Electromagnetic Compatibility Test Report

Electromagnetic Compatibility Test Report Test Report No: SLR 020714 Issued on: July 02, 2014 Product Name HummingBoard (With AC/DC Adaptor FJ-SW0503000E) Tested According to EN 55024: 2010, 55022:2010:2011 AS/NZS CISPR 22: 2009+A1:2010 Tests Performed for Solid-run 3 Plane, Tafen Tower 24959 Tel: +972-4-0009444 QualiTech EMC Laboratory 30 Hasivim Street,P.O.Box 7500 Petah-Tikva, 4951169, Israel Tel: +972-3-926 8443 Fax: +972-3-928 7490

The information contained herein is the property of QualiTech, EMC Lab and is supplied without liability for errors or omissions. The copyright for this document vests in QualiTech, EMC Lab. All rights reserved. This Test Report may not be reproduced, by any method, without the written permission of the QualiTech, EMC Lab. If and when such permission is granted, the report must be reproduced only in the full format. Test Personnel Tests Performed By: ---------------------------------------- Michael Shtier Report Prepared By: ------------------------------------- Bina Talkar Report Approved By: ------------------------------------- Rami Nataf EMC Lab. Manager QualiTech EMC Laboratory Solid-run Page 2 of 59 Humming Board

Test Report Details: Test commencement date: 01.05.2014 Test completion date: 07.05.2014 Customer s Representative: Kossay Omary Issued on: 02.07.2014 Assessment Information: This report contains an assessment of the EUT against Electromagnetic Compatibility based upon tests carried out on the samples submitted. The results contained in this report relate only to the items tested. Manufactured products will not necessarily give identical results due to production and measurement tolerances. QualiTech, EMC Lab does not assume responsibility for any conclusion and generalization drawn from the test results with regards to other specimens or samples of type of the equipment represented by test item. The EUT was setup and exercised using the configuration, modes of operation and arrangements defined in this report only. Modifications: Modifications made to the EUT None Modifications made to the Test Standard None Solid-run Page 3 of 59 Humming Board

Summary of Compliance Status The EUT was tested according to the following test methods. Test results are given in full in sections 3 12. Emission Tests Test type Test Method Class applied Frequency Range Test results Radiated Emission EN55022 B 30MHz 1GHz Comply EN55022 B 1GHz 6GHz Comply Conducted Emission on 230 VAC EN55022 B 150kHz 30MHz Comply Conducted Emission on Ethernet EN55022 B 150kHz 30MHz Comply Harmonic current emission EN 61000-3-2-50Hz to harmonic order 40 Comply Voltage Fluctuations & flicker EN 61000-3-3-50Hz Comply Immunity Tests Test type Applied on Test Method Frequency Range/ application type Test level Performance Criteria applied Test results ESD Enclosure EN61000-4-2 Contact 4kV B Comply Air 8kV B Comply 80 MHz 800MHz 3V/m A Comply 800MHz 960MHz 10V/m A Comply Radiated Immunity System EN61000-4-3 960 MHz 1GHz 3V/m A Comply 1.4GHz 2GHz 10V/m A Comply 2GHz 2.7GHz 3V/m A Comply EFT 230 VAC - 1kV A Comply EN61000-4-4 Ethernet - 0.5kV A Comply Line to Line 1kV A Comply 230 VAC EN61000-4-5 Surge Line to Earth Not applicable (No GND) Ethernet EN61000-4-5 Not applicable (cable length less than 10m) Conducted Immunity 230 VAC 150kHz 80MHz 3Vrms A Comply EN61000-4-6 Ethernet 150kHz 80MHz 3Vrms A Comply Voltage dips and short interruptions 230 VAC EN61000-4-11 50 Hz 100%,60%,30% B & C Comply Solid-run Page 4 of 59 Humming Board

Table of Contents 1. GENERAL... 6 1.1. Purpose:... 6 1.2. Referenced documents:... 6 1.3. Description of the EUT system:... 7 1.3.1. General Description:... 7 1.3.2. EUT Configuration:... 7 1.3.3. EUT Cards/Modules List:... 8 1.3.4. Cables Identification:... 8 1.3.5. Clock Frequencies Table:... 8 1.3.6. Method of Performance verification:... 9 1.3.7. EUT Pass/Fail criteria for immunity tests:... 9 2. TEST FACILITY & UNCERTAINTY OF MEASUREMENT... 10 2.1. Accreditation/ Registration reference:... 10 2.2. Test Facility description... 10 2.1. Uncertainty of Measurement:... 11 3. ELECTRIC FIELD EMISSION MEASUREMENTS... 12 4. CONDUCTED EMISSION MEASUREMENTS... 20 5. IMMUNITY TO ELECTROSTATIC DISCHARGE... 29 6. IMMUNITY TO RADIATED ELECTROMAGNETIC FIELD... 33 7. IMMUNITY TO ELECTRICAL FAST TRANSIENTS (EFT)... 37 8. IMMUNITY TO VOLTAGE SURGE... 42 9. IMMUNITY TO CONDUCTED RF STRESS... 45 10. IMMUNITY TO VOLTAGE DIPS, SHORT INTERRUPTIONS & VOLTAGE VARIATIONS... 49 11. HARMONIC CURRENT EMISSION MEASUREMENTS... 51 12. VOLTAGE FLUCTUATIONS AND FLICKER MEASUREMENTS... 54 13. APPENDIX... 56 Solid-run Page 5 of 59 Humming Board

1. General 1.1. Purpose: The purpose of this report is to show compliance to Electromagnetic Emission and Immunity requirements outlined in the referenced specifications. This report serves as the basis for the Declaration of Conformity. 1.2. Referenced documents: Note: Latest versions of the following standards were applied according to the Official Journal: EN 55022 EN 55024 ANSI C63.4 CISPR 22: AS/NZS CISPR 22 EN 61000-4-2 EN 61000-4-3 EN 61000-4-4 EN 61000-4-5 EN 61000-4-6 EN 61000-3-2 EN 61000-4-11 EN 61000-3-3 Limits and methods of measurement for Conducted and Radiated Emissions of information technology equipment Immunity characteristics-limits and methods of measurements American National standard for Methods of measurement of Radio-Noise Emissions from Low- Voltage Electrical and Electronic Equipment in the range of 9kHz to 40GHz Information Technology Equipment Radio disturbance characteristics - Limits and Methods of Measurement. Electrostatic Discharge (ESD) Immunity test Electro magnetic compatibility (EMC), Section 3: Radiated, radio frequency, electromagnetic field immunity IEC test Electro magnetic compatibility (EMC), Section 4: Electrical fast transient/burst immunity test Electromagnetic compatibility (EMC), Section 5: Surge immunity test Electromagnetic compatibility (EMC), Section 6: Immunity to conducted disturbances, induced by radio- frequency fields Limits for Harmonic Current Emission for equipment with rated current up to and including 16A per phase Voltage Dips, short Interruptions and Voltage Variations Immunity Tests Limits for Voltage Fluctuations and Flicker in low-voltage IEC supply for equipment with rated current up to and including 16A Solid-run Page 6 of 59 Humming Board

1.3. Description of the EUT system: General description of the EUT, configuration used for Emission and Immunity testing, and the method of performance verification were defined by the manufacturer. The acceptance performance criterion was declared by the manufacturer. 1.3.1. General Description: The HummingBoard is a credit card sized board computer servicing targeting DIY (Do It Yourself) customers and OEM business customers who embed the HummingBoard in their own products. The HummingBoard connects to a TV via its HDMI output; it connects to the internet via a wired Ethernet; has Two USB-2.0 host interfaces, an analog audio connector and an SPDIF output for connection to a home theater system, infra-red receiver and msata connection for local sata storage. 1.3.2. EUT Configuration: EUT Configuration for Emissions & Immunity Testing: Solid-run Page 7 of 59 Humming Board

1.3.3. EUT Cards/Modules List: No Hardware Component Manufacturer s Catalog Number Serial Number Hardware Revision Quantity 1 SR-uSOM-MX6 Internal module N/A 1.3 1 2 CARRIER ONE Board Internal module N/A 3.3 1 1.3.4. Cables Identification: Port/Cable Name @ EUT Type UTP/STP/Multipairs Coaxial shielded Environment class indoor /outdoor Nominal length [m] Tested Length [m] # of ports/boards available # of ports/ boards connected Tested cable/ port connection From Tested cable/port connection To DC Power Unshielded Indoor 1.5 1.5 1 1 AC/DC power adapter AC mains HDMI Shielded Indoor 1.5 1.5 1 1 EUT Monitor Ethernet Shielded Indoor >3 2 1 1 EUT Ethernet Switch USB-2.0 Unshielded Indoor 1.5 1.5 1 1 EUT Keyboard USB-2.0 Unshielded Indoor 1.5 1.5 1 1 EUT Mouse 1.3.5. Clock Frequencies Table: Frequency [MHz] SR-uSOM-MX6 CARRIER ONE Board SR-uSOM-MX6 Location Internal module Internal module Internal module Solid-run Page 8 of 59 Humming Board

1.3.6. Method of Performance verification: During the test, the EUT was connected to an Ethernet switch and was monitoring Ethernet link status. The EUT was connected to Keyboard and Mouse via USB and was monitoring status. In addition the EUT was refreshing the display continuously to guarantee proper display and report observed failures 1.3.7. EUT Pass/Fail criteria for immunity tests: General performance criteria: Performance Criterion A: The EUT shall continue to operate as intended. No degradation of performance or loss of functionality is allowed below a performance level specified by the manufacturer. Normal Performance for criteria A is specified as: - EUT must maintain network connectivity. - No USB or Keyboard functionality abruptions - No interference in the display. Performance Criterion B: The EUT shall continue to operate as intended after the test. No degradation of performance or loss of functionality is allowed below a performance level specified by the manufacturer. During the exposure to electromagnetic phenomenon, degradation of performance is, however allowed. No change of actual operation state or stored data is allowed. Minimum performance level for criteria B is specified as: - Momentary loss of network connection acceptable - Momentary loss of USB Keybord or Mouse connection acceptable - Momentary loss of display visibility is acceptable. Performance Criterion C: Temporary loss of functionality is allowed provided the function is self- recoverable or can be restored by the operation of the controls. Performance Criterion R: The equipment shall withstand the test without damage or other disturbance (such as corruption of software or disoperation of fault protection facilities) and shall operate properly within specified limits after the transient electromagnetic stress has ceased. It is not necessary to operate properly while the test condition is present. The exposure may cause the operation of fuses or other specified devices, which have to be replaced or reset before normal operation is restored. Solid-run Page 9 of 59 Humming Board

2. Test Facility & Uncertainty of Measurement 2.1. Accreditation/ Registration reference: - A2LA Certificate Number: 1633.01 2.2. Test Facility description The tests were performed at the EMC Laboratory, QualiTech Division, ECI Telecom Address: 30, Hasivim Street, Petah Tikva, Israel. Tel: 972-3-926-6994 3m Anechoic Chamber: Two 3m-screened chambers are used in two configurations: the semi-anechoic chamber for Radiated Emission measurements and the full-anechoic chamber for Radiated Immunity tests. Semi Anechoic Configuration: Measurement distance 3m Chamber dimensions 9.5m x 6.5m x 5.2m Antenna height Shielding Effectiveness Absorbing material Normalized Site Attenuation measured at 5 positions Transmission Loss measured at 5 positions, at 1.5m height Full-Anechoic Configuration: Measurement distance Chamber dimensions Antenna height Shielding Effectiveness Absorbing material Field Uniformity to EN61000-4-3 1-4m Magnetic field 80dB at 15 khz 90dB at 100 khz Electric field 120dB from 1MHz to 1GHz 110dB from 1GHz to 10GHz Ferrite tiles on the walls and ceiling Emerson and Cuming absorbing material in selected positions on the walls 3.9dB, 30MHz to 200MHz 3dB, 200MHz to 1000MHz 3dB, 1GHz to 18GHz 3m 7m x 4m x 3m 1.55m at Horizontal & Vertical polarizations Magnetic field 80dB at 15 khz 90dB at 100 khz Electric field 120dB from 1MHz to 1GHz 110dB from 1GHz to 10GHz Ferrite tiles on the walls and ceiling Emerson and Cuming absorbing material in selected positions on the walls and floor 3dB 80MHz to 18GHz Solid-run Page 10 of 59 Humming Board

2.1. Uncertainty of Measurement: The data and results referenced in this document are true and accurate. The reader is cautioned that there may be errors within the calibration limits of the equipment and facilities. The measurement uncertainty was calculated for all measurements listed in this test report according to CISPR 16-4-2 Specification for radio disturbance and immunity measuring apparatus and methods Part 4-2: Uncertainties, statistics and limit modelling Uncertainty in EMC measurements. Furthermore, component and process variability of devices similar to that tested may result in additional deviation. The manufacturer has the sole responsibility of continued compliance of the device. Test Name Range Expanded U lab Uncertainty U CISPR Uncertainty 30MHz 200MHz, Horiz. Polar. ± 4.77 db ±5.06 30MHz 200MHz, Ver. Polar. ± 4.90 db ±5.17 Radiated Emission 200MHz 1000MHz, Horiz. Polar. ± 4.96 db ±5.34 200MHz 1000MHz, Vert. Polar. ± 6.15 db ±6.32 1.0GHz -6.0GHz ± 4.33 db ±5.18 6.0GHz-18.0GHz ± 4.75 db ±5.48 Conducted Emission 9 khz 150 khz ± 3.47 db ±3.83 150 khz 30MHz ± 3.18 db ±3.44 Note: QualiTech EMC labs expanded measurement instrumentation has less uncertainty than the industry norm and compliance is deemed to occur as no measured disturbance exceeds the disturbance limit. Note: The reported expanded uncertainty is based on a standard uncertainty multiplied by a coverage factor of k=2, providing a level of confidence of approximately 95%. Solid-run Page 11 of 59 Humming Board

3. Electric Field Emission Measurements Date of Test: 11.05.2014 Relative Humidity: 48.2% Ambient Temperature: 23.2 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN55022 Limits: 30MHz to 1GHz frequency range: Frequency [MHz] QP Limit [db V /m] [Class A] QP Limit [db V /m] [Class B] 30 230 50 40 230 1000 57 47 Above 1GHz frequency range: Frequency [MHz] Class A Class B AVR Limit [db V m] Peak Limit [db V /m] AVR Limit [db V m] Peak Limit [db V /m] 1000 3000 56 76 50 70 3000 6000 60 80 54 74 Test Procedure: Measurements were performed at a 3-meter measurement distance in the semi-anechoic chamber in order to evaluate the radiated electromagnetic interference characteristics of the EUT. The EUT was placed on a non-metallic table, 0.8m above the turntable, was configured, arranged and operated in a manner consistent with typical application and load conditions. The test program of exercising the equipment ensured that various parts of the EUT were exercised to permit detection of all EUT disturbances. An appropriate antenna depending upon the frequency range was used. While the turntable was being rotated, the height of the antenna was varied from 1 to 4m for the frequency range of 30MHz to 1GHz, and was fixed at a height of 1m for frequencies above 1GHz. The highest radiated emission was detected by manipulating the system cables to the worst-case position. This process was repeated for both antenna polarizations. The amplitudes of worst-case emission were measured with the QP detector or Peak detector according to the frequency range, using resolution-bandwidth per CISPR16-1. List of Test Equipment: Refer to Appendix A for calibration dates. Semi Anechoic Chamber, 9.5m [L] x 6.5m [W] x 5.2m [H] HP8546A, CISPR16 EMI Receiver HP8593EM EMC Analyzer Teseq CBL 6141B, Billog Antenna A.R.A,DRG-118/A, Double Ridge Guide Horn antenna Pre-Amplifier, MiTeq MF-50-5D-010180-30-10P-6W Solid-run Page 12 of 59 Humming Board

Test Details: Interference Frequency Range Measurement Means Test Setup No. Photograph No. Plot Nos. Electric Field 30MHz 6GHz Bilog & Double Ridge Guide Horn antenna Fig.3.1 & Fig.3.2 Photo.3 3.1-3.6 Test Results: Table 3.1: Frequency range 30MHz 1GHz Frequency [MHz] Ant. Type Ant. Pol. Ant. Pos. [cm] Turn-table Azimuth [ ] Radiated Emission db( V/m) Limit at 3m db( V/m) Margin [db] Pass/ Fail 32.513425 Bilog V 100 253 37.9 40-2.1 Pass 125.000000 Bilog V 101 225 39.7 40-0.3 Pass 346.483075 Bilog V 100 214 30.0 47-17 Pass 359.959334 Bilog V 101 228 29.8 47-17.2 Pass 374.976363 Bilog H 100 267 46.7 47-0.3 Pass 999.915000 Bilog H 100 54 45.2 47-1.8 Pass Note: Radiated Emission [db V/m] = measured [db V] + Correction-factor [db(1/m)] Correction Factor = Antenna factor + Cable Loss Table 3.2: Frequency range 1GHz 6GHz Frequency [MHz] Ant. Type Ant. Pol. Ant. Pos. [cm] Turn-table Azimuth [ ] Radiated Emission db( V/m) Limit at 3m db( V/m) Margin [db] Pass/ Fail All Average readings at least 10 db below the limit Pass Note: Radiated Emission [db V/m] = measured [db V] + Correction-factor [db(1/m)] Correction Factor = Antenna factor + Cable Loss-Gain Summary: Frequency Range Test method reference Class Limits applied Test Results Pass/ Fail 30MHz 1GHz EN55022, Sec. 8 & 10 B Tab. 3.1 Pass 1GHz 6GHz ANSI C63.4-1993 B Tab. 3.2 Pass Solid-run Page 13 of 59 Humming Board

Plot 3.1: Horizontal Polarization, 30MHz-1GHz Plot 3.2: Vertical Polarization, 30MHz-1GHz Solid-run Page 14 of 59 Humming Board

Plot 3.3: Horizontal Polarization, 1GHz-2.9GHz Plot 3.4: Vertical Polarization, 1GHz-2.9GHz Solid-run Page 15 of 59 Humming Board

Plot 3.5: Horizontal Polarization, 2.9GHz-6GHz Plot 3.6: Vertical Polarization, 2.9GHz-6GHz Solid-run Page 16 of 59 Humming Board

Figure 3.1: Setup for Radiated Emission Testing - 30MHz 1GHz Frequency Range Semi-Anechoic Chamber 9.5m x6.5 m x5.2 m Antenna Mast 1-4m Antenna Biconical/LogPeriodic EUT Turntable EMI Receiver 3m TV Camera Antenna Mast & Turntable Controller Deisel F/O F/O EUT Monitoring Operation Control TV Camera Control ANSI/IEEE488 Solid-run Page 17 of 59 Humming Board

Figure 3.2: Setup for Radiated Emission Testing 1GHz 6GHz Frequency Range Semi-Anechoic Chamber 9.5m x 6.5m x 5.2m Pre-Amplifier EMC Analyzer Antenna Double Ridge Guide EUT Turntable 3m TV Camera Antenna Mast & Turntable Controller Deisel F/O EUT Monitoring Operation Control TV Camera Control ANSI/IEEE 488 Solid-run Page 18 of 59 Humming Board

Photograph 3.1: Radiated Emission Testing Photograph 3.2: Radiated Emission Testing Solid-run Page 19 of 59 Humming Board

4. Conducted Emission Measurements Date of Test: 01.05.2014 Relative Humidity: 48.2% Ambient Temperature: 23.5 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN55022 Limits: Power Supply Port: Class B Frequency [MHz] QP Limits [db V] Average 0.15 0.5 66 to 56 56 to 46 0.5 5 56 46 5 30 60 50 Telecommunication ports and Signal Lines: Class B Frequency [MHz] Voltage Limits [db V] Current Limits [db A] QP Average QP Average 0.15 0.5 84 to 74 74 to 64 40 to 30 30 to 20 0. 5 30 74 64 30 20 Test Procedure: The measurements were performed on the line under test in a 4m x 3m x 3m screened enclosure by means of an Impedance Stabilization Network (ISN) bonded to the ground plane and connected to the spectrum analyzer. The EUT was placed on a non-metallic table, 0.8m above the ground reference plane and was configured, arranged and operated in a manner consistent with typical application and load conditions. Normal performance of the EUT was verified. Conducted common mode (asymmetric mode) disturbance at the tested port was investigated in the appropriate frequency range using the resolution-bandwidth per CISPR16-1, Table 7, and QP and Average readings were taken. Worst-case results were recorded. List of Test Equipment: Refer to Appendix A for calibration dates. Screened Enclosure 4m x 3m x 3m HP8546A, CISPR16 EMI Analyzer HP11947A, Transient Limiter Fischer 50/250-25-2, LISN Fischer,Universal Telecom, ISN F-071115-1057-1 Fischer F35A Current Probe Fischer F-203 I-32 EM Clamp Solid-run Page 20 of 59 Humming Board

Test Details: Port under Test Measured at Test method reference Test Setup No. Photograph No. Plot Nos. 230 VAC AC line Sec. 9. 2 & 9.5 Fig. 4.1 Photo. 4.1 4.1-4.2 Ethernet Ethernet port Sec. 9.6.3.4 & C1.2 Fig. 4.2 Photo. 4.2 4.3 Test Results: Table 4.1: Power Supply port: Phase Lead Frequency [MHz] Measured Result [db V] Limit [db V] Margin [db] QP AVR QP AVR QP AVR Pass/Fail 0.69584 43 28.6 56.00 46.00-13.00-17.40 Pass 182443 47.5 26.8 60.00 50.00-12.50-23.20 Pass 0.297844 41.2 25.4 60.30 50.30-19.10-24.90 Pass 3.482383 40.9 34.5 56.00 46.00-15.10-11.50 Pass 1.016621 35 39.7 56.00 46.00-21.00-6.30 Pass 24.19 39.7 29.4 60.00 50.00-20.30-20.60 Pass Neutral Lead Frequency [MHz] Measured Result [db V] Limit [db V] Margin [db] QP AVR QP AVR QP AVR Pass/Fail 0.706015 43.4 29 56.00 46.00-12.60-17.00 Pass 0.19324 46.7 28.4 63.90 53.90-17.20-25.50 Pass 0.462129 38.9 24.7 56.65 46.65-17.75-21.95 Pass 3.48184 37.5 30.7 56.00 46.00-18.50-15.30 Pass 2.187331 32.8 21.5 56.00 46.00-23.20-24.50 Pass 24.37 34.5 25 60.00 50.00-25.50-25.00 Pass Solid-run Page 21 of 59 Humming Board

Table 4.2: Current measurement results - Ethernet Frequency [MHz] Measured Result [db A] Limit [db A] Margin [db] QP AVR QP AVR QP AVR Pass/Fail 0.196082 17.3 14.4 37.77 27.77-20.47-13.37 Pass 0.526253 11.1 10.4 30.00 20.00-18.90-9.60 Pass 0.720151 10.2-1.1 30.00 20.00-19.80-21.10 Pass 5.714045 12.9 9 30.00 20.00-17.10-11.00 Pass 2.759648 9.3 6.2 30.00 20.00-20.70-13.80 Pass 4.469 12.2 8.7 30.00 20.00-17.80-11.30 Pass Summary: Port under Test Measurement Means Class Limits applied Frequency Range Test Results Pass/ Fail 230 VAC LISN B 150kHz 30MHz Tab. 4.1 Pass Ethernet Current Probe B 150kHz 30MHz Tab. 4.2 Pass Solid-run Page 22 of 59 Humming Board

Plot 4.1: Power Supply Ports, 150kHz 30MHz, Phase Lead Plot 4.2: Power Supply Ports, 150kHz 30MHz, Neutral Lead Solid-run Page 23 of 59 Humming Board

Plot 4.3: 150kHz 30MHz, Ethernet, Solid-run Page 24 of 59 Humming Board

Figure 4.1: Setup for Conducted Emission Testing on AC Power Supply Port Screened Enclosure LISN AC /DC Supply EUT 40cm min to the wall 220VAC P N 50 Termination bonded to Ground Plane 80cm 80cm cable length 1m non-metallic table EMI Receiver metal floor3 mx4m Operation Control ANSI/IEEE488 HP E7515A S/W Solid-run Page 25 of 59 Humming Board

Figure 4.2: Setup for Conducted Emission Testing on Ethernet Screened Enclosure 40cm min to the wall Ferrites Current Probe 10cm EUT screen 150ohm 10cm non-metallic table 40cm 50cm metal floor3 mx4m to AE, or cables looped back EMI Receiver 10cm insulation support Operation Control ANSI/IEEE488 Solid-run Page 26 of 59 Humming Board

Photograph 4.1: Conducted Emission testing on AC Power Supply Port Solid-run Page 27 of 59 Humming Board

Photograph 4.2: Conducted Emission testing on Ethernet Solid-run Page 28 of 59 Humming Board

5. Immunity to Electrostatic Discharge Date of Test: 01.05.2014 Relative Humidity: 48.1% Ambient Temperature: 23.4 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN61000-4-2 according to EN 55024 Test Voltage: Type of Application Test Voltage # of Discharges each polarity Performance Criteria Contact Discharge 4 kv 25 B Air Discharge 8 kv 10 B Test Procedure: Electrostatic Discharge tests were performed on a ground reference plane 3m x 3m wide. The EUT was placed on a wooden table 0.8m high, standing on the ground reference plane. A horizontal coupling plane (HCP), 1.6m x 0.8m, was placed on the table underneath the EUT, and the EUT was isolated from the coupling plane by an insulating support 0.5mm thick. The HCP was connected to the ground reference plane by a bleed resistor lead. The EUT was placed on the HCP with its front face 10cm from the edge of the plane, and configured, arranged and operated in a manner consistent with typical application and load conditions. The cables were taken away from the test area separated from the HCP by 5cm and draped off the HCP as necessary. Normal performance of the EUT was verified. Direct and air application: For pre-selected points, 10 single Contact discharges in both positive and negative polarities, were applied with at least 1sec time interval between successive discharges. Discharges were applied to surfaces and metal points which are accessible during normal usage. Inside the EUT, only the points and surfaces, which have to be accessed during maintenance, were included. The same procedure was repeated for air discharges on non- metallic parts or insulating surfaces. Indirect application: Ten single discharges, in both positive and negative polarities, were applied to the HCP on each side of the EUT. The same procedure was repeated with the vertical coupling plane VCP (connected to the ground reference plane by a bleed resistor lead) on each side of the EUT such that the face of the EUT was completely illuminated. For air discharges, voltage levels were increased gradually from 2kV until the maximum severity level was reached, for each polarity. During the test, the EUT operation was monitored to verify the required Performance Criteria. List of Test Equipment: Refer to Appendix A for calibration date. Noiseken, ESS-2000 Discharge Simulator Solid-run Page 29 of 59 Humming Board

Test Details: Test Setup No. Photograph No. Fig. 5.1 Fig. 5.2 Test Results: Type of discharge Points of Discharge Discharge Voltage # of Discharges at each polarity Performance Criteria applied BER/ # of errors Pass/ Fail Contact Discharge Air Discharge EUT 4kV 25 B None Pass VCP 4kV 25 A None Pass HCP 4kV 25 A None Pass EUT 8kV 10 B None Pass Figure 5.1: Setup for Electrostatic Discharge Test 100cm min to the walls 0.1m Mains Supply EUT VCP Insulation Support 0.5 mm HCP 80 cm 470k 470k non-metallic table 1.6m x 0.8m Ground Reference Plane 3m x3m Solid-run Page 30 of 59 Humming Board

Figure 5.2: Electrostatic Discharge Map Contact Electrostatic Discharge applied at Air Electrostatic Discharge applied at spots spots Solid-run Page 31 of 59 Humming Board

Electrostatic Discharge Map Solid-run Page 32 of 59 Humming Board

6. Immunity to Radiated Electromagnetic Field Date of Test: 07.05.2014 Relative Humidity: 48.2% Ambient Temperature: 23.2 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN61000-4-3 according to EN 55024 Test Levels: Frequency Range Test Level Performance Criteria 80MHz 1GHz, 80% AM, 1 khz sine Emphasis of frequencies 80, 120, 160, 230,434,460,600, 863,900 3V/m A Clock frequencies See Sec.1.3.5 3V/m A Test Procedure: The EUT was placed in a full-anechoic chamber on a non-conductive table 0.8m above the absorbing ground plane, and was configured, arranged and operated in a manner consistent with typical application and load conditions. Normal performance of the EUT was verified. The EUT with its door open was positioned parallel to the pre-calibrated uniform area at a distance of 3m from the transmitting antenna. The frequency range was swept in steps of 1% with 1KHz sine-wave 80% Amplitude modulated or 200Hz square wave 50% pulse modulated, according to the frequency range, with a dwell time of 1 sec. A list of clock and sensitive frequencies were analyzed separately if made available. Special exercising S/W was used in order to precisely generate the required electromagnetic field based on the calibrated field uniformity data. All tests were performed four times, with the antenna facing each of the four sides of the EUT. Each test was performed for both, horizontal and vertical antenna polarization During the tests, the EUT and external equipment were monitored to verify normal functional performance. List of Test Equipment: Refer to Appendix A for calibration dates. IFI 2025 RF Signal Generator Agilent,83732B, Signal generator Boonton 4230 Power Meter Boonton 51015 Power Sensor Anechoic Chamber 7m x 4m x 3m AR100W100, 30MHz-1GHz Wideband Linear RF Amplifier Werlaton C3910, 30MHz-1GHz Directional Coupler EMCO 3142, BiLog Antenna Ophir GRF5061, 0.8 GHz-4.2 GHz RF Amplifier AR DC7144, 0.8 GHz 4.2 GHz Directional Coupler Amplifier Research, E-Field Probe (80MHz-40GHz), FP5080 Solid-run Page 33 of 59 Humming Board

Test Details: Frequency range Radiating Antenna Test Setup No. Photograph No. 80MHz 800MHz 80% AM, 1 khz sine 800MHz 960MHz 80% AM, 1 khz sine 960 MHz 1GHz 80% AM, 1 khz sine 1400 MHz 2000 MHz 80% AM, 1 khz sine 2000 MHz -2700 MHz 80% AM, 1 khz sine Clock frequencies See Sec.1.3.5 Bilog Fig 6 Photo.6 Test Results: Frequency range Test Level* BER/ # of errors Performance Criteria applied Pass/ Fail 80MHz 800MHz 80% AM, 1 khz sine 3V/m None A Pass 800MHz 960MHz 80% AM, 1 khz sine 10V/m None A Pass 960 MHz 1GHz 80% AM, 1 khz sine 3V/m None A Pass 1400 MHz 2000 MHz 80% AM, 1 khz sine 10V/m None A Pass 2000 MHz -2700 MHz 80% AM, 1 khz sine 3V/m None A Pass Clock frequencies See Sec.1.3.5 3 V/m None A Pass * Increased stress applied according to customer s requirements. Solid-run Page 34 of 59 Humming Board

Figure 6: Setup for Radiated Immunity Test RF Signal Generator Marconi 2024 Anechoic Chamber 7m x 4m x 3m Uniform Field Power Amplifier AR100W100 Directional Coupler Wearlton C3910 BiLog Antenna EUT Power Meter Boonton 4320 TV Camera 3m Isotropic E -Field Probe AR FP-5080 20dB Attenuator f/o link for chamber calibration Field Probe Monitor FM FP-5004 Calibration and Operation Control EUT Monitoring TV Camera Control ANSI/IEEE 488 Calibration and Operation Software CIS 9942 Solid-run Page 35 of 59 Humming Board

Photograph 6: Radiated Immunity Test Solid-run Page 36 of 59 Humming Board

7. Immunity to Electrical Fast Transients (EFT) Date of Test: 04.05.2014 Relative Humidity: 48.3% Ambient Temperature: 23.4 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN61000-4-4 according to EN 55024 Test Levels: Power Supply Port: Power Supply leads Peak Voltage [kv] Test Duration Performance Criteria 230 VAC 1 60sec B Telecommunication ports and Signal Lines: Test Procedure: Signal Line Peak Voltage [kv] Test Duration Performance Criteria Ethernet 0.5 60sec B Electrical Fast Transient/Burst Tests were performed on a ground reference plane 3m x 3m wide. The EUT was placed on a table 0.8m above the ground reference plane, and was configured, arranged and operated in a manner consistent with typical application and load conditions. Normal functional performance of the EUT was verified. Fast transients/burst voltage at a repetition rate of 5 khz was applied between the reference plane and the signal lines by means of a Capacitive Coupling Clamp, and between the ground reference plane and each of the power supply terminals, AC or DC, and protective earth (PE) terminal by means of a Coupling/Decoupling Network (CDN). Every coupling mode was applied for 1minute in each polarity. The Fast transients/burst generator and CDN were bonded to the reference plane. The distance between the EUT and the coupling network or clamp was 1m or less. Clear distance of 0.5m was kept from the EUT to all other conducting structures. All cables, including the one being tested, were separated by 10cm from the ground reference plane. During the tests, the EUT and external equipment were monitored to verify the required performance criteria. List of Test Equipment: Refer to Appendix A for calibration dates. EMTest, EFT Generator, EFT 500 N8 EMTest,Coupling/Decoupling network for burst and surge, CNI 503 A18/ 32A IP4A Capacitive Coupling Clamp Solid-run Page 37 of 59 Humming Board

Test Details: Supply/Signal line/port under Test Test applied at Coupling Means Test Setup No. Photograph No. Test Results: 230 VAC AC line CDN Fig.7.1 Photo.7.1 Ethernet Ethernet Capacitive Coupling Clamp Fig.7.2 Photo.7.2 Supply/Signal line/port under Test Peak Voltage [kv] Test Duration [Minutes] BER/ # of errors Performance Criteria Applied Pass/ fail 230 VAC 1 10 None A Pass Ethernet 0.5 10 None A Pass Figure 7.1: Setup for EFT Test on AC Power Supply Port Coax via 50 54dB attenuator Solid-run Page 38 of 59 Humming Board

Figure 7.2: Setup for EFT Test on Ethernet 1m Reference Ground Plane 3m x 3m 1m EFT/Burst Generator PEFT 4010 Capacitive Coupling Clamp cable length <1m Equipment Under Test mains supply cable length <1m IP 4A Tektronix TDS680-C Calibration and Operation Control Coax via 50 54dB attenuator ANSI/IEEE 488 Calibration and Operation Software Solid-run Page 39 of 59 Humming Board

Photograph: 7.1: EFT Test on AC Power Supply Port Solid-run Page 40 of 59 Humming Board

Photograph 7.2: EFT Test on Ethernet Solid-run Page 41 of 59 Humming Board

8. Immunity to Voltage Surge Date of Test: 04.05.2014 Relative Humidity: 48.2% Ambient Temperature: 23.4 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN61000-4-5 according to EN 55024 Test Levels: Power Supply Port: Port under Test Pulse Shape Combination Wave Peak Voltage # of pulses Performance Criteria 230 VAC Line to Line 1kV 5, each polarity B Line to Earth 2 kv 5, each polarity B Test Procedure: Surge Tests were performed on a ground reference plane 3m x 3m wide. The EUT was placed on a table 0.8m above the ground reference plane, and was configured, arranged and operated in a manner consistent with typical application and load conditions. Normal performance of the EUT was verified. Surge voltage was applied to the EUT power supply by means of a coupling/decoupling network, and directly to the tested ports or coaxial and shielded cables via gas arrestors. The cable between the EUT and coupling network was 2m or less in length. The surge voltages were applied synchronized to the zero crossing and the positive and negative peaks of the AC voltage wave. The surges were applied line-to-line and line-to-earth. The test was repeated at a voltage level just below the threshold of the surge protector. During the tests, the EUT and external equipment were monitored to verify the required functional performance criteria on all ports other than the tested port. List of Test Equipment: Refer to Appendix A for calibration dates. IP6.2 2 & 4 -wire Coupling Network EMtest, Coupling/Decoupling network for burst and surge,cni 503 A18/ 32A EMTest, Surge Generator combination wave, VCS 500 N10 Test Details: Port under Test Test applied at Generator Waveform Test Setup No. Photograph No. 230 VAC AC port Combination Wave Fig. 8 Photo.8 Ethernet Not applicable (Cable length less than 10 m) Solid-run Page 42 of 59 Humming Board

Test Results: Port under Test Terminal Connections Test Level Repetitions, each polarity BER/ # of errors Performance Criteria applied Pass/ Fail Line to Line 1kV 5, each polarity None A Pass 230VAC Line to Earth Not applicable (No GND) Ethernet Line to Braid Not applicable (Cable length less than 10 m) Figure 8: Setup for Surge on AC Power Supply Port Line to Line Test Generator Decoupling Network L EUT N PE Reference Ground Solid-run Page 43 of 59 Humming Board

Photograph 8: Surge on AC Power Supply Port Solid-run Page 44 of 59 Humming Board

9. Immunity to Conducted RF Stress Date of Test: 05.05.2014 Relative Humidity: 48.2% Ambient Temperature: 23.2 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN61000-4-6 according to EN 55024 Test Levels: Power Supply port: Frequency Range Interference Value Performance Criteria 150kHz 80MHz 3Vrms A Telecommunication ports and Signal Lines: Test Procedure: Frequency Range Interference Value Performance Criteria 150kHz 80MHz 3Vrms A Conducted Immunity tests were performed on a ground reference plane 3m x 3m wide. The EUT was placed on an insulation support of 0.1m above the ground reference plane, and was configured, arranged and operated in a manner consistent with typical application and load conditions. Normal performance of the EUT was verified. All cables other than those under test were provided with terminated (50 ) decoupling networks (CDN). Normal performance of the EUT was verified. Different coupling networks were used for the various cables under test. They were pre-calibrated using the same testing system, and the calibration data was used to re-set the instruments to exactly the same settings and recreate the desired RF stress (disturbing signal) during the test. The frequency range was swept in steps of 1% with 1KHz sine-wave 80% Amplitude modulated, with a dwell time of 1 sec. Special exercising S/W was used in order to precisely generate the required disturbing signal, based on the calibrated data. During the tests, the EUT and external equipment were monitored to verify normal performance. List of Test Equipment: Refer to Appendix A for calibration dates. AR100A250, 10KHz-250MHz Power Amplifier Werlaton C5085 10KHz-250MHz Directional Coupler Marconi 2024 RF Signal Generator Boonton 4235 Power Meter Boonton 51015 Power Sensor Fischer EM Injection Clamp F2031 Fischer M3 CDN Solid-run Page 45 of 59 Humming Board

Test Details: Port under Test Test applied at Coupling Means Test Setup No Photograph No 230 VAC AC line M3CDN Fig.9.1 Photo.9.1 Ethernet Ethernet Port Direct Injection Fig.9.2 Photo.9.2 Test Results: Port under Test Frequency Range Test Level BER/# of errors Performance Criteria Pass/ Fail 230 VAC 150kHz 80MHz 3Vrms None A Pass Ethernet 150kHz 80MHz 3Vrms None A Pass Fig 9.1: Setup for Conducted RF Stress on AC Power Supply Port Solid-run Page 46 of 59 Humming Board

Fig 9.2: Setup for Conducted RF Stress on Ethernet RF Signal Generator Marconi 2024 0.5m Reference Ground Plane 3m x 3m Power Amplifier AR10W100 Directional Coupler Wearlaton 0.5m EM Clamp/ CDN Cable Under Test 30 m"m Equipment Under Test to Power-Supply 30 c"m Insulation support 0.1m CDN Power Meter Boonton 4235 Monitoring Current Probe Power Sensor Boonton 51015 To AE CDN to AE Spectrum Analyzer Calibration and Operation Control ANSI/IEEE 488 Calibration and Operation Software CIS9942 Solid-run Page 47 of 59 Humming Board

Photograph 9.1: Conducted RF Stress on AC Power Supply Port Photograph 9.2: Conducted RF Stress on Ethernet Solid-run Page 48 of 59 Humming Board

10. Immunity to Voltage Dips, Short Interruptions & Voltage Variations Date of Test: 04.05.2014 Relative Humidity: 48.2% Ambient Temperature: 23.7 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN61000-4-11 according to EN 55024 Limits: Residual voltage, % of nominal Duration [cycles] Performance Criteria Test Procedure: 100 0.5 B 100 1 B 30 25 C 100 250 C The EUT was powered via a test generator, and was configured, arranged and operated in a manner consistent with typical application and load conditions. Normal performance of the EUT was verified. Five dips and short interruptions and voltage variations were applied for each test level at a rate of one dip per minute. The changes in supply voltage occurred at zero crossing of the voltage. Where the EUT has a rated range voltage, the test procedure was applied for both the lower and upper voltage declared in the voltage range. The EUT and external equipment were monitored to verify the required performance criteria. List of Test Equipment: Refer to Appendix A for calibration dates. Pacific Power 140TMX TMX S/W Test Details: Test Results: Test applied at Test method reference AC power source Photograph No 230 VAC EN61000-4-11, sec. 5.1 230VAC, 50Hz Photo.10 Residual voltage, % of nominal Duration [cycles] BER/ # of errors Performance Criteria Remarks 100 0.5 None A Pass 100 1 None A Pass 30 25 None A Pass 100 250 None B & C Pass Solid-run Page 49 of 59 Humming Board

Photograph 10: Immunity to Voltage Dips, Short Interruptions and Voltage Variations Solid-run Page 50 of 59 Humming Board

11. Harmonic Current Emission Measurements Date of Test: 04.05.2014 Relative Humidity: 48.2% Ambient Temperature: 23.7 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN61000-3-2 Limits: Harmonic Order [n] Maximum permissible harmonic current [A] Odd harmonic Even harmonic 3 2.3 2 1.08 5 1.14 4 0.43 7 0.77 6 0.30 9 0.4 8 n 40 0.23*8/n Test Procedure: 11 0.33 13 0.21 15 n 39 0.15*15/n The EUT was powered via measurement equipment comprised of a high quality AC Power Source and dual harmonic analyzers, and was configured, arranged and operated in a manner consistent with typical application and load conditions. Normal performance of the EUT was verified. The class (A, B, C or D per EN61000-3-2 sec.5)) of the EUT was first identified by the test generator, and then, harmonic emission was measured. List of Test Equipment: Refer to Appendix A for calibration dates. Pacific Power 140TMX source DPA 500, EM Test ISMDPA 3.2 Test Details: Test applied at Test method reference AC power source Photograph No 230 VAC EN61000-3-2, Sec.6 & 7 230VAC, 50 Hz Photo.11 Solid-run Page 51 of 59 Humming Board

Test Results: Table 11: Maximum Harmonic Current Results Hn Leff [A] Leff [%] Limit [A] Result 1 16.090E-3 100.000 Pass 2 927.690E-6 5.766 1.62 Pass 3 14.458E-3 89.859 3.45 Pass 4 5.576E-3 34.653 645.00E-3 Pass 5 14.143E-3 87.903 1.71 Pass 6 1.132E-3 7.038 450.00E-3 Pass 7 13.433E-3 83.492 1.15 Pass 8 1.327E-3 8.247 345.00E-3 Pass 9 12.907E-3 80.217 600.00E-3 Pass 10 1.252E-3 7.781 276.00E-3 Pass 11 11.831E-3 73.535 495.00E-3 Pass 12 1.051E-3 6.534 229.99E-3 Pass 13 11.209E-3 69.665 315.00E-3 Pass 14 989.779E-6 6.152 197.15E-3 Pass 15 9.876E-3 61.381 225.00E-3 Pass 16 831.234E-6 5.166 172.50E-3 Pass 17 8.790E-3 54.633 198.52E-3 Pass 18 1.690E-3 10.506 153.33E-3 Pass 19 7.710E-3 47.922 177.63E-3 Pass 20 825.159E-6 5.129 138.00E-3 Pass 21 6.676E-3 41.492 160.71E-3 Pass 22 1.996E-3 12.403 125.46E-3 Pass 23 5.606E-3 34.845 146.74E-3 Pass 24 764.284E-6 4.750 114.99E-3 Pass 25 4.586E-3 28.505 135.00E-3 Pass 26 1.417E-3 8.806 106.16E-3 Pass 27 3.743E-3 23.260 124.99E-3 Pass 28 706.116E-6 4.389 98.57E-3 Pass 29 2.968E-3 18.445 116.39E-3 Pass 30 719.694E-6 4.473 92.00E-3 Pass 31 2.530E-3 15.724 108.87E-3 Pass 32 722.312E-6 4.489 86.25E-3 Pass 33 1.900E-3 11.811 102.27E-3 Pass 34 717.479E-6 4.459 81.18E-3 Pass 35 1.900E-3 11.807 96.44E-3 Pass 36 750.365E-6 4.664 76.66E-3 Pass 37 1.507E-3 9.364 91.21E-3 Pass 38 664.759E-6 4.132 72.63E-3 Pass 39 1.550E-3 9.635 86.53E-3 Pass 40 1.042E-3 6.478 69.00E-3 Pass Solid-run Page 52 of 59 Humming Board

Summary: Test applied at Test Results Pass/ Fail 230 VAC Table 11 Pass Photograph 11: Harmonic Current Emission Measurements Solid-run Page 53 of 59 Humming Board

12. Voltage Fluctuations and Flicker Measurements Date of Test: 04.05.2014 Relative Humidity: 48.2% Ambient Temperature: 23.2 C Atmospheric Pressure: 1011.4 hpa Test performed by: Michael Shtier Test Method: EN61000-3-3 Limits: Fluctuations and Flicker Limit Pst max 1.00 Plt max 0.65 dc 3.3 % dmax 4.00 % d(t) 3.3 %, 0.5 sec Source Pst max 0.4 % THD max 3.00 Test Procedure: The EUT was powered via measurement equipment comprised of a high quality AC Power Source, reference impedance and dual flicker-meters, and was configured, arranged and operated in a manner consistent with typical application and load conditions. Normal performance of the EUT was verified. Voltage changes due to EUT operation was automatically analyzed. List of Test Equipment: Refer to Appendix A for calibration dates. Pacific Power 140TMX source DPA 500, EM Test ISMDPA 3.2 Test Details: Test applied at Test method reference AC power source Photograph No. 230 VAC EN61000-3-3, sec. 6 230VAC, 50Hz Photo.12 Solid-run Page 54 of 59 Humming Board

Test Results: Data Fluctuations and Flicker Measured Limit Pst max 0.028 1.00 Plt max 0.028 0.65 EUT Data dc % 0.005 3.3 % dmax % 0.089 4.00 % d(t) sec 0.000 0.5 sec Summary: Test applied at Pass/ Fail 230 VAC Pass Photograph 12: Voltage Fluctuations and Flicker Measurements Solid-run Page 55 of 59 Humming Board

13. Appendix Appendix A: List of test equipment used Equipment Manufacturer Model No. Serial No. Calibration Due Date CISPR16 EMI Receiver HP 8546A 3710A00392 14.09.2014 EMC Analyzer HP 8593EM 3536A00131 10.09.2014 Billog Antenna Teseq CBL 6141B 34119 03.07.2015 Double Ridge Guide Horn antenna A.R.A DRG-118/A 17188 22.01.2015 LISN Fischer 50/250-25-2 9705 26.09.2014 V-LISN Schwarzbeck NNBL 8226-2 120 14.09.2014 Transient Limiter Agilent 11947A 3107A04121 14.09.2014 Current Probe Fischer F35A 44 25.09.2014 CDN Fischer T2 9953 31.01.2015 CDN Fischer T4 9817 31.01.2015 Universal Telecom Fischer ISN F-071115-1057-1 20616 31.01.2015 Discharge Simulator Noiseken ESS-2000 8000c03235 10.05.2015 RF Signal Generator Marconi (IFR) 2025 202301/940 12.09.2014 Power Meter Boonton 4230 26203 04.09.2014 Power Sensor Boonton 51015 31821 04.09.2014 EFT Generator EMtest EFT 500 N8 V114911192 27.11.2014 Coupling/Decoupling network for burst and surge EMTest CNI 503 A18/ 32A V0947105536 04.09.2014 Surge Generator combination wave, EMTest VCS 500 N10 V0824103874 04.09.2014 RF Signal Generator Marconi 2024 1122681029 08.08.2014 Power Meter Boonton 4235 26203 10.08.2014 Power Sensor Boonton 51015 31821 10.08.2014 EM Injection Clamp Fischer F2031 348 31.01.2015 CDN Fischer C1 9815 31.01.2015 CDN Fischer M2 9824 31.01.2015 CDN Fischer M3 9840 31.01.2015 CDN Fischer T4 9817 02.01.2015 ESD Generator Noiseken ESS-2000 8000C03235 10.09.2014 ELF Magnetic Field Meter, Holaday HI-3624A 00034615 20.10.2014 Power Source & Analyzer Pacific Power 140TMX 0233 10.09.2014 Harmonics & Flickers Analyzer, EM Test DPA 500 V0627101584 01.09.2014 Solid-run Page 56 of 59 Humming Board

Appendix B: Abbreviations/ Glossary used in the test report AC Alternating Current ISN Impedance stabilization network AVR A/m AE AM cm CE CI db dbm db(µv) Average (Detector) Ampere per meter Auxiliary equipment Amplitude modulation Centimeter Conducted Emission Conducted Immunity Decibel Decibel referred to one Mill watt Decibel referred to one micro volt LISN m MHz NA QP Ω PM PC RF RE Line Impedance Stabilization Network Meter Megahertz Not Applicable Quasi-Peak (Detector) Ohm Pulse modulation Personal Computer Radio Frequency Radiated Emission db(µv/m) DC ESD EFT EMC EMI EN EUT Decibel referred to one micro volt per meter Direct Current Electrostatic Discharge Electrical Fast Transients Electromagnetic Compatibility Electromagnetic Immunity European Standard Equipment under test RI rms sec SA Transceiver V VCP W Radiated Immunity Root-mean-square Second Spectrum analyzer Transmitter -receiver Volt Vertical coupling plane Watt F/O Fiber optic GHz Gigahertz Hz Hertz HCP Horizontal Coupling Plane khz Kilohertz kv Kilovolt Solid-run Page 57 of 59 Humming Board

Appendix C: Accreditation Certificate Solid-run Page 58 of 59 Humming Board

End of the Test Report Solid-run Page 59 of 59 Humming Board