UHF FM Transceiver VX-2500U Service Manual 2004 VERTEX STANDARD CO., LTD. VERTEX STANDARD CO., LTD. 4-8-8 Nakameguro, Meguro-Ku, Tokyo 153-8644, Japan VERTEX STANDARD US Headquarters 10900 Walker Street, Cypress, CA 90630, U.S.A. YAESU EUROPE B.V. P.O. Box 75525, 1118 ZN Schiphol, The Netherlands YAESU UK LTD. Unit 12, Sun Valley Business Park, Winnall Close Winchester, Hampshire, SO23 0LB, U.K. VERTEX STANDARD HK LTD. Unit 5, 20/F., Seaview Centre, 139-141 Hoi Bun Road, Kwun Tong, Kowloon, Hong Kong Introduction This manual provides technical information necessary for servicing the VX-2500U Transceiver. Servicing this equipment requires expertise in handling surface-mount chip components. Attempts by non-qualified persons to service this equipment may result in permanent damage not covered by the warranty, and may be illegal in some countries. Two PCB layout diagrams are provided for each double-sided circuit board in the transceiver. Each side of thr board is referred to by the type of the majority of components installed on that side ( leaded or chip-only ). In most cases one side has only chip components, and the other has either a mixture of both chip and leaded components (trimmers, coils, electrolytic capacitors, ICs, etc.), or leaded components only. While we believe the technical information in this manual to be correct, Vertex Standard assumes no liability for damage that may occur as a result of typographical or other errors that may be present. Your cooperation in pointing out any inconsistencies in the technical information would be appreciated. Contents Specifications... 2 DSUB 9-pin Accessory Connector... 3 Exploded View & Miscellaneous Parts... 4 Block Diagram... 5 Interconnection Diagram... 9 Circuit Description... 11 Alignment...13 RF Unit Jumper Information...23 Clone...24 Board Unit (Schematics, Layouts & Parts) RF Unit... 25 RF-1- Unit... 43 RF-2- Unit... 57 Panel Unit... 69 1
Specifications General Frequency range: 400-470 MHz (Ver. CS1) 450-490 MHz (Ver. D) 450-520 MHz (Ver. DS1) Number of Groups: 10 Number of Channels : 128 channels PLL Steps: 5.0 khz/6.25khz Power Supply Voltage: 13.8V DC ±15 % Channel Spacing: 12.5 / 25.0 khz Current Consumption (Approx.): TX: 6 A RX: 700 ma STBY: 250 ma Operating Temperature range: 22 F to 140 F ( 30 C to +60 C) Frequency Stability: Better than ±2.5 ppm RF Input-Output Impedance: 50 ohms Audio Output Impedance: 4 ohms Dimensions: 6.3 x 1.6 x 4.3 inch (160 x 40 x 110 mm) Weight (Approx.): 1.87 lb (0.85 kg) Receiver (Typical Values) Circuit type: Sensitivity: Adjacent Channel Selectivity: Intermodulation: Spurious and Image Rejection: Audio Output: Audio Distortion: Double conversion Super-heterodyne 0.25 uv (12 db SINAD) 80/67 db 75 db 90 db 4 W @ 4 ohms 5% THD <3 % @1 khz Transmitter (Typical Values) Power Output: 25 W (low: 5W) Modulation: 16K0F3E, 11K0F3E Max Deviation: 5.0/2.5 khz Conducted Spurious Emission: 70 db below carrier Audio Distortion: <3 % @ 1 khz Microphone type: Dynamic Microphone impedance: 600 ohms 2
DSUB 9-pin Accessory Connector Pin 1: Output Logic squelch (Will be effective this output during Data transmission Inputting logic Low level signal to the Pin #4 as the DTR signal) High: Radio receiving the signal with the correct CTCSS, DCS, or LTR ID. Low: Radio not receiving the signal with the correct CTCSS, DCS, or LTR ID. Pin 2: Output Rx discriminator (Need to set the solder short on the PCB) JP3 (JP1503) - Flat: 10 Hz to 3.0 khz (140 mvrms / STD deviation with 600 ohm termination) or JP4 (JP1504) - Filtered 300 Hz to 3.0 khz (70 mvrms / STD deviation with 600 ohm termination) * Both JP3 and JP4 are not closed from the factory. Pin 3: Input TX data to the radio modulator. (Flat: 10 Hz to 3.0 khz) (40 mvrms / STD deviation) Pin 4: Input DTR (to switch the radio operation between dispatch operation and Data mode) [DTR Low: Turn on the Data transmission, less than 0.5 V] [DTR High: Turn off the Data transmission, more than 4.0 V] Pin 5: Ground Pin 6: Output Horn alert signal (Open collector with maximum 16.0 V, 100 ma sink). Pin 7: Input external PTT (effective when in the Data mode) [Low: Request the transmission] [High: Request the Receiving] Pin 8: Output supply voltage (Need to set the solder short on the PCB) JP1 (JP1501) Output 5.0 V (Maximum 100 ma output) or JP2(JP1502) Output 13.8 V (Maximum 100 ma output) * Both JP1 and JP2 are not closed from the factory. Pin 9: Input the ignition signal of the CAR. This signal is for the following operation, (1) Disable the Horn alert during the ignition is turned on. (2) Turn on and off the radio. This function requires the solder short JP8 (JP1508). 3
Exploded View & Miscellaneous Parts 6 6 REF. 1 2 3 4 5 6 VXSTD P/N U20206002 U20306002 U20308002 U24306002 U24308001 U31206007 DESCRIPTION BINDING HEAD SCREW M2.6 x 6 NI BINDING HEAD SCREW M3 x 6 NI BINDING HEAD SCREW M3 x 8 NI TAPTITE SCREW M3 x 6 NI TAPTITE SCREW M3 x 8 OVAL HEAD SCREW M2.6 x 6 B QTY. 1 2 2 4 1 7 BLIND SEET (70 x 10) RA0365500 CONNECTOR P1090654 6 CASE RA0060100 WIRE ASSY T9206634A 5 4 6 4 2 1 4 2 SUPPORT RA0060700 PM HOLDER RA0066400 SHIELD SHEET (Ver. CS1, DS1) RA0513400 FERRITE BEADS L9190001 SPONGE RUBBER (SHIELD) (Ver. D) RA0365500 SHIELD GASKET RA0517900 (Ver. CS1, DS1) 6 4 MAIN UNIT SHIELD GASKET (Ver. D) S5000238 SHIELD GASKET (Ver. CS1, DS1) RA0515100 GAP PAD S6000379 3 3 IC G1093909 (Ver. CS1) G1093885 (Ver. D, DS1) CONNECTOR P1090984 VOL KNOB RA0377000 TUBE RA0392000 BLIND SEET (4 x 3) RA0405200 PANEL UNIT WIRE ASSY T9206979 CHASSIS RA005600C BLIND SHEET (4 x 25) (Lot. 1~3) RA0425500 BLIND SHEET (34 x 8) (Lot. 1~4) RA0404900 SPONGE RA0460200 WIRE ASSY T9206633 SP HOLDER RA0378300 PANEL ASSY RA0376000 6 6 BLIND SEET (4 x 3) RA0405200 SPEAKER M4090154 BLIND SHEET (35 x 4) (Lot. 1~4) RA0405000 SPONGE RUBBER RA0383600 4
Block Diagram (1) 5
Block Diagram (2) 6
Block Diagram (3) 7
Block Diagram (4) 8
Interconnection Diagram 9
Note 10
Circuit Description 1. Overview The VX-2500U is a UHF FM mobile transceiver designed to operate in the frequency range of 400 to 520 MHz. 2. Circuit Configuration by Frequency The receiver is a double-conversion superheterodyne with a first intermediate frequency (IF) of 44.25 MHz and a second IF of 450 khz. Incoming signals from the antenna are mixed with the local signal from PLL to produce the first IF of 44.25 MHz. This is then mixed with the 43.8 MHz second local oscillator (using the 14.6 MHz reference crystal) output to produce the 450 khz second IF. This is detected to give the demodulated signal. The transmit signal frequency is generated by PLL VCO, and modulated by the signal from the microphone. It is then amplified and sent to the antenna. 3. Receive Signal Path Incoming RF signals from the antenna connector are delivered to the RF Unit, and pass through a low-pass filter (LPF) antenna switching network consisting of coils L1001, L1002, L1003, L1005, and L1007, capacitors C1004, C1009,C1016, C1019, and C1025, and antenna switching diodes D1005 and D1007 (both XB15A709A0HR) for delivery to the receiver front end. Signals within the frequency range of the transceiver are then passed through a varactor-tuned bandpass filter consisting of L1008, L1009 before RF amplification by Q1011 (2SC4227:Ver. D or 2SC4226:Ver. CS1, DS1). The amplified RF is then band-pass filtered again by varactor-tuned resonators L1019, L1023 to ensure pure inband input to 1st mixer Q1026 (3SK228:Ver. D or SGM2016AM:Ver. CS1, DS1). Buffered output from the VCO Unit is amplified by Q1021 (2SC5107) and low-pass filtered by L1030/L1032 and C1184/C1188/C1192, to provide a pure 1st local signal between 355.75 and 475.75 MHz to the 1st mixer. The 44.25 MHz 1st mixer product then passes through dual monolithic crystal filters XF1001 and XF1002, and is amplified by Q1029 (2SC4215Y) and delivered to the input of the FM IF subsystem IC Q1028 (TA31136FN). This IC contains the 2nd mixer, 2nd local oscillator, limiter amplifier, FM detector, noise amplifier, and squelch gates. The 2nd LO in the IF-IC is produced from crystal X1001 (14.600 MHz), and the 1st IF is converted to 450 khz by the 2nd mixer and stripped of unwanted components by ceramic filter CF1001 or CF1002. After passing through a limiter amplifier, the signal is demodulated by the FM detector CD1001 (CDBC450CX24). Detected audio from Q1029 is applied to Q2016 (AK2345) and audio low-pass filter. After volume adjustment by Q2014 (M62364FP), the audio signal is amplified by the AF power amplifier Q1509 (TDA2003H) and passed to speaker jack. 4. Transmit Signal Path Voice audio from the microphone is delivered via the MIC (Jack) Unit to the PANEL Unit, after passing through amplifier Q2022(NJM2902V), Mic gain-volume Q2014 (M62364FP) pre-emphasis Q2015 (NJM2902V), and limiter Q2016 (IDC instantaneous deviation control), is adjusted for optimum deviation level and delivered to the next stage. Voice input from the microphone and CTCSS are FMmodulated to the VCO of the synthesizer, while DCS audio is modulated by the reference frequency oscillator of the synthesizer. Synthesizer output, after passing through diode switch D1022 (1SS321), is amplified by driver Q1022 (2SC5415E), Q1025 (2SC5107:Ver. D or 2SC4226:Ver. CS1, DS1) and power module Q1014 (RA30H4452M:Ver. D, DS1 or RA30H4047M:Ver. CS1) to obtain full RF output. The RF energy then passes through antenna switch D1005/D1007 and a low-pass filter circuit and finally to the antenna connector. RF output power from the final amplifier is sampled by CM coupler and is rectified by D1011, D1012 (both HSM88AS). The resulting DC is fed through Automatic Power Controller Q1003 (M5223AGP), Q1002 (2SC4154E), Q1032 (2SC4254E), and TH1003 to transmitter RF amplifier and thus the power output. Generation of spurious products by the transmitter is minimized by the fundamental carrier frequency being equal to the final transmitting frequency, modulated directly in the transmit VCO. Additional harmonic suppression is provided by a low-pass filter consisting of L1002, L1003, L1005, C1004, C1009, C1016, C1019, and C1025, resulting in more than 60dB of harmonic suppression prior to delivery to the RF energy to the antenna. 5. PLL Frequency Synthesizer PLL frequency synthesizer consists of the VCO Q1013 (2SK508-K52: RX) and Q1015 (2SC4226-R24: TX), VCO buffers Q1018, Q1020, Q1021 (all 2SC5107-0), PLL subsystem IC Q1023 (SA7025DK:Ver. D) or Q1038 (MB15A02PFV1:Ver. CS1, DS1) and 14.6 MHz reference crystal X1001. The frequency stability is ±2.5ppm within temperature range of 30 to +60 degree. The output of the 14.6 MHz reference is applied to pin 8 (Ver. D) or pin 1 (Ver. CS1, DS1) of the PLL IC. 11
Circuit Description While receiving, VCO Q1013 oscillates between 355.75 and 475.75 MHz according to the transceiver version and the programmed receiving frequency. The VCO generates 355.75 to 475.75 MHz for providing to the first local signal. In TX, the VCO generates 400 to 520 MHz. The output of the VCO is amplified by the Q1020 and routed to the pin 5 (Ver. D) or pin 8 (Ver. CS1, DS1) of the PLL IC. Also the output of the VCO is amplified by the Q1021 and routed first local/power Module according to D1022. PLL data is output from "DCS_E" (pin100), "CLOCK" (pin2) and "PLL_E" (pin98) of the microprocessor Q2013. The data are input to PLL IC when the channel is changed or when transmission is changed to reception and vice versa. A PLL lock condition is always monitored by the pin20 of the Q2013. When the PLL is unlocked, the UL goes low. 6. Miscellaneous Circuits 6-1 DCS/LTR Demodulator DCS signals are demodulated on the PANEL-UNIT, It is demodulated by Q2116 (AK2345), amplifier Q2015, and comparator Q2021. 6-2 CTCSS encoder/decoder The CTCSS code is generation and encoding by CTCSS encoder/decoder IC Q2016 (AK2345). 6-3 MPU Operation is controlled by 8-bit MPU IC Q2013 (LC87F72C8A). The system clock uses a 3.6864MHz crystal for a time base. IC Q2003 (S-80735SN) resets the MPU when the power is on, and monitors the voltage of the regulated 5V power supply line. 6-4 DCS/LTR Encorder The DCS code is generation and encoding by MPU IC Q2013 (LC87F72C8A). It is filtered by Q2021 (NJM2902V) and adjusted the level by Q2014 (M62364FP). 6-5 Compandor The Compandor is active when Pin90 of Q2013 (LC87F72C8A) is High. When the Compandor is active, MIC Audio is compressed, and detected audio is expanded by Q2017 (LA8630M). 7. Power Supply Circuits 7-1 All 13.8V 13.8V is always supplied to Power AMP Q1014 (RA30H4452M:Ver. D, DS1 or RA30H4047M:Ver. CS1). Switched 13.8V is supplied to AF Power AMP Q1509 (TDA2003H) and 9V Regulator Q1004 (MM1216EN) and Q1005 (2SB1201STP). 7-2 All 9V 9V regulated from 13.8V by Q1004 (MM1216EN) and Q1005 (2SB1201STP). 7-3 VCO 9V 9V is filtered by Ripple Filter and is supplied to VCO Oscillator Q1013 (2SK508-K52), Q1015 (2SC5107-O), and VCO BUFFER AMP Q1015 (2SC5107-O). 7-4 5V (RF-UNIT) 5V in RF-UNIT is regulated by REGULATOR IC Q1024 (NJM78L05UA). 5V is supplied to PLL IC Q1023 (SA7025DK:Ver. D) or Q1038 (MB15A02PFV1:Ver. CS1, DS1), FM IC Q1028 (TA31136FN), and Reference Oscillator Q1027 (23C4116GR). 7-5 TX 9V TX 9V is active on transmit. TX 9V is supplied to ANT SW D1005, D1007 (XB15A709A0HR) and TX DRIVER Q1022 (2SC5415E), Q1025 (2SC5107-O). 7-6 RX 9V RX 9V is active on receive. RX 9V is supplied to RX RF AMP Q1011 (2SC4227:Ver. D or 2SC4226:Ver. CS1, DS1) and MIXER Q1026 (3SK228:Ver. D or SGM2016AM:Ver. CS1, DS1). 7-7 5V (RF-UNIT) 9V from RF-UNIT is regulated to 5V by REGULATOR IC Q2006 (NJM78L05UA) in PANEL-UNIT. 12
Alignment Introduction The VX-2500U is carefully aligned at the factory for the specified performance across the frequency range specified for each version. Realignment should therefore not be necessary except in the event of a component failure, or altering version type. All component replacement and service should be performed only by an authorized Vertex Standard representative,or the warranty policy may be void. The following procedures cover the sometimes critical and tedious adjustments that are not normally required once the transceiver has left the factory. However, if damage occurs and some parts subsequently are placed, realignment may be required. If a sudden problem occurs during normal operation, it is likely due to component failure; realignment should not be done until after the faulty component has been replaced. We recommend that servicing be performed only by authorized Vertex Standard service technicians who are experienced with the circuitry and fully equipped for repair and alignment. Therefore, if a fault is suspected, contact the dealer from whom the transceiver was purchased for instructions regarding repair. Authorized Vertex Standard service technicians realign all circuits and make complete performance checks to ensure compliance with factory specifications after replacing any faulty components. Those who do undertake any of the following alignments are cautioned to proceed at their own risk. Problems caused by unauthorized attempts at realignment are not covered by the warranty policy. Also, Vertex Standard reserves the right to change circuits and alignment procedures in the interest of improved performance, without notifying owners. Under no circumstances should any alignment be attempted unless the normal function and operation of the transceiver are clearly understood, the cause of the malfunction has been clearly pinpointed and any faulty components replaced, and realignment determined to be absolutely necessary. The following test equipment (and thorough familiarity with its correct use) is necessary for complete realignment. Correction of problems caused by misalignment resulting from use of improper test equipment is not covered under the warranty policy. While most steps do not require all of the equipment listed, the interactions of some adjustments may require that more complex adjustments be performed afterwards. Do not attempt to perform only a single step unless it is clearly isolated electrically from all other steps. Have all test equipment ready before beginning, and follow all of the steps in a section in the order presented. Required Test Equipment RF Signal Generator with calibrated output level at 1000MHz Deviation Meter (linear detector) In-line Wattmeter with 5% accuracy at 1000MHz 50Ω RF Dummy Load with power rating 100W at 1000MHz 4Ω AF Dummy Load Regulated DC Power Supply (standard 13.8V DC, 15A) Frequency Counter with 0.1ppm accuracy at 1000MHz AC Voltmeter DC Voltmeter VHF Sampling Coupler IBM PC/compatible Computer Oscilloscope Vertex Standard VPL-1 Connection Cable & Alignment program Alignment Preparation & Precautions A 50Ω RF Dummy Load and in-line wattmeter must be connected to the main antenna jack in all procedures that call for transmission, except where specified otherwise. Correct alignment is not possible with an antenna. After completing one step, read the following step to determine whether the same test equipment will be required. If not, remove the test equipment (except dummy load and wattmeter, in connected) before proceeding. Correct alignment requires that the ambient temperature be the same as that of the transceiver and test equipment, and that this temperature be held constant between 68 F and 86 F (20 C ~ 30 C). When the transceiver is brought into the shop from hot or cold air, it should be allowed time to come to room temperature before alignment. Whenever possible, alignments should be made with oscillator shields and circuit boards firmly affixed in place. Also, the test equipment must be thoroughly warmed up before beginning. Note: Signal levels in db referred to in the alignment procedure are based on 0dBm EMF = 0.5mV. 13
Alignment Setup the test equipment as shown below, apply 13.8V DC power to the transceiver. The transceiver must be programmed for use in the intended system before alignment is attempted. The RF parameters are loaded from the file during the alignment process. Important In order to facilitate alignment over the complete switching range of the equipment it is recommended that the channel data in the transceiver is preset as the chart below. CHANNEL CH 1 CH 2 CH 3 CH 4 CHANNEL SPACE Wide Narrow Wide Narrow Ver. CS1 435.100 MHz 435.100 MHz 400.100 MHz 459.900 MHz Transceiver FREQUENCY (SIMPLEX) Ver. D 470.100 MHz 470.100 MHz 450.100 MHz 489.900 MHz Ver. DS1 485.100 MHz 485.100 MHz 450.100 MHz 519.900 MHz PLL VCV Connect the positive lead of the DC voltmeter to the test point TP1007 (VCV) on the RF-Unit, as indicated in the figure, and the negative lead to chassis ground. Set the transceiver to the high band edge frequency channel, then adjust coil L1017 on the Unit for 4.25V (for Ver. D) or 7.50V (for Ver. CS1, DS1) on the voltmeter. Key the transmitter, and adjust coil L1020 on the Unit for 4.25V (for Ver. D) or 7.50V (for Ver. CS1, DS1) on the voltmeter. Next select to the low edge frequency channel and confirm above 0.80V to 1.50V on the voltmeter. Key the transmitter, and confirm above 1.00V to 1.60V on the voltmeter. PLL Reference Frequency With the wattmeter, dummy load and frequency counter connected to the antenna jack, and select band center frequency channel, key the transmitter and adjust TC1001 (Lot. 1~5) or VR1001 (Lot. 6~) on the RF-Unit, if necessary, so the counter frequency is within 100 Hz of the channel center frequency for the transceiver version. The alignment mode is accessed by Alignment mode command from the computer whilst switching on. And it is operated by the alignment tool automatically. During the alignment mode, normal operation is suspended. Use the alignment tool program running on PC. L1017 L1020 TP1007 TC1001 RF Unit Test & Alignment Points (Lot. 1~5) 14
Alignment The alignment tool outline Enter to the alignment mode To enter the alignment mode, turn the receiver off, select "Radio" then "Alignment" parameter on Clone Editor "CE52". You turn off the power of the transceiver, and turn on the transceiver. When the command has been successful, a message on the computer screen will confirm that the transceiver is now in the alignment mode. Alignment Sequence Although the data displayed on the computer screen during alignment is temporary data, it is important you follow the basic alignment sequence precisely, so that the displayed data and the data loaded into the transceiver are identical. Basic Alignment Sequence 1. Enter the alignment mode 2. Upload data from transceiver 3. Align data 4. Download data to transceiver Menu of the tool TX Power (High) This parameter is used to align TX High power. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. To adjustment click the left mouse button on the "Power High" then "Start" button. L1017 L1020 TP1007 VR1001 RF Unit Test & Alignment Points (Lot. 6~) 15
Alignment Move the Slide bar, as needed, to set the power output to the following specification, as indicated on the external wattmeter. TX Power (High): 25[W] (±0.5W) When the 25Watt level is attained, press the "OK" box to lock in the new data. When the 5Watt level is attained, press the "OK" box to lock in the new data. Max Deviation This parameter is used to align Max Deviation. TX Power (Low) This parameter is used to align TX Low power. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. To adjustment click the left mouse button on the "Power Low" then "Start" button. Adjust the AF generator output level to 39mVrms(-26dBm) at 2 khz to the pin3 of the J1502 (D-sub 9pin). To adjustment click the left mouse button on the "Maximum deviation" then "Start" button. Move the Slide bar, as needed, to set the power output to the following specification, as indicated on the external wattmeter. TX Power (Low): 5[W] (±0.1W) 16
Alignment Move the Slide bar, as needed, to set the Max Deviation (Wide) to the following specification, as indicated on the deviation meter. Max Deviation (Wide): 2.8[kHz](±0.1[kHz]) When the desired deviation level is attained, press "OK" to lock in the new data. To adjustment click the left mouse button on the "Modulation balance" then "Start" button. Set the transceiver to CH#2, and set the Max Deviation (Narrow) to the following specification, as indicated on the deviation meter. Max Deviation (Narrow): 1.4[kHz](±0.1[kHz]) When the desired deviation level is attained, press "OK" to lock in the new data. Move the Slide bar, as needed, to set the modulation (Wide) wave as follows. When the desired the modulation wave is attained, press "OK" to lock in the new data. Modulation balance This parameter is used to align Modulation balance. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. Set the transceiver to CH#2, and set the modulation (Narrow) wave as follows. When the desired deviation level is attained, press "OK" to lock in the new data. OK NG NG Adjust the AF generator output level to 774mVrms(0dBm) at 300Hz to the pin3 of the J1502 (D-sub 9pin). 17
Alignment CTCSS Modulation This parameter is used to align CTCSS deviation. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. DCS Modulation This parameter is used to align DCS deviation. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. To adjustment click the left mouse button on the "CTCSS deviation" then "Start" button. To adjustment click the left mouse button on the "DCS deviation" then "Start" button. Move the Slide bar, as needed, to set the CTCSS deviation (Wide) to the following specification. CTCSS Deviation(Wide): 0.70[kHz](±0.1[kHz]) When the desired deviation level is attained, press "OK" to lock in the new data. Move the Slide bar, as needed, to set the DCS deviation (Wide) to the following specification. DCS Deviation(Wide) : 0.80[kHz](±0.1[kHz]) When the desired deviation level is attained, press "OK" to lock in the new data. Set the transceiver to CH#2, and set the CTCSS deviation (Narrow) to the following specification. CTCSS Deviation(Narrow): 0.35[kHz](±0.1[kHz]) When the desired deviation level is attained, press "OK" to lock in the new data. Set the transceiver to CH#2, and set the DCS deviation (Narrow) to the following specification. DCS Deviation(Narrow): 0.40[kHz](±0.1[kHz]) When the desired deviation level is attained, press "OK" to lock in the new data. 18
Alignment RX Tune This parameter is used to RX Tune. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. Tight Noise SQL This parameter is used to Tight Noise SQL. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. Set the SG output level to -4dBµ EMF with 3kHz deviation. To adjustment click the left mouse button on the "RX Tune" then "Start" button. Set the SG output level to 0dBµ EMF with 3.0kHz deviation. To adjustment click the left mouse button on the "Tight Noise SQL" then "Start" button. Move the Slide bar, as needed, to set the minimum level for "Receiver Noise Level" bar. When the desired RX Tune is attained, press "OK" to lock in the new data. Press "OK" to lock in the new data. 19
Alignment Set the transceiver to CH#2 via the "Channel" box located upper right corner on the "Alignment" window previously. Threshold Noise SQL This parameter is used to Threshold noise SQL. Set the transceiver to CH#1 via the "Channel" box located upper right corner on the "Alignment" window previously. Set the SG output level to 0dBµ EMF with 1.5 khz deviation. To adjustment click the left mouse button on the "Tight noise SQL" then "Start" button. Set the SG output level to -7dBµ EMF with 3kHz deviation. To adjustment click the left mouse button on the "Threshold noise SQL" then "Start" button. Press "OK" to lock in the new data. Press "OK" to lock in the new data. 20
Alignment Set the transceiver to CH#2 via the "Channel" box located upper right corner on the "Alignment" window previously. Set the SG output level to -7dBµ EMF with 1.5 khz deviation. To adjustment click the left mouse button on the "Threshold noise SQL" then "Start" button. Press "OK" to lock in the new data. 21
Note 22
RF Unit Jumper Information JP1501 (JP1): Determine the output supply voltage at pin 8 of DSUB 9-pin Accessory Connector. Close: +5.0 V (Maximum 100 ma) Open: No Action JP1502 (JP2): Determine the output supply voltage at pin 8 of DSUB 9-pin Accessory Connector. Close: +13.8 V (Maximum 100 ma) Open: No Action JP1503 (JP3): Determine the Rx discriminator output characteristic at pin 2 of DSUB 9-pin Accessory Connector. Close: Flat 10 Hz to 3.0 khz (140 mvrms / STD deviation with 600 ohm termination) Open: No Action JP1504 (JP4): Determine the Rx discriminator output characteristic at pin 2 of DSUB 9-pin Accessory Connector. Close: Filtered 300 Hz to 3.0 khz (70 mvrms / STD deviation with 600 ohm termination) Open: No Action JP1505 (JP5): No Action (Spare Jumper). JP1506 (JP6): Define whether the TX Data Input at pin 3 of DSUB 9-pin Accessory Connector shall be "on" or "off" according to the external PTT Input signal signal (pin 7 of DSUB 9-pin Accessory Connector). Close: on (Enabled) Open: off (Disabled) JP1507 (JP7): Determine the TX Data Input level at pin 3 of DSUB 9-pin Accessory Connector. Close: 400 mvrms / STD deviation with 600 ohm termination Open: 40 mvrms / STD deviation with 600 ohm termination JP1508 (JP8): Define whether the Transceiver's power shall be "on" or "off" according to the Ignition Signal Input (pin 9 of DSUB 9-pin Accessory Connector). Close: Turn the transceiver on when the Ignition Signal Input (pin 9 of DSUB 9-pin Accessory Connector) is turned to "High" while the VOL/PWR knob is set to the "ON" position (out of the click-stop position). Open: No Action 23
Clone The VX-2500 includes a convenient Clone feature, which allows the programming data from one transceiver to be transferred to another VX-2500. Here is the procedure for Cloning one radio's data to another. Note: Enable the "Clone" function in the [Common 2-Radio advanced setting] menu of the CE52. 1. Turn both transceivers off. 2. Connect the optional CT-4 cloning cable between the Microphone jacks of the two transceivers. 3. Press and hold the A Button and [Ch. Down] Button while turning the transceiver on. 4. "CLONE" will appear on the displays both transceivers when clone mode is successfully activated in this step. 5. On the Destination transceiver, press the [Ch. Down] Button. "LOADING" will appear on the LCD. 6. Press the [Ch. Up] Button on the source transceiver, "SENDING" will appear on the source transceiver, and the data will be transferred. 7. If there is a problem during the cloning process, sound an error beep from source the transceiver. Check your cable connections and battery voltage, and try again. 8. After completing the data transfer (clone), "COMPLETE" will appear on the LCD. Tune transceiver off and disconnect the CT-4 cable. You can then turn the transceiver back on and begin normal operation. Optional cable:ct-4 24
RF Unit (Ver. D: Lot. 1~5) Circuit Diagram (1) WIDE: 4.4 V NARROW: 4.9 V 5.0 V RX: 0 V TX: 7.2 V RX: 0 V TX: 7.2 V RX: 0 V TX: 7.7 V RX: 0.6 ~ 2.3 V 3.9 V RX: 0 V TX: 1.6 V RX: 0 V TX: 1.3 V RX: 0 V TX: 2.4 V 1.0 V RX: 0 V TX: 0.8 V 4.9 V 3.8 V 4.1 V 1.2 V HIGH POWER: 3.2 V LOW POWER: 1.3 V RX: 0 V TX: 1.7 V 6.8 V WIDE: 1.9 V NARROW: 1.7 V 4.6 V HIGH POWER: 6.1 V LOW POWER: 5.3 V HIGH POWER: 3.7 V LOW POWER: 3.2 V HIGH POWER: 3.2 V LOW POWER: 1.3 V 0 V 8.1 V 7.4 V 3.2 V 7.0 V 7.0 V 0.4 V 8.1 V 6.4 V RX: 6.8 V TX: 0 V WIDE: 2.4 V NARROW: 0 V WIDE: 4.2 V NARROW: 0 V WIDE: 0.4 V NARROW: 4.5 V HIGH POWER: 3.2 V LOW POWER: 1.3 V HIGH POWER: 1.3 V LOW POWER: 0.5 V HIGH POWER: 0.7 V LOW POWER: 0.3 V RX: 0.2 V TX: 1.8 V RX: 1.4 V TX: 1.8 V RX: 0 V TX: 1.8 V 2.5 V 0.6 V 4.8 V 1.7 V 5.0 V WIDE: 1.9 V NARROW: 1.7 V WIDE: 0.4 V NARROW: 2.2 V WIDE: 0.4 V NARROW: 4.5 V 4.8 V 9.0 V 8.8 V RX: 0 V TX: 8.9 V RX: 5.0 V TX: 4.9 V RX: 4.6 V TX: 4.5 V 1.4 V 2.4 V 2.9 V 1.9 V 2.4 V 0 V 2.1 V 2.1 V RX: 0 V TX: 7.4 V 3.9 V 1.4 V 1.6 V RX: 8.9 V TX: 8.2 V 4.0 V RX: 4.6 V TX: 0 V 4.9 V 3.0 V 3.7 V 3.0 V 0.8 V 3.7 V 3.7 V RX: 0 V TX: 8.9 V RX: 8.9 V TX: 0 V RX: 0 V TX: 0.4 V RX: 4.0 V TX: 0 V 3.0 V 2.1 V 3.7 V 3.7 V 3.7 V RX: 0 V TX: 5.0 V RX: 5.0 V TX: 0 V RX: 8.8 V TX: 0 V 0.7 ~ 4.8 V 0 V RX: 8.8 V TX: 0 V 0.7 V 8.4 V 8.4 V 0 V RX: 0.3 V TX: 0 V RX: 1.3 V TX: 0 V 25
RF Unit (Ver. D: Lot. 1~5) Circuit Diagram (2) 4.8 V 2.2 V 1.2 V 0.7 V 1.3 V RX WIDE: 0.2 ~ 3.8 V RX NARROW: 0.2 ~ 3.5 V TX: 0.2 V RX WIDE: 0.3 ~ 5.6 V RX NARROW: 0.3 ~ 5.1 V TX: 0.3 V RX WIDE: 0.8 ~ 3.8 V RX NARROW: 0.8 ~ 3.1 V TX: 0.8 V 3.7 V RX: 0.3 V TX: 0 V 8.5 V 3.7 V 3.7 V 3.7 V 3.7 V 1.2 V 3.7 V 0.7 V 0.8 V 3.7 V 3.7 V HORN OFF: 0 V HORN ACTIVE: 5.0 V HORN OFF: 8.9 V HORN ACTIVE: 8.3 V 1.3 V 13.8 V HORN OFF: 8.9 V HORN ACTIVE: 0 V 1.6 V 13.1 V 7.3 V 0.9 V 0.8 V 5.3 V 0 V HORN OFF: 0 V HORN ACTIVE: 8.9 V BUSY: 0 V MUTE: 13.7 V BUSY: 5.0 V MUTE: 0 V BUSY: 4.2 V MUTE: 0 V 5.8 V HORN OFF: 10.0 V HORN ACTIVE: 0 V HORN OFF: 0 V HORN ACTIVE: 0.6 V 26 HORN OFF: 0 V HORN ACTIVE: 4.2 V
RF Unit (Ver. D: Lot. 1~5) Parts Layout (side A) A B C D E F G H 1 2 3 4 TDA2003H (Q1509) SA7025DK (Q1023) NJM2902V (Q1503) M5223 (Q1003, 1019) 2SA1602A (MF) (Q1505) 2SB1301 (ZQ) (Q1511) 2SD1368CB (CB) (Q1504) 2SC4154 (E) (Q1501) 2SC4226 (R24) (Q1015) 2SC4227 (R34) (Q1011) 2SC5107 (MF0) (Q1018) 2SK508 (K52) (Q1013) IMH6A (H6) (Q1017) 3SK228 (XR) (Q1026) RT1N241M (N2) (Q1002, 1006, 1016, 1032, 1033, 1034, 1502, 1506, 1507, 1512, 1518) HSM88AS (C1) (D1011, 1012) MC2850 (A7) (D1506, 1507) 27
RF Unit (Ver. D: Lot. 1~5) Parts Layout (Side B) a b c d e f g h 1 1SS321 (F9) (D1022) MC2848 (A6) (D1024, 1026) 2 MC2850 (A7) (D1501, 1502, 1503) 3 RT1N241M (N2) (Q1012, 1030, 1516, 1517) 4 PDTC114TE (24) (Q1508, 1510) 28 RA30H4452M (Q1014) TA31136FN (Q1028) 2SB1201S (Q1005) 2SA1602A (MF) (Q1031) 2SB1132 (BA) (Q1009) 2SC4116 (LG) (Q1001, 1027) 2SC4154 (LE) (Q1007, 1519) 2SC4215Y (QY) (Q1029) 2SC5107 (MFO) (Q1020, 1021, 1025) 2SC5415E (EA) (Q1022) 2SJ125D (JD) (Q1515) DTB123EK (F12) (Q1008) IMH6A (H6) (Q1017) MM1216ENRE (Q1004) NJM78L05 (Q1024)
RF Unit (Ver. D: Lot. 6~) Circuit Diagram (1) 29
RF Unit (Ver. D: Lot. 6~) Circuit Diagram (2) 30
RF Unit (Ver. D: Lot. 6~) Parts Layout (side A) A B C D E F G H 1 2 3 4 TDA2003H (Q1509) SA7025DK (Q1023) NJM2902V (Q1503) (Q1003:Lot. 6~) M5223 (Q1003, 1019) 2SA1602A (MF) (Q1505) 2SB1301 (ZQ) (Q1511) 2SD1368CB (CB) (Q1504) 2SC4154 (E) (Q1501) 2SC4226 (R24) (Q1015) 2SC4227 (R34) (Q1011) 2SC5107 (MF0) (Q1018) 2SK508 (K52) (Q1013) IMH6A (H6) (Q1017) 3SK228 (XR) (Q1026) RT1N241M (N2) (Q1002, 1006, 1016, 1032, 1033, 1034, 1502, 1506, 1507, 1512, 1518) (Q1035:Lot. 6~) HSM88AS (C1) (D1011, 1012) MC2850 (A7) (D1506, 1507) 31
RF Unit (Ver. D: Lot. 6~) Parts Layout (Side B) a b c d e f g h 1 2 3 4 32 RA30H4452M (Q1014) TA31136FN (Q1028) 2SB1201S (Q1005) 2SB1132 (BA) (Q1009) 2SA1602A (MF) (Q1031) 2SC4116 (LG) (Q1001) 2SC4154 (LE) (Q1007, 1519) 2SC4215Y (QY) (Q1029) 2SC5107 (MFO) (Q1020, 1021, 1025) 2SC5415E (EA) (Q1022) 2SJ125D (JD) (Q1515) DTB123EK (F12) (Q1008) IMH6A (H6) (Q1010) MM1216ENRE (Q1004) NJM78L05 (Q1024) PDTC114TE (24) (Q1508, 1510) RT1N241M (N2) (Q1012, 1030, 1516, 1517) MC2850 (A7) (D1501, 1502, 1503) 1SS321 (F9) (D1022) MC2848 (A6) (D1024, 1026)
RF Unit (Ver. D) Parts List REF DESCRIPTION VALUE V/W TOL. MFR'S DESIG VXSTD P/N VERS. LOT SIDE LAY ADR PCB with Components CB1731001 Printed Circuit Board AC031U000 FR007620C 1- FR007620D 6- C 1001 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A G3 C 1002 CHIP CAP. 0.001uF 630V R GHM1030R102K630PT K22281801 1- A G2 C 1003 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A D2 C 1004 CHIP CAP. 3pF 200V CJ GRM40CJ030C200PT K22230210 1- A G2 C 1005 CHIP CAP. 0.1uF 25V B GRM40B104M25PT K22140811 1- A E2 C 1007 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A G2 C 1008 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B g3 C 1009 CHIP CAP. 10pF 200V CH GRM40CH100D200PT K22230216 1- A G2 C 1010 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A E3 C 1010 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 6- A E3 C 1011 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A E2 C 1011 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 6- A E2 C 1012 CHIP TA.CAP. 6.8uF 6.3V TEMSVA0J685M-8R K78080025 1- A C3 C 1013 CHIP TA.CAP. 6.8uF 6.3V TEMSVA0J685M-8R K78080025 1- A B3 C 1014 AL.ELECTRO.CAP. 10uF 16V RV2-16V100MB55-R K48120014 1- A B2 C 1015 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A G2 C 1017 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A C2 C 1019 CHIP CAP. 12pF 200V CH GRM40CH120J200PT K22230217 1- A F2 C 1020 CHIP CAP. 2pF 50V CK GRM39CK020C50PT K22174203 1- A G2 C 1021 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- B f2 C 1022 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A G2 C 1023 CHIP CAP. 0.047uF 16V B GRM39B473K16PT K22124804 1- A D2 C 1025 CHIP CAP. 10pF 200V CH GRM40CH100D200PT K22230216 1- A F2 C 1026 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A B2 C 1027 AL.ELECTRO.CAP. 3300uF 16V RE3-16V332M 3300UF K40129065 1- A C2 C 1028 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A H1 C 1029 CHIP CAP. 0.0022uF 50V B GRM39B222K50PT K22174822 1- A D2 C 1031 CHIP CAP. 5pF 50V CH GRM39CH050C50PT K22174206 1- A G2 C 1032 CHIP CAP. 0.0047uF 50V B GRM39B472K50PT K22174833 1- A D2 C 1033 CHIP TA.CAP. 47uF 16V TEMSVC1C476M12R K78120057 1- B f2 C 1034 CHIP CAP. 0.5pF 50V CK GRM39CK0R5C50PT K22174201 1- A G2 C 1035 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A D2 C 1036 CHIP CAP. 10pF 50V CH GRM39CH100D50PT K22174211 1- A G2 C 1037 CHIP CAP. 47pF 50V CH GRM39CH470J50PT K22174227 1- A C3 C 1038 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B c3 C 1039 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A D2 C 1040 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A G2 C 1042 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A H2 C 1043 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A D2 C 1045 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A H2 C 1046 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B c3 C 1047 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A D2 C 1048 CHIP CAP. 27pF 50V CH GRM39CH270J50PT K22174221 1- A G2 C 1049 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A D2 C 1050 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- B d2 C 1051 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B a2 C 1052 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B a2 C 1053 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- B d3 C 1054 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B d3 C 1055 CHIP CAP. 0.5pF 50V CK GRM39CK0R5C50PT K22174201 1- A H2 C 1056 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A H2 C 1057 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A E2 C 1058 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A D2 C 1059 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- A C2 C 1060 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B b2 C 1062 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B d3 C 1063 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A E2 C 1064 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A G2 C 1065 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B c2 C 1066 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A G2 C 1067 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A H2 C 1068 CHIP CAP. 6pF 50V CH GRM39CH060D50PT K22174207 1- A F2 C 1069 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B e2 C 1070 CHIP CAP. 9pF 50V CH GRM39CH090D50PT K22174210 1- A G2 C 1071 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B a3 C 1072 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A F2 C 1073 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B f2 C 1074 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B f2 C 1075 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B a3 C 1076 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B g3 C 1077 CHIP CAP. 8pF 50V CH GRM39CH080D50PT K22174209 1- B c2 C 1078 CHIP CAP. 6pF 50V CH GRM39CH060D50PT K22174207 1- A F2 C 1079 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A F2 33
RF Unit (Ver. D) Parts List REF DESCRIPTION VALUE V/W TOL. MFR'S DESIG VXSTD P/N VERS. LOT SIDE LAY ADR C 1080 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B c4 C 1081 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B g3 C 1082 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A D3 C 1083 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B g2 C 1084 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B a2 C 1085 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A H2 C 1087 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A F2 C 1088 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A G2 C 1090 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A G2 C 1092 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B d3 C 1093 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A D4 C 1096 CHIP CAP. 10pF 200V CH GRM40CH100D200PT K22230216 1- A F2 C 1097 CHIP CAP. 22pF 50V CH GRM39CH220J50PT K22174219 1- A D3 C 1098 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- B e3 C 1100 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A D3 C 1101 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A C2 C 1102 CHIP TA.CAP. 4.7uF 25V TEMSVB21E475M-8R K78140019 1- A E2 C 1104 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B e4 C 1105 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A G2 C 1107 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A E2 C 1108 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A F2 C 1109 CHIP CAP. 5pF 50V CH GRM39CH050C50PT K22174206 1- A D3 C 1111 CHIP CAP. 15pF 50V CH GRM39CH150J50PT K22174215 1- A H2 C 1112 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A E2 C 1113 CHIP CAP. 6pF 50V CH GRM39CH060D50PT K22174207 1- A D3 C 1114 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A D2 C 1115 FILM CAP. 0.033uF 16V ECHU1C333JB5 K57120013 1- B e3 C 1116 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B e2 C 1117 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A G2 C 1118 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A H2 C 1119 CHIP CAP. 0.5pF 50V CK GRM39CK0R5C50PT K22174201 1- A D3 C 1121 CHIP TA.CAP. 0.1uF 35V TESVA1V104M1-8R K78160025 1- A D2 C 1122 CHIP CAP. 8pF 50V CH GRM39CH080D50PT K22174209 1- A D3 C 1124 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A H2 C 1125 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1-5 A G2 C 1126 FILM CAP. 0.022uF 16V ECHU1C223JB5 K57120011 1- B e3 C 1127 CHIP TA.CAP. 4.7uF 10V TEMSVA1A475M-8R K78100022 1- B d3 C 1128 CHIP CAP. 6pF 50V CH GRM39CH060D50PT K22174207 1- A D3 C 1129 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A D3 C 1130 CHIP CAP. 22pF 50V CH GRM39CH220J50PT K22174219 1- A G3 C 1131 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B d3 C 1132 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A E3 C 1133 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A D3 C 1134 CHIP CAP. 22pF 50V CH GRM39CH220J50PT K22174219 6- B c3 C 1135 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A G3 C 1136 CHIP CAP. 7pF 50V CH GRM39CH070D50PT K22174208 1- B e2 C 1137 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A D3 C 1138 CHIP CAP. 12pF 50V CH GRM39CH120J50PT K22174213 1- A D3 C 1139 CHIP CAP. 10pF 50V CH GRM39CH100D50PT K22174211 1- A D3 C 1140 CHIP CAP. 8pF 50V CH GRM39CH080D50PT K22174209 1- B c2 C 1141 CHIP TA.CAP. 1uF 16V TESVA1C105M1-8R K78120009 1- B e3 C 1142 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A D3 C 1143 CHIP CAP. 7pF 50V CH GRM39CH070D50PT K22174208 1- B e2 C 1144 CHIP CAP. 0.5pF 50V CK GRM39CK0R5C50PT K22174201 1- A H3 C 1145 CHIP CAP. 0.5pF 50V CK GRM39CK0R5C50PT K22174201 1- A D3 C 1146 CHIP CAP. 4pF 50V CH GRM39CH040C50PT K22174205 1- A G3 C 1147 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A H3 C 1148 CHIP CAP. 10pF 50V CH GRM39CH100D50PT K22174211 1- B e2 C 1149 CHIP TA.CAP. 6.8uF 6.3V TEMSVA0J685M-8R K78080025 1- A E4 C 1149 CHIP TA.CAP. 2.2uF 10V TESVA1A225M1-8R K78100021 6- A E4 C 1150 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B e3 C 1151 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A H3 C 1152 CHIP CAP. 1pF 50V CK GRM39CK010C50PT K22174202 1- A D3 C 1153 CHIP CAP. 9pF 50V CH GRM39CH090D50PT K22174210 1- A H3 C 1154 CHIP CAP. 6pF 50V CH GRM39CH060D50PT K22174207 1- B e2 C 1155 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A E3 C 1156 CHIP CAP. 1pF 50V CK GRM39CK010C50PT K22174202 6- A F3 C 1157 CHIP CAP. 15pF 50V CH GRM39CH150J50PT K22174215 1- A F3 C 1157 CHIP CAP. 10pF 50V CH GRM39CH100D50PT K22174211 6- A F3 C 1158 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A E3 C 1159 CHIP CAP. 5pF 50V CH GRM39CH050C50PT K22174206 1- A G3 C 1160 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A H3 C 1161 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B d3 C 1162 CHIP TA.CAP. 33uF 10V TEMSVB21A336M-8R K78100047 1- B b3 C 1163 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A E3 C 1164 CHIP CAP. 12pF 50V CH GRM39CH120J50PT K22174213 1- A E3 34
RF Unit (Ver. D) Parts List REF DESCRIPTION VALUE V/W TOL. MFR'S DESIG VXSTD P/N VERS. LOT SIDE LAY ADR C 1165 CHIP CAP. 0.5pF 50V CK GRM39CK0R5C50PT K22174201 1- A H3 C 1166 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A H3 C 1167 CHIP CAP. 6pF 50V CH GRM39CH060D50PT K22174207 1- B c3 C 1168 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A G3 C 1169 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B e3 C 1169 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 6- B e3 C 1170 CHIP CAP. 22pF 50V CH GRM39CH220J50PT K22174219 1- B e3 C 1171 CHIP CAP. 7pF 50V CH GRM39CH070D50PT K22174208 1- A G3 C 1172 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B e2 C 1173 CHIP CAP. 15pF 50V CH GRM39CH150J50PT K22174215 1- B e3 C 1175 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A G3 C 1176 CHIP CAP. 9pF 50V CH GRM39CH090D50PT K22174210 1- A F3 C 1177 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B e2 C 1178 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A C3 C 1179 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- A F3 C 1180 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A G3 C 1181 CHIP CAP. 15pF 50V CH GRM39CH150J50PT K22174215 1- B c3 C 1182 CHIP CAP. 9pF 50V CH GRM39CH090D50PT K22174210 1- B e3 C 1183 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- B f3 C 1183 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 6- B f3 C 1184 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- B b3 C 1185 CHIP CAP. 5pF 50V CH GRM39CH050C50PT K22174206 1- A G3 C 1186 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B e2 C 1187 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B e2 C 1188 CHIP CAP. 12pF 50V CH GRM39CH120J50PT K22174213 1- B a3 C 1189 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B e3 C 1190 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- B e3 C 1191 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B c3 C 1192 CHIP CAP. 12pF 50V CH GRM39CH120J50PT K22174213 1- B a3 C 1193 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B c2 C 1194 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B g3 C 1195 CHIP CAP. 5pF 50V CH GRM39CH050C50PT K22174206 1- B d2 C 1196 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B d2 C 1197 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B c3 C 1198 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B f2 C 1199 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- B e3 C 1200 CHIP CAP. 12pF 50V CH GRM39CH120J50PT K22174213 1- B c3 C 1201 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B c2 C 1202 CHIP CAP. 10pF 50V CH GRM39CH100D50PT K22174211 1- B e3 C 1203 CHIP CAP. 33pF 50V CH GRM39CH330J50PT K22174223 1- B e3 C 1204 CHIP CAP. 6pF 50V CH GRM39CH060D50PT K22174207 1- A G3 C 1205 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A C3 C 1206 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B d2 C 1207 CHIP CAP. 2pF 50V CK GRM39CK020C50PT K22174203 1- B a3 C 1208 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B d2 C 1209 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A C3 C 1210 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- B e3 C 1211 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A C3 C 1212 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B e3 C 1213 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B d2 C 1214 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- B e3 C 1215 CHIP CAP. 10pF 50V CH GRM39CH100D50PT K22174211 1- B c2 C 1216 CHIP CAP. 22pF 50V CH GRM39CH220J50PT K22174219 1- B c2 C 1217 CHIP TA.CAP. 10uF 6.3V TEMSVA0J106M-8R K78080027 1- B f3 C 1218 CHIP CAP. 22pF 50V CH GRM39CH220J50PT K22174219 1- B d2 C 1219 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- A G4 C 1220 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B c2 C 1221 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A F3 C 1222 CHIP CAP. 15pF 50V CH GRM39CH150J50PT K22174215 1- A G3 C 1223 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- A G3 C 1224 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A G3 C 1224 CHIP CAP. 2pF 50V CK GRM39CK020C50PT K22174203 6- A G3 C 1225 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- A G3 C 1226 CHIP TA.CAP. 4.7uF 10V TEMSVA1A475M-8R K78100022 1- B f2 C 1227 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B b3 C 1228 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A E4 C 1229 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B a3 C 1230 CHIP CAP. 18pF 50V CH GRM39CH180J50PT K22174217 1-5 A E2 C 1231 CHIP CAP. 2pF 50V CK GRM39CK020C50PT K22174203 1- A E2 C 1231 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 6- A E2 C 1232 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A C2 C 1232 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 6- A C2 C 1233 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B b4 C 1234 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B b3 C 1235 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B b2 C 1236 CHIP CAP. 2pF 50V CK GRM39CK020C50PT K22174203 1- A B4 35
RF Unit (Ver. D) Parts List REF DESCRIPTION VALUE V/W TOL. MFR'S DESIG VXSTD P/N VERS. LOT SIDE LAY ADR C 1236 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 4-5 A B4 C 1237 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1-5 B c3 C 1238 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B c3 C 1239 CHIP CAP. 22pF 50V CH GRM39CH220J50PT K22174219 1- B c3 C 1240 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- B c3 C 1241 CHIP CAP. 15pF 50V CH GRM39CH150J50PT K22174215 1- B c4 C 1242 CHIP CAP. 39pF 50V CH GRM39CH390J50PT K22174225 1- B c3 C 1243 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B c3 C 1244 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- B c3 C 1245 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B f4 C 1246 CHIP CAP. 47pF 50V CH GRM39CH470J50PT K22174227 1- B f2 C 1246 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 6- B f2 C 1247 CHIP CAP. 6pF 50V CH GRM39CH060D50PT K22174207 1-5 A C3 C 1248 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A F4 C 1249 CHIP CAP. 12pF 50V CH GRM39CH120J50PT K22174213 1- B c3 C 1250 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- B b3 C 1251 CHIP CAP. 68pF 50V CH GRM39CH680J50PT K22174231 1- A F3 C 1252 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A F3 C 1253 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A E2 C 1254 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B b2 C 1255 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- B e3 C 1256 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A D2 C 1257 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A E2 C 1258 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A C2 C 1260 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A F2 C 1261 CHIP TA.CAP. 4.7uF 16V TEMSVA1C475M-8R K78120031 1- B f2 C 1268 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- B f3 C 1269 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A D2 C 1270 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- B f2 C 1271 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A D2 C 1272 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A E2 C 1273 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A E2 C 1274 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- A E3 C 1277 CHIP CAP. 220pF 50V CH GRM39CH221J50PT K22174243 1- B f3 C 1279 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1-5 B d4 C 1280 CHIP CAP. 3pF 50V CJ GRM39CJ030C50PT K22174204 1- A G2 C 1281 CHIP CAP. 18pF 50V CH GRM39CH180J50PT K22174217 1- A G3 C 1282 CHIP CAP. 1pF 50V CK GRM39CK010C50PT K22174202 3 B e3 C 1287 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 6- A F3 C 1288 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 6- A E2 C 1289 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 6- A F2 C 1291 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 6- A E2 C 1292 CHIP CAP. 10pF 50V CH GRM39CH100D50PT K22174211 6- B c3 C 1293 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 6- B c4 C 1294 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 6- A E2 C 1295 CHIP CAP. 1pF 50V CK GRM39CK010C50PT K22174202 6- A F3 C 1501 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- A B2 C 1502 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- B f2 C 1503 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- A A2 C 1504 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- B g2 C 1505 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A B2 C 1506 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- A B2 C 1507 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- A B2 C 1508 CHIP CAP. 100pF 50V CH GRM39CH101J50PT K22174235 1- A B2 C 1509 CHIP CAP. 1uF 10V F GRM39F105Z10PT K22105001 1- A B2 C 1510 CHIP CAP. 1uF 10V F GRM39F105Z10PT K22105001 1- B g2 C 1511 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- A B3 C 1512 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B g2 C 1513 CHIP CAP. 0.01uF 50V B GRM39B103M50PT K22174823 1- A B3 C 1513 CHIP CAP. 0.047uF 16V B GRM39B473K16PT K22124804 4- A B3 C 1515 AL.ELECTRO.CAP. 10uF 16V RV2-16V100MB55-R K48120014 1- A A2 C 1516 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A B3 C 1517 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A B3 C 1518 CHIP CAP. 0.001uF 50V B GRM39B102K50PT K22174821 1- B g2 C 1519 CHIP TA.CAP. 4.7uF 10V TEMSVA1A475M-8R K78100022 1- B f3 C 1520 AL.ELECTRO.CAP. 100uF 16V ECEV1CA101WP K48120012 1- A A2 C 1521 AL.ELECTRO.CAP. 470uF 16V RE3-16V471M 470UF K40129066 1- A A2 C 1523 CHIP TA.CAP. 1uF 16V TESVA1C105M1-8R K78120009 1- B f2 C 1523 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 4- B f2 C 1524 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- B g2 C 1525 CHIP CAP. 120pF 50V CH GRM39CH121J50PT K22174237 1- A B3 C 1526 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A B3 C 1527 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A B2 C 1528 CHIP CAP. 0.1uF 16V B GRM39B104K16PT K22124805 1- A B2 C 1529 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A B3 C 1530 CHIP CAP. 470pF 50V CH GRM39CH471J50PT K22174249 1- A B3 36