Report on the EMC Testing. For. Exception EMS Ltd. RBK-ILS Processor. Report No. TRA A. 29 th April 2016

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1 Report on the EMC Testing For Exception EMS Ltd On RBK-ILS Processor Report No. TRA A 29 th April 2016 RF

2 Report Number: Copy Number: TRA A PDF REPORT ON THE EMC TESTING OF A Exception EMS Ltd RBK-ILS Processor WITH RESPECT TO SPECIFICATION EN :2005/AC:2005 and EN :2007 +A1:2011/AC:2012 TEST DATE: 7 th to 10 th, 15 th March, 11 th April 2016 Written by: M. Leek EMC Engineer Approved by: Date: 29 th April 2016 N. Roche Department Manager - EMC Distribution: Copy 1: Element Copy 2: Exception EMS Ltd Copy 3: Not Applicable Disclaimers: [1] THIS DOCUMENT MAY BE REPRODUCED ONLY IN ITS ENTIRETY AND WITHOUT CHANGE [2] THE RESULTS CONTAINED IN THIS DOCUMENT RELATE ONLY TO THE ITEM(S) TESTED RF of 71 2 of 71

3 1 Revision Record Issue Number Issue Date Revision History A 29 th April 2016 Original RF of 71

4 2 Summary TEST REPORT NUMBER: TRA A PURPOSE OF TEST: Electromagnetic Compatibility Emissions and Immunity TEST SPECIFICATION: EN :2005/AC:2005 and EN :2007 +A1:2011/AC:2012 EUT INTENDED ENVIRONMENT: Residential, Commercial and Light-industrial DEVIATIONS FROM SPECIFICATION: Not Applicable (refer to individual sections) EQUIPMENT UNDER TEST (EUT): RBK-ILS Processor EUT SERIAL NUMBER: N/a TEST RESULT: Measured As Compliant Given any modifications stated in the relevant section of this report. MANUFACTURER/AGENT: Exception EMS Ltd ADDRESS: CLIENT CONTACT: 32 Harris Road Porte Marsh Industrial Estate Calne Wiltshire SN11 9PT Mr Mike Owen +44 (0) ORDER NUMBER: , , , TEST DATE: 7 th to 10 th, 15 th March, 11 th April 2016 TESTED BY: D. Shephard, M. Leek and K. Ingram Element RF of 71

5 3 Contents 1 Revision Record Summary Contents Introduction Normative References Equipment Under Test EUT Identification System Equipment EUT Mode of Operation Emissions Immunity EUT Monitoring EUT Description Block Diagram Test Standard Selection Product Standard Basic Test Standard Selection Performance Criteria General Performance Criteria Manufacturer Based Performance Criteria Actual Pass/Fail Criteria Electrostatic Discharge Immunity as per EN : General Electrostatic Discharge Test Parameters Electrostatic Discharge Levels EUT Test Results Air Discharge Contact Discharge Radiated RF Immunity as per EN :2006 +A1:2008 +A2: General Radiated RF Immunity Test Parameters Radiated RF Immunity Test Frequencies EUT Test Results Electrical Fast Transient Immunity as per EN : General Electrical Fast Transient Test Parameters Electrical Fast Transient Test Levels EUT Test Results Voltage Surge Immunity as per EN : General Voltage Surge Test Parameters Voltage Surge Test Levels EUT Test Results Conducted RF Immunity as per EN : General Conducted RF Immunity Test Parameters Conducted RF Immunity Test Frequencies EUT Test Results Power Frequency Magnetic Field as per EN : General Power Frequency Magnetic Field Test Parameters EUT Test Results Voltage Dips and Short Interruptions Immunity as per EN : General Voltage Dips and Short Interruptions Test Levels EUT Test Results Radiated Emissions as per CISPR : General Radiated Emission Test Parameters EUT Test Results Radiated Emissions Test Data 30 MHz to 1 GHz Radiated Emissions Test Data 1 GHz to 6 GHz Conducted Emissions as per CISPR : General Conducted Emission Test Parameters RF of 71

6 18.3 EUT Test Results Conducted Emissions Test Data Conducted Common Mode Emissions as per CISPR 22: General Conducted Emission Test Parameters EUT Test Results Conducted Common Mode Emissions Test Data Discontinuous Disturbance as per EN :2006 +A1:2009 +A2: General Discontinuous Disturbance Test Parameters EUT Test Results Harmonic Current Emissions as per EN : General Harmonic Current Emissions Test Parameters Harmonic Current Emissions Test Results Voltage Fluctuations and Flicker as per EN : General Voltage Fluctuations and Flicker Test Parameters Voltage Fluctuations and Flicker Test Results dmax Test Data Test Equipment List Element Malvern EMC Modifications Conclusion Measurement Uncertainty APPENDIX A PHOTOGRAPHS APPENDIX B MODIFICATION PHOTOGRAPHS RF of 71

7 4 Introduction This report TRA A presents the results of the EMC testing on an Exception EMS Ltd, RBK-ILS Processor to specifications EN :2005/AC:2005 and EN :2007. The testing was carried out for Exception EMS Ltd by Element, an independent test house, at their EMC test facility located at: Element Malvern 100 Frobisher Business Park Leigh Sinton Road Malvern Worcestershire WR14 1BX UK Element Skelmersdale Unit 1 Pendle Place Skelmersdale West Lancashire WN8 9PN UK Element Wimborne Condor Close Woolsbridge Industrial Park Three Legged Cross Wimborne Dorset BH21 6SU UK Element Hull Unit E South Orbital Trading Park Hedon Road Hull East Yorkshire HU9 1NJ UK This report details the configuration of the equipment, the test methods used and any relevant modifications where appropriate. All test and measurement equipment under the control of the laboratory and requiring calibration is subject to an established programme and procedures to control and maintain measurement standards. The quality management system meets the principles of ISO 9001, and has quality control procedures for monitoring the validity of tests undertaken. Records and sufficient detail are retained to establish an audit trail of calibration records relating to its test results for a defined period. Under control of the established calibration programme, key quantities or values of the test and measurement instrumentation are within specification and comply with the relevant traceable internationally recognised and appropriate standard specifications, which are UKAS calibrated as such where these properties have a significant effect on results. Participation in inter-laboratory comparisons and proficiency testing ensures satisfactory correlation of results conform to Element s own procedures, as well as statistical techniques for analysis of test data providing the appropriate confidence in measurements. It is Element policy to always use the latest version of any applicable base test standards. Where a product specification calls up a superseded dated revision or an undated basic standard, the latest version will be used. This may be a deviation to the product standard if dated references have been used. Throughout this report EUT denotes equipment under test. RF of 71

8 5 Normative References EN :2009 EMC Immunity, Electrostatic Discharge EN :2006 +A2:2010 Electromagnetic compatibility (EMC). Testing and measurement techniques. Radiated, radio-frequency, electromagnetic field immunity test EN :2004 +A1:2010 Electromagnetic compatibility (EMC). Testing and measurement techniques. Electrical fast transient/burst immunity test EN :2012* Electromagnetic compatibility (EMC). Testing and measurement techniques. Electrical fast transient/burst immunity test EN :2006 Electromagnetic compatibility (EMC). Testing and measurement techniques. Surge immunity test EN :2009 Electromagnetic compatibility (EMC). Testing and measurement techniques. Immunity to conducted disturbances, induced by radio-frequency fields EN :2010 Electromagnetic compatibility (EMC). Testing and measurement techniques. Immunity Power Frequency Magnetic Field EN :2004 Electromagnetic compatibility (EMC). Testing and measurement techniques. Voltage Dips and Interruptions and Voltage Variations EN :2010* Specification for radio disturbance and immunity measuring apparatus and methods Measuring Apparatus EN :2004* +A1:2005* +A2:2006* Specification for radio disturbance and immunity measuring apparatus and methods Conducted disturbances EN :2006* Specification for radio disturbance and immunity measuring apparatus and methods Part 1-3: Radio disturbance and immunity measuring apparatus Ancillary equipment Disturbance power EN :2004* Specification for radio disturbance and immunity measuring apparatus and methods Radiated Disturbances EN :2007* +A1:2008* +A2:2009* Specification for radio disturbance and immunity measuring apparatus and methods Radiated Disturbances EN :2010* Specification for radio disturbance and immunity measuring apparatus and methods Radiated Disturbances EN :2009* Specification for radio disturbance and immunity measuring apparatus and methods Conducted Disturbance Measurements EN :2011* Specification for radio disturbance and immunity measuring apparatus and methods Part 2-2: Methods of measurement of disturbances and immunity Measurement of disturbance power EN :2006* Specification for radio disturbance and immunity measuring apparatus and methods Radiated Disturbance Measurements EN :2010* Specification for radio disturbance and immunity measuring apparatus and methods Radiated Disturbance Measurements EN :2004* Specification for radio disturbance and immunity measuring apparatus and methods Part 4-2: Uncertainties, statistics and limit modelling Uncertainty in EMC measurements EN 55022:2006 +A1:2007 Information technology equipment - Radio disturbance characteristics Limits and methods of measurement EN 55022:2010 Information technology equipment - Radio disturbance characteristics Limits and methods of measurement EN :2006 +A1/A2:2009 Limits for Harmonic Current Emissions (Equipment input current up to and including 16A/phase) EN :2008 Limitation of voltage changes, voltage fluctuations and flicker in the public supply network EN :2013* Limitation of voltage changes, voltage fluctuations and flicker in the public supply network EN :2000* Electromagnetic compatibility (EMC) - Part 3-11: Limits - Limitation of voltage changes, voltage fluctuations and flicker in public low-voltage supply systems - Equipment with rated current 75 A and subject to conditional connection EN :2005* Electromagnetic compatibility (EMC) - Part 3-12: Limits - Limits for harmonic currents produced by equipment connected to public low-voltage systems with input current > 16 A and 75 A per phase EN :2011* Electromagnetic compatibility (EMC) - Part 3-12: Limits - Limits for harmonic currents produced by equipment connected to public low-voltage systems with input current > 16 A and 75 A per phase CISPR :2003* Specification for radio disturbance and immunity measuring apparatus and methods Measuring Apparatus CISPR :2006* +A1:2006* +A2:2007* Specification for radio disturbance and immunity measuring apparatus and methods Measuring Apparatus CISPR :2004* Specification for radio disturbance and immunity measuring apparatus and methods Part 1-3: Radio disturbance and immunity measuring apparatus Ancillary equipment Disturbance power CISPR :2003* Specification for radio disturbance and immunity measuring apparatus and methods Part 2-1: Methods of measurement of disturbances and immunity Conducted disturbance measurements CISPR :2003* Specification for radio disturbance and immunity measuring apparatus and methods Part 2-2: Methods of measurement of disturbances and immunity Measurement of disturbance power CISPR 22:2005 Information technology equipment - Radio disturbance characteristics Limits and methods of measurement CISPR 22:2008 Information technology equipment - Radio disturbance characteristics Limits and methods of measurement *Indicates a specification or standard or specific amendment that is not listed on the Element UKAS scope of accreditation. RF of 71

9 6 Equipment Under Test 6.1 EUT Identification Name: RBK-ILS Processor Serial Number: N/a Model Number: Mk4 Software Revision: V Build Level / Revision Number: Production Incorporating the following external cables / test ports; Type Description Outdoor Cable Y / N Test Length Max Installation Length 1 AC Mains 3 Core, Unscreened No 1.5m 1.5m 2 Ethernet Cat 5, Screened No 3m N/a 3 RS232 9 Core, Screened No 3m <3m 4 2x USB Screened No 2m <3m 6.2 System Equipment Equipment listed below forms part of the overall test setup and is required for equipment functionality and/or monitoring during testing. The compliance levels achieved in this report relate only to the EUT and not items given in the following list. Description: Laptop for equipment monitoring RF of 71

10 6.3 EUT Mode of Operation Emissions During emissions testing the RBK ILS Processor was operating a continuous heater movement cycle, actuated by using a pneumatic ram to initiate the cycle start. Cycle time was approx. 3 seconds Immunity During immunity testing the RBK ILS Processor was operating a continuous heater movement cycle, actuated by using a pneumatic ram to initiate the cycle start. Cycle time was approx. 3 seconds. 6.4 EUT Monitoring The RBK ILS Processor was visually monitored by observing the movement of the machines jaws, the touch screen display and the supporting laptop. 6.5 EUT Description A machine to heat shrink environmentally sealed sleeves over welded cable joints for the automobile industry. This process is initiated by pressing two buttons simultaneously and the process cycle is controlled both temperature and time by software. The touch screen enables the user to select many different profiles and sleeve products. RF of 71

11 7 Block Diagram The following diagram shows basic EUT interconnections with cable type and cable lengths identified. 2x USB, Screened, 2m RS232, 9 Way, Screened, 3m Mains Power Supply 230 V / 50 Hz AC Mains Input, 3 Core, Unscreened, 1.5m RBK ILS Processor (EUT) Ethernet, Cat 5, Screened, 3m Laptop RF of 71

12 8 Test Standard Selection 8.1 Product Standard The following product standard was used as the basis of the test levels required and has been deemed the most appropriate product standard to apply to the RBK ILS Processor, or has been requested by the manufacturer: EN Electromagnetic compatibility (EMC) -- Part 6-2: Generic standards - Immunity for industrial environments EN Electromagnetic compatibility (EMC) -- Part 6-3: Generic standards - Emission standard for residential, commercial and light-industrial environments 8.2 Basic Test Standard Selection Basic Test Standard Applicable Notes EN :2009 Electrostatic Discharge Immunity EN :2006 +A1:2008 +A2:2010 Radiated RF Immunity EN :2012 Electrical Fast Transients Immunity EN :2014 Voltage Surge Immunity EN :2014 Conducted RF Immunity EN :2010 Power Frequency Magnetic Field Immunity EN :2004 Voltage Dips and Short Interruptions Immunity CISPR :2006 Radiated Emissions CISPR :2008 Conducted Emissions CISPR 22:2008 Telecommunication Ports Common Mode Emissions EN :2006 +A1:2009 +A2:2011 Discontinuous Disturbance EN :2014 Harmonic Current Emissions EN :2013 Voltage Fluctuations and Flicker Notes: [1] Tests marked with an asterisk* in the Normative References Section indicate a dated specification or specific amendment which falls outside the laboratories UKAS scope of accreditation, but are within the laboratories scope of competence. However, Element are UKAS accredited for the superseded version of the specification. [2] Not applicable, EUT contains no test port. [3] Not applicable, EUT contains no devices susceptible to magnetic field. RF of 71

13 9 Performance Criteria 9.1 General Performance Criteria The test results may be classified on the basis of the operating conditions and the functional specifications of the equipment under test, according to the following performance criteria taken from EN Performance Criterion A The apparatus shall continue to operate as intended. No degradation of performance or loss of function is allowed below a performance level specified by the manufacturer, when the apparatus is used as intended. In some cases the performance level may be replaced by a permissible loss of performance. If the minimum performance level or the permissible performance loss is not specified by the manufacturer then either of these may be derived from the product description and documentation and what the user may reasonably expect from the apparatus if used as intended. Performance Criterion B The apparatus shall continue to operate as intended after the test. No degradation of performance or loss of function is allowed below a performance level specified by the manufacturer, when the apparatus is used as intended. In some cases the performance level may be replaced by a permissible loss of performance. During the test, degradation of performance is however allowed. No change of actual operating state or stored data is allowed. If the minimum performance level or the permissible performance loss is not specified by the manufacturer then either of these may be derived from the product description and documentation and what the user may reasonably expect from the apparatus if used as intended. Performance Criterion C Temporary loss of function is allowed, provided the function is self-recoverable or can be restored by the operation of the controls. 9.2 Manufacturer Based Performance Criteria The manufacturer provided the following detailed and specific EUT performance criteria as follows; Temperature measurement stays within 10% Screen operation and main operation not affected 9.3 Actual Pass/Fail Criteria The following EUT specific pass/fail criteria was chosen by the test engineer, derived from sections 9.1 through 9.2 above, and after careful visual inspection of the sample presented for test; Machine cycle shall continue without interruption. Touch screen shall remain functional and responsive. Temperature to stay with ±10% of pre-set value. Any performance loss noted during testing will be given in the relevant test result section. RF of 71

14 10 Electrostatic Discharge Immunity as per EN : General This test simulates human body static discharge that equipment may be subject to. The test also includes discharges that may occur in the vicinity of the equipment thereby setting up a rapidly fluctuating short term electric field. Two types of discharge are used Air and Contact. Air discharges are applied to points that are classified as insulating surfaces and contact discharges are applied directly with no air interface on to conducting metallic surfaces of the EUT. Where an EUT is defined as a class II apparatus then contact points will be connected to ground using two 470 kω resistors to provide a leakage path to ground so as to prevent charge build up. The test setup used complies with all the dimension requirements set out in EN :2009. The discharge generator is UKAS calibrated as such Electrostatic Discharge Test Parameters Energy Storage Capacitor: Discharge Resistance: Output Voltage: Discharge Rise Time: Deviation From Basic Test Standard: 150 pf 330 Ω Up to 8 kv Contact Discharge Up to 15 kv Air Discharge 0.7 to 1 ns None Testing will only be carried out (unless otherwise stated so in this section) if the following environmental conditions are met: Ambient temperature in the range 15 C to 35 C Relative humidity in the range 30 % to 60 % Atmospheric pressure in the range 860 mbar to 1060 mbar 10.3 Electrostatic Discharge Levels The following test voltages were used for contact and air discharge: Air Discharge ±2 kv Contact ±2 kv ±4 kv Discharge ±4 kv ±6 kv ±8 kv A minimum of ten discharges at each polarity and at each test voltage were applied. RF of 71

15 10.4 EUT Test Results For pass/fail criteria definitions please see section 9 of this report. Where a departure from the pass/fail criteria is given for a specific test then this will be noted in this section after the results table Air Discharge Test levels applied are identified in the previous section. EUT Test Points Performance Criteria Achieved Performance Criteria Required 1 LCD Display A B 2 Calibration Thermocouple surround B see note B 3 Left and Right activation buttons A B 4 USB cable surround A B 5 RJ45 cable surround A B 6 RS232 cable surround A B Note: -8kV temperature element thermocouple momentarily dips (< 1 second) from set value of 350 C ± 10 C to above 365 C. The software will inhibit operation during the dip phase. Degradation within customer specification Contact Discharge Test Levels applied are identified in the previous section. EUT Test Points Performance Criteria Achieved Performance Criteria Required 1 Horizontal Coupling Plane A B 2 Vertical Coupling Plane A B 3 Front Cover bottom lip A B 4 Front display screen surround A B 5 Right Hand side at centre A B 6 Left Hand side at centre A B 7 Right Hand side bolt A B 8 Left Hand side A B 9 Base plate A B 10 Rear top plate screws x 4 A B 11 Rear bottom plate screws x 2 A B 12 USB surround A B 13 RJ45 surround A B 14 RS232 surround A B 15 External 24V supply surround A B RF of 71

16 11 Radiated RF Immunity as per EN :2006 +A1:2008 +A2: General This test simulates the threat imposed by operating the equipment in the vicinity of intentional transmitters both fixed and mobile. The specification calls up a uniform field test area, Element meet the field uniformity requirements set out in EN :2006 +A1:2008 +A2:2010 in the frequency range 80 MHz to 2.7 GHz. A computer controlled pre-calibrated level is applied to the antenna and the frequency is swept across the range of test at a predefined step size and time. No corrections to the selected test levels below were made to factor the uncertainty budget for this test, as instructed by the reference standard, hence field strength is as reported. The test setup used complies with all the dimension requirements set out in EN :2006 +A1:2008 +A2: Radiated RF Immunity Test Parameters Frequency Range: Spot Frequencies: Modulation Type: Amplitude Modulation Frequency: Dwell Time per Momentary Frequency: Test Voltage: Note: See frequency range above for any additional information on test levels applied in each range. Step Increment: Antenna Polarisations: Number of EUT Faces Tested: Deviation from Basic Test Standard: 80 MHz to 1 GHz 1.4 GHz to 2 GHz 2 GHz to 2.7 GHz Not Applicable 80% Amplitude Modulation Sine Wave 1 khz 3 seconds 4 seconds 3 V/m 80 MHz to 1 GHz 10 V/m 80 MHz to 1 GHz 3 V/m 1.4 GHz to 2 GHz 1 V/m 1 GHz to 2 GHz 1 V/m 2 GHz to 2.7 GHz 1 % of the momentary frequency Horizontal and Vertical None 4 Faces 6 Faces RF of 71

17 11.3 Radiated RF Immunity Test Frequencies A full list of frequency points is given here in MHz, the exact frequencies used will be dependent upon the test range selected in the table above Additional spot frequencies due to equipment related harmonics / declared EUT sensitive frequencies: None 11.4 EUT Test Results For pass/fail criteria definitions please see section 9 of this report. Where a departure from the pass/fail criteria is given for a specific test then this will be noted in this section after the results table. Test levels applied are identified in the previous section. Performance Criteria Achieved A Performance Criteria Required A RF of 71

18 12 Electrical Fast Transient Immunity as per EN : General This test applies very fast low energy transients on to the specific line under test. This simulates inductive load switching either directly coupled from equipment on the same supply line or capacitively coupled between cable bundles. Coupling is achieved directly via the Coupling Decoupling Network (CDN) incorporated within the interference generator, or applied via a capacitive clamp with a distributed capacitance of 150 pf. The test setup used complies with all the dimension requirements set out in EN :2012. The test generator is UKAS calibrated as such Electrical Fast Transient Test Parameters Pulse Rise Time: Pulse Duration: Pulse Repetition Frequency: Test Burst Duration: Test Burst Period: Dwell: Polarity: Deviation From Basic Test Standard: 5 ns 50 ns 5 khz 15 ms 300 ms 1 minute per test level Positive and Negative None For mains testing the following coupling points are used: Live, Neutral and Earth simultaneously (L1, L2, L3, N and E in the case of three phase systems) Neutral only Earth only Live only (L1, L2 and L3 individually in the case of three phase systems) Applicable 12.3 Electrical Fast Transient Test Levels The following test voltages were used if applicable as per the cable group type: AC Supply Line Signal Lines ±0.5 kv DC Supply ±0.5 kv ±1 kv Line ±1 kv ±2 kv ±2 kv Not Applicable Not Applicable ±0.5 kv ±1 kv Not Applicable RF of 71

19 12.4 EUT Test Results For pass/fail criteria definitions please see section 9 of this report. Where a departure from the pass/fail criteria is given for a specific test then this will be noted in this section after the results table. Test levels applied are identified in the previous section. EUT test points Direct Application Performance Criteria Achieved Performance Criteria Required 1 AC Mains Input A B EUT test points Capacitive Clamp Application Performance Criteria Achieved Performance Criteria Required 1 Ethernet A B RF of 71

20 13 Voltage Surge Immunity as per EN : General This test applies a high energy voltage surge on to the selected line under test. This simulates the surge created on the mains and also capacitively coupled on to signal cables during an electrical storm. Coupling to dc and mains is achieved directly via the Coupling Decoupling Network (CDN) incorporated within the interference generator. Coupling on shielded signal lines is achieved directly as per the specification using the 2 Ω source impedance of the generator only using a 20 m length of cable. Coupling to non-shielded signal lines is achieved directly using a 40 Ω CDN giving a 40 Ω + 2 Ω = 42 Ω source impedance. The test setup used complies with all the dimension requirements set out in EN :2014. The test generator is UKAS calibrated as such Voltage Surge Test Parameters Pulse Rise Time: 1.2 µs Pulse Duration: 50 µs Pulse Repetition Frequency: Maximum of 1 per minute Phase Angles: 0, 90, 180, 270, N/A Polarity: Positive and Negative Number of Discharges: Five per polarity per phase angle per voltage Deviation From Basic Test Standard: None For mains testing the following coupling points are used: Live to Earth only (L1, L2 and L3 individually to E in the case of three phase systems) Neutral to Earth only Live to Neutral The following combinations in the case of three phase systems (L1-L2, L2-L3, L1-L3, L1-N, L2-N, L3-N) 13.3 Voltage Surge Test Levels The following test voltages were used if applicable as per the cable group type: AC Supply Line Common Mode DC Supply Line Common Mode Signal / Control Lines ±0.5 kv AC Supply ±0.5 kv ±1 kv Line ±1 kv ±2 kv Differential ±2 kv Not Applicable Mode Not Applicable ±0.5 kv DC Supply ±0.5 kv ±1 kv Line ±1 kv ±2 kv Differential ±2 kv Not Applicable Mode Not Applicable ±0.5 kv ±1 kv Not Applicable RF of 71

21 13.4 EUT Test Results For pass/fail criteria definitions please see section 9 of this report. Where a departure from the pass/fail criteria is given for a specific test then this will be noted in this section after the results table. Test levels applied are identified in the previous section. EUT test points Mains/DC supply cables Performance Criteria Achieved Performance Criteria Required 1 AC Mains Input A B None EUT test points Signal/Control Cables Performance Criteria Achieved Performance Criteria Required RF of 71

22 14 Conducted RF Immunity as per EN : General This test simulates the threat imposed by operating the equipment in the vicinity of intentional transmitters both fixed and mobile. It simulates the main coupling method for longer wavelengths (3.75 m to 2 km / 3 m to 2 km / 1.3 m to 2 km) that couple onto cables that interface with the EUT. Two coupling methods are used depending upon the type of cable under test: Clamp Coupling / Decoupling Network (CDN) A computer controlled pre-calibrated level is applied to the coupling interface and the frequency is swept across the range of test at a predefined step size and time. No corrections to the selected test levels below were made to factor the uncertainty budget for this test, as instructed by the reference standard, hence field strength is as reported. The test setup used complies with all the dimension requirements set out in EN : Conducted RF Immunity Test Parameters Frequency Range: Spot Frequencies: Amplitude Modulation Frequency: Dwell Time per Momentary Frequency: Test Voltage Mains Supply Cables: Test Voltage DC Supply Cables: Test Voltage Signal/Control Cables: Step Increment: Deviation from Basic Test Standard: 150 khz to 80 MHz Not Applicable 1 khz 3 seconds 3 V r.m.s. 10 V r.m.s. 3 V r.m.s. 10 V r.m.s. 3 V r.m.s. 10 V r.m.s. 1 % of the momentary frequency None RF of 71

23 RF of Conducted RF Immunity Test Frequencies A full list of frequency points is given here in MHz; the exact frequencies used will be dependent upon the test range selected in the table above Additional spot frequencies due to equipment harmonics / declared EUT sensitive frequencies: None.

24 14.4 EUT Test Results For pass/fail criteria definitions please see section 9 of this report. Where a departure from the pass/fail criteria is given for a specific test then this will be noted in this section after the results table. Test levels applied are identified in the previous section. EUT test points Mains/DC supply cables Coupling Method Performance Criteria Achieved Performance Criteria Required 1 AC Mains Input CDN A A EUT test points Signal/Control Cables Coupling Method Performance Criteria Achieved Performance Criteria Required 1 Ethernet CDN A A RF of 71

25 15 Power Frequency Magnetic Field as per EN : General This test simulates the magnetic field imposed by operating the equipment in the vicinity high current carrying conductors, transformers or high current equipment and systems. The test uses either Helmholtz coils or a square inductive coil to generate the required magnetic field, with homogeneity better than 3 db. A current source is used to drive the coil(s) at the required frequency. Where equipment is too large to be incorporated in the uniform field area of the coils, typically 0.6 m x 0.6 m x 0.6 m for 1 m coils and 1.2 m x 1.2 m x 1.2 m for the 2 m coils a deviation will be noted in the following section Power Frequency Magnetic Field Test Parameters Test Frequency: 50 Hz 60 Hz Dwell Time per Orthogonal Plane: 5 minutes Field Strength: 3 A/m 30 A/m EUT Polarisations relative to Front Face: Helmholtz Coils Standard Square Inductive Coil Immersed Planes Orthogonal Plane 1 Orthogonal Plane 2 Orthogonal Plane 3 Deviation from Basic Test Standard None 15.3 EUT Test Results For pass/fail criteria definitions please see section 9 of this report. Where a departure from the pass/fail criteria is given for a specific test then this will be noted in this section after the results table. Test levels applied are identified in the previous section. Performance Criteria Achieved A Performance Criteria Required A RF of 71

26 16 Voltage Dips and Short Interruptions Immunity as per EN : General This test simulates short duration dips and interruptions that the equipment may be subjected to when connected to the public utility supply. The test setup used complies with all the dimension requirements set out in EN :2004. The test generator is UKAS calibrated as such Voltage Dips and Short Interruptions Test Levels The following test voltages were used if applicable as per the cable group type: Phase Shift: 0 Reduction: Interruption: Reduction Repetition Rate: 10 s >95 % reduction for 10 ms/half Cycle 100 % reduction for 20 ms/1 Cycle 30 % reduction for 500 ms/25 Cycles 60 % reduction for 200 ms/10 Cycles >95 % interruption for 5000 ms/250 Cycles Number of Reductions/Interruptions: 3 Deviation from Basic Test Standard: None 16.3 EUT Test Results For pass/fail criteria definitions please see section 9 of this report. Where a departure from the pass/fail criteria is given for a specific test then this will be noted in this section after the results table. Test levels applied are identified in the previous section. Applicable Mains Supply Cable Voltage Reductions Performance Criteria Achieved Performance Criteria Required >95 % reduction for 10 ms B 100 % reduction for 20 ms A B 30 % reduction for 500 ms A B 60 % reduction for 200 ms A B Applicable Mains Supply Cable Voltage Interruptions Performance Criteria Achieved Performance Criteria Required 100 % reduction for 5000 ms C see note C Note: EUT shuts down with each interruption. Once power was restored user intervention was required to restore operation. RF of 71

27 17 Radiated Emissions as per CISPR : General This test measures radiated electromagnetic emissions that may emanate from EUT enclosures and cables. This test ensures the protection of broadcast and telecommunication services used in the vicinity of the EUT. The test setup used complies with all the dimension requirements set out in CISPR The semi-anechoic chamber used meets the site attenuation measurements required by CISPR :2007 +A1:2007 +A2:2008. Measurement instrumentation used meets the requirements of CISPR :2003, and expanded laboratory uncertainties Ulab are less than or equal to Ucispr Table 1. Therefore no compensation is required to the actual measured level in determining compliance with the applied limit. An initial scan is carried out in order to establish a frequency list that is attributable to the EUT. Any emissions measurements that fall within 20 dbµv/m of the limit line are then maximised by rotating the equipment through 360 and raising/lowering the antenna through 1 to 4 m height for each frequency of interest Radiated Emission Test Parameters Highest EUT Frequency: Frequency Range: Measurement Bandwidth: Video Bandwidth: (measurements >1 GHz) Detectors: Quasi-peak Detector Dwell: Frequency Step Size: Antenna Height: Not declared therefore test carried out up to 6 GHz 30 MHz to 1 GHz 1 GHz to 2 GHz 2 GHz to 5 GHz 5 GHz to 6 GHz 120 khz (Measurements <1 GHz) 1 MHz (Measurements >1 GHz) 3 MHz (Peak Detector) <3 MHz (Average Detector) N/A Max EUT Freq Used <108 MHz N/A Max EUT Freq Used <500 MHz N/A Max EUT Freq Used <1 GHz Peak (<1 GHz scan / >1 GHz Final Measurements) Average (>1 GHz Final Measurements) Quasi-peak (<1 GHz Final Measurements) Minimum 2 s per Frequency Point 50 khz (Measurements <1 GHz) 1 to 4 Metres EUT to Antenna Distance: 1 m 3 m EUT Measurement Height: EUT Operation Voltage: 0.8 m Insulated Table 0.1 m Insulated Support/Pallet 230V ac EUT Operating Frequency: 50 Hz dc RF of 71

28 17.3 EUT Test Results Radiated Emissions Test Data 30 MHz to 1 GHz Level in dbµv/m Key: Quasi-Peak limit Quasi-Peak final measurement Vertical Peak trace Horizontal Peak trace RF of 71

29 Quasi-Peak Results Table Frequency (MHz) QuasiPeak (dbµv/m) Meas. Time (ms) Bandwidth (khz) Height (cm) Polarization Azimuth (deg) Corr. (db) Margin (db) Limit (dbµv/m) Vertical Vertical Vertical Vertical Vertical Vertical Vertical Vertical Vertical Vertical Vertical Horizontal Vertical Vertical Vertical Vertical Vertical Horizontal Horizontal Vertical Vertical Horizontal Horizontal Vertical Horizontal Vertical Horizontal Horizontal Vertical Vertical Vertical Vertical Vertical Vertical Vertical Vertical Vertical RF of 71

30 Radiated Emissions Test Data 1 GHz to 6 GHz Level in dbµv/m Key: Peak limit Peak final measurement Average limit Average final measurement Peak trace Average trace RF of 71

31 Peak Results Table Frequency (MHz) MaxPeak (dbµv/m) Meas. Time (ms) Bandwidth (khz) Height (cm) Polarization Azimuth (deg) Corr. (db) Margin (db) Limit (dbµv/m) Horizontal Horizontal Horizontal Average Results Table Frequency (MHz) Average (dbµv/m) Meas. Time (ms) Bandwidth (khz) Height (cm) Polarization Azimuth (deg) Corr. (db) Margin (db) Limit (dbµv/m) Horizontal Horizontal Horizontal Horizontal RF of 71

32 18 Conducted Emissions as per CISPR : General This test measures conducted noise that may be present on an EUT s power supply cable. This test ensures the protection of broadcast and telecommunication services used in the vicinity of the EUT. The test setup used complies with all the dimension requirements set out in CISPR :2003. Measurement instrumentation used meets the requirements of CISPR :2003, and expanded laboratory uncertainties Ulab are less than or equal to Ucispr Table 1. Therefore no compensation is required to the actual measured level in determining compliance with the applied limit Conducted Emission Test Parameters Frequency Range: Frequency Step Size: Measurement Bandwidth: Detectors: Quasi-peak Detector Dwell: EUT Measurement Height: EUT Operation Voltage: 150 khz to 30 MHz 4.5 khz 9 khz Peak (scan) Quasi-peak (Final Measurements) Average (Final Measurements) Minimum 2 s per frequency point 0.8 m Insulated Table 0.1 m Insulated Support/Pallet Mounted 230V ac EUT Operating Frequency: 50 Hz dc RF of 71

33 18.3 EUT Test Results Conducted Emissions Test Data Level in dbµv Key: Quasi-Peak limit Quasi-Peak final measurement Average limit Average final measurement Peak trace Average trace RF of 71

34 Quasi-Peak Results Table Frequency (MHz) QuasiPeak (dbµv) Meas. Time (ms) Bandwidth (khz) PE Line Corr. (db) GN D GN D GN D GN D GN D GN D GN D GN D GN D GN D GN D GN D GN D Margin (db) Limit (dbµv) N N L L N L L N L N L N L Comment Average Results Table Frequency (MHz) Average (dbµv) Meas. Time (ms) Bandwidth (khz) PE Line Corr. (db) GN D GN D GN D GN D GN D GN D GN D GN D GN D GN D GN D GN D GN D Margin (db) Limit (dbµv) N N L L N L L N L N L N L Comment RF of 71

35 19 Conducted Common Mode Emissions as per CISPR 22: General This test measures conducted common mode disturbance and noise which may be emitted at the telecommunication ports of an EUT. This test ensures the protection of broadcast and telecommunication services used in the vicinity of the EUT. The test setup used complies with all the dimension requirements set out in CISPR 22:2008. Measurement instrumentation used meets the requirements of CISPR :2003, and expanded laboratory uncertainties Ulab are less than or equal to Ucispr Table 1. Therefore no compensation is required to the actual measured level in determining compliance with the applied limit Conducted Emission Test Parameters Frequency Range: Frequency Step Size: Measurement Bandwidth: Detectors: Quasi-peak Detector Dwell: ISN Common Mode Impedance: 150 khz to 30 MHz 4.5 khz 9 khz Peak (scan) Quasi-peak (Final Measurements) Average (Final Measurements) Minimum 2 s per frequency point 150 Ω ±20 Ω Phase Angle (EUT Port): 0 ±20 Decoupling of Common Mode Disturbance: Attenuation from RF output to AE Port Voltage Division Factor: Longitudinal Conversion Loss (LCL) used: 150 khz >35 db 1.5 MHz >55 db 30 MHz >55 db 9.5 db ±1 db 55 db CAT3 65 db CAT5 75 db CAT6 ISN Type Used: T2 conforming to CISPR 22 D.1 T4 conforming to CISPR 22 D.5 T8 conforming to CISPR 22 D.7 ST08 conforming to CISPR 22 D.11 T800 conforming to CISPR 22 D.3 EUT Measurement Height: 0.8 m Insulated Table 0.1 m Insulated Support/Pallet Mounted RF of 71

36 19.3 EUT Test Results Conducted Common Mode Emissions Test Data Level in dbµv Key: Quasi-Peak limit Quasi-Peak final measurement Average limit Average final measurement Peak trace Average trace RF of 71

37 Quasi-Peak Results Table Frequency (MHz) QuasiPeak (dbµv) Meas. Time (ms) Bandwidth (khz) Line Corr. (db) Margin (db) Limit (dbµv) Comment Average Results Table Frequency (MHz) Average (dbµv) Meas. Time (ms) Bandwidth (khz) Line Corr. (db) Margin (db) Limit (dbµv) Comment RF of 71

38 20 Discontinuous Disturbance as per EN :2006 +A1:2009 +A2: General Switching operations in thermostatically controlled appliances, automatic program-controlled machines and other electrically controlled or operated appliances generate discontinuous disturbance. The subjective effect of discontinuous disturbance varies with repetition rate and amplitude in audio and video presentation. Therefore distinction is made between various kinds of discontinuous disturbance. The discontinuous disturbance is only measured with a measuring receiver including a quasi-peak detector specified in Clause 4 of CISPR Discontinuous Disturbance Test Parameters Click. A disturbance, the amplitude of which exceeds the QP limit of continuous disturbance, (L), the duration of which is no longer than 200 ms and which is separated from a subsequent disturbance by at least 200 ms the evaluation of new limits due to click rate (discontinuous interference limits) need to be computed. The durations are determined from the signal which exceeds the I.F Reference level of the measuring receiver. A click may contain a number of impulses; in which case the relevant time is that from the start of the first to the end of the last impulse. Minimum observation time (T); the time necessary to count 40 clicks, (or, when counting switching operations, 40 switching operations), or 120 minutes. Click Rate (N). The number of clicks (or switching operations) within one minute; this figure is being used to determine the click limit (Lq). Click Limit (Lq). The normal Click limit (L) for continuous disturbance, increased by a certain value between 0 and 44 db, determined from the click rate (N). Upper Quartile Method. No more than a quarter of the number of clicks counted during the observation time (T) is allowed to exceed the increased click limit (Lq). Where switching operations are used to determine the click rate (N), no more than a quarter of the number of switching operations counted during the observation time (T) is allowed to produce clicks exceeding the increased click limit (Lq). Depending upon the number of clicks measured, determines whether a relaxation of the continuous disturbance limit is required. In order to evaluate the new increased click limit based on the limit for continuous disturbances the following formula is employed: 20 log 30 (db) N Where N = click rate (clicks per minute). This value is then added to the limit for continuous disturbance to produce the new limit for discontinuous disturbances at each spot frequency below. Spot Frequencies: 50 khz, 500 khz, 1.4 MHz and 30 MHz Measurement Bandwidth: 9 khz Detector: Quasi-peak (Final Measurement) Quasi-peak Detector Dwell: Minimum 2 s per frequency point LISN / AMN Impedance: 50 Ω / 50 µh EUT Measurement Height: 0.8 m Insulated Table 0.1 m Insulated Support/Pallet Mounted RF of 71

39 20.3 EUT Test Results Line Live Neutral Frequency Clicks Long Short Continuous Pass/Fail 150 khz No discontinuous emissions detected Pass 500 khz No discontinuous emissions detected Pass 1.4 MHz No discontinuous emissions detected Pass 30 MHz No discontinuous emissions detected Pass 150 khz No discontinuous emissions detected Pass 500 khz No discontinuous emissions detected Pass 1.4 MHz No discontinuous emissions detected Pass 30 MHz No discontinuous emissions detected Pass No relaxation of the continuous disturbance limit was required. RF of 71

40 21 Harmonic Current Emissions as per EN : General This test deals with the limitation of harmonic currents injected into the public supply system. This test is applicable to electronic/electrical equipment having an input current up to and including 16 A/phase and intended to be connected to the public low voltage distribution network of either 50 Hz or 60 Hz line frequency. There are no limits defined for equipment operating at a voltage less than 230 V. For the purpose of harmonic current limitation and application of limits the equipment is classified as follows: Class A: balanced three-phase equipment; household appliances, excluding equipment identified as class D; tools, excluding portable tools; dimmers for incandescent lamps; audio equipment. Equipment not specified in one of the three other classes shall be considered as class A equipment. Class B: portable tools; arc welding equipment which is not professional equipment. Class C: lighting equipment. Class D: Equipment having a specified power according to less than or equal to 600 W, of the following types: personal computers and personal computer monitors; television receivers. The following exemptions exist for which no limits are specified: equipment with a rated power of 75 W or less, other than lighting equipment; professional equipment with a total rated power greater than 1 kw; symmetrically controlled heating elements with a rated power less than or equal to 200 W; independent dimmers for incandescent lamps with a rated power less than or equal to 1 kw Harmonic Current Emissions Test Parameters Equipment Classification: EUT Exemptions: EUT Measurement Height: Line Frequency: Measurement Duration: Harmonic Current Repeatability: Deviation from Basic Test Standard: Class A Class D <75 W rated power Professional >1 kw 0.8 m Insulated Table 0.1 m Insulated Support/Pallet Mounted 50 Hz 60 Hz 10 Minutes None ±5 % of the Applicable Limit RF of 71

41 V o l t a g e ( V o l t s Report Number: TRA A 21.3 Harmonic Current Emissions Test Results Harmonics Class-A per Ed. 3.2 (2009)(Run time) incl. inter-harmonics EUT: RBK-ILS processor Tested by: Martyn Leek Test category: Class-A per Ed. 3.2 (2009) (European limits) Test Margin: 100 Test date: 10/03/2016 Start time: 14:08:27 End time: 14:18:48 Test duration (min): 10 Data file name: H cts_data Comment: Running Continuously Customer: Exception EMS Test Result: Pass Source qualification: Normal Current & voltage waveforms C u r r e n t ( A m Harmonics and Class A limit line European Limits C u r r e n t R M S H a r m o n i c # Test result: Pass Worst harmonic was #15 with 24.30% of the limit. RF of 71

42 Current Test Result Summary (Run time) EUT: RBK-ILS processor Tested by: Martyn Leek Test category: Class-A per Ed. 3.2 (2009) (European limits) Test Margin: 100 Test date: 10/03/2016 Start time: 14:08:27 End time: 14:18:48 Test duration (min): 10 Data file name: H cts_data Comment: Running Continuously Customer: Exception EMS Test Result: Pass Source qualification: Normal THC(A): 0.14 I-THD(%): 7.90 POHC(A): POHC Limit(A): Highest parameter values during test: V_RMS (Volts): Frequency(Hz): I_Peak (Amps): I_RMS (Amps): I_Fund (Amps): Crest Factor: Power (Watts): Power Factor: Harm# Harms(avg) 100%Limit %of Limit Harms(max) 150%Limit %of Limit Status Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass RF of 71

43 Voltage Source Verification Data (Run time) EUT: RBK-ILS processor Tested by: Martyn Leek Test category: Class-A per Ed. 3.2 (2009) (European limits) Test Margin: 100 Test date: 10/03/2016 Start time: 14:08:27 End time: 14:18:48 Test duration (min): 10 Data file name: H cts_data Comment: Running Continuously Customer: Exception EMS Test Result: Pass Source qualification: Normal Highest parameter values during test: Voltage (Vrms): Frequency(Hz): I_Peak (Amps): I_RMS (Amps): I_Fund (Amps): Crest Factor: Power (Watts): Power Factor: Harm# Harmonics V-rms Limit V-rms % of Limit Status OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK OK RF of 71

44 22 Voltage Fluctuations and Flicker as per EN : General This test deals with the limitation voltage fluctuations and flicker impressed on the public supply system. This test is applicable to electronic/electrical equipment having an input current up to and including 16 A/phase and intended to be connected to the public low voltage distribution network. There are no limits defined for equipment operating at a voltage less than 230 V or line frequency of 60 Hz. The following limits apply: the value of Pst shall not be greater than 1.0; the value of Plt shall not be greater than 0.65; the value of d(t) during a voltage change shall not exceed 3.3 % for more than 500 ms; the relative steady-state voltage change, dc, shall not exceed 3.3 %; the maximum relative voltage change dmax, shall not exceed 4 % without additional conditions; 6 % for equipment which is: switched manually, or switched automatically more frequently than twice per day, and also has either a delayed restart (the delay being not less than a few tens of seconds), or manual restart, after a power supply interruption. 7 % for equipment which is attended whilst in use (for example: hair dryers, vacuum cleaners, kitchen equipment such as mixers, garden equipment such as lawn mowers, portable tools such as electric drills), or switched on automatically, or is intended to be switched on manually, no more than twice per day, and also has either a delayed restart (the delay being not less than a few tens of seconds) or manual restart, after a power supply interruption Voltage Fluctuations and Flicker Test Parameters EUT Exemptions: EUT Measurement Height: - EUT not likely to cause flicker - Low EUT supply power and no switching - Input <20 A and within 1.5 A (see note 3) - Other (see note below) 0.8 m Insulated Table 0.1 m Insulated Support/Pallet Mounted Line Frequency: Pst (t = 10 minutes): Plt (t = 2 hours): 50 Hz Applicable Applicable Dmax Limit (see mitigating note below): 4 % 6 % 7 % Deviation from Basic Test Standard: Note(s): None 1) The Dmax limit was chosen after evaluation of the frequency in EUT switching operations, which is to be used without additional conditions, as declared by the manufacturer. 2) Please refer to Dmax test data overleaf, for details of the EUT cycling on/off period and repetition interval of the peak in-rush measurement. 3) For voltage changes caused by manual switching, equipment is deemed to comply without further testing if the maximum r.m.s. input current (including inrush current) evaluated over each 10ms half-period between zero-crossings does not exceed 20 A, and the supply current after inrush is within a variation band of 1.5 A. RF of 71

45 1 4 : 4 3 : : 3 3 : : 4 3 : 4 Report Number: TRA A 22.3 Voltage Fluctuations and Flicker Test Results P st or P lt Test Data Flicker Test Summary per EN/IEC (Run time) EUT: RBK-ILS processor Tested by: Martyn Leek Test category: All parameters (European limits) Test Margin: 100 Test date: 10/03/2016 Start time: 14:23:22 End time: 14:43:43 Test duration (min): 20 Data file name: F cts_data Comment: Running Continuously Customer: Exception EMS Test Result: Pass Status: Test Completed Pst i and limit line European Limits P s t Plt and limit line P l t Parameter values recorded during the test: Vrms at the end of test (Volt): Highest dt (%): Test limit (%): 3.30 Pass Time(mS) > dt: 0.0 Test limit (ms): Pass Highest dc (%): Test limit (%): 3.30 Pass Highest dmax (%): 0.49 Test limit (%): 4.00 Pass Highest Pst (10 min. period): Test limit: Pass Highest Plt (2 hr. period): Test limit: Pass RF of 71

46 d max Test Data Flicker Test Summary per EN/IEC (Run time) EUT: RBK-ILS processor Tested by: Martyn Leek Test category: 24 x dmax Test Test Margin: 100 Test date: 10/03/2016 Start time: 15:16:00 End time: 15:33:16 Test duration (min): 30 Data file name: F cts_data Comment: Running Continuously Customer: Exception EMS Test Result: Pass European Limits Parameter values recorded during the test: Vrms at the end of test (Volt): Average dmax (%): 0.33 Test limit (%): 4.00 Test Number Dmax Highest dmax (Disregarded) Lowest dmax (Disregarded) Average of 22 Dmax Lowest Dmax Highest Dmax RF of 71

47 Flicker Test Summary per EN/IEC (Run time) EUT: RBK-ILS processor Tested by: Martyn Leek Test category: InRush Current Test Test Margin: 100 Test date: 10/03/2016 Start time: 15:13:31 End time: 15:14:29 Test duration (min): 10 Data file name: F cts_data Comment: Running Continuously Customer: Exception EMS Test Result: Pass Status: Test Aborted European Limits Parameter values recorded during the test: Vrms at the end of test (Volt): Highest dmax (%): 0.58 Test limit (%): 4.00 InRush Current(Amps-rms): Test limit: < 20A RF of 71

48 23 Test Equipment List Element Malvern The following test equipment was used: Type of Equipment Maker/Supplier Model Number Serial Number Element Number Absorbing Clamp Chase MDS L030 Current Probe Eaton L159 Helmholtz Coils ELEMENT N/A None L160 Function Generator Thurlby Thandar TG L181 Multimeter Isotech IDM L190 3 Phase V-Network LISN Schwarzbeck NSLK L207 Amplifier Amplifier Research 100W1000M L208 Variac Claude Lyons N/A None L225 Current Injection Probe Solar 9144-IN L234 EMI Test Receiver Rohde & Schwarz ESHS /003 L237 2 Line V-Network LISN Rohde & Schwarz ESHS3-Z /013 L238 Signal Generator Marconi /021 L254 Current Injection Probe Solar 9108-IN L256 Current Injection Probe Solar 9120-IN L257 4 Channel Digitizing Oscilloscope Tektronix TDS460A B L258 Signal Generator Marconi 2022D /023 L264 Current Injection Probe Solar 9120-IN L269 Capacitive Coupling Clamp Schaffner CDN L270 Bi-Log Antenna Chase CBL L274 RF Power Sensor Marconi L283 Directional Coupler Amplifier Research DC L285 2 Line V-Network LISN Rohde & Schwarz ESHS3-Z /010 L289 Bi-Log Antenna Chase CBL UH70 Amplifier Amplifier Research 75A L315 High Impedance Voltage Probe 1.5 kω Element N/A None L316 Signal Generator Marconi /036 L320 Micro Anechoic Chamber EMV MAC 4 MAC L323 ESD Gun Schaffner NSG L327 CDN (3 wire) MEB M L328 CDN (3 wire) MEB M L329 CDN (Coaxial) MEB S1/ L330 CDN (9 way) MEB S L331 CDN (25 way) MEB S L332 CDN (1 wire) MEB M1 None L338 Attenuator 6 db 75 W Bird N None L349 EMI Test Receiver Rohde & Schwarz ESVS /003 L352 EMI Test Receiver Rohde & Schwarz ESHS /019 L353 CDN (3 ) MEB M5/25A L354 CDN (3 wire) MEB M L355 CDN (2 wire) MEB M L356 Actual Equipment Used RF of 71

49 Type of Equipment Maker/Supplier Model Number Serial Number Element Number CDN (2 wire) MEB M L357 Directional Coupler Amplifier Research DC L380 Current Probe AH Systems BCP-200/ L391 Current Probe AH System BCP200/ L392 EMI Test Receiver Rohde & Schwarz ESVS /005 L415 Variac Claude Lyons 715-E None L428 Best Schaffner Best SC L429 Bi-Log Antenna Schaffner CBL6112B 2761 L431 Amplifier Amplifier Research 250W L442 Mainframe Test Generator Schaffner NSG /556AR UH170 EFT/B Network Plug-In Schaffner PNW SC L448 Impulse (Surge 1.2/50 µs) Network Plug-In Schaffner PNW SC L449 Voltage Dips Plug-In Schaffner PNW SC L450 3 Phase Dropout / Variation Simulator EM Test PFS 503/32A L460 Horn Antenna Amplifier Research AT L461 Directional Coupler Amplifier Research DC L462 Amplifier Amplifier Research 50S1G4A L464 Passive Loop Antenna Solar L479 RF Power Meter Rohde & Schwarz NRVD /002 L483 RF Power Sensor Rohde & Schwarz URV5-Z L484 RF Power Sensor Rohde & Schwarz URV5-Z L485 Signal Generator Hewlett Packard 8648B 3642U00976 L551 Microwave Pre-Amplifier Agilent 8449B 3008A016 L572 Receiver / Analyser Rohde & Schwarz ESIB L630 Large Vehicle Chamber Element N/A None L650 Multimeter AVO M2007 M L655 RF Power Meter Rohde & Schwarz NRP L684 RF Power Sensor Rohde & Schwarz NRP-Z L685 Receiver / Analyser Rohde & Schwarz ESIB L691 Signal Generator Hewlett Packard 8648A 343OU00302 L694 ESD Gun Schaffner NSG L697 RF Power Meter Anritsu ML2488A 6K L703 RF Power Sensor Anritsu MA2472D L706 Probe Narda 2304/03 & 2300/90.10 L 004 & L Power Amplifier ETM 200W LSBAND None L712 RF Chamber (Comm 1) Panashield G72131 A L717 RF Chamber (Comm 2) Panashield G72231 B L718 Field Probe Kit Amplifier Research FL7006 & FI , , X Wing Antenna Teseq/Schaffner CBL L722 Field Probe Kit Amplifier Research FL L742 Power Amplifier Teseq CBA9481 T43626 L752 X Wing Antenna Teseq/Schaffner CBL L765 AC Power Source Profline 5 kva L707 L721 Schaffner NSG L767 Actual Equipment Used RF of 71

50 Type of Equipment Maker/Supplier Model Number Serial Number Element Number Flicker Impedance Unit Schaffner CCN L768 PC with integrated Data Acquisition Card National instruments N/A None L769 V-Surge Verification Jig Element N/A None L780 Directional Coupler Werlatone C L786 MIL Chamber 4 Element N/A None L853 RF Sensor Element N/A None L867 Log Periodic Antenna Rohde & Schwarz HL L869 Comm 2 4 m U/F Cable Rosenberger FB293C L871 Power Amplifier Amplifier Research 75A L883 Oscilloscope Tektronix TDS3054 B L885 High Power Biconical Schwarzbeck VHBD L887 Comm 2 4 m RX Cable Rosenberger FB293C L888 Comm 1 6 m AMN Cable Rosenberger FB293C L889 Comm 1 4 m U/F Cable Rosenberger FB293C L890 Comm 1 4 m RX Cable Rosenberger FB293C L891 Comm 2 6 m AMN Cable Rosenberger FB293C L892 Signal Generator Rohde & Schwarz SMC100A L895 RF Power Meter Amplifier Research PM L900 RF Power Sensor Amplifier Research PH L901 RF Power Sensor Amplifier Research PH L902 Surface DC Voltmeter AlphaLab Inc SVM L906 Bi-Log Antenna Chase CBL6111 None L912 EM Clamp Schaffner KEMZ L913 Power Amplifier Teseq CBA1G-1000 T44125 L914 Attenuator 6 db 75 W Bird 75-A-MFN L916 Attenuator 6 db 75 W Bird 75-A-MFN L917 Directional Coupler Werlatone C L969 RF Sensor Element N/A None L922 Programmable Function Waveform Generator Rigol DG1022 DG1D L925 Receiver / Analyser Rohde & Schwarz ESR L927 ISN ST08 Teseq ISN ST L933 Pulse Limiter Rohde & Schwarz ESH3-Z L938 Pulse Limiter Rohde & Schwarz ESH3-Z L939 Receiver Rohde & Schwarz ESU L940 LISN Chase MN2050B 1203 L944 Unshielded ISN/CDN Teseq T L945 Multimeter Fluke L947 Comb Generator COM-Power Corp CGO-5100B L951 RF Power Meter Rohde & Schwarz NRVD /030 L957 EMC Test Simulator Teseq NSG L952 LAN/WAN Tester Ideal Industries Ltd UNIPRO MGIG /00314 L1049 T2 Balanced ISN Fischer FCC T H483 T2 Balanced ISN Fischer FCC T H484 T8 Balanced ISN Fischer FCC T None H485 Actual Equipment Used RF of 71

51 Type of Equipment Maker/Supplier Model Number Serial Number Element Number T4 Balanced ISN Fischer FCC T H486 T4 Balanced ISN Fischer FCC T H487 Shielded ISN Fischer FCC ST H655 3-Phase Coupling Network Schaffner CDN131/ RCDN133 ESD Gun Schaffner NSG RESD1 Transient Coupling Clamp Schaffner CDN125 SL R Impulse (Surge 1.2/50 µs & 10/500 µs) Hybrid Generator Schaffner NSG R CDN Surge 16 A AC 3-wire Schaffner CDN R Current Injection Probe Comtest N UH64 ESD Gun Schaffner NSG UH01 Current Injection Probe Solar N UH86 Power Amplifier Amplifier Research 100W1000M UH103 ISN T400 Schaffner ISN T UH150 ISN T200 Schaffner ISN T UH153 RF Sensor Element N/A None UH382 Fast Transient Generator Schaffner NSG UH383 Receiver / Analyser Rohde & Schwarz ESU UH377 Actual Equipment Used RF of 71

52 24 EMC Modifications The following EMC modifications were incorporated in the equipment during testing, in the order detailed below giving reference to the associated test. Any modifications carried out during the emissions testing are listed below: No. Modification None Reason for Modification Any modifications carried out during the immunity testing are listed below: No. 1 2 Modification Mains power input filter/socket removed and paint around panel removed, additional earth wire added directly to adjacent earth stud. Wires to power switch (including earth from input socket) given 2 turns around ferrite s 2 off Transorb components (Part Bourns CD0603-t05c) fitted between C27 to R45 and C26 to R42 Reason for Modification Conducted RF Immunity ESD Immunity Upon completion of each modification, consideration was given to the previously conducted test(s). The modification(s) carried out were deemed not to have invalidated previous results. Note: Opinions made above, fall outside the Element UKAS scope of laboratory accreditation, and are based entirely on rationale and assumption obtained from technical information, competence and experience, deemed correct at the time of test. RF of 71

53 25 Conclusion The EUT meets the performance requirements of the specification, when tested in a system configuration described in section 9 of this report. Note should be taken of any modifications listed in the relevant section of this report. The EUT achieved the following performance criteria during the test programme. EMISSIONS Test Standard Test Order Pass CISPR :2006 Radiated Emissions 1 CISPR :2008 Conducted Emissions 3 CISPR 22:2008 Telecommunication Ports Common Mode Emissions EN :2006 +A1:2009 +A2:2011 Discontinuous Disturbance Test Standard EN :2014 Harmonic Current Emissions EN :2013 Voltage Fluctuations and Flicker 5 4 Test Order 7 A B C D 8 Class Pass N/A IMMUNITY Basic Test Standard EN :2009 Electrostatic Discharge Immunity EN :2006 +A1:2008 +A2:2010 Radiated RF Immunity EN :2012 Electrical Fast Transients Immunity EN :2014 Voltage Surge Immunity EN :2014 Conducted RF Immunity EN :2010 Power Frequency Magnetic Field Immunity EN :2004 Voltage Dips and Short Interruptions Immunity Test Order Applicable Performance Criteria Required Performance Criteria Achieved 12 B B 2 A A 10 B A 9 B A 6 A A 13 A A 11 See Relevant Test Section RF of 71

54 26 Measurement Uncertainty Transient testing: Where a specification tolerance exists, the figure displayed is the calibration figure expanded by the calibration uncertainty. The worst case tolerance is then calculated and compared to the allowed specification tolerance. Static Discharge (EN ) Tolerance Parameter Test Equipment Inventory Number Allowed ESD6 ESD1 R0061 RFG273 UH01 Tolerance Negative Discharge Current at 2 kv (First Peak) 5.90 % 5.90 % 7.15 % % 6.46 % 15 % Negative Discharge Current at 8 kv (First Peak) % % 6.37 % % 7.37 % 15 % Negative Discharge Current at 2 kv % % % % % 30 % Negative Discharge Current at 8 kv % % 9.87 % % 9.67 % 30 % Negative Discharge Voltage 2.32 % 1.86 % 2.52 % 2.64 % 3.31 % 5 % Negative Rise Time at 2 kv % % % % 8.36 % 25 % Negative Rise Time at 8 kv % % % % 6.54 % 25 % Positive Discharge Current at 2 kv (First Peak) 9.85 % 7.78 % 8.53 % % 6.32 % 15 % Positive Discharge Current at 8 kv (First Peak) % % 7.56 % % 6.01 % 15 % Positive Discharge Current at 2 kv % % % % % 30 % Positive Discharge Current at 8 kv % % % % % 30 % Positive Discharge Voltage 2.65 % 1.99 % 2.62 % 4.03 % 2.32 % 5 % Positive Rise Time at 2kV % % % % 9.82 % 25 % Positive Rise Time at 8kV % 8.63 % % % 6.96 % 25 % Tolerance Parameter Test Equipment Inventory Number Allowed L327 L085 RFG639 L697 Tolerance Negative Discharge Current at 2 kv (First Peak) 6.90 % % % 7.28 % 15 % Negative Discharge Current at 8 kv (First Peak) % 6.25 % % 8.28 % 15 % Negative Discharge Current at 2 kv % % % % 30 % Negative Discharge Current at 8 kv 7.78 % % % % 30 % Negative Discharge Voltage 2.65 % 1.99 % 4.96 % 2.52 % 5 % Negative Rise Time at 2 kv 9.90 % % % % 25 % Negative Rise Time at 8 kv % % % % 25 % Positive Discharge Current at 2 kv (First Peak) 7.45 % % % 6.53 % 15 % Positive Discharge Current at 8 kv (First Peak) % 8.62 % % 6.15 % 15 % Positive Discharge Current at 2 kv % % % 6.14 % 30 % Positive Discharge Current at 8 kv % % % % 30 % Positive Discharge Voltage 2.01 % 4.03 % 5.33 % 3.97 % 5 % Positive Rise Time at 2 kv % % % % 25 % Positive Rise Time at 8 kv 6.96 % % % % 25 % Voltage Surge (EN ) Tolerance Parameter Test Equipment Inventory Number Allowed UH159 UH42 L449 RFG639 L429 Tolerance Voltage, Positive Waveform 8.11 % 6.22 % 9.71 % 4.55 % 5.74 % 10 % Voltage, Negative Waveform 8.06 % 6.43 % 9.64 % 5.72 % 5.15 % 10 % Duration, Positive Waveform 4.90 % 7.11 % 7.32 % % % 20 % Duration, Negative Waveform 5.14 % 8.35 % 5.47 % % % 20 % Voltage Front Time, Positive Waveform % % % % % 30 % Voltage Front Time, Negative Waveform % % % % % 30 % Current, Positive Waveform 6.39 % 6.39 % 9.50 % 7.17 % 6.09 % 10 % Current Duration 6.50 % 6.50 % % 9.84 % % 20 % Current Front Time % % % % % 20 % Current Undershoot Inside Tolerance Inside Tolerance Inside Tolerance Inside Tolerance Outside Tolerance 30 % of Peak Current Tolerance Parameter Test Equipment Inventory Number Allowed EMT3 UH415 R /2 L952 Tolerance Voltage, Positive Waveform 6.27% 4.59% 4.44% 4.59% 10% Voltage, Negative Waveform 6.67% 5.91% 4.24% 5.91% 10% Duration, Positive Waveform 19.16% 14.15% 27.22% 14.15% 20% Duration, Negative Waveform 19.55% 13.87% 26.20% 13.87% 20% Voltage Front Time, Positive Waveform 17.93% 11.51% 31.61% 27.88% 30% Voltage Front Time, Negative Waveform 16.96% 11.51% 29.66% 27.88% 30% Current, Positive Waveform 4.34% 4.34% 7.84% 8.25% 10% Current Duration 19.25% 19.25% 7.98% 2.50% 20% Current Front Time 10.58% 10.58% 11.04% 2.90% 20% Current Undershoot Inside Tolerance Inside Tolerance Inside Tolerance Inside Tolerance 30% of Peak Current Electrical Fast Transients (EN ) Tolerance Parameter Test Equipment Inventory Number Allowed L448 UH161 L429 RFG639 EMT5 Tolerance Positive Voltage 2.21% 11.92% 19.78% 5.40% 23.56% 20% Negative Voltage 2.48% 12.94% 15.24% 5.83% 19.09% 20% Source Impedance 11.91% 1.00% 20.21% 4.56% 27.91% 30% Pulse Parameters (5ns) 7.16% 5.22% 7.52% 7.42% 7.21% 30% Pulse Parameters (50ns) 19.13% 3.08% 24.38% 9.69% 18.29% 30% Burst Parameters 2.32% 1.03% 2.32% 1.99% 2.32% 10% RF of 71

55 Electrical Fast Transients (EN ) Tolerance Parameter Test Equipment Inventory Number Allowed RFG271 UH383 L952 Tolerance Positive Voltage % % 8.71 % 20 % Negative Voltage % % 5.07 % 20 % Source Impedance % % % 30 % Pulse Parameters (5ns) % 7.21 % % 30 % Pulse Parameters (50ns) % % 6.05 % 30 % Burst Parameters 2.32 % 2.32 % 1.00 % 10 % Voltage Dips and Interruptions (EN ) Tolerance Parameter Test Equipment Inventory Number Allowed L429 L952 EMT1 RFG639 L415 Tolerance Switching Time at 90 º µs % % % 4.08 % 5 µs Max Switching Time at 270 º µs % % % 4.08 % 5 µs Max Voltage Change with Load (70 % dip) 2.64 % 1.77 % 1.74 % 1.7 % 1.8 % 5 % Max Voltage Change with Load (40 % dip) 3.07 % 4.04 % 1.74 % 1.7 % 1.8 % 5 % Max Worst Case Phase Shift % 5.65 º 3.15 º 3.15 º 3.15 º ±10 º Emissions and Immunity testing (non-transient): All uncertainties listed are standard uncertainties multiplied by a coverage factor K = 2.00 for to give a 95 % confidence level. Conducted Emissions Including Discontinuous Emissions [1] Conducted Emissions 9 khz to 150 khz = 3.7 db [2] Conducted Emissions 150 khz to 30 MHz = 3.4 db Disturbance Power Emissions [1] Disturbance Power 30 MHz to 300 MHz = 2.3 db Radiated Emissions (E-Field) [1] Radiated Emissions 30 MHz to 1 GHz using CBL6111/2 Bilog Antenna = 4.6 db [2] Radiated Emissions 1 GHz to 6 GHz using HL050 Log Periodic Antenna = 5.1 db [3] Radiated Emissions 6 GHz to 26 GHz using HL050 Log Periodic Antenna = 5.2 db Radiated Emissions (H-Field) [1] Radiated Emissions 150 khz to 30 MHz using 2 m Van Veen Loop Antenna = 2.1 db [2] Radiated Emissions 150 khz to 30 MHz using CISPR 16 Loop Antenna = 2.2 db Conducted Immunity CDN Testing [1] Re-establishment of pre-calibrated field = 1.6 db [2] Limiting of injected level using monitor coil = 2.1 db Conducted Immunity Clamp Testing [1] Re-establishment of pre-calibrated field = 3.4 db [2] Limiting of injected level using monitor coil = 2.6 db Radiated Immunity 80 MHz to 3 GHz [1] Re-establishment of pre-calibrated field level = 2.12 db [2] Dynamic feedback calibrated field level = 2.16 db Radiated Immunity 3GHz to 6GHz [1] Re-establishment of pre-calibrated field level = 2.23 db [2] Dynamic feedback calibrated field level = 2.26 db Power Frequency magnetic Field [1] Magnetic field immunity up to 1 ka/m DC to 400 Hz = 0.7 db Spurious Emissions up to 18GHz [1] Uncertainty in test result = 4.75 db Cable Calibrations [1] Cable calibration up to 18 GHz = 0.4 db Mains Harmonics and Flicker [1] DMax = 3.4 % [2] Flicker (Psc, Dc, Dt) = 3.5 % [3] Harmonics = 1.54 % RF of 71

56 EN Sound Pressure Measurement [1] Method 1 Zero Loss Acoustic Coupler = 1.2 db [2] Method 2 Reference Level comparison = 1.5 db EN Magnetic Field Emissions 13.3 cm Loop [1] Uncertainty in test result = 2.4 db EN Magnetic Field Immunity 13.3 cm Loop [1] Re-establishment of pre-calibrated field level = % EN Insertion Loss [1] Uncertainty in test result = 1.7 db EN C Current Clamp Measurements [1] Uncertainty in test result = 2.01 db EN C Current Clamp Measurements [1] Uncertainty in test result = 2.44 db EN Capacitive Voltage Probe Measurements [1] Uncertainty in test result = 1.9 db EN Tuner Port Emissions [1] Uncertainty in test result = 1.48 db EN RF Modulator Ports [1] Uncertainty in test result = 1.33 db RF of 71

57 27 APPENDIX A PHOTOGRAPHS Electrostatic Discharge Immunity RF of 71

58 Radiated RF Immunity <1 GHz RF of 71

59 Radiated RF Immunity >1 GHz RF of 71

60 Electrical Fast Transient Immunity RF of 71

61 Voltage Surge Immunity RF of 71

62 Conducted RF Immunity RF of 71

63 Power Frequency Magnetic Field Immunity RF of 71

64 Voltage Dips and Short Interruptions Immunity RF of 71

65 Radiated Emissions <1 GHz RF of 71

66 Radiated Emissions >1 GHz RF of 71

67 Conducted Emissions RF of 71

68 Conducted Common Mode Emissions RF of 71

69 Harmonic Current Emissions / Voltage Fluctuations and Flicker RF of 71

70 28 APPENDIX B MODIFICATION PHOTOGRAPHS Mains power input filter/socket removed and paint around panel removed, additional earth wire added directly to adjacent earth stud. Wires to power switch (including earth from input socket) given 2 turns around ferrite s RF of 71

71 2 off Transorb components (Part Bourns CD0603-t05c) fitted between C27 to R45 and C26 to R42 RF of 71

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