CE EMC TEST REPORT
Contents
1. NOTE There was no change compared with the initial operation during the test Report No CE951115H04B 54 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP INPUT POWER TEST MODE Mode 2 SYSTEM DC 48V ENVIRONMENTAL 22 deg C 57 RH CONDITIONS 965 hpa TESTED BY Duke Tseng Field Frequency Result Polarity Azimuth Strength Posar 5 gemanee MHz vation Criterion V m 80 800 MHz PASS V amp H 0 3 80 800 MHz PASS V amp H 90 3 Kies A 80 800 MHz PASS V amp H 180 3 80 800 MHz PASS V amp H 270 3 Field Frequency Result Polarity Azimuth Strength oper MHz vation Criterion V m 800 960 MHz PASS V amp H 0 10 800 960 MHz PASS V amp H 90 10 800 960 MHz PASS V amp H 180 10 800 960 MHz PASS V amp H 270 10 Field Frequency Result Polarity Azimuth Strength tn MHz vation Criterion V m 960 1000 MHz PASS V amp H 0 3 960 1000 MHz PASS V amp H 90 3 Noi A 960 1000 MHz PASS V amp H 180 3 960 1000 MHz PASS V amp H 270 3 Field preduency Result Polarity Azimuth Strength BEN MHz vation Criterion V m 1400 2000 MHz PASS V amp H 0 10 1400 2000 MHz PASS V amp H 90 10 Note 1400 2000 MHz PASS V amp H 180 10 1400 2000 MHz PASS V amp H 270 10 NOTE There was no change compared with the initial operati2. 11 4 EMISSION TEST anne een 17 4 1 CONDUCTED EMISSION MEASUREMENT 17 4 1 1 LIMITS OF CONDUCTED EMISSION MEASUREMENT 17 4 1 2 TEST INSTA UME NS 8 a Rede eet dure ede dl ihe 17 4 1 3 TEST PROGEDUEBE uz teat ba eben eren 18 4 1 4 DEVIATION FROM TEST STANDARD tannins 18 TESTESE TUR ca etic nn me 18 4 1 6 EUT OPERATING CONDITIONS rss enduits 19 4 14 TESIBESULIS 20 4 2 CONDUCTED EMISSION MEASUREMENT AT TELECOMMUNICATION PORTS ne ensure 24 421 LIMIT OF CONDUCTED COMMON MODE DISTURBANCE AT TELEGOMMUNIGATION PORTS ana nn aaa 24 422 TEST INSTRUMENT S A ne ee saa Ceu 24 42 TESERROGEDURE zn 25 4 2 4 DEVIATION FROM TEST STANDARD 25 42 01 26 4 2 6 EUT OPERATING 6 26 4 2 TESTRESULT nn ba Vol Os ea adn Rafa RS dat 27 4 3 RADIATED EMISSION MEASUREMENT ss 28 431 LIMITS OF RADIATED EMISSION MEASUREMENT 28 4552 TESTIUNSIBUMENTS AS 29 4 3394 TEST PROSEBDBE u seen 30 434 DEVIATION FROM TEST STANDARD 30 43 54 TEST SERUEN vera re ee 31 4 3 6 EUT OPERATING CONDITIONS eaaet een en 31 qu qESDBESULBS ern RE ER aui ra ERES Ure ET 32 4 4 HARMONICS CURRENT MEASUREMENT 36 441 LIMITS OF HARMONICS CURRENT
3. 4 3 7 TEST RESULTS ADT CORP INPUT POWER TEST MODE Mode 1 SYSTEM 230Vac 50Hz DETECTOR Quasi Peak FREQUENCY RANGE 30 1000 MHz FUNCTION amp BANDWIDTH 120kHz ENVIRONMENTAL 24 deg C 60 RH CONDITIONS 965 hPa Wee ER EU Teang ANTENNA POLARITY amp TEST DISTANCE HORIZONTAL 10 Emission T Antenna Table Raw Correction Freq Limit Margin MHz Level dBuV m dB Height Angle Value Factor dBuV m m Degree dBuV dB m 1 50 80 31 20 QP 40 00 8 80 4 00 109 20 80 10 40 2 125 00 33 50 40 00 6 50 4 00 267 20 90 12 60 3 172 63 33 50 QP 40 00 6 50 4 00 H 85 22 40 11 10 4 177 40 37 70 QP 40 00 2 30 4 00H 153 26 90 10 80 5 221 94 30 10 QP 40 00 9 90 4 00 H 316 17 40 12 70 6 380 80 38 10 QP 47 00 8 90 1 88 H 0 18 90 19 10 7 666 66 38 10 QP 47 00 8 90 1 33 H 306 13 00 25 20 8 750 00 37 50 QP 47 00 9 50 1 17 124 10 10 27 40 9 875 00 37 50 QP 47 00 9 50 1 00 H 216 8 50 29 00 10 999 99 41 70 QP 47 00 5 30 1 00 H 308 12 10 29 50 REMARKS 1 Emission level dBuV m Raw Value dBuV Correction Factor dB m 2 Correction Factor dB m Antenna Factor dB m Cable Factor dB 3 The other emission levels were very low against the limit 4 Margin value Emission level Limit value i 300 1 i 1 1 1 400 500 500 700 800 Frequency MHz Report CE
4. oid 53 5 5 4 TESTSSETUP s irc EU nn to Nas 53 5 55 s mrt ee ide ene av du 54 5 6 ELECTRICAL FAST TRANSIENT BURST IMMUNITY TEST EFT 56 53 1 TEST SPECIFICAT ON icc ea are eo tus eee cod edi equi ended 56 50 2 TEST INSTRUMENTS tenseur 56 5 6 9 TEST PROCEDURE Sasse 56 564 aE 57 50 5 TESPRESULT EE anne Re 58 5 7 SURGE IMMUNITY TEST BE euren 60 571 TEST SPECIFICATION a ea niet 60 9 732 TESTANSTERUMENTS ineptis habi dre EE BERE Eo taeda epe 60 5 539 TEST PROGEDURE na a ee 61 TEST SET A annee nn amener ee 62 De o 63 5 8 IMMUNITY TO CONDUCTED DISTURBANCES INDUCED BY FIELDS jo RR ee eT le A IN PARE 65 SS TEST SPECIFICATION AS 65 5 8 2 TEST INSTRUMENTS nase 65 58 9 TEST PROCEDURE Nena 66 5 8 4 TEST SETUP 67 5E9 5 TES ARE OU LVS o ptr E E Rr aa 68 6 PHOTOGRAPHS OF THE TEST CONFIGURATION 70 7 APPENDIX INFORMATION ON THE TESTING LABORATORIES 87 Report No CE951115H04B 3 Report Format Version 2 0 5 Reference 960305H01 1 CERTIFICATION PRODUCT BRAND NAME MODEL NO TESTED TEST ITEM APPLICANT STANDARDS IP DSLAM CTC union MD15 Dec 04 to 27 2006 R amp D SAMPLE CTC UNION TECHNOLOGIES CO LTD EN 300 386 V1 3 3 2005 EN 55022 1998 A1 2000
5. 100 Hm 90 80 70 4 60 50 0 15 1 00 10 00 30 00 MHz Report No CE951115H04B 27 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 43 RADIATED EMISSION MEASUREMENT 4 3 1 LIMITS OF RADIATED EMISSION MEASUREMENT FREQUENCY MHz Class A at 10m 5 30 230 230 1000 NOTE 1 The lower limit shall apply the transition frequencies 2 Emission level dBuV m 20 log Emission level uV m 3 All emanations from a class A B digital device or system including any network of conductors and apparatus connected thereto shall not exceed the level of field strengths specified above Report No CE951115H04B 28 Report Format Version 2 0 5 Reference No 960305H01 4 3 2 TEST INSTRUMENTS DESCRIPTION amp MANUFACTURER MODEL NO SERIAL NO ADT CORP CALIBRATED UNTIL ADVANTEST Spectrum Analyzer HP Pre Amplifier R3271A 8449B 85060311 3008A01922 July 03 2007 Sep 18 2007 ROHDE amp SCHWARZ Test Receiver CHASE Broadband Antenna ESVS 30 CBL6111C 841977 002 2730 Oct 30 2007 Schwarzbeck Horn_Antenna Schwarzbeck Horn_Antenna SCHWARZBECK Biconical Antenna SCHWARZBECK Periodic Antenna BBHA9120 D1 D123 Jun 08 2007 Sep 25 2007 BBHA 9170 BBHA91 70153 Jan 05 2007 VHBA9123 459 Jun 08 2009 UPA6108 1148 Jun 0
6. Peak Reading Report No CE951115H04B Reference No 960305H01 21 Report Format Version 2 0 5 ADT CORP TEST MODE Mode 2 PHASE Positive INPUT POWER DC 48V BANDWIDTH 9 kHz ENVIRONMENTAL 25969 C 60 RH CONDITIONS T TESTED BY Timmy Hu Emission OS Factor SIE DR dB uV dB uV dB AV Av dB AV GP DRE DEN EDEN 2 0 614 984 4962 5946 73 00 60 00 13 54 3 0749 986 4671 5657 73 00 60 00 16 43 4 2420 9 90 4541 55 31 73 00 60 00 17 69 5 10 096 10 00 4543 155431 73 00 60 00 17 57 6 21 683 10 13 45 64 55 77 73 00 60 00 17 23 REMARKS 1 and AV are abbreviations of quasi peak and average individually 2 The Quasi peak reading value also meets average limit and measurement with the average detector is unnecessary 3 The emission levels of other frequencies were very low against the limit 4 Margin value Emission level Limit value 5 Correction factor Insertion loss Cable loss 6 Emission Level Correction Factor Reading Value dBuv 110 Peak Reading n M 100 EHE DEN 90 70 60 50 40 30 Report No CE951115H04B 22
7. Report No CE951115H04B Reference No 960305H01 42 Report Format Version 2 0 5 ADT CORP 5 IMMUNITY TEST 5 1 GENERAL DESCRIPTION Product Standard EN300 386 V1 3 3 2005 Equipment operating in telecommunication centres EN 61000 4 2 Electrostatic Discharge ESD 4kV air discharge 4kV Contact discharge Performance Criterion B EN 61000 4 3 Radio Frequency Electromagnetic Field Susceptibility Test RS 80 800 MHz 3V m 80 AM 1kHz 800 960 MHz 10V m 80 AM 1kHz 960 1000 MHz 3V m 80 AM 1kHz Basic Standard 1400 2000 MHz 10V m 80 AM 1kHz Specification and Performance Criterion A Performance EN 61000 4 4 Electrical Fast Transient Burst EFT Criteria Power line AC 1kV DC 0 5 kV Signal line 0 5 Performance Criterion EN 61000 4 5 Surge Immunity Test 1 2 50 us Open Circuit Voltage 8 20 us Short Circuit Current Power Line to Line 0 5kV line to earth 1kV indoor signal Line 0 5 kV outdoor signal Line 1kV Performance Criterion B EN 61000 4 6 Radio Frequency Disturbances Test CS 0 15 80 MHz 80 AM 1kHz Performance Criterion A Report No CE951115H04B 43 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 2 GENERAL PERFORMANCE CRITERIA DESCRIPTION CRITERION A level may be replaced by a permissible loss of performance If The apparatus shall continue
8. ADT CORP 5 6 4 TEST SETUP Direct Coupling Test Setup tneutating support EFT Grounding connection according to tha manufacturer s specification Length to be specitied in the fest plan Grounding cable Ground reterenoa plane For the actual test configuration please refer to the related item Photographs of the Test Configuration Report No CE951115H04B 57 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 6 5 TEST RESULTS INPUT POWER TEST MODE Mode 1 SYSTEM 230Vac 50Hz ENVIRONMENTAL 20 deg 54 RH CONDITIONS 965 hpa TESTED BY Duke Tseng POWER PORT VOLTAGE POLARITY PERFORMANCE kV TEST POINT OBSERVATION CRITERION 1 L1 Note 1 B 1 L2 Note 1 B 1 GND Note 1 B 1 L1 L2 GND Note 1 B ll SIGNAL PORTS AND CONTROL PORTS VOLTAGE POLARITY PERFORMANCE kV TEST POINT OBSERVATION CRITERION 0 5 RJ 45 GBE1 Note 1 B 0 5 Line cable Note 1 B NOTES 1 The EUT time out during the test but could be self recoverable after the test Report No CE951115H04B 58 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP INPUT POWER TEST MODE Mode 2 SYSTEM DC 48V ENVIRONMENTAL 20 deg 54 RH CONDITIONS 965 hpa TESTED BY Duke Tseng POWER PORT VOLTAGE POLARITY PERFO
9. ADT CORP CE EMC TEST REPORT REPORT NO MODEL NO RECEIVED TESTED ISSUED APPLICANT ADDRESS ISSUED BY LAB LOCATION CE951115H04B MD15 Nov 27 2006 Dec 04 to 27 2006 March 07 2007 CTC UNION TECHNOLOGIES CO LTD 8F No 60 ZhouZi St NeiHu Taipei 114 Taiwan Advance Data Technology Corporation No 81 1 Lu Liao Keng 9 Ling Wu Lung Tsuen Chiung Lin Hsiang Hsin Chu Hsien Taiwan This test report consists of 87 pages in total It may be duplicated completely for legal use with the approval of the applicant It should not be reproduced except in full without the written approval of our laboratory The client should not use it to claim product endorsement by CNLA A2LA or any government agencies The test results in the report only apply to the tested sample at a S N 2 HT N 2 ACCREDITED 0536 No 2177 01 2 Report 951115 04 1 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP Table of Contents 1 CERTIFICATION 4 2 SUMMARY OF TEST RESULTS siiin an 6 2 1 MEASUREMENT UNCERTAINTY iii 7 3 GENERAL INFORMATION 2 2 ee iret re 8 3 1 GENERAL DESCRIPTION OF EEUT unse aa 8 3 2 DESERIFTIONDFTESTIMODES sr 9 3 3 GENERAL DESCRIPTION OF APPLIED STANDARDS 10 3 4 DESCRIPTION OF SUPPORT 5
10. Report Format Version 2 0 5 ADT CORP DESCRIPTION OF TEST POINT Mode 2 Report No CE951115H04B 51 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 5 RADIATED RADIO FREQUENCY ELECTROMAGNETIC FIELD IMMUNITY TEST RS 5 5 1 TEST SPECIFICATION Basic Standard EN 61000 4 3 Frequency Range 80 800 MHz 800 960 MHz 960 1000 MHz 1400 2000 MHz Field Strength V m 10V m Modulation 1kHz Sine Wave 80 AM Modulation Frequency Step 1 of fundamental Polarity of Horizontal and Vertical Antenna Test Distance 3m Antenna Height 1 5m Dwell Time 3 seconds 5 5 2 TEST INSTRUMENTS DESCRIPTION amp MANUFACTURER AR Power Amplifier AR Power Amplifier MODEL NO 150W1000M3 60S1G3M1 SERIAL NO 311567 304334 CALIBRATED UNTIL NA NA AR LOG ANTENNA AT5080ANT 309740 NA BOONTON Voltage Meter 4232 01 93801 30 2007 R amp S Signal Generator SMLO3 101159 Feb 09 2007 Electric Field Probe ADT RS Test Workbench Software FP6001 ADT_RS_V7 5 30817 Sep 14 2007 NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 2 The test was performed in Chamber Room No B Report No CE951115H04B Reference No 960305H01 52 Report Format Version 2 0 5 ADT CORP 5 5 3 TEST PRO
11. 75 V or 48 36 75 V ACBEL SV48 24 100 6 Output DC 20 5V 4A 96W Power for ADSL line amp FAN Input power 3 The above EUT information was declared by the manufacturer and for more detailed features description please refer to the manufacturer s specifications or User s Manual Report No CE951115H04B 8 Report Format Version 2 0 5 Reference No 960305H01 3 2 DESCRIPTION OF TEST MODES The EUT was tested under the following test modes and its data were recorded in this report Test Mode Description Mode 1 Sample 1 Powered from AC Mode 2 Sample 2 Powered from DC ADT CORP For Harmonic current emissions and Voltage fluctuations amp flicker test items only test Mode 1 have been tested Report No CE951115H04B Reference No 960305H01 Report Format Version 2 0 5 ADT CORP 3 3 GENERAL DESCRIPTION OF APPLIED STANDARDS The EUT is a kind of telecommunication equipment and according to the specifications of the manufacturers must comply with the requirements of the following standards EN300 386 V1 3 3 2005 EN 55022 1998 1 2000 2 2003 Class A EN 61000 3 2 2000 Class A EN 61000 3 3 1995 A1 2001 EN 61000 4 2 1995 A1 1998 A2 2001 EN 61000 4 3 1996 A1 1998 A2 2001 EN 61000 4 4 2004 EN 61000 4 5 1995 A1 2001 EN 61000 4 6 1996 A1 2001 All tests have been performed and recorded as per the above standards Report
12. The computer systems support units 7 and 8 run ping exe and TfGen exe test program to enable EUT under transmission receiving condition continuously via line cable and RJ11 cables Report No CE951115H04B 19 Report Format Version 2 0 5 Reference No 960305H01 4 1 7 TEST RESULTS ADT CORP TEST MODE Mode 1 PHASE Line L INPUT POWER 230Vac 50 Hz 6dB BANDWIDTH 9 kHz ENVIRONMENTAL 25 deg 60 RH CONDITIONS 965 hPa TESTED BY Eason Chang dB uV dB uV dB uV MHz dB av GP 1 0 240 9 80 46 46 56 26 79 00 66 00 22 74 Corr Reading Value Emission Limit Level Factor 2 0 482 981 4269 152 501 79 00 66 00 26 50 3 1 611 990 36 64 46 54 73 00 60 00 26 46 4 2525 990 3280 4270 73 00 60 00 30 30 5 7887 9 96 2874 38 70 73 00 60 00 34 30 6 12254 10 09 43 00 53 09 73 00 60 00 19 91 REMARKS 1 Q P and AV are abbreviations of quasi peak and average individually 2 The Quasi peak reading value also meets average limit and measurement with the average detector is unnecessary 3 The emission levels of other frequencies were very low against the limit 4 Margin value Emission level Limit value 5 Correction factor Insertion loss Cable loss 6 Emission
13. minutes and the observation period for long term flicker indicator is 2 hours Report No CE951115H04B Reference No 960305H01 40 Report Format Version 2 0 5 ADT CORP 4 5 4 TEST SETUP For the actual test configuration please refer to the related item Photographs of the Test Configuration 4 5 5 EUT OPERATING CONDITIONS 1 Turn on the power of all equipment 2 Prepared other computer systems support units 1 4 to act as communication partners and placed them outside of testing area 3 The computer systems Support units 3 and 4 run ping exe test program to enable EUT under transmission receiving condition continuously via line cable and RJ11 cables Report No CE951115H04B 41 Report Format Version 2 0 5 Reference No 960305H01 4 5 6 TEST RESULTS ADT CORP NOTE FUNDAMENTAL 230 1 Vrms POWER VOLTAGE AMPERE 0 175 Arms FREQUENCY 50 013 Hz OBSERVATION 10 min POWER FACTOR 0 715 ENVIRONMENTAL 24 deg 65 RH CONDITIONS 965 hPa TESTED BY Ray Yeh MEASUREMENT TEST PARAMETER ATE LIMIT REMARKS Pass Pit Pass Tat ms Pass dmax 96 Pass dc 96 Pass P means short term flicker indicator means long term flicker indicator dmax Means maximum relative voltage change dc means relative steady state voltage change 1 2 3 means maximum time that dt exceeds 3 3 4 5
14. 817 Report No CE951115H04B 17 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 4 1 3 TEST PROCEDURE a The EUT was placed 0 4 meters from the conducting wall of the shielded room with EUT being connected to the power mains through a line impedance stabilization network LISN Other support units were connected to the power mains through another LISN The two LISNs provide 50 Ohm 50uH of coupling impedance for the measuring instrument b Both lines of the power mains connected to the EUT were checked for maximum conducted interference c The frequency range from 150 kHz to 30 MHz was searched Emission levels over 10dB under the prescribed limits could not be reported 4 1 4 DEVIATION FROM TEST STANDARD No deviation 4 1 5 TEST SETUP Vertical Reference Ground Plane Test Receiver C Emm Reference Ground Plane Note 1 Support units were connected to second LISN 2 Both of LISNs AMN are 80 cm from EUT and atleast 80 from other units and other metal planes For the actual test configuration please refer to the related item Photographs of the Test Configuration Report No CE951115H04B 18 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 4 1 6 EUT OPERATING CONDITIONS 1 Turn on the power of all equipment 2 Prepared other computer systems support units 1 8 to act as communication partners and placed them outside of testing area 3
15. Level Correction Factor Reading Value Peak Reading QP Limit Limit M Report No CE951115H04B 20 Reference No 960305H01 Report Format Version 2 0 5 ADT CORP TEST MODE Mode 1 PHASE Neutral N INPUT POWER 230Vac 50 Hz BANDWIDTH 9 2 ENVIRONMENTAL 25 deg 60 RH CONDITIONS 965 hPa TESTED BY Eason Chang dB AV Corr Reading Value Value EWES Gh Level Factor dB dB uV dB uV AV Av AV Limit DRE BETON TT EEE 2 0 513 982 4343 53 25 73 00 60 00 19 75 3 1451 9 95 4158 51 53 73 00 60 00 21 47 4 1935 9 99 39 91 149901 73 00 60 00 2310 5 2 584 10 00 3838 48 38 73 00 60 00 24 62 6 12256 10 19 4501 55 20 73 00 60 00 17 80 REMARKS 1 and AV are abbreviations of quasi peak and average individually 2 The Quasi peak reading value also meets average limit and measurement with the average detector is unnecessary 3 The emission levels of other frequencies were very low against the limit 4 Margin value Emission level Limit value 5 Correction factor Insertion loss Cable loss 6 Emission Level dBuy 110 100 90 80 70 60 50 14 40 30 Correction Factor Reading Value
16. No CE951115H04B 10 Report Format Version 2 0 5 Reference No 960305H01 3 4 DESCRIPTION OF SUPPORT UNITS ADT CORP The EUT has been tested as an independent unit together with other necessary accessories or support units The following support units or accessories were used to form a representative test configuration during the tests Conducted and Radiated test Product Serial No PERSONAL COMPUTER SG5190992H MONITOR KEYBOARD CN 0C0647 46633 58R 2W4L F24800406 E5XKB5122WT H0110 MOUSE G00347024432 DoC ADSL NOTEBOOK COMPUTER G32RG3 017284 A811A4003409 TW 0791UH 12800 0C K 3735 NA DoC NOTEBOOK COMPUTER DC POWER SUPPLY only for DC Mode Product 17044664176 7700087 Serial No E2K24GBRL ADSL G32RG3 017284 ADSL CP0508GGYZQ NOTEBOOK COMPUTER DS N TW 054UGW 12961 0B R 0670 NOTEBOOK COMPUTER DC POWER SUPPLY only for GOOD WILL INSTRUMEN GPC 3030D T CO LTD DC Mode TW 09C748 12800 17Q 504 7700087 Report No CE951115H04B 11 Reference No 960305H01 Report Format Version 2 0 5 ADT CORP Conducted and Radiated test No Signal cable description 1 2 11 8 m braid shielded wire terminated with VGA connector via metallic frame w o core 1 7 m foil shielded wire terminal by frame PS2 Connector w o core 1 5 m foil shie
17. No limits apply for equipment with an active input power up to and including 75 4 4 2 TEST INSTRUMENTS Description amp Manufacturer Model No Serial Calibrated Until EMC PARTNER d HAR1000 EMC Emission Tester 086 Mar 16 2007 EMC Partner Software HARCS 3 15 NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 2 The test was performed in EMS room Report No CE951115H04B Reference No 960305H01 36 Report Format Version 2 0 5 ADT CORP 4 4 3 TEST PROCEDURE a The EUT was placed on the top of a wooden table 0 8 meters above the ground and operated to produce the maximum harmonic components under normal operating conditions for each successive harmonic component in turn b The classification of EUT is according to section 5 of EN 61000 3 2 2000 The EUT is classified as follows Class A Balanced three phase equipment Household appliances excluding equipment as Class D Tools excluding portable tools Dimmers for incandescent lamps audio equipment equipment not specified in one of the three other classes Class B Portable tools Arc welding equipment which is not professional equipment Class C Lighting equipment Class D Equipment having a specified power less than or equal to 600 W of the following types Personal computers and personal computer monitors and television receivers
18. Oct 16 2007 Fischer Custom Communications Inc FCC 801 T8 Coupling Decoupling Network Oct 16 2007 ADT CS Test Workbench Software ADT_CS_V73 90 NA NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 2 The test was performed in Chamber Room No B Report No CE951115H04B 65 Reference No 960305H01 Report Format Version 2 0 5 ADT CORP 5 8 3 TEST PROCEDURE a The EUT shall be tested within its intended operating and climatic conditions b The test shall be performed with the test generator connected to each of the coupling and decoupling devices in turn while the other non excited RF input ports of the coupling devices are terminated by a 50 ohm load resistor c The frequency range is swept from 150 kHz to 80 MHz using the signal level established during the setting process and with a disturbance signal of 80 amplitude The signal is modulated with a 1 kHz sine wave pausing to adjust the RF signal level or the switch coupling devices as necessary The sweep rate shall not exceed 1 5 x 10 decades s The step size shall not exceed 1 96 of the start and thereafter 1 96 of the preceding frequency value where the frequency is swept incrementally d The dwell time at each frequency shall not be less than the time necessary for the EUT to be exercised and able to respond Sensitive frequencies suc
19. c The correspondent test program of test instrument to measure the current harmonics emanated from EUT is chosen The measure time shall be not less than the time necessary for the EUT to be exercised Report No CE951115H04B 37 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 4 4 4 TEST SETUP EUT B SE ES Dodo For the actual test configuration please refer to the related item Photographs of the Test Configuration 4 4 5 EUT OPERATING CONDITIONS 1 Turn on the power of all equipment 2 Prepared other computer systems support units 1 4 to act as communication partners and placed them outside of testing area 3 The computer systems support units 3 and 4 run ping exe test program to enable EUT under transmission receiving condition continuously via line cable and RJ11 cables Report No CE951115H04B 38 Report Format Version 2 0 5 Reference No 960305H01 4 4 6 TEST RESULTS ADT CORP FUNDAMENTAL 230 1 Vrms POWER VOLTAGE AMPERE 0 175 Arms FREQUENCY 50 000 Hz POWER CONSUMPTION 29 16 W POWER FACTOR 0 723 ENVIRONMENTAL 23 deg 55 RH CONDITIONS 965 hPa TESTED BY Ray Yeh NOTE 1 Limits are not specified for equipment with a rated power of 75W or less other than lighting equipment 2 According to EN61000 3 2 2000 the manufacturer shall specify the power of the apparatus This value shall be used for
20. establishing limits The specified power shall be within 10 of the measured power Report No CE951115H04B Reference No 960305H01 39 Report Format Version 2 0 5 ADT CORP 4 5 VOLTAGE FLUCTUATION AND FLICKER MEASUREMENT 4 5 1 LIMITS OF VOLTAGE FLUCTUATION AND FLICKER MEASUREMENT TEST ITEM LIMIT NOTE Pst 1 0 Pst means short term flicker indicator Pit 0 65 Pit means long term flicker indicator Tot ms 500 means maximum time that dt dt exceeds 3 3 nm 4 dmax Means maximum relative voltage max e change 3 3 dc means relative steady state voltage 96 change 4 5 2 TEST INSTRUMENTS Description amp Manufacturer Model No Serial Calibrated Until EMC PARTNER e x HAR1000 086 EMC Emission Tester Mar 16 2007 EMC Partner Software HARCS_V3 15 NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 2 The test was performed in EMS room 4 5 3 TEST PROCEDURE a The EUT was placed on the top of a wooden table 0 8 meters above the ground and operated to produce the most unfavorable sequence of voltage changes under normal operating conditions b During the flick measurement the measure time shall include that part of whole operation cycle in which the EUT produce the most unfavorable sequence of voltage changes The observation period for short term flicker indicator is 10
21. 0 QP 47 00 10 20 1 87 V 25 7 30 29 50 REMARKS 1 Emission level dBuV m Raw Value dBuV Correction Factor dB m 2 Correction Factor dB m Antenna Factor dB m Cable Factor dB 3 The other emission levels were very low against the limit 4 Margin value Emission level Limit value Level dBuV 70 1 300 1 1 400 500 1 600 700 800 900 1003 27 Frequency MHz Report No CE951115H04B 35 Report Format Version 2 0 5 Reference No 960305H01 4 4 HARMONICS CURRENT MEASUREMENT 4 4 1 LIMITS OF HARMONICS CURRENT MEASUREMENT ADT CORP Limits for Class A equipment Limits for Class D equipment Harmonics Max permissible Harmonics Max permissible Max permissible Order harmonics current Order harmonics current per harmonics current n A n mA W A Odd harmonics Odd Harmonics onl 3 2 30 3 3 4 2 30 5 1 14 5 1 9 1 14 7 0 77 7 1 0 0 77 9 0 40 9 0 5 0 40 11 0 33 11 0 35 0 33 13 0 21 13 0 30 0 21 15 lt n lt 39 0 15x15 n 15 n 39 3 85 n 0 15x15 n Even harmonics 2 1 08 4 0 43 6 0 30 8 lt n lt 40 0 23x8 n NOTE 1 The classifications of equipment are defined in Section 5 of EN 61000 3 2 2000 2 The above limits for all equipment except for lighting equipment are for all applications having an active input power gt 75 W
22. 312 Jul 25 2007 16617 NA NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 4 The test was performed in ADT Shielded Room No A 5 The VCCI ConA Registration No is C 817 Report No CE951115H04B 24 Reference 960305H01 Report Format Version 2 0 5 ADT CORP 4 2 3 TEST PROCEDURE a The EUT was placed 0 4 meters from the conducting wall of the shielded room and connected to the power mains through a line impedance stabilization network LISN Other support units were connected to the power mains through another LISN b Current at the measurement port of the ISN was detected the reading was corrected by adding the current division factor of the ISN and was compared to the current limits c The disturbance levels and the frequencies of at least six highest disturbances were recorded from each telecommunication port which comprises the EUT 4 2 4 DEVIATION FROM TEST STANDARD No deviation Report No CE951115H04B 25 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 4 2 5 TEST SETUP x est Receiver I Current probe ISN CDN 30 cm to 80 cm gt 1 Distance to the reference ground plane vertical or horizontal 2 Distance to the reference ground plane is not critical For the actual test configuration please refer to the related item Photogr
23. 8 2009 Switches MP59B 6100175593 Jul 17 2007 Cable CHASE Software CHANCE MOST Antenna Tower CHANCE MOST Turn Table CORCOM AC Filter NIST USA 9913 30M Cable STBCAB 30M 1 GHz Jul 17 2007 ADT_Radiated_V 5 14 NA NA AT 100 CM A007 TC 008 CM T007 MRI2030 024 019 Note 1 The calibration interval of the above test instruments is 12 months 36 months for Periodic Antenna and the calibrations are traceable to NML ROC and 2 These equipment are used for the final measurement 3 The horn antenna HP preamplifier model 8449B and Spectrum Analyzer model R3271A are used only for the measurement of emission frequency above 1 GHz if tested 4 The test was performed in ADT Open Site No B 5 The VCCI Site Registration No is R 847 6 The FCC Site Registration No is 92753 7 The CANADA Site Registration No is IC 4824A 2 Report No CE951115H04B Reference No 960305H01 29 Report Format Version 2 0 5 ADT CORP 4 3 3 TEST PROCEDURE a The EUT was placed on the top of a rotating table 0 8 meters above the ground at a 10 meter open field site The table was rotated 360 degrees to determine the position of the highest radiation The EUT was set 10 meters away from the interference receiving antenna which was mounted on the top of a variable height antenna tower The antenna is a broadband antenna and its height i
24. 800 il 900 1003 Frequency MHz Report No CE951115H04B 33 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP INPUT POWER TEST MODE Mode 2 SYSTEM DC 48V DETECTOR Quasi Peak FREQUENCY RANGE 30 1000 MHz FUNCTION amp BANDWIDTH 120kHz ENVIRONMENTAL 26 deg C 60 RH CONDITIONS 965 hPa TESTED BY Jain Pan ANTENNA POLARITY amp TEST DISTANCE HORIZONTAL 10 Emission E Antenna Table Raw Correction Freq Limit Margin No MHz Level dBuV m dB Height Angle Value Factor dBuV m m Degree dBuV dB m 1 125 00 26 50 QP 40 00 13 50 4 00 1 13 90 12 60 2 151 98 31 80 40 00 8 20 4 00 289 19 30 12 50 3 228 13 32 40 QP 40 00 7 60 4 00 H 237 19 20 13 10 4 250 00 33 10 QP 47 00 13 90 2 08 H 49 18 50 14 60 5 300 00 34 40 QP 47 00 12 60 2 17H 167 17 80 16 70 6 375 00 36 80 QP 47 00 10 20 1 93 H 326 17 90 18 90 7 399 99 36 90 QP 47 00 10 10 1 95H 16 16 90 20 00 8 500 00 35 40 QP 47 00 11 60 1 70H 238 12 80 22 60 9 624 99 31 80 QP 47 00 15 20 1 59 H 224 7 00 24 80 10 749 99 35 30 QP 47 00 11 70 1 00 H 200 7 90 27 40 11 874 99 34 40 QP 47 00 12 60 1 00 H 309 5 40 29 00 12 999 99 37 10 QP 47 00 9 90 1 00 H 201 7 50 29 50 REMARKS 1 Emission level dBuV m Raw Value dBuV Correction Factor dB m 2 Correction Factor dB m Antenna Factor dB m Cable Factor dB 3 Th
25. 951115H04B 32 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP INPUT POWER TEST MODE Mode 1 SYSTEM 230Vac 50Hz DETECTOR Quasi Peak FREQUENCY RANGE 30 1000 MHz FUNCTION amp BANDWIDTH 120kHz ENVIRONMENTAL 24 deg C 60 RH CONDITIONS 965 hPa UEM EM Tseng ANTENNA POLARITY amp TEST DISTANCE VERTICAL AT 10 M Emission ies Antenna Table Raw Correction Freq Limit Margin No MHz Level dBuV m dB Height Angle Value Factor dBuV m m Degree dBuV dB m 1 50 00 34 50 QP 40 00 5 50 1 01 V 216 23 90 10 60 2 125 00 33 80 QP 40 00 6 20 1 01 V 291 21 20 12 60 3 150 00 28 40 QP 40 00 11 60 1 01 V 267 15 70 12 70 4 172 63 37 50 QP 40 00 2 50 1 01 V 27 26 40 11 10 5 177 36 36 50 QP 40 00 3 50 1 01 V 29 25 70 10 80 6 371 30 35 20 QP 47 00 11 80 1 01 V 91 16 50 18 70 7 666 66 36 10 QP 47 00 10 90 2 22 4 11 00 25 20 8 750 00 37 20 47 00 9 80 240V 144 9 80 27 40 9 875 00 37 10 QP 47 00 9 90 2 00 V 197 8 20 29 00 10 999 99 37 10 QP 47 00 9 90 1 90 V 0 7 60 29 50 REMARKS 1 Emission level dBuV m Raw Value dBuV Correction Factor dB m 2 Correction Factor dB m Antenna Factor dB m Cable Factor dB 3 The other emission levels were very low against the limit 4 Margin value Emission level Limit value i 300 1 i 400 500 1 1 500 700 1
26. A2 2003 Class EN 61000 3 2 2000 Class A 61000 3 3 1995 A1 2001 EN 61000 4 2 1995 A1 1998 A2 2001 EN 61000 4 3 1996 A1 1998 A2 2001 EN 61000 4 4 2004 EN 61000 4 5 1995 A1 2001 EN 61000 4 6 1996 A1 2001 ADT CORP The above equipment Model MD15 has been tested by Advance Data Technology Corporation and found compliance with the requirement of the above standards Approval signature on next page Report No CE951115H04B Reference No 960305H01 Report Format Version 2 0 5 ADT CORP CERTIFICATION Continued The test record data evaluation amp Equipment Under Test EUT configurations represented herein are true and accurate accounts of the measurements of the sample s EMC characteristics under the conditions specified in this report PREPARED D ETR DATE Marc 07 2007 Carol Liao TECHNICAL ACCEPTANCE DATE March 07 2007 Responsible for EMI Mike Hsieh TECHNICAL LL ACCEPTANCE DATE 07 2007 Responsible for EMS Ray Yeh um APPROVEDBY Pag DATE 07 2007 Ivan Peng Note The power consumption of EUT is 29 16W which is less than 75W and no limits apply Therefore it is deemed to comply with EN 61000 3 2 2000 without any testing Report No CE951115H04B 5 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 2 SUMMARY OF TEST RESULTS The EUT has been tested acco
27. APHS OF THE TEST CONFIGURATION CONDUCTED EMISSION TEST Mode 1 Report No CE951115H04B 70 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP CONDUCTED EMISSION TEST Mode 2 951115H04 Report No CE951115H04B 71 Report Format Version 2 0 5 Reference No 960305H01 TELECOMMUNICATION PORT OF CONDUCTED EMISSION TEST 951115H04 ADT CORP Report No CE951115H04B Reference No 960305H01 72 Report Format Version 2 0 5 ADT CORP RADIATED EMISSION TEST 951115904 _ Report No CE951115H04B 73 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP HARMONICS EMISSION TEST amp VOLTAGE FLUCTUATIONS AND FLICKER TEST Report No CE951115H04B 74 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP ESD TEST Mode 1 ESD TEST Mode 951115H04 Report No CE951115H04B 75 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP RS TEST Mode 1 951115104 RS TEST Mode 2 951115104 Report No CE951115H04B 76 Report Format Version 2 0 5 Reference No 960305H01 EFT 1 Report CE951115H04B 77 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP EFT CLAMP TEST Line Cable Report No
28. APPENDIX INFORMATION ON THE TESTING LABORATORIES We ADT Corp were founded in 1988 to provide our best service in EMC Radio Telecom and Safety consultation Our laboratories are accredited and approved by the following approval agencies according to ISO IEC 17025 USA FCC UL A2LA Germany TUV Rheinland Japan VCCI Norway NEMKO Canada INDUSTRY CANADA CSA R O C CNLA BSMI NCC Netherlands Telefication Singapore PSB GOST ASIA MOU Russia CERTIS MOU Copies of accreditation certificates of our laboratories obtained from approval agencies can be downloaded from our web site www adt com tw index 5 phtml If you have any comments please feel free to contact us at the following Linko EMC RF Lab Hsin Chu EMC RF Lab Tel 886 2 26052180 Tel 886 3 5935343 Fax 886 2 26052943 Fax 886 3 5935342 Hwa Ya EMC RF Safety Telecom Lab Tel 886 3 3183232 Fax 886 3 3185050 Email service adt com tw Web Site www adt com tw The address and road map of all our labs can be found in our web site also Report No CE951115H04B 87 Report Format Version 2 0 5 Reference No 960305H01
29. CE951115H04B 78 Report Format Version 2 0 5 Reference No 960305H01 EFT TEST Mode 2 ADT CORP Report No CE951115H04B Reference 960305H01 79 Report Format Version 2 0 5 EFT CLAMP TEST Line Cable aE Report No CE951115H04B 80 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP SURGE TEST Mode 1 951115904 SURGE TEST RJ 45 PORT Report No CE951115H04B 81 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP SURGE TEST Mode 2 951115904 RJ 45 PORT Report No CE951115H04B 82 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP CONDUCTED SUSCEPTIBILITY TEST Mode 1 CONDUCTED SUSCEPTIBILITY TEST RJ 45 PORT Report No CE951115H04B 83 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP CONDUCTED SUSCEPTIBILITY TEST Line Cable Report No CE951115H04B 84 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP CONDUCTED SUSCEPTIBILITY TEST Mode 2 CONDUCTED SUSCEPTIBILITY TEST RJ 45 PORT Report No CE951115H04B 85 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP CONDUCTED SUSCEPTIBILITY TEST Line Cable Report No CE951115H04B 86 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 7
30. CEDURE The test procedure was in accordance with EN 61000 4 3 a The testing was performed in a fully anechoic chamber The transmit antenna was located at a distance of 3 meters from the EUT b The frequency range is swept from 80 800 MHz 800 960 MHz 960 1000 MHz 1400 2000 MHz with the signal 80 amplitude modulated with a 1kHz sine wave The rate of sweep did not exceed 1 5 x 10 3 decade s Where the frequency range is swept incrementally the step size was 1 of fundamental c The dwell time at each frequency shall be not less than the time necessary for the EUT to be able to respond The field strength level was 3V m 10V m The test was performed with the EUT exposed to both vertically and horizontally polarized fields on each of the four sides 5 5 4 TEST SETUP 3m measurement distance in a Full Anechoic Chamber RF Amplifier ae control system system For the actual test configuration please refer to the related item Photographs of the Test Configuration NOTE TABLETOP EQUIPMENT The EUT installed in a representative system as described in section 7 of EN 61000 4 3 was placed on a non conductive table 0 8 meters in height The system under test was connected to the power and signal wire according to relevant installation instructions FLOOR STANDING EQUIPMENT The EUT installed in a representative system as described in section 7 of EN 61000 4 3 was placed on a non conductive wood supp
31. DA 001 Dec 23 2007 KeyTek Software CEWare32_V2 06 NA NA NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 2 The test was performed in EMS room B Report No CE951115H04B Reference No 960305H01 60 Report Format Version 2 0 5 ADT CORP 5 7 3 TEST PROCEDURE a For EUT power supply The surge is to be applied to the EUT power supply terminals via the capacitive coupling network Decoupling networks are required in order to avoid possible adverse effects on equipment not under test that may be powered by the same lines and to provide sufficient decoupling impedance to the surge wave The power cord between the EUT and the coupling decoupling networks shall be 2 meters in length or shorter b For test applied to unshielded unsymmetrically operated interconnection lines of EUT The surge is applied to the lines via the capacitive coupling The coupling decoupling networks shall not influence the specified functional conditions of the EUT The interconnection line between the EUT and the coupling decoupling networks shall be 2 meters in length or shorter For test applied to unshielded symmetrically operated interconnection telecommunication lines of EUT The surge is applied to the lines via gas arrestors coupling Test levels below the ignition point of the coupling arrestor cannot be specified T
32. MEASUREMENT 36 44 2 TESTINSIBUMENLS 2 ner 36 44 3 TEST PROCEDURE RA E E O ERa A ANE Era 37 AAA VEST SETUP TT Terre 38 445 EUT OPERATING CONDITIONS essen nnne 38 446 TEST RESULT SA PSone erp E 39 4 5 VOLTAGE FLUCTUATION AND FLICKER MEASUREMENT 40 4 5 1 LIMITS OF VOLTAGE FLUCTUATION AND FLICKER MEASUREMENT 40 4 5 2 TEST INSTBHUMENEFS ee ae 40 4 5 3 TEST PROCEDUR E unii aeaa aa 40 Report No CE951115H04B 2 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 41 4 5 5 EUT OPERATING CONDITIONS ere 41 4 58 TESTBESULTS d Ind RM Ml E E LEE 42 5 ee 43 5 1 GENERAL DESCRIPTION As ae 43 5 2 GENERAL PERFORMANCE CRITERIA DESCRIPTION 44 5 3 EUT OPERATING CONDITION ass ee 44 5 4 ELECTROSTATIC DISCHARGE IMMUNITY TEST 0 45 5 421 TEST SPEGIPIGAT ION ae ee een een 45 542 TEST INSTAUMENT Sn a aka 45 53 TEST PROGEDUBE odi adco ad de eed aae at aac vun ee cen 45 TEST SEP Rem nd 47 5 450 TEST BESULFS odiis 48 5 5 RADIATED RADIO FREQUENCY ELECTROMAGNETIC FIELD IMMUNITY TEST RS RIS e p had 52 575 1 TEST SPECIFICATION i naeh 52 5 52 TESRINSTRBNENIEES eio ee ee docu cereo 52 5 59 TEST PHOGEDUEBE Ss
33. ON Hori Vertical Discharge Polarity Test els Performance Level kV Point PS Criterion Plane Plane 2 4 Note 1 Note 1 Description of test point 1 Front side 2 Right side 3 Left side 4 Rear side NOTES 1 There was no change compared with the initial operation during the test Report No CE951115H04B 48 Report Format Version 2 0 5 Reference No 960305H01 DESCRIPTION OF TEST POINT Mode 1 ADT CORP Report No CE951115H04B Reference 960305H01 49 Report Format Version 2 0 5 ADT CORP Description of test point INPUT POWER TEST MODE Mode 2 SYSTEM DC 48V ENVIRONMENTAL 20 deg 56 RH CONDITIONS 965 hPa TESTED BY Anderson Chen TEST RESULTS OF DIRECT APPLICATION Discharge Polarity Contact Air Performance Level kV Discharge Discharge Criterion 2 4 Note 1 NA A 2 4 NA Note 1 A Please refers to following photos for representative mark only TEST RESULTS OF INDIRECT APPLICATION Discharge Polarity Test pua ES eig Performance Level kV 4 Point Pang Ping Criterion Plane Plane 2 4 1 4 Note 1 Note 1 A Description of test point 1 Front side 2 Right side 3 Left side 4 Rear side NOTES 1 There was no change compared with the initial operation during the test Report No CE951115H04B Reference No 960305H01 50
34. PUTER 3 KEYBOARD CONTROL ROOM 4 MOUSE 7 NOTEBOOK 8 NOTEBOOK COMPUTER COMPUTER NOTE 1 Support units 1 8 were kept in the control room during the test 2 Please refer to the photos of test configuration in Item 6 also Report No CE951115H04B 14 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP For Harmonics Current Voltage Fluctuation and Flicker Immunity test AC Mode STP cable 1m Loop STP cable 10cm Loop POTS cable 1m POTS cable 1m Line cable 10m STP cable 1m STP cable 1m STP cable 1m TEST TABLE 150 Ohm Line Cable 10m RJ11 Cable 10m 3 NOTEBOOK 4 NOTEBOOK COMPUTER COMPUTER NOTE 1 Support units 1 4 were kept in the control room during the test 2 Please refer to the photos of test configuration in Item 6 also CONTROL ROOM Report No CE951115H04B 15 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP For Immunity test DC Mode STP cable 1m Loop STP cable 10cm Loop POTS cable 1m POTS cable 1m Line cable 10m STP cable 1m STP cable 1m STP cable 1m TEST TABLE 150 Ohm 5 POWER SUPPLY Line Cable 10m RJ11 Cable 10m 3 NOTEBOOK COMPUTER 4 NOTEBOOK COMPUTER NOTE 1 Support units 1 4 were kept in the control room during the test 2 Please refer to the photos of test configuration in Item 6 a
35. RMANCE TEST POINT OBSERVATION CRITERION 0 5 L1 Note 1 B 0 5 L2 Note 1 B 0 5 L1 L2 Note 1 B SIGNAL PORTS AND CONTROL PORTS VOLTAGE POLARITY PERFORMANCE TEST POINT m OBSERVATION CRITERION 0 5 RJ 45 GBE1 Note 1 B 0 5 Line cable Note 1 B NOTES 1 The EUT time out during the test but could be self recoverable after the test Report No CE951115H04B 59 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 7 SURGE IMMUNITY TEST 5 7 1 TEST SPECIFICATION Basic Standard Wave Shape Test Voltage Surge Input Output Generator Source Impedance Polarity Phase Angle Pulse Repetition Rate Number of Tests EN 61000 4 5 Combination Wave 1 2 50 us Open Circuit Voltage 8 20 us Short Circuit Current Power Line 0 5 1 kV Signal Line 0 5 kV 1 kV T1 R1 G L1 L2 L1 G L2 G L1 L2 G 2 ohm between networks 12 ohm between network and ground Positive Negative 0 90 180 270 1 time min maximum 5 positive and 5 negative at selected points 5 7 2 TEST INSTRUMENTS DESCRIPTION amp MANUFACTURER MODEL NO SERIAL NO CALIBRATED UNTIL EMC PARTNER TRANSIENT TRA1Z332N 683 Feb 15 2007 EMC PARTNER CDN UTP8 CDN UTP8 012 NA Adapter EMC PARTNER NA SU1ADA 002 Dec 23 2007 EMC Partner Software KeyTek EMS Simulator Adapter EMC Pro Test Manger V1 53 NA NA EMC Pro 9712339 Mar 27 2007 NA SU1A
36. Report Format Version 2 0 5 Reference No 960305H01 ADT CORP TEST MODE Mode 2 PHASE Negative INPUT POWER DC 48V BANDWIDTH 9 kHz ENVIRONMENTAL 25969 C 60 RH CONDITIONS 965hPa Corr Reading Value Emission Limit Level Factor TESTED BY Timmy Hu dB uV dB uV dB uV MHz dB AV AV GP GP X 711 0374 980 so4t 6021 79 00 66 00 1870 2 0 615 9 84 50 62 49 72 60 46 59 56 73 00 60 00 12 54 0 44 3 0 752 986 48 81 58 67 73 00 60 00 1433 4 2420 10 00 46 41 156411 73 00 60 00 16 59 5 10 096 10 10 4843 158 531 73 00 60 00 14 47 6 21723 10 43 4664 57 07 73 00 60 00 15 93 REMARKS 1 Q P and AV are abbreviations of quasi peak and average individually 2 The Quasi peak reading value also meets average limit and measurement with the average detector is unnecessary 3 The emission levels of other frequencies were very low against the limit 4 Margin value Emission level Limit value 5 Correction factor Insertion loss Cable loss 6 Emission Level Correction Factor Reading Value dBuy 110 Peak Reading QP Limit P AV Limit 100 90 80 70 60 50 40 jw Report No CE951115H04B 23 Report F
37. aphs of the Test Configuration 4 2 6 EUT OPERATING CONDITIONS Same as 4 1 6 Report No CE951115H04B 26 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 4 2 7 TEST RESULTS INPUT POWER SYSTEM 230Vac 50Hz 6dB BANDWIDTH 9 kHz TELECOM PORT RJ11 to ADSL ENVIRONMENTAL 25 deg C 60 RH CONDITIONS 965 hPa TESTED BY Eason Chang Lg Reading Emission Margin orr Value Level Factor dB uV dB uV dB uV dB MHz 1 0240 6 Q P QP AV QP 10 13 64 19 74 32 93 09 80 09 1877 0361 10 15 5737 67 52 89 71 7671 2 19 0 662 10 17 55 55 6572 87 00 74 00 1 084 10 17 57 17 6734 87 00 74 00 1 505 1020 5419 6439 87 00 74 00 1 925 10 22 55 42 65 64 87 00 74 00 2128 19 66 2261 21 36 REMARKS 1 Q P and AV are abbreviations of quasi peak and average individually 2 The Quasi peak reading value also meets average limit and measurement with the average detector is unnecessary 3 The emission levels of other frequencies were very low against the limit 4 Margin value Emission level Limit value 5 Correction factor Insertion loss Cable loss 6 Emission Level Correction Factor Reading Value dBuy 110 Peak Reading QP Limit Av Limit
38. ce No 960305H01 2 1 MEASUREMENT UNCERTAINTY ADT CORP Where relevant the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16 4 This uncertainty represents an expanded uncertainty expressed at approximately the 95 confidence level using a coverage factor of k 2 Measurement Value Conducted emissions 2 53 dB Radiated emissions 30MHz 1GHz 3 46 dB Report No CE951115H04B Reference No 960305H01 Report Format Version 2 0 5 ADT CORP 3 GENERAL INFORMATION 3 1 GENERAL DESCRIPTION OF EUT PRODUCT IP DSLAM MODEL NO MD15 POWER SUPPLY Internal power supply AC input or DC input POWER CORD PATE CARLE RJ 45 Cable x1 10cm shelded without core SUPPLIED Line interface x 2 POTS Interface x 2 GBE 1 amp GBE 2 1 0 PORT SFP 1 amp SFP 2 MGMT x 1 FAN x 2 HK x1 COM x 1 Note 1 The EUT has two samples one is powered from AC the other is powered from DC 2 The EUT must be supplied with Internal power supply as following AC input power supply information Brand SINPRO Model No SBU 120 246 AC110 240 V 63 Hz 3Pins 2 5m Unshielded w o core Output power DC 3 3V 15 110W 8 DC 20 5V 110W DC input power supply information Brand Model No Spec Input DC 48 36 75 V or 48 36 75 V P DUKE QBE50 48S3P3 Output DC 3 3V 15A 49 5W Power for System Input DC 48 36
39. e other emission levels were very low against the limit 4 Margin value Emission level Limit value Level dBuV 70 1 1 1 1 1 1 1 27 100 200 300 400 500 500 700 800 900 1003 Frequency MHz Report CE951115H04B 34 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP INPUT POWER TEST MODE Mode 2 SYSTEM DC 48V DETECTOR Quasi Peak FREQUENCY RANGE 30 1000 MHz FUNCTION amp BANDWIDTH 120kHz ENVIRONMENTAL 26 deg C 60 RH CONDITIONS 965 hPa TESTED BY deny Pan ANTENNA POLARITY amp TEST DISTANCE VERTICAL AT 10 M Emission ME Antenna Table Raw Correction Freq Limit Margin MHz Level dBuV m dB Height Angle Value Factor dBuV m m Degree dBuV dB m 1 49 58 29 00 QP 40 00 11 00 1 00 V 93 18 20 10 80 2 70 65 26 10 QP 40 00 13 90 1 00 V 336 18 20 7 90 3 124 90 32 60 QP 40 00 7 40 1 00 V 270 20 00 12 60 4 177 36 27 80 QP 40 00 12 20 1 00 V 196 16 90 10 80 5 234 00 31 20 QP 47 00 15 80 1 00 V 264 17 70 13 50 6 300 00 32 80 QP 47 00 14 20 1 00 V 277 16 10 16 70 7 370 30 35 20 QP 47 00 11 80 1 00 V 205 16 60 18 70 8 499 80 34 80 QP 47 00 12 20 1 00 V 63 12 20 22 60 9 624 99 33 80 QP 47 00 13 20 2 98 V 233 9 00 24 80 10 749 99 33 10 QP 47 00 13 90 2 38 V 85 5 70 27 40 11 799 99 38 20 QP 47 00 8 80 1 94 V 301 10 90 27 30 12 999 99 36 8
40. ed only to those points and surfaces of the EUT that are expected to be touched during normal operation including users access as specified in the user manual The application of discharges to any point of the equipment other than the electrostatic protection point which is accessible only for maintenance purposes is not required The application of ESD to the contacts of open connectors is not required Report No CE951115H04B 45 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP The basic test procedure was in accordance with EN 61000 4 2 a b Electrostatic discharges were applied only to those points and surfaces of the EUT that are accessible to users during normal operation The test was performed with at least ten single discharges on the pre selected points in the most sensitive polarity The time interval between two successive single discharges was at least 1 second The ESD generator was held perpendicularly to the surface to which the discharge was applied and the return cable was at least 0 2 meters from the EUT Contact discharges were applied to the non insulating coating with the pointed tip of the generator penetrating the coating and contacting the conducting substrate Air discharges were applied with the round discharge tip of the discharge electrode approaching the EUT as fast as possible without causing mechanical damage to touch the EUT After each discharge the ESD gene
41. ence No 960305H01 5 8 5 TEST RESULTS ADT CORP INPUT POWER TEST MODE Mode 1 230Vac 50H a SYSTEM ac 50Hz ENVIRONMENTAL 22 deg 57 RH CONDITIONS 965 hpa TESTED BY Anderson Chen FOR MAINS POWER Voltage Cabo an conma Nowe A FOR SIGNAL CONTROL LINE Frequency ah Cable Injection Obser vati Performance MHz Vr m s Method on Criterion 0 15 80 3 RJ 45 GBE1 CLAMP Note 1 A 0 15 80 3 Line Cable CLAMP Note 1 A NOTE 1 There was no change compared with initial operation during the test Report No CE951115H04B Reference No 960305H01 68 Report Format Version 2 0 5 ADT CORP INPUT POWER TEST MODE M 2 DC 48V zen i SYSTEM ENVIRONMENTAL 22 deg C 57 96 RH CONDITIONS 965 hpa TESTED BY Anderson Chen FOR MAINS POWER Frequency Ve Cable Injection Obser vati Performance MHz Vr m s Method on Criterion 0 15 80 3 DC power line CDN M2 Note 1 A FOR SIGNAL CONTROL LINE Frequency rescue Cable Injection MHz Om m s Method Criterion 0 15 80 RJ 45 GBE1 CLAMP Note 1 A 0 15 80 Line Cable CLAMP Note 1 A NOTE 1 There was no change compared with initial operation during the test Report No CE951115H04B 69 Reference No 960305H01 Report Format Version 2 0 5 ADT CORP 6 PHOTOGR
42. eport No CE951115H04B Reference No 960305H01 63 Report Format Version 2 0 5 ADT CORP p TEST MODE Mode 2 DC 48V De c seen esten oua voe SIGNAL PORTS AND TELECOMMUNICATION PORTS NN E are OBSERVATION NOTE 1 The EUT time out during the test but could be self recoverable after the Report No CE951115H04B Reference No 960305H01 64 Report Format Version 2 0 5 ADT CORP 5 8 IMMUNITY TO CONDUCTED DISTURBANCES INDUCED BY RF FIELDS CS 5 8 1 TEST SPECIFICATION Basic Standard EN 61000 4 6 Frequency Range 0 15 MHz 80 MHz Voltage Level 3V Modulation 1kHz Sine Wave 80 AM Modulation Frequency Step 1 of fundamental Coupled Cable Power Mains Unshielded Signal Control Line Coupling Device CDN M2 2 wires 3 wires CLAMP Dwell Time 3 seconds 5 8 2 TEST INSTRUMENTS DESCRIPTION amp MANUFACTURER MODEL NO SERIAL NO CALIBRATED UNTIL R amp S Signal Generator SML 01 102731 Jan 05 2007 AR Amplifier 75A250AM1 307297 BOONTON RF Voltage Meter 4230 LUTHIE EM Injection Clamp EM 101 FCC CDN M2 FCC 801 M2 16A FCC CDN M3 FCC 801 M3 16A NA May 22 2007 Apr 11 2007 Dec 22 2007 Dec 22 2007 Fischer Custom Communications Inc FCC 801 T2 Coupling Decoupling Network Oct 16 2007 Fischer Custom Communications Inc Coupling Decoupling Network 801 4
43. h as clock frequency ies and harmonics or frequencies of dominant interest shall be analyzed separately e Attempts should be made to fully exercise the EUT during testing and to fully interrogate all exercise modes selected for susceptibility Report No CE951115H04B 66 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 8 4 TEST SETUP 0 5m 0 1 m L 03M CDN T2 T4 Mains E _ Fl CDN M2 N3 1712 F Laut 1 1 Balanced E pair 0 5 m Mains Unscreened multi wire FF cable Insulation is EM Injection Clamp optional Beses mezz Test Reference ground plane generator NOTE 2 Fixed attenuator 6 L ICM E Note 1 The EUT is setup 0 1m above Reference Ground Plane 2 The CDNs and or EM clamp used for real test depends on ports and cables configuration of EUT For the actual test configuration please refer to the related item Photographs of the Test Configuration FLOOR STANDING EQUIPMENT The equipment to be tested is placed on an insulating support of 0 1 meters height above a ground reference plane All relevant cables shall be provided with the appropriate coupling and decoupling devices at a distance between 0 1 meters and 0 3 meters from the projected geometry of the EUT on the ground reference plane Report No CE951115H04B 67 Report Format Version 2 0 5 Refer
44. he interconnection line between the EUT and the coupling decoupling networks shall be 2 meters in length or shorter Report No CE951115H04B 61 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 7 4 TEST SETUP For EUT Power Supply Combination Wave Generator Coupling amp DC AC Power Line AC DC DecouplingNetwork For test applied to unshielded unsymmetrically operated interconnection lines of EUT or for test applied to unshielded symmetrically operated interconnection telecommunication lines of EUT Combination Coupling amp Wave Generator Decoupling Network For the actual test configuration please refer to the related item Photographs of the Test Configuration Report No CE951115H04B 62 Report Format Version 2 0 5 Reference No 960305H01 5 7 5 TEST RESULTS ADT CORP INPUT POWER TEST MODE Mode 1 Be 230Vac 50Hz ENVIRONMENTAL 20 deg 54 CONDITIONS 965 hPa TESTED BY Duke Tseng 1 POWER PORT VOLTAGE TEST POLARITY PERFORMANCE kV POINT OESERVATION CRITERION 0 5 L1 L2 m NOTE 1 B 0 5 1 L1 GND 3j NOTE 1 B 0 5 1 L2 GND NOTE 1 B SIGNAL PORTS AND TELECOMMUNICATION PORTS OBSERVATION VOLTAGE kV POLARITY PERFORMANCE CRITERION 0 5 NOTE 1 The EUT time out during the test but could be self recoverable after the test NOTE 1 B R
45. ing Plane 1 6m x 0 8m was placed on the table and attached to the GRP by means of a cable with 940kQ total impedance equipment under test was installed in a representative system as described in section 7 of EN 61000 4 2 and its cables were placed on the HCP and isolated by an insulating support of 0 5mm thickness A distance of 1 meter minimum was provided between the EUT and the walls of the laboratory and any other metallic structure FLOOR STANDING EQUIPMENT The equipment under test was installed in a representative system as described in section 7 of EN 61000 4 2 and its cables were isolated from the Ground Reference Plane by an insulating support of 0 1 meter thickness The GRP consisted of a sheet of aluminum that is at least 0 25mm thick and 2 5 meters square connected to the protective grounding system and extended at least 0 5 meters from the EUT on all sides Report No CE951115H04B 47 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 4 5 TEST RESULTS INPUT POWER TEST MODE Mode 1 SYSTEM 230Vac 50Hz ENVIRONMENTAL 20 deg C 56 RH CONDITIONS 965 hPa TESTED BY Anderson Chen TEST RESULTS OF DIRECT Discharge Polarity Test Contact Performance Level kV RAR Point Rec a Criterion 2 4 A 2 4 Note A Description of test point Please refers to following photos for representative mark only TEST RESULTS OF INDIRECT APPLICATI
46. lded wire terminated with PS2 connector via drain wire w o core NA NA NA NA 9 INA Harmonics Current Voltage Fluctuation and Flicker Immunity test No Signal cable description 1 2 3 INA 4 5 Note 1 All power cords of the above support units are unshielded 1 8m Report No CE951115H04B 12 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP For Conducted and Radiated test AC Mode STP cable 1m Loop STP cable 10cm Loop POTS cable 1m POTS cable 1m Line cable 10m 600 Ohm 600 Ohm 600 Ohm STP cable 1m STP cable 1m Line Cable 10m UTP Cable 10m RJ11 Cable 10m 2 MONITOR EN 1 PERSONAL COMPUTER 4 MOUSE 3 KEYBOARD CONTROL ROOM 7 NOTEBOOK 8 NOTEBOOK COMPUTER COMPUTER NOTE 1 Support units 1 8 were kept in the control room during the test 2 Please refer to the photos of test configuration in Item 6 also Report No CE951115H04B 13 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP For Conducted and Radiated test DC Mode E STP cable 1m Loop STP cable 10cm Loop POTS cable 1m POTS cable 1m Line cable 10m STP cable 1m STP cable 1m 9 POWER SUPPLY Line Cable 10m RJ11 Cable 10m 2 MONITOR 1 PERSONAL COM
47. lso CONTROL ROOM Report No CE951115H04B 16 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 4 EMISSION TEST 4 1 CONDUCTED EMISSION MEASUREMENT 4 1 1 LIMITS OF CONDUCTED EMISSION MEASUREMENT Class A dBuV Class B dBuV Quasi peak Average Quasi peak Average 66 56 56 46 Ex ae eee e 60 60 50 FREQUENCY MHz 5 0 30 0 73 NOTE 1 The lower limit shall apply at the transition frequencies 2 The limit decreases in line with the logarithm of the frequency in the range of 0 15 to 0 50 MHz 3 All emanations from a class A B digital device or system including any network of conductors and apparatus connected thereto shall not exceed the level of field strengths specified above 4 1 2 TEST INSTRUMENTS DESCRIPTION amp MODEL NO SERIAL NO CALIBRATED MANUFACTURER UNTIL ROHDE amp SCHWARZ Test Receiver ESCS 30 100287 Feb 20 2007 Line Impedance Stabilization ENV 216 100072 Oct 26 2007 Network for EUT i Line Impedance Stabilization ESH3 Z5 848773 004 Oct 26 2007 Network for Peripheral RF Cable JETBAO RG233 U Cable CA 01 Jul 19 2007 Terminator 50 Oct 30 2007 Software ADT Cond V732 NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 2 The test was performed in ADT Shielded Room No A 3 The VCCI Con A Registration No is C
48. on during the test Report No CE951115H04B 55 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 6 ELECTRICAL FAST TRANSIENT BURST IMMUNITY TEST EFT 5 6 1 TEST SPECIFICATION Basic Standard EN 61000 4 4 Test Voltage Power Line 1 kV Signal Control Line 0 5kV Polarity Positive Negative Impulse 5 kHz Frequency Impulse 5 50 ns Waveshape Burst Duration 15 ms Burst Period 300 ms Test Duration Not less than 1 min 5 6 2 TEST INSTRUMENTS DESCRIPTION amp MANUFACTURER MODEL NO SERIAL NO CALIBRATED UNTIL EMC PARTNER TRANSIENT TRA1Z332N 683 Feb 15 2007 EMC PARTNER CN EFT100 Adapter EMC Partner CN EFT100 NA 352 SU1ADA 002 NA Dec 23 2007 Partner Software Test Manger_V1 53 NA NA NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 2 The test was performed in EMS room B 5 6 3 TEST PROCEDURE Both positive and negative polarity discharges were applied b The length of the hot wire from the coaxial output of the EFT generator to the terminals on the EUT should be 0 5 m 0 05 m c The duration time of each test sequential was 1 minute The transient burst waveform was in accordance with EN 61000 4 4 5 50ns Report No CE951115H04B Reference No 960305H01 56 Report Format Version 2 0 5
49. ormat Version 2 0 5 Reference No 960305H01 ADT CORP 4 2 CONDUCTED EMISSION MEASUREMENT AT TELECOMMUNICATION PORTS 4 2 1 LIMIT OF CONDUCTED COMMON MODE DISTURBANCE AT TELECOMMUNICATION PORTS FOR CLASS A EQUIPMENT FREQUENCY MHz Voltage Limit dBuV i peak Average Quasi peak Current Limit dBuA Average 0 15 0 5 97 87 84 74 53 43 0 5 30 0 87 74 43 FOR CLASS FREQUENCY B EQUIPMENT Voltage Limit dBuV Current Limit dBuA MHz Quasi peak Average Quasi peak Average 0 15 0 5 84 74 74 64 NOTE 1 4 2 2 TEST INSTRUMENTS DESCRIPTION amp MANUFACTURER MODEL NO 40 30 30 20 The limits decrease linearly with the logarithm of the frequency in the range 0 15 MHz to 0 5 MHz CALIBRATED SERIAL NO UNTIL ROHDE amp SCHWARZ Test Receiver Line Impedance Stabilization Network for EUT ESCS 30 ENV 216 100287 Feb 10 2007 100072 Oct 26 2007 Line I ilizati ine Impedance Stabilization ESH3 Z5 Network for Peripheral 848773 004 Oct 20 2007 ENY 41 ROHDE amp SCHWARZ ISN 838119 024 Feb 24 2007 ENY 22 RG233 U ROHDE amp SCHWARZ ISN RF Cable JETBAO 837497 019 Feb 24 2007 CURRENT PROBE SMZ 11 Cable 01 Jul 18 2007 18001 Jul 25 2007 RF Current Probe F 35 Jul 04 2007 Capacitive Voltage Probe CVP 2200 RF ABSORBING CLAMP KEMA 801 18
50. ort 0 1 meters in height The system under test was connected to the power and signal wire according to relevant installation instructions Report No CE951115H04B 53 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 5 5 TEST RESULTS INPUT POWER TEST MODE Mode 1 SYSTEM 230Vac 50Hz ENVIRONMENTAL 22 deg C 57 RH CONDITIONS 965 hpa TESTED BY 9 00 Field Frequency Result Polarity Azimuth Strength SEE Performance MHz vation Criterion V m 80 800 MHz PASS V amp H 0 3 80 800 MHz PASS V amp H 90 3 Note A 80 800 MHz PASS V amp H 180 3 80 800 MHz PASS V amp H 270 3 Field Frequency Result Polarity Azimuth Strength Saar Performance MHz vation Criterion V m 800 960 MHz PASS V amp H 0 10 800 960 MHz PASS V amp H 90 10 Note A 800 960 MHz PASS V amp H 180 10 800 960 MHz PASS V amp H 270 10 Field Frequency Result Polarity Azimuth Strength er Performance MHz vation Criterion V m 960 1000 MHz PASS V amp H 0 3 960 1000 MHz PASS V amp H 90 3 Note 960 1000 MHz PASS V amp H 180 3 960 1000 MHz PASS V amp H 270 3 Field Frequency Result Polarity Azimuth Strength 2 vation Criterion V m 1400 2000 MHz PASS V amp H 0 10 1400 2000 MHz PASS V amp H 90 10 Note A 1400 2000 MHz PASS V amp H 180 10 1400 2000 MHz PASS V amp H 270 10
51. rator was removed from the EUT and re triggered for a new single discharge The test was repeated until all discharges were complete At least ten single discharges in the most sensitive polarity were applied to the Horizontal Coupling Plane at points on each side of the EUT The ESD generator was positioned vertically at a distance of 0 1 meters from the EUT with the discharge electrode touching the HCP At least ten single discharges in the most sensitive polarity were applied to the center of one vertical edge of the Vertical Coupling Plane in sufficiently different positions that the four faces of the EUT were completely illuminated The VCP dimensions 0 5m x 0 5m was placed vertically to and 0 1 meters from the EUT Report No CE951115H04B 46 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 4 4 TEST SETUP m Vertical a coupling plane 0 5mm Isolation Support A ESD Generator 470kQ a X4 Nearest Wall Horizontal coupling plane ES Reference Ground Plane For the actual test configuration please refer to the related item Photographs of the Test Configuration NOTE TABLE TOP EQUIPMENT The configuration consisted of a wooden table 0 8 meters high standing on the Ground Reference Plane The GRP consisted of a sheet of aluminum at least 0 25mm thick and 2 5 meters square connected to the protective grounding system A Horizontal Coupl
52. rding to the following specifications EMISSION Standard Test Type Result Remarks Meets Class A Limit Conducted Test PASS Minimum passing margin is 0 44 dB at 0 615 MHz EN 55022 1998 mS Meets Class A Limit 1 2000 2 2003 Telecommunication PASS Minimum passing margin is Class B Ports Conducted Test 18 77 dB at 0 240 MHz Meets Class A Limit Radiated Test PASS Minimum passing margin is 2 3 dB at 177 40 MHz The power consumption of PASS EUT is less than 75W and EN61000 3 2 2000 Harmonic current Class A emissions limits apply Meg eee fluctuations amp PASS Meets the requirements IMMUNITY Standard Test Type Result Remarks Electrostatic EN 61000 4 2 1995 Meets the requirements of A1 1998 A2 2001 885 PASS Performance Criterion A Radiated 61000 4 3 1996 radio frequency PASS Meets the requirements of A1 1998 A2 2001 electromagnetic field Performance Criterion A immunity test Electrical fast Meets the requirements of EN 61000 4 4 2004 transient burst PASS TAN immunity test Performance Criterion B EN 61000 4 5 1995 Meets the requirements of A1 2001 Surge immunity test PASS Performance Criterion B Immunity to EN 61000 4 6 1996 Meets the requirements of disturbances induced PASS TANE 1 2001 by radio frequency Performance Criterion A fields Report No CE951115H04B 6 Report Format Version 2 0 5 Referen
53. s varied from one meter to four meters above the ground to determine the maximum value of the field strength Both horizontal and vertical polarization of the antenna are set to make the measurement For each suspected emission the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters and the turn table was turned from 0 degrees to 360 degrees to find the maximum reading The test receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode If the emission level of the EUT in peak mode was 10 dB lower than the limit specified then testing could be stopped and the peak values of the EUT would be reported Otherwise the emissions that did not have 10 dB margin would be re tested one by one using the quasi peak method or average method as specified and then reported In Data sheet peak mode and QP mode 4 3 4 DEVIATION FROM TEST STANDARD No deviation Report No CE951115H04B 30 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 4 3 5 TEST SETUP Ant Tower 1 4m Variable EUT amp iom Support Units Turn Table P Ground Plane Test Receiver 0000 0000 For the actual test configuration please refer to the related item Photographs of the Test Configuration 4 3 6 EUT OPERATING CONDITIONS Same as 4 1 6 Report No CE951115H04B 31 Report Format Version 2 0 5 Reference No 960305H01
54. switching equipment by normal subsequent use 5 3 EUT OPERATING CONDITION 1 Turn on the power of all equipment 2 Prepared other computer systems support units 1 4 to act as communication partners and placed them outside of testing area 3 The computer systems Support units 3 and 4 run ping exe test program to enable EUT under transmission receiving condition continuously via line cable and RJ11 cables Report No CE951115H04B 44 Report Format Version 2 0 5 Reference No 960305H01 ADT CORP 5 4 ELECTROSTATIC DISCHARGE IMMUNITY TEST ESD 5 4 1 TEST SPECIFICATION Basic Standard EN 61000 4 2 Discharge Impedance 330 ohm 150 pF Discharge Voltage Air Discharge 2 4 kV Direct Contact Discharge 2 4 kV Direct Indirect Polarity Positive Negative Number of Discharge Minimum 10 times at all test point Discharge Mode Single Discharge Discharge Period 1 second minimum 5 4 2 TEST INSTRUMENTS DESCRIPTION amp MANUFACTURER MODEL NO SERIAL NO CALIBRATED UNTIL NoiseKen ESD Simulator ESS 100L A 0189C01491 June 20 2007 Key Tek ESD Simulator MZ 15 EC 9906323 April 06 2007 NOTE 1 The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML ROC and NIST USA 2 The test was performed in ESD room A 5 4 3 TEST PROCEDURE The immunity test method and laboratory conditions are described in EN61000 4 2 7 ESD shall be appli
55. 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 the minimum performance level or the permissible performance loss is not specified by the manufacturer then either of these may be deduced from the product description and documentation and what the user may reasonably expect from the apparatus if used as intended CRITERION B phenomenon degradation of performance is however allowed 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 exposure to an electromagnetic 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 deduced from the product description and documentation and what the user may reasonably expect from the apparatus if used as intended CRITERION C function is allowed provided the function is self recoverable or As defined in clause 6 of EN50082 1 2 temporary loss of can be restored by the operation of the controls or in the case of
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