Ttd-41t,ttd-61r_emc Report
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Report No.: TS08100034-EME Page 1 of 59
EMC TEST REPORT Report No.:
TS08100034-EME
Model No.:
TTD-41T, TTD-61R
Issued Date: Oct. 23, 2008
Applicant:
TRANWO TECHNOLOGY CORP. 6F., No. 49, Guangming 6th Rd., Jubei City, Hsinchu, Taiwan
Test Method/ Standard:
EN 301 489-17 V1.2.1 EN 301 489-1 V1.6.1 EN 61000-3-2: 2006 EN 61000-3-3: 1995+A1: 2001+A2: 2005
Test By:
Intertek Testing Services Taiwan Ltd. No. 11, Lane 275, Ko-Nan 1 Street, Chia-Tung Li, Shiang-Shan District, Hsinchu City, Taiwan
This test report consists of 59 pages in total. It may be duplicated completely for legal use with the allowance of the applicant. It shall not be reproduced except in full, without the written approval of Intertek Laboratory. The test result(s) in this report only applies to the tested sample(s). Report Engineer
Julie Wang Project Engineer
Rex Liao
Reviewed By
Rico Deng
Report No.: TS08100034-EME Page 2 of 59
Table of Contents 1. General information...................................................................................................... 4 1.1 Identification of the EUT........................................................................................ 4 1.2 Additional information about the EUT................................................................... 4 2. Test specifications......................................................................................................... 5 2.1 Test standards.......................................................................................................... 5 2.2 Additions, deviations and exclusions from standards............................................. 5 2.3 Operation mode ...................................................................................................... 5 2.4 Performance criteria ............................................................................................... 6 2.5 Performance verification ........................................................................................ 6 3. Test summary................................................................................................................ 7 4. EN 55022 Conducted emission test.............................................................................. 8 4.1 Operating environment ........................................................................................... 8 4.2 Test setup & procedure ........................................................................................... 8 4.3 Test equipment........................................................................................................ 9 4.4 Emission limit......................................................................................................... 9 4.5 Uncertainty of Conducted Emission....................................................................... 9 4.6 Conducted emission test data ............................................................................... 10 5. EN 55022 Radiated emission test............................................................................... 14 5.1 Operating environment ......................................................................................... 14 5.2 Test setup & procedure ......................................................................................... 14 5.3 Test equipment...................................................................................................... 16 5.4 Emission limit....................................................................................................... 16 5.5 Uncertainty of Radiated Emission........................................................................ 16 5.6 Radiated emission test data .................................................................................. 17 6. EN 61000-3-2 Harmonics test .................................................................................... 21 6.1 Operating environment ......................................................................................... 21 6.2 Test setup & procedure ......................................................................................... 21 6.3 Test equipment...................................................................................................... 21 6.4 Uncertainty of Radiated Emission........................................................................ 21 6.5 Test result.............................................................................................................. 22 7. EN 61000-3-3 Voltage fluctuations-flicker Test......................................................... 24 7.1 Operating environment ......................................................................................... 24 7.2 Test setup & procedure ......................................................................................... 24 7.3 Test equipment...................................................................................................... 24 7.4 Uncertainty of Radiated Emission........................................................................ 24 7.5 Test result.............................................................................................................. 25 8. EN 61000-4-2 Electrostatic discharge immunity test................................................. 27 8.1 Operating environment ......................................................................................... 27 8.2 Purpose ................................................................................................................. 27 8.3 Test set-up............................................................................................................. 27 8.4 Test conditions ...................................................................................................... 27 8.5 Test equipment...................................................................................................... 28 8.6 Test result.............................................................................................................. 28 9. EN 61000-4-3 Radiated, radio-frequency, electromagnetic field immunity test 9.1 Operating environment ......................................................................................... 30
Report No.: TS08100034-EME Page 3 of 59
9.2 Purpose ................................................................................................................. 30 9.3 Test set-up............................................................................................................. 30 9.4 Test conditions ...................................................................................................... 30 9.5 Test equipment...................................................................................................... 31 9.6 Generation of the electromagnetic field ............................................................... 31 9.7 Test results ............................................................................................................ 32 10. EN 61000-4-4 Electrical fast transient/burst immunity test ..................................... 33 10.1 Operating environment ....................................................................................... 33 10.2 Purpose ............................................................................................................... 33 10.3 Test set-up........................................................................................................... 33 10.4 Test condition ..................................................................................................... 33 10.5 Test equipment.................................................................................................... 33 10.6 Test results .......................................................................................................... 34 11. EN 61000-4-5 Surge immunity test.......................................................................... 35 11.1 Operating environment ....................................................................................... 35 11.2 Purpose ............................................................................................................... 35 11.3 Test set-up ........................................................................................................... 35 11.4 Test conditions .................................................................................................... 35 11.5 Test Equipment................................................................................................... 36 11.6 Test results .......................................................................................................... 36 11.6.1 Main power ports............................................................................................. 36 12. EN 61000-4-6 Immunity to conducted disturbances, inducted by radio-frequency fields................................................................................................. 37 12.1 Operating environment ....................................................................................... 37 12.2 Purpose ............................................................................................................... 37 12.3 Test set-up........................................................................................................... 37 12.4 Test conditions .................................................................................................... 37 12.5 Test equipment.................................................................................................... 38 12.6 Generation and calibration of the disturbance signal ......................................... 38 12.7 Test results .......................................................................................................... 39 13. EN 61000-4-11 Voltage dips, short interruptions and voltage variations immunity test .............................................................................................................. 40 13.1 Operating environment ....................................................................................... 40 13.2 Purpose ............................................................................................................... 40 13.3 Test set-up........................................................................................................... 40 13.4 Test condition ..................................................................................................... 40 13.5 Test equipment.................................................................................................... 40 13.6 Generation of the disturbance signal .................................................................. 41 13.7 Test result............................................................................................................ 41 Appendix A1: External photo of EUT (TTD-41T) ....................................................... 42 Appendix A2: External photo of EUT (TTD-61R)....................................................... 43 Appendix A3: External photo of Adapter ..................................................................... 44 Appendix A4: Internal photo of EUT (TTD-41T) ........................................................ 45 Appendix A5: Internal photo of EUT (TTD-61R) ........................................................ 52 Appendix B1: Conducted Emission Test Set-up........................................................... 56 Appendix B2: Radiated Emission Test Set-up.............................................................. 58
Report No.: TS08100034-EME Page 4 of 59
1. General information 1.1 Identification of the EUT Applicant: Product: Model No.: Operating Frequency: Channel Number: Type of Modulation: Rated Power:
Power Cord: Sample Received: Test Date(s): Note 1:
Note 2:
Note 3:
TRANWO TECHNOLOGY CORP. Digital Wireless Video Baby Monitor TTD-41T, TTD-61R 2408 MHz ~ 2470.5 MHz 52 channels FSK DC 6V from adapter (LK-D060080), I/P Voltage: 230-240 Vac, 50 Hz DC 3.7V from Li-ion battery for TTD-61R DC 6V from battery (1.5V * 4) for TTD-41T N/A Aug. 26, 2008 Oct. 07, 2008 ~ Oct. 14, 2008 This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program. The test report only allows to be revised within three years from its original issued date unless further standard or the requirement was noticed. When determining the test conclusion, the Measurement Uncertainty of test has been considered.
1.2 Additional information about the EUT The EUT is a Digital Wireless Video Baby Monitor, and was defined as information technology equipment. For more detail features, please refer to user's Manual.
Report No.: TS08100034-EME Page 5 of 59
2. Test specifications 2.1 Test standards EN 301 489-17 V1.2.1 Electromagnetic compatibility and Radio spectrum Matters (ERM); Electromagnetic Compatibility (EMC) standard for radio equipment and services; Part 17: Specific conditions for Wideband data and HIPERLAN equipment EN 301 489-1 V1.6.1 Electromagnetic compatibility and Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements EN 61000-3-2: 2006 Electromagnetic compatibility ― Part 3. Limits Section 2. Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) EN 61000-3-3: 1995+A1: 2001+A2: 2005 Electromagnetic compatibility ― Part 3. Limits Section 3. Limitation of voltage fluctuations and flicker in low-voltage supply systems for equipment with rated current ≤ 16 A
2.2 Additions, deviations and exclusions from standards No additions, deviations or exclusions have been made from standard
2.3 Operation mode The EUT was supplied with DC 6V from adapter (230 Vac, 50 Hz) and was tested in normal operating mode.
Report No.: TS08100034-EME Page 6 of 59
2.4 Performance criteria Performance table Criteria
During test Shall operate as intended May show degradation of performance(Note1) Shall be no loss of function Shall be no unintentional transmissions May show loss of function (one or more) May show degradation of performance (Note 1) No unintentional transmissions May be loss of function (one or more)
After test Shall operate as intended Shall be no degradation of performance(Note 2) Shall be no loss of function A Shall be no loss of stored data or user programmable functions Functions shall be self-recoverable Shall operate as intended after recovering B Shall be no degradation of performance(Note 2) Shall be no loss of stored data or user programmable functions Functions shall be recoverable by the operator C Shall operate as intended after recovering Shall be no degradation of performance(Note 2) Note 1: Degradation of performance during the test is understood as a degradation to a level not below a minimum performance level specified by the manufacturer for the use of the apparatus as intended. In some cases the specified minimum performance level may be replaced by a permissible degradation of performance. If the minimum performance level or the permissible performance degradation is not specified by the manufacturer then either of these may be derived from the product description and documentation (including leaflets and advertising) and what the user may reasonably expect from the apparatus if used as intended. Note 2: No degradation of performance after the test is understood as no degradation below a minimum performance level specified by the manufacturer for the use of the apparatus as intended. In some cases the specified minimum performance level may be replaced by a permissible degradation of performance. After the test no change of actual operating data or user retrievable data is allowed. If the minimum performance level or the permissible performance degradation is not specified by the manufacturer then either of these may be derived from the product description and documentation (including leaflets and advertising) and what the user may reasonably expect from the apparatus if used as intended.
2.5 Performance verification The EUT has been monitored based on manufacturer’s specification, the performance fulfilled the requirements of standard.
Report No.: TS08100034-EME Page 7 of 59
3. Test summary (EN 301 489-17) Emission Test Type Result
Standard EN 55022: 2006 Class B EN 61000-3-2: 2006 Class A EN 61000-3-3: 1995 +A1: 2001+A2: 2005
Conducted Test
PASS
Radiated Test
PASS
Harmonic current Emissions Voltage fluctuation & Flicker
Remarks Pass by -23.77 dB at 30.000 MHz Line Phase Pass by -1.84 dB at 528.000 MHz With antenna polarization Horizontal
PASS
Meet the requirements
PASS
Meet the requirements
Immunity Standard
Test Type
Result
Performance Criteria
EN 61000-4-2: 1995 ESD test +A1: 1998+ A2: 2001
PASS
Criterion B
EN 61000-4-3: 2006 +A1: 2007
RS test
PASS
Criterion A
EN 61000-4-4: 2004
EFT test
PASS
Criterion B
EN 61000-4-5: 2006
Surge test
PASS
Criterion B
EN 61000-4-6: 2007
CS test
PASS
Criterion A
EN 61000-4-11: 2004
Dip test
PASS
1. 30 % reductionPerformance Criterion B 2. 60 % reductionPerformance Criterion C 3. >95 % reductionPerformance Criterion C
Test Judgment Meets the requirements of Performance Criterion B Meets the requirements of Performance Criterion A Meets the requirements of Performance Criterion B Meets the requirements of Performance Criterion A Meets the requirements of Performance Criterion A Meets the requirements of Voltage Dips: 1. 30 % reduction- Performance Criterion A 2. 60 % reduction- Performance Criterion B 3. >95 % reductionPerformance Criterion B
Remark: The EUT has been tested/evaluated and pass the above standards without modification.
Report No.: TS08100034-EME Page 8 of 59
4. EN 55022 Conducted emission test 4.1 Operating environment Temperature:
24
℃
Atmospheric Pressure: 1023
Relative Humidity: 53
%
Test Voltage: 230 Vac, 50 Hz
hPa
4.2 Test setup & procedure (1) TTD-41T wireless
AC Power
AMN 1
TTD-41T wireless
AMN 2
TTD-61R
EMI Receiver AC Power
(2) TTD-61R wireless
AC Power
AMN 1
TTD-61R wireless
AMN 2
TTD-41T
EMI Receiver AC Power
The EUT along with its peripherals were placed on a 1.0 meter(W)×1.5 meter(L) and 0.8 meter in height wooden table and the EUT was adjusted to maintain a 0.4meter space from a vertical reference plane. The EUT was connected to power mains through a Artificial Mains Network (AMN), which provided 50 ohm coupling impedance for measuring instrument and the chassis ground was bounded to the horizontal ground plane of shielded room. The excess power cable between the EUT and the AMN was bundled. All connecting cables of EUT and peripherals were moved to find the maximum emission
Report No.: TS08100034-EME Page 9 of 59
4.3 Test equipment Equipment
Brand
Model No.
EMI Receiver
Rohde & Schwarz
ESCS 30
AMN
Rohde & Schwarz
EHS3-Z5
AMN
Schaffner
MN2050D
Shield Room
N/A
N/A
Note: The above equipments are within the valid calibration period.
4.4 Emission limit Freq.
(MHz)
Maximum RF Line Voltage Limits for conducted emission of equipment intended to be used in telecommunication centres only(dBμV)
Limits for conducted emissions(dBμV)
Q.P.
Ave.
Q.P.
Ave.
0.15~0.50
79
66
66~56
56~46
0.50~5.00
73
60
56
46
5.00~30.0
73
60
60
50
4.5 Uncertainty of Conducted Emission Expanded uncertainty (k=2) of conducted emission measurement is ±2.26 dB.
Report No.: TS08100034-EME Page 10 of 59
4.6 Conducted emission test data Phase: Model No.: Test Condition:
Line TTD-41T Normal operation mode
Remark: 1. Corr. Factor (dB)= AMN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)
Report No.: TS08100034-EME Page 11 of 59
Phase: Model No.: Test Condition:
Neutral TTD-41T Normal operation mode
Remark: 1. Corr. Factor (dB)= AMN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)
Report No.: TS08100034-EME Page 12 of 59
Phase: Model No.: Test Condition:
Line TTD-61R Normal operation mode
Remark: 1. Corr. Factor (dB)= AMN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)
Report No.: TS08100034-EME Page 13 of 59
Phase: Model No.: Test Condition:
Neutral TTD-61R Normal operation mode
Remark: 1. Corr. Factor (dB)= AMN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)
Report No.: TS08100034-EME Page 14 of 59
5. EN 55022 Radiated emission test 5.1 Operating environment Temperature:
25
℃
Atmospheric Pressure: 1023
Relative Humidity: 53
%
Test Voltage: 230 Vac, 50 Hz
hPa
5.2 Test setup & procedure The Diagram below shows the test setup, which is utilized to make these measurements. (1) TTD-41T Antenna Tower
1.0~4.0 meter wireless
Receiver Antenna
10 meter
TTD-41T
0.8 meter
Ground Plane wireless
TTD-61R
□
RF Test Receiver
Report No.: TS08100034-EME Page 15 of 59
(2) TTD-61R Antenna Tower
1.0~4.0 meter wireless
Receiver Antenna
10 meter
TTD-61R
0.8 meter
Ground Plane wireless
TTD-41T
□
RF Test Receiver
Radiated testing was performed at a 10 meters open area test site. The devices under test were placed on a turntable top 0.8 meter above ground. The table was 360 degrees to determine the position of the highest radiation. EUT is set 10 meters from the EMI receiving antenna, which is mounted on the top of a variable height mast. The antenna height is varied between one meter and four meters above ground to find the maximum value of the field strength. Both horizontal polarization and vertical polarization of the antenna was set to conduct the measurement. The bandwidth was set on the EMI meter 120 kHz. The levels are quasi peak value readings. The frequency spectrum from 30 MHz to 1000 MHz was investigated.
Report No.: TS08100034-EME Page 16 of 59
5.3 Test equipment Equipment
Brand
Model No.
EMI Receiver
Rohde & Schwarz
ESCS 30
Bilog Antenna
Schaffner
CBL6112B
Note: The above equipments are within the valid calibration period.
5.4 Emission limit
Frequency (MHz)
Limits for radiated Limits for radiated emissions from ancillary emissions from equipment intended for use Distance (m) ancillary equipment, in telecommunication measured on a stand centres only, and measured alone basis on a stand alone basis
30~230
10
40
30
230~1000
10
47
37
Note: 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 closet point of EUT.
5.5 Uncertainty of Radiated Emission Expanded uncertainty (k=2) of radiated emission measurement is ±4.68 dB.
Report No.: TS08100034-EME Page 17 of 59
5.6 Radiated emission test data Polarity: Model No.: Test Condition:
Vertical TTD-41T Normal operation mode
Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)
Report No.: TS08100034-EME Page 18 of 59
Polarity: Model No.: Test Condition:
Horizontal TTD-41T Normal operation mode
Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)
Report No.: TS08100034-EME Page 19 of 59
Polarity: Model No.: Test Condition:
Vertical TTD-61R Normal operation mode
Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)
Report No.: TS08100034-EME Page 20 of 59
Polarity: Model No.: Test Condition:
Horizontal TTD-61R Normal operation mode
Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)
Report No.: TS08100034-EME Page 21 of 59
6. EN 61000-3-2 Harmonics test 6.1 Operating environment Temperature:
25
℃
Atmospheric Pressure: 1023
Relative Humidity: 55
%
Test Voltage: 230 Vac, 50 Hz
hPa
6.2 Test setup & procedure
AC power
Measuring Equipment
EUT
PC controller
Harmonics of the fundamental current were measured up to 2 kHz using a digital power analyzer. The test voltage was supplied from an AC source, which meets the requirements according to the standard. The steady-state harmonic current measurements were carried out using averaging. The transitory harmonics were measured during an observation period of 5 minutes. The disturbance duration time (limit 15 s) is defined as the total time under which the transitory harmonics exceeds the limit level for steady-state harmonics during an observation period of 5 minutes. 6.3 Test equipment Equipment
Brand
Model No.
EMC Emission Tester
EMC Partner
HARMONICS-1000
Note: The above equipments are within the valid calibration period.
6.4 Uncertainty of Radiated Emission Expanded uncertainty (k=2) of radiated emission measurement is ±0.2 dB.
Report No.: TS08100034-EME Page 22 of 59
6.5 Test result EUT: TTD-41T Power Freq.: 50Hz Power Voltage: 230Vac CLASSIFICATION: SUMMARY RESULT:
CLASS A PASS
Harmonic Current Results Hn
AMPs
Current Limit
Result
Hn
AMPs
Current Limit
Result
1
0.023
NA
Pass
21
0.000
0.107
Pass
2
0.000
1.080
Pass
22
0.000
0.084
Pass
3
0.008
2.300
Pass
23
0.000
0.098
Pass
4
0.000
0.430
Pass
24
0.000
0.077
Pass
5
0.006
1.140
Pass
25
0.000
0.090
Pass
6
0.000
0.300
Pass
26
0.000
0.071
Pass
7
0.001
0.770
Pass
27
0.000
0.083
Pass
8
0.000
0.230
Pass
28
0.000
0.066
Pass
9
0.001
0.400
Pass
29
0.000
0.078
Pass
10
0.000
0.184
Pass
30
0.000
0.061
Pass
11
0.001
0.330
Pass
31
0.000
0.073
Pass
12
0.000
0.153
Pass
32
0.000
0.058
Pass
13
0.000
0.210
Pass
33
0.000
0.068
Pass
14
0.000
0.131
Pass
34
0.000
0.054
Pass
15
0.000
0.150
Pass
35
0.000
0.064
Pass
16
0.000
0.115
Pass
36
0.000
0.051
Pass
17
0.000
0.132
Pass
37
0.000
0.061
Pass
18
0.000
0.102
Pass
38
0.000
0.048
Pass
19
0.000
0.118
Pass
39
0.000
0.058
Pass
20
0.000
0.092
Pass
40
0.000
0.046
Pass
Report No.: TS08100034-EME Page 23 of 59
EUT: TTD-61R Power Freq.: 50Hz Power Voltage: 230Vac CLASSIFICATION: SUMMARY RESULT:
CLASS A PASS
Harmonic Current Results Hn
AMPs
Current Limit
Result
Hn
AMPs
Current Limit
Result
1
0.023
NA
Pass
21
0.000
0.107
Pass
2
0.000
1.080
Pass
22
0.000
0.084
Pass
3
0.008
2.300
Pass
23
0.000
0.098
Pass
4
0.000
0.430
Pass
24
0.000
0.077
Pass
5
0.006
1.140
Pass
25
0.000
0.090
Pass
6
0.000
0.300
Pass
26
0.000
0.071
Pass
7
0.001
0.770
Pass
27
0.000
0.083
Pass
8
0.000
0.230
Pass
28
0.000
0.066
Pass
9
0.001
0.400
Pass
29
0.000
0.078
Pass
10
0.000
0.184
Pass
30
0.000
0.061
Pass
11
0.001
0.330
Pass
31
0.000
0.073
Pass
12
0.000
0.153
Pass
32
0.000
0.058
Pass
13
0.000
0.210
Pass
33
0.000
0.068
Pass
14
0.000
0.131
Pass
34
0.000
0.054
Pass
15
0.000
0.150
Pass
35
0.000
0.064
Pass
16
0.000
0.115
Pass
36
0.000
0.051
Pass
17
0.000
0.132
Pass
37
0.000
0.061
Pass
18
0.000
0.102
Pass
38
0.000
0.048
Pass
19
0.000
0.118
Pass
39
0.000
0.058
Pass
20
0.000
0.092
Pass
40
0.000
0.046
Pass
Report No.: TS08100034-EME Page 24 of 59
7. EN 61000-3-3 Voltage fluctuations-flicker Test 7.1 Operating environment Temperature:
25
℃
Atmospheric Pressure: 1023
Relative Humidity: 55
%
Test Voltage: 230 Vac, 50 Hz
hPa
7.2 Test setup & procedure
AC power
Measuring Equipment
EUT
PC controller
The voltage changes at the supply terminals were measured using the voltage method. The test voltage was supplied from an AC source which meets the requirements according to the standard. The voltage source has virtually zero internal impedance and is connected (1 phase) Z = 0.4 + j 0.25 Ω (total impedance) (3 phases) Impedance in line conductor: Za = 0.25 + j 0.25 Ω Impedance in neutral conductor: Zn = 0.15 +j 0.10 Ω The short-term flicker Pst is measured during a time interval of 10 minutes. The long-term flicker Plt is evaluated from 12 subsequently measured short-term flicker values.
7.3 Test equipment Equipment
Brand
Model No.
EMC Emission Tester
EMC Partner
HARMONICS-1000
Note: The above equipments are within the valid calibration period. 7.4 Uncertainty of Radiated Emission Expanded uncertainty (k=2) of radiated emission measurement is ±0.47 dB.
Report No.: TS08100034-EME Page 25 of 59
7.5 Test result EUT: TTD-41T Power Freq.: 50Hz Power Voltage: 230Vac
SUMMARY RESULT:
PASS
TEST CONDITIONS:
STANDARD TEST CONDITIONS
Pst max Plt max dc % dmax % d(t) Sec.
EUT DATA 0.072 0.072 0.01 0.00 0.00
LIMIT 1.00 0.65 3.30 4.00 0.50
RESULT PASS PASS PASS PASS PASS
TEST ENABLED
⌧
Report No.: TS08100034-EME Page 26 of 59
EUT: TTD-61R Power Freq.: 50Hz Power Voltage: 230Vac
SUMMARY RESULT:
PASS
TEST CONDITIONS:
STANDARD TEST CONDITIONS
Pst max Plt max dc % dmax % d(t) Sec.
EUT DATA 0.072 0.072 0.01 0.00 0.00
LIMIT 1.00 0.65 3.30 4.00 0.50
RESULT PASS PASS PASS PASS PASS
TEST ENABLED
⌧
Report No.: TS08100034-EME Page 27 of 59
8. EN 61000-4-2 Electrostatic discharge immunity test 8.1 Operating environment Temperature:
26
℃
Atmospheric Pressure: 1023
Relative Humidity: 53
%
Test Voltage: 230 Vac, 50 Hz
hPa
8.2 Purpose The object of the test is to evaluate the ESD immunity performance of EUT.
8.3 Test set-up A horizontal coupling plane (HCP) was placed on a non-metallic table 0.8 meter above a reference ground plane (RGP) and connected to it with a cable with two 470 kΩ resistors. The EUT was placed on an insulation sheet on the HCP and was operated according to the specified operating mode. A vertical coupling plane (VCP) was connected to the RGP with a cable with two 470 k Ω resistors.
8.4 Test conditions Test level:
Air discharge ------+/- 8 kV Contact discharge ------+/- 4 kV Single discharge at > 1 second interval positive discharge and negative discharge
Report No.: TS08100034-EME Page 28 of 59
8.5 Test equipment Equipment
Manufacturer
Model No.
Electrostatic Discharge System
NoiseKen
ESS-2002
Note: The above equipments are within the valid calibration period. 8.6 Test result
EUT:
TTD-41T Applied Voltage (kV)
Total No. of Discharge (Each Point)
Result
Criteria Level
Remark
±2
75
P
A
-
±4
75
P
B
-
±2
20
P
A
-
±4
20
P
A
-
±8
20
P
B
-
VCP (4 sides)
±2
20
P
A
-
±4
20
P
A
-
HCP (4 sides)
±2
20
P
A
-
±4
20
P
A
-
Point of Discharge Contact Test Point
Air Test Point
Description Contact Discharge: 2 test points Metallic Screws Metallic Case Metallic Connect ports Metallic Junctions Others:
Air Discharge Plastic Screws Plastic Case (gap) Plastic Connect ports Plastic Junctions LED indicator Panel Board Others:Right/Left side buttons, Turn/OFF volume buttons
Report No.: TS08100034-EME Page 29 of 59
EUT:
TTD-61R Applied Voltage (kV)
Total No. of Discharge (Each Point)
Result
Criteria Level
Remark
±2
-
-
-
-
±4
-
-
-
-
±2
20
P
A
-
±4
20
P
A
-
±8
20
P
B
-
VCP (4 sides)
±2
20
P
A
-
±4
20
P
A
-
HCP (4 sides)
±2
20
P
A
-
±4
20
P
A
-
Point of Discharge Contact Test Point
Air Test Point
Description Contact Discharge: 0 test points Metallic Screws Metallic Case Metallic Connect ports Metallic Junctions Others:
Air Discharge Plastic Screws Plastic Case (gap) Plastic Connect ports Plastic Junctions LED indicator Panel Board Others:Right/Left side buttons, Turn/OFF volume buttons
Report No.: TS08100034-EME Page 30 of 59
9. EN 61000-4-3 Radiated, radio-frequency, electromagnetic field immunity test 9.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
9.2 Purpose This test method subjects the EUT to a power source of disturbance comprising electric and magnetic field, simulating those coming from intentional RF transmitters.
9.3 Test set-up The EUT was placed on a non-metallic table 0.8 meter above the reference ground plane (RGP) and was operated according to its specified operating mode. Ferrite tiles/absorbers were placed on the RGP between the EUT and the antenna to reduce the reflections from the RGP. The EUT and its cables were exposed for the electromagnetic field for 1.5 meter vertically and 1.5 meter horizontally. The distance between antenna and EUT is 3 meter.
9.4 Test conditions
1
Test field strength V/m 1
1 kHz 80 % AM
2
3
1 kHz 80 % AM
3
10
1 kHz 80 % AM
X
Special
1 kHz 80 % AM
Test level
The frequency steps Dwell time Frequency range Test ports Test voltage
: 1 ﹪, Log sweep : 3 sec : 80 MHz~1 GHz, 1.4 GHz~2 GHz : Enclosure port : 3 V/m
Modulation
Report No.: TS08100034-EME Page 31 of 59
9.5 Test equipment Equipment
Manufacture
Model No.
An-echoic chamber 7m×3m×3m
Comtest Instrumentation
9708093
RF signal Generator
Marconi
2023B
Kalmus
757LCB
MILMEGA
AS0102-30
Bi-log Antenna
EMCO
3141
RF Power Meter
Boonton
4230
Power Sensor
Boonton
51011-EMC
Power Sensor
Boonton
51011-EMC
Field Probe
Holaday
HI-4422
Dual Band RF Power Amplifier High Power Microwave Amplifier Series
Note: The above equipments are within the valid calibration period.
9.6 Generation of the electromagnetic field The electromagnetic field is generated from a computer controlled signal generator. The output power is amplified and then radiated from broadband log periodic antennas. For each sweep a pre-recorded empty chamber calibration file is used to establish the required field strength. When using these files the field strength inside an area of 1.5/1.0 meter x 1.5meter is in accordance with the standard.
Report No.: TS08100034-EME Page 32 of 59
9.7 Test results Exposed Side: ⌧ Front ⌧ Left ⌧ Rear H: Horizontal EUT:
⌧ Right
V: Vertical TTD-41T
Frequency (MHz)
Horizontal/ Vertical
Result
Criteria Level
Remark
80 MHz to 1 GHz
H
P
A
-
1.4 GHz to 2 GHz
H
P
A
-
80 MHz to 1 GHz
V
P
A
-
1.4 GHz to 2 GHz
V
P
A
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
EUT:
TTD-61R Frequency (MHz)
Horizontal/ Vertical
Result
Criteria Level
Remark
80 MHz to 1 GHz
H
P
A
-
1.4 GHz to 2 GHz
H
P
A
-
80 MHz to 1 GHz
V
P
A
-
1.4 GHz to 2 GHz
V
P
A
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
Report No.: TS08100034-EME Page 33 of 59
10. EN 61000-4-4 Electrical fast transient/burst immunity test 10.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
10.2 Purpose The purpose of this test is to evaluate the EUT performance during the repetitive transient bursts applied to power port and ports for I/O ports. 10.3 Test set-up For power port testing, the EUT was placed on a non-metallic table 0.1 meter above a reference ground plane (RGP) and was put into operation according to the specified operating mode. 10.4 Test condition
Open-circuit output test voltage (±10 %) and repetition rate of the impulses (±20 %) On I/O (Input/Output) signal, On power supply port, PE Data and control ports Level Voltage peak Repetition rate Voltage peak Repetition rate kV kHz kV kHz 1 0.5 5 or 100 0.25 5 or 100 2 1 5 or 100 0.5 5 or 100 3 2 5 or 100 1 5 or 100 4 4 5 or 100 2 5 or 100 (1) X Special Special Special Special NOTE 1 Use of 5 kHz repetition rates is traditional; however, 100 kHz is closer to reality. Product committees should determine which frequencies are relevant for specific products or product types. NOTE 2 With some products, there may be no clear distinction between power ports and I/O ports, in which case it is up to product committees to make this determination for test purposes. (1) “x” is an open level. The level has to be specified in the dedicated equipment specification
10.5 Test equipment Equipment
Manufacture
Model No.
EFT/Burst Tester
Keytek
CE40
Note: The above equipments are within the valid calibration period.
Report No.: TS08100034-EME Page 34 of 59
10.6 Test results EUT:
TTD-41T Power supply line and Signal Line & Protective earth terminal Control Line
Criteria Level
Level
Polarity
0.25 kV
+
-
-
-
0.25 kV
-
-
-
-
0.5 kV
+
-
-
-
0.5 kV
-
-
-
-
1 kV
+
P
-
A
1 kV
-
P
-
A
2 kV
+
-
-
-
2 kV
-
-
-
-
4 kV
+
-
-
-
4 kV
-
-
-
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable EUT:
TTD-61R Power supply line and Signal Line & Protective earth terminal Control Line
Criteria Level
Level
Polarity
0.25 kV
+
-
-
-
0.25 kV
-
-
-
-
0.5 kV
+
-
-
-
0.5 kV
-
-
-
-
1 kV
+
P
-
B
1 kV
-
P
-
B
2 kV
+
-
-
-
2 kV
-
-
-
-
4 kV
+
-
-
-
4 kV
-
-
-
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
Report No.: TS08100034-EME Page 35 of 59
11. EN 61000-4-5 Surge immunity test 11.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
11.2 Purpose The object of this test is to establish a common reference to evaluate the performance of EUT when subjected to high-energy disturbances on the power and interconnection lines.
11.3 Test set-up The EUT was placed on a non-metallic support 0.8 meter above a reference ground plane and was put into operation according to the specified operating mode.
11.4 Test conditions Level
Open circuit test voltage kV +/- 10 %
Remark
1
0.5
L1 to L2
2
1.0
L1 to L2
3
2.0
-
4
4.0
-
X
Special
-
Note: “X” is an open class. This level can be specified in the product specification Surge wave form: 1.2 x 50 µs, Repetition rate: 1 /min (max)
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11.5 Test Equipment. Equipment
Manufacture
Model No.
Surge Tester
Key Tek
EMC Pro
Note: The above equipments are within the valid calibration period.
11.6 Test results 11.6.1 Main power ports Test 5 times for each voltage EUT:
Volt
TTD-41T Phase Mode
0o
Polarity + P 0.5 kV L1 to L2 P + P 1 kV L1 to L2 P + L1 to Gnd 1 kV/ 2 kV + L2 to Gnd Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable EUT:
Volt
90o
180o
270o
P P P P -
P P P P -
P P P P -
90o
180o
270o
P P P P -
P P P P -
P P P P -
Criteria level A A A A -
TTD-61R Phase Mode
0o
Polarity + P 0.5 kV L1 to L2 P + P 1 kV L1 to L2 P + L1 to Gnd 1 kV/ 2 kV + L2 to Gnd Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
Criteria level A A A A -
Report No.: TS08100034-EME Page 37 of 59
12. EN 61000-4-6 Immunity to conducted disturbances, inducted by radio-frequency fields 12.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
12.2 Purpose The test method subjects the EUT to a power source of disturbance comprising electric and magnetic field, simulating those coming from intentional RF transmitters. The measurement is for evaluating the performance of EUT when subjected to RF conducted disturbance.
12.3 Test set-up The EUT was placed on a non-metallic support 0.1 meter above a reference ground plane (RGP) with the coupling/decoupling network (CDN) placed 0.3 meter from the EUT on the RGP.
12.4 Test conditions
1
Voltage (Vrms) 1
1 kHz 80 % AM
2
3
1 kHz 80 % AM
3
10
1 kHz 80 % AM
X
Special
1 kHz 80 % AM
Test level
The frequency steps Dwell time Frequency range Test ports Test voltage
: 1 ﹪, Log sweep : 3 sec : 150 kHz to 80 MHz : AC port : 3 Vrms
Modulation
Report No.: TS08100034-EME Page 38 of 59
12.5 Test equipment Equipment
Manufacture
Model No.
RF signal Generator
Marconi
2023B
RF-Generator
SCHAFFNER
NSG2070
Dual Band RF Power Amplifier Coupling Decoupling Network Coupling Decoupling Network
Kalmus
757LCB
Comtest instrument
4412-016
Comtest instrument
4413-016
Multimeter
CHY
36B
RF Injection Clamp
Luthi
EM101
RF Power Meter
Boonton
4230
Power Sensor
Boonton
51011-EMC
Power Sensor
Boonton
51011-EMC
Note: The above equipments are within the valid calibration period. 12.6 Generation and calibration of the disturbance signal The disturbance signal is generated from a computer controlled signal generator. The output signal is amplified and injected to the CDN/injection clamp. The disturbance signal level was calibrated as specified in the standard. A power meter was connected to the EUT side of the CDN through a 150 -50 Ω adapter. The auxiliary equipment (AE) side of the network was terminated with 150 Ω to ground during the calibration. The generator settings obtained during the calibration procedure were later repeated in the tests.
Report No.: TS08100034-EME Page 39 of 59
12.7 Test results EUT:
TTD-41T Frequency (MHz)
Test Port/Line
Result
Criteria Level
Remark
0.15 MHz to 80 MHz
Power Line
P
A
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable EUT:
TTD-61R Frequency (MHz)
Test Port/Line
Result
Criteria Level
Remark
0.15 MHz to 80 MHz
Power Line
P
A
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
Report No.: TS08100034-EME Page 40 of 59
13. EN 61000-4-11 Voltage dips, short interruptions and voltage variations immunity test 13.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
13.2 Purpose The object of this standard is to establish a common reference for evaluating the Immunity of electrical and electronic equipment when subjected to voltage dips, Short interruptions, and voltage variations.
13.3 Test set-up The EUT was placed on a non-metallic support 0.8 meter above a reference ground plane and was put into operation according to the specified operating mode.
13.4 Test condition Reduction '% of rated
Test Level % UT
Duration (Period)
Tests
Recovery Time
60 % Dip
40 %
0.5
3
10 Sec.
30 % Dip
70 %
5
3
10 Sec.
Test Level % UT
Duration (Period)
Tests
Recovery Time
0 % Short Circuit
250
3
10 Sec.
0 % Open Circuit
250
3
10 Sec.
13.5 Test equipment Equipment
Manufacturer
Model No.
Dip Tester
Keytek
EMC Pro
Note: The above equipments are within the valid calibration period.
Report No.: TS08100034-EME Page 41 of 59
13.6 Generation of the disturbance signal The disturbance signal is generated using a programmable AC power source with pre-programmed test sequences for each test.
13.7 Test result EUT:
TTD-41T
I. Dip of mains voltage Test Level
Test Duration Recovery Criteria Reduction Level % UT (Period) Tests Time Level '% of rated
1
60 % Dip
40 %
0.5
3
10 Sec.
A
2
30 % Dip
70 %
5
3
10 Sec.
B
II. 0 ﹪of mains voltage Test Item
Test Level % UT
Duration (Period)
Tests
1
0 % Short Circuit
250
3
10 Sec.
B
2
0 % Open Circuit
250
3
10 Sec.
B
EUT:
Recovery Criteria Time Level
TTD-61R
I. Dip of mains voltage Test Level
Test Reduction Duration Recovery Criteria Tests Level % U T '% of rated (Period) Time Level
1
60 % Dip
40 %
0.5
3
10 Sec.
A
2
30 % Dip
70 %
5
3
10 Sec.
B
II. 0 ﹪of mains voltage Test Item
Test Level % UT
Duration (Period)
Tests
Recovery Criteria Time Level
1
0 % Short Circuit
250
3
10 Sec.
B
2
0 % Open Circuit
250
3
10 Sec.
B
Report No.: TS08100034-EME Page 42 of 59
Appendix A1: External photo of EUT (TTD-41T)
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Appendix A2: External photo of EUT (TTD-61R)
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Appendix A3: External photo of Adapter
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Appendix A4: Internal photo of EUT (TTD-41T)
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Appendix A5: Internal photo of EUT (TTD-61R)
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Appendix B1: Conducted Emission Test Set-up TTD-41T
TTD-41T
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TTD-61R
TTD-61R
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Appendix B2: Radiated Emission Test Set-up TTD-41T
TTD-41T
Report No.: TS08100034-EME Page 59 of 59
TTD-61R
TTD-61R
EMC TEST REPORT Report No.:
TS08100034-EME
Model No.:
TTD-41T, TTD-61R
Issued Date: Oct. 23, 2008
Applicant:
TRANWO TECHNOLOGY CORP. 6F., No. 49, Guangming 6th Rd., Jubei City, Hsinchu, Taiwan
Test Method/ Standard:
EN 301 489-17 V1.2.1 EN 301 489-1 V1.6.1 EN 61000-3-2: 2006 EN 61000-3-3: 1995+A1: 2001+A2: 2005
Test By:
Intertek Testing Services Taiwan Ltd. No. 11, Lane 275, Ko-Nan 1 Street, Chia-Tung Li, Shiang-Shan District, Hsinchu City, Taiwan
This test report consists of 59 pages in total. It may be duplicated completely for legal use with the allowance of the applicant. It shall not be reproduced except in full, without the written approval of Intertek Laboratory. The test result(s) in this report only applies to the tested sample(s). Report Engineer
Julie Wang Project Engineer
Rex Liao
Reviewed By
Rico Deng
Report No.: TS08100034-EME Page 2 of 59
Table of Contents 1. General information...................................................................................................... 4 1.1 Identification of the EUT........................................................................................ 4 1.2 Additional information about the EUT................................................................... 4 2. Test specifications......................................................................................................... 5 2.1 Test standards.......................................................................................................... 5 2.2 Additions, deviations and exclusions from standards............................................. 5 2.3 Operation mode ...................................................................................................... 5 2.4 Performance criteria ............................................................................................... 6 2.5 Performance verification ........................................................................................ 6 3. Test summary................................................................................................................ 7 4. EN 55022 Conducted emission test.............................................................................. 8 4.1 Operating environment ........................................................................................... 8 4.2 Test setup & procedure ........................................................................................... 8 4.3 Test equipment........................................................................................................ 9 4.4 Emission limit......................................................................................................... 9 4.5 Uncertainty of Conducted Emission....................................................................... 9 4.6 Conducted emission test data ............................................................................... 10 5. EN 55022 Radiated emission test............................................................................... 14 5.1 Operating environment ......................................................................................... 14 5.2 Test setup & procedure ......................................................................................... 14 5.3 Test equipment...................................................................................................... 16 5.4 Emission limit....................................................................................................... 16 5.5 Uncertainty of Radiated Emission........................................................................ 16 5.6 Radiated emission test data .................................................................................. 17 6. EN 61000-3-2 Harmonics test .................................................................................... 21 6.1 Operating environment ......................................................................................... 21 6.2 Test setup & procedure ......................................................................................... 21 6.3 Test equipment...................................................................................................... 21 6.4 Uncertainty of Radiated Emission........................................................................ 21 6.5 Test result.............................................................................................................. 22 7. EN 61000-3-3 Voltage fluctuations-flicker Test......................................................... 24 7.1 Operating environment ......................................................................................... 24 7.2 Test setup & procedure ......................................................................................... 24 7.3 Test equipment...................................................................................................... 24 7.4 Uncertainty of Radiated Emission........................................................................ 24 7.5 Test result.............................................................................................................. 25 8. EN 61000-4-2 Electrostatic discharge immunity test................................................. 27 8.1 Operating environment ......................................................................................... 27 8.2 Purpose ................................................................................................................. 27 8.3 Test set-up............................................................................................................. 27 8.4 Test conditions ...................................................................................................... 27 8.5 Test equipment...................................................................................................... 28 8.6 Test result.............................................................................................................. 28 9. EN 61000-4-3 Radiated, radio-frequency, electromagnetic field immunity test 9.1 Operating environment ......................................................................................... 30
Report No.: TS08100034-EME Page 3 of 59
9.2 Purpose ................................................................................................................. 30 9.3 Test set-up............................................................................................................. 30 9.4 Test conditions ...................................................................................................... 30 9.5 Test equipment...................................................................................................... 31 9.6 Generation of the electromagnetic field ............................................................... 31 9.7 Test results ............................................................................................................ 32 10. EN 61000-4-4 Electrical fast transient/burst immunity test ..................................... 33 10.1 Operating environment ....................................................................................... 33 10.2 Purpose ............................................................................................................... 33 10.3 Test set-up........................................................................................................... 33 10.4 Test condition ..................................................................................................... 33 10.5 Test equipment.................................................................................................... 33 10.6 Test results .......................................................................................................... 34 11. EN 61000-4-5 Surge immunity test.......................................................................... 35 11.1 Operating environment ....................................................................................... 35 11.2 Purpose ............................................................................................................... 35 11.3 Test set-up ........................................................................................................... 35 11.4 Test conditions .................................................................................................... 35 11.5 Test Equipment................................................................................................... 36 11.6 Test results .......................................................................................................... 36 11.6.1 Main power ports............................................................................................. 36 12. EN 61000-4-6 Immunity to conducted disturbances, inducted by radio-frequency fields................................................................................................. 37 12.1 Operating environment ....................................................................................... 37 12.2 Purpose ............................................................................................................... 37 12.3 Test set-up........................................................................................................... 37 12.4 Test conditions .................................................................................................... 37 12.5 Test equipment.................................................................................................... 38 12.6 Generation and calibration of the disturbance signal ......................................... 38 12.7 Test results .......................................................................................................... 39 13. EN 61000-4-11 Voltage dips, short interruptions and voltage variations immunity test .............................................................................................................. 40 13.1 Operating environment ....................................................................................... 40 13.2 Purpose ............................................................................................................... 40 13.3 Test set-up........................................................................................................... 40 13.4 Test condition ..................................................................................................... 40 13.5 Test equipment.................................................................................................... 40 13.6 Generation of the disturbance signal .................................................................. 41 13.7 Test result............................................................................................................ 41 Appendix A1: External photo of EUT (TTD-41T) ....................................................... 42 Appendix A2: External photo of EUT (TTD-61R)....................................................... 43 Appendix A3: External photo of Adapter ..................................................................... 44 Appendix A4: Internal photo of EUT (TTD-41T) ........................................................ 45 Appendix A5: Internal photo of EUT (TTD-61R) ........................................................ 52 Appendix B1: Conducted Emission Test Set-up........................................................... 56 Appendix B2: Radiated Emission Test Set-up.............................................................. 58
Report No.: TS08100034-EME Page 4 of 59
1. General information 1.1 Identification of the EUT Applicant: Product: Model No.: Operating Frequency: Channel Number: Type of Modulation: Rated Power:
Power Cord: Sample Received: Test Date(s): Note 1:
Note 2:
Note 3:
TRANWO TECHNOLOGY CORP. Digital Wireless Video Baby Monitor TTD-41T, TTD-61R 2408 MHz ~ 2470.5 MHz 52 channels FSK DC 6V from adapter (LK-D060080), I/P Voltage: 230-240 Vac, 50 Hz DC 3.7V from Li-ion battery for TTD-61R DC 6V from battery (1.5V * 4) for TTD-41T N/A Aug. 26, 2008 Oct. 07, 2008 ~ Oct. 14, 2008 This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program. The test report only allows to be revised within three years from its original issued date unless further standard or the requirement was noticed. When determining the test conclusion, the Measurement Uncertainty of test has been considered.
1.2 Additional information about the EUT The EUT is a Digital Wireless Video Baby Monitor, and was defined as information technology equipment. For more detail features, please refer to user's Manual.
Report No.: TS08100034-EME Page 5 of 59
2. Test specifications 2.1 Test standards EN 301 489-17 V1.2.1 Electromagnetic compatibility and Radio spectrum Matters (ERM); Electromagnetic Compatibility (EMC) standard for radio equipment and services; Part 17: Specific conditions for Wideband data and HIPERLAN equipment EN 301 489-1 V1.6.1 Electromagnetic compatibility and Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements EN 61000-3-2: 2006 Electromagnetic compatibility ― Part 3. Limits Section 2. Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) EN 61000-3-3: 1995+A1: 2001+A2: 2005 Electromagnetic compatibility ― Part 3. Limits Section 3. Limitation of voltage fluctuations and flicker in low-voltage supply systems for equipment with rated current ≤ 16 A
2.2 Additions, deviations and exclusions from standards No additions, deviations or exclusions have been made from standard
2.3 Operation mode The EUT was supplied with DC 6V from adapter (230 Vac, 50 Hz) and was tested in normal operating mode.
Report No.: TS08100034-EME Page 6 of 59
2.4 Performance criteria Performance table Criteria
During test Shall operate as intended May show degradation of performance(Note1) Shall be no loss of function Shall be no unintentional transmissions May show loss of function (one or more) May show degradation of performance (Note 1) No unintentional transmissions May be loss of function (one or more)
After test Shall operate as intended Shall be no degradation of performance(Note 2) Shall be no loss of function A Shall be no loss of stored data or user programmable functions Functions shall be self-recoverable Shall operate as intended after recovering B Shall be no degradation of performance(Note 2) Shall be no loss of stored data or user programmable functions Functions shall be recoverable by the operator C Shall operate as intended after recovering Shall be no degradation of performance(Note 2) Note 1: Degradation of performance during the test is understood as a degradation to a level not below a minimum performance level specified by the manufacturer for the use of the apparatus as intended. In some cases the specified minimum performance level may be replaced by a permissible degradation of performance. If the minimum performance level or the permissible performance degradation is not specified by the manufacturer then either of these may be derived from the product description and documentation (including leaflets and advertising) and what the user may reasonably expect from the apparatus if used as intended. Note 2: No degradation of performance after the test is understood as no degradation below a minimum performance level specified by the manufacturer for the use of the apparatus as intended. In some cases the specified minimum performance level may be replaced by a permissible degradation of performance. After the test no change of actual operating data or user retrievable data is allowed. If the minimum performance level or the permissible performance degradation is not specified by the manufacturer then either of these may be derived from the product description and documentation (including leaflets and advertising) and what the user may reasonably expect from the apparatus if used as intended.
2.5 Performance verification The EUT has been monitored based on manufacturer’s specification, the performance fulfilled the requirements of standard.
Report No.: TS08100034-EME Page 7 of 59
3. Test summary (EN 301 489-17) Emission Test Type Result
Standard EN 55022: 2006 Class B EN 61000-3-2: 2006 Class A EN 61000-3-3: 1995 +A1: 2001+A2: 2005
Conducted Test
PASS
Radiated Test
PASS
Harmonic current Emissions Voltage fluctuation & Flicker
Remarks Pass by -23.77 dB at 30.000 MHz Line Phase Pass by -1.84 dB at 528.000 MHz With antenna polarization Horizontal
PASS
Meet the requirements
PASS
Meet the requirements
Immunity Standard
Test Type
Result
Performance Criteria
EN 61000-4-2: 1995 ESD test +A1: 1998+ A2: 2001
PASS
Criterion B
EN 61000-4-3: 2006 +A1: 2007
RS test
PASS
Criterion A
EN 61000-4-4: 2004
EFT test
PASS
Criterion B
EN 61000-4-5: 2006
Surge test
PASS
Criterion B
EN 61000-4-6: 2007
CS test
PASS
Criterion A
EN 61000-4-11: 2004
Dip test
PASS
1. 30 % reductionPerformance Criterion B 2. 60 % reductionPerformance Criterion C 3. >95 % reductionPerformance Criterion C
Test Judgment Meets the requirements of Performance Criterion B Meets the requirements of Performance Criterion A Meets the requirements of Performance Criterion B Meets the requirements of Performance Criterion A Meets the requirements of Performance Criterion A Meets the requirements of Voltage Dips: 1. 30 % reduction- Performance Criterion A 2. 60 % reduction- Performance Criterion B 3. >95 % reductionPerformance Criterion B
Remark: The EUT has been tested/evaluated and pass the above standards without modification.
Report No.: TS08100034-EME Page 8 of 59
4. EN 55022 Conducted emission test 4.1 Operating environment Temperature:
24
℃
Atmospheric Pressure: 1023
Relative Humidity: 53
%
Test Voltage: 230 Vac, 50 Hz
hPa
4.2 Test setup & procedure (1) TTD-41T wireless
AC Power
AMN 1
TTD-41T wireless
AMN 2
TTD-61R
EMI Receiver AC Power
(2) TTD-61R wireless
AC Power
AMN 1
TTD-61R wireless
AMN 2
TTD-41T
EMI Receiver AC Power
The EUT along with its peripherals were placed on a 1.0 meter(W)×1.5 meter(L) and 0.8 meter in height wooden table and the EUT was adjusted to maintain a 0.4meter space from a vertical reference plane. The EUT was connected to power mains through a Artificial Mains Network (AMN), which provided 50 ohm coupling impedance for measuring instrument and the chassis ground was bounded to the horizontal ground plane of shielded room. The excess power cable between the EUT and the AMN was bundled. All connecting cables of EUT and peripherals were moved to find the maximum emission
Report No.: TS08100034-EME Page 9 of 59
4.3 Test equipment Equipment
Brand
Model No.
EMI Receiver
Rohde & Schwarz
ESCS 30
AMN
Rohde & Schwarz
EHS3-Z5
AMN
Schaffner
MN2050D
Shield Room
N/A
N/A
Note: The above equipments are within the valid calibration period.
4.4 Emission limit Freq.
(MHz)
Maximum RF Line Voltage Limits for conducted emission of equipment intended to be used in telecommunication centres only(dBμV)
Limits for conducted emissions(dBμV)
Q.P.
Ave.
Q.P.
Ave.
0.15~0.50
79
66
66~56
56~46
0.50~5.00
73
60
56
46
5.00~30.0
73
60
60
50
4.5 Uncertainty of Conducted Emission Expanded uncertainty (k=2) of conducted emission measurement is ±2.26 dB.
Report No.: TS08100034-EME Page 10 of 59
4.6 Conducted emission test data Phase: Model No.: Test Condition:
Line TTD-41T Normal operation mode
Remark: 1. Corr. Factor (dB)= AMN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)
Report No.: TS08100034-EME Page 11 of 59
Phase: Model No.: Test Condition:
Neutral TTD-41T Normal operation mode
Remark: 1. Corr. Factor (dB)= AMN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)
Report No.: TS08100034-EME Page 12 of 59
Phase: Model No.: Test Condition:
Line TTD-61R Normal operation mode
Remark: 1. Corr. Factor (dB)= AMN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)
Report No.: TS08100034-EME Page 13 of 59
Phase: Model No.: Test Condition:
Neutral TTD-61R Normal operation mode
Remark: 1. Corr. Factor (dB)= AMN Factor (dB) + Cable Loss (dB) 2. Margin (dB) = Level (dBuV) – Limit (dBuV)
Report No.: TS08100034-EME Page 14 of 59
5. EN 55022 Radiated emission test 5.1 Operating environment Temperature:
25
℃
Atmospheric Pressure: 1023
Relative Humidity: 53
%
Test Voltage: 230 Vac, 50 Hz
hPa
5.2 Test setup & procedure The Diagram below shows the test setup, which is utilized to make these measurements. (1) TTD-41T Antenna Tower
1.0~4.0 meter wireless
Receiver Antenna
10 meter
TTD-41T
0.8 meter
Ground Plane wireless
TTD-61R
□
RF Test Receiver
Report No.: TS08100034-EME Page 15 of 59
(2) TTD-61R Antenna Tower
1.0~4.0 meter wireless
Receiver Antenna
10 meter
TTD-61R
0.8 meter
Ground Plane wireless
TTD-41T
□
RF Test Receiver
Radiated testing was performed at a 10 meters open area test site. The devices under test were placed on a turntable top 0.8 meter above ground. The table was 360 degrees to determine the position of the highest radiation. EUT is set 10 meters from the EMI receiving antenna, which is mounted on the top of a variable height mast. The antenna height is varied between one meter and four meters above ground to find the maximum value of the field strength. Both horizontal polarization and vertical polarization of the antenna was set to conduct the measurement. The bandwidth was set on the EMI meter 120 kHz. The levels are quasi peak value readings. The frequency spectrum from 30 MHz to 1000 MHz was investigated.
Report No.: TS08100034-EME Page 16 of 59
5.3 Test equipment Equipment
Brand
Model No.
EMI Receiver
Rohde & Schwarz
ESCS 30
Bilog Antenna
Schaffner
CBL6112B
Note: The above equipments are within the valid calibration period.
5.4 Emission limit
Frequency (MHz)
Limits for radiated Limits for radiated emissions from ancillary emissions from equipment intended for use Distance (m) ancillary equipment, in telecommunication measured on a stand centres only, and measured alone basis on a stand alone basis
30~230
10
40
30
230~1000
10
47
37
Note: 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 closet point of EUT.
5.5 Uncertainty of Radiated Emission Expanded uncertainty (k=2) of radiated emission measurement is ±4.68 dB.
Report No.: TS08100034-EME Page 17 of 59
5.6 Radiated emission test data Polarity: Model No.: Test Condition:
Vertical TTD-41T Normal operation mode
Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)
Report No.: TS08100034-EME Page 18 of 59
Polarity: Model No.: Test Condition:
Horizontal TTD-41T Normal operation mode
Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)
Report No.: TS08100034-EME Page 19 of 59
Polarity: Model No.: Test Condition:
Vertical TTD-61R Normal operation mode
Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)
Report No.: TS08100034-EME Page 20 of 59
Polarity: Model No.: Test Condition:
Horizontal TTD-61R Normal operation mode
Remark: 1. Level (dBμV/m)= Factor (dB/m)+ Read Level (dBμV) 2. Factor = Antenna Factor (dB/m) + Cable Loss (dB) 3. Over Limit (Margin) (dB) = Level (dBμV/m) – Limit Line(dBμV/m)
Report No.: TS08100034-EME Page 21 of 59
6. EN 61000-3-2 Harmonics test 6.1 Operating environment Temperature:
25
℃
Atmospheric Pressure: 1023
Relative Humidity: 55
%
Test Voltage: 230 Vac, 50 Hz
hPa
6.2 Test setup & procedure
AC power
Measuring Equipment
EUT
PC controller
Harmonics of the fundamental current were measured up to 2 kHz using a digital power analyzer. The test voltage was supplied from an AC source, which meets the requirements according to the standard. The steady-state harmonic current measurements were carried out using averaging. The transitory harmonics were measured during an observation period of 5 minutes. The disturbance duration time (limit 15 s) is defined as the total time under which the transitory harmonics exceeds the limit level for steady-state harmonics during an observation period of 5 minutes. 6.3 Test equipment Equipment
Brand
Model No.
EMC Emission Tester
EMC Partner
HARMONICS-1000
Note: The above equipments are within the valid calibration period.
6.4 Uncertainty of Radiated Emission Expanded uncertainty (k=2) of radiated emission measurement is ±0.2 dB.
Report No.: TS08100034-EME Page 22 of 59
6.5 Test result EUT: TTD-41T Power Freq.: 50Hz Power Voltage: 230Vac CLASSIFICATION: SUMMARY RESULT:
CLASS A PASS
Harmonic Current Results Hn
AMPs
Current Limit
Result
Hn
AMPs
Current Limit
Result
1
0.023
NA
Pass
21
0.000
0.107
Pass
2
0.000
1.080
Pass
22
0.000
0.084
Pass
3
0.008
2.300
Pass
23
0.000
0.098
Pass
4
0.000
0.430
Pass
24
0.000
0.077
Pass
5
0.006
1.140
Pass
25
0.000
0.090
Pass
6
0.000
0.300
Pass
26
0.000
0.071
Pass
7
0.001
0.770
Pass
27
0.000
0.083
Pass
8
0.000
0.230
Pass
28
0.000
0.066
Pass
9
0.001
0.400
Pass
29
0.000
0.078
Pass
10
0.000
0.184
Pass
30
0.000
0.061
Pass
11
0.001
0.330
Pass
31
0.000
0.073
Pass
12
0.000
0.153
Pass
32
0.000
0.058
Pass
13
0.000
0.210
Pass
33
0.000
0.068
Pass
14
0.000
0.131
Pass
34
0.000
0.054
Pass
15
0.000
0.150
Pass
35
0.000
0.064
Pass
16
0.000
0.115
Pass
36
0.000
0.051
Pass
17
0.000
0.132
Pass
37
0.000
0.061
Pass
18
0.000
0.102
Pass
38
0.000
0.048
Pass
19
0.000
0.118
Pass
39
0.000
0.058
Pass
20
0.000
0.092
Pass
40
0.000
0.046
Pass
Report No.: TS08100034-EME Page 23 of 59
EUT: TTD-61R Power Freq.: 50Hz Power Voltage: 230Vac CLASSIFICATION: SUMMARY RESULT:
CLASS A PASS
Harmonic Current Results Hn
AMPs
Current Limit
Result
Hn
AMPs
Current Limit
Result
1
0.023
NA
Pass
21
0.000
0.107
Pass
2
0.000
1.080
Pass
22
0.000
0.084
Pass
3
0.008
2.300
Pass
23
0.000
0.098
Pass
4
0.000
0.430
Pass
24
0.000
0.077
Pass
5
0.006
1.140
Pass
25
0.000
0.090
Pass
6
0.000
0.300
Pass
26
0.000
0.071
Pass
7
0.001
0.770
Pass
27
0.000
0.083
Pass
8
0.000
0.230
Pass
28
0.000
0.066
Pass
9
0.001
0.400
Pass
29
0.000
0.078
Pass
10
0.000
0.184
Pass
30
0.000
0.061
Pass
11
0.001
0.330
Pass
31
0.000
0.073
Pass
12
0.000
0.153
Pass
32
0.000
0.058
Pass
13
0.000
0.210
Pass
33
0.000
0.068
Pass
14
0.000
0.131
Pass
34
0.000
0.054
Pass
15
0.000
0.150
Pass
35
0.000
0.064
Pass
16
0.000
0.115
Pass
36
0.000
0.051
Pass
17
0.000
0.132
Pass
37
0.000
0.061
Pass
18
0.000
0.102
Pass
38
0.000
0.048
Pass
19
0.000
0.118
Pass
39
0.000
0.058
Pass
20
0.000
0.092
Pass
40
0.000
0.046
Pass
Report No.: TS08100034-EME Page 24 of 59
7. EN 61000-3-3 Voltage fluctuations-flicker Test 7.1 Operating environment Temperature:
25
℃
Atmospheric Pressure: 1023
Relative Humidity: 55
%
Test Voltage: 230 Vac, 50 Hz
hPa
7.2 Test setup & procedure
AC power
Measuring Equipment
EUT
PC controller
The voltage changes at the supply terminals were measured using the voltage method. The test voltage was supplied from an AC source which meets the requirements according to the standard. The voltage source has virtually zero internal impedance and is connected (1 phase) Z = 0.4 + j 0.25 Ω (total impedance) (3 phases) Impedance in line conductor: Za = 0.25 + j 0.25 Ω Impedance in neutral conductor: Zn = 0.15 +j 0.10 Ω The short-term flicker Pst is measured during a time interval of 10 minutes. The long-term flicker Plt is evaluated from 12 subsequently measured short-term flicker values.
7.3 Test equipment Equipment
Brand
Model No.
EMC Emission Tester
EMC Partner
HARMONICS-1000
Note: The above equipments are within the valid calibration period. 7.4 Uncertainty of Radiated Emission Expanded uncertainty (k=2) of radiated emission measurement is ±0.47 dB.
Report No.: TS08100034-EME Page 25 of 59
7.5 Test result EUT: TTD-41T Power Freq.: 50Hz Power Voltage: 230Vac
SUMMARY RESULT:
PASS
TEST CONDITIONS:
STANDARD TEST CONDITIONS
Pst max Plt max dc % dmax % d(t) Sec.
EUT DATA 0.072 0.072 0.01 0.00 0.00
LIMIT 1.00 0.65 3.30 4.00 0.50
RESULT PASS PASS PASS PASS PASS
TEST ENABLED
⌧
Report No.: TS08100034-EME Page 26 of 59
EUT: TTD-61R Power Freq.: 50Hz Power Voltage: 230Vac
SUMMARY RESULT:
PASS
TEST CONDITIONS:
STANDARD TEST CONDITIONS
Pst max Plt max dc % dmax % d(t) Sec.
EUT DATA 0.072 0.072 0.01 0.00 0.00
LIMIT 1.00 0.65 3.30 4.00 0.50
RESULT PASS PASS PASS PASS PASS
TEST ENABLED
⌧
Report No.: TS08100034-EME Page 27 of 59
8. EN 61000-4-2 Electrostatic discharge immunity test 8.1 Operating environment Temperature:
26
℃
Atmospheric Pressure: 1023
Relative Humidity: 53
%
Test Voltage: 230 Vac, 50 Hz
hPa
8.2 Purpose The object of the test is to evaluate the ESD immunity performance of EUT.
8.3 Test set-up A horizontal coupling plane (HCP) was placed on a non-metallic table 0.8 meter above a reference ground plane (RGP) and connected to it with a cable with two 470 kΩ resistors. The EUT was placed on an insulation sheet on the HCP and was operated according to the specified operating mode. A vertical coupling plane (VCP) was connected to the RGP with a cable with two 470 k Ω resistors.
8.4 Test conditions Test level:
Air discharge ------+/- 8 kV Contact discharge ------+/- 4 kV Single discharge at > 1 second interval positive discharge and negative discharge
Report No.: TS08100034-EME Page 28 of 59
8.5 Test equipment Equipment
Manufacturer
Model No.
Electrostatic Discharge System
NoiseKen
ESS-2002
Note: The above equipments are within the valid calibration period. 8.6 Test result
EUT:
TTD-41T Applied Voltage (kV)
Total No. of Discharge (Each Point)
Result
Criteria Level
Remark
±2
75
P
A
-
±4
75
P
B
-
±2
20
P
A
-
±4
20
P
A
-
±8
20
P
B
-
VCP (4 sides)
±2
20
P
A
-
±4
20
P
A
-
HCP (4 sides)
±2
20
P
A
-
±4
20
P
A
-
Point of Discharge Contact Test Point
Air Test Point
Description Contact Discharge: 2 test points Metallic Screws Metallic Case Metallic Connect ports Metallic Junctions Others:
Air Discharge Plastic Screws Plastic Case (gap) Plastic Connect ports Plastic Junctions LED indicator Panel Board Others:Right/Left side buttons, Turn/OFF volume buttons
Report No.: TS08100034-EME Page 29 of 59
EUT:
TTD-61R Applied Voltage (kV)
Total No. of Discharge (Each Point)
Result
Criteria Level
Remark
±2
-
-
-
-
±4
-
-
-
-
±2
20
P
A
-
±4
20
P
A
-
±8
20
P
B
-
VCP (4 sides)
±2
20
P
A
-
±4
20
P
A
-
HCP (4 sides)
±2
20
P
A
-
±4
20
P
A
-
Point of Discharge Contact Test Point
Air Test Point
Description Contact Discharge: 0 test points Metallic Screws Metallic Case Metallic Connect ports Metallic Junctions Others:
Air Discharge Plastic Screws Plastic Case (gap) Plastic Connect ports Plastic Junctions LED indicator Panel Board Others:Right/Left side buttons, Turn/OFF volume buttons
Report No.: TS08100034-EME Page 30 of 59
9. EN 61000-4-3 Radiated, radio-frequency, electromagnetic field immunity test 9.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
9.2 Purpose This test method subjects the EUT to a power source of disturbance comprising electric and magnetic field, simulating those coming from intentional RF transmitters.
9.3 Test set-up The EUT was placed on a non-metallic table 0.8 meter above the reference ground plane (RGP) and was operated according to its specified operating mode. Ferrite tiles/absorbers were placed on the RGP between the EUT and the antenna to reduce the reflections from the RGP. The EUT and its cables were exposed for the electromagnetic field for 1.5 meter vertically and 1.5 meter horizontally. The distance between antenna and EUT is 3 meter.
9.4 Test conditions
1
Test field strength V/m 1
1 kHz 80 % AM
2
3
1 kHz 80 % AM
3
10
1 kHz 80 % AM
X
Special
1 kHz 80 % AM
Test level
The frequency steps Dwell time Frequency range Test ports Test voltage
: 1 ﹪, Log sweep : 3 sec : 80 MHz~1 GHz, 1.4 GHz~2 GHz : Enclosure port : 3 V/m
Modulation
Report No.: TS08100034-EME Page 31 of 59
9.5 Test equipment Equipment
Manufacture
Model No.
An-echoic chamber 7m×3m×3m
Comtest Instrumentation
9708093
RF signal Generator
Marconi
2023B
Kalmus
757LCB
MILMEGA
AS0102-30
Bi-log Antenna
EMCO
3141
RF Power Meter
Boonton
4230
Power Sensor
Boonton
51011-EMC
Power Sensor
Boonton
51011-EMC
Field Probe
Holaday
HI-4422
Dual Band RF Power Amplifier High Power Microwave Amplifier Series
Note: The above equipments are within the valid calibration period.
9.6 Generation of the electromagnetic field The electromagnetic field is generated from a computer controlled signal generator. The output power is amplified and then radiated from broadband log periodic antennas. For each sweep a pre-recorded empty chamber calibration file is used to establish the required field strength. When using these files the field strength inside an area of 1.5/1.0 meter x 1.5meter is in accordance with the standard.
Report No.: TS08100034-EME Page 32 of 59
9.7 Test results Exposed Side: ⌧ Front ⌧ Left ⌧ Rear H: Horizontal EUT:
⌧ Right
V: Vertical TTD-41T
Frequency (MHz)
Horizontal/ Vertical
Result
Criteria Level
Remark
80 MHz to 1 GHz
H
P
A
-
1.4 GHz to 2 GHz
H
P
A
-
80 MHz to 1 GHz
V
P
A
-
1.4 GHz to 2 GHz
V
P
A
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
EUT:
TTD-61R Frequency (MHz)
Horizontal/ Vertical
Result
Criteria Level
Remark
80 MHz to 1 GHz
H
P
A
-
1.4 GHz to 2 GHz
H
P
A
-
80 MHz to 1 GHz
V
P
A
-
1.4 GHz to 2 GHz
V
P
A
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
Report No.: TS08100034-EME Page 33 of 59
10. EN 61000-4-4 Electrical fast transient/burst immunity test 10.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
10.2 Purpose The purpose of this test is to evaluate the EUT performance during the repetitive transient bursts applied to power port and ports for I/O ports. 10.3 Test set-up For power port testing, the EUT was placed on a non-metallic table 0.1 meter above a reference ground plane (RGP) and was put into operation according to the specified operating mode. 10.4 Test condition
Open-circuit output test voltage (±10 %) and repetition rate of the impulses (±20 %) On I/O (Input/Output) signal, On power supply port, PE Data and control ports Level Voltage peak Repetition rate Voltage peak Repetition rate kV kHz kV kHz 1 0.5 5 or 100 0.25 5 or 100 2 1 5 or 100 0.5 5 or 100 3 2 5 or 100 1 5 or 100 4 4 5 or 100 2 5 or 100 (1) X Special Special Special Special NOTE 1 Use of 5 kHz repetition rates is traditional; however, 100 kHz is closer to reality. Product committees should determine which frequencies are relevant for specific products or product types. NOTE 2 With some products, there may be no clear distinction between power ports and I/O ports, in which case it is up to product committees to make this determination for test purposes. (1) “x” is an open level. The level has to be specified in the dedicated equipment specification
10.5 Test equipment Equipment
Manufacture
Model No.
EFT/Burst Tester
Keytek
CE40
Note: The above equipments are within the valid calibration period.
Report No.: TS08100034-EME Page 34 of 59
10.6 Test results EUT:
TTD-41T Power supply line and Signal Line & Protective earth terminal Control Line
Criteria Level
Level
Polarity
0.25 kV
+
-
-
-
0.25 kV
-
-
-
-
0.5 kV
+
-
-
-
0.5 kV
-
-
-
-
1 kV
+
P
-
A
1 kV
-
P
-
A
2 kV
+
-
-
-
2 kV
-
-
-
-
4 kV
+
-
-
-
4 kV
-
-
-
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable EUT:
TTD-61R Power supply line and Signal Line & Protective earth terminal Control Line
Criteria Level
Level
Polarity
0.25 kV
+
-
-
-
0.25 kV
-
-
-
-
0.5 kV
+
-
-
-
0.5 kV
-
-
-
-
1 kV
+
P
-
B
1 kV
-
P
-
B
2 kV
+
-
-
-
2 kV
-
-
-
-
4 kV
+
-
-
-
4 kV
-
-
-
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
Report No.: TS08100034-EME Page 35 of 59
11. EN 61000-4-5 Surge immunity test 11.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
11.2 Purpose The object of this test is to establish a common reference to evaluate the performance of EUT when subjected to high-energy disturbances on the power and interconnection lines.
11.3 Test set-up The EUT was placed on a non-metallic support 0.8 meter above a reference ground plane and was put into operation according to the specified operating mode.
11.4 Test conditions Level
Open circuit test voltage kV +/- 10 %
Remark
1
0.5
L1 to L2
2
1.0
L1 to L2
3
2.0
-
4
4.0
-
X
Special
-
Note: “X” is an open class. This level can be specified in the product specification Surge wave form: 1.2 x 50 µs, Repetition rate: 1 /min (max)
Report No.: TS08100034-EME Page 36 of 59
11.5 Test Equipment. Equipment
Manufacture
Model No.
Surge Tester
Key Tek
EMC Pro
Note: The above equipments are within the valid calibration period.
11.6 Test results 11.6.1 Main power ports Test 5 times for each voltage EUT:
Volt
TTD-41T Phase Mode
0o
Polarity + P 0.5 kV L1 to L2 P + P 1 kV L1 to L2 P + L1 to Gnd 1 kV/ 2 kV + L2 to Gnd Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable EUT:
Volt
90o
180o
270o
P P P P -
P P P P -
P P P P -
90o
180o
270o
P P P P -
P P P P -
P P P P -
Criteria level A A A A -
TTD-61R Phase Mode
0o
Polarity + P 0.5 kV L1 to L2 P + P 1 kV L1 to L2 P + L1 to Gnd 1 kV/ 2 kV + L2 to Gnd Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
Criteria level A A A A -
Report No.: TS08100034-EME Page 37 of 59
12. EN 61000-4-6 Immunity to conducted disturbances, inducted by radio-frequency fields 12.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
12.2 Purpose The test method subjects the EUT to a power source of disturbance comprising electric and magnetic field, simulating those coming from intentional RF transmitters. The measurement is for evaluating the performance of EUT when subjected to RF conducted disturbance.
12.3 Test set-up The EUT was placed on a non-metallic support 0.1 meter above a reference ground plane (RGP) with the coupling/decoupling network (CDN) placed 0.3 meter from the EUT on the RGP.
12.4 Test conditions
1
Voltage (Vrms) 1
1 kHz 80 % AM
2
3
1 kHz 80 % AM
3
10
1 kHz 80 % AM
X
Special
1 kHz 80 % AM
Test level
The frequency steps Dwell time Frequency range Test ports Test voltage
: 1 ﹪, Log sweep : 3 sec : 150 kHz to 80 MHz : AC port : 3 Vrms
Modulation
Report No.: TS08100034-EME Page 38 of 59
12.5 Test equipment Equipment
Manufacture
Model No.
RF signal Generator
Marconi
2023B
RF-Generator
SCHAFFNER
NSG2070
Dual Band RF Power Amplifier Coupling Decoupling Network Coupling Decoupling Network
Kalmus
757LCB
Comtest instrument
4412-016
Comtest instrument
4413-016
Multimeter
CHY
36B
RF Injection Clamp
Luthi
EM101
RF Power Meter
Boonton
4230
Power Sensor
Boonton
51011-EMC
Power Sensor
Boonton
51011-EMC
Note: The above equipments are within the valid calibration period. 12.6 Generation and calibration of the disturbance signal The disturbance signal is generated from a computer controlled signal generator. The output signal is amplified and injected to the CDN/injection clamp. The disturbance signal level was calibrated as specified in the standard. A power meter was connected to the EUT side of the CDN through a 150 -50 Ω adapter. The auxiliary equipment (AE) side of the network was terminated with 150 Ω to ground during the calibration. The generator settings obtained during the calibration procedure were later repeated in the tests.
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12.7 Test results EUT:
TTD-41T Frequency (MHz)
Test Port/Line
Result
Criteria Level
Remark
0.15 MHz to 80 MHz
Power Line
P
A
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable EUT:
TTD-61R Frequency (MHz)
Test Port/Line
Result
Criteria Level
Remark
0.15 MHz to 80 MHz
Power Line
P
A
-
Note: 1. “P” means the EUT pass the test. Note: 2. “-“ means not applicable
Report No.: TS08100034-EME Page 40 of 59
13. EN 61000-4-11 Voltage dips, short interruptions and voltage variations immunity test 13.1 Operating environment Temperature:
22
℃
Atmospheric Pressure: 1023
Relative Humidity: 51
%
Test Voltage: 230 Vac, 50 Hz
hPa
13.2 Purpose The object of this standard is to establish a common reference for evaluating the Immunity of electrical and electronic equipment when subjected to voltage dips, Short interruptions, and voltage variations.
13.3 Test set-up The EUT was placed on a non-metallic support 0.8 meter above a reference ground plane and was put into operation according to the specified operating mode.
13.4 Test condition Reduction '% of rated
Test Level % UT
Duration (Period)
Tests
Recovery Time
60 % Dip
40 %
0.5
3
10 Sec.
30 % Dip
70 %
5
3
10 Sec.
Test Level % UT
Duration (Period)
Tests
Recovery Time
0 % Short Circuit
250
3
10 Sec.
0 % Open Circuit
250
3
10 Sec.
13.5 Test equipment Equipment
Manufacturer
Model No.
Dip Tester
Keytek
EMC Pro
Note: The above equipments are within the valid calibration period.
Report No.: TS08100034-EME Page 41 of 59
13.6 Generation of the disturbance signal The disturbance signal is generated using a programmable AC power source with pre-programmed test sequences for each test.
13.7 Test result EUT:
TTD-41T
I. Dip of mains voltage Test Level
Test Duration Recovery Criteria Reduction Level % UT (Period) Tests Time Level '% of rated
1
60 % Dip
40 %
0.5
3
10 Sec.
A
2
30 % Dip
70 %
5
3
10 Sec.
B
II. 0 ﹪of mains voltage Test Item
Test Level % UT
Duration (Period)
Tests
1
0 % Short Circuit
250
3
10 Sec.
B
2
0 % Open Circuit
250
3
10 Sec.
B
EUT:
Recovery Criteria Time Level
TTD-61R
I. Dip of mains voltage Test Level
Test Reduction Duration Recovery Criteria Tests Level % U T '% of rated (Period) Time Level
1
60 % Dip
40 %
0.5
3
10 Sec.
A
2
30 % Dip
70 %
5
3
10 Sec.
B
II. 0 ﹪of mains voltage Test Item
Test Level % UT
Duration (Period)
Tests
Recovery Criteria Time Level
1
0 % Short Circuit
250
3
10 Sec.
B
2
0 % Open Circuit
250
3
10 Sec.
B
Report No.: TS08100034-EME Page 42 of 59
Appendix A1: External photo of EUT (TTD-41T)
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Appendix A2: External photo of EUT (TTD-61R)
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Appendix A3: External photo of Adapter
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Appendix A4: Internal photo of EUT (TTD-41T)
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Appendix A5: Internal photo of EUT (TTD-61R)
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Appendix B1: Conducted Emission Test Set-up TTD-41T
TTD-41T
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TTD-61R
TTD-61R
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Appendix B2: Radiated Emission Test Set-up TTD-41T
TTD-41T
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TTD-61R
TTD-61R
