A Test Lab Techno Corp. EMC Test Report
Contents
1. Limits 3 30 o00ms 4 00 96 3 30 dt gt Lim dtLim Test completed Result PASSED 38 of 92 FX _ e LE A Test Lab Techno Corp Report Number 1310CE16 03 4 4 6 Test Photograph Test Mode Mode 1 Description Front Vievv of Flicker Test 39 of 92 FX e G A Test Lab Techno Corp 5 1 5 1 1 5 1 2 Report Number 1310CE16 03 Immunity Test Electrostatic Discharge ESD Test Specification EN 61000 4 2 Environmental Phenomena Test Specification Performance Criterion Enclosure Port m 8 Air Discharge Electrostatic Discharge kV Charge Voltage 4 Contact Discharge Test Instrument Equipment Model Number Serial Number Cal Date Discharge Gun Noiseken ESS 2002 ESS05Y4736 03 14 2013 0 8m N C R Height Wooden Table EM zz Test Test Site TEM TEA N NCR R Remark Calibration period 1 year SEE period 2 years Note N C R No Calibration Request Setup Shielding Room 10 cm VCP 0 5m 0 5m ESD Simulator System Insulating Support 0 5mm 4f0k ohm HCP 1 6m 0 8m soem wee Ground Reference Plane 40 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 5 1 4 Test Procedure The discharges shall be applied in two ways a Contact discharges to the conductive surfaces and coupling planes The EUT shall be exposed to at least 200 discharges 100 each at negative and positive2. 0 0 1000 0001500 00 2000 00 2500 00 3000 00 3500 00 4000 00 4500 00 5000 00 6000 00 MHz m mn Factor dB m ETE dBuV m dB DE XE INE NAME AR RE RR leno sem wm m wo 4m ae Note 1 Result dBuV Correction factor dB Reading dBuV 2 Correction factor dB m Antenna Factor dB m Cable loss dB Pre Amplifier gain dB 27 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 Standard EN 55022 Class B Test Distance 3m Test item Radiated Emission Power AC 230V 50Hz Model Number X1273 Temp C Hum RH 26 C 60 RH Mode 1 1GHz 6GHz Date 2013 09 26 Ant Polar Vertical Test By Frank Lin 100 0 dBuY m Limit Limite 0 0 1000 0001500 00 2000 00 2500 00 3000 00 3500 00 4000 00 4500 00 5000 00 6000 00 MHz 7 EN Factor dB m dBuV m dB ER R ne 25 e osoo eus CE mwe Note 1 Result dBuV Correction factor dB Reading dBuV 2 Correction factor dB m Antenna Factor dB m Cable loss dB Pre Amplifier gain dB 28 of 92 C au A Test Lab Techno Corp Report Number 1310CE 16 03 4 2 6 Test Photograph Test Mode Mode 1 Description Front View of Radiated Emission Test Below 1GHz N EE ON UR 1 33 x Test Mode Mode 1 Description Back View of Radiated Emission Test Below 1GHz 29 of 92 FX G EE A Test Lab Techno Corp Report Number 1310CE16 03 Test Mode Mode 1 De
3. D o a Test Points Criterion Front Back Left Right moe o esee o oos o pce o n 08 fox ge o o ce 0 0 ee o pce 00 08 pos or cce n m ce 00 08 Contact Discharge Test t4 ir 8 w a m cele e DIR a o aos fer TS e 08 e a o fox Poo m ulm min o To om e lm Pam EN ra o Top lr lt N n n n n m n a 3 Bottom Points O Kl O Kl D Front Back Left Right 4 O Ol O w D De HA De gt O Ul Top x H m Ground Shield of All O connectors KIA LIB Bottom Contact Discharge Test Levels Results Criterion Criterion kV Criterion kV Criterion hi USB Por ne m m m lmim mimim mim E eA A ell A m os jefes jem mi mim mim E De efes Es mlma msl e G El lma De a B Xx Ol RS 232 Port m m D Sub 1 in Port E m m E bd Tir O O o m D Sub 2 in Port E gt O D Sub out Port B S Video Port A B A HB BA HB ep mm m n m m n m mislm us nr s m sinin minis ce g m mh ere n m gimme m s m m ns m omla n e For the tested points to EUT please refer to attached page 4 gt O EN Ol Blue arrow mark for Air Discharge and red arrow mark for Contact Discharge Note 1 Criterion A There was no change compared with initial operation during the test Criterion B There Monitor break down then and can
4. LA E T 1 Ground Reference Plane Non Conducted Table 80 em Ground Wire gt Ground Plane Signal Generator Power Amplifier EM Clamp Method Shielding Room Insulating Support sd SES 10 cm I ee xem nm Es 2H 5 a Ground Reference Plane Non Conducted Table 80 em Ground Wire gt Ground Plane 57 of 92 FX QY ea Ell A Test Lab Techno Corp Report Number 1310CE16 03 5 5 4 Test Procedure 5 5 5 The EUT shall be tested within its intended operating and climatic conditions The test shell 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 The frequency range was 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 was modulated with a 1 kHz sine wave pausing to adjust the RF signal level or the switch coupling devices as necessary The sweep rate was 1 5 x 107 decades s Where the frequency range is swept incrementally the step size was 1 of preceding frequency value from 150 kHz to 80 MHz The dwell time at each frequency was less than the time necessary for the EUT to be exercised and able to respond Sensitive frequencies such as clock frequency and harmonics or frequencies of dominant interest was analyzed separately A
5. A Test Lab Techno Corp Report Number 1310CE16 03 4 2 3 Setup Below 1GHz VVVVVVVVVVVVVVVVVvVVVVVvVvVVVVVvVvVVVVVVV Semi Anechoic Chamber T e IT nm fo dm Antenna e L Be br e e AAAAAAAAAAAAA Measurement Instrument Control Room Above 1GHz VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV V Semi Anechoic Chamber T DE imtodm Antenna VVVVVVVVVVVV V AVAVAVAVATATAVAVAVAVAVATA er Ground Plane Measurement TO Above 1GHz only instrument S _ l Control Room 23 of 92 FX QY G A Test Lab Techno Corp 4 2 4 Report Number 1310CE16 03 Test Procedure The EUT and its simulators are placed on a turn table vvhich is 0 8 meter above ground VVhen the EUT is floor standing equipment it is placed on the ground plane which has a 15 cm non conductive covering to insulate the EUT from the ground plane The turn table can rotate 360 degrees to determine ihe position of the maximum emission level The EUT was positioned such that the distance from antenna to the EUT was 10 meters for under 1GHz and 3 meter for above 1GHZ if the highest internal source frequency of the EUT is higher than 108 MHz The highest internal source of a EUT is defined as the highest frequency generated or used within the EUT or on which the EUT operates or tunes If the highest frequency of the internal sources of the EUT is less than 108 MHz the measurem
6. FX LE A Test Lab Techno Corp Report Number 1310CE16 03 29 EUT Photo TIT di AS 30 EUT Photo E d gi OZ og OF OS 09 OL 08 06 00L NS OF OS 08 OL 08 06002 0 MIL v os oa oL 08 08004 l oz OF OF OS 09 OL IIH js E iy j ch be sip dl Cd gt wm EE OY de 02 ul 02 09 08 oL 09 os or oe oz a OOL 06 08 OL 09 OS OF OF OZ i s LOONE GONE 80 of 92 Report Number 1310CE 16 03 FEN e Ve il A Test Lab Techno Corp 31 EUT Photo DE OF a L 08 Z m of k OF oa 09 l oa oa 00 m oz Li pipip wy il Pu MAA d BEE Ge OF DOC 06 OF ou 06 OF OF OF m gogon mu OF 06 OF OF oz o DOL 06 08 08 kaana 32 EUT Photo An Il WI j ALL R Ji iil WU d w OL OZ 0 Ob OS 09 OL 08 06 QQL OL 02 OF Or ds 09 OL 08 TIT il IER TELPA LIT HIR 3 hl ri ALL i L lil TL lil LA 1 1 8 b 105 Gf 01 00 06 OF OF 02 01 007 06 08 09 OS OF OF Z OL NOL 06 08 L 09 OS OF OZ OL slali k B 5 D Ce oz 06 Op 06 08 oz 08 06 DOL oL oz os or os oL 08 06 Z o oz o ie ko 7 MENS 00 de ne z oL 00406 08 ni 09 no n 81 of 92 FX QY GER A Test Lab Techno Corp Report Number 1310CE 16 03 33 EUT Photo rer Ej KN 1 i ULU bill BN 3212000 i o 09 0 09 OP 02
7. 0 4000 0 1840 0 3300 0 1533 0 2100 0 1314 0 1500 0 1150 0 1324 0 1022 0 1184 0 0920 0 1071 0 0836 0 0978 0 0767 0 0900 0 0708 0 0833 0 0657 0 0776 0 0613 0 0726 0 0575 0 0682 0 0541 0 0643 0 0511 0 0608 0 0484 0 0577 0 0460 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 The highest harmonics values in the above table may not occur at 2 e LE A Test Lab Techno Corp Report Number 1310CE16 03 4 3 6 Test Photograph Test Mode Mode 1 Description Front Vievv of Povver Harmonics Test 35 of 92 QY GER A Test Lab Techno Corp Report Number 1310CE 16 03 4 4 Voltage Fluctuation and Flicker 4 4 1 Limit The following limits apply the value of Pa shall not be greater than 1 0 the value of Py 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 96 the maximum relative voltage change dmax shall not exceed a 4 without additional conditions b 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 ten
8. 00 Long term Flicker Pl 0 07 0 65 Limit D ER Gi 0 00 4 00 Volt Change d max Maximum Eelative Limit dao ER 0 01 Relative Steady state Yoltage Change de Limit dc 3306 ER c c 1 1 1 1 exceeding 3 30 dt 0 00ms Hax mum nterval i I I I 1 1 1 1 I I I 1 I 500ms Limit dt Lin e L e e A O A e e L e e A ae e ell eed e 1 L 1 1 I k5 L 1 41 i 1 1 1 1 1 Lae Ll 1 1 AAA A eed eed I I I I I I 1 I L 1L1 J4J lL L L l1 J 1 I 1 1 I 1 1 o m e e e 1 I I I I I I I 1 1 LL 1 A A LL Ld I 1 1 1 1 1 L 1L1 4J J l L L 1 J 1 1 1 1 1 1 1 1 1 1 41 4 1 41 4 1 1 1 1 1 1 1 1 A E 1 i 1 1 sul iene cnr rl A I I I I I I I I CH 0 01 AURA PM 5 521 Flicker Emission IEC 61000 3 3 EN G1000 3 EN60553 3 di Fange non TestTime 10 von 100 zal V A pi 1 015 Test completed Result PASSED ITOTSR E 2A Range cf 49 987 1 645A Freq lpk S 229 7V Urms Irms 1 621 1 015A 227 1W 0 974 233 1VA pf 1 x 10min 10min 100 Test Time 0 24ohm j0 150hm N 0 16ohm j0 100hm LIN Line Impedance Network Pit 0 65 Pst 1 00 dc dmax
9. 09 09 d d n n L 06 OOL o oz os os 09 o 08 06006 Hm Un Ur UM T UI HAND iki TUI ll l S 0 oz ol 002 06 08 0 09 OS Ob 0 02 OL OL 06 08 OL 09 OS Ot OZ 01 21 p oc 08 0 of oz oL Z oe 08 OL 09 OG OF 50 EUT Photo 90 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 51 EUT Photo m D L OL OZ OE OF OS 09 01 FE FT D DLA KJ ELU KLA LUJ KJ LA LU LUJ LUJ UK MU v oL OZ OF OF OS 09 OL OB 06 os 09 oz 08 06 OOL oL oz os Ov os 09 o 08 08 002 oi oz E i i uuuulul HII nn DI 02 06 02 OL 00Z 06 08 OL 09 OS 02 02 onge 09 0 ol l 52 EUT Photo 91 of 92 Report Number 1310CE 16 03 TIN QY ak A Test Lab Techno Corp 53 EUT Photo QUIT J 06 DE OF OS 09 OS 09 OL oe 06007 o d TO OO 08 06 DOL L r 02 og OF OS 09 oz 08 06 OOL oL oz o N jill uu OL OZ Of OF OS 09 01 el i i i M baja janja numunmm firi uu A n iL 09 oc OF og 02 Ol 002 06 08 OL 09 09 OF OF 02 Ol QOL 06 08 OL 09 OG OP OF 02 o g L 06 08 OL 09 OS OF OZ gt 008 os o 09 09 oe oz oL 002 06 08 oL 09 06 OF ce 02 OL 001 9 0 2 54 Photo 92 of 92
10. 1 Description Front View of Surge Test AC Mains Port 95 of 92 FX _ A Test Lab Techno Corp Report Number 1310CE 16 03 5 5 Conducted Susceptibility CS 5 5 1 Test Specification EN 61000 4 6 Units Performance Criterion 3 V rms Un modulated mme Radio Frequency Continuous Conducted Input DC Power Ports MHz 0 15 80 Fae 5 Continuous Conducted V rms Un modulated 3 AM 1kHz Input AC Power Ports 0 15 80 rimuous Conducted L Vis Un modulated 3 Continuous Conducted V rms Un modulated AM KH EUT tested in accordance with the specifications given by the standard of EN 61000 4 6 Step 1 Step time 3 Second 5 5 2 Test Instrument Equipment Model Number Serial Number Cal Date Signal Line Coupling FCC 801 T2 RJ11 8017 07 15 2013 Decoupling Network FCC 801 T4 RJ45 8018 07 15 2013 FCC 801 M2 M3 16A S 8030 07 15 2013 Signal Line Coupling Decoupling Network Signal Line Coupling Decoupling Network NRP Z91 POWER SENSOR Amplifiers NRP Z91 100613 07 15 2013 Gren 328728 F 2031 23MM Remark Calibration period 1 year 2 Calibration period 2 years De coupling Netvvork EM Injection Clamp F 2031 23MM 8576 07 15 2013 E Note N C R No Calibration Request 56 of 92 2 e GER A Test Lab Techno Corp Report Number 1310CE16 03 5 5 3 Setup CDN Method Shielding Room Support d e em CDN Fixed Pad
11. 26 0 26 0 950 26 0 950 23 7 49 3 950 22 4 51 3 950 24 4 99 9 950 15 35 30 60 860 1060 15 35 30 60 860 1060 15 35 22 3 10 75 55 8 860 1060 950 23 8 90 2 950 15 35 22 9 25 75 52 0 860 1060 950 15 35 24 4 25 75 99 9 860 1060 950 14 of 92 A Test Lab Techno Corp Report Number 1310CE 16 03 4 Emission Test 4 1 Conducted Emission Measurement 4 1 1 Limit A C Mains Conducted Interference Limit Frequency Class A dBuV Class B dBuV EE 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 0 15 to 0 50 MHz Telecommunication Port Conducted Interference Limits Class A Equipment Class B Equipment Requirement Voltage Limit Current Limit Se Current Limit MHz dBuV ABLA Voltage Limit ABpV ABLA 4 1 2 Test Instruments ESCI R amp S ENV216 o RES ENV216 0 FCC FCC TLISN T2 02 1 FCC FCC TLISN T4 02 1 ISN T8 p Remark Calibration period 1 year Calibration period 2 years Note N C R No Calibration Request 15 of 92 FX e G A Test Lab Techno Corp 4 1 3 Test Setup A C Mains Setup gt Vertical Reference Ground Plane 40 em EU 1 AE AAA AA UI08 I gt Horizontal Ground Reference Plane lt Telecommunication Port Setup gt Vertical Reference Ground Plane 40 em gt Horizontal Gr
12. EUT Photo I 4 0 ni DR DOE OL OZ Of D oF qT gu 02 OG OF da mo w 004 CS OF Di a ae OG EOL DOE OF a 06 OF OF al E 08 Da oc OF OZ 01 00700 OF 6 09 09 DE oe w i kaanu 14 EUT Photo LU BODE a Gr oF ca AN N l DO uz ot r t m te on ni DD Temm III hi Hmm ie EU w AN Wl ii j NET LS a amp la ogra du di da da Fada ARA AA 1 AA Qua A II jiria itle e T NEE z tn td im dz si L oe mn ni a R 72 of 92 Report Number 1310CE 16 03 7 Ge LE A Test Lab Techno Corp 15 EUT Photo m a 08 05 068 LE ES E EI ga oz ce r 06 oa l og OOF DE DE OF OS 09 1 UO INN E Um m r pm ul files ne l ca s r 06 52 l 00705 on mmm k o DOL A AGOna 16 EUT Photo DE 111 MM OF 06 08 OL pe 08 OL 08 08002 OL OZ oe DE OF 06 08 OL 08 06 00 m 0 d LIAN TIM HV MIHI DE r OS ca OL ce 06 D Z o 0 Li OL 08 05 OOL OL oz ce 08 8 oz of 06 DUL o os 08 DE 06 02 oui eu l DEOS OF l da z OF 2 l 002 06 08 Of 09 05 OF OF 02 o om 06 ASOTVE 73 of 92 FX QY LE A Test Lab Techno Corp Report Number 1310CE16 03 17 EUT Photo 18 EUT Photo r sh 74 of 92 77 A Test Lab Techno Corp Report Number 1310CE 16 03 19 EUT Photo i o 0000 0000 i WWW
13. Final Test Mode Conducted Emission Mode 1 Below 1GHz Mode 1 Above 1GHz Mode 1 Radiated Emission Emission Harmonic current emissions Mode 1 Voltage fluctuations amp flicker Mode 1 ESD Mode 1 Mode 1 EFT Mode 1 Immunity Surge Mode 1 C Mode 1 PMF Mode 1 Voltage dips amp voltage variations Mode 1 JJ Then the above highest emission mode of the configuration of the EUT and cable was chosen for all final test items 10 of 92 FEN _ QY A Test Lab Techno Corp Report Number 1310CE16 03 3 2 EUT Exercise Software 7 Start to test till get the worst reading 8 Repeat the above procedure 3 to 7 11 of 92 EN Ge eli A Test Lab Techno Corp Report Number 1310CE16 03 3 3 Configuration of Test System Details Mode 1 deiere rr rre ree AS CA rn I A I 7 1 6 i EUT su q Po E F 2 DVD Player 9 Earphone 3 4 Remote Keyboard Mouse Control i Signal Cable Type Signal Cable Description D SUB Cable Shielded 1 8m with two cores EN D SUB Cable Shielded 1 8m with two cores S Video Cable Shielded 1 8m D Video Cable Non Shielded 1 5m USB Cable Shielded 1 8m USB Cable Shielded 1 8m USB Cable Shielded 1 8m RS 232 Cable Shielded 1 8m EE Earphone Cable Non Shielded 1 2m Audio Cable Non Shielded 1 8m AC Power Cable Non Shielded 1 8m Note Accessory by manufacturer 12 of 92 F
14. be self recover on the screen 15 kV Criterion B was only for acer specification 42 of 92 adu A Test Lab Techno Corp Report Number 1310CE 16 03 Discharge To Horizontal Coupling Plane Test Levels Results Side of EUT Perf nce Criterion Fa H H a BH j H o ja mi Bx m B a gH e o ja LS HB el BH m o ja mi Rm m mg gm m m cg m ml Discharge To Vertical Coupling Plane Side of EUT Perf Criterion EH m a a BH o E H Be LS a H a m o m mil LS HB a EB H o ja mi Rm m m H HB m o ja j Note There was no change compared with initial operation during the test 43 of 92 V EI A Test Lab Techno Corp Report Number 1310CE 16 03 5 1 6 Test Photograph Test Mode Mode 1 Description Front View of ESD Test Test Mode Mode 1 Description Close View of ESD Test 44 of 92 FX e Ve kil A Test Lab Techno Corp Report Number 1310CE16 03 Test Mode Mode 1 Description Close View of ESD Test Test Mode Mode 1 Description Close View of ESD Test 45 of 92 FX _ QY eli A Test Lab Techno Corp 5 2 5 2 1 5 2 2 Report Number 1310CE16 03 Radiated Electromagnetic Field RS Test Specification EN 61000 4 3 Environmental Phenomena Test Specification Performance Criterion Enclosure Port Test Frequency Range MHz 80 1
15. of function Additional Information C EUT stopped operation and could could not be reset by operator at dBuV V at frequency___ MHz No false alarms or other malfunctions were observed during or after the test Note 2 The power is temporary off and can be reset by the operator 64 of 92 EIN e eki A Test Lab Techno Corp Report Number 1310CE16 03 5 7 6 Test Photograph Test Mode Mode 1 Description Front Vievv of Dips Test 65 of 92 FX LE A Test Lab Techno Corp Report Number 1310CE16 03 6 EUT Photograph 1 EUT Photo I A E OL 00 06 Q OL 02 ot oF or os ca 00 06 Z m 02 r os 09 os OF ODE o z oe oF os ca o ce cal D OPR TIRE S P i RE 7 1 icm qiu T TDI nuni HU 3 i vi T di 05 OF cc 03 o DJE E 08 Of 09 Es Uf DE DZ ul OZ 06 08 l 69 05 op 00 Z a DOL w w D 08 05 OF Ce o ADONE 2 EUT Photo Ke Baba at 002 l OZ Of OF 05 Da o l b UC o EC m zi e m e En OF ba oz 06 os 002 pl oz z r Oo ca ce ga celle pl oz ce or 06 ca l D n Grp KR Et T RUN i D DE DE r 06 TH lq M cJ miM MM EMEN 01 007 05 OF W 09 05 06 UZ 001 09 op op AGONE 66 of 92 Ge G A Test Lab Techno Corp Report Number 1310CE16 03 3 EUT Photo LL 06 02 ol aang 4 EUT Photo 67 of 92 Ge LE A Test Lab Techno Corp Report Number 1310CE16 03 5 EUT Ph
16. polarity at a minimum of four test points One of the test points shall be subjected to at least 50 indirect discharges to the center of the front edge of the Horizontal Coupling Plane HCP The remaining three test points shall each receive at least 50 direct contact discharges If no direct contact test point be available then at least 200 indirect discharges shall be applied in the indirect mode Test shall be performed at a maximum repetition rate of one discharge per second Air discharges at slots and apertures and insulating surfaces On those parts of the EUT where it is not possible to perform contact discharge testing the equipment should be investigated to identify user accessible points where breakdown may occur Such points are tested using the air discharge method This investigation should be restricted to those area normally handled by the user A minimum of 10 single air discharges shall be applied to the selected test point for each such area The basic test procedure was in accordance with EN 61000 4 2 The EUT was located 0 1 m minimum from all side of the HCP dimensions 1 6m x 0 8m The support units were located another table 30 cm away from the EUT but direct support unit was were located at same location as EUT on the HCP and keep at a distance of 10 cm with EUT The time interval between two successive single discharges was at least 1 second Contact discharges were applied to the non insulating coating with the poi
17. r Harmonic Emission IEC 61000 5 2 EN 61000 3 2 ENG 35 2 SOLS PM 05 339 2 Urre m i Y P 2272 W TH 014 A Range ZA 1016 A pi 0975 Vom 30 Test Tire 3 an CIO ITE Test completed Result PASSED fud L HAl 10600 ARC Pet Note For the following categories of equipment limits are not specified in this edition of the standard 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 33 of 92 2 QY ea Ell A Test Lab Techno Corp Urms Irms P THDi 230 1V 1 016A 227 9W 14 7 Test Time Freq lok S THDu 49 987 1 625A 233 7VA 0 10 3min 100 Test completed Result PASSED Order o 1 O E GOM 1 Dynamic limits were applied for this test Freq Hz 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700 1750 1800 1850 1900 1950 2000 lavg A 1 0035 0 0000 0 1396 0 0101 0 0366 0 0098 0 0241 0 0000 0 0161 0 0000 0 0107 0 0000 0 0073 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0
18. to Ground kV 1 Input DC Power Ports Surges Tr Th us 1 2 50 8 20 Line to Ground kV 0 5 Input AC Power Ports Surges Tr Th us 1 2 50 8 20 Line to Line KV Line to Ground kV 2 5 4 2 Test Instrument Equipment Model Number Serial Number Cal Date EMC PARTNER AG TRANSIENT wal zm 02 07 2013 Remark Calibration period 1 year Calibration period 2 years Note N C R No Calibration Request 5 4 3 Setup Shielding Room EM Test EFT Burst Generator Insulating Support o DESS Ground Reference Plane IF rai Clamp L 0 5m Non Conducted GroundWire D Table gt Ground Plane i Insulating Support L 0 5m AE 2 93 of 92 2 QY G A Test Lab Techno Corp Report Number 1310CE16 03 5 4 4 Test Procedure 0 For EUT power supply The surge is 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 was shorter than 2 meters in length b For test applied to unshielded un symmetrically operated interconnection lines of EUT The surge was applied to the lines via the capacitive coupling The coupling decoupling networks didn t influence the specified functional c
19. 000 RF Electromagnetic Field V m Un modulated rms Amplitude Modulated AM 1kHz EUT tested in accordance with the specifications given by the standard of EN 61000 4 3 Step 1 Step time 3 Second Test Instrument Equipment Model Number Serial Number Cal Date SMB 100A SIGNAL NRP Z91 POWER SENSOR us NRP Z91 100611 ess NRP Z91 POWER SENSOR NRP Z91 100612 07 14 2013 BONN BLWA Solid State Power Amplifier ELEKTRONIK 0830 160 100 40D 87050 wen Signal Generator Module SM300 Module 102209 onom Schwarzbeck BBHA 9120 Broad Band Horn Antenna 5 Elektronik BBHA 9120 E388 ranim Test TestSite mm 888000 Remark Calibration period 1 year period 2 years Note N C R No Calibration Request 46 of 92 27 LE A Test Lab Techno Corp Report Number 1310CE 16 03 5 2 3 Setup FullAnechoic Chamber Antenna Tower Antenna 4 39m _ CCD Camera E y r 80 em gt Ground Plane Signal Generator TT Monitor Fesch Amplifier 5 2 4 Test Procedure The test procedure vvas in accordance vvith 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 MHz to 1000 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 r
20. 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 lavg L 0 0000 6 0688 2 3913 3 2141 3 2552 3 1323 0 0000 4 0332 0 0000 3 2345 0 0000 3 4938 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 0 0000 Imax A 1 0067 0 0038 0 1398 0 0101 0 0367 0 0098 0 0243 0 0015 0 0162 0 0004 0 0112 0 0002 0 0079 0 0004 0 0052 0 0005 0 0034 0 0005 0 0020 0 0005 0 0012 0 0004 0 0016 0 0004 0 0022 0 0002 0 0027 0 0004 0 0029 0 0004 0 0028 0 0002 0 0026 0 0002 0 0023 0 0002 0 0020 0 0004 0 0017 0 0004 the same window as the maximum harmonics limit ratio 2 According to EN61000 3 2 paragraph 7 the note 1 and 2 are valid for all applications having an active input power gt 75W Others the result should be pass 34 of 92 Range cf pf Class A Imax L 0 3504 6 0770 2 3562 3 2231 3 2552 3 1548 0 6369 4 0588 0 1990 3 4032 0 1592 3 7784 0 2786 3 4993 0 4246 2 5825 0 4777 1 6493 0 5307 1 1393 0 4379 1 6222 0 4777 2 4414 0 3450 3 2227 0 5573 3 7760 0 5971 3 8683 0 4246 3 7598 0 4511 3 6079 0 4777 3 2118 0 7563 2 9622 0 7961 Report Number 1310CE 16 03 2 A 1 600 0 975 Limit A 1 0800 2 3000 0 4300 1 1400 0 3000 0 7700 0 2300
21. 00460000 M coeso e o 9 200000 i coeso 5000 6000 Tum D I il LAR TTT uu ca OF uu un 1X di n c r z 0Z 02 05 oo ca 00 or de AUONE 20 EUT Photo 75 of 92 FX e Ve il A Test Lab Techno Corp Report Number 1310CE16 03 21 EUT Photo oa DL 08 06 00 z Of OF 0g DE OF 09 08 o of OB 00 m oz of oF 05 e 05 08 OL 08 08 007 GDL OF 0 000 2000909006 50000 se i e e wu JIM 1 pou l H R or Of Or Lem mo Da OG b DZ 01 D Z 00 oo n 09 OF 06 z ODL 06 08 OL cai GONE z 22 EUT Photo aa m TERES se ees IVAN Jl WD LI Il DS 08 OL 08 06 QOL OL OZ Of OS 09 OL 08 08 007 OL OZ Oe OF os 08 OL od II Of OF 06 ca Oz oa 06 006 o of of or oa 09 oL 08 06 UUE m oz cet 001 JUL Ol CZ t 2 AN 5o z T Ur 08 OZ 08 05 OF OF OZ Di DOD 09 ca OS OF de OZ OL 06 ca 1 09 OS kaanu z o 06 DR 01 05 05 0 76 of 92 FX e Ve il A Test Lab Techno Corp Report Number 1310CE16 03 23 EUT Photo P l 24 EUT Photo c vr HERE m m sch eta Ge LR ep Saru ri TT of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 25 EUT Photo 26 EUT Photo 78 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 27 EUT Photo 28 EUT Photo 79 of 92
22. 01 001 m 08 OL 09 de dv de o 34 EUT Photo 24 241 AT TN ei 29 06 OF Ob OZ ol 001 ge 08 OL 09 os Qv de y 82 of 92 FX Ge G A Test Lab Techno Corp Report Number 1310CE16 03 35 EUT Photo Bnp run LI uu i y 001 06 08 OL 09 OS OF OF z l dI ED EE Cc ME To e Ca o S ro o 3 o S NEI EE S gt 36 EUT Photo DOL OL OZ Of OF OS 08 A AL LU A OL 09 o 08 06 OOL oL oz oe ov os oa oL oe 06 002 oi OL OZ OE OF OS 09 OL 08 06 il VIAL 11 illi RADIR 06 OF NE OZ ot 002 00 08 02 09 OS OF OF 02 OL QOLOS 08 OL 09 05 OF 02 83 of 92 FX e Ve il A Test Lab Techno Corp Report Number 1310CE16 03 37 EUT Photo OF QUI DE OS 09 OL 08 OB QOL OL 02 0e OF OS 09 oL 08 08 007 0 pe 06 09 oL 08 06 02 oL oz 0 o 08 06 DOL o o 1 ID KEV o OOF 05 08 OL 08 os OF oe OZ ol 00Z 06 08 0 09 OS OF 08 02 OL OL 06 08 OZ 09 OS OF OF OZ OL 38 EUT Photo MU A KH DOL OL OZ OF OF Os 0L OZ 0 OF OS 09 OL 08 06 09 o 08 06 OOL oL oz oe ov Os 09 oL 08 oe 007 Ww Lut l LUI MATES 09 OS Ob OF OZ OL ij i d i a LL AA 1 d A LH L 1 e b 09 os Ok og Oz GL 00Z 06 08 02 09 05 Ov 08 02 OL QOL 06 08 01 q m ba Ld U 6 UE 6 E 00 oe or ne oz o Z os 08 o 09 OS oe Di
23. 2 QY ea Ell A Test Lab Techno Corp CE EMC Test Report Report Number 1310CE16 03 Product Type DLP Projector Applicant Qisda Corporation Address 157 Shan Ying Road Gueishan Taoyuan 333 Taiwan R O C Trade Name acer Model Number X1273N D212A EV X53E QNX1329 X1273 D212 EV X53 V20X AX302 QNX1310 X1173N D202A EV S53E QSV1328 Reference Number IL 16474 Test Specification EN 55022 2010 AC 2011 Class B EN 55024 2010 EN 61000 3 2 2006 A1 2009 A2 2009 Class A EN 61000 3 3 2008 AS NZS CISPR 22 2009 A1 2010 Class B Receive Date Sep 24 2013 Test Period Sep 26 Oct 02 2013 Issue Date Nov 20 2013 Issue by A Test Lab Techno Corp ROA 5 No 140 1 Changan Street Bade City larn S Gar gt O Taoyuan County 334 Taiwan R O C Gt inin Tel 886 3 2710188 Fax 886 3 2710190 Taiwan Accreditation Foundation accreditation number 1330 Note This report shall not be reproduced except in full without the written approval of A Test Lab Techno Corp This document may be altered or revised by A Test Lab Techno Corp personnel only and shall be noted in the revision section of the document The client should not use it to claim product endorsement by TAF or any government agencies The test results in the report only apply to the tested sample 1 of 92 FX _ QY eli A Test Lab Techno Corp Report Number 1310CE16 03 Revision History EN Oct 09 2013 In
24. 4 1 2 as applicable including the average limit and the quasi peak limit when using respectively A C mains and telecommunication port an average detector and quasi peak detector measured in accordance with the methods described of related standard Either the voltage limits or the current limits shall be met If the average limit is met when using a quasi peak detector receiver the EUT shall be deemed to meet both limits and measurement with the average detector receiver is unnecessary If the reading of the measuring receiver shows fluctuations close to the limit the reading shall be observed for at least 15 s at each measurement frequency the higher reading shall be recorded with the exception of any brief isolated high reading which shall be ignored 17 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 4 1 5 Test Result Standard EN 55022 Class B Line L1 Test item Conducted Emission Povver AC 230V 50Hz Model Number X1273 Temp C Hum RH 26 C 60 RH Mode 1 Date 2013 09 27 Test By Frank Lin Description Limit Limite 4 98 Frequency AVG Correction QP AVG QP QP AVG No reading factor result result limit margin margin Remark MHz dBuV dBuV dBuV dBuV dB dB 13 86 17 46 16 66 7 11 dB 42 14 56 00 41 84 95 57 40 41 04 96 41 02 04 58 21 83 50 88 28 04 46 00 59 34 6 23 57 19 7 77 55 74 8 84 19 40 19 56 0 5980 32 0
25. 4 18 90 41 68 EN 0 6300 30 29 19 70 29 34 56 00 46 00 16 4700 35 55 33 01 42 89 60 00 50 00 Note 1 Result dBuV Correction factor dB Reading dBuV 2 Correction factor dB Cable loss dB L 1 S N factor dB 14 32 39 93 16 07 45 43 14 57 18 of 92 FX A Test Lab Techno Corp Report Number 1310CE 16 03 Standard EN 55022 Class B Line N Test item Conducted Emission Power AC 230V 50Hz Model Number X1273 Temp C Hum RH 26 C 60 RH Mode 1 Date 2013 09 27 Test By Frank Lin Description Limit Limite 28 11 29 88 16 77 dB 1 0 1540 50 87 32 26 60 50 0 1660 48 76 30 98 24 20 21 49 23 10 19 75 Note 1 Result dBuV Correction factor dB Reading dBuV 2 Correction factor dB Cable loss dB L 1 S N factor dB 58 39 Frequency AVG Correction QP AVG QP AVG QP AVG No reading factor result result limit limit margin margin Remark MHz dBuV dBuV 1 dBuV dBuV dBuv dB dB 55 65 Ce ose Tass s om T ETE 36 25 36 93 45 07 19 of 92 FX QY LE A Test Lab Techno Corp Report Number 1310CE16 03 4 1 6 Test Photograph Test Mode Mode 1 Description Front View of Conducted Test Test Mode Mode 1 Description Back View of Conducted Test 20 of 92 EN Ge eli A Test Lab Techno Corp 4 2 4 2 1 Report Number 1310CE16 03 Radiated Interference Mea
26. 65G75 E17 Black SVGA EN Ge eli A Test Lab Techno Corp Report Number 1310CE16 03 Component 1 D SUB Cable Shielded 1 8m vvith 2 cores 2 AC Power Cable Non Shielded 1 8m X1273 VO Port Description Test Description Connected to PC Terminal Connected to Monitor Connected to DVD Player Connected to DVD Player Connected to PC VValkman Connected to Earphone 7 Mini USB Port Connected to PC 8 RS 232 Port Connected to Terminal 9 AC Power Port Connected to AC Power Cable X1273N VO Port Description I O Port Types Test Description 1 D SUB in Port Connected to PC Terminal 2 D SUB out Port Connected to Monitor 3 Audio out Port Connected to Earphone Mini USB Port Connected to PC RS 232 Port Connected to Terminal 6 AC Power Port Connected to AC Power Cable 9 of 92 A Test Lab Techno Corp Report Number 1310CE 16 03 3 Test Methodology 3 1 Decision of Test Mode 3 1 1 The following test mode s were scanned during the preliminary test Pre Test Mode Mode 1 X1273 D SUBT1 in 1920 x 1080 60Hz D SUB out Mode 2 X1273 D SUB2 in 1920 x 1080 60Hz D SUB out Mode 3 X1273 S Video 60Hz Mode Mode 4 X1273 Video 60Hz Mode Mode 5 X1273N 5 1 in 1920 x 1080 60Hz D SUB out Mode 6 X1273N D SUB2 in 1920 x 1080 60Hz D SUB out 3 1 2 After the preliminary scan the follovving test mode vvas found to produce the highest emission level
27. 84 of 92 A QY LE A Test Lab Techno Corp Report Number 1310CE16 03 39 EUT Photo E n ADHA 9 A SE 26B23 001 1169497 UA Ma ul Di HP TE x ZE j MS e Ta MIHI REL 40 EUT Photo Pei SC EV ca La ki Cie TR AL sti _ L i F md T he dg i o 7 BR Pu m ma L Ee A a St Cat eat A un ed e DL TEZA 85 of 92 FX LE A Test Lab Techno Corp Report Number 1310CE16 03 41 EUT Photo H OOL OL OZ os s l OL OZ 0 OF OG 09 OL 08 06 09 o 08 06 OOL oL oz 08 Ov Os 09 o 08 08 DE 02 OL OL 66 08 0 09 OS OE i OZ Ol 002 06 08 0 09 08 42 EUT Photo DOL OL 02 08 11 KE III NW 19 OL 08 06 OOL oL oz OF OF OS 09 OL 08 06 06 Ob OS 09 OL 08 08 07 RRR 00206 02 0 09 06 OF 02 02 01 QOLOS 08 01 86 of 92 FX QY GER A Test Lab Techno Corp Report Number 1310CE 16 03 43 EUT Photo f 477 fi Set ESEESE BE 4 A 2g OF Or 08 oz ol 001 oe 08 OL 09 44 EUT Photo S 7 7 MA ALI MI AAA 03 0G Ob O8 OZ Ol X 06 08 OL 08 OS Uy de S 87 of 92 r 51 Report Number 1310 16 03 45 EUT Photo nga popaj pag o ea aga pij li s 08 OL 0 06 QOL OL OZ OF OF OS 09 OL OF 06 Q Z 01 02 de OF OS O8 OL 08 06006 L il os 09 a of oe DOL on Oz 0 OF Om 09
28. Fast Transient Burst Date of Tesi 2013 10 02 Test Site TEO8 Test Level Inject Time Inject Performance to Die Pass to Dret PASS 60 Direct KA L B PASS LN r v s BA Esl mss PE 1 ire 3 60 ne BAe Ps NE 3 es EA De pass Linee r 60 pes BA L Pass Note The testing performed is from lowest level up to the highest level as required by standard but only highest level is shovvn on the report Criterion A Operate as intended during and after the test Criterion B Operate as intended after the test Criterion C Loss Error of function Additional Information There was no observable degradation in performance EUT stopped operation and could could not be reset by operator at V m at frequency MHZ No false alarms or other malfunctions were observed during or after the test 51 of 92 oc Ge G A Test Lab Techno Corp Report Number 1310CE16 03 5 3 6 Test Photograph Test Mode Mode 1 Description Front View of EFT Test AC Mains Port 52 of 92 FX _ e G A Test Lab Techno Corp Report Number 1310CE16 03 5 4 Surge 5 4 1 Test Specification EN 61000 4 5 Environmental Phenomena Test Specification Performance Criterion Signal Ports and Telecommunication Ports See 1 and 2 Surges Tr Th us 1 2 50 8 20 Line
29. OL 08 004 om o ve A oa of ce OS DDE o oz de or oa d 0 DE Oo s i iL i nn INIL i il DJE UB OR l 0a OG OF OF z l 002 06 09 di 99 GG r de 02 m DUL 06 06 l 08 OF Oc z OL AGONE 46 EUT Photo 0 001 01 02 os 09 oz 08 oe OOL oL oZ oe OS 09 01 un 02 OF OS 09 OL 08 06 1 l 1 MI DI Tj eme i af D 1 Hu i j j i MANI MAR A nb T E E E LA AN i d xd all a a Cra N 002 06 08 OZ 09 OS OF Z OL QOL 06 08 OL 09 OS OF OF Ob ne oz o 00 06 08 oL 09 OS oe 02 o OOL 06 oe o 88 of 92 FX ati A Test Lab Techno Corp Report Number 1310CE16 03 47 EUT Photo uninin cn e cn m O CH O e C CX Es III n2 ce E O 3 co cn ho e e JU 48 EUT Photo 9 i s Le x 4 EF lt A 3 OS 09 OL 08 08 POL OL Oz 0 OF 06 09 oL 08 0800 6 DOL oL oz oe or os 09 o 00 08002 m 02 l DI IO aim UMU IT Bonasa E I U 06 08 L 05 OS OF OF OZ OL oZ 06 08 d 09 OS OF os oz ol m 06 08 OL 09 OS OF OF OZ Ol 89 of 92 FX _ QY G A Test Lab Techno Corp Report Number 1310CE16 03 49 EUT Photo iii j U LUJ KLA KLI A KLI A M I j oL OZ 06 OF 09 09 OL 08 06 QOL OL 02 08
30. T Description Model Number Reference Number Highest Frequency Generated Applicant Manufacturer 2 Manufacturer 3 DLP Projector acer X1273N D212A EV X53E QNX1329 X1273 D212 EV X53 V20X AX302 QNX1310 X1173N D202A EV S53E QSV1328 These model numbers difference show on Keypart list table TL 16474 162 MHz Qisda Corporation 157 Shan Ying Road Gueishan Taoyuan 333 Taiwan R O C Qisda Suzhou Co Ltd Report Number 1310CE16 03 No 169 Zhujiang Road New District Suzhou Jiangsu 215129 P R China Qisda Mexicana S A De C V Calzada Venustiano Carranza No 88 Col Mexico C P Mexico Qisda Optronics Suzhou Co Ltd No 169 Zhujiang Road New District Suzhou Jiangsu 215129 P R China Manufacturer 4 Qisda Corporation 157 Shan Ying Road Gueishan Taoyuan 333 Taiwan Keypart list D Sub x2 video s video Connector audio in x2 monitor audio out RS232 USB Color wheel R70Y30W90C30B65G75 Remote control E17 Black 8 of 92 X1273N Black OSRAM 190W AA37544 OSRAM 190W E20 8 5E 2BF40 001 5E 2BE01 001 3Wx1 D Sub x2 audio in x1 monitor RS232 USB video x 0 Via VGA In 1 no RCA R70Y30W90C30B65G75 E17 Black XGA Plutarco Elias Calles 21376 Mexocali B C X1173N Black OSRAM 190W AA37544 OSRAM 190W E20 8 5E 2BF40 001 5E 2BE01 001 3Wx1 D Sub x2 audio in x1 monitor RS232 USB video x 0 Via VGA In 1 no RCA R70Y30W90C30B
31. X QY ea Ell A Test Lab Techno Corp Report Number 1310CE16 03 Devices usns Manufacturer Model Number Number Serial Number CN OJ257M 72872 1 LCD Monitor DELL U2410f 09J 01AL Non Shielded 1 8m 2 DVD Player SONY DVP NS708HP 5202915 Non Shielded 1 5m Keyboard HP KU 0316 BC3870DVBVI1PJ Power by PC Logitech M UAG96B PID LZ815AA Power by PC E JL n mm BT6H3 9MXGR 6TCCB 13 of 92 FX _ Ge GER A Test Lab Techno Corp 3 4 Test Site Environment Items Test Item Temperature C Humidity RH EN 55022 CE Barometric pressure mbar Temperature C Humidity RH EN 55022 RE Barometric pressure mbar Temperature C Humidity RH EN 61000 3 2 Barometric pressure mbar Temperature C Humidity RH EN 61000 3 3 Barometric pressure mbar Temperature C Humidity 96 RH EN 61000 4 2 Barometric pressure mbar Temperature C Humidity RH EN 61000 4 3 Barometric pressure mbar Temperature C Humidity RH EN 61000 4 4 Barometric pressure mbar Temperature C Humidity RH EN 61000 4 5 Barometric pressure mbar Temperature C Humidity RH EN 61000 4 6 Barometric pressure mbar Temperature C Humidity RH EN 61000 4 8 Barometric pressure mbar Temperature C Humidity 96RH EN 61000 4 11 Barometric pressure mbar Report Number 1310CE 16 03 Required IEC 60068 1 Actual 15 35 25 75 860 1060 950 15 35 26 0 25 75 860 1060 950
32. ange is swept incrementally the step size was 1 of preceding frequency value c The dwell time at each frequency shall be not less than the time necessary for the EUT to be able to respond d The test was performed with the EUT exposed to both vertically and horizontally polarized fields on each of the four sides 47 of 92 2 QY G A Test Lab Techno Corp Report Number 1310CE16 03 5 2 5 Test Result Test tem Radiated Susceptibility Test Mode Mode 1 Date of Test 2013 09 30 Test Site TEO7 LE s m DB ass m DB wes E DB ass Ex DB wes EM DB wes __ Ex DB Pass __ Ex Ds wes Note The testing performed is from lowest level up to the highest level as required by standard but only highest level is shown on the report Criterion A Operate as intended during and after the test Criterion B Operate as intended after the test Criterion C Loss Error of function Additional Information There was no observable degradation in performance EUT stopped operation and could could not be reset by operator at V m at frequency MHz No false alarms or other malfunctions were observed during or after the test 48 of 92 FEN e LE A Test Lab Techno Corp Report Number 1310CE16 03 5 2 6 Test Photograph Test Mode Mode 1 Description Front Vievv of RS Test 49 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 5 3 Electrical Fast T
33. d Emission The Vertical measurement uncertainty of 30MHz 1GHz is evaluated as 3 62 dB The Horizontal measurement uncertainty of 30MHz 1GHz is evaluated as 3 98 dB The Vertical measurement uncertainty of 1GHz 6GHz is evaluated as 3 07 dB The Horizontal measurement uncertainty of 1GHz 6GHz is evaluated as 3 11 dB Harmonic Current Emission The measurement uncertainty is evaluated as 1 2 Voltage Fluctuations and Flicker The measurement uncertainty is evaluated as 1 5 Electrostatic Discharge As what is concluded in the document from Notez of clause 5 4 6 2 of ISO IEC 17025 2005 E the requirements for measurement uncertainty in ESD testing are deemed to have been satisfied and the testing is reported in accordance with the relevant ESD standards The immunity test signal from the ESD system meet the required specifications in EN 61000 4 2 through the calibration report with the calibrated uncertainty for the waveform of voltage and timing as being 1 52 and 2 69 Radiated susceptibility As what is concluded in the document from Notez of clause 5 4 6 2 of ISO IEC 17025 2005 E the requirements for measurement uncertainty in RS testing are deemed to have been satisfied and the testing is reported in accordance with the relevant RS standards The immunity test signal from the RS system meet the required specifications in EN 61000 4 3 through the calibration for the uniform field strength and monitoring for the test leve
34. ent shall only be made up to 1 GHz If the highest frequency of the internal sources of the EUT is between 108 MHz and 500 MHz the measurement shall only be made up to 2 GHz If the highest frequency of the internal sources of the EUT is between 500 MHz and 1 GHz the measurement shall only be made up to 5 GHz If the highest frequency of the internal sources of the EUT is above 1 GHz the measurement shall be made up to 5 times the highest frequency or 6 GHz whichever is less The antenna can move up and down between 1 meter and 4 meters to find out the maximum emission level Both horizontal and vertical polarization of the antenna are set on measurement In order to find the maximum emission all of the interface cables must be manipulated on radiated measurement Radiated emissions were invested over the frequency range from 30MHz to1GHz using a receiver bandwidth of 120 kHz Radiated was performed at an antenna to EUT distance of 10 meters 24 of 92 FX A Test Lab Techno Corp Report Number 1310CE 16 03 4 2 5 Test Result Standard EN 55022 Class B Test Distance 10m Test item Radiated Emission Power AC 230V 50Hz Model Number X1273 Temp C Hum RH 26 C 60 RH Mode 1 Date 2013 09 30 Ant Polar Horizontal Test By Frank Lin 80 0 dBu m Limit Margins 500 600 700 1000000 MHz dBuV Factor dB m dBuV m dBuV m dB cm s n n m orco Note 1 Re
35. er AG HAR1000 1P 171 02 01 2013 Analyzers Test Sit ATL TEOS TEOS Remark Calibration period 1 year Calibration period 2 years Note N C R No Calibration Request Setup shielding Room Test Instrument Non Conducted 80 em Table Ground Reference Plane Test Procedure The EUT was placed on the top of a wooden table 0 8 meters above the ground and the EUT is supplied in series with power analyzer from a power source having the same normal voltage and frequency as the rated supply voltage and the equipment under test And the rated voltage at the supply voltage of EUT of 0 94 times and 1 06 times shall be performed A definition of the normal load or of the conditions for adequate heat discharge can usually be found in the EN publication corresponding to the equipment under test Equipment may have several separately controlled circuits Each circuit is considered as a single piece of equipment if it can be operated independently and separately from the other circuits 32 of 92 FX _ QY eli A Test Lab Techno Corp 4 3 5 Test Result Report Number 1310CE16 03 DLP Projector Power Harmonics Test Result Pass Source qualification Normal Current amp voltage waveforms Harmonics and Class A limit line European Limits I I I 4 I I I I 3 r ze vm wl e L x 3 r 32 r wn L 4 d P 2 A x em m 4
36. ested Other similar equipment will not necessarily produce the same results due to production tolerance and measurement uncertainties Approved By Manager i Claw ft Reviewed By m Cran Yang Testing Engineer Frank Lin 3 of 92 FX _ QY eli A Test Lab Techno Corp Report Number 1310CE16 03 TABLE OF CONTENTS T General Tute dr E Le essa as 5 b Summanror Teste EE 5 1 2 Measurement Ee Ma eee dea dno cet nee i s oe Sio dd E e ai 6 EUT DESENIDUOM E 8 TE EMEINOGOIOO UE 10 3 1 Decision of Test Mode esse 10 3 2 EL ESE OUWE jena 11 oo TeSt oy DS IANS a yada aaa oe aaa cos 12 dA TOSESIIG ENVORTE EE 14 di EMISSION TOS i ties s b b 15 4 1 Conducted Emission Measurement 15 4 2 Radiated Interference MeasuremMeEnt eee eee ee 21 4 3 Harmonics Current Measurement 31 24 Voltage Fluctuation and e bada did diae abad ihid onus 36 So PR ET 40 5 1 Elecwostane Discharge BA EEN 40 5 2 Radiated Electromagnetic Field Hi 46 5 3 Electrical Fast Transient Burst aaa kakaa kakaa kaaa 50 MES N 53 27 EEN Le M en 56 5 6 Power Frequency Magnetic Field PME 60 5 7 Voltage DIDS ana INterFupNOM ac zeca ada da 63 UT Eeer 66 4 of 92 EN Ge ea ll A Test Lab Techno Corp Report Number 1310CE16 03 1 General information 1 1 Summary of Test Result Emission EN 55022 2010 AC 2011
37. ith the relevant CS standards The immunity test signal from the CS system meet the required specifications in EN 61000 4 6 through the calibration for unmodulated signal and monitoring for the test level with the uncertainty evaluation report for the injected modulated signal level through CDN and EM Clamp Direct Injection as being 3 68 dB and 2 72 dB Power freguency magnetic field As what is concluded in the document from Note2 of clause 5 4 6 2 of ISO IEC 17025 2005 E the requirements for measurement uncertainty in PFM testing are deemed to have been satisfied and the testing is reported in accordance with the relevant PFM standards The immunity test signal from the PFM system meet the required specifications in EN 61000 4 8 through the calibration report with the calibrated uncertainty for the Gauss Meter to verify the output level of magnetic field strength as being 1 8 Voltage dips and interruption As what is concluded in the document from Notez of clause 5 4 6 2 of ISO IEC 17025 2005 E the requirements for measurement uncertainty in DIP testing are deemed to have been satisfied and the testing is reported in accordance with the relevant DIP standards The immunity test signal from the DIP system meet the required specifications in EN 61000 4 11 through the calibration report with the calibrated uncertainty for the waveform of voltage and timing as being 1 58 and 2 72 7 of 92 2 FX _ Ge GER A Test Lab Techno Corp EU
38. itial Issue 5 Nov 13 2013 1 Updated report information and photo Nov 18 2013 1 Updated product keypart list Nov 20 2013 1 Updated report information 2 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 Verification of Compliance Product Type Applicant Address Trade Name Model Number Reference Number EUT Rated Voltage Test Voltage Applicable Standard Test Result Performing Lab Issued Date 2013 11 20 DLP Projector Qisda Corporation 157 Shan Ying Road Gueishan Taoyuan 333 Taiwan R O C acer X1273N D212A EV X53E QNX1329 X1273 D212 EV X53 V20X AX302 QNX1310 X1173N D202A EV S53E QSV1328 TL 16474 AC 100 240V 50 60Hz 230 Vac 50 Hz EN 55022 2010 AC 2011 Class B EN 55024 2010 EN 61000 3 2 2006 A1 2009 A2 2009 Class A EN 61000 3 3 2008 AS NZS CISPR 22 2009 A1 2010 Class B Complied A Test Lab Techno Corp Vr Car No 140 1 Changan Street Bade City TSE TAF Taoyuan County 334 Taiwan R O C Cie mee Tel 886 3 2710188 Fax 886 3 2710190 Taiwan Accreditation Foundation accreditation number 1330 http www atl lab com tw e index htm The above equipment has been tested by A Test Lab Techno Corp and found compliance with the requirements set forth in the Electromagnetic Compatibility Directive 2004 108 EC and technical standards mentioned above The results of testing in this report apply only to the product system which was t
39. l with the uncertainty evaluation report for the electrical filed strength as being 2 65 dB Electrical fast transient burst As what is concluded in the document from Note2 of clause 5 4 6 2 of ISO IEC 17025 1999 2 the requirements for measurement uncertainty in EFT Burst testing are deemed to have been satisfied and the testing is reported in accordance with the relevant FT Burst standards The immunity test signal from the FT Burst system meet the required specifications in EN 61000 4 4 through the calibration report with the calibrated uncertainty for the waveform of voltage Frequency and timing as being 1 57 and 2 73 Surge As what is concluded in the document from Notez of clause 5 4 6 2 of ISO IEC 17025 2005 E the requirements for measurement uncertainty in Surge testing are deemed to have been satisfied and the testing is reported in accordance with the relevant Surge standards The immunity test signal from the Surge system meet the required specifications in EN 61000 4 5 through the calibration report with the calibrated uncertainty for the waveform of voltage and timing as being 1 58 and 2 71 6 of 92 FX A Test Lab Techno Corp Report Number 1310CE 16 03 Conducted susceptibility As what is concluded in the document from Notez of clause 5 4 6 2 of ISO IEC 17025 2005 E the requirements for measurement uncertainty in CS testing are deemed to have been satisfied and the testing is reported in accordance w
40. nted 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 generator 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 at the front edge of each HCP opposite the center point of each unit of the EUT and 0 1 meters from the front of the EUT The long axis of the discharge electrode was in the plane of the HCP and perpendicular to its front edge during the discharge At least ten single discharges in the most sensitive polarity were applied to the center of one vertical edge of the Vertical Coupling Plane VCP 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 41 of 92 A Test Lab Techno Corp Report Number 1310CE 16 03 5 1 5 Test Result DLP Projector Test Item Electrostatic Discharge Test Mode Mode 1 Date of Test 2013 10 02 Test Site TE04 Air Discharge no o ech Test Levels Results MOSCA DIO TO CETO SONNO eT a n ola m o o
41. o AS NZS CISPR 22 2009 A1 2010 Conducted Emission PASS Meet Class B limit EN 55022 2010 AC 2011 i AS NZS CISPR 22 2009 A1 2010 Radiated Emission PASS Meet Class B limit EN 61000 3 2 2006 A1 2009 A2 2009 Harmonic current emissions PASS Meet Class A limit EN 61000 3 3 2008 Voltage fluctuations amp flicker PASS Meets the requirements Immunity EN 61000 4 2 2009 PASS Meets the requirements of Criterion B EN 61000 4 3 2006 A1 2008 A2 2010 SD EN 61000 4 4 2004 PASS Meets the requirements of Criterion B EN 61000 4 5 2006 PASS Meets the requirements of Criterion B EN 61000 4 6 2009 PASS Meets the requirements of Criterion A EN 61000 4 8 2010 PASS Meets the requirements of Criterion A RS PASS Meets the requirements of Criterion A Meets the requirements of Voltage Voltage Dips pr dips amp 1 gt 95 reduction Criterion B voltage PASS 2 30 reduction Criterion C variations Voltage Interruptions 1 gt 95 reduction Criterion C The test results of this report relate only to the tested sample s identified in this report Manufacturer or whom it may concern should recognize the pass or fail of the test result 5 of 92 FX QY l A Test Lab Techno Corp Report Number 1310CE16 03 1 2 Measurement Uncertainty Conducted Emission The measurement uncertainty is evaluated as 2 02 dB Conducted Emissions Telecommunication Ports The measurement uncertainty is evaluated as 2 02 dB Radiate
42. of EN 61000 4 8 Orientation X Y Z Test time 180 Second 5 6 2 Test Instrument Equipment Model Number Serial Number Cal Date M c EMC PARTNER AG TRANSIENT 2000IN6 02 07 2013 Magentic Field 1 EMC PARTNER AG MF 1000 1 155 02 01 2013 Antenna Remark Calibration period 1 year 2 Calibration period 2 years Note N C R No Calibration Request 5 6 3 Setup Shielding Room Magnetic Field Coil Non Conducted Table 60 of 92 2 QY G A Test Lab Techno Corp Report Number 1310CE16 03 5 6 4 Test Procedure a The equipment was configured and connected to satisfy its functional requirements It shall be placed on the GRP with the interposition of a 0 1m thick insulating support a The equipment cabinets shall be connected to the safety earth directly on the GRP via the earth terminal of the EUT The power supply input and output circuits shall be connected to the sources of power supply control and 2 signal The cables supplied or recommended by the equipment manufacturer shall be used 1 meter of all cables used shall be exposed to the magnetic field 5 6 5 Test Result Product DLP Projector Test Item Power Frequency Magnetic Field Test Mode Mode 1 Date of Test 2013 09 30 Test Site TE08 SE Frequency Magnetic Strength Performance Polarization Der Result A m Criterion 1 Hz Z Orientation MA Dj Note The testing performed is from lowest level up
43. onditions of the EUT The interconnection line between the EUT and the coupling decoupling networks was shorter than 2 meters in length c For test applied to unshielded symmetrically operated interconnection telecommunication lines of EUT The surge was applied to the lines via gas arrestors coupling Test levels below the ignition point of the coupling arrestor were not specified The interconnection line between the EUT and the coupling decoupling networks was shorter than 2 meters in length 5 4 5 Test Result Product DLP Projector Test Item Surge Test Mode Mode 1 Angle 0 90 180 270 Date of Test 2013 10 01 Test Site TEO8 e Voltage Time Interval Performance Inject Line Polarity kV Second Inject Method Result L N 60 Direct Pass L PE 60 Direct Pass R MA CB A A CB L N PE mm 60 Direct Pass Note The testing performed is from lowest level up to the highest level as required by standard but only highest 4 2 2 2 level is shown on the report Criterion A Operate as intended during and after the test Criterion B Operate as intended after the test Criterion C Loss Error of function Additional Information EUT stopped operation and could could not be reset by operator at V m at frequency MHz bd No false alarms or other malfunctions were observed during or after the test 54 of 92 oc Ge G A Test Lab Techno Corp Report Number 1310CE16 03 5 4 6 Test Photograph Test Mode Mode
44. oto 6 EUT Photo pa ODE o 02 08 OF oa ca o HTH DE 05 09 DI DE 08006 01 da oo os 00 l 02 ce OF os mn o 08 08 DE t oc ta oz ow 06 DUL a z dii dai n n HI m H L I 1 Dop 03 OG OF ne OF Di 06 06 oF OL 09 05 02 amp Q Z 06 DE l 09 OS r DE 02 QOL 06 OF OF 09 OS e m AONE 68 of 92 FX Ge LE A Test Lab Techno Corp Report Number 1310CE16 03 7 EUT Photo de 06 DOE 04 06 DN pa ce op 00 00 gu 02 oa DL UZ DE OF HA OL 06 007 pt s ca du oe 06 00 l OF OF OF 05 t DOL di z o We Di l w Pp IW TO hmt m CAE FAT Ld p A Mu un n uu TT OG OF tl 09 c r ce 02 0 Q Z 03 mn 08 OS r 02 o 0010 ATONE m 8 EUT Photo Far d ur tlli Y 5 7 4 F f D 2 Se 1 4 v 1 A b d 1 i k Ze GF OF Of OF OS OF Of OZ OF 007 DG O9 OL cs vv SL x OTE i 69 of 92 Ge LE A Test Lab Techno Corp Report Number 1310CE16 03 9 EUT Photo X1273N 10 EUT Photo Pun F F j TI L i j 4 i i 1 221 d WW NN NNN NN iN a AF Ae OP OF OF 0 QOZ OG 08 OL OF OS Ov OR OZ W VORA We a TU of 92 2 gt QY GER A Test Lab Techno Corp Report Number 1310CE16 03 11 EUT Photo 12 EUT Photo X1273N 71 of 92 FX LE A Test Lab Techno Corp Report Number 1310CE16 03 13
45. ound Reference Plane lt 16 of 92 T Mi E sn Report Number 1310CE16 03 Test Receiver Test Receiver FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 Test Procedure The EUT and simulators are connected to the main power through a line impedance stabilization network L 1 S N This provides a 50 ohm 50uH coupling impedance for the measuring equipment The peripheral devices are also connected to the main power through a LISN that provides a 50ohm 50uH coupling impedance with 50ohm termination The mains voltage shall be supplied to the EUT via the LISN when the measurement of telecommunication port is performed The common mode disturbances at the telecommunication port shall be connected to the ISN For A C mains conducted interference measured both sides of A C lines and carried out using quasi peak and average detector receivers of maximum conducted interference For telecommunication port interference measurement using ISNs with suitable longitudinal conversion losses LCL as defined in the port of specification from manufacture and the LCL shall be meet the related standard requirement Measured the line and carried out using quasi peak and average detector receivers of maximum conducted interference Conducted emissions were invested over the frequency range from 0 15 MHz to 30 MHz using a receiver bandwidth of 9 kHz The equipment under test EUT shall be meet the limits in section
46. ransient Burst EFT 5 3 1 Test Specification EN 61000 4 4 Environmental Phenomena Test Specification Performance Criterion I O and communication ports KV Peak Fast Transients Common Mode Tr Th ns Rep Frequency kHz Input DC Power Ports KV Peak Fast Transients Common Mode Tr Th ns Rep Frequency kHz Input AC Power Ports kV Peak Fast Transients Common Mode Tr Th ns Rep Frequency kHz 5 3 2 Test Instrument Equipment Model Number Serial Number Cal Date ne EMC PARTNER AG TRANSIENT 20001N6 952 02 07 2013 Remark Calibration period 1 year 2 Calibration period 2 years Note N C R No Calibration Request 5 3 3 Setup Shielding Room EM Test EFT Burst Generator EUI L AE 1 10cm Qa 7 Insulating Support Ground Reference Plane L 0 5m Non Conducted Ground Wire Table gt Ground Plane i Insulating Support L 0 5m AE 2 50 of 92 2 QY G A Test Lab Techno Corp Report Number 1310CE16 03 5 3 4 Test Procedure 5 3 5 a Both positive and negative polarity discharges vvere applied b The length of the hot wire from the coaxial output of the EFT generator to the terminals on the EUT should not exceed 1 meter c The duration time of each test sequential vvas 1 minute d The transient burst waveform was in accordance with EN 61000 4 4 5 50ns Test Result Product DLP Projector Test Item Electrical
47. s 0 8 meter above a metal ground plane measured 1m 1m min And 0 65mm thick min And projected beyond the EUT by at least 0 1m on all sides The power cord shall be used the shortest power cord as specified by the manufacturer For Voltage Dips Interruptions test The selection of test voltage is based on the rated power range If the operation range is large than 20 of lower power range both end of specified voltage shall be tested Otherwise the typical voltage specification is selected as test voltage The EUT is connected to the power mains through a coupling device that directly couples to the Voltage Dips and Interruption Generator The EUT shall be tested for 3096 voltage dip of supplied voltage and duration 25 Periods for 95 voltage dip of supplied voltage and duration 0 5 Periods with a sequence of three voltage dips with intervals of 10 seconds and for 95 voltage interruption of supplied voltage and duration 250 Periods with a sequence of three voltage interruptions with intervals of 10 seconds Voltage phase shifting are shall occur at 0 45 90 1357 180 225 270 315 of the voltage Test Result Date of Test 2013 10 02 Test Test Site mem Ba Voltage Test Performance Criterion Test Result T I Note 1 The acceptance criteria were met and the EUT passed the test Criterion A Operate as intended during and after the test Criterion B Operate as intended after the test Criterion C Loss Error
48. s of seconds or manual restart after a power supply interruption Note The cycling frequency will be further limited by the Ps and P limit For example a dmax Of 6 producing a rectangular voltage change characteristic twice per hour will give a P of about 0 65 c 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 ihan 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 Ps and P requirements shall not be applied to voltage changes caused by manual switching 4 4 2 Test Instrument Equipment Model Number Serial Number Cal Date Power Harmonics EMC Partner AG HAR1000 1P 171 02 01 2013 E Analyzers Test Site ATL TEO5 TEO5 N C R WN Remark Calibration period 1 year 2 Calibration period 2 years Note N C R No Calibration Request 36 of 92 27 LE A Test Lab Techno Corp Report Number 1310CE16 03 4 4 3 Setup 4 4 4 Shielding Room Test Instrument Non Conducted Table soem gt Ground Reference Plane Test Procedure The EUT is supplied in series with power analyzer from a power source having the same normal voltage and frequenc
49. scription Front View of Radiated Emission Test Above 1GHz SUR mu e LE ERE Bu ue T M HHH L 61 npe d TT Test Mode Mode 1 Description Back View of Radiated Emission Test _ Above 1GHz 30 of 92 A Test Lab Techno Corp 4 3 4 3 1 Harmonics Current Measurement Limit Limits of Class A Harmonics Currents Maximum Permissible Report Number 1310CE 16 03 Maximum Permissible Harmonics Order Harmonics Order da n A n A Even harmonics 2 1 08 4 0 43 0 80 15 lt n lt 39 0 15 15 n Limits of Class B Harmonics Currents For Class B equipment the harmonic of the input current shall not exceed the maximum permissible values given in table which is the limit of Class A multiplied by a factor of 1 5 Limits of Class C Harmonics Currents Maximum Permissible harmonic current Harmonics Order Expressed as a percentage of the input current at the fundamental frequency 70 2 11 nx 39 odd harmonics only 3 A is the circuit power factor Limits of Class D Harmonics Currents Maximum Permissible harmonic current Maximum Permissible harmonic current per watt n A Harmonics Order See limit of Class A 1 11 lt n lt 39 odd harmonics only 3 85 n 31 of 92 P e Ve kil A Test Lab Techno Corp 4 3 2 4 3 3 4 3 4 Report Number 1310CE16 03 Test Instrument Equipment Model Number Serial Number Cal Date Remark EMC Partn
50. sult dBuV Correction factor dB Reading dBuV 2 Correction factor dB m Antenna Factor dB m Cable loss dB Pre Amplifier gain dB 25 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 Standard EN 55022 Class B Test Distance 10m Test item Radiated Emission Power AC 230V 50Hz Model Number X1273 Temp C Hum RH 26 C 60 RH Mode 1 Date 2013 09 30 Ant Polar Vertical Test By Frank Lin 80 0 dBu m Limit Margin 300 400 500 600 200 1000 000 ETI ETY ET dB m kra ETS E 840865 0365 41 EA 1 08 78 76 2530 30 3000 00 4 AT Reim II ases 4009 ss 2870 sm 4m ao or 4 s m wer ses omo oom 70 0 so or Cs were aso 3e sim sm am woo aw o misses noe em 2590 sm 4m 20 ww o Cr eso we en ome sm am ml 2 or Fe T r m s r sen omm orso sm wo w or Note 1 Result dBuV Correction factor dB Reading dBuV 2 Correction factor dB m Antenna Factor dB m Cable loss dB Pre Amplifier gain dB 26 of 92 FX QY G A Test Lab Techno Corp Report Number 1310CE16 03 Standard EN 55022 Class B Test Distance 3m Test item Radiated Emission Power AC 230V 50Hz Model Number X1273 Temp C Hum RH 26 C 60 RH Mode 1 1GHz 6GHz Date 2013 09 26 Ant Polar Horizontal Test By Frank Lin 100 0 dBuY m Limit Limite
51. surement Limit Frequency dBuV m Distance 10m M Note The lower limit shall apply at the transition frequencies dBuV m Distance 3m Frequency MHz Class A Class B 1000 3000 56 76 50 70 Note The lower limit shall apply at the transition frequencies Remark 1 The tighter limit shall apply at the edge between two frequency bands 2 Distance refers to the distance in meters between the measuring instrument antenna and the closed point of any part of the device or system Highest frequency generated or used in the device or on which the device operates or tunes MHz Below 108 1000 108 500 2000 500 1000 5000 5th harmonic of the highest frequency or 6 GHz whichever is lower Upper frequency of measurement range MHz Above 1000 21 of 92 EN Ge G A Test Lab Techno Corp Report Number 1310CE16 03 4 2 2 Test Instruments 10 Meter Chamber SCHWARZBECK Broadband Antenna HESS ELEKTRON K VULB 9160 9160 3268 06 05 2013 SCHWARZBECK Broadband Antenna MESS ELEKTRONIK VULB 9160 9160 3273 12 13 2012 Test Site ATL TE06 TE06 08 06 2013 1 Amplifier ZVA 213 S 467900926 02 11 2013 de RF Pre selector Agilent N9039A MY46520255 05 16 2013 m Horn Antenna 1 1 18GHz ETS Lindgren 3117 00128055 08 08 2013 Test Site ATL TE09 TEO9 08 27 2013 1 Remark Calibration period 1 year 2 Calibration period 2 years Note N C R No Calibration Request 22 of 92 P Ge LE
52. to the highest level as required by standard but only highest level is shown on the report Criterion A Operate as intended during and after the test Criterion B Operate as intended after the test Criterion C Loss Error of function Additional Information EUT stopped operation and could could not be reset by operator at V m at frequency MHz No false alarms or other malfunctions were observed during or after the test 61 of 92 FX Ge LE A Test Lab Techno Corp Report Number 1310CE16 03 5 6 6 Test Photograph Test Mode Mode 1 Description Front View of PMF Test 62 of 92 FX e ea Ell A Test Lab Techno Corp Report Number 1310CE16 03 5 7 Voltage Dips and Interruption 5 7 1 Test Specification EN 61000 4 11 Environmental Phenomena Units Test Specification Performance Criterion Input AC Power Ports Voltage Dips C 5 7 2 Test Instrument Equipment Model Number Serial Number Cal Date R EMC PARTNER AG TRANSIENT 20001N6 952 02 07 2013 Remark Calibration period 1 year 2 Calibration period 2 years Note N C R No Calibration Request 5 7 3 Setup Shielding Room EM Test Voltage Dips Interruptions Variations Simulator Non Conducted Table gt Ground Reference Plane 63 of 92 FEN QY GER A Test Lab Techno Corp Report Number 1310CE16 03 5 7 4 Test Procedure 5 7 5 The EUT and its load are placed on a table which i
53. ttempts was made to fully exercise the EUT during testing and to fully interrogate all exercise modes selected for susceptibility Test Result Product DLP Projector Test ltem Conducted Susceptibility Test Mode Mode 1 Date of Test 2013 09 30 Test Site TEO8 Frequency Field Strength Performance Band MHz Inject Port Inject Method Criterion Result 0 15 80 3 AC Mains CDN M3 KA B PASS Note The testing performed is from lowest level up to the highest level as required by standard but only highest level is shown on the report Criterion A Operate as intended during and after the test Criterion B Operate as intended after the test Criterion C Loss Error of function Additional Information _ EUT stopped operation and could could not be reset by operator at V m at frequency MHz No false alarms or other malfunctions were observed during or after the test 58 of 92 FX _ e LE A Test Lab Techno Corp Report Number 1310CE16 03 5 5 6 Test Photograph Test Mode Mode 1 Description Front View of CS Test AC Mains Port 59 of 92 FX _ e G A Test Lab Techno Corp Report Number 1310CE16 03 5 6 Povver Frequency Magnetic Field PMF 5 6 1 Test Specification EN 61000 4 8 Item Test Specification Performance Criterion Phenomena Enclosure Port Power Frequency Hz 50 A Magnetic Field A m r m s 1 EUT tested in accordance with the specifications given by the standard
54. y as the rated supply voltage and the equipment under test And the rated voltage at the supply voltage of EUT of 0 94 times and 1 06 times shall be performed 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 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 minutes and the observation period for long term flicker indicator is 2 hours 37 of 92 Report Number 1310CE 16 03 QY eli A Test Lab Techno Corp 4 4 5 Test Result LO o LU E 02 E O N N O 2151212 O alx Ci 28 015 O l Cl Sl G o Eloy trt SU S o O x Sy e a as D l Kl ra Status Test Completed Test Result Pass Plt and limit line 0 00 0 07 short term Flicker Pet Actual Flicker Fl 10055 L 1 J l L L I 1 I I I I o mom 1 1 1 1 1 1 L 1 A na 1 1 1 1 1 1 Lae eed eed A eee L ee A Ld I I I I I I I I L 1L1 J4J lL L L l1 J 1 1 1 1 1 1 1 L A 1 wl e e 1 1 1 1 Lae lL 1 1 eee L ee A Ld I I I I I I I I Lae ee dl eed A LL Ld I I I I I I I I e A ll eed ee e 1 1 1 I 1
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