-(V+) P0-0 White U-(V-) P0- Black U-(V+) E-A White U-(V-) E-A Black U-(V-) Near U Black P- U-(V+) White 0 P- P- White U-L A0K-TB- White U-N A0K-TB- White AUTB- A0K-AUX-NO White P- P- 0A Centre -Conductor shielded P- P- 0B Black P- P- 0 Shield - P- AATB- Centre -Conductor sheilded P- AATB- Shield - WP- E-B - Blk/Ws WP- E-B - Black WP WP - WP WP - WP WP - WP-Pin WP-Socket - WP-Pin WP-Socket - WP-PIN WP-Socket - W0P-PIN W0P-Socket - Page - Issue

205 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Control Cabinet) Source Destination Wire # Color Size Remarks U-(V+) U-(V+) Black U-(V-) U-(V-) Black U-(V-) near U Black AA0E LINE-COM White LINE-COM XF- White LINE -E XF- 0 White Fr Door - Braid Rr Door - Braid Ex Door - Braid Issue Page -

206 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Output Cabinet) Source Destination Wire # Color Size Remarks AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE AAE Black AE A0AE 0 Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B AAE Black U0-B A0AE 0 Black AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 AAE C0- White 0 A0AE C- 0 White 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 Page -0 Issue

207 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Output Cabinet) Source Destination Wire # Color Size Remarks AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 AAE C0- Black 0 A0AE C- 0 Black 0 U-(AC) C0- White U-(AC) C0- White U0-(AC) C0- White U0-(AC) C0- White C0- U-(AC) White U-(AC) C0- White U(AC) C0- White U-(AC) C0- White U-(AC) C0- White C- U-(AC) 0 White U- K- White U0- K- White U- K- White U- K- White U- K- White L- U0- B Black L- U0- B Black L- U0- B Black L- U0- B Black L- U0- B 0 Black L- U0- B Black L- AE Black L- AE Black L- AE Black L- AE Black L- AE Black L- AE Black P0- P0-0 White P0- near A 0 Black P0- P0-0 White P0- P0-0 White P0- near A 0 Black Issue Page -

208 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Output Cabinet) Source Destination Wire # Color Size Remarks P0- P0-0 White P0- P0-0 White P0- near A 0 Black P0- P0-0 White P0- P0-0 White P0- near A Black P0- P0-0 White P0- P0- White P0- near A Black P0- P0- White P0- P0- White P0- near A Black P0- P0- White P0- P0- White P0- near A 0 Black P0- P0- White P0- P0- White P0- near A Black P0- P0- White P0- P0-0 White P0- near A Black P0- P0- White P0- P0- White P0- near A Black P0- P0-0 0 White P0- P- A White -Conductor shielded P0- P- B Black P0- P- Shield - P0- AUTB- White P0- AUTB- White P0- AUTB- Black P0- P- Black P0-0 P- White P0- AUTB-0 White P0- P (CENTER) 0 Centre -Conductor shielded P0- P (BODY) 0 Shield - P0- AUTB- Black Page - Issue

209 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Output Cabinet) P0- AUTB- Black P0- AUTB- White P0- AUTB- Centre -Conductor shielded P0- AUTB- Shield - P0- AUTB- Centre P0- AUTB- Shield - P0- AUTB- Centre P0- AUTB- Shield - P0-0 AUTB- White P0- P- 0 White P0- P- White P0- AUTB- Black P0- P- White 0 P0- P- White P0- P- Black 0 P- U-(V-) Black 0 P- U-(V-) Black 0 P- U-(V+) White 0 P- P- White P- P- 0 White P- P- White P- P- White P-0 P- White P- A0K-AUX-C White P- AUTB- White P- U-(V-) Black 0 P- U-(V-) Black 0 P- U-(V+) White 0 P- U-(V+) White 0 P- P- 0 Centre Coax shielded P-0 P- - Shield - P- P- Centre Coax shielded P- P- Black P- P- Black P- P- - Shield - P- U-(V+) White 0 P- U-(V-) Black 0 P- U-(V+) White 0 Issue Page -

210 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Output Cabinet) Source Destination Wire # Color Size Remarks P- U-(V-) Black 0 E XF- White XF, COM Fuse (L) E XF- White XF, LINE Fuse (R) U-L XF- White U-N XF- White U-G near U Black U-L U-L White U-N U-N White U-G U-G Black U-L XF- White U-N XF- 0 White U-G U-G Black U-L U-L White U-N U-N White U-G U-G Black A0K-TB- U-L White A0K-TB- U-N White Near A Near U Black P-0 U-(V+) 0 White 0 P-0 P-0 0 White AUTB- A0K-AUX-NO 0 White WP WP WP WP WP WP WP-PIN WP-Socket W0P-PIN W0P-Socket U-(V+) U-(V+) 0 Black U-(V-) U-(V-) 0 Black U-(V-) near U 0 Black AA0E LINE-COM 0 White LINE-COM XF- White LINE -E XF- White C0- C0- - White 0 C- C- - White 0 C0- C0- - Black 0 C- C- - Black 0 R- K- - Yellow Yellow Teflon Wire Page - Issue

211 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter - Rack (Output Cabinet) Source Destination Wire # Color Size Remarks R- Near R - Yellow Yellow Teflon Wire A-A E (OUTPUT PLATE) Yellow A-B near A Yellow U0-B near U - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black LINE -E U0-LINE - Black AC XF- - White Fr Door - Braid Rr Door - Braid Ex Door - Braid UAP-White LINE-COM - White RF OUT STA- - Black RF OUT STA- - Black E-B CR-Anode CR lead QK CR-Cathode UTB- CR lead - Issue Page -

212 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note E AE To Rack Interface PWB E AE To Rack Interface PWB P A0J Fan tray P0 AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To Rack Interface PWB P AAJ To Control/Disaply PWB P AJ To PDM Distribution PWB P UJ To DC Current probe P AAJB To Control/Display PWB P AJ Arc Detector PWB P UCN To U P AJ Fan tray P UCN To U P ATJ RF Current Probe P AJ RF Voltage Probe P UCN To U P UCN To U P RKAAJ To Directional Coupler RK P AJ B+ sample P AJ Fan tray P0 AAUCPUV To Front Door Computer P AJ0 To Rack Interface PWB P RKP Serial Bus to RKP P AAUF_PANEL To Front Door Computer P AAJ To Control/Display PWB P AJ Fan tray P AJ Fan tray P AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To Rack Interface PWB W0P AAJ W0P AJC Page - Issue

213 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note WP AAJ WP AJE WP AAJ WP AJG WP AAJ WP AJA WP AAJ WP AJC WP AAJ WP AJE WP AAJ WP AJG WP AAJ WP AJA WP AAJ WP AJC WP AAJ WP AJE WP A0AJ WP AJA W0P AAJ W0P AJG WP AAJ WP AJB WP AAJ WP AJD WP AAJ WP AJF WP AAJ WP AJH WP AAJ WP AJB WP AAJ WP AJD WP AAJ WP AJF WP AAJ Issue Page -

214 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note WP AJH WP AAJ WP AJB WP A0AJ WP AJC W0P AAJ W0P AJD WP AAJ WP AJF WP AAJ WP AJH WP AAJ WP AJB WP AAJ WP AJD WP AAJ WP AJF WP AAJ WP AJH WP AAJ WP AJB WP AAJ WP AJD WP AAJ WP AJF WP A0AJ WP AJE W0P AAJ W0P AJH WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP Page - Issue

215 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP A0AJ WP AJG W0P W0P W0P W0P WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP AAJ WP AJA W0P W0P W0P W0P WP AAJA PDM Issue Page -

216 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note WP AJ WP AAJB PDM WP AJ WP AAJA RF DR WP AJ WP AUP/S WP AAJ Streaming Bus WP AAUCOM Streaming Bus WP AAJA Serial bus WP AAUCOM WP AJ Add Labels to W WP AAJ Add Labels to W WP AAJ WP AJC W0P AJ Add Labels to W0 W0P A0AJ Add Labels to W0 WP AAJ WP AJE WP AAJ WP AJG WP AAJ WP AJA Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note E AE To Rack Interface PWB E AE To Rack Interface PWB P A0J Fan Tray P0 AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To PDM Distribution PWB P UJ To DC Current Probe P AJ Arc Detector PWB P UCN To U V P/S Page -0 Issue

217 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note P AJ Fan Tray P UCN To U V P/S P UCN To U V P/S P UCN To U V P/S P AJ B+ sample P AJ Fan Tray P RKP SERIAL BUS IN P AJ Fan Tray P AJ Fan Tray P AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To Rack Interface PWB P AJ To Rack Interface PWB ROGOWSKI-P AAJ To Directional coupler* W0P AAJ W0P AJC WP AAJ WP AJE WP AAJ WP AJG WP AAJ WP AJA WP AAJ WP AJC WP AAJ WP AJE WP AAJ WP AJG WP AAJ WP AJA WP AAJ WP AJC WP AAJ WP AJE WP A0AJ WP AJA W0P AAJ Issue Page -

218 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note W0P AJG WP AAJ WP AJB WP AAJ WP AJD WP AAJ WP AJF WP AAJ WP AJH WP AAJ WP AJB WP AAJ WP AJD WP AAJ WP AJF WP AAJ WP AJH WP AAJ WP AJB WP A0AJ WP AJC W0P AAJ W0P AJD WP AAJ WP AJF WP AAJ WP AJH WP AAJ WP AJB WP AAJ WP AJD WP AAJ WP AJF WP AAJ WP AJH WP AAJ WP AJB Page - Issue

219 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note WP AAJ WP AJD WP AAJ WP AJF WP A0AJ WP AJE W0P AAJ W0P AJH WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP A0AJ WP AJG W0P W0P W0P W0P WP WP WP WP WP WP WP WP WP WP WP WP WP WP Issue Page -

220 NX00 Troubleshooting Manual Wiring/connector lists Table.: NX00 Transmitter Rack - Connector Mating Table Connector Mate Note WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP WP AAJ WP AJA W0P W0P W0P W0P WP RKAAJD PDM WP AJ PDM WP RKAAJE PDM WP AJ PDM WP RKAAJB RF Drive WP AJ RF Drive WP AJ Add Labels to W * WP AAJ Add Labels to W * WP AAJ WP AJC W0P AJ Add Labels to W0 * W0P A0AJ Add Labels to W0 * WP AAJ WP AJE WP AAJ WP AJG WP AAJ WP AJA Page - Issue

221 NX00 Troubleshooting Manual Wiring/connector lists Table.: Wiring List - Fan Tray Assembly (Nautel Part # 0-) Source Destination Wire # Colour Size Remarks J-0 B (V+) - Red Part of B J-0 B (V-) - Black Part of B J-0 B (Tach) - Yellow Part of B J-0 B (V+) - Red Part of B J-0 B (V-) - Black Part of B J-0 B (Tach) - Yellow Part of B Table.: Wiring List - Power Supply Assembly (Nautel Part # 0-) Source Destination Wire # Colour Size Remarks T-X XF-A Black MCM T-X XF-B Black MCM T-X XF-B Black MCM T-X XF-C Black MCM T-X XF-C Black MCM T-X XF-A Black MCM T-X0 X0-IN 0 Black /0 AWG T- Station Reference Gnd Green /0 AWG Issue Page -

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223 NX00 Troubleshooting Manual Reading Electrical Schematics Section : Reading Electrical Schematics This section contains electrical schematics and logic diagrams for the transmitter. Block diagrams, simplified electrical schematics, and logic diagrams may be included. Refer to Table. on page - for an itemized listing. Component values Unless otherwise specified on the logic or schematic diagram, the following defaults apply: Resistor values are shown in ohms (K =,000 and M =,000,000) Resistor power ratings are not shown when less than 0. W Capacitor values are shown in microfarads (uf) Unidentified diodes are part number N (Nautel Part # QAP) Graphic symbols The graphic symbols used on electrical schematics are in accordance with American National Standard ANSI Y.- - Graphic Symbols for Electrical and Electronic Diagrams. Logic symbols The logic symbols used on electrical schematics and logic diagrams are in accordance with American National Standard ANSI Y.- - Graphic Symbols for Logic Diagrams. Reference designations Referenced designations were assigned in accordance with American National Standard ANSI Y.- - Reference Designations for Electrical and Electronic Parts and Equipment. Each electrical symbol is identified with its basic reference designation. To obtain the full reference designation for a specific part, prefix this basic identifier with the reference designation assigned to all higher assemblies. For example, the complete designation for a resistor (R) on a printed wiring board (A), that is part of a larger board (A), would be AAR. Issue Page -

224 NX00 Troubleshooting Manual Reading Electrical Schematics Unique symbols Nautel uses unique symbols on electrical schematics to describe logic (two-state) signals. These signals differ from single-state signals or analog signals that may have multiple values. Type of inputs and outputs On electrical schematics, names used to describe logic (two-state) input and output signals are prefixed with a # symbol. Logic level convention The # prefix identifies an input or output signal that has two distinct states: high and low. The suffix on an input or output signal name identifies the active (true) state of the signal. The high suffix indicates the more positive of the two levels used to represent the logic states. The low suffix indicates the less positive of the two levels. Two types of logic, positive and negative, may be represented on a particular schematic. In positive logic, high represents the active (true) state, and low represents the inactive (false) state. In negative logic, low represents the active (true) state, and high represents the inactive (false) state. Identifying schematic diagrams Each electrical schematic in this section is identified by a number that is both the figure number and the page number. The numbers are assigned sequentially are prefixed by the letters SD. The electrical schematics and logic diagrams included in this section are listed in Table. on page -. Structure of schematics The electrical schematics are structured in a hierarchical format that is based on function and signal flow. Wherever practical, the signal flow is from left to right. Normally, inputs originate on the lefthand side and outputs extend to the right-hand side. Exceptions are shown by an arrow indicating the direction of signal flow. Note: The physical location of a part or assembly was not necessarily a factor during creation of the schematic. The full reference designation assigned to a part or assembly, in conjunction with the family tree (see Section, Parts Lists on page -) and the assembly detail drawings (see Section, Mechanical Drawings on page -), will identify its location. Page - Issue

225 NX00 Troubleshooting Manual Reading Electrical Schematics Figures SD- through SD- identify each major stage and its detailed interconnection. Each stage contains cross-references that identify which blocks are the signal sources for inputs, or the destinations for outputs. When a sub-function is treated as a block in figures SD- through SD-, its detailed circuit information is included in its own schematic drawing(s), which is also included in this section. Locating schematic diagram(s) for a functional block The text inside a functional block provides the key to locating its schematic diagram(s).. When a functional block is assigned a reference designation (e.g., AA), refer to the family trees in Section, Parts Lists on page -. Follow the family tree branches to the block that contains the desired reference designation, and associated Nautel nomenclature (e.g., NAPA Modulator/Power Amplifier PWB). Note the reference designations and Nautel nomenclatures of all higher assemblies in the path. Example: A0 NAP RF Power Module > A0A NAPA Modulator/Power Amplifier PWB.. Refer to Table. on page - and use the reference designation and Nautel nomenclature to identify the appropriate schematic diagram(s). Example: NAPA Modulator/Power Amplifier PWB is shown on schematic SD-.. If necessary, refer to the referenced figure (e.g., SD-) in the schematics at the end of this section and locate the next, lower-level assembly. Then, repeat this procedure until the desired schematic diagram is found. Locating a part or assembly on a schematic The full reference designation assigned to a part or assembly is the key to physically locating that part or assembly. Note: Full reference designations contain the assembly hierarchical coding. When the end item is divided into units (cabinets), the first coding is a unit number (,,, etc.). When the end item is divided into assemblies, the first coding is an assembly number (A, A, A, etc.). If a unit or an assembly is divided into sub-assemblies, assembly coding that identifies assembly relationship (A, AA, AAA, etc.) is added.. Refer to the family trees in Section, Parts Lists on page -. Issue Page -

226 NX00 Troubleshooting Manual Reading Electrical Schematics. Follow the family tree branches to the block that contains the desired reference designation, while noting the Nautel nomenclatures and names of all higher assemblies in the path. Example: A0 NAP RF Power Module > A0A NAPA Modulator/Power Amplifier PWB. Note: The drawings in the Mechanical Drawings section depict the assembly detail of the transmitter and its modules and assemblies.. Refer to Table. in Section, Mechanical Drawings on page -. Use the Nautel nomenclature and name of each family tree block in the path, starting at the highest assembly this is normally Figure MD- to determine the figure number(s) for that assembly. Example: NAPA Modulator/Power Amplifier PWB is shown on MD-.. Refer to the referenced figure (e.g., MD-) in Section., List of Mechanical Drawings on page - to locate the desired part or assembly. Page - Issue

227 NX00 Troubleshooting Manual Reading Electrical Schematics Table.: List of Electrical Schematics Figure # Title SD- NX00 Transmitter - Ac-Dc Power Stage SD- NX00 Transmitter - Exciter Stage SD- NX00 Transmitter - Control/Monitor Stage SD- NX00 Transmitter - RF Power Stage (Sheet of ) SD- NX00 Transmitter - RF Power Stage (Sheet of ) SD- NX00 Transmitter - 0 kw RF Power Block SD- NAPC0A/0 Control/Interface PWB (Sheet of ) SD- NAPC0A/0 Control/Interface PWB (Sheet of ) SD- NAPC0A/0 Control/Interface PWB (Sheet of ) SD-0 NAPC0A/0 Control/Interface PWB (Sheet of ) SD- NAPC0A/0 Control/Interface PWB (Sheet of ) SD- NAPC0A/0 Control/Interface PWB (Sheet of ) SD- NAPC0A/0 Control/Interface PWB (Sheet of ) SD- NAPI0 Remote Interface PWB SD- NAPX GPS Sync PWB (Optional) SD- NAPIA Rack Interface PWB (Sheet of ) SD- NAPIA Rack Interface PWB (Sheet of ) SD- NAPIA Rack Interface PWB (Sheet of ) SD- NAPI RF Drive Distribution PWB (Sheet of ) SD-0 NAPI RF Drive Distribution PWB (Sheet of ) SD- NAPI PDM Distribution PWB (Sheet of ) SD- NAPI PDM Distribution PWB (Sheet of ) SD- NAP RF Power Module and NAPA Modulator/Power Amplifier PWB (Sheet of ) SD- NAP RF Power Module and NAPA Modulator/Power Amplifier PWB (Sheet of ) Issue Page -

228 NX00 Troubleshooting Manual Reading Electrical Schematics Page - Issue

229 FROM -PHASE SOURCE AC POWER LINE LINE LINE LINE H H H POWER TRANSFORMER T LOAD X XF A A X F B B F C C X F X0 Xo 0VAC (L-L) AT NO LOAD P POWER SUPPLY ASSEMBLY L N G L N G L N G L N G L N G E V+ U V POWER V- SUPPLY 00W A CN CN CN V+ CN U V- V POWER SUPPLY 00W B CN U V POWER SUPPLY 0W A CN U V POWER SUPPLY 0W B CN U V POWER SUPPLY 00W F-F ARE 00A LOAD SHARE REMOTE SENSING REMOTE SENSING V+ V- V+ V- V+ V- XF A A F B B F C C P P P0 F Xo TO RACK P # V PS OK (B) - P (A) RETURN (A) SENSE RETURN # V PS OK (A) - (B) RETURN (B) S00 V +V (A) +V (B) B C Xo P INHIBIT V (A) + INHIBIT V (A) - PREFIX ALL ITEMS BY THEIR CABINET (RACK) # PREFIX, EXCEPT FOR ITEMS IN THE POWER SUPPLY ASSEMBLY, WHICH IS EXTERNAL TO CABINETS. A +V RETURN +V RETURN INHIBIT V (B) + INHIBIT V (B) - F A F A E E P P P P 0 E E (PART OF ) A RACK INTERFACE PWB J J J J VAC (L-L) J J J J J0 0/0 Hz 0 0 TAP 0 0 P P P P P?? -V +V (RECT FAN ) TACH (RECT FAN ) +V (RECT FAN ) TACH (RECT FAN ) RECT FAN RECT FAN B+ LEVEL CONTROL +0V +0V RETURN R.K ** +V R 0 INTERNAL BUS INTERNAL BUS A B C TB TB TB 0 U RECTIFIER ASSY B + # PHASE LOST - RECTIFIER TEMP DC CURRENT B+ SAMPLE # B+ CHARGE + # INHIBIT SCR - - * * WIRE IS ONLY INSTALLED IN THE CONTROL CABINET, NOT SUBSEQUENT CABINETS. TO NEXT CABINET INTERFACE PWB TB ** R AND R ARE NOT INSTALLED IN THE CONTROL CABINET. + - URT t + - P CR BAT J U HALL EFFECT CURRENT SENSOR J P L.mH L.mH L.mH L.mH L.mH L.mH E E E E0 R K 0.W R K 0.W A B+ DISTRIBUTION E E E0 R K 0.W R K 0.W F 0A F 0A F 0A F 0A F 0A R R 0K 0K 0.W 0.W A B+ DISTRIBUTION F 0A F 0A F 0A F 0A F 0A R R 0K 0K 0.W 0.W E E E E J E E E E E J P R K W U U0 U GBPC0 GBPC0 GBPC0 AC AC AC AC AC AC R C K 0,000 W 0V U GBPC0 B AC AC AC AC C 0,000 0V C 0,000 0V C 0,000 0V R K W R K W C 0,000 0V C 0,000 0V C R K W R K W NC NO K C 0,000 0V U GBPC0 C0 0,000 0V R K W R0 K W R 0 0W C 0,000 0V C 0,000 0V R K W R K W C 0,000 0V C 0,000 0V R K W B+ () B+ () B+ () B+ () B+ () R K W B+ RETURN () B+ RETURN () B+ RETURN () B+ RETURN () B+ RETURN () B+ () B+ () B+ () B+ () B+ (0) B+ RETURN () B+ RETURN () B+ RETURN () B+ RETURN () B+ RETURN (0) -V -V B+ SAMPLE INTERNAL BUS INTERNAL BUS +V TO RF POWER STAGE TO EXCITER STAGE TO CONTROL/ MONITOR STAGE PREFIX ALL ITEMS BY THEIR CABINET (RACK) # PREFIX, EXCEPT FOR POWER TRANSFORMER T, WHICH IS EXTERNAL TO CABINETS Figure SD-: NX00 Transmitter - Ac-Dc Power Stage Issue SD-

230 FROM AC-DC POWER STAGE FROM RF POWER STAGE FROM LAN/ EXPORTER TX TX RX SHIELD SHIELD RX SHIELD SHIELD S000 VA P -V -V B+ SAMPLE INTERNAL BUS INTERNAL BUS J EXGINE PWB (OPTIONAL) J FORWARD POWER SAMPLE REFLECTED POWER SAMPLE RF VOLTAGE SAMPLE RF CURRENT SAMPLE J AA? J +.V 0 SERIAL FRAME SERIAL FRAME (N/U) SERIAL CLOCK SERIAL CLOCK (N/U) SERIAL DATA SERIAL DATA INTERNAL BUS (N/U) INTERNAL BUS (N/U) 0 MHz (N/U) (N/U) (N/U) 0 A A A P 0 P J0 J J J J J B+ SAMPLE VOLTAGE SAMPLE (EXCITER A) CURRENT SAMPLE (EXCITER A) J INTERNAL BUS INTERNAL BUS # ADDRESS (EXCITER A) + PPS khz SERIAL CLOCK SERIAL DATA SERIAL FRAME ANALOG AES/EBU IQ AES/EBU BALANCED AUDIO BALANCED AUDIO # PDM INHIBIT - EXT 0 MHz (PART OF ) -V AA CONTROL/ INTERFACE PWB J B+ SAMPLE VOLTAGE SAMPLE (EXCITER B) CURRENT SAMPLE (EXCITER B) J INTERNAL BUS INTERNAL BUS # ADDRESS (EXCITER B) - PPS khz SERIAL CLOCK SERIAL DATA SERIAL FRAME ANALOG AES/EBU IQ AES/EBU BALANCED AUDIO BALANCED AUDIO # PDM INHIBIT - EXT 0 MHz -V J RF DRIVE (EXCITER A) RF DRIVE (EXCITER A) J PDM (EXCITER A) 0 PDM (EXCITER A) P PDM (EXCITER A) PDM (EXCITER A) J AA DIGITAL PDM (EXCITER A) AM EXCITER PDM (EXCITER A) -V PWB PDM (EXCITER A) A PDM (EXCITER A) WP J PDM (EXCITER A) A RF DRIVE A RF DRIVE A (N/U) A (N/U) J 0 A (N/U) 0 J A (N/U) 0 A RF DRIVE DUMP (EXCITER A) A RF DRIVE DUMP (EXCITER A) DUMP (EXCITER A) J WP SPDIF AUDIO (EXCITER A) A PDM STREAMING BUS (EXCITER A) A PDM J A PDM (PART OF ) AA A PDM A PDM CONTROL/ A PDM INTERFACE A DUMP PWB A DUMP WP J B PDM RF DRIVE (EXCITER B) B PDM RF DRIVE (EXCITER B) B PDM J PDM (EXCITER B) B PDM 0 PDM (EXCITER B) J B PDM PDM (EXCITER B) B PDM PDM (EXCITER B) AA B DUMP DIGITAL PDM (EXCITER B) B DUMP AM EXCITER PDM (EXCITER B) PWB PDM (EXCITER B) WP B C PDM PDM (EXCITER B) J C PDM PDM (EXCITER B) C PDM C PDM C PDM C PDM 0 0 C DUMP J 0 C DUMP DUMP (EXCITER B) DUMP (EXCITER B) DUMP (EXCITER B) J SPDIF AUDIO (EXCITER B) STREAMING BUS (EXCITER B) J GROUP A GROUP B GROUP C TO RF POWER STAGE Figure SD-: NX00 Transmitter - Exciter Stage Issue SD-

231 FROM AC-DC POWER +V STAGE # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT - N/C # DIGITAL INPUT - # DIGITAL INPUT - # DIGITAL INPUT - # DIGITAL INPUT - # DIGITAL INPUT - N/C EXTERNAL SUPPLY EXTERNAL SUPPLY J (PART OF ) AA REMOTE INTERFACE PWB J J J J J # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - J # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - WP # DIGITAL INPUT 0 - # DIGITAL INPUT 0-0 # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - J # DIGITAL INPUT - # DIGITAL INPUT - # DIGITAL INPUT - # DIGITAL INPUT - # DIGITAL INPUT - # DIGITAL INPUT - EXTERNAL SUPPLY EXTERNAL SUPPLY (PART OF ) AA CONTROL/ INTERFACE PWB WP DCD TXD RXD DTR DSR RTS CTS (N/U) STREAM (N/U) (N/U) (N/U) STREAM (N/U) (N/U) WP 0 P0 + PS - AUI WP COMPUTER U MOTHERBOARD COM VGA U CPU U MEMORY IC U MEMORY, CF COM COM B FAN USB USB KEYBOARD* MOUSE * (USB) (USB) GPS ANTENNA J ETHERNET CPU * MONITOR KEYBOARD * WP + - PS U ADVANCED J USER # DIGITAL OUTPUT 0 - INTERFACE # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - PURPLE # DIGITAL OUTPUT 0 - J # DIGITAL OUTPUT 0 - (PART OF ) GRAPHICAL # DIGITAL OUTPUT 0 - AA DISPLAY/ # DIGITAL OUTPUT 0 - REMOTE TOUCH # DIGITAL OUTPUT 0 - INTERFACE SCREEN 0 PWB # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - J # DIGITAL OUTPUT - J GREEN # DIGITAL OUTPUT - # DIGITAL OUTPUT - # DIGITAL OUTPUT - # DIGITAL OUTPUT - # DIGITAL OUTPUT - 0 ANALOG OUTPUT J ANALOG OUTPUT A CONTROL/ DISPLAY ANALOG OUTPUT DOOR ANALOG OUTPUT * SHOWN FOR REFERENCE ONLY (PART OF ) AA CONTROL/ INTERFACE PWB J 0 J J # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT 0 - # DIGITAL OUTPUT - N/C # DIGITAL OUTPUT - # DIGITAL OUTPUT - # DIGITAL OUTPUT - # DIGITAL OUTPUT - # DIGITAL OUTPUT - N/C ANALOG OUTPUT ANALOG OUTPUT ANALOG OUTPUT ANALOG OUTPUT BALANCED ANALOG AUDIO ANALOG AES/EBU I/Q AES/EBU SHLD SHLD SHLD J J J0 J A A A A A A A A A INTERNAL BUS (N/U) # ADDRESS (GPS A) + INTERNAL BUS (N/U) (N/U) AA? GPS PWB A J J PPS (GPS A) A PPS (GPS A) 0 MHz (GPS A) A khz (GPS A) khz (GPS A) 0 MHz (GPS A) A (N/U) (N/U) A A A A A J J J (EXTERNAL) (N/C) (N/C) RF MONITOR SAMPLE S000 VA EXTERNAL INTERLOCK PDM INHIBIT EXT 0 MHz EXT PPS J J J J B B B B B B B B B INTERNAL BUS (N/U) # ADDRESS (GPS B) - INTERNAL BUS (N/U) (N/U) GPS ANTENNA J AA? GPS PWB B J J PPS (GPS B) PPS (GPS B) 0 MHz (GPS B) khz (GPS B) khz (GPS B) 0 MHz (GPS B) (N/U) (N/U) B B B B B B B B J J DCD TXD RXD DTR DSR RTS CTS N/C DEBUG (RS-) Figure SD-: NX00 Transmitter - Control/Monitor Stage Issue SD-

232 NOTE: SEE FIGURE SD- FOR 0 kw RF POWER BLOCK DETAIL FROM EXCITER STAGE GROUP A GROUP B GROUP C J WP WP WP B RF DR RF DR B RF DR RF DR B RF DR (N/U) B RF DR (N/U) B RF DR J (N/U) B RF DR (N/U) B RF DR RF DR (PART OF 0) B RF DR RF DR A J WP WP RF DRIVE D RF DR DISTRIBUTION D RF DR PWB D RF DR D RF DR D RF DR D RF DR D RF DR D RF DR WP PDM PDM PDM PDM PDM PDM DUMP DUMP WP PDM WP PDM J (PART OF ) A PDM DISTRIBUTION J PWB J J J J J WP WP E PDM E PDM E PDM E PDM E PDM E PDM E DUMP E DUMP WP WP G PDM CABLE (SAME AS W) WP WP E PDM CABLE (SAME AS W) WP WP G PDM CABLE (SAME AS W) AAJ AAJ A0AJ A0AJ AAJ AAJ AAT AAT AAT AAT J WP D D D D D D D (PART OF 0) D A J WP RF DRIVE F DISTRIBUTION F PWB F F F F F F J (PART OF ) A PDM DISTRIBUTION PWB J J J WP E E E E E E E E RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR PDM PDM PDM PDM PDM PDM DUMP DUMP WP WP WP WP WP G PDM CABLE (SAME AS W) WP WP E PDM CABLE (SAME AS W) WP WP G PDM CABLE (SAME AS W) AAJ AAJ AAJ AAJ AAJ AAJ AAT AAT AAT AAT J WP WP J WP B RF DR F B RF DR F B RF DR F B RF DR F AAJ B RF DR F B RF DR F B RF DR F (PART OF 0) B RF DR (PART OF 0) F A J W0P W0P A J WP RF DRIVE H RF DR RF DRIVE A DISTRIBUTION H RF DR DISTRIBUTION A PWB H RF DR PWB A H RF DR A AAJ H RF DR A H RF DR A H RF DR A H RF DR A J (PART OF ) A PDM DISTRIBUTION PWB J J J RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR WP J WP WP H RF DR H RF DR H RF DR H RF DR AAJ H RF DR H RF DR H RF DR (PART OF 0) H RF DR WP A J WP WP RF DRIVE C RF DR DISTRIBUTION C RF DR PWB C RF DR C RF DR AAJ C RF DR C RF DR C RF DR C RF DR WP WP WP WP WP WP E PDM F PDM F PDM E PDM AAT F PDM AAT F PDM E PDM F PDM F PDM E PDM F PDM F PDM AAJ J AAJ J E PDM F PDM F PDM E PDM AAT (PART OF ) F PDM AAT (PART OF ) F PDM E DUMP F DUMP F DUMP A A E DUMP F DUMP F DUMP PDM PDM W0P W0P DISTRIBUTION WP WP DISTRIBUTION WP WP G PDM CABLE (SAME AS W) AAJ AAT PWB J H PDM CABLE (SAME AS W) AAJ AAT PWB J H PDM CABLE (SAME AS W) WP WP WP WP WP WP F PDM CABLE (SAME AS W) AAJ J F PDM CABLE (SAME AS W) AAJ J F PDM CABLE (SAME AS W) WP WP WP WP W0P W0P H PDM CABLE (SAME AS W) AAJ AAT J H PDM CABLE (SAME AS W) AAJ AAT J H PDM CABLE (SAME AS W) AAJ AAJ AAJ AAJ AAJ AAJ AAT AAT AAT AAT P J PDM IN CTRL J J J J WP A WP C WP A WP C WP WP WP WP A0AJ PDM CABLE A0AJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE AAT AAT J J J J WP WP A W0P W0P C WP WP A WP WP C AAJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE AAT AAT J J J J WP WP A WP WP C WP WP B WP WP D AAJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE AAT AAT J J J J WP WP B WP WP D WP WP B W0P W0P D AAJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE AAT AAT J J J J WP WP B WP WP D WP WP B WP WP D AAJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE AAJ PDM CABLE A0AT A0AT J (PART OF 0) A RF DRIVE DISTRIBUTION PWB J J WP F F F F F F F F WP H H H H H H H H AAT WP AAJ RF DR RF DR RF DR RF DR AAT RF DR RF DR RF DR RF DR WP AAJ RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR 0KW POWER BLOCK (TOP ROW) 0KW POWER BLOCK (BOTTOM ROW) J (PART OF 0) A RF DRIVE DISTRIBUTION J PWB W0P D D D D D D D D WP G G G G G G G G AAT W0P AAJ RF DR RF DR RF DR AAT RF DR RF DR RF DR RF DR RF DR WP AAJ RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR 0KW POWER BLOCK (TOP ROW) 0KW POWER BLOCK (BOTTOM ROW) J (PART OF 0) A RF DRIVE DISTRIBUTION J PWB WP B B B B B B B B WP A A A A A A A A AAT WP AAJ RF DR RF DR RF DR RF DR AAT RF DR RF DR RF DR RF DR WP AAJ RF DR RF DR RF DR RF DR RF DR RF DR RF DR RF DR 0KW POWER BLOCK (TOP ROW) 0KW POWER BLOCK (BOTTOM ROW) J (PART OF 0) A RF DRIVE DISTRIBUTION J PWB WP WP E E E E E E E E WP E E E E E E E E WP AAT A0AT AAJ J WP WP A0AJ RF DR G RF DR RF DR G RF DR RF DR AAT G RF DR A0AT RF DR G RF DR RF DR (PART 0 OF 0) G RF DR RF DR G RF DR RF DR A G RF DR RF DR RF DRIVE G RF DR AAJ 0KW DISTRIBUTION J WP WP A0AJ RF DR POWER BLOCK PWB C RF DR RF DR (BOTTOM ROW) C RF DR RF DR C RF DR RF DR C RF DR RF DR C RF DR RF DR C RF DR RF DR C RF DR RF DR C RF DR 0KW POWER BLOCK 0KW POWER BLOCK (TOP ROW) (TOP ROW) 0KW POWER BLOCK (BOTTOM ROW) P0 WP WP AAJ AAJ J MODULE BUS MODULE BUS FAN TACH (F) FAN TACH (R) J PDM IN CTRL (PART OF ) RETURN A RETURN J RETURN RACK RETURN INTERFACE RETURN PWB RETURN +V +V +V RETURN +V RETURN (N/U) J J (N/U) (N/U) (N/U) (N/U) (N/U) (N/U) FAN TACH (REAR) FAN TACH (FRONT) +V +V 0 0 AAJ FAN TACH (REAR) FAN TACH (FRONT) J (PART OF ) A RACK INTERFACE PWB +V +V J J AAJ AAJ MODULE BUS MODULE BUS FAN TACH (F) FAN TACH (R) 0 0 RETURN RETURN RETURN RETURN RETURN RETURN +V +V +V RETURN +V RETURN (N/U) (N/U) 0 0 AAJ J FAN TACH (REAR) FAN TACH (FRONT) +V +V (PART OF ) A RACK INTERFACE PWB J AAJ AAJ MODULE BUS MODULE BUS FAN TACH (F) FAN TACH (R) 0 0 RETURN RETURN RETURN RETURN RETURN RETURN +V +V +V RETURN +V RETURN (N/U) (N/U) 0 0 AAJ J FAN TACH (REAR) FAN TACH (FRONT) (PART OF ) A RACK INTERFACE PWB +V +V J J AAJ AAJ MODULE BUS MODULE BUS FAN TACH (F) FAN TACH (R) 0 0 RETURN RETURN RETURN RETURN RETURN RETURN +V +V +V RETURN +V RETURN (N/U) (N/U) W0P W0P A0AJ A0AJ MODULE BUS MODULE BUS FAN TACH (F) FAN TACH (R) (PART OF ) A RACK INTERFACE PWB RETURN RETURN AAJ J RETURN RETURN RETURN RETURN +V +V +V RETURN +V RETURN (N/U) J J (N/U) FAN TACH (REAR) FAN TACH (FRONT) +V +V AAJ P P A0 J FAN + B - POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY AA AA AA AA P 0 P A J FAN B + - POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY AA AA POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY AA AA P A J FAN B + - POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY AA AA POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY AA AA P P A J FAN + B - POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY AA AA POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY AA AA 0 P P A J FAN + B - POWER MODULE INTERFACE PWB A0A TRANSFORMER ASSY A0A A0A POWER MODULE INTERFACE PWB AA TRANSFORMER ASSY AA AA P + B - RF POWER MODULES A0 A0 A A RF POWER MODULES A0 A0 A A P B + - RF POWER MODULES A A A A RF POWER MODULES A A A A P B + - RF POWER MODULES A A A A RF POWER MODULES A A A A P B + - RF POWER MODULES A A A A RF POWER MODULES A A A A P + B - RF POWER MODULES A A A A RF POWER MODULES A A A A B+ () AAE B+ () AAE B+ () AAE B+ () AAE B+ (0) A0AE FROM B+ RETURN () AC-DC POWER STAGE B+ () AAE AAE FROM B+ RETURN () AC-DC POWER STAGE B+ () AAE AAE FROM B+ RETURN () AAE FROM B+ RETURN () AC-DC POWER AC-DC POWER STAGE B+ () AAE STAGE B+ () AAE AAE FROM AC-DC POWER STAGE B+ RETURN (0) B+ () A0AE AAE S0000 VA B+ RETURN () AAE B+ RETURN () AAE B+ RETURN () AAE B+ RETURN () AAE B+ RETURN () AAE PREFIX ALL ITEMS BY THEIR CABINET (RACK) # PREFIX Figure SD-: RF Power Stage, 00 kw Rack (Sheet of ) Issue SD-

233 CAPACITOR BANK RK-L CAPACITOR BANK RK-C TO RK-C * RK-L RK-L RK-C * RK-C * RK-C * RK-C * RK-A STATIC DRAIN KEY CONTROLLED GROUND SWITCH E SPARKGAP STN J RF OUT TO ANTENNA TO SHEET? RF TRANSFORMER PART OF RK-A RF TRANSFORMER PART OF RK-A * DENOTES FREQUENCY DEPENDENT COMPONENTS (REFER TO CUSTOMER CONFIGURATION SHEET FOR CAPACITOR VALUES) CAPACITOR BANK RK-C TO RK-C * RK-C * RK-C0 * RK-C 0pF RK-C 0pF ROGOWSKI CURRENT PROBE J P RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A0 (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMERS ARE PART OF BACKPLANE ASSEMBLIES AND ARE SHOWN HERE FOR REFERENCE ONLY. P J C0 00pF L L C 00pF C 00pF RK-AA DIRECTIONAL COUPLER PWB CR PKE0CA 0V CR PKE0CA 0V C0 0 V C 0 V C 00pF C.0 C.0 R 0K CW C C C R 00 U:A -V R 00 R 00 R 00 C C BRN/BLK T T R RED/BLK BRN R T W RED ORN/BLK T ORN V+ COMP R R R0 C -V -V CR CR CR CR V- U:B LT0CT SHUTDOWN R U:A U:A R 00 R 00 C -V C C R W R W J J J FORWARD POWER SAMPLE P REFLECTED POWER SAMPLE FORWARD POWER SAMPLE REFLECTED POWER SAMPLE TO EXCITER STAGE RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A C V+ COMP C V- U:B LT0CT SHUTDOWN C -V V+ C COMP C V- U:B LT0CT SHUTDOWN C -V (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A (SAME AS ABOVE) RF TRANSFORMER PART OF RK-A0 U SURGE ARRESTOR kv RK-A C VOLTAGE 0pF PROBE C 0.0 C 0.0 J P RF VOLTAGE SAMPLE RF CURRENT SAMPLE (SAME AS ABOVE) (SAME AS ABOVE) T RK-A RF CURRENT PROBE R 0 W R 0 W R 0 W R J P 0 W FROM EXCITER STAGE -V S00 V Figure SD-: RF Power Stage, RF Output Filter (Sheet of ) Issue SD-

234 RF DRIVE RF DRIVE RF DRIVE RF DRIVE MODULE BUS MODULE BUS FAN TACH (FRONT) FAN TACH (REAR) 0 0 RETURN B+ RETURN J J B+ E E J J RF DRIVE 0 RF DRIVE RF DRIVE RF DRIVE MODULE BUS 0 MODULE BUS J +V +V FAN TACH (FRONT) +V RETURN FAN TACH (REAR) RETURN B+ B+ RETURN S000 V C 000 0V F 0A MODULE BUS MODULE BUS FAN TACH (FRONT) FAN TACH (REAR) RETURN A?A C 0 0V G R 00K W PDM PDM PDM PDM PDM DS B+ J PDM PDM PDM DUMP DUMP 0 0 POWER 0 MODULE INTERFACE PWB (PART OF ) B+ F R 0A C 00K 0 0 W 0V G DS B+ B+ RETURN 0 0 PDM PDM PDM PDM DUMP DUMP AJ A? RF POWER MODULE AP AP A? RF POWER MODULE ( OF ) AP AJ ( OF ) AP J J * * CONNECTOR J OF THE POWER MODULE INTERFACE PWB IS USED ONLY ON NAPI/0 VARIATIONS. 0 0 RETURN RETURN RF DRIVE 0 RF DRIVE RF DRIVE E RF DRIVE E 0 J +V CR N00 a K a K b U e (OPEN) (CLOSE) CR N00 - A?A POWER MODULE INTERFACE J PWB RF DRIVE (PART OF ) RF DRIVE A?A TRANSFORMER RF DRIVE ASSY RF DRIVE 0 E E 0 J +V CR N00 CR N00 P P b U e (OPEN) (CLOSE) T T J B+ B+ RETURN J B+ B+ RETURN FAN TACH (FRONT) A?A POWER MODULE INTERFACE PWB (PART OF ) F 0A F 0A MODULE BUS MODULE BUS FAN TACH (REAR) RETURN C 0 0V MODULE BUS MODULE BUS FAN TACH (FRONT) FAN TACH (REAR) RETURN C 0 0V G G PDM PDM PDM R 00K W PDM PDM DS B+ R 00K W PDM DUMP DUMP DS B+ J AP 0 0 J0 +V CR N00 0 CR N00 A?A POWER MODULE J INTERFACE J PWB 0 (PART OF ) A? 0 RF POWER MODULE ( OF ) 0 E0 AP PDM PDM PDM PDM PDM PDM DUMP DUMP AJ A? RF POWER MODULE ( OF ) 0 AJ AP AP 0 J MODULE BUS MODULE BUS FAN TACH (FRONT) FAN TACH (REAR) +V +V CR N00 CR N00 J * MODULE BUS MODULE BUS FAN TACH (FRONT) FAN TACH (REAR) +V E E E J P P a K a - K b U e (OPEN) (CLOSE) A?A TRANSFORMER ASSY b U e (OPEN) (CLOSE) T T Figure SD-: 0 kw RF Power Block Issue SD-

235 FROM SHEET FROM SHEET LOCAL/ REMOTE S RF OFF S PWR INCR S PWR DECR S ALARM RESET S FROM SHEET FROM SHEET PROG RESET CR V CR0 V CR V CR V CR V J R0 000 R 000 R0 000 CR CR CR C 0.0 EN t U U:A TMPFS CR CR CR CR C CR C VCC C 0 VCC 00 AVCC RF_DRIVE_SAMPLE PF0/ADC0 R MODULATION_SAMPLE 00K PF/ADC R 00K AREF C C C R0 R R R R R0 0.0K 0.0K 0.0K 0.0K 0.0K 0.0K PJ/PCINT R 000 R 000 CPU PH/XCK PH/OCA PH/OCB PH/OCC PH/OCB PH/T PE/INT/ICP/CLKO PA/AD PA/AD PA/AD PA/AD PA/AD PA/AD PA/AD PA0/AD0 PG0/WR PG/RD PC/A PC/A PC/A PC/A PC/A0 PC/A PC0/A PD/INT/SDA PE/INT/T 0 RESET 0 PB/PCINT/SCK PF/ADC PB/PCINT/MOSI R R0 R 0.0K 00 PB/PCINT/MISO 0.0K XTAL PJ/TXD/PCINT0 Y.0MHz PE/TXD0 XTAL PE0/PCINT/RXD0 C C PH/TXD pf pf PH0/RXD ADC_REF PK/ADC/PCINT PD/INT/TXD RX_(COMB_CONT) PD/INT/RXD PJ0/RXD/PCINT PD/ICP S00 SHEET OF V CR C CR C0 C C C C C0 0 VCC VCC PJ/PCINT PJ/PCINT PJ/PCINT U ATmega0-AU PJ/XCK/PCINT PK/ADC/PCINT PE/INT/OCC PL0/ICP PK0/ADC/PCINT PF/ADC PE/INT/OCB 0 PG/ALE PL PD0/INT0/SCL 0 0 PG/OC0B PG/TOSC LOCAL A DS R0 REMOTE A #CS_SRAM- #CS_ADDR- A A A A A0 A A # GPS OK - B J PL 0 PC/A PROG VCC J PK/ADC/PCINT0 PROG VCC J PK/ADC/PCINT PB0/PCINT0/SS J PE/AIN/OCA PK/ADC0/PCINT PD/T J PROG TCK PF/ADC/TCK PD/XCK J PROG TDO PF/ADC/TDO PJ J PROG TMS PF/ADC/TMS PE/AIN0/XCK0 J 0 PROG TDI PF/ADC/TDI PL/T J PROG PL/OCA J PROG 0 PL/OCB R R R R R R PK/ADC/PCINT 0.0K 0.0K 0.0K 0.0K 0.0K 0.0K #FAST_SHUTBACK- PL/OCC FROM SHEET PB/PCINT/OCC/OC0A #PDM_LATCH- PG/TOSC FROM SHEET PL/ICP PD/T0 #INTERLOCK_OPEN- PB/PCINT/OCA FROM #EXT_PDM_INHIBIT- PK/ADC/PCINT SHEET PB/PCINT/OCA #INTLK_OPEN_(COMB)- PB/PCINT/OCB R 0.0K R 000 R 0.0K TP RF ON BT V R 0.0K R 0.0K DS R0 A R 0.0K R 0.0K DS R R0 0.0K RF OFF R 0.0K A R DS C R 0.0K PDM INHIBIT A C Q MMBT0LT VBAT SDA MINOR ALARM U ISL0IB R 0.0K DS R VDD SCL R 0.0K A R 0.0K LS MSRN DS R MAJOR ALARM R X X IRQ/FOUT R 0.0K DS R D D D D D D D D0 R0 0.0K RTC R 0.0K Y.kHz U: 0 D D D D D D D D0 R0 0.0K R 0.0K U:D SBC RESET D U:H Q D U:G Q D U:F Q D U:E Q D U:D Q D U:C Q D U:B Q D0 U:A Q0 LATCH 0 VCC U:I SNAHCDW OUTPUT 0 R 0.0K R 00 S R. R R. A A A A A A A A0 J J SCK MOSI MISO #CS_POT- #SELECT_SIDE_B- #SELECT_STREAMING_B- #PDM_LATCH_RESET- #LEDS_LOAD+ #CS_DAC- #WR- #RD- #CS_DAC- #CS_RMT_IN- #CS_SERIAL_FLASH- #CS_RMT_OUT- #SELECT_SYNC_B- #SELECT_SYNC_INT- C TP C. TX_(COMB_CONT) CR0 V V J PROG_RESET J MISO J SCK J PROG_MOSI R. PROG_VCC PROG_ TO SHEET TO SHEET TO SHEET TO SHEET SBC RESET TP0 TO SHEETS,, & TO SHEETS,, & FROM SHEET TO SHEET TO SHEET TO SHEETS & TO SHEET TO SHEET TO SHEET TO SHEET TO SHEET TO SHEET R 0.0K R K R K J J R0 0.0K J # PDM INHIBIT - (EXCITER A) J # PDM INHIBIT - (EXCITER B) R K R K CR R0.K R0 0 R 000 C.0 R 0 VBAT C VIN C0 A A A A A0 A A A A A A A A A N/C VCC U N/C N-00 VE SENSE VCC C VE MR CEIN U N-00 A0 VDD CEOUT C U VOUT TPS-0DGS U MAU0 RESET RESET +V 0V N/C N/C R0 U:E VDD C TLVID RAM MONITOR R 000 C C0 -B C 0 -B CR SMBBT.V 0 A A A A A0 A A A A A A A A A A0 WE OE 0 CE VCC C -B C C+ TOUT C C- C+ C U ADM0ARNRIN C- V+ C VCC C C -B C C C C 0.0 U CYLL TIN ROUT C+ C- C- V+ DI RO RE DE I/O I/O I/O I/O I/O I/O I/O I/O0 U DSCTM RAM ROUT TOUT RIN V- 0 TIN TOUT RIN U TIN ADM0ARN C+ ROUT VCC VCC ROUT TOUT RIN V- 0 TIN DO/RI DO/RI D D D D0 D D D D R. R. C R. R. C R CR V CR V CR V CR V R R0 R J # ADDRESS + (EXCITER A) J # ADDRESS - (EXCITER B) J A DCD J A DTR J A DSR J A TXD EXTERNAL SERIAL BUS (RS-) J A RXD J A RTS J A CTS J A J DCD J DTR J DSR J TXD DEBUG (RS-) J RXD J RTS J CTS J J INTERNAL J BUS (EXCITER A) J INTERNAL J BUS (EXCITER B) J INTERNAL J BUS (EXGINE/DRM) J INTERNAL J BUS (RACK MASTER) J B INTERNAL J BUS B (GPS) Figure SD-: NAPC0A/0 Control/Interface PWB (Sheet of ) Issue SD-

236 -D L -V -D C +.V +.V L L C.0 C C C C C C.0 C.0 IN U0:B VCC C NCSZPX U:B VCC C0 NCSZPX -C -D U MCM0BDT OUT U:E VCC C MCACT0D C.0 U:E DSLSTM VCC C.0 U0:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 TP -V R0 0.0K C -V # RF DRIVE LATCH (A) - # RF DRIVE LATCH (B) - STREAMING BUS (AUI) RF DRIVE (EXCITER A) RF DRIVE (EXCITER B) FROM SHEET FROM SHEET FROM SHEET DUMP (EXCITER B) J DUMP (EXCITER A) DUMP (EXCITER B) DUMP (EXCITER A) DUMP (EXCITER B) J J DUMP (EXCITER A) J FROM SHEET J STREAMING BUS (EXCITER B) FROM SHEET J J J J J J J J STREAMING BUS (EXCITER A) J J J J J J J J J J REFLD_PWR_SAMPLE VSWR_THRESHOLD MOSI SCK C -V T T IN- #SELECT_STREAMING_B- R 00 W SDI/SDA CLK/SCL CS/AD0 VDD SHDN RES/AD 0 VLOGIC VSS SDO/O A W W 0 A NC/O B B DIS R0 00 W U ADBRU0 C.0 C.0 R 000 R 0 CW CW C0 R C R.0 T A W B A W B S00 SHEET OF V -V -V R 0 C.0 R 0 R 0 C.0 R 0 R 0 CR N CR N C00 CR R N CR N R 0 C CR N R 000 R 000 R VSWR 0K THRESHOLD U:A U:A -V CW C C C0.0 IN+ VCC+ R C.0 U TL0ID 0 Q Q LE SELECT 0 0 #FAST_SHUTBACK+ U LVCAPW 0 0 OE VCC SELECT C TP U0:A TP U:A 0 U SNHCPW V 0 -C -C 0 OE VCC 0 LE VCC+ C.0 LE VCC+ C0.0 SELECT C -D -D U:A U:D U:B U:C 0 -D U LVCAPW ONE GATE IS LOCATED ON SHEET 0 U:B TL0ID U:B TL0ID 0 0 VCC- VCC- #FAST_SHUTBACK- RF DR- RF DR- VCC OE C0.0 C.0 R 0.0K C -V -V +.V C R 00 VCC- #SELECT_SIDE_B- #CS_POT- RF_DRIVE_SAMPLE TO SHEET TO SHEET U:A J A J A RF DRIVE (A) U:B J B J B RF DRIVE (A) J C U0:A J C RF DRIVE (A) U0:B J D J D RF DRIVE (A) J E U:A J E RF DRIVE (A) U:B J F J F RF DRIVE (A) U:A J G J G RF DRIVE (A) J H U:B J H RF DRIVE (A) U:D J A J A RF DRIVE (A) J B U:C 0 J B RF DRIVE (A) U0:D J C J C RF DRIVE (A) U0:C 0 J D J D RF DRIVE (A) J E U:D J E RF DRIVE (A) U:C 0 J F J F RF DRIVE (A) J G U:D J G RF DRIVE (A) U:C 0 J H J H RF DRIVE (A) U:D J A J A DUMP U:D J B J B DUMP J C U:D J C DUMP U:D J D J D DUMP U:D J E J E DUMP J F U:D J F DUMP U:D J G J G DUMP J H U:D J H DUMP U:A J TXD STREAMING J TXD BUS (AUI) Figure SD-: NAPC0A/0 Control/Interface PWB (Sheet of ) Issue SD-

237 L C C C C C0 C C C C C C C U0:E VCC MC0D U:E VCC MC0D U:E VCC MC0D U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 U:E DSLSTM VCC C.0 S00 SHEET OF V FROM SHEET U VCC LVCAPW PDM -A PDM (EXCITER A) J U: PDM -B PDM (EXCITER B) J 0 PDM -A PDM (EXCITER A) J U: PDM -B PDM (EXCITER B) J 0 PDM -A PDM (EXCITER A) J U: PDM -B PDM (EXCITER B) J 0 U: 0 0 VCC U LVCAPW U: PDM (EXCITER A) J PDM -A PDM (EXCITER B) J PDM -B 0 U: PDM -A PDM (EXCITER A) J PDM (EXCITER B) J PDM -B 0 U: PDM (EXCITER A) PDM -A J PDM (EXCITER B) J PDM -B 0 U: 0 0 VCC U LVCAPW U: PDM -A PDM (EXCITER A) J PDM (EXCITER B) J PDM -B 0 U: PDM (EXCITER A) J PDM -A PDM (EXCITER B) 0 J PDM -B U: PDM -A PDM (EXCITER A) J PDM (EXCITER B) J PDM -B 0 U: 0 0 FROM SHEET SELECT SELECT SELECT U:E VCC C MMHC00M OE OE OE C C C +.V +.V +.V +.V R0 000 CR +.V R 000 CR +.V R 000 CR R.00M C C0 R.00M C R 000 CR R.00M R 000 CR R 000 CR +.V R0 000 CR +.V R.00M C R.00M R 000 CR +.V C R.00M C R 000 CR0 +.V +.V +.V +.V R 0.0K R 0.0K R.00M C R.00M C R.00M C U:C U:A U0:C U:C U:B U0:A U:B U:A U0:B R0 0.0K U:A U:B TP TP TP TP TP TP0 TP TP TP TP R 000 R 000 R0 000 R 000 R 000 R 000 R 000 R 000 R 000 R 0.0K C U:A U:A U:A U:A U:A U:A U:B U:B U:B U:B U:B U:B U:B R 0.0 U:A U:A U:C 0 U:C 0 U:C 0 U:C 0 U:C 0 U:C 0 U:C 0 U:C 0 U:B #SELECT_SIDE_B- #PDM_LATCH_RESET- #PDM_LATCH- MODULATION_SAMPLE J B J PDM B J E J PDM E J H J PDM H J C J PDM C J F J PDM F J A J A J G J G J B J B J E J E J H J H J C J C J J F F TO SHEET J J A PDM A J D J PDM D J G J PDM G J D J PDM D PDM PDM PDM PDM PDM PDM PDM J A J PDM A J D J PDM D J G J PDM G J B J PDM B J E J PDM E J H J PDM H J C J PDM C J F J PDM F Figure SD-: NAPC0A/0 Control/Interface PWB (Sheet of ) Issue SD-

238 AES SHIELD J J0 SERIAL FRAME (IBOC) J0 J0 SERIAL CLOCK (IBOC) J0 SERIAL DATA (IBOC) BALANCED ANALOG SHIELD J AUDIO AES SHIELD J0 J0 FROM SHEET J J J J J0 J0 J0 R R R R R 00 R 00 R 00 MOSI SCK #LEDS_LOAD+ R00 R C T T +.V R 0.0K R 0.0K A VCC 0 RESET R 0 R 0 C0 C 0pF C 0pF RIN+ RIN+ RIN- RIN+ RIN- RIN+ VCC EN QA QB OE QC U MCHCAD SHIFT_CLK LATCH_CLK QD QE QF QG QH SQH U DS0LV0 R R R R R R R 0 R 0 EN ROUT ROUT 0 ROUT G DS G DS 0% 00% 0% G DS0 0% G DS 0% G DS 0% G DS R CR SMB0CAT 0V U:A U:B -V R CR SMB0CAT 0V ROUT SELECT 0 C 0 U LVCAPW 0 VCC 0 RESET A 0 SHIFT_CLK LATCH_CLK CR CR CR CR VCC OE QA QB OE QC U MCHCAD 0 QD QE QF QG QH SQH U:A U:B C R0 R R R R +.V R. R. R. 0% G DS 0% G DS 0% G DS 0% G DS J 0 J 0 J J J J J J J ANALOG J AES/EBU (LVCMOS) J J J 0 I/Q AES/EBU J 0 (LVCMOS) J FS J J LVCMOS CLOCK I/Q J J DATA J BALANCED ANALOG AUDIO L MOSI SCK MOSI SCK 0% G C DS 0 FROM SHEET FROM SHEET RIN- #CS_DAC- VIN C00 RIN- #CS_DAC- C.0 C0.0 L U LT0BIS-. VOUT TP L C R 0.0K C.0 C VDD C0 0.0 C LDAC DATA CLK LOAD REFA REFB REFC REFD REFA REFB REFC REFD VDD C0 0.0 LDAC DATA CLK LOAD U:C V+ V- C OPGS U:E VCC VEE C0 MC0AD U:E VCC VEE C MC0AD U TLV0ID U TLV0ID C C C0 C 0 C0.0 C0.0 DACA DACB 0 DACC DACD DACA DACB 0 DACC DACD -V -V -V DIGITAL TO ANALOG CONVERTER R 0.0K R 0.0K R 0.0K R 0.0K R 0.0K R 0.0K R 0.0K R0 0.0K C 0.0 C 0.0 C 0.0 C 0.0 C 0.0 C 0.0 C 0.0 C 0.0 R 0.0K R 0.0K 0 R0 0.0 R0 0.0 U:C J R 0.0 C R 0.0 R 0.0K R 0.0K R 0.0K 0 U:A U:B U:A U:C R 0.0K U:D U:D U:B R 0.0K R 0.0K R 0.0K R0 0.0K R0 0.0K R 0.0K R 0.0K R 0.0K R 0.0K C.0 C.0 R 0.0 R 0.0 R 0.0 R 0.0 R 0.0 C C V+ C C C C0 C C0 C LATCH R 0.0 R 0.0 R 0.0 R 0.0 R0 0.0 R 0.0 R 0.0 U:B ADARUZ J ANALOG OUT (RMT I/FACE) J ANALOG OUT (RMT I/FACE) J ANALOG OUT (RMT I/FACE) J ANALOG OUT (RMT I/FACE) ADC_REF RF_MON_GAIN VSWR_THRESHOLD TP SPARE TP0 SPARE V- U:E DSCATM VCC TO SHEET TO SHEET TO SHEET S00 SHEET OF V Figure SD-0: NAPC0A/0 Control/Interface PWB (Sheet of ) Issue SD-0

239 # DIGITAL INPUT 0 - -A J R 0 R0 0.0K REMOTE INPUTS CR C 0.0 R 0 U:A MOCD-M A # DIGITAL INPUT 0 - -A J R0 0 R00 0.0K REMOTE INPUTS CR C 0.0 R 0 U:A MOCD-M A RT RXE0 C.0 L J J 0 (REMOTE) # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - -A J -A J -A J R 0 R 0 R 0 R0 0.0K R0 0.0K R0 0.0K CR CR CR C 0.0 C 0.0 C 0.0 R 0 U:B MOCD-M R 0 U:A MOCD-M R 0 U:B MOCD-M B C D U MCHCAD -A # DIGITAL INPUT 0 - J -A # DIGITAL INPUT - J -A # DIGITAL INPUT - J R 0 R 0 R 0 R 0.0K R 0.0K R 0.0K CR CR CR C 0.0 C 0.0 C 0.0 R 0 U:B MOCD-M R 0 U:A MOCD-M R 0 U:B MOCD-M B C D U MCHCAD J J J J J C L RT.0 RXE0 0 0 (EXTERNAL) # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - -A J -A J R 0 R 0 R0 0.0K R0 0.0K CR CR C 0.0 C 0.0 R 0 U0:A MOCD-M R 0 U0:B MOCD-M E F VCC QH 0 SA CLK_INH C -A # DIGITAL INPUT - J -A # DIGITAL INPUT - J R 0 R 0 R 0.0K R 0.0K CR CR C 0.0 C 0.0 R 0 U:A MOCD-M R 0 U:B MOCD-M E F CLK_INH VCC QH C # DIGITAL INPUT 0 - -A J R 0 R0 0.0K CR0 C 0.0 R0 0 U:A MOCD-M G # DIGITAL INPUT - -A J R 0 R 0.0K CR C 0.0 R 0 U:A MOCD-M G # DIGITAL INPUT 0 - -A J R 0 R0 0.0K CR C0 0.0 R 0 U:B MOCD-M H # DIGITAL INPUT - -A J R 0 R 0.0K CR C 0.0 R 0 U:B MOCD-M H EXTERNAL SUPPLY J J EXT E: E: INT E: -A CLK SHIFT/LOAD QH 0 SA FROM SHEET SCK #CS_RMT_IN- U ATAN-0SU. CLK SHIFT/LOAD QH U0:B U0:A R 0.0K MISO TO SHEET SCK MOSI #CS_SERIAL_FLASH- S00 SHEET OF V C SI CS VCC WP HOLD SO U0:E VCC C MCHCAD Figure SD-: NAPC0A/0 Control/Interface PWB (Sheet of ) Issue SD-

240 REFLD_PWR_SAMPLE FWD PWR SAMPLEB B REFLD PWR SAMPLEB FROM SHEET J J J R 0 R 0 RF_MON_GAIN R 0.0K R 0.0K FWD S:A RF MON VINP REFLD S:B -V R0 000 C C TP C.0 VPOS C U 0.0 AD0AR VNEG C 0.0 GNEG COMM GPOS VOUT FDBK R 000 C.0 U0:A R0 R 000 C0 C PWB PART: HW HR0 V+ COMP C.0 T 0 V- U0:B LT0CR SHUTDOWN R0 0 W C J C.0 RF MONITOR -V FROM SHEET MOSI SCK #CS_RMT_OUT- C 0.0 C VCC 0 RESET QC OE U QD MCHCAD QE A QA QB QF SHIFT_CLK QG QH LATCH_CLK SQH U:C U:D U:E U:F U:G 0 U:A U:C U:D C C C C C C0 C R J. R0 J R. J. R J R. J. R J R. J. R J C. J J 0 # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - VOLTAGE SAMPLE B B CURRENT SAMPLE B B B+ SAMPLE 0 J J J J J J R W 0 R W 0 B+ R 00 C 00pF R.K R. R0 0 W C 0.00 R 00 C R R0 00 U:A U:B U:B R 000 R 000 R 0.0 U:A U:B R0 000 R 000 R0 00 R0 00 R 00 R 00 J J J J J J J 0 J J J 0 J J J J VOLTAGE SAMPLE (EXCITER A) VOLTAGE SAMPLE (EXCITER B) CURRENT SAMPLE (EXCITER A) CURRENT SAMPLE (EXCITER B) B+ SAMPLE (EXCITER A) C0 0 V C 0.0 U:E A QA U:F VCC QB C 0 U:G RESET QC 0 U:A QD OE U U:B QE MCHCAD U:C QF U:D SHIFT_CLK QG U:E QH LATCH_CLK SQH C0 U:C V+ V- C0 OPAID C C 0 V -V C C C C0 C C C R J # DIGITAL OUT 0 -. R J # DIGITAL OUT 0 - R. J # DIGITAL OUT -. R0 J # DIGITAL OUT - R. J # DIGITAL OUT -. R J # DIGITAL OUT - R. J # DIGITAL OUT -. R J # DIGITAL OUT - C. J J 0 J (EXCITER A) J (EXCITER A) J (EXCITER B) J (EXCITER B) -V 0 J J J J J J J J J J J J J J J J J J J J J C C C L L L TP TP TP -V R 0.0K R 0.0K C 0 R 0.0K C0 0 V C0 0 V C0 0 C 0 V C 0 V C 0 C C 0 V C0.0 C 0 C 0 V C C 0 C0.0 -V C0 0 C0 U IN LP00TS-ADJ OUT C N/C ADJ PWB PART: HW HR0 C0 0 C 0 R0.0K R 0 C 0 TP +.V R 0.0K C TP TP C0 TP TP TP C0 TP +.V TP TP J B+ SAMPLE (EXCITER B) J J J J J 0 J J J J 0 C 0 V CR SMBB V CR0 SMBB V CR SMBB V C C V+ U:C OPAID V- U:H COM MCBD U:H COM MCBD U:H COM MCBD C C 0 V -V J J J B -V J J J B -V (EXCITER A) (EXCITER B) RF SAMPLE PROBE -V (EXCITER A) -V (EXCITER B) S00 SHEET OF V Figure SD-: NAPC0A/0 Control/Interface PWB (Sheet of ) Issue SD-

241 C CR SMBB V C U:E DSCATM VCC U:H COM MCBD VCC U:B VCC NCSZPX PPS (GPS) KHz (GPS) PPS (COMB CONT) KHz (COMB CONT) 0MHz (COMB CONT) 0MHz (GPS) B J J J J 0 J FROM SHEET FROM SHEET INTERLOCK (CONTROLLER) INTERLOCK (COMB CONT) RX (COMB CONT) J FROM SHEET + - B J B J J J EXT 0 MHz J SYNC RX (CONTROLLER) SYSTEM INTERLOCK J J J J J J J J R0 0.0K #SELECT_SYNC_INT- #SELECT_SYNC_B- #INTLK_OPEN_(COMB)- CR V L L L0 R. RT RXE00 R0 0.0K CR V CR V CR V R00 00 R 0 L C R 0.0K R 0.0K R 00 R0 0 CR V CR V CR V R 00 CR0 V R 00 CR0 C 0.0 C 0.0 CR V R. R. R. C CR 0.0 R0. C R. C0 R. C CR BATHT CR0 BATHT U:B MOCD-M R. C R. R 0 R. R0. R 000 R 000 U:G 0 R.K U:A C 0.0 TX_(COMB_CONT) DI R 0.0K R 0.0K R 0.0K U:A U0:B MOCD-M U:B R. R 000 R 000 DE VCC C RO RE SELECT 0 U0 DSCTM U:C DO/RI DO/RI U LVCAPW OE VCC C0 +.V C+ C C- C+ C C- RIN TIN V+ C0 VCC C E: SELECT R 0 E: COMB CONT E: INTERLOCK ROUT ROUT TOUT RIN V- TIN 0 U LVCAPW 0 0 U:D 0 R DISABLE TOUT U ADM0ARN 0 0 R. C R. R. 0 CR V OE VCC U:A U:A CR V R. C0 R0. TP TP0 TP R. +.V C0 +.V CR V R. R. R0. R #INTERLOCK_OPEN- RX_(COMB_CONT) RT RXE0 L CR V J J J A J KHz (EXCITER A) J KHz (EXCITER B) J 0MHz (EXCITER A) J 0MHz (EXCITER B) J A J A J B J J A J A J A J A J B J B J J J J J J J J PPS (EXCITER A) PPS (EXCITER B) PPS (EXGINE) J A 0MHz (EXGINE) J A # ADDRESS (GPS) - TO SHEET TX (CONTROLLER) (CONTROLLER) TO SHEET TX (COMB CONT) PDM INHIBIT + - R 00 R 0 R 0.0K C CR 0.0 R0 0.0K U0:A MOCD-M #EXT_PDM_INHIBIT- S00 SHEET OF V Figure SD-: NAPC0A/0 Control/Interface PWB (Sheet of ) Issue SD-

242 # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - J J 0 S 0 J J # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - G DS:B E: E: STATUS ALARM R DS:A G DS:B E: STATUS R DS:A E: ALARM G DS:B E: STATUS R DS:A G DS0:B E: ALARM E0: STATUS R DS0:A E0: ALARM # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - J J S 0 S 0 J J # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - J J E: R 00 CR E: R 00 CR J J # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - J J E: R 00 CR E0: R0 00 CR0 J J # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - J J J J S 0 S 0 S 0 S 0 S J J J J # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT 0 - J J E: E: STATUS ALARM E: R 00 CR G DS:B R DS:A G DS:B E: STATUS E: R 00 CR R DS:A E: ALARM J J # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT - # DIGITAL OUT - J J G DS:B E: STATUS E: R 00 CR E: ALARM R DS:A G DS:B E: STATUS R E: R 00 CR DS:A E: ALARM J J # DIGITAL OUT - # DIGITAL OUT - # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT - # DIGITAL INPUT - J J J J 0 S 0 S0 S S J J J J # DIGITAL INPUT 0 - # DIGITAL INPUT 0 - # DIGITAL INPUT - # DIGITAL INPUT - # DIGITAL OUT 0 - # DIGITAL OUT 0 - J J G DS:B R DS:A G DS:B R DS:A G DS:B R DS:A G DS:B R DS:A E: E: STATUS ALARM E: R 00 CR E: STATUS E: R 00 CR E: ALARM J J # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT - # DIGITAL OUT - J J E: STATUS E: R 00 CR E: ALARM E: STATUS E: R 00 CR E: ALARM J J # DIGITAL OUT - # DIGITAL OUT - # DIGITAL INPUT - J S J # DIGITAL INPUT - G DS:B R DS:A E: E: STATUS ALARM G DS:B E: STATUS R DS:A E: ALARM G DS:B E: STATUS R DS:A G DS:B E: ALARM E: STATUS R DS:A E: ALARM # DIGITAL INPUT - J S J # DIGITAL INPUT - E: R 00 E: R 00 E: R 00 E: R 00 # DIGITAL INPUT - # DIGITAL INPUT - J J J J J J J J J # DIGITAL INPUT - S J # DIGITAL INPUT - S J J 0 J S000 SHEET OF V # DIGITAL OUT 0 - # DIGITAL OUT (REMOTE) 0 J J J J C.0 CR J J J J J J J J J J CR J J # DIGITAL OUT 0 - # DIGITAL OUT 0 - # DIGITAL OUT - # DIGITAL OUT - EXTERNAL SUPPLY ANALOG OUTPUT ANALOG OUTPUT ANALOG OUTPUT ANALOG OUTPUT J J J J J J J J J J J CR CR J J J J J EXTERNAL SUPPLY J J J J J # DIGITAL OUT - # DIGITAL OUT - ANALOG OUTPUT ANALOG OUTPUT ANALOG OUTPUT ANALOG OUTPUT Figure SD-: NAPI0 Remote Interface PWB Issue SD-

243 U:B J J A A 0 MHz () GPS ANTENNA ADDRESS J J J J J J J +.V R 0 R C 0 OHMS C 0 V R L R.00 +.V C TP G RF&DC ISOL IS IN U MICYM EN GATE R DS U TCBT-RG VCC C A B ANTENNA IN C 0 V RF DC Q SI0BDY ADJ E.V OPEN V CLOSED U LTC0IS U LM0IS-. OUT DI RO RE DE 0 OHMS R 00 TP R 0.0K R 0 IN ANTENNA VOLTAGE SELECT C 0 V +.V TP R 0 E: E: C V C G U GAT- R DS +.V +.V C pf C0 pf C pf C 0.00 OUT S000 SHEET OF VA +.V 0 OHMS C0.0 C pf C pf C pf C 0.00 C.0 RF_IN PWRIN C 0.00 BOOT NANT_SC RF_ON C pf NRESET GPS_FIX GPIO C pf GPIO WAKEUP ANT_OC C pf ACTIVE_PWR 0 VCC_RF ANT_CTRL C pf V_BATT C 0.00 TP +.V U AA000-G TP +.V TP VDD C TXA TXB RXA RXB 0 0 PPS U MCP0T-0I/TT RST VSS C 0 V C pf C pf C pf C pf C R?? R 00 R?? R 00 GPS PPS TP C pf C pf C0 E: C GPS_TX GPS_RX E: +.V PROGRAM/CAL R 0.0K RESET VCC VCC VCC PB/RXD XTAL Y.MHz XTAL C pf PC/TCK/A PB/SCK PB/MOSI PB/MISO PB/TXD U ATmega-AU IN C PA/AD PC/A/TMS PC/A/TDO PD/INT/CP PC/A/TDI 0 PD/TOSC PE/OCB PD/OCA PE/ALE PD/WR PD/RD PE0/ICP/INT 0 PCO/A/PCINT PA/AD 0 PC/A0/PCINT0 PA/AD PC/A/PCINT 0 PB0/OC0 PB/OC PB/SS PC/A/PCINT PD/TXD0 PDO/RXDO PD/INT0/XCK PA0/AD0 PA/AD PA/AD PA/AD PA/AD U0 REF0AIDBZT OUT G +.V +.V R R0 R R R 0.0K DS LOCK A VREF VDD C SYNC DIN R SCLK DS ACQUIRE U DACE R R DS GPS STATUS UNLOCK VOUT VFB G TP R DS CPU R 000 C +.V +.V SCLK MISO #CPLD_SS- PPS J C J J J J J VCC C ISP +.V +.V R0. C C 0MHz TP C C I/O/GCK #PPS_+ FM #KHZ_+ SPARE_ 0 FM SPARE_ CPLD_IRQ FM CPLD_ACK VC U OCC-0M000 OUT I/O/GCK 0 FM 0 FM FM VCCINT VCCINT CPLD_ALIGN FM FM VCCIO VCCIO U XCXL-0VQC FM0 FM FM FM FM FM FM FM FM0 FM FM FM FM FM FM FM FM FM0 I/O/GCK FM FM FM FM FM FM FM 0 FM 0 TCK TMS TDI TDO FM FM FM FM FM FM0 FM 0 FM FM FM FM FM I/O/GSR I/O/GTS I/O/GTS PPS TP0 khz TP U:B U:A U:C 0 U:A U:D U:C 0 U:B U:C 0 U:D J A J A J B J B J J A A J B J B J +.V C0 U:D U:A J B J 0 MHz () B J J J J J J B J 0 MHz () B J A J PPS () A J B J PPS () B J A J khz () A J J A khz () A J B J khz () B JTAG 0 MHz () PPS () PPS () khz () C0.0 C U:E DSCTM VCC C.0 C U:E DSCTM VCC C.0 C U:E DSCTM VCC Figure SD-: NAPX GPS Sync PWB (Optional) Issue SD-

244 INTERNAL BUS (IN) INTERNAL BUS (OUT) MODULE BUS (COLUMN ) MODULE BUS (COLUMN ) MODULE BUS (COLUMN ) J J FROM SHEET J J MODULE BUS (COLUMN ) J J MODULE BUS (COLUMN ) J J J FAN TACH (RECT) J0 J0 J J J J J J J J J FAN TACH J (RECT) J J L R 000 R 000 R0.0 C 0.0 R0.0 C 0.0 R.0 C0 0.0 R0.0 C0 0.0 R.0 C 0.0 S: LAST RACK R. R C R R.. W W C0 0.0 R R.. W W C 0.0 R C 0.0 C0 0.0 S: R. R R.. W W C 0.0 R0 R.. W W C R R.. W W R R0 R R R R R R R R R R R C C R R C R0 R C R R C0 R R R R R VCC C 0.0 C.0 C.0 C0.0 C C VCC C C.0 S00 SHEET OF V SERIAL INTERFACE DO/RI DO/RI DO/RI U0 DSCTM RO DI RE DE MODULE INTERFACE RE DE DO/RI U DSCTM DI VCC RO MODULE INTERFACE DO/RI DI RE DO/RI U DE DSCTM VCC DO/RI RO MODULE INTERFACE RO DI DO/RI U DSCTM RE VCC DO/RI DE MODULE INTERFACE DI RE DO/RI DE U DSCTM VCC DO/RI RO MODULE INTERFACE RO DI DO/RI U RE DSCTM DE J RESET J J MOSI MISO DC_CURRENT TP R R0 R FROM AC_SAMPLE R K U PE0/RXD0/PDI VCC ADM0MAKS RESET SHEET B+_LEVEL 00 C 0 ISP TP RESET R0 MISO J PE/TXD0/PDO PROG VCC 00 MOSI TO J SHEET PE/XCK0/AIN0 SCK PE/OCA/AIN J R0 PROG CLK TP 0 0 DACA C J U:C B+ LEVEL CPU R 0.0 R C R0 CONTROL TP TP TP 0.0K J PD/IC R00 R R R R R 0 PB/MISO.K K TP0 R PB/MOSI DATA R R TP 0 Q PD/TXD/INT PB/SCK CLK DACB U:A MMFT0T U C U:A R R 0.0 TLV0ID R C K 000 U VDD TP ATmega-AI C C R #HIGH_B+_LEVEL U:B U:A PD/RXD/INT R TP 0.0K 0 #CS_DAC- TP PB0/SS LOAD 0 DACC C R U:D 0.0K TP PEN VREF R 0.0 R C R TP PG/TOSC LDAC 0.0K U:B #HIGH_DC_CURRENT TP TP PD/XCK TP PD/T R0 R TP PF/ADC/TDI 0.0K R R R 0.0K TP PF/ADC/TDO 00 00K 0.0K TP PF/ADC/TMS U VIN LT0BIS-. VOUT REFA TP TP0 PF/ADC/TCK L C0 C C C 0 C REFB DACD C R U:C 0.0K PG/TOSC REFC R 0.0 R C R0 0.0K U:C #LOW_AC- PD/T REFD U:C PF/ADC R 0 S: R 0.0K R R 0.0K SPARE 00K DAC 00 PF/ADC TP TP0 TP TP0 0 PF/ADC R R00 R VREF VERSION 0.0K 0.0K 0.0K PF0/ADC0 PB/OCA #CS_ADC- AREF PB/OC/OCC #CS_ADC- TO SHEET C PB/OC0 #CS_DIGITAL_IN- PB/OCB #CS_DIGITAL_OUT- R VCC 0.0K C C VCC D AVCC D U:H Q A RAM C D A D D D U:G Q I/O D D A A A 0 D D A I/O U:F Q A A D D XTAL D D A A I/O PA/AD D U:E Q A A D D C Y D D A A I/O pf A A D.0MHz PA/AD D D D U:D Q A I/O A D XTAL PA/AD D A0 A0 D D A0 I/O C D U:C Q PA/AD D D A A A D D pf A U I/O PA/AD D U:B Q A A D0 CYLL D0 D D0 A0 A I/O0 TP PA/AD D0 U:A Q0 A A 0 D A PA/AD A A #EOC- D0 A FROM SHEET PE/OCB/INT PA0/AD0 A A U:E A VCC VEE U:D TP A A C C MC0AD TP R A.0 A A #CS_ADDR- 0.0K A #LOW_AC- PD0/SCL/INT0 PG/ALE LATCH 0 A A VCC A R U:I A A C C U:E 00 A VCC VEE SNAHCDW TP 0.0 A0 A0 C C0 MC0AD OUTPUT 0 A0.0 TP TP TP R R #HIGH_B+_LEVEL+ PE/OCC/INT 0.0K 0 U:E R #WR- VCC PG0/WR 00 WE C C0 MC0D #RD-.0 TP PG/RD OE #CE- 0 PC/A CE U:G #HIGH_DC_CURRENT- PD/SDA/INT VCC R A C C SNAHCTD 00 PC/A VCC A.0 0 C C PC/A TP A 0.0 PC/A U:E A U:E PE/T/INT PC/A VCC 0 A0 C R C C MCACT0D R PC/A A TP PC/A A PC0/A U:F PE/IC/INT R R C Issue Figure SD-: NAPIA Rack Interface PWB (Sheet of ) SD-

245 B+ SAMPLE RECTIFIER TEMP DC CURRENT SPARE AC SAMPLE FROM SHEET FROM SHEET J J J J J J J J E E R 0.0 R R0.K 0 T SCK VREF +V_SAMPLE +V-A_SAMPLE +V-B_SAMPLE MOSI _SAMPLE -A_SAMPLE -B_SAMPLE +0V_SAMPLE +0V-A_SAMPLE +0V-B_SAMPLE -V_SAMPLE -V-A_SAMPLE -V-B_SAMPLE CR C 0 V C V R K C 0.0 C C 0.00 R 00 S00 SHEET OF V R 0 R0 0.0K R 0 CR R 0 R0 0.0K C.0 R 0 C 0.00 R 0 R.0K R 0 C 0.00 C 0.00 R0.K C R0 K R K R K R K R0 K R K C C 0 C0 C C C U0:A U0:B U0:C U0:D U:D R 0.0 R 0.0 R 0.0 R 0.0 TP TP TP TP TP TP0 TP TP TP TP TP TP0 TP TP TP TP TP TP TP TP TP TP0 R.K R.K R.K R.K R0.K R.K R.K R.K R.K R0.K R.K R.K R.K R.K R.K R.K R.K R.K R.K R0.K R.K R.K C C C C0 C C C C C C C C C C C C C C C C0 C C A0 A A A A A A A A A A0 CS I/O_CLK ADDRESS I/O_CLK ADDRESS CS A0 A A A A A A A A A A0 ADC U TLCIDW U TLCIDW 0 VCC REF+ #CS_DIGITAL_IN- REF- 0 EOC DATA_OUT DATA_OUT EOC 0 VCC REF+ C0 C CR BATHT CR BATHT C C C 0.0 R 0.0K VREF VREF S: CTRL RACK C0 0.0 C.0 C.0 CTRL RACK S: R0.K DC_CURRENT AC_SAMPLE B+_LEVEL MISO J 0 B+ SAMPLE J C0.0 C.0 C.0 C.0 TO SHEET TO SHEET C C C # V PS OK A - # V PS OK B - PHASE LOST A 0 # ARC DETECT A - # ARC DETECT B - U0:E VDD TLVID U:E VDD C TLVID U:G VCC SNAHCTD U:H COM CR MCBD SMBB V VCC U:E MCHCAD SPARE FROM SHEET 0 J J J J J J J J J J J NX S: CR R BATHT 00 SCK MOSI S: R 00 R0 00 R0 00 C C 0. R 00 R0 00 #CS_ADC- #CS_ADC- #EOC- REF- 0 C0 R 00 R 00 C 0. R 00 C 0. A SQH VCC 0 RESET OE R 00 C 0. R 00 C 0. R 00 SHIFT_CLK #CS_DIGITAL_OUT- LATCH_CLK TP QB QD QE QF QG QH TP TP TP TP TP U:E E 0 C 0. TP U:C U:B U:A U MCHCAD U:D U:F QA QC TP R0 0.0K R 0.0K A B C D F G H SHIFT/LOAD CLK U:A U:B U:D U:E U MCHCAD TP R 0.0 VCC QH CLK_INH QH C 0.00 C SA R0 0.0 R 0.0 TP C TP TP C 0.0 U:A U:C U:B R 0.0K RT0 RXE0 R 0 C MISO TP J J J J 0 INHIBIT V B- J U0:A MOCD-M J R 0 J TO SHEET INHIBIT V A+ INHIBIT V B+ INHIBIT V A- SCR +V # INHIBIT SCR - J PDM INPUT CONTROL Figure SD-: NAPIA Rack Interface PWB (Sheet of ) Issue SD-

246 J J J J J J J J J J J J J J J J J J C V TO SHEETS & J J J J 0 (RECTIFIER) J (CONTROL) J RT J RUEF00 J J J (COLUMN ) J J 0 J 0 J J J (COLUMN ) J J 0 J J 0 J J (COLUMN ) J J J 0 J J 0 +V (A) J J J (COLUMN ) +V (B) J J J J 0 J 0 J J J (COLUMN ) J J 0 J 0 J J J (ARC DETECT A) C 000 J RETURN 0V J RETURN (COLUMN ) J J J J J J RETURN (COLUMN ) J J J J J J J J J J RETURN (COLUMN ) J J J J J J J J J J J J RETURN (COLUMN ) J J 0 J J J J J J J0 J J0 J0 J RETURN (COLUMN ) J0 J J0 J J0 J J0 J J0 J 0 J0 J0 S00 SHEET OF V J0 R.K R.K R0.K CR MBR0 CR MBR0 PWB PART: HW HAQ_T R 000 R 000 R 000 RT RXE0 CR K CR K CR K CR MBR0 +V-A_SAMPLE C +V-B_SAMPLE C +V_SAMPLE C RT0 RXE0 RT RXE0 RT RXE0 RT RXE0 RT RXE0 RT RXE0 C 000 0V RT RXE0 RT RXE0 RT RXE0 RT RXE0 RT RXE0 RT RXE0 R.K R.K J J J J J J J J J J J J J J J J J J J J J J J J J J J J TO SHEET +V (COLUMN FAN ) +V (COLUMN FAN ) +V (COLUMN FAN ) +V (COLUMN FAN ) +V (COLUMN FAN ) +V (COLUMN FAN ) +V (COLUMN FAN ) +V (COLUMN FAN ) +V (COLUMN FAN ) +V (COLUMN FAN ) +V (RECTIFIER FAN ) +V (RECTIFIER FAN ) +V (COLUMN ) J +V (COLUMN ) J J +V (COLUMN ) J +V (COLUMN ) J +V (COLUMN ) J +V RETURN (COLUMN ) +V RETURN (COLUMN ) +V RETURN (COLUMN ) +V RETURN (COLUMN ) +V RETURN (COLUMN ) +V RETURN (RECTIFIER FAN ) +V RETURN (RECTIFIER FAN ) RT RUEF00 RT RUEF00 RT RXE0 RT RXE0 L L RT RXE0 RT RXE0 C V C0 V C 0 V C 0 V C C +IN -IN +IN -IN C 0 V C 0 V C 0 V C0 0 V U ATL00A0X-SR VIN VOUT ON/OFF SENSE SEQ TRIM TP TACH (COLUMN FAN ) J TACH (COLUMN FAN ) 0 J TACH (COLUMN FAN ) J TACH (COLUMN FAN ) J TACH (COLUMN FAN ) J TACH (COLUMN FAN ) J TACH (COLUMN FAN ) J TACH (COLUMN FAN ) 0 J TACH (COLUMN FAN ) J TACH (COLUMN FAN ) J C U ATL00A0X-SR VIN VOUT ON/OFF SENSE SEQ C C TRIM +IN -IN +IN -IN TP C +OUT U AEE00CC-L COM -OUT +OUT U AEE00CC-L COM -OUT TP C C +OUT U AEE00CC-L COM -OUT +OUT U AEE00CC-L COM -OUT TP C 0 V C 0 V C0.0 C.0 C V R 0 C V R0 0 C 0 V C 0 V C C0 C.0 C.0 C.0 C.0 C C C C CR N0C.V R 0 CR N0C.V R 0 CR MBR0 CR MBR0 C C Q S0K Q S0K CR MBR0 CR MBR0 R 0 R0 0 A A R 0 R 0 R 0 R 0 R.0K R.0K R.0K R0.0K PWB PART: HW HR_S U STPS0LCW R 0.0K R0 0.0K R 0.0K R.0K R 000 R 000 R 000 C R 0.0K C R 0.0K CR 0.0K K C0R0 K C R K C R K R 0.0K U:B R 0.0K U:A R 0.0K U:C 0 R0.0K C R K C R K C R K C C C0 C C C R K R K R K -A_SAMPLE -B_SAMPLE +0V_SAMPLE +0V-A_SAMPLE +0V-B_SAMPLE -V_SAMPLE -V-A_SAMPLE -V-B_SAMPLE J J J J J (CONTROL) J J J (PDM) J J (RF DRIVE) J _SAMPLE C0 C0 C0 J +0V (RECTIFIER) J J J J 0 J -V (RECTIFIER) J -V (CONTROL) J J J J J J J J J J J TO SHEETS & TO SHEET TO SHEET TO SHEET TACH (COLUMN FAN ) TACH (COLUMN FAN ) TACH (COLUMN FAN ) TACH (COLUMN FAN ) TACH (COLUMN FAN ) TACH (COLUMN FAN ) TACH (COLUMN FAN ) TACH (COLUMN FAN ) TACH (COLUMN FAN ) TACH (COLUMN FAN ) Figure SD-: NAPIA Rack Interface PWB (Sheet of ) Issue SD-

247 Issue SD- Figure SD-: NAPI RF Drive Distribution PWB (Sheet of ) C0 H J H J H J H J G J G J G J G J F J F J F J F J E J E J E J E J D J D J D J D J C J C J C J C J B J B J B J B J A J A J A J A J C O O O O O O O O C C0 C O TP J J J J.0 C.0 C.0 C.0 C C.0 C IN O0 O O O O O O O O O0 O O O O O O O O H J H J H J H J G J G J G J G J F J F J F J F J E J E J E J E J D J D J D J D J C J C J C J C J B J B J B J B J A J A J A J A J C VCC VCC VCC - + H J H J - + H J H J - + G J G J - + G J G J - + F J F J - + F J F J - + E J E J - + E J E J - + D J D J - + D J D J - + C J C J - + C J C J - + B J B J - + B J B J - + A J A J - + A J A J J J RF DRIVE R C0.0 C.0 C.0 C.0 C.0 C.0 C0 R R. R C0 U:A C.0 C C C.0 C.0 C O IDTFCT0CTSO U O IDTFCT0CTSO U U:A U:B U:A U:A U:B U:A U:A U:B U:A U0:A U0:B U:A C C C 0 0 VCC IDTFCT0CTSO U0 IN U:B U:A U:A U0:A U:B U:A U:B U:A U:A U:B U:A U:A RF DRIVE L R C0 TP U:D U:B U:B U:B U:B U:B U0:B U:B U:B S0000 SHEET OF V C C C C C VCC VCC VCC VCC VCC VCC IN O0.0 C C C VCC DSCTM U0:E VCC DSCTM U:E C C VCC DSCTM U:E C VCC DSCTM U:E C VCC DSCTM U:E VCC DSCTM U:E C00 VCC DSCATM U:E. R U:B U:A U:A RF DRIVE U:A U:B U:A 0 VCC.0 C 0 VCC U:A U:B U:A.0 C.0 C U:B U:A U:A RF DRIVE.0 C.0 C.0 C0 VCC DSCTM U:E VCC DSCTM U:E VCC DSCTM U:E C L VCC DSCTM U:E U:B U:B U:B U:B

248 RF DRIVE + - J R 0.0 J R 0.0 C C C0 C C C C C C C C C0 C C L C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 R0 R R. 0 R. C U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U0:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:C U:B C C C C IN VCC C0.0 C.0 VCC VCC C.0 0 VCC C.0 0 U IDTFCT0CTSO O O O O O O O O O O0 U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D J A + J A - J A + J A - J B + J B - J B + J B - J C + J C - J C + J C - J D + J D - J D + J D - J E + J E - J E + J E - J F + J F - J F + J F - J G + J G - J G + J G - J H + J H - J H + J H - RF DRIVE C C C C C.0 C0.0 C.0 C.0 IN VCC VCC VCC 0 VCC 0 U IDTFCT0CTSO O O O O O O O O O O0 U0:C 0 U0:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D J A + J A - J A + J A - J B + J B - J B + J B - J C + J C - J C + J C - J D + J D - J D + J D - J E + J E - J E + J E - J F + J F - J F + J F - J G + J G - J G + J G - J H + J H - J H + J H - RF DRIVE C0 C C C VCC C.0 C.0 IN VCC VCC C.0 0 VCC C.0 0 U IDTFCT0CTSO O O O O O O O O O O0 U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U:C 0 U:D U0:C 0 U0:D U:C 0 U:D U:C 0 U:D J A + J A - J A + J A - J B + J B - J B + J B - J C + J C - J C + J C - J D + J D - J D + J D - J E + J E - J E + J E - J F + J F - J F + J F - J G + J G - J G + J G - J H + J H - J H + J H - RF DRIVE S0000 SHEET OF V Figure SD-0: NAPI RF Drive Distribution PWB (Sheet of ) Issue SD-0

249 Issue SD- Figure SD-: NAPI PDM Distribution PWB (Sheet of ) DUMP PDM PDM PDM DUMP PDM PDM PDM DUMP PDM PDM PDM DUMP PDM PDM PDM 0 H J H J H J H J G J G J G J G J F J F J F J F J E J E J E J E J D J D J D J D J C J C J C J C J B J B J B J B J A J A J A J A J 0 DUMP PDM PDM PDM DUMP PDM PDM PDM DUMP PDM PDM PDM DUMP PDM PDM PDM H J H J H J H J G J G J G J G J F J F J F J F J E J E J D J E J E J D J D J C J D J C J C J B J C J B J B J B J A J A J A J A J H J H J H J H J G J G J G J G J F J F J F J F J E J E J E J E J D J D J D J D J C J C J C J C J B J B J B J B J A J A J A J A J MODULE DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A H J H J H J H J DUMP G J PDM G J PDM G J PDM G J F J F J F J F J DUMP E J PDM E J PDM E J PDM E J D J D J D J D J DUMP C J PDM C J PDM C J PDM C J B J 0 B J B J B J DUMP A J PDM A J PDM A J PDM A J H J H J H J H J G J G J G J G J F J F J F J F J E J E J E J E J D J D J D J D J C J C J C J C J B J B J B J B J A J A J A J A J MODULE MODULE MODULE MODULE DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A MODULE DUMP PDM PDM PDM 0 MODULE DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A H J H J H J H J DUMP G J PDM G J PDM G J PDM G J F J F J F J F J DUMP E J PDM E J PDM E J PDM E J D J D J D J D J DUMP C J PDM C J PDM C J PDM C J B J B J B J B J DUMP A J PDM A J PDM A J PDM A J MODULE MODULE MODULE MODULE H J H J H J H J 0 U:C U:B G J G J G J U:B 0 U:C U:D F J G J F J F J 0 U0:C U0:D E J E J F J 0 U:C U:D E J E J D J D J U:D U:A D J D J C J U:D U:A C J C J B J C J U:A U:B B J B J B J U:B U:A A J A J A J A J 0 U:C U:B U:A DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM DUMP MODULE PDM PDM PDM MODULE DUMP_B PDM_B PDM_B PDM_B DUMP_B PDM_B PDM_B PDM_B DUMP_B PDM_B PDM_B PDM_B DUMP_B PDM_B PDM_B PDM_B DUMP PDM PDM PDM H J H J H J H J G J G J G J DUMP PDM PDM G J F J F J F J PDM F J E J E J DUMP PDM E J D J E J D J PDM PDM D J D J C J DUMP C J B J C J C J PDM PDM PDM B J B J B J A J A J A J A J H J H J H J H J U:B 0 U:C G J G J G J 0 U:C U:B U:D F J G J F J F J U:D 0 U:C E J E J F J U:D 0 U:C D J E J E J D J U:A U:D D J C J D J U:D U:A C J C J C J B J U:B U:A B J B J B J U:A U:B A J A J A J A J U:A 0 U:C U:B MODULE MODULE MODULE MODULE DUMP_B 0 U:C U:B PDM_B PDM_B PDM_B U:D U:B 0 U:C U:D 0 U:C DUMP_B PDM_B PDM_B U:D 0 U:C PDM_B U:D U:A DUMP_B PDM_B U:D U:A PDM_B PDM_B DUMP_B U:A U:B U0:B U0:A PDM_B PDM_B PDM_B U:B 0 U:C U:A DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM MODULE DUMP PDM PDM PDM DUMP MODULE PDM PDM PDM MODULE DUMP_B PDM_B PDM_B PDM_B DUMP_B PDM_B PDM_B PDM_B DUMP_B PDM_B PDM_B PDM_B DUMP_B PDM_B PDM_B PDM_B DUMP PDM PDM PDM H J H J H J H J G J G J G J DUMP PDM PDM F J G J F J F J PDM E J E J F J DUMP PDM E J D J E J D J PDM PDM D J C J D J DUMP C J C J B J C J PDM PDM PDM B J B J B J A J A J A J A J MODULE MODULE MODULE MODULE U:D U:B U0:A U0:B U:A U:A U:D U:D 0 U:C 0 U:C U:B 0 U:C U:D U:A U:B U:B U:A U:A 0 U:C 0 U:C U:D U:D U:B 0 U:C U:D U:B U:A U:B U:A U:A 0 U0:C U0:D 0 U:C U:D 0 U:C U:B DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A PDM_A PDM_A PDM_A MODULE DUMP_A PDM_A PDM_A PDM_A MODULE DUMP_A PDM_A PDM_A PDM_A MODULE DUMP_A PDM_A PDM_A PDM_A MODULE DUMP_A PDM_A PDM_A PDM_A DUMP_B PDM_B PDM_B PDM_B S00 SHEET OF V DUMP_B PDM_B PDM_B PDM_B DUMP_B PDM_B PDM_B PDM_B DUMP_B PDM_B PDM_B PDM_B U0:B 0 U0:C DUMP_B PDM_B PDM_B PDM_B MODULE 0 U:C U:B U:D 0 U:C U:D DUMP_B PDM_B PDM_B MODULE 0 U:C U:D PDM_B DUMP_B U:D U:A PDM_B U:D U:A PDM_B PDM_B MODULE U:B U:A DUMP_B U:A U:B PDM_B PDM_B PDM_B MODULE U:A U:B 0 U:C U:B 0 U:C 0 U:C U:B U:D U:D 0 U:C U:D 0 U:C U:A U0:D U0:A U:D U:A U:B U:B U:A U:B 0 U:C U:A U0:D U:A U:B U:B U0:A U:A U:D U:D 0 U:C 0 U:C 0 U:C U:B U:D U:B U:B U:A U:A U:A U:D U0:B 0 U0:C 0 U:C 0 U:C U:D

250 C C C C C C0 C C C C C0 C C C C C0 U:E DSCATM VCC C.0 U:E DSCATM VCC C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 U:E DSCTM VCC U:E DSCTM VCC U0:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC C C C C C0 C C C C C0 C C C C C0 C C C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 U0:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U0:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC C C C0 C C C C C00 C0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 C0.0 U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U0:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC U:E DSCTM VCC TP TP S00 SHEET OF V TP GROUP A GROUP B PDM PDM PDM DUMP PDM PDM PDM DUMP PHASE/ PHASE J J J J J J J J J J J J J J J J J J J J J J R 0.0 R 0.0 R 0.0 R 0.0 R 0.0 R 0.0 R 0.0 R 0.0 R 0.0 R0 0.0 R 0.0 R 0.0 R 0.0 R 0.0 R 0.0 R 0.0 L L L L L L L L L R R R R R R R R C0 C0.0 R R R R R R0 R R C0 0 R. R. R. R. R. R. R. R. 0 R. C R0. C R. C R. C 0 R. C R. C R0. C R. C U:C U:D U:A U:B U:C U:D U:A U:B PDM_A DUMP_A PDM_A PDM_A PDM_A DUMP_A C0 PDM_A PDM_A C 0 SELECT 0 U SNHCPW OE PDM_B PDM_B VCC C PDM_B DUMP_B Figure SD-: NAPI PDM Distribution PWB (Sheet of ) Issue SD-

251 J # MODULE - J Mod Mod P P 0 P P P P P P B+ P P 0 P P P P P P P P J J J J J Mod L J FROM SHEET P P RF DRIVE P P P 0 P RF DRIVE P P FROM SHEET R C0 R C R0 C R C0.0 C.0 R R. DO NOT CONNECT PIN ON BACKPLANE BOARD A R R. R R. R R. #MOD_DRIVE_+ L L L L L C R R R #RF_DRIVE_+ B C C R W 0 R. C R. C 0 R. C R. C C R C R W 0 -A C U:B C 0 V C.0 R 000 R 0.0K R 0.0K C 0 V R00. C R. C C -A C U:A C0.0 -A R0 0.0K R0 0.0K S000 SHEET OF V C.0 R.K R0.K R.K U:D INA R 0.0K C 0 V U:C INB R 0.0K C 0 V U:A C 0 V R0. R0. C.0 U:B INC OE 0 VH VH VS+ U EL C OUTA OUTB OUTC OUTD VL VL IND -A -A -A EN VCC C0.0 EN VCC C.0 EN VCC C.0 EN VCC C0.0 C 0 V C 0 V C 0 V R 0.0 R 0.0 R 0.0 U:B IXDDYI U:B IXDDYI U:B IXDDYI U:B IXDDYI C C C R 0.0K C.0 R 0.0K C.0 R 0.0K C.0 C0.0 C.0 C.0 IN SOURCE IN U ZXGD00E VCC IN SOURCE IN U ZXGD00E SINK VCC IN IN SOURCE U ZXGD00E SINK VCC R W 0 SINK C.0 C R W 0 CR MURA0T R0 W 0 CR MURA0T R W 0 CR0 MURA0T J K -A U:E DSCATM VCC C0 C0 U:E.0 DSCATM VCC C R 000 C0 R 000 C R 000 VCC C Q STWNM0 Q STWNM0 Q STWNM0 IN U0 DS00Z-00 CR CSD000A CR0 CSD000A CR CSD000A C.0 0nS 0nS 0nS 0nS 00nS C L μh L μh L μh R 0.0 S S S U:A U:A U:B VCC C0 VGSTR LE VCC+ U:B TL0ID #MODULE_- VCC- C R0 0.0K R0 0.0K U:A U:A -A -A L0.μH L.μH C0.0 C0.0 S S R.0 W R.0 W C0 C T T T T R. CR STTHG R 0 R 0 T T C.0 C.0 C.0 C 0. VCC U:B VCC NCSZPX VCC U:B NCSZPX C C 0. CR SMBB.V CR NHWS CR SMBB.V CR NHWS I+ U I- ACSKCA-00B-PFF VCC VOUT * Q APT0m0JFLL R 000 * Q0 APT0m0JFLL R 000 L C 0.0 C.0 C.0 C0.0 C.0 C.0 C.0 C.0 C.0 C.0 C.0 R.00M R.00M R.00M C P P P P P P P P P P 0 P P P P E LOAD D P P P P P P P P P 0 P P P P P C 0.0 * Q, Q, Q & Q0 ARE INSTALLED ON THE RF POWER MODULE. ALL OTHER PARTS ARE INSTALLED ON THE MODULATOR/RF AMPLIFIER PWB (A). F U:A R 0 Q * APT0m0JFLL R 000 Q * APT0m0JFLL R 000 C 0.00 R.00M R.00M CR NHWS CR NHWS R0 0 C R.00M R.00M C T.0 CR SMBB.V C T.0 CR SMBB.V T T R R R 0 R.00M R.00M U:A T T R.K R.K C R0.0 W R.0 W C.0 C0.0 VS- U:A U:A MODULATION B+_SAMPLE PA_VOLTS_SAMPLE DC_CURRENT #RF_DRIVE_FAIL+ RF_DRIVE_LEVEL TO SHEET Figure SD-: NAP RF Power Module and NAPA Modulator/Power Amplifier PWB (Sheet of ) Issue SD-

252 R 0.0K C J # RESET - FROM SHEET OVER CURRENT TEST FROM SHEET FAN TACH (A) P P P P #MODULE_- DC_CURRENT B+_SAMPLE PA_VOLTS_SAMPLE #RF_DRIVE_FAIL+ MODULATION RF_DRIVE_LEVEL R CR NHWS R 0.0K C R 0.0K R 00K R 00K C C C.0 C.0 R0 0.0 C R 0.0K CR0 NHWS U:A U:B R 0 W R 00K C 0.0 C.0 C R.K C R 0.0K R 0.0K R 0 R 0.0K R 0 R 0.0K R0 0 C.0 C0 RESET INT AIN 0 AIN0 ADC0 ADC ADC ADC INT0 ADC ADC T U ATmega-0AI XTAL XTAL PB. PB PB.0 PC. Y 0-MHz C pf C pf R 0.0K R0 0.0K R 0.0K R 0.0K R0 0.0K Q IRLL0 R 0.0K Q IRLL0 Q IRLL0 Q IRLL0 U:E VDD C TLVID C C0 #MOD_DRIVE_+ R W 0 R W 0 #RF_DRIVE_+ C.0 C.0 R W 0 R0 W 0 P P P P TO SHEET # RF RELAY CLOSE - # RF RELAY OPEN - FAN TACH (B) P P CR NHWS R C T0 t R * C, 0C H P P TX/RX 0 TX/RX G P P P P P P R0 0 F A L 0μH S000 SHEET OF V * R IS INSTALLED ON THE RF POWER MODULE. ALL OTHER PARTS ARE INSTALLED ON THE MODULATOR/RF AMPLIFIER PWB (A). C.0 C.0 C00.0 R0 W 0 CR MURS0T C 0 V C.0 C IN U L0ABDT R 00 OUT C0.0 R 0.0K C0 C 0 U:C C DO/RI R 000 R 0 L U:D RO DI DO/RI U0 DSCTM VCC C0 RE.0 DE L C ADC VCC VCC AVCC C 0 AREF 0 RXD TXD MOSI SCK MISO R DS:A MODULE FAULT R R 0.0K Q IRLL0 R 0.0K G R Q IRLL0 DS:B POWER C J J J J J MOSI SCK MISO Figure SD-: NAP RF Power Module and NAPA Modulator/Power Amplifier PWB (Sheet of ) Issue SD-

253 NX00 Troubleshooting Manual Mechanical Drawings Section : Mechanical Drawings This section contains mechanical drawings for assemblies of the transmitter. Dimensional drawings may be included. Refer to Table. on page - for an itemized list. Assembly detail drawings for assemblies and modules that have separate manuals are not included. Refer to the appropriate maintenance manual for the assembly detail of these assemblies. Identifying mechanical drawings Each mechanical drawing in this section is identified by a number that is both the figure number and the page number. The numbers are assigned sequentially and are prefixed by the letters MD. Drawings in this section are listed in Table. on page -. Content of mechanical drawings Mechanical drawings are illustrations that depict the location of electrical components and show assembly outline detail. Dimensional information is included, where appropriate. When a module or assembly is the subject of its own assembly detail drawing, and it is also shown in a higher level assembly, the detail depicted in the higher level assembly may have minor differences from the module or assembly actually installed. In this case, always refer to the assembly detail drawing of the module or assembly for detailed information. Locating a part or assembly on a mechanical drawing. When a part or assembly is assigned a reference designation (e.g., AA or AAR), refer to the family trees in Section, Parts Lists on page -. Follow the family tree branches to the block that contains the desired reference designation and Nautel nomenclature (e.g., NAPA Modulator/Power Amplifier PWB). Note the reference designations and Nautel nomenclatures of all higher assemblies in the path. Example: A0 NAP RF Power Module > A0A NAPA Modulator/Power Amplifier PWB.. Refer to Table. on page -. Use the reference designation and Nautel nomenclature to identify the appropriate mechanical drawing. Example: The NAPA Modulator/Power Amplifier PWB is shown on MD- and MD-. Issue Page -

254 NX00 Troubleshooting Manual Mechanical Drawings. If necessary, refer to the referenced figure (e.g., MD- and MD-) in the mechanical drawings at the end of this section and locate the next, lower-level assembly. Then, repeat this procedure until the desired part or assembly is found. Table.: List of Mechanical Drawings Figure # Title MD- NX00 Transmitter (Front View) MD- NX00 Transmitter (Rear View) MD- NAHC/0 and NAHC/0 RF Combiner Back Plane MD- NAPIA Power Module Interface PWB MD- NAPIA/0 Power Module Interface PWB MD- NAEB/0 Control/Exciter Panel MD- NAPC0A/0 Control/Interface PWB MD- NAPEA/0 Digital AM Exciter PWB MD- NAPI0 Remote Interface PWB MD-0 NAPX GPS Sync PWB (Optional) MD- NAPIA Rack Interface PWB MD- NAPI RF Drive Distribution PWB MD- NAPI PDM Drive Distribution PWB MD- NAXA B+ Distribution Assembly MD- NAP RF Power Module MD- NAPA Modulator/Power Amplifier PWB (Front View) MD- NAPA Modulator/Power Amplifier PWB (Rear View) MD- Fan Tray Assembly (0-) MD- Voltage Probe (0--0) MD-0 Current Probe (0--0) MD- NAFP0A Directional Coupler Page - Issue

255 OPTIONAL INTAKE DUCT AC CABLE DUCT BRACKET VARIABLE VACUUM CAPACITOR ANTENNA GROUND SWITCH OPTIONAL INTAKE DUCT EXHAUST DUCT AC CABLE DUCT BRACKET EXHAUST DUCT DIRECTIONAL COUPLER CONTROL/EXCITER PANEL RF POWER MODULES PDM DRIVE DISTRIBUTION PWB FAN TRAY ASSEMBLIES POWER TRANSFORMER CABINET T NOT SHOWN RACK CONTROL CABINET RACK OUTPUT CABINET Figure MD-: NX00 Transmitter (Front View) Issue MD-

256 ANTENNA GROUNDING SWITCH DIRECTIONAL COUPLER RF VOLTAGE PROBE RACK INTERFACE PWB (UNDERNEATH) RF COMBINER ASSEMBLIES LOW VOLTAGE POWER SUPPLIES STATION REFERENCE GROUND POWER TRANSFORMER CABINET T NOT SHOWN B+ DISTRIBUTION CURRENT PROBE Figure MD-: NX00 Transmitter (Rear View) Issue MD-