Report No.: DRECEE1311-0469 - 솔루엠Report No.: DRECEE1311-0469 Total 60 pages 6.2 Radiated...
Transcript of Report No.: DRECEE1311-0469 - 솔루엠Report No.: DRECEE1311-0469 Total 60 pages 6.2 Radiated...
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CONTENTS
1. General Remarks ........................................................................................................................ 3
2. Test Laboratory ........................................................................................................................... 3
3. General Information of EUT ....................................................................................................... 4
4. Test Summary ............................................................................................................................. 5
4.1 Applied standards and test results ........................................................................................... 5
4.2 Test environment and conditions ............................................................................................. 6
5. Test Set-up and operation mode ............................................................................................... 7
5.1 Principle of Configuration Selection ......................................................................................... 7
5.2 Test Operation Mode ............................................................................................................... 7
5.3 Support Equipment Used ......................................................................................................... 7
6. Test Results : Emission .............................................................................................................. 8
6.1 Conducted Disturbance ........................................................................................................... 8
6.2 Radiated Disturbance ............................................................................................................ 15
7. Test Results : Immunity ............................................................................................................ 21
7.1 Electrostatic Discharge .......................................................................................................... 22
7.2 Radio-Frequency Electromagnetic Field ................................................................................ 25
7.3 Fast Transients ...................................................................................................................... 27
7.4 Surges ................................................................................................................................... 29
7.5 Radio-Frequency Continuous Conducted .............................................................................. 31
7.6 Voltage Dips and Interruptions ............................................................................................... 33
8. Harmonic Current Emission .................................................................................................... 35
9. Voltage Change, Fluctuations and Flicker .............................................................................. 39
Appendix 1 ..................................................................................................................................... 41
List of Test and Measurement Instruments ............................................................................. 41
Appendix 2 ..................................................................................................................................... 46
Photographs of the Test Configurations ................................................................................. 46
Appendix 3 ..................................................................................................................................... 58
Photographs of EUT .................................................................................................................. 58
Appendix 3 ..................................................................................................................................... 60
Report Revision History ............................................................................................................ 60
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1. General Remarks This report contains the result of tests performed by:
DIGITAL EMC CO., LTD.
Address : 683-3, Yubang-Dong, Yongin-Si, Kyunggi-Do, Korea. 449-080
http://www.digitalemc.com
Tel: +82-31-321-2664 Fax: +82-31-321-1664
2. Test Laboratory Digital EMC Co., Ltd. has been accredited / filed / authorized by the agencies listed in the
following table;
Certificate Nation Agency Code Mark
Accreditation Korea KOLAS 393 ISO/IEC 17025
Site Filing
USA FCC 101842 678747
Test Facility list & NSA Data
Canada IC 5740A-1 5740A-2
Test Facility list & NSA Data
Japan VCCI C-1427
R-1364, R-3385 T-1442, G-338
Test Facility list & NSA Data
Certification Korea KC KR0034
Test Facility list & NSA Data
Germany TUV ROK1221C ISO/IEC 17025
Quality control in the testing laboratory is implemented as per ISO/IEC 17025 which is the
“General requirements for the competent of calibration and testing laboratory”.
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3. General Information of EUT
Kind of Equipment LED Driver
Model Name PSDV151101A
Add Model Name None
Serial No. None
Type of Sample Tested Pre-Production
Supplied Power for Test 230 V, 50 Hz
Rating Power Supply - Input: 100-277V~ 50/60Hz 3A 200W
- Output: 100~210V / 700mA, 13.2V / 50mA
Applicant
Samsung Electro-Mechanics Co., Ltd.
314, Maetan3-Dong, Yeongtong-Gu, Suwon-Shi, Kyunggi-Do,
Rep. of Korea. Post code : 443-743.
Manufacturer
1. DONGGUAN SAMSUNG ELECTRO-MECHANICS CO.,LTD
HENGKENG MANAGEMENT AREA LIAOBU TOWN DONGGUAN
CITY GUANGDONG PROVINCE P.R.CHINA P.C:523413
2. SAMSUNG ELECTRO-MECHANICS THAILAND CO., LTD.
WELLGROW INDUSTRIAL ESTATE,93 MOO 5 T.BANGSAMAK,
A.BANGPAKONG,CHACHOENGSAO 24180 THAILAND
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4. Test Summary
4.1 Applied standards and test results
Test Items Applied Standards Results
I. Emission
Conducted Disturbance EN55015 : 2006 / A1 : 2007 C
Radiated Disturbance EN55015 : 2006 / A1 : 2007 C
Harmonic Current Emission EN61000-3-2 : 2006 / A2 : 2009 C
Voltage Change, Fluctuations and Flicker EN61000-3-3 : 2008 C
II. Immunity
Electrostatic Discharge EN61547 : 2009
C EN61000-4-2 : 2009
Radio-Frequency Electromagnetic Field EN61547 : 2009
C EN61000-4-3 : 2006 / A2 : 2010
Fast Transient EN61547 : 2009
C EN61000-4-4 : 2004 / A1 : 2010
Surges EN61547 : 2009
C EN61000-4-5 : 2006
Radio-Frequency Continuous Conducted EN61547 : 2009
C EN61000-4-6 : 2009
Voltage Dips and Interruptions EN61547 : 2009
C EN61000-4-11 : 2004
C=Comply N/C=Not Comply N/T=Not Tested N/A=Not Applicable
The data in this test report are traceable to the national or international standards.
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4.2 Test environment and conditions
Test Items Test date (MM-DD)
Temp ( )℃
Humidity (% R.H.)
Pressure (kPa)
I. Emission
Conducted Disturbance 11-01 24 32
- Radiated Disturbance
10-31 11-01
19 24
42 32
Harmonic Current Emission 11-02 22 54
Voltage Change, Fluctuations and Flicker 11-02 22 54
II. Immunity
Electrostatic Discharge 11-01 23 38 101.3
Radio-Frequency Electromagnetic Field 10-31 24 43 101.5
Fast Transient 11-01 23 38 101.3
Surges 11-01 23 38 101.3
Radio-Frequency Continuous Conducted 11-02 21 48 101.4
Voltage Dips and Interruptions 11-01 23 38 101.3
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5. Test Set-up and operation mode 5.1 Principle of Configuration Selection Emission : The equipment under test (EUT) was configured to measure its highest possible
radiation level. The test modes were adapted accordingly in reference to the instructions for
use.
Immunity : The equipment under test (EUT) was configured to have its highest possible
susceptibility against the tested phenomena. The test modes were adapted accordingly in
reference to the instructions for use.
5.2 Test Operation Mode - Normal operating mode
5.3 Support Equipment Used
Type Model No Serial No Manufacturer
Cable
Connect type
Length (m)
Shield
LED LAMP N/A N/A SAMSUNG POWER 2.0 Non Shield
NOTE
- See “APPENDIX 2 Photographs” for actual system test setup
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6. Test Results : Emission
6.1 Conducted Disturbance 6.1.1 Measurement Procedure In the range of 0.15 MHz to 30 MHz, the conducted disturbance was measured and set-up was made accordance with EN55015. If the EUT is table top equipment, it was placed on a wooden table with a height of 0.8 m above the reference ground plane and 0.4 m from the conducting wall of the shielded room. Also if the EUT is floor-standing equipment, it was placed on a non-conducted support with a height up to 0.15 m above the reference ground plane. Connect the EUT’s power source lines to the appropriate power mains / peripherals through the LISN. All the other peripherals are connected to the 2nd LISN, if any. Unused measuring port of the LISN was resistively terminated by 50 ohm terminator. The measuring port of the LISN for EUT was connected to spectrum analyzer. Using conducted emission test software, the emissions were scanned with peak detector mode. After scanning over the frequency range, suspected emissions were selected to perform final measurement. When performing final measurement, the receiver was used which has Quasi-Peak detector and Average detector. By varying the configuration of the test sample and the cable routing it was attempted to maximize the emission. For further description of the configuration refer to the picture of the test set-up.
6.1.2 Limit for Conducted Disturbance (1) Conducted disturbance at mains ports
Frequency range (MHz)
Limits dB(μV)
Quasi-peak Average
0.009. to 0.05** 110 -
0.05 to 0.15** 90 to 80*** -
0.15 to 0.5 66 to 56*** 56 to 46***
0.5 to 2.51 56 46
2.51 to 3.0 73 63
3.0 to 5.0 56 46
5.0 to 30 60 50
* At the transition frequency, the lower limit applies. ** The limit values in the frequency range 9 kHz to 150 kHz are considered to be "provisional limits" which may be
modified after some years of experience. *** The limit decreases linearly with the logarithm of the frequency in the ranges 50 kHz to 150 kHz and 150 kHz to 0,5
MHz.
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2) Conducted disturbance at control ports
Frequency range (MHz)
Limits dB(μV)
Quasi-peak Average
0.15 to 0.50 84 to 74 74 to 64
0.50 to 30 74 64
* The limits decrease linearly with the logarithm of the frequency in the range 0.15 MHz to 0.5 MHz.
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Test Result
< Max >
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< MIN >
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< Dimmer Port >
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6.2 Radiated Disturbance 6.2.1 Measurement Procedure The radiated disturbance was measured and set-up was made accordance with EN55015. The EUT placed on a wood table in the center of a loop antenna (Diameter is 2 m). The Induced current in the loop antenna is measured by means of a current probe and the test receiver. Three field components are checked by means of a coaxial switch. The frequency range from 9 kHz to 30 MHz is investigated. The receiver is measured with the quasi-peak detector. For frequency band 9 kHz to 150 kHz, the bandwidth of the field strength meter is set at 200 Hz. For frequency band 150 kHz to 30 MHz, the bandwidth is set at 9 kHz. For further description of the configuration refer to the picture of the test set-up. 6.2.2 Limit for Radiated Disturbance
(1) Radiated disturbance limits in the frequency range 9 kHz to 30 MHz
Frequency range (MHz)
Limit for 2 m loop diameter (dBμA)
0.009 ~ 0.07 88
0.07 ~ 0.15 88 ~ 58b
0.15 ~ 3.00 58 ~ 22b
3.00 ~ 30.00 22
a At the transition frequency, the lower limit applies.
b . Decreasing linearly with the logarithm of the frequency. For electrodeless lamps and luminaires, the limit in the
frequency range of 2.2 MHz to 3.0 MHz is 58 dB(μA).
(2) Radiated disturbance limits in the frequency range (30 ~ 300) MHz
Frequency range (MHz)
Quasi-peak limits (dBμA/m)
30.00 ~ 230.00 30
230.00 ~ 300.00 37
At the transition frequency, the lower limit applies.
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Test Result
< 9 kHz ~ 30 MHz _ X axis>
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< 9 kHz ~ 30 MHz _ Y axis>
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< 9 kHz ~ 30 MHz _ Z axis>
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< (30 ~ 300) MHz >
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7. Test Results : Immunity
Description of Performance Criteria A functional description of performance criteria, during or as a consequence of the immunity testing, shall be provided by the manufacturer and noted in the test report. The performance of lighting equipment shall be assessed by monitoring: – the luminous intensity of the Iuminaire or of the lamp(s); – the functioning of the control in the case of equipment which includes a regulating control or concerns the regulating control itself; – the functioning of the starting device, if any. Performance criterion A During the test, no change of the luminous intensity shall be observed and the regulating control, if any, shall operate during the test as intended. Performance criterion B During the test, the luminous intensity may change to any value. After the test, the luminous intensity shall be restored to its initial value within 1 min. Regulating controls need not function during the test, but after the test, the mode of the control shall be the same as before the test provided that during the test no mode changing commands were given. Performance criterion C During and after the test, any change of the luminous intensity is allowed and the lamp(s) may be extinguished. After the test, within 30 min, all functions shall return to normal, if necessary by temporary interruption of the mains supply and/or operating the regulating control. Additional requirement for lighting equipment incorporating a starting device : After the test the lighting equipment is switched off. After half an hour, it is switched on again. The lighting equipment shall start and operated as intended. A change of luminous intensity may be checked by visual observation but, in case of doubt, the following applies. The luminous intensity of a luminaire or of the lamp(s) shall be measured by means of a illuminance (lux) meter which is positioned in an axis perpendicular to the main plane of the luminaire or lamp(s), in its centre and at a distance for proper operation of the lux meter. The luminous intensity shall be deemed to be unchanged if the measured intensities do not deviate by more than 15 %. Care shall be taken to ensure the ambient light level does not influence the measurement results. Precautions to achieve reproducible results given in the relevant lamp performance standards shall be observed.
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7.1 Electrostatic Discharge
7.1.1 Measurement Procedure The immunity against electrostatic discharge was tested in accordance with EN61547. The test set-up was made accordance with EN61000-4-2. A ground reference plane was located on the floor, and connected to earth via a low impedance connection. The return cable of the ESD generator was connected to the reference plane. In case of table top equipment, EUT was placed on the reference plane on 80 cm of insulating support. And a vertical coupling plane (VCP) of (0.5 x 0.5) m was located 10 cm from the EUT’s sides. The VCP was connected to the reference plane via a cable with a 470 k (2ea) resistor. The test was made by applying contact and air discharges to the EUT and contact discharges to the VCP/HCP. When applying the discharges to the VCP the tip of the generator was located at the middle edge of the VCP. The VCP was located 10 cm from each side of the EUT. Contact discharges were applied to various points of the EUT at conductive surfaces and to the HCP/VCP. Air discharges were applied to various points of the EUT at non-conductive surfaces.
Test voltages and kind of discharge
Direct : Air Discharges (kV)
Contact Discharges (kV)
Indirect : HCP / VCP (kV)
8 (kV)
4 (kV)
4 (kV)
Polarity + and -
Discharge impedance 330 / 150 pF
Discharge Repetition ≥1 sec
Number of discharges per point for each voltage and polarity ≥20
Performance criteria B
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7.1.2 Test Point and Result
- Indirect Discharge
No. Position Kind of
DischargeTest level
Performance Criteria
Result
1 Horizontal Coupling Plane Contact 2 kV, 4 kV B
A
2 Vertical Coupling Plane A
- Direct Discharge
No. Position Kind of
DischargeTest level
Performance Criteria
Result
1 Enclosure (Metal) Contact 2 kV, 4 kV B A
2 Cable Air 2 kV, 4 kV, 8 kV B A
ESD
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7.1.3 Discharge Position
Air Discharge : Contact Discharge :
1
1 2
2
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7.2 Radio-Frequency Electromagnetic Field
7.2.1 Measurement Procedure The immunity against radio-frequency electromagnetic field was made accordance with EN61547. The test set-up was made accordance with EN61000-4-3 in semi-anechoic chamber. The EUT has been placed in center of a wooden turntable. The height of this table was 0.8 m. The field strength was monitored by an isotropic sensor during the complete test. The isotropic sensor was located beside the equipment. The antenna has been orientated for both horizontal and vertical polarization. The distance between antennas the equipment under testing was at least 3 m. The tests have been performed with the antenna facing each of the four side of the EUT.
Field strength 3 V/m
Frequency range 80 MHz ~ 1 GHz
Amplitude Modulation AM, 80 %, 1 kHz sine-wave
Step size 1 % of fundamental
Sweep capability ≤1.5 x 10-3 decade/s
Performance criteria A
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7.2.2 Test Result
Test Level (V/m)
ANT Polarization
Position Performance
Criteria Result Remark
3 V/m
Horizontal
Left
A
A -
Right A -
Front A -
Rear A -
Vertical
Left A -
Right A -
Front A -
Rear A -
Radio-frequency electromagnetic field
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7.3 Fast Transients
7.3.1 Measurement Procedure The immunity against fast transients was tested in accordance with EN61547. The test set-up was made accordance with EN61000-4-4. The EUT has been placed on a wooden table 10 cm above the reference ground plane. The reference ground plane exceeded the projected geometry of the EUT and the capacitive clamp by more than 20 cm. The clamp has placed directly on the reference ground plane. The distance between the EUT and all other conductive structures except the ground plane beneath the EUT was more than 50 cm. The distance between noise generator and EUT was about 50 cm.
AC power ports DC power ports
/ Signal ports
Test voltage (kV) 1 (kV) 0.5 (kV)
Polarity + and -
Repetition frequency 5 kHz
Tr/Th ns 5 / 50
Performance criteria B
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7.3.2 Test Result
Line Test Level (kV) Performance
Criteria Result Remark
N-L1-PE ±1 kV B A -
EFT, Power Line
Line Test Level (kV) Performance
Criteria Result Remark
Dimmer ±0.5 kV B A -
EFT, Signal Line
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7.4 Surges 7.4.1 Measurement Procedure The immunity against surges was tested in accordance with EN61547. The test set-up was made accordance with EN61000-4-5. The test consists of the injection of slow high energy transients in the AC/DC mains supply lines in both line-to-line and line-to-ground coupling mode, and into the signal and extra low voltage supply lines in line-to-ground coupling mode. The impedance of the transient generator is characterized by the shape of the open-circuit voltage and the circuit current pulses. To simulate typical installation impedances, 40 are inserted when the generator when extra low voltage and signal lines are tested, and 10 are inserted when the line-to-ground test is conducted on the AC/DC mains lines. The test pulses are coupled into the leads to be tested by means of appropriate coupling networks, which maintain the test pulses within their speci-fication. The reference ground plane exceeded the projected geometry of the EUT and the back filler by more than 20 cm. The back filler has been placed directly on a separated refer-ence ground plane. Both ground planes were connected together. The ground terminal of the back filler has been connected directly with its reference ground plane.
Luminaires and independent auxiliaries
Self-ballasted lamps and semi-
luminaires ≤25W >25W
Test voltage (kV) Line to Line
Line to Ground
0.5 (kV) 1 (kV)
1 (kV) 2 (kV)
0.5 (kV) 1 (kV)
Polarity + and -
Waveshape, open circuit voltage 1.2 μs / 50 μs
Waveshape, short circuit current 8 μs / 20 μs
Phase shifting Zero Crossing points
Number of surges 5
Performance criteria B
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7.4.2 Test Result
Line Test Level (kV) Performance
Criteria Result Remark
N to L1 ±1 kV B A -
L1 to PE ±2 kV B A -
N to PE ±2 kV B A -
Surges, Power Line
Line Test Level (kV) Performance
Criteria Result Remark
- - - - -
Surges, Signal Line
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7.5 Radio-Frequency Continuous Conducted
7.5.1 Measurement Procedure The immunity against radio-frequency continuous conducted was tested in accordance to EN61547. Test set-up was made according to EN61000-4-6. The EUT has been placed on a wooden table 10 cm above the reference ground plane. The reference ground plane exceeded the projected geometry of the EUT and the Coupling /Decoupling Network (CDN) by more than 30 cm. The CDN has been placed directly on the reference ground plane. The cable between CDN and EUT has a length of 30 cm.
Applied voltage 3 V
Frequency range 150 kHz ~ 80 MHz
Modulation AM, 80 %, 1 kHz sine-wave
Step size 1 % of fundamental
Sweep capability 1.5 x 10-3 decade/s
Performance criteria A
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7.5.2 Test Result
Port Test Level (V) Performance
Criteria Result Remark
Power Line (M3) 3 V A A -
Radio-frequency continuous conducted / Power Line
Port Test Level (V) Performance
Criteria Result Remark
Dimmer 3 V A A -
Radio-frequency continuous conducted / Signal Line
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7.6 Voltage Dips and Interruptions
7.6.1 Measurement Procedure The immunity against voltage dips and interruptions was tested in accordance with EN61547. The test set-up was made accordance in with EN61000-4-11. The dips/interruptions test is only applicable to AC mains. The dips/interruptions were applied at 0°, 45°, 90°, 135°, 180°, 225°, 270° and 315° on each phase.
- Voltage Dips and interruptions
Voltage reduction 30 % 100 %
Number of periods 10 0.5
Number of reductions (periods) at each duration 3
Interval between reductions ≥10
Performance criteria C B
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7.6.2 Test Result
Test Level % Ut
Voltage dips % Ut
Number of periodsPerformance
Criteria Result Remark
0 >95 0.5 B A -
70 30 10 C A -
Voltage Dips
* EUT was tested nominal mains voltage(100 V, 240 V) include the European normal mains voltage(230 V).
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8. Harmonic Current Emission
8.1 Measurement Procedure The harmonic current emission in the frequency from 0 to 2 kHz was tested in accordance with EN61000-3-2. The measurement was carried out under steady conditions using power analyzer. The measurement was performed with the test software. Decide the classification of the EUT as following; Class A : - balanced three-phase equipment - household appliances, excluding equipment identified as class D - tools, excluding portable tools - dimmers for incandescent lamps - audio equipment - equipments 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 specified power less than or equal to 600 W of the following types - personal computers and personal computer monitors - television receiver Note) 1) According to EN61000-3-2 the manufacturer shall specify the power of the apparatus. This
value shall be used for establishing limits; the specified power shall be within ±10 % of the measured power.
2) Limit are not specified for - 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
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8.2 Limit for harmonic current emission - Limit for Class A equipment
Harmonic order (n) Maximum permissibleHarmonic current (A)
Harmonic order (n) Maximum permissibleHarmonic current (A) Odd harmonics Even harmonics
3 5 7 9 11 13
15 ≤ n ≤ 39
2.30 1.14 0.77 0.40 0.33 0.21
0.15 15/n
2 4 5
8 ≤ n ≤ 40
1.08 0.43 0.3
0.23 8/n
- Limit for Class B equipment
It shall not exceed the value give in Class A multiplied by a factor of 1.5.
- Limit for Class C equipment
Harmonic order (n) Maximum permissible harmonic current expressed as a percentage
of the input current at the fundamental frequency %
2 3 5 7 9
11 ≤ n ≤ 39 (odd harmonics only)
2 30·λ(λ is the circuit power factor)
10 7 5 3
- Limit for Class D equipment
Harmonic order (n) Maximum permissible
Harmonic current per watt (mA/W) Maximum permissible Harmonic current (A)
3 5 7 9 11
13 ≤ n ≤ 39 (odd harmonics only)
3.4 1.9 1.0 0.5 0.35
3.85/n
2.30 1.14 0.77 0.40 0.33
See Class A
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Test Result
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9. Voltage Change, Fluctuations and Flicker
9.1 Measurement Procedure The Voltage change, fluctuations and flicker was tested in accordance with EN61000-3-3. EUT was connected to the Power Analyzer system. Measurements were conducted to obtain the desired flicker parameters. The measuring time depends on which parameters are to be measured. The measurement was performed with the test software.
9.2 Limit for voltage change, fluctuations and flicker - the short-term flicker indicator, Pst, shall not be greater than 1.0 - the long-term flicker indicator, Plt, shall not be greater than 0.65 - the relative steady-state voltage change, dc shall not exceed 3.3 % - the voltage change with time, d(t), during a voltage change shall not exceed 3.3 % for more than 500 ms - the maximum relative voltage change, dmax, shall not exceed a) 4 % without additional conditions b) 6 % for equipment which is switched manually, if any c) 7 % for equipment which is attended whilst in use, if any
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Test Result
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Appendix 1
List of Test and Measurement Instruments
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To facilitate inclusion on each page of the test equipment used for related tests, each item of test equipment
is identified by the Test Laboratory.
1. Conducted Disturbance Name of Instrument Model No. Manufacturer Serial No. Cal. Date Next Cal. Date
SPECTRUM ANALYZER 8591E H/P 3649A05889 2013.02.28 2014.02.28
RFI/FIELD INTENSITY METER
KNM-2402 KYORITSU 4N-170-3 2013.06.28 2014.06.28
LISN KNW-407 KYORITSU 8-317-8 2013.01.08 2014.01.08
ARTIFICIAL MAINS NETWORK
PMM L2-16B NARDA S.T.S. / PMM 000WX20305 2013.06.27 2014.06.27
50 OHM TERMINATOR CT-01 TME N/A 2013.01.08 2014.01.08
EMI TEST RECEIVER ESCI ROHDE & SCHWARZ 100364 2013.02.27 2014.02.27
LISN ESH2-Z5 ROHDE & SCHWARZ 828739/006 2013.09.12 2014.09.12
LISN LISN1600 TTI 197204 2013.06.28 2014.06.28
50 OHM TERMINATOR CT-01 TME N/A 2013.01.08 2014.01.08
ISN T2 TESEQ GMBH 25183 2013.01.11 2014.01.11
ISN T8 TESEQ GMBH 24815 2013.01.11 2014.01.11
LISN (DC) NNBM8125 SCHWARZBECK 8125-821 2013.06.27 2014.06.27
LISN (DC) NNBM8125 SCHWARZBECK 8125-1390 2013.09.12 2014.09.12
2. Radiated Disturbance
Name of Instrument Model No. Manufacturer Serial No. Cal. Date Next Cal. Date
EMI TEST RECEIVER ESU ROHDE & SCHWARZ 100014 2013.01.08 2014.01.08
BILOG ANTENNA CBL6112B SCHAFFNER 2737 2012.11.06 2014.11.06
HORN ANTENNA BBHA9120A SCHWARZBECK 322 2012.05.15 2014.05.15
AMPLIFIER 8447E H/P 2945A02865 2013.01.08 2014.01.08
PREAMPLIFIER 8449B AGILENT 3008A01590 2013.02.27 2014.02.27
SPECTRUM ANALYZER E4411B AGILENT US41062735 2013.06.27 2014.06.27
AMPLIFIER 8447D AGILENT 2443A03690 2013.06.28 2014.06.28
EMI TEST RECEIVER ESCI ROHDE & SCHWARZ 100364 2013.02.27 2014.02.27
BICONICAL ANT. VHA 9103 SCHWARZBECK 91032789 2012.04.10 2014.04.10
LOG-PERIODIC ANT. UHALP 9108A SCHWARZBECK 590 2012.04.10 2014.04.10
BICONICAL ANT. VHA 9103 SCHWARZBECK 91031946 2012.03.12 2014.03.12
LOG-PERIODIC ANT. UHALP 9108-A1 SCHWARZBECK 0411 2012.03.12 2014.03.12
AMPLIFIER MLA-100K01-B01-26 TSJ 1252741 2013.02.28 2014.02.28
LOOP ANTENNA RF300 LAPLACE
INSTRUMENT LTD9067 2013.03.03 2015.03.03
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3. Electrostatic Discharge
Name of Instrument Model No. Manufacturer Serial No. Cal. Date Next Cal. Date
ESD SIMULATOR ESS-2000 NOISEKEN ESS0655580 2013.01.14 2014.01.14
ESD GUN TC-815R NOISEKEN ESS0665696 2013.01.14 2014.01.14
ESD SIMULATOR ESS-200AX NOISEKEN E965645 2013.09.18 2014.09.18
ESD GUN TC-815P NOISEKEN N/A 2013.09.18 2014.09.18
4. Radio-Frequency Electromagnetic Field
Name of Instrument Model No. Manufacturer Serial No. Cal. Date Next Cal. Date
SIGNAL GENERATOR SML03 ROHDE & SCHWARZ 100647 2013.02.27 2014.02.27
POWER METER NRVD ROHDE & SCHWARZ 100403 2013.02.28 2014.02.28
ANTENNA VULP 9118E SCHWARZBECK 754 N/A N/A
POWER AMPLIFIER MT100 PRANA 1099 N/A N/A
HORN ANTENNA BBHA9120E SCHWARZBECK 270 N/A N/A
POWER AMPLIFIER 5055R OPHIR RF 1007 N/A N/A
SIGNAL GENERATOR 8648C H/P 3847U02308 2013.06.27 2014.06.27
POWER METER 438A H/P 3513U04164 2013.06.27 2014.06.27
ANTENNA VULP 9118 SCHWARZBECK 9118E890 N/A N/A
POWER AMPLIFIER MT200 PRANA 1102 N/A N/A
HORN ANTENNA BBHA9120A SCHWARZBECK 556 N/A N/A
POWER AMPLIFIER SV20 PRANA 1100 N/A N/A
5. Fast Transients
Name of Instrument Model No. Manufacturer Serial No. Cal. Date Next Cal. Date
ULTRA COMPACT SIMULATOR
UCS 500 N5 EMTEST V1015106286 2013.02.27 2014.02.27
COUPLING CLAMP CDN8015 SCHAFFNER 17332 2013.06.28 2014.06.28
ULTRA COMPACT SIMULATOR
UCS 500 N5 EMTEST V1113109125 2013.05.27 2014.05.27
COUPLING CLAMP HFK EMTEST 0312-76 2013.06.28 2014.06.28
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6. Surges
Name of Instrument Model No. Manufacturer Serial No. Cal. Date Next Cal. Date
ULTRA COMPACT
SIMULATOR UCS 500 N5 EMTEST V1015106286 2013.02.27 2014.02.27
SIGNAL LINE CDN CDN 117 SCHAFFNER 17375 N/A N/A
SIGNAL LINE CDN CDN 118 SCHAFFNER SL 400-187 N/A N/A
COUPLING
ACCESSORY INA 172 SCHAFFNER SL 403-109 N/A N/A
COUPLING
ACCESSORY INA 175 SCHAFFNER SL 403-474 N/A N/A
ULTRA COMPACT SIMULATOR
UCS 500 N5 EMTEST V1113109125 2013.05.27 2014.05.27
7. Radio-Frequency Continuous Conducted
Name of Instrument Model No. Manufacturer Serial No. Cal. Date Next Cal. Date
SIGNAL GENERATOR 8657B H/P 3630U08728 2013.06.27 2014.06.27
POWER METER 438A H/P 3048U02191 2013.06.27 2014.06.27
POWER AMPLIFIER DP70 PRANA 1098 N/A N/A
EM CLAMP TSIC-23 TSJ / FCC 401 2013.09.24 2014.09.24
DECOUPLING CLAMP TSIC-23-DCN TSJ / FCC 150 2013.09.24 2014.09.24
SIGNAL GENERATOR 8656B H/P 3334U14664 2013.01.08 2014.01.08
POWER METER EPM-442A H/P GB37170268 2013.01.08 2014.01.08
POWER AMPLIFIER FLL75 FRANKONIA 0072 N/A N/A
CDN TSCDN-M3-16A TSJ/FCC 2008 2013.06.27 2014.06.27
CDN TSCDN-M2-16A TSJ/FCC 2008 2013.06.28 2014.06.28
8. Voltage Dips and Interruptions
Name of Instrument Model No. Manufacturer Serial No. Cal. Date Next Cal. Date
ULTRA COMPACT SIMULATOR
UCS 500 N5 EMTEST V1113109125 2013.05.27 2014.05.27
MOTOR VARIAC MV2616 EMTEST V1113109126 2013.05.27 2014.05.27
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9.Harmonic Current Emission
Name of Instrument Model No Manufacturer Serial No. Cal. Date Next Cal. Date
POWER ANALYZER PM6000 VOLTECH
INSTUMENT 100006700031 2013.07.09 2014.07.09
CVCF 4420 NF CORPORATION 304935 2013.02.28 2014.02.28
10.Voltage Change, Fluctuations and Flicker
Name of Instrument Model No Manufacturer Serial No. Cal. Date Next Cal. Date
POWER ANALYZER PM6000 VOLTECH
INSTUMENT 100006700031 2013.07.09 2014.07.09
IMPEDANCE NETWORK
ES4152 NF CORPORATION 424059 2013.09.12 2014.09.12
CVCF 4420 NF CORPORATION 304935 2013.02.28 2014.02.28
11.Other Equipment Name of Instrument Model No Manufacturer Serial No. Cal. Date Next Cal. Date
DC POWER SUPPLY PWS-3010D PROTEK 4542040 NA NA
DIGITAL LUX METER 1331A TSE 071010942 2013.03.12 2014.03.12
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Appendix 2
Photographs of the Test Configurations
1. Conducted Disturbance 2. Radiated Disturbance 3. Electrostatic Discharge 4. Radio-Frequency Electromagnetic Field 5. Fast Transient 6. Surges 7. Radio-Frequency Continuous Conducted 8. Voltage Dips and Interruptions 9. Harmonic Current Emission & Voltage Change, Fluctuations and Flicker
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A2-1. Conducted Disturbance
< Main Port >
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< Control Port >
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A2-2. Radiated Disturbance
< 9 kHz ~ 150 MHz >
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< 30 MHz ~ 1 GHz >
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A2-3. Electrostatic Discharges
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A2-4. Radio-Frequency Electromagnetic Field
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A2-5. Fast Transients
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A2-6. Surges
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A2-7. Radio-Frequency Continuous Conducted
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A2-8. Voltage Dips and Interruptions
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A2-9. Harmonic Current Emission & Voltage Change, Fluctuations and Flicker
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Appendix 3
Photographs of EUT
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A3. EUT
1. Front View of Product
2. Rear View of Product
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Appendix 3
Report Revision History
Revision
Date Description Revised By
Revision
Reviewed By
None Original N/A N/A