NATIONAL TECHNICAL SYSTEMS (NTS) TEST REPORT

Transcription

1 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 1 of 261 NATIONAL TECHNICAL SYSTEMS (NTS) TEST REPORT Prepared For Mide Technology Corporation 200 Boston Avenue, Suite 1000 Medford, MA (781) Product Slam Stick X Procedure EMI Qualification Test Program (LOG ) RE101: Radiated Emissions, Magnetic Field, 30 Hz to 100 khz RE102: Radiated Emissions, Electric Field, 10 khz to 18 GHz RS101: Radiated Susceptibility, Magnetic Field, 30 Hz to 100 khz RS103: Radiated Susceptibility, Electric Field, 2 MHz to 18 GHz at 200 V/m Prepared By National Technical Systems 1146 Massachusetts Avenue Boxborough, MA (978) This report and the information contained herein represent the results of testing articles/products identified and selected by the client. The tests were performed to specifications and/or procedures approved by the client. National Technical Systems ( NTS ) makes no representations expressed or implied that such testing fully demonstrates efficiency, performance, reliability, or any other characteristic of the articles being tested, or similar products. This report should not be relied upon as an endorsement or certification by NTS of the equipment tested, nor does it represent any statement whatsoever as to its merchantability or fitness of the test article or similar products for a particular purpose. This document shall not be reproduced except in full without written approval from National Technical Systems ( NTS ). Distribution Statement D: Distribution authorized to the Department of Defense and U.S. DoD contractors only; Critical Technology: January 5, Other requests shall be referred to NAVSEA. Warning: This document contains technical data whose export is restricted by Arms Export Control Act (Title 22, U.S.C., Sec. 2751, et seq.) or the Export Administration Act of 1979, as amended, Title 50, U.S.C., App. 2401, et seq.). Violations of these export laws are subject to severe criminal penalties. Disseminate in accordance with the provisions of DoD Directive Destruction Notice. For unclassified, limited documents, destroy by any method that will prevent disclosure of contents or reconstruction of the document. No public releases or public displays of any kind are authorized without the expressed written consent of COMNAVSEASYSCOM (SEA OOD) or higher authority.

2 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 2 of 261 REVISION HISTORY Rev. Description Prepared By Approved By Reviewed By Technical Writer Project Engineer Quality Assurance Issue Date 0 Initial Release S. Chanhsy T. Davis R. Kelly 11/14/2014

3 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 3 of 261 SIGNATURE APPROVALS Prepared By Sirinthone Chanhsy, Technical Writer Approved By Timothy Davis, Project Engineer Reviewed By Ronald Kelly, Quality Assurance

4 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 4 of 261 TABLE OF CONTENTS 1.0 Introduction References Product Selection and Description General Test Requirements Test Facility Ground Plane Test Equipment TILE Software Power Source Impedance Test Precautions Emissions Testing Susceptibility Testing Test Descriptions and Results RE101: Radiated Emissions, Magnetic Field, 30 Hz to 100 khz RE101 Purpose RE101 Test Points RE101 Measurement System Check RE101 Test Procedure RE101 Test Results RE101 Test Photographs Slam Stick X: Normal Slam Stick X: Nickel Slam Stick X: Copper Slam Stick X: Aluminum RE101 Test Data System Verification Ambient & Qualification Scans Slam Stick X: Normal Ambient & Qualification Scans Slam Stick X: Nickel Ambient & Qualification Scans Slam Stick X: Copper Ambient & Qualification Scans Slam Stick X: Aluminum RE101 TILES RE101 Test Equipment RE102: Radiated Emissions, Electric Field, 10 khz to 18 GHz RE102 Purpose RE102 Measurement System Check RE102 Test Procedure RE102 Bench Top Test Setup for Non-Metallic Ground Plane RE102 Antenna Positioning RE102 Ambient Electromagnetic Level RE102 Test Results RE102 Test Photographs Stub Radiator Check System Verification Ambient Scans Qualification Scans Slam Stick X: Normal Ambient & Qualification Scans Slam Stick X: Nickel Ambient & Qualification Scans Slam Stick X: Copper Ambient & Qualification Scans Slam Stick X: Aluminum RE102 Test Data System Verification Ambient Scans Qualification Scans Slam Stick X: Normal...120

5 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 5 of Qualification Scans Slam Stick X: Nickel Qualification Scans Slam Stick X: Copper Qualification Scans Slam Stick X: Aluminum RE102 TILE Automation Profile RE102 Test Equipment RE102 Correction Factors Active Monopole Antenna (BX0875) Biconilog Antenna (BX0728) Large Antenna (BX1698) Small Horn Antenna (BX2073) RS101: Radiated Susceptibility, Magnetic Field, 30 Hz to 100 khz RS101 Purpose RS101 Limits RS101 Magnetic Flux Density RS101 Measurement System Check RS101 Test Procedure RS101 Test Results RS101 Test Photographs Slam Stick X: Normal Slam Stick X: Nickel Slam Stick X: Copper Slam Stick X: Aluminum RS101 Test Data Calibration Form Result Form Slam Stick X: Normal Result Form Slam Stick X: Nickel Result Form Slam Stick X: Copper Result Form Slam Stick X: Aluminum RS101 Test Equipment RS103: Radiated Susceptibility, Electric Field, 2 MHz to 18 GHz RS103 Purpose RS103 Limits RS103 Test Setup RS103 Measurement System Check RS103 Modulation Verification RS103 Test Procedure RS103 Test Results RS103 Test Photographs Slam Stick X: Normal Slam Stick X: Nickel Slam Stick X: Copper Slam Stick X: Aluminum RS103 Test Data Modulation Verification Result Form Slam Stick X: Normal Result Form Slam Stick X: Nickel Result Form Slam Stick X: Copper Result Form Slam Stick X: Aluminum RS103 TILE RS103 Test Equipment Appendix A: Test Logs...250

6 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 6 of 261 LIST OF FIGURES Figure 4.1-1: EMC 24PCL RF Absorber Performance Data... 9 Figure : Representative Bench Top Test Setup... 9 Figure RE101-1: Limit for All Navy Applications...14 Figure RE101-2: System Verification Setup...15 Figure RE101-3: Basic Test Setup...15 Figure RE101-4: TILE Automation Profile...85 Figure RE101-5: TILE System Verification Profile...86 Figure RE101-6: TILE Measurement Profile...86 Figure RE102-1: Limit for Surface Ship Applications...88 Figure RE102-2: Typical Half Power Curve for a 3106 Double Ridged Horn Antenna 200MHz-2GHz...90 Figure RE102-3: Typical Half Power Curve for a AHA 118 Double Ridged Horn Antenna 1GHz-18GHz...90 Figure RE102-4: Half Beamwidth Coverage...90 Figure RE102-5: Measurement System Check Setup...90 Figure RE102-6: Basic Test Setup...90 Figure RE102-7: Antenna Positioning...90 Figure RE102-8: Antenna Positions Worksheet...91 Figure RE102-9: TILE Automation Profile Figure RE102-10: TILE System Verification Profile Figure RE102-11: TILE Measurement Profile Figure RS101-1: Limit for All Navy Applications Figure RS101-2: Measurement System Check of the Radiating System Figure RS101-3: Basic Test Setup Figure RS101-4: Loop Sensor Correction Factor Figure RS101-5: Current Required to Reach Test Limits Figure RS101-6: Scan Rates Figure RS103-1: Test Limit for Ships (Non-Metallic, Below Decks) Figure RS103-2: Antenna Positions Figure RS103-3: Basic Test Setup Figure RS103-4: Typical Half Power Curve for a 3106 Double Ridged Horn Antenna 200 MHz-2 GHz Figure RS103-5: Typical Half Power Curve for a 3115 Doubled Ridged Horn Antenna 1 GHz 18 GHz Figure RS103-6: RS103 Half Beamwidth Coverage Figure RS103-7: TILE Automation Profile Figure RS103-8: TILE Profile LIST OF TABLES Table 1.0-1: Test Categories... 7 Table 2.0-1: Document References... 7 Table 3.0-1: Units Under Test (UUT)... 8 Table 4.4-1: Bandwidth and Measurement Times...12 Table 4.5-1: Susceptibility Scanning...13 Table 5.0-1: Summary of Test Results...14 Table RE101-1: Detailed List of Test Equipment Used...87 Table RE102-1: Detailed List of Test Equipment Used Table RS101-1: Detailed List of Test Equipment Used Table RS103-1: Detailed List of Test Equipment Used...249

7 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 7 of Introduction This document presents the test procedures used and the results obtained during the performance of an Electromagnetic Interference (EMI) test program. The test program was conducted to assess the ability of the specified test items to successfully satisfy the requirements listed in Section 2.0. Table 1.0-1: Test Categories Item Test Procedure 1 RE101 Test Requirement Industry Standard Customer Reference/Spec. MIL-STD-461F Section 16 (Figure RE101-2) LOG , Rev. 00 Section 2 Test Facility/Location NTS Boxborough, MA 2 RE102 MIL-STD-461F Section 17 (Figure RE102-1) LOG , Rev. 00 Section 2 NTS Boxborough, MA 3 RS101 MIL-STD-461F Section 19 (Figure RS101-1) LOG , Rev. 00 Section 2 NTS Boxborough, MA 4 RS103 MIL-STD-461F Section 20 (Ships-Metallic) LOG , Rev. 00 Section 2 NTS Boxborough, MA 2.0 References The following references form a part of this document to the extent specified herein. Table 2.0-1: Document References Item Document ID Title 1 PO (09/08/2014) Mide Technology Corporation: Test Program Purchase Order 2 LOG , Rev. 00 (08/15/2014) Mide Technology Corporation: Slam Stick X EMI Qualification Test Procedure 3 OP National Technical Systems: Test Program Quote 4 MIL-STD-461F (12/10/2007) Department of Defense Interface Standard, Requirements for The Control of Electromagnetic Interference Characteristics of Subsystems and Equipment 5 MIL-STD-220B (06/25/2004) Method of Insertion Loss Measurement with Change 1 6 DI-EMCS-80201C (08/30/2007) Data Item Description Electromagnetic Interference Test Procedures (EMITP) 7 S9407-AB-HBK-010, Rev. 2 (09/30/1989) Handbook of Shipboard Electromagnetic Shielding Practices 8 DoDI (08/19/2009) Protecting Personnel from Electromagnetic Fields 9 ISO/IEC 17025L:2005 (05/15/2005) General Requirements for the Competence of Testing and Calibration Laboratories 10 NTS SOP 110 (06/04/2012) Standard Operating Procedure Electrical Safety 11 NTS SOP 114 (11/02/2010) Lock Out/Tag Out Procedure 12 ANSI C63.4:2003 American National Standard for Methods of Measurement of Radio Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the Range of 9 khz 40 GHz

8 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 8 of Product Selection and Description Mide Technology Corporation selected and provided the test samples to be used as the Units Under Test (UUT). Table 3.0-1: Units Under Test (UUT) Item Qty. Name/Description Part Number Serial Number 1 1 Slam Stick X: Normal (No EMI Protection) LOG G Slam Stick X: Nickel (Conductive Internal Coating) LOG G Slam Stick X: Copper (Internal Foil) LOG G Slam Stick X: Aluminum (Metal Enclosure) LOG G 0030 Slam Stick X is a vibration data logger with additional temperature and pressure sensors. It is powered by an internal lithium-ion polymer battery and has a mass of 40 grams. Four (4) different test items underwent testing to determine what, if any, EMI protection is needed for the Slam Stick X. The four (4) test items are described as follows: Test Item #1: No EMI Protection This device will have no protection and will be manufactured in the manner Mide currently utilizes for its commercial customers. This device is comprised of the internal electronics, potting compound for rigidity and a plastic enclosure. This represents the most cost effective device construction. Test Item #2: Nickel Conductive Internal Coating This device will have three (3) internal coats of the Super Shield TM Nickel Conductive Coating on the plastic enclosure halves. This coating is specified to provide up to 58 db of shielding attenuation at frequencies up to 18 GHz. Other than the layers of conductive coating on the interior of the plastic enclosure halves, this will have the same construction as Test Item #1. Test Item #3: Internal Copper Foil This device will have an internal cage of copper foil. The foil will be manually shaped to match the internal geometry of the plastic enclosures. This construction will provide greater EMI attenuation than Test Items #1 and #2; but it will require much more manual labor and will not be as repeatable in comparison to the internal coating. Test Item #4: Metal Enclosure Mide purchased metal enclosure halves with matching geometry to the plastic enclosures. Internally, this test item will be identical to Test Item #1, the construction used for commercial customers. This configuration is the least desirable due to vastly increased machining costs of metal enclosures versus plastic injection molded enclosures, increased mass (additional 25 grams), and an electrically conductive exterior. Test Item #1 Test Item #2 Test Item #3 Test Item #4 Slam Stick X: Normal Slam Stick X: Nickel Slam Stick X: Copper Slam Stick X: Aluminum

9 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 9 of General Test Requirements 4.1 Test Facility All testing occurred within a shielded semi anechoic enclosure, located in Boxborough, Massachusetts. The chamber is lined with anechoic Radio Frequency (RF) absorbing cones on the walls and the ceiling. Peripheral equipment was located outside the shielded enclosure. All power leads entering the shielded enclosures were routed via electromagnetic interference filters to provide at least 80 db of attenuation above 10 khz when measured in accordance with MIL-STD-220A. Interconnecting cables were routed via feed-through ports mounted on the enclosure. Shielding effectiveness to electric fields and plane waves of this EMI test chamber exceeded 80 db from 14 khz to 10 GHz, and 60 db from 10 GHz to 40 GHz. The anechoic RF absorber material shown in Figure (carbon impregnated foam pyramids) is used when performing electric field radiated emissions or radiated susceptibility testing inside a shielded enclosure. It is intended to reduce reflections of electromagnetic energy and to improve accuracy and repeatability. Figure 4.1-1: EMC 24PCL RF Absorber Performance Data Ground Plane The ground plane was a copper plane, measuring 350 cm x 89 cm, placed on a table inside the shielded enclosure. The shielded enclosure measures 20 x 18 x 10. The UUT was bonded to the ground through a ground strap provided by Mide Technology Corporation. The ground plane met the requirements of MIL STD-461F. The UUT was installed on a metallic ground plane as shown in Figure Equipment orientation in relation to ground plane and antennae was determined after near-field probe of equipment determined the greatest source of emissions. For purposes of test planning, it was assumed that the front face of the UUT was the worst case for emissions and susceptibility as the other faces of the UUT are continuous metal construction with the exception of the bottom face which allows cable penetration. Figure : Representative Bench Top Test Setup

10 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 10 of Test Equipment Equipment used for this test program is calibrated according to ISO/IEC 17025:2005 and calibration is traceable to the National Institute of Standards and Technology (NIST). Calibration records are maintained on file at NTS TILE Software TILE is an integrated approach to designing, performing, reporting, and archiving complex Electromagnetic Compatibility (EMC) tests. TILE/ICS (Instrument Control System) is the portion of the TILE system that provides simple, direct control of EMC measurement instruments. TILE provides a common user interface for all testing, coupled with tight integration into standard report writing programs (Microsoft Word) and spreadsheets (Microsoft Excel). It provides the ability to perform EMC tests as well as manipulate the data generated during these measurements. By using the latest software techniques, such as OLE 2.0 and ODBC (Open Database Connectivity), TILE allows for rapid design and testing within the laboratory environment. The use of 32-bit code is of particular significance within the EMC community given the large data sizes inherent in EMC testing. TILE/ICS uses a flowchart to simplify the user interface. Each step in the process is represented on the flowchart with an icon, which are referred to as actions. The icons are each a unique test, information step or prompt. The flowchart provides a powerful tool for symbolizing communications with the instruments and data manipulation/correction. Instrument control is based on the General Purpose Instrument Bus (GPIB or IEEE-488-2), Serial Communications (IEEE-232), or other standards. The TILE system is hardware independent within these constraints and the abilities of the hardware used. Most EMC instrumentation is supported by TILE. The emphasis on hardware independence allows for quick introduction of new instrumentation into the laboratory environment. No new code has to be written by the user, only a new instrument driver by subcontractor ETS-Lindgren. These instrument drivers are provided free of charge to registered users. The TILE automation profiles used in this EMITR are included in each applicable test section. These Profile snapshots represent the parameters and characteristics used in the automation process, such as bandwidth settings, frequency step rates, and dwell times for the applicable test frequency range. Since TILE is a widely used software program, its main programs have been validated. Only user information must be verified and is included in the individual test method. The system verifications performed in each emission test verifies the software at the same time as the rest of the measurement system. Verifications performed for susceptibility are included in each test method of the test procedure. TILE software defaults all receiver video bandwidth resolutions to 3 MHz which is the maximum video bandwidth resolution setting for all NTS receivers. The output from TILE software is in the form of graphs or tables. The graphs are used to graphically display the data gathered across the frequency range tested. The tables are used to capture the 4 highest peaks detected during test or any peak which approaches within 6 db of the test limit. This would include any peaks that exceed the limit. TILE is the data recording device for all testing. The completed TILE profiles are stored on a secure server that is continually backed up on another secure server. Whether the software is set to logarithmic or linear scale does not impact the final result displayed. All data gathered from the analyzer is gathered with the analyzer in a linear mode and converted to a logarithmic scale by the software. The receiver settings defined in the Parameters tab of the Measure Range TILE icon are irrelevant as the driver loaded into the software is for a spectrum analyzer. TILE recognizes the driver as a spectrum analyzer and only uses the settings for an analyzer (ignoring all portions marked for receiver). The TILE profile is reviewed for accuracy before and after a test is performed by the shift supervisor. Additionally, NTS accrediting body requires NTS to provide proof of functionality of test profiles. TILE profiles are used. NTS uses internal quality processes to ensure the software meets MIL-STD-461F requirements. A technical justification can be provided for each group of software subsets used to perform testing, but NTS considers such to be unsuitable for presentation in a test procedure due to the length and technical detail such justifications would require. Factors are manually entered by the technician performing the test before each test and the use of the correct factor is verified by a pre-test inspection before the technician is allowed to perform the test. Additionally, a post-test inspection is performed to ensure the data gathered is valid. This software has been repeatedly proved and is accurate in all aspects. TILE Software Manufacturer Model Revision Release Date ETS Lindgren Tile /12/2014

11 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 11 of Power Source Impedance The impedance of power sources providing input power to the UUT were controlled by LISNs for all measurement procedures of this document unless otherwise stated in a particular test procedure. LISNs were not used on output power leads. The LISNs were located at the power source end of the 2.5 m exposed length of power leads. The LISN impedance was measured at least annually under the following conditions: The impedance was measured between the power output lead on the load side of the LISN and the metal enclosure of the LISN. The LISN signal output port had a 50 ohm termination. The power input terminal on the power source side of the LISN was un-terminated. The impedance measurement results are provided in this EMITR. Frequency Accuracy: In order for the UUT to successfully satisfy the requirements specified in the references listed in Section 2.0, the frequency accuracy of the recorded measurements was within ±2%. Verification with a frequency counter or other measuring device was required. Amplitude Accuracy was ±2 db. Other Accuracies: Distance: ±5%, Amplitude, measurement system (includes measurement receivers, transducers, cables, and so forth): ±3 db, Time (waveforms): ±5%, Resistors: ±5%, Capacitors: ±20%. 4.3 Test Precautions Excess Personnel and Equipment: The test area was kept free of unnecessary personnel, equipment, cable racks, and desks. Only the equipment essential to the test being performed was in the test area or enclosure. Only personnel actively involved in the test was permitted in the enclosure. Overload Precautions: Measurement receivers and transducers are subject to overload, especially receivers without pre-selectors and active transducers. Periodic checks were performed to assure that an over-load condition did not exist. Instrumentation changes were implemented to correct any overload condition. Linear Response of Signal In accordance with ANSI C Clause 4.2, the measuring system satisfied the following condition: The measuring system shall have a linear response. If a non-linear response was suspected due to an overload condition, the linearity response of the measurement system was verified. This was accomplished by performing a continuous sweep across the measurement range. A second sweep was performed with external RF attenuation added to the front end of the spectrum analyzer to confirm that the measurement amplitude at the suspect frequencies were reduced corresponding to the amount of attenuation applied. For example, a linear response would be verified if a 30 db signal measured through a 10 db attenuator reads 20 db, and reads 10 db through a 20 db attenuator. A non-linear response would be verified if a 30 db signal reads a value high than expected through a given attenuator (non-linear response: 30 db input 10 db attenuator = 27.5 db) If a non-linear response was verified, the addition of more external attenuation or internal attenuation with an RF reference level adjustment was required to regain a linear measurement response. Newer models of EMI Receivers such as the Agilent E4446A series indicate where an IF or RF overload exists. In this case, the attenuation of the analyzer s input signal was adjusted until the overload indication was removed. RF Hazards: Some tests in this report result in electromagnetic fields that were potentially dangerous to personnel. The permissible exposure levels in DoDI did not exceed in areas where personnel are present. Safety procedures and devices were used to prevent accidental exposure of personnel to RF hazards. RS103 was performed in a shielded EMI test chamber with all doors, panels, and apertures sealed. At no time were personnel allowed in the sealed chamber area while transmitting. The input signal to the transmit antenna was removed, and the amplifier placed in standby prior to entering the chamber. Shock Hazard: Some tests require potentially hazardous voltages to be present. Extreme caution was taken by all personnel to assure that all safety precautions were observed. See the NTS Standard Operating Procedure SOP127 and SOP 110 for electrical safety and SOP114 for Lock-Out Tag-Out procedures.

12 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 12 of Emissions Testing Bandwidths: The measurement receiver bandwidths listed in Table 4.4-1, which are derived from MIL-STD-461F, were used for emissions testing. These bandwidths are specified at the 6 db down points for the overall selectivity curve of the receivers. Video filtering was not used to bandwidth limit the receiver response. A controlled video bandwidth was available on the measurement receivers used; it was set to its greatest value. This value was 3 MHz. Table 4.4-1: Bandwidth and Measurement Times Frequency Range 6 db Bandwidth Dwell Time 1 Minimum Measurement Time of Analog Measurement Receiver 30 Hz 1 khz 10 Hz 0.15 sec sec/hz 1 khz 10 khz 100 Hz sec 0.15 sec/khz 10 khz 150 khz 1 khz sec sec/khz 150 khz 30 MHz 10 khz sec 1.5 sec/mhz 30 MHz 1 GHz 100 khz sec 0.15 sec/mhz > 1GHz 1 MHz sec 15 sec/ghz 1 Alternative scanning technique. Multiple faster sweeps with the use of a maximum hold function may be used if the total scanning time is equal to or greater than the Minimum Measurement Time defined above. Frequency Scanning: For emission measurements, the entire frequency range for each applicable test was scanned. Minimum measurement time for analog measurement receivers during emission testing was as specified in Table Synthesized measurement receivers were stepped in ½ bandwidth increments or less, and the measurement dwell time was as specified in Table For equipment that operated such that potential emissions were produced at only infrequent intervals, times for frequency scanning were increased as necessary to capture any emissions. Sweep time for analog measurement receivers can be calculated by subtracting the stop frequency from the start frequency to determine the frequency span. The frequency span was then divided by the specified minimum measurement time for the analog receiver. Sweep time for synthesized measurement receivers can be calculated by determining the frequency span, then dividing the frequency span by of half the specified measurement bandwidth. This step increment was then multiplied by the specified dwell time. NTS utilized analog measurement receivers. The calculated frequency ranges and sweep times were adjusted to provide more data points than required by MIL-STD-461F. One example is the treatment of the frequency range 120 Hz 1 khz for RE101. For an analog receiver, 461F requires a 10 Hz resolution bandwidth and a minimum measurement time of sec/hz. This is 880 Hz x sec = 13.2 seconds total sweep time. The software was preset for a 50 second sweep, far longer than required by MIL-STD-461F. NTS measurement receivers employed data points for each frequency range scanned. In keeping with the previous example of RE101, by the software settings, 1 range was tested from 120 Hz 1 khz. 880 Hz across 1001 data points translates to a frequency resolution of 0.9 Hz. The standard allows 1% or 2x the resolution bandwidth, whichever is less stringent. Two times the 10 Hz resolution bandwidth for this range is 20 Hz. The tables NTS provides for emissions test resolve to 3 decimal places for frequency and 2 decimal places for amplitude.

13 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 13 of Susceptibility Testing Frequency Scanning: For susceptibility measurements, the entire frequency range for each applicable test was scanned. For swept frequency susceptibility testing, frequency scan rates and frequency step sizes of signal sources did not exceed the values listed in Table The rates and step sizes were specified in terms of a multiplier of the tuned frequency (f o ) of the signal source. Analog scans refer to signal sources which are continuously tuned. Stepped scans refer to signal sources which are sequentially tuned to discrete frequencies. Stepped scans dwelled at each tuned frequency for 3 seconds. Scan rates and step sizes were decreased when necessary to permit observation of a response. Table 4.5-1: Susceptibility Scanning Frequency Range Analog Scans Max Scan Rates Stepped Scans Max Step Size 30 Hz-1 MHz f o /sec 0.05 f o 1 MHz-30 MHz f o /sec 0.01 f o 30 MHz-1 GHz f o /sec f o 1 GHz-40 GHz f o /sec f o Modulation of Susceptibility: Susceptibility test signals for RS103 are pulse modulated (on/off ratio of 40 db minimum) at 1 khz rate with a 50% duty cycle. Thresholds of Susceptibility: When susceptibility indications were noticed in UUT operation, a threshold level was determined when possible, and where the susceptible condition was no longer present. Thresholds of susceptibility were determined as follows: When a susceptibility condition was detected, the interference signal was reduced until the UUT recovered. The interference was reduced by an additional 6 db. The interference signal was gradually increased until the susceptibility condition reoccurred. The level, frequency range of occurrence, frequency and level of greatest susceptibility, and other test parameters, as applicable were recorded.

14 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 14 of Test Descriptions and Results Testing was accomplished in accordance with the requirements of Section 2.0. Following testing, the UUT met all the requirements. Refer to the appropriate section for details. Table 5.0-1: Summary of Test Results Section Test Procedure Specification Test Date Test Results 5.1 RE101 LOG , Section 2 October 8, 2014 Compliant 5.2 RE102 LOG , Section 2 October 8-10, 2014 Compliant 5.3 RS101 LOG , Section 2 October 11-14, 2014 Compliant 5.4 RS103 LOG , Section 2 October 14-16, 2014 Compliant 5.1 RE101: Radiated Emissions, Magnetic Field, 30 Hz to 100 khz RE101 Purpose This test verifies that magnetic field emissions from the UUT do not exceed the limit specified in Figure RE101-1, over the frequency range of 30 Hz to 100 khz. Figure RE101-1: Limit for All Navy Applications

15 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 15 of RE101 Test Points Magnetic fields were measured along each face of the UUT: Front, Rear, Top, Bottom, Left Side, and Right Side RE101 Measurement System Check 1. The measurement system check was performed prior to testing specified in Section The measurement system was setup per Figure RE The signal generator was adjusted to produce a signal at least 6 db below the RE101 limit, at a frequency of 50 khz. 4. The measurement receiver was tuned to a center frequency of 50 khz, and the measured level is recorded. 5. Corrections factors were added to the raw data collected from the measurement receiver. For example: Cable loss (db) + Antenna factors (db) + Raw Data (dbμv) = corrected data (dbpt) 6. The signal at the measurement receiver was within ±3 db of the injected signal level. 7. The resistance of the loop sensor was approximately 10 ohm. 8. An ambient measurement was performed across the frequency range with the UUT power leads disconnected. All auxiliary support equipment was powered during this measurement RE101 Test Procedure The UUT was setup and configured in accordance with Section The UUT was powered on and sufficient time was allowed for stabilization. 2. The loop sensor was placed 7 cm from the UUT s face, or from the electrical interface connecter being probed. The plane of the loop sensor was oriented parallel to the UUT s face and the axis of the connectors. 3. The measurement receiver was scanned over the applicable frequency range. The frequencies of maximum radiation were located using the bandwidths and minimum measurement of Table The measurement receiver was tuned to one of the frequencies, or band of frequencies, identified in step The output of the measurement receiver was monitored while the loop sensor was moved (maintaining the 7 cm spacing) over the face of the UUT (or around the connector). The point of maximum radiation was recorded for each frequency from step The plane of the loop sensor was oriented 7 cm from the point of maximum radiation to give the maximum reading on the measurement receiver. This value was recorded. 7. Steps 4 6 were repeated for at least 2 frequencies of radiation per octave of frequencies below 200 Hz, and for at least 3 frequencies of maximum radiation per octave 200 Hz. 8. Steps 2 7 were repeated for each face of the UUT and each electrical connector. 9. Correction factors were added to the raw data collected from the measurement receiver. For example: Cable loss (db) + Antenna factors (db) + Raw Data (dbμv) = corrected data (dbμv/m) 10. If any frequencies were found to exceed the RE101 limit, thresholding was performed to observe at what distance the offending frequency met the RE101 limit. This value was recorded. Figure RE101-2: System Verification Setup Figure RE101-3: Basic Test Setup RE101 Test Results The UUT complied with the requirements in Section 2.0.

16 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 16 of RE101 Test Photographs System Verification Probe Verification Slam Stick X: Normal UUT Ambient Scan Qualification Scan: UUT Front Qualification Scan: UUT Rear

17 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 17 of 261 RE101 Test Photographs Slam Stick X: Normal (continued) Qualification Scan: UUT Top Qualification Scan: UUT Bottom Qualification Scan: UUT Left Side Qualification Scan: UUT Right Side Slam Stick X: Nickel UUT Ambient Scan

18 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 18 of 261 RE101 Test Photographs Slam Stick X: Nickel (continued) Qualification Scan: UUT Front Qualification Scan: UUT Rear Qualification Scan: UUT Top Qualification Scan: UUT Bottom Qualification Scan: UUT Left Side Qualification Scan: UUT Right Side

19 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 19 of Slam Stick X: Copper UUT Ambient Scan Qualification Scan: UUT Front Qualification Scan: UUT Rear Qualification Scan: UUT Top Qualification Scan: UUT Bottom

20 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 20 of 261 RE101 Test Photographs Slam Stick X: Copper (continued) Qualification Scan: UUT Left Side Qualification Scan: UUT Right Side Slam Stick X: Aluminum UUT Ambient Scan Qualification Scan: UUT Front Qualification Scan: UUT Rear

21 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 21 of 261 RE101 Test Photographs Slam Stick X: Aluminum (continued) Qualification Scan: UUT Top Qualification Scan: UUT Bottom Qualification Scan: UUT Left Side Qualification Scan: UUT Right Side

22 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 22 of RE101 Test Data System Verification National Technical Systems RE101 System Verification PR#: PR Test Date(s): 10/8/2014 Client: Mide Technology Corporation Client P.O.#: PO Test Method: RE101, Radiated Emissions, Magnetic Field, 30Hz to 100kHz EUT Nomenclature: Slam Stick X Test Specification: Para./Sect.: MIL-STD-461F 5.16 EUT Model or Part Number: EUT Serial Number: LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The purpose of this sheet is to meet the requirements of MIL-STD-461F Section b. 1"Apply a calibrated signal level, which is at least 6 db below the limit (limit minus the loop sensor correction factor), at a frequency of 50 khz. Tune the measurement receiver to a center frequency of 50 khz. Record the measured level." RE101 Limit: B Figure RE101-2 RE101 Limit for all Navy Applications Frequency (khz) Limit (dbpt) Target Limit (dbpt) Signal Generator Output Setting (dbm) Measurement Loop Impedance (Ω) Test Performed By: Program Engineer: Daniel Yttredahl / William Mai Kevin Lawless

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25 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 25 of Ambient & Qualification Scans Slam Stick X: Normal PR#: Client: Test Method: Test Specification: Para./Sect.: Octave and Frequency Tested N/A O1.1 O2.1 O3.1 O4.1 O5.1 O6.1 O7.1 O8.1 O9.1 O10.1 O11.1 O12.1 O13.1 O14.1 PR Test Date(s): 10/8/2014 Mide Technology Corporation RE101, Radiated Emissions, Magnetic Field, 30Hz to 100kHz MIL-STD-461F 5.16 Ambient Scan Front, Rear, Top, Bottom, Left, and Right Face of EUT Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: Normal Version of TILE! Software used for testing: TILE 7! Location Description Frequency Range Scanned (Octave Scan) 30Hz to 100kHz 30Hz - 60Hz 60Hz - 120Hz 120Hz - 200Hz 200Hz - 400Hz 400Hz - 800Hz 800Hz - 1kHz 1kHz - 2kHz 2kHz - 4kHz 4kHz - 8kHz 8kHz - 10kHz 10kHz - 20kHz 20kHz - 40kHz 40kHz - 80kHz 80kHz - 100kHz National Technical Systems RE101 Data Sheet PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Limit Level Figure RE101-2 RE101 Limit for all Navy Applications Test Result Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Test Performed By: Program Engineer: Daniel Yttredahl / William Mai Kevin Lawless

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40 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 40 of Ambient & Qualification Scans Slam Stick X: Nickel PR#: Client: Test Method: Test Specification: Para./Sect.: Octave and Frequency Tested N/A O1.1 O2.1 O3.1 O4.1 O5.1 O6.1 O7.1 O8.1 O9.1 O10.1 O11.1 O12.1 O13.1 O14.1 PR Test Date(s): 10/8/2014 Mide Technology Corporation RE101, Radiated Emissions, Magnetic Field, 30Hz to 100kHz MIL-STD-461F 5.16 Ambient Scan Front, Rear, Top, Bottom, Left, and Right Face of EUT Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: Nickel Coated Version of TILE! Software used for testing: TILE 7! Location Description Frequency Range Scanned (Octave Scan) 30Hz to 100kHz 30Hz - 60Hz 60Hz - 120Hz 120Hz - 200Hz 200Hz - 400Hz 400Hz - 800Hz 800Hz - 1kHz 1kHz - 2kHz 2kHz - 4kHz 4kHz - 8kHz 8kHz - 10kHz 10kHz - 20kHz 20kHz - 40kHz 40kHz - 80kHz 80kHz - 100kHz National Technical Systems RE101 Data Sheet PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Limit Level Figure RE101-2 RE101 Limit for all Navy Applications Test Result Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Test Performed By: Program Engineer: Daniel Yttredahl / William Mai Kevin Lawless

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55 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 55 of Ambient & Qualification Scans Slam Stick X: Copper PR#: Client: Test Method: Test Specification: Para./Sect.: Octave and Frequency Tested N/A O1.1 O2.1 O3.1 O4.1 O5.1 O6.1 O7.1 O8.1 O9.1 O10.1 O11.1 O12.1 O13.1 O14.1 PR Test Date(s): 10/8/2014 Mide Technology Corporation RE101, Radiated Emissions, Magnetic Field, 30Hz to 100kHz MIL-STD-461F 5.16 Ambient Scan Front, Rear, Top, Bottom, Left, and Right Face of EUT Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: Copper Coated Version of TILE! Software used for testing: TILE 7! Location Description Frequency Range Scanned (Octave Scan) 30Hz to 100kHz 30Hz - 60Hz 60Hz - 120Hz 120Hz - 200Hz 200Hz - 400Hz 400Hz - 800Hz 800Hz - 1kHz 1kHz - 2kHz 2kHz - 4kHz 4kHz - 8kHz 8kHz - 10kHz 10kHz - 20kHz 20kHz - 40kHz 40kHz - 80kHz 80kHz - 100kHz National Technical Systems RE101 Data Sheet PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Limit Level Figure RE101-2 RE101 Limit for all Navy Applications Test Result Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Within Limit, Pass Test Performed By: Program Engineer: Daniel Yttredahl / William Mai Kevin Lawless

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70 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 70 of Ambient & Qualification Scans Slam Stick X: Aluminum PR#: Client: Test Method: Test Specification: Para./Sect.: Octave and Frequency Tested N/A O1.1 O2.1 O3.1 O4.1 O5.1 O6.1 O7.1 O8.1 O9.1 O10.1 O11.1 O12.1 O13.1 PR Mide Technology Corporation RE101, Radiated Emissions, Magnetic Field, 30Hz to 100kHz MIL-STD-461F 5.16 Location Description National Technical Systems Test Date(s): Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: RE101 Data Sheet 10/8/2014 PO Aluminum Coated Slam Stick X Version of TILE! Software used for testing: TILE 7! Frequency Range Scanned (Octave Scan) LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Limit Level Test Result Ambient Scan 30Hz to 100kHz Within Limit, Pass 30Hz - 60Hz Within Limit, Pass 60Hz - 120Hz Within Limit, Pass 120Hz - 200Hz Within Limit, Pass 200Hz - 400Hz Within Limit, Pass 400Hz - 800Hz Within Limit, Pass 800Hz - 1kHz Within Limit, Pass Front, Rear, Top, Bottom, Figure RE101-2 RE101 Limit for 1kHz - 2kHz Within Limit, Pass Left, and Right Face of all Navy Applications 2kHz - 4kHz Within Limit, Pass EUT 4kHz - 8kHz Within Limit, Pass 8kHz - 10kHz Within Limit, Pass 10kHz - 20kHz Within Limit, Pass 20kHz - 40kHz Within Limit, Pass 40kHz - 80kHz Within Limit, Pass O kHz - 100kHz Within Limit, Pass Test Performed By: Program Engineer: Daniel Yttredahl / William Mai Kevin Lawless

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85 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 85 of RE101 TILES Automation Profile: This automated test profile has been developed using TILE 7.0. A series of icons specially designed to support emissions testing have been linked together, as shown in Figure RE Each chain of icons has been grouped to a certain function or functions to organize and streamline RE101 testing. This profile includes an automated pretest system verification routine, as well as an automated RE101 test routine. The test range from 30 Hz to 100 khz has been segregated into smaller sub programs based on the prescribed measurement bandwidth break at 150 khz dictated by MIL-STD-461F. Each of the test range parameters have been designed to meet the MIL-STD-461F RE101 test criteria and have been presented as shown in Figure RE Figure continues in the right column Figure RE101-4: TILE Automation Profile

86 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 86 of 261 RE101 System Verification Profile: This routine has been designed to perform the pretest system verification at 50 khz as specified by MIL-STD-461F. In this profile, the signal generator is manually controlled by the operator to produce a signal at 50 khz, and at the specified frequency and test level. The spectrum analyzer is then swept across a small sub range to capture the peak signal observing the identical measurement parameters as in the test routine as shown in Figure RE This measurement is then compared to the test limit minus the measurement transducer factors. Figure RE101-5: TILE System Verification Profile RE101 Measurement Profile: This routine has been designed to perform the RE101 test measurement in accordance with MIL-STD-461F. All pertinent measurement criteria have been provided below including measurement range, reference level, and resolution and video bandwidth settings. Also number of analyzer sweeps, and sweep times are shown under the parameters element of the emissions icon (measurement bandwidth and sweep time shown in Figure RE101-6). Figure continues in the right column Figure RE101-6: TILE Measurement Profile

87 NATIONAL TECHN Customer: Mid NTS Test Report ID: TR-PR (LOG ), Revision RE101 Test Equipment Table RE101-1: Detailed List of Test Equipment Used Work Center Legacy ID Manufacturer Description M/N S/N Range WC BX4097 ETS-Lindgren Semi-Anechoic Chamber (2) Chamber 2 N/A Hz, DC-480 VAC, A, Hz WC BX4371 Agilent Technologies Spectrum Analyzer AT/E4446A MY Hz-44 GHz WC BX3044 Solar Electronics Loop Sensor N/A WC BX3492 Hewlett Packard Function Generator 3325B OPT A10804 DC-21 MHz WC BX4391 Unknown RF Cable INCH N/A 18 GHz WC BX3236 Unknown Data Logger N/A WC BX3075 Tenma Digital Clamp Multimeter N/A NCR: No Calibration Required

88 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 88 of RE102: Radiated Emissions, Electric Field, 10 khz to 18 GHz RE102 Purpose This test verifies that electric field emissions from the UUT did not exceed the limit specified in Figure RE102-1, over the frequency range of 10 khz to 18 GHz. Figure RE102-1: Limit for Surface Ship Applications RE102 Measurement System Check 1. The measurement system check was performed prior to testing specified in Section The measurement system was setup per Figure RE The evaluation was performed on the overall measurement system from each antenna to the data output device at the highest measurement frequency of the antenna. For the active rod antenna, the evaluation was performed at the lowest frequency of test, at a mid-band frequency, and at its highest measurement frequency 4. A signal generator was connected to the coax in place of the measurement antenna. For the active rod antenna, the active rod antenna calibration fixture was used in place of the rod element and the signal was injected across a 10 pf capacitor in the calibration fixture. 5. The signal generator was adjusted to produce a signal 6 db below the RE102 limit shown in Figure RE The signal detected at the measurement receiver was within ±3 db of the value from step This process was repeated for each frequency defined as follows: Active Rod Antenna: 10 khz, 15 MHz, 30 MHz Biconical Antenna: 200 MHz Large Double Ridged Horn Antenna: 1 GHz Small Double Ridged Horn Antenna: 18 GHz 8. Correction factors were added to the raw data collected from the measurement receiver. For example: Cable loss (db) + Antenna factors (db) + Raw Data (dbμv) - Preamplifier gain (db) = corrected data (dbμv/m)

89 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 89 of Using the measurement path of Figure RE102-5, the following evaluation for each antenna was performed to demonstrate that there is electrical continuity through the antenna. A. A signal was radiated using an antenna or stub radiator at the highest measurement frequency of each antenna. B. The measurement receiver was tuned to the frequency of the applied signal and that the received signal of appropriate amplitude was present. Note: This evaluation is intended to provide a coarse indication that the antenna was functioning properly. There was no requirement to accurately measure the signal level. 10. An ambient measurement was performed across the frequency range with the UUT power leads disconnected. All auxiliary support equipment was powered during this measurement RE102 Test Procedure 1. The UUT was operated in its normal operating mode. 2. For purposes of test planning, the front face of the UUT was assumed to represent worst case for emissions as all other faces are solid metal construction with the exception of the bottom face which allowed cable penetration. Near-field probing was used to verify the front face of the UUT is worst case before testing begins. This probing was performed from 10 khz to 18 GHz. If more than 1 face was found to provide worst case emissions in different frequency ranges, all worst case faces were tested. 3. The appropriate antenna was positioned 1 m from the front edge of the test item. For the rod antenna, a counterpoise was used for a ground reference and was bonded to the ground plane. 4. The antennas were positioned at least 1 m from all shielded walls. For basic test setup, see Figure RE The frequency range from 10 khz to 18 GHz was scanned using the bandwidths and minimum measurement times specified in MIL-STD-461F. Above 30 MHz, both horizontal and vertical polarities were scanned. Below 30 MHz, only vertical polarity measurements were performed. 6. Correction factors were added to the raw data collected from the measurement receiver. For example: Cable loss (db) + Antenna factors (db) + Raw Data (dbμv) - Preamplifier gain (db) = corrected data (dbμv/m) 7. The following types of antennas were used to scan the entire frequency range: Active Rod Antenna 104 cm with impedance matching network, preamplifier, and square counterpoise measuring 60cm on a side. 10 khz 30 MHz Biconical Antenna 137 cm tip to tip 30 MHz 200 MHz Large Double Ridged Horn Antenna 69 x 94.5 cm opening 200 MHz 1 GHz Small Double Ridged Horn Antenna 24.2 x 13.6 cm opening 1 GHz 18 GHz RE102 Bench Top Test Setup for Non-Metallic Ground Plane The counterpoise was bonded to the floor ground plane. For measurements outside a shielded enclosure, the counterpoise was electrically bonded to earth ground RE102 Antenna Positioning 1. The test setup boundary was determined for the UUT and its associated cabling. This was used antenna positioning. 2. Physical reference points on the antennas were used to measure antenna height and distance from the test setup boundary, per Figure RE102-8, as follows: Antennas were positioned 1 m from the front edge of the test setup boundary. All antennas, other than the 104 cm rod antenna, were positioned 120 cm above the ground plane. No part of any antenna was closer than 1 m to the walls and 0.5 m to the ceiling of the shielded enclosure. Additional positioning requirements for the rod antenna and distance above the bench ground plane were followed per Figure RE The number of antenna positions were determined by the size of the test setup boundary and the number of enclosures in the setup RE102 Ambient Electromagnetic Level During testing, the ambient electromagnetic level was recorded with the UUT de-energized and all auxiliary equipment turned on. The recorded level was at least 6 db below the limit.

90 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 90 of 261 Figure RE102-2: Typical Half Power Curve for a 3106 Double Ridged Horn Antenna 200MHz-2GHz Figure RE102-3: Typical Half Power Curve for a AHA 118 Double Ridged Horn Antenna 1GHz-18GHz Figure RE102-4: Half Beamwidth Coverage Figure RE102-5: Measurement System Check Setup Figure RE102-6: Basic Test Setup Figure RE102-7: Antenna Positioning

91 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 91 of 261 RE102 Antenna Positions Below 200MHz Remarks: The purpose of this sheet is to meet the requirements of MIL-STD-461F Section c (2) "(c) The number of required antenna positions depends on the size of the test setup boundary and the number of enclosures included in the setup.1. For testing below 200 MHz, use the following criteria to determine the individual antenna positions. a. For setups with the side edges of the boundary 3 meters or less, one position is required and the antenna shall be centered with respect to the side edges of the boundary. b. For setups with the side edges of the boundary greater than 3 meters, use multiple antenna positions at spacings as shown in Figure RE Determine the number of antenna positions (N) by dividing the edge-to-edge boundary distance (in meters) by 3 and rounding up to an integer." Test setup boundary edge to edge distance (cm): 7.5 cm Choose the end of the test setup on which the EUT is mounted: Number of Lateral Positions Required Position 1 Location (cm from the right edge) Position 2 Location (cm from the right edge) Position 3 Location (cm from the right edge) Position 4 Location (cm from the right edge) Right N/A N/A N/A RE102 Antenna Positions Above 200MHz Remarks: The purpose of this sheet is to meet the requirements of MIL-STD-461F Section c (2) "(c) The number of required antenna positions depends on the size of the test setup boundary and the number of enclosures included in the setup. 2. For testing from 200 MHz up to 1 GHz, place the antenna in a sufficient number of positions such that the entire width of each EUT enclosure and the first 35 cm of cables and leads interfacing with the EUT enclosure are within the 3 db beam width of the antenna. 3. For testing at 1 GHz and above, place the antenna in a sufficient number of positions such that the entire width of each EUT enclosure and the first 7 cm of cables and leads interfacing with the EUT enclosure are within the 3 db beam width of the antenna." EUT width (cm) on the edge facing the transmit antenna: 7.5 cm Choose the end of the test setup on which the EUT is mounted: Right EUT Testing 200MHz to 1GHz Receive Antenna Asset Number, Model, and Frequency Range Most Narrow Beam width (degrees) Test Distance (meters) Lateral Antenna coverage (cm) Required Number of Antenna Positions ETS BX GHz Antenna Position 1 Location, cm Measured from the Right Edge of the EUT Antenna Position 2 Location, cm Measured from the Right Edge of the EUT Antenna Position 3 Location, cm Measured from the Right Edge of the EUT Antenna Position 4 Location, cm Measured from the Right Edge of the EUT 21.3 Not Applicable Not Applicable Not Applicable EUT Testing 1GHz to 18GHz Receive Antenna Asset Number, Model, and Frequency Range Most Narrow Beam width (degrees) Test Distance (meters) Lateral Antenna coverage (cm) Required Number of Antenna Positions ETS BX GHz Antenna Position 1 Location, cm Measured from the Right Edge of the EUT Antenna Position 2 Location, cm Measured from the Right Edge of the EUT Antenna Position 3 Location, cm Measured from the Right Edge of the EUT Antenna Position 4 Location, cm Measured from the Right Edge of the EUT 7.3 Not Applicable Not Applicable Not Applicable Test Performed By: Program Engineer: Daniel Yttredahl / William Mai Kevin Lawless RE102 Test Results The UUT complied with the requirements in Section 2.0. Figure RE102-8: Antenna Positions Worksheet

92 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 92 of RE102 Test Photographs Stub Radiator Check Monopole Antenna Biconilog Antenna Large Horn Antenna Small Horn Antenna System Verification Frequencies Below 30 MHz Frequencies Above 30 MHz

93 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 93 of Ambient Scans Monopole Antenna: 10 khz to 30 MHz Biconilog Antenna: 30 MHz to 200 MHz, Horizontal Biconilog Antenna: 30 MHz to 200 MHz, Vertical Large Horn Antenna: 200 MHz to 1 GHz, Horizontal Large Horn Antenna: 200 MHz to 1 GHz, Vertical

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95 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 95 of Qualification Scans Slam Stick X: Normal Monopole Antenna: 10 khz to 30 MHz Biconilog Antenna: 30 MHz to 200 MHz, Horizontal Biconilog Antenna: 30 MHz to 200 MHz, Vertical Large Horn Antenna: 200 MHz to 1 GHz, Horizontal Large Horn Antenna: 200 MHz to 1 GHz, Vertical

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97 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 97 of Ambient & Qualification Scans Slam Stick X: Nickel Monopole Antenna: 10 khz to 30 MHz Biconilog Antenna: 30 MHz to 200 MHz, Horizontal Biconilog Antenna: 30 MHz to 200 MHz, Vertical Large Horn Antenna: 200 MHz to 1 GHz, Horizontal Large Horn Antenna: 200 MHz to 1 GHz, Vertical

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99 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 99 of Ambient & Qualification Scans Slam Stick X: Copper Monopole Antenna: 10 khz to 30 MHz Biconilog Antenna: 30 MHz to 200 MHz, Horizontal Biconilog Antenna: 30 MHz to 200 MHz, Vertical Large Horn Antenna: 200 MHz to 1 GHz, Horizontal Large Horn Antenna: 200 MHz to 1 GHz, Vertical

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101 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 101 of Ambient & Qualification Scans Slam Stick X: Aluminum Monopole Antenna: 10 khz to 30 MHz Biconilog Antenna: 30 MHz to 200 MHz, Horizontal Biconilog Antenna: 30 MHz to 200 MHz, Vertical Large Horn Antenna: 200 MHz to 1 GHz, Horizontal Large Horn Antenna: 200 MHz to 1 GHz, Vertical

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103 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 103 of RE102 Test Data System Verification National Technical Systems RE102 System Verification PR#: PR Test Date(s): 10/8/ /10/2014 Client: Mide Technology Corporation Client P.O.#: PO Test Method: RE102, Radiated Emissions, Electric Field, 10kHz to 18GHz EUT Nomenclature: Slam Stick X Test Specification: Para./Sect.: MIL-STD-461F 5.17 EUT Model or Part Number: EUT Serial Number: LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The purpose of this sheet is to meet the requirements of MIL-STD-461F Section c. "Using the system check path of Figure RE102-5, perform the following evaluation of the overall measurement system from each antenna to the data output device at the highest measurement frequency of the antenna. For rod antennas that use passive matching networks, the evaluation shall be performed at the center frequency of each band. For active rod antennas, the evaluation shall be performed at the lowest frequency of test, at a mid-band frequency, and at the highest frequency of test. RE102 Limit: Figure RE102-1 Limit for surface ship applications topside Frequency (MHz) Limit (dbμv/m) Target Signal Amplitude (dbμv) Signal Generator Setting (dbm) Test Performed By: Program Engineer: Daniel Yttredahl / William Mai Kevin Lawless

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120 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 120 of Qualification Scans Slam Stick X: Normal National Technical Systems RE102 Data Sheet PR#: PR Test Date(s): 10/8/ /10/2014 Client: Test Method: Test Specification: Para./Sect.: Mide Technology Corporation RE102, Radiated Emissions, Electric Field, 10kHz to 18GHz MIL-STD-461F 5.17 Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was placed into the normal operating mode during testing. Version of TILE! Software used for testing: Tile 7! Frequency Range Tested Test Mode or Configuration Limit Level Test Result 10kHz to 18GHz Test Performed By: Program Engineer: Normal Stick(0032) Daniel Yttredahl / William Mai Kevin Lawless Figure RE102-1 Limit for surface ship applications topside Within Limit, Pass

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135 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 135 of Qualification Scans Slam Stick X: Nickel National Technical Systems RE102 Data Sheet PR#: PR Test Date(s): 10/8/ /10/2014 Client: Test Method: Test Specification: Para./Sect.: Mide Technology Corporation RE102, Radiated Emissions, Electric Field, 10kHz to 18GHz MIL-STD-461F 5.17 Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was placed into the normal operating mode during testing. Version of TILE! Software used for testing: Tile 7! Frequency Range Tested Test Mode or Configuration Limit Level Test Result 10kHz to 18GHz Test Performed By: Program Engineer: s p app cat o s tops de Figure RE102-1 Limit for surface Nickel Stick(0033) ship p applications topsidep Daniel Yttredahl / William Mai Kevin Lawless Within Limit, Pass

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150 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 150 of Qualification Scans Slam Stick X: Copper National Technical Systems RE102 Data Sheet PR#: PR Test Date(s): 10/8/ /10/2014 Client: Test Method: Test Specification: Para./Sect.: Mide Technology Corporation RE102, Radiated Emissions, Electric Field, 10kHz to 18GHz MIL-STD-461F 5.17 Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was placed into the normal operating mode during testing. Version of TILE! Software used for testing: Tile 7! Frequency Range Tested Test Mode or Configuration Limit Level Test Result 10kHz to 18GHz Test Performed By: Program Engineer: p pp p Figure RE102-1 Limit for surface Copper Stick(0036) ship p applications topsidep Daniel Yttredahl / William Mai Kevin Lawless Within Limit, Pass

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165 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 165 of Qualification Scans Slam Stick X: Aluminum National Technical Systems RE102 Data Sheet PR#: PR Test Date(s): 10/8/ /10/2014 Client: Test Method: Test Specification: Para./Sect.: Mide Technology Corporation RE102, Radiated Emissions, Electric Field, 10kHz to 18GHz MIL-STD-461F 5.17 Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was placed into the normal operating mode during testing. Version of TILE! Software used for testing: Tile 7! Frequency Range Tested Test Mode or Configuration Limit Level Test Result 10kHz to 18GHz Test Performed By: Program Engineer: Aluminum Stick(0030) Daniel Yttredahl / William Mai Kevin Lawless p pp p Figure RE102-1 Limit for surface ship p applications topsidep Within Limit, Pass

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180 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 180 of RE102 TILE Automation Profile Automation Profile: This automated Test profile has been developed using TILE 4.0. A series of icons specially designed to support emissions testing have been linked together as shown in Figure RE Each chain of icons has been grouped to a certain function or functions to organize and streamline RE102 testing. This profile includes an automated pretest system verification routine, as well as an automated RE102 test routine. The test range of 10 khz 18 GHz has been segregated into smaller sub programs based on the prescribed measurement bandwidths, and prescribed antenna measurement ranges dictated by MIL-STD-461F. Each of the test range parameters have been designed to meet the MIL-STD-461F RE102 test criteria and have been presented as shown in Figure RE102-9 and Figure RE System Verification Profile: This routine has been designed to perform the pretest system verification at the frequencies shown in Section as specified by MIL-STD-461F. In this profile, the signal generator was manually controlled by the operator to produce a signal at an appropriate frequency and test level. The spectrum analyzer was then swept across a small sub range to capture the peak signal observing the identical measurement parameters as in the test routine as shown in Figure RE This measurement was then compared to the test limit minus the measurement transducer factors. Measurement Profile: This routine has been designed to perform the RE102 test measurement in accordance with MIL-STD-461F. All pertinent measurement criteria has been provided below including measurement range, reference level, and resolution & video bandwidth settings. Also number of analyzer sweeps, and sweep times are shown under the parameters element of the emissions icon (measurement bandwidth and sweep time shown below). Synthesized measurement receivers step in ½ bandwidth increments or less, and the measurement dwell time was as specified in the emissions bandwidths and measurement time table of MIL-STD-461F. The parameters element of each emissions icon shows the RF bandwidth as stated by the standard, and the Video bandwidth set to the highest allowable setting of the analyzer. In this case, the setting is 3 MHz. The number of ranges shown in the frequency element of each emissions icon (measurement frequency range shown below) was determined by the data sampling capability of the analyzer or receiver used in data collection. In this case the Agilent E4446A PSA samples over 8000 data points per range. The step size for the Receiver is ½ of the RF bandwidth to meet this requirement. Measurement time was calculated by dividing the measurement span by the bandwidth, then multiplying by the specified dwell time. For example: Start frequency 200 MHz 1 GHz = 800 MHz span, 800 MHz/50 khz = data points (this is greater than the sampling rate of the PSA, therefore 2 ranges are required), data point x 15 ms = 240 seconds of total sweep time

181 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 181 of 261 Figure RE102-9: TILE Automation Profile

182 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 182 of 261 Figure RE102-10: TILE System Verification Profile Figure RE102-11: TILE Measurement Profile

183 NATIONAL TECHN Customer: Mid NTS Test Report ID: TR-PR (LOG ), Revision RE102 Test Equipment Table RE102-1: Detailed List of Test Equipment Used Work Center Legacy ID Manufacturer Description M/N S/N Range WC BX4097 ETS-Lindgren Semi-Anechoic Chamber (2) Chamber 2 N/A Hz, DC-480 VAC, A, Hz WC BX3236 Unknown Data Logger N/A WC BX4371 Agilent Technologies Spectrum Analyzer AT/E4446A MY Hz-44 GHz WC BX2704 Agilent Technologies WC BX0993 Hewlett Packard PSG Analog Signal Generator Synthesizer/Function Generator E8257D MY N/A 3325B 2847A08387 DC-21 MHz WC BX3452 Stanley 16 Tape Measure BX3452 N/A WC BX2599 NTS Cal Fix 461F RE F Verification Box NONE N/A WC BX4391 Unknown RF Cable INCH N/A 18 GHz WC BX4686 Unknown RF Cable TRU N/A 18 GHz, 280 (L) WC BX4171 Storm Products RF Cable GHz WC BX3395 NTS 461F Monopole Stand FIXTURE BX3395 N/A WC BX0875 EMCO Active Monopole Antenna 3301B 4240 N/A WC BX0728 Electro-Metrics Biconilog Antenna N/A WC BX1698 EMCO Large Horn Antenna MHz-2000 MHz WC BX2073 Com-Power Small Horn Antenna AHA N/A NCR: No Calibration Required

184 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 184 of RE102 Correction Factors This section details the Correction Factors for all applicable RE102 test equipment per Section 2.4 of DI-EMCS B requirements Active Monopole Antenna (BX0875)

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216 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 216 of RS101: Radiated Susceptibility, Magnetic Field, 30 Hz to 100 khz RS101 Purpose This test verified the ability of the UUT to withstand radiated magnetic fields RS101 Limits The UUT did not exhibit any malfunction, degradation of performance, or deviation from specified indications beyond the tolerances indicated in the individual equipment or subsystem specification when subjected to the magnetic fields shown in Figure RS Figure RS101-1: Limit for All Navy Applications RS101 Magnetic Flux Density During testing, Magnetic Flux Density = pt/ampere of applied current at a distance of 5 cm from the plane of the loops RS101 Measurement System Check The measurement equipment, radiating loop, and loop sensor were configured per Figure RS The measurement system check was performed prior to testing specified in Section The signal source was set to a frequency of 1 khz. 3. The output was adjusted to provide a magnetic flux density of 110 db above 1 picotesla, as determined by the reading obtained on measurement receiver A. 4. The voltage output from the loop sensor was measured using measurement receiver B. 5. The output on measurement receiver B was within ±3 db of the expected value based on the antenna factor. Figure RS101-4 was supplied with the sensor loops to provide the necessary reference information. Within Figure RS101-4, a typical correction factor curve for the type loop sensor is depicted.

217 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 217 of 261 The current level to produce 110 dbpt at 1.0 khz is 3.0 Amp. An accurately calibrated EMI meter or spectrum analyzer will measure this as 42 db/μv. Adding the correction factor of 68 dbpt/μv from Figure RS101-4 equals 110 dbpt as required by the specification. In those instances where the spectrum analyzer does not have sufficient sensitivity, the measurement system check can be accomplished just as well at a higher current level. For example: Using 300 ma, the measurement would be 82 db. Subtracting 40 db from this answer and adding the 68 db factor will equal 110 dbpt/μv. For a field of 110 dbpt at 1.0 khz, subtract 68 db (see Figure RS101-4) from this to obtain 42 db. This value in db above 1 microvolt on the EMI meter is equal to 126 μv as indicated in RS RS101 Test Procedure The measurement equipment was configured per Figure RS101-3, and as follows: 1. The UUT was turned on and sufficient time was allowed for stabilization. 2. Frequency selection: A. The loop sensor was placed 5 cm from the UUT face or the electrical interface connector being probed. B. The plane of the loop sensor was oriented parallel to the faces of the UUT, and parallel to the axis of the connectors. C. The loop was supplied with sufficient current to produce magnetic field strengths at least 10 db greater than the applicable limit, but not exceeding 15 amps (183 dbpt). D. The frequency range was scanned. Scan rates up to 3 times faster than the rates specified in Table were acceptable. E. For every instance of susceptibility, at least 3 test frequencies per octave were selected. The frequencies selected were those where the maximum indications of susceptibility were present. F. The loop was successively repositioned to a location in each 30 x 30 cm area on each face of the UUT, and at each electrical interface connector as shown in Figure RS G. Steps D and E were repeated to determine locations and frequencies of susceptibility. H. From the total frequency data where susceptibility was noted in steps E-G, 3 frequencies were selected per octave over the frequency range. 3. At each frequency determined in step H, current was applied to the radiated loop that corresponds to the applicable limit. 4. The loop was moved to search for possible locations of susceptibility, with particular attention given to the locations determined in steps F and G. The loop was kept 5 cm from the UUT surface, or connector, during testing. 5. If susceptibility was noted, the threshold level was determined, and it was verified to be above the limit in accordance with Section 4.5. The relationship of the loop sensor to the radiating loop did not change and is represented as shown in Figure RS NTS used 1 spectrum analyzer and 1 oscilloscope for this test. The oscilloscope was used to monitor the current during testing. The spectrum analyzer was used during the calibration. The oscilloscope was used as receiver A. The analyzer was used as receiver B. The oscilloscope was set to read RMS voltage and was set to a 1 M ohm input impedance. The current probe used was 100:1. NTS drives a current at least 10 db greater without exceeding 15 amps according to the following relationship shown in Figure RS Figure RS101-5 is derived from the manufacturer s specification for the RS101 antenna. The following text is a quote from that specification: Drive the RS101 antenna with sufficient current to produce a magnetic flux density 10 db greater than the applicable limit in MIL-STD-461F, but do not exceed 15 A; for example, 183 db(pt). Figure RS101-5 shows the Model 7605 coil current at the RS101 limits. The 3x rate is calculated in accordance to Figure RS The actual calculated time between 30 and 700 Hz is 87 seconds. NTS increases this to 99 seconds in order to remain conservative. There is no need for the operator to verify this value as it is not subject to change.

218 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 218 of 261 Figure RS101-2: Measurement System Check of the Radiating System Figure RS101-3: Basic Test Setup Figure RS101-4: Loop Sensor Correction Factor Figure RS101-5: Current Required to Reach Test Limits National Technical Systems RS101 Scan Rates PR#: PR Test Date(s): 10/10/2014 Client: Mide Technology Corporation Client P.O.#: PO Test Method: Test Specification: MIL-STD-461F Para./Sect.: Start Frequency (Hz) RS101, Radiated Susceptibility, Magnetic Field, 30Hz to 100kHz 5.19 Stop Frequency (Hz) EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The purpose of this sheet is to meet the requirements of MIL-STD-461E Section Frequency scanning. "For susceptibility measurements, the entire frequency range for each applicable test shall be scanned. For swept frequency susceptibility testing, frequency scan rates and frequency step sizes of signal sources shall not exceed the values listed in Table III. The rates and step sizes are specified in terms of a multiplier of the tuned frequency (fo) of the signal source. Analog scans refer to signal sources which are continuously tuned. Stepped scans refer to signal sources which are sequentially tuned to discrete frequencies. Stepped scans shall dwell at each tuned frequency for the greater of 3 seconds or the EUT response time. Scan rates and step sizes shall be decreased when necessary to permit observation of a response." Table III Analog Scan Rates Maximum Scan Rates (percentage of frequency per second) Time needed for logarithmic sweep (Seconds) f/sec f/sec f/sec Test Performed By: Program Engineer: William Mai Kevin Lawless Figure RS101-6: Scan Rates

219 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 219 of RS101 Test Results The UUT complied with the requirements in Section RS101 Test Photographs Test Setup System Verification Setup Spectrum Analyzer Reading

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225 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 225 of Result Form Slam Stick X: Normal National Technical Systems RS101 Data Sheet of Normal EUT (S/N0032) PR#: PR Test Date(s): 10/10/2014 Client: Test Method: Test Specification: Para./Sect.: Mide Technology Corporation RS101, Radiated Susceptibility, Magnetic Field, 30Hz to 100kHz MIL-STD-461F 5.19 Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was monitored for susceptibility during the performance of the test. Test Level: Figure RS101-1 RS101 Limit for all Navy Applications Frequency Range Tested Location Tested Location Description Test Result 30Hz to 100kHz 1 Top Pass 30Hz to 100kHz 2 Rear Pass 30Hz to 100kHz 3 Front Pass 30Hz to 100kHz 4 Bottom Pass 30Hz to 100kHz 5 Left Pass 30Hz to 100kHz 6 Right Pass Test Performed By: William Mai Program Engineer: Kevin Lawless

226 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 226 of Result Form Slam Stick X: Nickel National Technical Systems RS101 Data Sheet Of Nickel Stick (S/N 0033) PR#: Client: Test Method: Test Specification: Para./Sect.: PR Test Date(s): 10/10/2014 Mide Technology Corporation RS101, Radiated Susceptibility, Magnetic Field, 30Hz to 100kHz MIL-STD-461F 5.19 Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was monitored for susceptibility during the performance of the test. Test Level: Figure RS101-1 RS101 Limit for all Navy Applications Frequency Range Tested 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz Location Tested Location Description Top Rear Front Bottom Left Right Test Result Pass Pass Pass Pass Pass Pass Test Performed By: Program Engineer: William Mai Kevin Lawless

227 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 227 of Result Form Slam Stick X: Copper National Technical Systems RS101 Data Sheet Of Copper Coated EUT (S/N 0036) PR#: Client: Test Method: Test Specification: Para./Sect.: PR Test Date(s): 10/10/2014 Mide Technology Corporation RS101, Radiated Susceptibility, Magnetic Field, 30Hz to 100kHz MIL-STD-461F 5.19 Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was monitored for susceptibility during the performance of the test. Test Level: Figure RS101-1 RS101 Limit for all Navy Applications Frequency Range Tested 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz Location Tested Location Description Top Rear Front Bottom Left Right Test Result Pass Pass Pass Pass Pass Pass Test Performed By: Program Engineer: William Mai Kevin Lawless

228 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 228 of Result Form Slam Stick X: Aluminum National Technical Systems RS101 Data Sheet Of Aluminum Coated EUT (S/N 0030) PR#: Client: Test Method: Test Specification: Para./Sect.: PR Test Date(s): 10/10/2014 Mide Technology Corporation RS101, Radiated Susceptibility, Magnetic Field, 30Hz to 100kHz MIL-STD-461F 5.19 Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was monitored for susceptibility during the performance of the test. Test Level: Figure RS101-1 RS101 Limit for all Navy Applications Frequency Range Tested 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz 30Hz to 100kHz Location Tested Location Description Top Rear Front Bottom Left Right Test Result Pass Pass Pass Pass Pass Pass Test Performed By: Program Engineer: William Mai Kevin Lawless

229 NATIONAL TECHN Customer: Mid NTS Test Report ID: TR-PR (LOG ), Revision RS101 Test Equipment Table RS101-1: Detailed List of Test Equipment Used Work Center Legacy ID Manufacturer Description M/N S/N Range WC BX4097 ETS-Lindgren Semi-Anechoic Chamber (2) Chamber 2 N/A Hz, DC-480 VAC, A, Hz WC BX4371 Agilent Technologies Spectrum Analyzer AT/E4446A MY Hz-44 GHz WC BX3480 Unknown Data Logger N/A WC BX0993 Hewlett Packard Synthesizer/Function Generator 3325B 2847A08387 DC-21 MHz WC BX2705 AE Techron Industrial Amplifier KW, DC-50 khz, 150 Vpk, 150 Apk. WC BX3866 Solar Electronics Radiating Loop BX3866 N/A WC BX3001 Solar Electronics Loop Sensor Hz-100 khz WC BX3053 Tektronix WC BX3703 Pearson Electronics Digital Phosphor Oscilloscope Wideband Current Monitor TDS 3032 B MHz, 2.5 GS N/A WC BX4195 Hastings RF Test Cable GHz NCR: No Calibration Required

230 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 230 of RS103: Radiated Susceptibility, Electric Field, 2 MHz to 18 GHz RS103 Purpose This test verifies the ability of the UUT, and their associated cabling, to withstand electric fields RS103 Limits The UUT did not exhibit any malfunction, degradation of performance, or deviation from specified indications beyond the tolerances indicated in the individual equipment or subsystem specification when subjected to the radiated electric fields listed in Figure RS103-1 while the test item is modulated as specified below. Up to 30 MHz, the UUT met the requirement for vertically polarized fields, and above 30 MHz it met the requirement vertically and horizontally. Circular polarized fields were not acceptable. Figure RS103-1: Test Limit for Ships (Non-Metallic, Below Decks) RS103 Test Setup 1. The UUT was setup in accordance with Section For electric field measurement system check, electric field sensors were required from 2 MHz to 1 GHz. Field sensors were used above 1 GHz. 3. The test equipment was configured per Figure RS103-2 and Figure RS The UUT was positioned with its front face display oriented closest to the transmit antenna. The front display was expected to be the most susceptible orientation as all other faces are solid metal construction with the exception of the bottom face which allows cable penetration. The faces tested for RE102 were tested for RS103.

231 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 231 of RS103 Measurement System Check The sensors were positioned 1 m from, and directly opposite, the transmit antenna as shown in Figures RS103-2 through -4, at a minimum of 30 cm above the ground plane. The sensors were not placed directly at the corners or edges of the UUT s components. 1. The measurement system check was performed prior to testing specified in Section The amplitude shown on the electric field sensor display unit due to UUT ambient was recorded. 3. The sensor was repositioned until this level was < 10% of the applicable field strength used for testing RS103 Modulation Verification MIL-STD-461F requires susceptibility test signals for RS103 to be pulse modulated (on/off ratio of 40 db minimum) at a 1 khz rate with a 50% duty cycle. Modulation verification was performed as follows: 1. The modulation verification was performed prior to testing specified in Section The signal generator was connected to a spectrum analyzer with a coax cable. 3. The TILE profile was started and allowed to level. When the generator reached 0dBm, the profile was paused. 4. Operating TILE manually, the RF and the modulation was turned on. 5. The spectrum analyzer was set to the frequency the signal generator was tuned. The spectrum analyzer was set to zero span. The sweep time, RBW, and VBW were adjusted until a square wave was visible on the analyzer. 6. The amplitude scale on the spectrum analyzer was set to linear and the maximum reading in volts using the marker function was recorded. The maximum and the minimum values were recorded. 7. Using delta markers, measure the frequency of the square wave by selecting the "inverse time" marker readout. 8. Adjust the modulation source settings and the TILE profile modulation settings to achieve the desired modulation. 9. The modulation for each signal generator used, and for each modulation used was verified RS103 Test Procedure The boundary included all enclosures of the UUT and the 2 m of exposed interconnecting and power leads required. Interconnecting leads shorter than 2 m were acceptable when they represent the actual platform installation. The transmit antennas were positioned as detailed in Figure RS Testing proceeded as follows: 1. The measurement equipment and UUT were turned on, and sufficient time was allowed for stabilization. 2. E-field sensor procedure: A. The signal source was set to 1 khz pulse modulation, 50% duty cycle. B. Using an appropriate amplifier and transmit antenna, an electric field was established at the test start frequency. C. The electric field level was gradually increased until it reached the applicable limit. D. The required frequency ranges were scanned in accordance with the rates and durations specified in Table The field strength was maintained in accordance with the applicable limit. E. The UUT performance was monitored for susceptibility effects. 3. If susceptibility was noted, the threshold level was determined and it was verified to be above the limit. 4. Testing was performed over the required frequency range with the transmit antenna vertically polarized. 5. Testing above 30 MHz was repeated with the transmit antenna horizontally polarized as well as vertically polarized. 6. Steps 1 5 were repeated for each transmit antenna position. 7. If susceptibility was noted, the threshold level was determined, and it was verified to be above the limit in accordance with Section 4.5.

232 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 232 of 261 RS103 Antenna Positions Below 200MHz PR#: PR Test Date(s): 10/14/2014 Client: Test Method: Test Specification: Para./Sect.: Mide Technology Corporation RS103, Radiated Susceptibility, Electric Field, 2MHz to 40GHz MIL-STD-461F 5.20 Choose the end of the test setup on which the EUT is mounted: Test setup boundary edge to edge distance (centimeters): Number of Lateral Positions Required Position 1 Location (cm from the right edge) Client P.O.#: EUT Nomenclature: EUT Model or Part Number: EUT Serial Number: Position 2 Location (cm from the right edge) PO Slam Stick X LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The purpose of this sheet is to meet the requirements of MIL-STD-461F Section (e). EUT testing. (1) Placement of transmit antennas. Antennas shall be placed 1 meter from the test setup boundary as follows: (a) 2 MHz to 200 MHz 1 Test setup boundaries < 3 meters. Center the antenna between the edges of the test setup boundary. The boundary includes all enclosures of the EUT and the 2 meters of exposed interconnecting and power leads required in Interconnecting leads shorter than 2 meters are acceptable when they represent the actual platform installation. 2 Test setup boundaries > 3 meters. Use multiple antenna positions (N) at spacings as shown in Figure RS The number of antenna positions (N) shall be determined by dividing the edge-to-edge boundary distance (in meters) by 3 and rounding up to an integer. 7.5 Position 3 Location (cm from the right edge) cm Position 4 Location (cm from the right edge) N/A N/A N/A Transmit Antenna Asset Number, Model, and Frequency Range Test Distance (meters) ETS BX GHz Antenna Position 1 Location, cm Measured from the RS103 Antenna Positions Above 200MHz EUT width (cm) on the edge facing the transmit antenna: 7.5 cm Choose the end of the test setup on which the EUT is mounted: EUT Testing 200MHz to 1GHz Most Narrow Beam width (degrees) Antenna Position 2 Location, cm Measured from the Antenna Position 3 Location, cm Measured from the Lateral Antenna coverage (cm) Right Edge of the EUT Right Edge of the EUT Right Edge of the EUT Right Edge of the EUT Right Required Number of Antenna Positions Antenna Position 4 Location, cm Measured from the 21.3 Not Applicable Not Applicable Not Applicable Antenna 1 EUT Testing 1GHz to 2.5GHz Transmit Antenna Asset Number, Model, and Most Narrow Beam Test Distance Lateral Antenna Required Number of Frequency Range width (degrees) (meters) coverage (cm) Antenna Positions Antenna 1 ETS BX GHz Antenna Position 1 Location, Antenna Position 2 Location, Antenna Position 3 Location, Antenna Position 4 Location, cm Transmit cm Measured from the cm Measured from the cm Measured from the Measured from the Antenna Right Edge of the EUT Right Edge of the EUT Right Edge of the EUT Right Edge of the EUT 7.3 Not Applicable Not Applicable Not Applicable Antenna 1 EUT Testing 2.5GHz to 7.5GHz Transmit Antenna Asset Number, Model, and Most Narrow Beam Test Distance Lateral Antenna Required Number of Frequency Range width (degrees) (meters) coverage (cm) Antenna Positions Antenna 1 ETS BX GHz Antenna Position 1 Location, Antenna Position 2 Location, Antenna Position 3 Location, Antenna Position 4 Location, cm Transmit cm Measured from the cm Measured from the cm Measured from the Measured from the Antenna Right Edge of the EUT Right Edge of the EUT Right Edge of the EUT Right Edge of the EUT 7.3 Not Applicable Not Applicable Not Applicable Antenna 1 EUT Testing 7.5GHz to 18GHz Transmit Antenna Asset Number, Model, and Most Narrow Beam Test Distance Lateral Antenna Required Number of Frequency Range width (degrees) (meters) coverage (cm) Antenna Positions Antenna 1 ETS BX GHz Antenna Position 1 Location, Antenna Position 2 Location, Antenna Position 3 Location, Antenna Position 4 Location, cm Transmit cm Measured from the cm Measured from the cm Measured from the Measured from the Antenna Right Edge of the EUT Right Edge of the EUT Right Edge of the EUT Right Edge of the EUT 7.3 Not Applicable Not Applicable Not Applicable Test Performed By: Program Engineer: William Mai/Daniel Yttredahl Kevin Lawless Figure RS103-2: Antenna Positions

233 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 233 of 261 Figure RS103-3: Basic Test Setup Figure RS103-4: Typical Half Power Curve for a 3106 Double Ridged Horn Antenna 200 MHz-2 GHz Figure RS103-5: Typical Half Power Curve for a 3115 Doubled Ridged Horn Antenna 1 GHz 18 GHz RS103 Test Results The UUT complied with the requirements in Section 2.0. Figure RS103-6: RS103 Half Beamwidth Coverage

234 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 234 of RS103 Test Photographs Slam Stick X: Normal 2 MHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 200 MHz, Horizontal 30 MHz to 200 MHz, Vertical 200 MHz to 1000 MHz, Horizontal 200 MHz to 1000 MHz, Vertical

235 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 235 of GHz to 18 GHz, Horizontal 1 GHz to 18 GHz, Vertical Slam Stick X: Nickel 2 MHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 200 MHz, Horizontal 30 MHz to 200 MHz, Vertical

236 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 236 of MHz to 1000 MHz, Horizontal 200 MHz to 1000 MHz, Vertical 1 GHz to 18 GHz, Horizontal 1 GHz to 18 GHz, Vertical Slam Stick X: Copper 2 MHz to 10 MHz 10 MHz to 30 MHz

237 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 237 of MHz to 200 MHz, Horizontal 30 MHz to 200 MHz, Vertical 200 MHz to 1000 MHz, Horizontal 200 MHz to 1000 MHz, Vertical 1 GHz to 18 GHz, Horizontal 1 GHz to 18 GHz, Vertical

238 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 238 of Slam Stick X: Aluminum 2 MHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 200 MHz, Horizontal 30 MHz to 200 MHz, Vertical 200 MHz to 1000 MHz, Horizontal 200 MHz to 1000 MHz, Vertical

239 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 239 of GHz to 18 GHz, Horizontal 1 GHz to 18 GHz, Vertical

240 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 240 of RS103 Test Data Modulation Verification Equipment Setup 1 khz Vmax Vmin

241 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 241 of 261 National Technical Systems RS103 Field Probe Correction Factor for Modulation PR#: PR Test Date(s): 10/14/2014 Client: Mide Technology Corporation Client P.O.#: PO Test Method: RS103, Radiated Susceptibility, Electric Field, 2MHz to 40GHz EUT Nomenclature: Slam Stick X Test Specification: Para./Sect.: MIL-STD-461F 5.20 Field Probe Asset Number and Model Number EUT Model or Part Number: EUT Serial Number: Frequency Under test (MHz) LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The purpose of this sheet is to meet the requirements of MIL-STD-461F Section c "Provide the correction factors necessary to adjust sensor output readings for equivalent peak detection of modulated waveforms." The correction factor is equal to the CW RF signal reading divided by the Modulated RF signal reading. Modulation Used CW Reading (V/m) Modulated Reading (V/m) Correction Factor (multiplier) BX4705 HI6022 1kHz PM, 50% duty cycle BX3052 HI kHz PM, 50% duty cycle BX3052 HI kHz PM, 50% duty cycle BX3052 HI kHz PM, 50% duty cycle BX3052 HI kHz PM, 50% duty cycle BX3052 HI kHz PM, 50% duty cycle BX3052 HI kHz PM, 50% duty cycle Test Performed By: Program Engineer: William Mai/Daniel Yttredahl Kevin Lawless

242 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 242 of Result Form Slam Stick X: Normal National Technical Systems RS103 Data Sheet- 0032(Normal) PR#: PR Test Date(s): 10/14/2014 Client: Mide Technology Corporation Client P.O.#: PO Test Method: RS103, Radiated Susceptibility, Electric Field, 2MHz to 40GHz EUT Nomenclature: Slam Stick X Test Specification: Para./Sect.: MIL-STD-461F 5.20 EUT Model or Part Number: EUT Serial Number: LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was monitored for susceptibility during the performance of the test. The test was performed according to the step rates defined in Table III of MIL-STD-461F, utilizing 3 second dwell time at each frequency. Version of TILE! Software used for testing: N/A Frequency Range (MHz) Antenna Polarization Modulation Used Field Strength (V/m) Test Results Vertical 1kHz PM, 50% duty cycle 200 Pass Observations Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Test Performed By: Program Engineer: William Mai/Daniel Yttredahl Kevin Lawless

243 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 243 of Result Form Slam Stick X: Nickel National Technical Systems RS103 Data Sheet-0033(Nickel) PR#: PR Test Date(s): 10/14/2014 Client: Mide Technology Corporation Client P.O.#: PO Test Method: RS103, Radiated Susceptibility, Electric Field, 2MHz to 40GHz EUT Nomenclature: Slam Stick X Test Specification: Para./Sect.: MIL-STD-461F 5.20 EUT Model or Part Number: EUT Serial Number: LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was monitored for susceptibility during the performance of the test. The test was performed according to the step rates defined in Table III of MIL-STD-461F, utilizing 3 second dwell time at each frequency. Version of TILE! Software used for testing: N/A Frequency Range (MHz) Antenna Polarization Modulation Used Field Strength (V/m) Test Results Vertical 1kHz PM, 50% duty cycle 200 Pass Observations Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Test Performed By: Program Engineer: William Mai/Daniel Yttredahl Kevin Lawless

244 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 244 of Result Form Slam Stick X: Copper National Technical Systems RS103 Data Sheet- 0036(Copper) PR#: PR Test Date(s): 10/14/2014 Client: Mide Technology Corporation Client P.O.#: PO Test Method: RS103, Radiated Susceptibility, Electric Field, 2MHz to 40GHz EUT Nomenclature: Slam Stick X Test Specification: Para./Sect.: MIL-STD-461F 5.20 EUT Model or Part Number: EUT Serial Number: LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was monitored for susceptibility during the performance of the test. The test was performed according to the step rates defined in Table III of MIL-STD-461F, utilizing 3 second dwell time at each frequency. Version of TILE! Software used for testing: N/A Frequency Range (MHz) Antenna Polarization Modulation Used Field Strength (V/m) Test Results Vertical 1kHz PM, 50% duty cycle 200 Pass Observations Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Test Performed By: Program Engineer: William Mai/Daniel Yttredahl Kevin Lawless

245 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 245 of Result Form Slam Stick X: Aluminum National Technical Systems RS103 Data Sheet- 0036(Copper) PR#: PR Test Date(s): 10/14/2014 Client: Mide Technology Corporation Client P.O.#: PO Test Method: RS103, Radiated Susceptibility, Electric Field, 2MHz to 40GHz EUT Nomenclature: Slam Stick X Test Specification: Para./Sect.: MIL-STD-461F 5.20 EUT Model or Part Number: EUT Serial Number: LOG G(All Four units) 0033(Nickel), 0036(Copper), 0032(Normal), 0030(Aluminum) Remarks: The EUT was monitored for susceptibility during the performance of the test. The test was performed according to the step rates defined in Table III of MIL-STD-461F, utilizing 3 second dwell time at each frequency. Version of TILE! Software used for testing: N/A Frequency Range (MHz) Antenna Polarization Modulation Used Field Strength (V/m) Test Results Vertical 1kHz PM, 50% duty cycle 200 Pass Observations Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Horizontal 1kHz PM, 50% duty cycle 200 Pass Vertical 1kHz PM, 50% duty cycle 200 Pass Test Performed By: Program Engineer: William Mai/Daniel Yttredahl Kevin Lawless

246 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 246 of RS103 TILE TILE Automation Profile: This RS103 Automated Test profile has been developed using TILE 4.0. A series of icons specially designed to support susceptibility testing have been linked together as shown in Figure RS Each chain of icons has been grouped to a certain function or functions to organize and streamline RS103 testing. Each test range performed from 2 MHz 18 GHz has been segregated into smaller sub programs based on the prescribed sweep and step rates dictated by MIL-STD-461F, and to align with the usable test ranges of the transmit antennas and amplifiers. Each of the test range parameters have been designed to meet the MIL-STD-461F RS103 test criteria and have been presented as shown in Figure RS103-9 thru Figure RS TILE Profile: The RS103 TILE profile has been designed to automate the application of stepping discretely tuned frequencies across each of the test ranges from 2 MHz 18 GHz. The step rate and dwell time as described by MIL- STD-461F are programmed under the process element of the immunity icon (Dwell time per tuned frequency shown below). Each of the test frequency bands define the frequency range under the Frequency element of the immunity icon (Frequency range and step size shown below). The 1 khz pulse modulation with a 50% duty cycle is applied under the Pulse modulation element of each immunity icon as well. The signal is increased to the specified test level provided under the Primary amplifier element (test limit shown below), while maintaining the leveling parameters defined under the leveling element (Automated leveling settings shown below). The electric field sensor measures this applied field from the transmitter and sends its responses back to TILE. These values are corrected automatically with the probes calibration data provided under the Probe Cal Element (E-field probe calibration data shown below). This process is repeated for each test range from 2 MHz to 18 GHz.

247 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 247 of 261 Figure RS103-7: TILE Automation Profile

248 NTS Test Report ID: TR-PR (LOG ), Revision 0 Page 248 of MHz 30 MHz 30 MHz 200 MHz 200 MHz 1000 MHz 1 GHz 2.5 GHz 2.5 GHz 7.5 GHz 7.5 GHz 18 GHz Figure RS103-8: TILE Profile