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Prüfbericht-Nr.: Test Report No.:
19646603 001 ULR-TC568819200000226F
Auftrags-Nr.: Order No.:
166150175 Seite 1 von 110 Page 1 of 110
Kunden-Referenz-Nr.: Client Reference No.:
470187 Auftragsdatum: Order date:
24-Jun-2019
Auftraggeber: Client:
Microchip Technology Inc. 2355 West Chandler Blvd. Chandler, Arizona 85224-6199, United States
Prüfgegenstand: Test item:
BM83 Bluetooth® Audio Development Board(BM83 EVB)
Bezeichnung / Typ-Nr.: Identification / Type No.:
DM164152 Serien-Nr.: Engineering Sample Serial No.:
Auftrags-Inhalt: Order content:
EMI/EMC testing and issue of test report
Prüfgrundlage: Test specification:
Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017
Wareneingangsdatum: Date of receipt:
26-Jun-2019
Prüfmuster-Nr.: Test sample No.:
A000947598 001
A000947598 002
A000947598 003
Prüfzeitraum: Testing period:
27-Jun-2019 to 10-Jul-2019
Ort der Prüfung: Place of testing:
TÜV Rheinland (India) Pvt. Ltd., Plot No.108,West Wing, Electronic City Phase1,Hosur Road, Bangalore-560 100, India.
Prüflaboratorium: Testing laboratory:
TÜV Rheinland (India) Pvt. Ltd., Plot No.108,West Wing, Electronic City Phase1, Hosur Road, Bangalore-560 100, India.
Prüfergebnis*: Test result*:
Pass
geprüft von / tested by:
03-Sep-2019 Hemanthkumar P
Engineer
kontrolliert von / reviewed by:
03-Sep-2019 M Abdul Rahman Manager
Datum Date
Name / Stellung Name / Position
Unterschrift Signature
Datum Date
Name / Stellung Name / Position
Unterschrift Signature
Sonstiges/ Other Aspects:Nil
Zustand des Prüfgegenstandes bei Anlieferung: Condition of the test item at delivery:
Prüfmuster vollständig und unbeschädigt Test item complete and undamaged
* Legende: 1 = sehr gut 2 = gut 3 = befriedigend 4 = ausreichend 5 = mangelhaft
P(ass) = entspricht o.g. Prüfgrundlage(n) F(ail) = entspricht nicht o.g. Prüfgrundlage(n) N/A = nicht anwendbar N/T = nicht getestet
Legend: 1 = very good 2 = good 3 = satisfactory 4 = sufficient 5 = poor P(ass) = passed a.m. test specification(s) F(ail) = failed a.m. test specification(s) N/A = not applicable N/T = not tested
Dieser Prüfbericht bezieht sich nur auf das o.g. Prüfmuster und darf ohne Genehmigung der Prüfstelle nicht auszugsweise vervielfältigt werden. Dieser Bericht berechtigt nicht zur Verwendung eines Prüfzeichens.
This test report only relates to the a. m. test sample. Without permission of the test center this test report is not permitted to V04 be duplicated in extracts. This test report does not entitle to carry any test mark.
TÜV Rheinland (India) Pvt. Ltd. 27/B, 2nd Cross Road, Electronic City Phase 1, Bangalore – 560100 INDIA
Tel.: +91 80 3989 9888 Fax: +91 80 3055 4342 Web: www.tuv.com Rev.:2.1 2018-09-25 / approved: G Kalyan Varma
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TEST SUMMARY
5.1.1 HARMONICS ON AC MAINS RESULT: PASS
5.1.2 VOLTAGE FLUCTUATIONS ON AC MAINS RESULT: PASS
5.1.3 MAINS TERMINAL DISTURBANCE VOLTAGE (CONDUCTED EMISSION) RESULT: PASS
5.2.1 RADIATED EMISSION RESULT: PASS
6.1.1 RADIATED RADIO-FREQUENCY ELECTROMAGNETIC FIELDS (RADIATED
SUSCEPTIBILITY) RESULT: PASS
6.1.2 CONDUCTED DISTURBANCES INDUCED BY RADIO-FREQUENCY FIELDS (CONDUCTED
SUSCEPTIBILITY) RESULT: PASS
6.1.3 POWER FREQUENCY MAGNETIC FIELDS RESULT: PASS
6.2.1 ELECTRICAL FAST TRANSIENTS AND BURSTS RESULT: PASS
6.2.2 SURGES RESULT: PASS
6.2.3 ELECTROSTATIC DISCHARGES RESULT: PASS
6.2.4 VOLTAGE DIPS RESULT: PASS
6.2.5 VOLTAGE INTERRUPTIONS RESULT: PASS
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Contents
1. GENERAL REMARKS ............................................................................................... 5
1.1 COMPLEMENTARY MATERIALS ................................................................................. 6
2. TEST SITES ............................................................................................................ 6
2.1 TEST FACILITIES ..................................................................................................... 6
2.2 LIST OF TEST AND MEASUREMENT INSTRUMENTS ...................................................... 7
3. GENERAL PRODUCT INFORMATION ........................................................................... 8
3.1 PRODUCT FUNCTION AND INTENDED USE .................................................................. 8
3.2 RATINGS AND SYSTEM DETAILS ............................................................................... 9
3.3 NOISE GENERATING AND NOISE SUPPRESSING PARTS .............................................. 9
3.4 SUBMITTED DOCUMENTS ......................................................................................... 9
4. TEST SET-UP AND OPERATION MODES ..................................................................... 9
4.1 PRINCIPLE OF CONFIGURATION SELECTION ............................................................... 9
4.2 OPERATION MODES ................................................................................................ 9
4.3 PHYSICAL CONFIGURATION FOR TESTING ............................................................... 10
4.4 TEST OPERATION & TEST SOFTWARE .................................................................... 10
4.5 SPECIAL ACCESSORIES AND AUXILIARY EQUIPMENT ............................................... 11
4.6 COUNTERMEASURES TO ACHIEVE EMC COMPLIANCE .............................................. 11
5. TEST RESULTS E M I S S I O N ........................................................................... 12
5.1 EMISSION IN THE FREQUENCY RANGE UP TO 30 MHZ .............................................. 12 5.1.1 Harmonics on AC Mains ............................................................................................................ 12 5.1.2 Voltage Fluctuations on AC Mains ............................................................................................. 16 5.1.3 Mains Terminal Disturbance Voltage (Conducted Emission) .................................................... 18
5.2 EMISSION IN THE FREQUENCY RANGE ABOVE 30 MHZ ............................................. 30 5.2.1 Radiated Emission ..................................................................................................................... 30
6 . TEST RESULTS I M M U N I T Y ........................................................................... 60
6.1 CONTINUOUS DISTURBANCES ................................................................................ 60 6.1.1 Radiated Radio-frequency Electromagnetic Fields (Radiated Susceptibility) ............................ 60 6.1.2 Conducted Disturbances induced by Radio-frequency Fields (Conducted Susceptibility) ........ 64 6.1.3 Power Frequency Magnetic Fields ............................................................................................. 66
6.2 TRANSIENT DISTURBANCES ................................................................................... 68 6.2.1 Electrical Fast Transients and Bursts ........................................................................................ 68 6.2.2 Surges ........................................................................................................................................ 72 6.2.3 Electrostatic Discharges ............................................................................................................ 78 6.2.4 Voltage Dips ............................................................................................................................... 82 6.2.5 Voltage Interruptions .................................................................................................................. 86
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7. PHOTOGRAPHS OF THE TEST SET-UP ..................................................................... 90
8. LIST OF TABLES .................................................................................................. 108
9. LIST OF FIGURES ................................................................................................ 109
10. LIST OF PHOTOGRAPHS ....................................................................................... 110
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1. General Remarks
Test standards and specifications: Emission Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 EN 55032:2015 (Class B) EN 61000-3-2:2014 EN 61000-3-3:2013 Immunity Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 EN 61000-4-2:2009 (contact: level 2 (±4kV), air: level 3 (±8kV)) EN 61000-4-3:2006+A2:2010 (80-6000MHz: level 2 (3V/m)) EN 61000-4-4:2012 (AC power ports: level 2 (±1kV)) EN 61000-4-5:2014+A1:2017 (AC power ports: level 3 (±2kV)) EN 61000-4-6:2014 (AC power ports: level 2 (3V)) EN 61000-4-8:2010 (level 2 (3A/m), continuous field) EN 61000-4-11:2004+A1:2017 As per manufacturer request, Power Frequency Magnetic Field test was performed.
Please find below table for list of tests performed on Mode 1, Mode 2 and Mode 3.
Sl.No. Tests Mode 1 Mode 2 Mode 3
1. Harmonics on AC Mains ✔ ✖ ✔
2. Voltage Fluctuations on AC Mains ✔ ✖ ✔
3. Mains Terminal Disturbance Voltage (Conducted Emission)
✔ ✖ ✔
5. Radiated Emission ✔ ✔ ✔
6. Radiated Radio-frequency Electromagnetic Fields (Radiated Susceptibility)
✔ ✔ ✔
7. Conducted Disturbances induced by Radio-frequency Fields (Conducted Susceptibility)
✔ ✖ ✔
8. Power Frequency Magnetic Fields ✖ ✔ ✔
9. Electrical Fast Transients and Bursts ✔ ✖ ✔
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10. Surges ✔ ✖ ✔
11. Electrostatic Discharges ✖ ✔ ✔
12. Voltage Dips ✔ ✖ ✔
13. Voltage Interruptions ✔ ✖ ✔
1.1 Complementary Materials
No attachments along with this test report.
2. Test Sites
2.1 Test Facilities
TÜV Rheinland (India) Pvt. Ltd. Plot No. 108, West Wing, Electronic City Phase 1 Hosur Road
Bangalore – 560 100. Website: www.tuv.com This test site is in accordance with CISPR 16 for measurement of radio interference. The used test equipment is in accordance with CISPR 16 for measurement of radio interference. The tests have been conducted by a TÜV Rheinland testing engineer.
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2.2 List of Test and Measurement Instruments
Table 1: List of Test and Measurement Equipment
Kind of Equipment Manufacturer Model Name Serial Number Calibrated
until
Lab: TUV Rheinland (India) Bangalore
For Harmonics and Flicker
Harmonics and Flicker analyzer
Haefely Test AG PHF4010 155914 05-Mar-2020
For Conducted Emission (CE)
EMI Receiver R&S ESR7 101133 16-Jan-2020
Pulse Limiter R&S ESH3-Z2 100811 09-Aug-2019
Two-Line V-Network R&S ENV216 100022 05-Sep-2019
For Radiated Emission (RE)
EMI Receiver R&S ESU40 100288 11-Oct-2019
Broadband Antenna Frankonia ALX-4000 ALX-4000-806 10-Aug-2019
Double-Ridged Guide Antenna
ETS 3117 133356 21-Dec-2019
For Radiated Susceptibility (RS)
Signal Generator Agilent E8257D-ATO-1895 MY51110514 02-Feb-2020
RF Power Amplifier MILMEGA 80RF1000-500 1045085 NA
RF Power Amplifier MILMEGA AS0102-200 1045089 NA
RF Power Amplifier MILMEGA AS1860-100 1045088 NA
Stacked Double Logged Periodic Antenna
Schwarzbeck STLP9128D 9128D037 NA
Broadband Horn Antenna
Schwarzbeck BBHA9120E BBHA9120E496 NA
Power Meter Agilent N1914A MY50001234 03-Apr-2020
Average Power Sensor Agilent E93048 MY51220007 02-Feb-2020
Average Power Sensor Agilent E93048 MY51220010 02-Feb-2020
For Radiated Susceptibility (RS)
Signal Generator R&S SMB100A 114489 20-Nov-2019
Log periodic Antenna R&S HL046E 100281 NA
Broadband Horn Antenna
Schwarzbeck Mess-Elektronik
BBHA 9120E BBHA9120E496 NA
RF Power Amplifier R&S BBA150-BC1000 1045085 NA
RF Power Amplifier R&S BBA150-D400E400 103321-
103322 NA
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Kind of Equipment Manufacturer Model Name Serial Number Calibrated
until
3-Path Diode power sensor
R&S NRP8S 107208 26-Oct-2019
3-Path Diode power sensor
R&S NRP8S 107209 26-Oct-2019
For Power Frequency Magnetic Field
Magnetic Field immunity Loop
FCC F-1000-4-8/9/10-L-1M 05013 04-Oct-2019
Earth Bond Tester Lumetronics EC-12 150903 06-Dec-2019
For Conducted Susceptibility (CS)
Compact Immunity test system
Frankonia CIT 1000/W 18901817-0101 03-Dec-2019
Attenuator Bird 150-SA-FFN-06 1434006 08-Nov-2019
Power Line CDN -16A EM Test CDN-M2/M3 1007-62 25-Jan-2020
CDN for 3 phase Equipment
EM Test CDN - M5 0310-01 25-Jan-2020
For Electrical Fast Transients (EFT)
EMC Test Immunity System
EMC Partner IMU 3000 105684-2045 03-Oct-2019
For Surge
EMC Test Immunity System
EMC Partner IMU 3000 105684-2045 03-Oct-2019
Combined Wave Generator
EMC Partner TRA 3000 1515 20-Jul-2019
For Electrostatic Discharges (ESD)
ESD Simulator-30kV Noiseken ESS 2002 EX ESS0999457 11-Feb-2020
For Voltage Dips & Interruptions
Combined Wave Generator
EMC Partner TRA 3000 1515 20-Jul-2019
3. General Product Information
3.1 Product Function and Intended Use
The EUT BM83 Bluetooth Audio Development Kit (BM83 EVB) enables evaluation and development with the BM83 module and IS2083BM System-on-Chip (SoC). This kit is used to develop multiple Bluetooth audio applications including portable speakers and headphones. This kit features an on-board PIC32 for Host MCU mode applications, an external codec for improved audio quality, a digital microphone to capture voice audio, indicator LEDs and buttons for development.
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3.2 Ratings and System Details
Mode 1 and 3 Adapter Rating: Input Voltage: 100-240VAC, 50-60Hz Output: 15VDC, 3A Input Current: 1.7A Max Protection Class: I
Mode 2 Input Voltage: Li-Ion Battery (3.8V type) plus 5V USB power Input Current: 200mA Protection Class: III
3.3 Noise Generating and Noise Suppressing Parts
Noise generating & suppressing parts are integral part of the design.
3.4 Submitted Documents
1. Product Details
4. Test Set-up and Operation Modes
4.1 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.
4.2 Operation Modes
As per manufacturer request, all EMI/EMC tests were performed on Mode 1, Mode 2 and Mode 3.
The operation modes used for testing are:
A. EUT to be operated through 240 VAC, 50Hz with Bluetooth (2.4GHz) communication operating mode.
B. EUT to be operated through 100 VAC, 50Hz with Bluetooth (2.4GHz) communication operating mode.
C. EUT to be operated through 240 VAC, 50Hz and by keeping the Bluetooth module in Standalone mode.
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D. EUT to be operated through 100 VAC, 50Hz and by keeping the Bluetooth module in Standalone mode.
E. EUT to be operated through 230 VAC, 50Hz with Bluetooth (2.4GHz) communication operating mode.
F. EUT to be operated through battery power and 5V USB power is supplied to charge battery with Bluetooth (2.4GHz) communication operating mode.
G. EUT to be operated through battery power and 5V USB power is supplied to charge battery by keeping the Bluetooth module in standalone mode.
4.3 Physical Configuration for Testing
Refer to section: Photographs of the Test Set-Up.
4.4 Test Operation & Test Software
Mode 1 (Embedded mode with External Codec): The BM83 module is driving the I2S audio out to the external codec (Audio Daughter Board). The BM83 module is connected to the external codec over I2S and I2C. The 15 V power adapter is connected for powering the system. During testing, EUT was powered 100-240VAC, 50Hz using AC-DC adapter. Speaker was connected to external codec and audio was playing continuously through Bluetooth communication throughout the test.
Mode 2 (Embedded Mode with Internal Codec): The BM83 module uses internal codec to drive the audio. The power is used supplied through the USB source with battery connected. Battery power is supplied to EUT and 5V USB power is also supplied to charge the battery. During the test the EUT was powered through the 5VDC USB powered from laptop with battery connected. Speaker was connected to internal codec and audio was playing continuously through Bluetooth communication throughout the test.
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Mode 3 (Host MCU Mode): The host MCU (on-board PIC32 MCU) is connected to the BM83 module over UART. The host MCU is controlling the BM83 module and driving the I2S audio out from the BM83 to an external Audio Daughter Board. The 15 V power adapter is connected for powering the system. During testing, EUT was powered 100-240VAC, 50Hz using AC-DC adapter. Speaker was connected to external codec and audio was playing continuously through Bluetooth communication throughout the test.
During and after the test following parameters were monitored.
Audio was monitored using speaker through Bluetooth communication.
EUT LED’s glow continuously.
4.5 Special Accessories and Auxiliary Equipment
Equipment Name Make Model
AC-DC Adapter Channel Well Technology CO., LTD G99-KPL060H-N024
Laptop Lenovo L430
Speaker Quantum QHM602
Compact Stereo Speaker Logitech Z120
Mobile Apple A1586
4.6 Countermeasures to achieve EMC Compliance
No additional measures were employed to achieve compliance.
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Discipline: Electronics Group: EMC Test Facility
5. Test Results E M I S S I O N
5.1 Emission in the Frequency Range up to 30 MHz
5.1.1 Harmonics on AC Mains
Mode 1: RESULT: PASS
Date of testing: 28-Jun-2019
Ambient temperature: 24.8C Relative humidity: 46.0% Atmospheric pressure: 91.0kPa Test procedure: EN 61000-3-2:2014 Equipment classification: Class A Test mode applied: E
Note:
The EUT was connected to a harmonic measurement instrument. The EUT was set to the mode expected to produce the maximum total harmonic current under normal operation conditions.
Measurement Uncertainty of Harmonics test is ± 4mA @ 3rd harmonic.
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Table 2: Harmonics
Harmonics Order
Amp. Limit Harmonics
Order Amp. Limit
1 0.0249 ---- 21 0.0063 0.107
2 0.0016 1.080 22 0.0012 0.084
3 0.0077 2.300 23 0.0060 0.098
4 0.0016 0.430 24 0.0012 0.077
5 0.0077 1.140 25 0.0057 0.090
6 0.0016 0.300 26 0.0011 0.071
7 0.0075 0.700 27 0.0054 0.083
8 0.0016 0.230 28 0.0010 0.066
9 0.0075 0.400 29 0.0051 0.078
10 0.0016 0.184 30 0.0009 0.061
11 0.0073 0.330 31 0.0048 0.073
12 0.0015 0.153 32 0.0009 0.058
13 0.0071 0.210 33 0.0045 0.068
14 0.0015 0.131 34 0.0008 0.054
15 0.0070 0.150 35 0.0042 0.064
16 0.0014 0.115 36 0.0007 0.051
17 0.0068 0.132 37 0.0039 0.061
18 0.0014 0.102 38 0.0007 0.048
19 0.0065 0.118 39 0.0036 0.058
20 0.0013 0.092 40 0.0006 0.046
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Mode 3: RESULT: PASS
Date of testing: 10-Jul-2019
Ambient temperature: 24.7C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Test procedure: EN 61000-3-2:2014 Equipment classification: Class A Test mode applied: E
Note:
The EUT was connected to a harmonic measurement instrument. The EUT was set to the mode expected to produce the maximum total harmonic current under normal operation conditions.
Measurement Uncertainty of Harmonics test is ± 4mA @ 3rd harmonic.
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Table 3: Harmonics
Harmonics Order
Amp. Limit Harmonics
Order Amp. Limit
1 0.0288 ---- 21 0.0123 0.107
2 0.0031 1.080 22 0.0022 0.084
3 0.0161 2.300 23 0.0116 0.098
4 0.0031 0.430 24 0.0020 0.077
5 0.0160 1.140 25 0.0109 0.090
6 0.0031 0.300 26 0.0019 0.071
7 0.0157 0.700 27 0.0101 0.083
8 0.0030 0.230 28 0.0017 0.066
9 0.0154 0.400 29 0.0094 0.078
10 0.0029 0.184 30 0.0015 0.061
11 0.0150 0.330 31 0.0086 0.073
12 0.0028 0.153 32 0.0014 0.058
13 0.0146 0.210 33 0.0079 0.068
14 0.0027 0.131 34 0.0012 0.054
15 0.0141 0.150 35 0.0071 0.064
16 0.0026 0.115 36 0.0011 0.051
17 0.0135 0.132 37 0.0064 0.061
18 0.0025 0.102 38 0.0009 0.048
19 0.0129 0.118 39 0.0057 0.058
20 0.0023 0.092 40 0.0008 0.046
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5.1.2 Voltage Fluctuations on AC Mains
Mode 1: RESULT: PASS
Date of testing: 28-Jun-2019
Ambient temperature: 24.8C Relative humidity: 46.0% Atmospheric pressure: 91.0kPa Test procedure: EN 61000-3-3:2013 Frequency range: 0 - 2 kHz Test mode applied: E Note:
The EUT was connected to reference impedance. The measurement was performed with a flicker meter.
Measurement Uncertainty of Flicker test is ± 0.059 for Pst.
Table 4: Voltage Fluctuations
Pst[%] Plt[%] dc [%] dmax [%] Tmax [ms]
Limit 1.000 0.65 3.300 4.000 500
Reading 0.044 0.044 0.166 0.202 0
Result Pass Pass Pass Pass Pass
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Mode 3: RESULT: PASS
Date of testing: 10-Jul-2019
Ambient temperature: 24.7C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Test procedure: EN 61000-3-3:2013 Frequency range: 0 - 2 kHz Test mode applied: E Note:
The EUT was connected to reference impedance. The measurement was performed with a flicker meter.
Measurement Uncertainty of Flicker test is ± 0.059 for Pst.
Table 5: Voltage Fluctuations
Pst[%] Plt[%] dc [%] dmax [%] Tmax [ms]
Limit 1.000 0.65 3.300 4.000 500
Reading 0.044 0.044 0.168 0.211 0
Result Pass Pass Pass Pass Pass
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5.1.3 Mains Terminal Disturbance Voltage (Conducted Emission)
Mode 1: RESULT: PASS
Date of testing: 27-Jun-2019
Ambient temperature: 25.4C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 0.15 - 30MHz Equipment classification: Class B Kind of test site: Open Test Site Supply voltage during testing: AC 240V Test mode applied: A
Note:
The EUT was placed on a wooden table 80cm above the reference ground plane. A vertical conducting plane of the screened room was located 40cm to the rear of the EUT. The power cable of the EUT was connected to a Line Impedance Stabilization Network (LISN).
The measurements were performed with a receiver operating in the CISPR quasi-peak and average detection modes. The receiver’s 6 dB bandwidth was set to 9kHz.
Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+LF+PF+CL.
Where, RR → Receiver reading LF → LISN Factor PF → Pulse Limiter Factor CL → Cable Loss
Measurement Uncertainty of Conducted Emission test is ± 2.079dB @ 10MHz.
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Figure 1: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Neutral (N), Mode A
Figure 2: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Line (L), Mode A
Peak
Average
Peak
Average
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Table 6: Conducted Emission, 150kHz - 30MHz, Quasi Peak and Average Data, Neutral (N), Mode A
Frequency [MHz]
Emission level [dB (μV)]
Limit [dB (μV)]
Detector
0.150 43.11 66.00 Quasi Peak
0.174 40.04 64.77 Quasi Peak
16.298 34.66 60.00 Quasi Peak
0.194 36.82 63.86 Quasi Peak
0.218 34.94 62.89 Quasi Peak
0.314 27.16 59.86 Quasi Peak
16.934 33.82 50.00 Average
16.298 32.41 50.00 Average
14.938 26.02 50.00 Average
0.514 19.07 46.00 Average
19.014 22.75 50.00 Average
22.414 21.13 50.00 Average
Table 7: Conducted Emission, 150kHz – 30MHz, Quasi Peak and Average Data, Line (L), Mode A
Frequency [MHz]
Emission level [dB (μV)]
Limit [dB (μV)]
Detector
0.158 42.27 65.57 Quasi Peak
16.302 35.63 60.00 Quasi Peak
0.170 40.25 64.96 Quasi Peak
0.198 37.40 63.69 Quasi Peak
0.238 34.80 62.17 Quasi Peak
0.294 29.12 60.41 Quasi Peak
16.302 34.08 50.00 Average
16.934 33.86 50.00 Average
14.942 30.32 50.00 Average
19.018 25.54 50.00 Average
0.506 20.55 46.00 Average
22.418 19.34 50.00 Average
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RESULT: PASS
Date of testing: 27-Jun-2019
Ambient temperature: 25.4C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 0.15 - 30MHz Equipment classification: Class B Kind of test site: Open Test Site Supply voltage during testing: AC 100V Test mode applied: B
Note:
The EUT was placed on a wooden table 80cm above the reference ground plane. A vertical conducting plane of the screened room was located 40cm to the rear of the EUT. The power cable of the EUT was connected to a Line Impedance Stabilization Network (LISN).
The measurements were performed with a receiver operating in the CISPR quasi-peak and average detection modes. The receiver’s 6 dB bandwidth was set to 9kHz.
Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+LF+PF+CL.
Where, RR → Receiver reading LF → LISN Factor PF → Pulse Limiter Factor CL → Cable Loss
Measurement Uncertainty of Conducted Emission test is ± 2.079dB @ 10MHz.
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Figure 3: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Neutral (N), Mode B
Figure 4: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Line (L), Mode B
Peak
Peak
Average
Average
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Table 8: Conducted Emission, 150kHz - 30MHz, Quasi Peak and Average Data, Neutral (N), Mode B
Frequency [MHz]
Emission level [dB (μV)]
Limit [dB (μV)]
Detector
16.298 35.57 60.00 Quasi Peak
16.934 34.91 60.00 Quasi Peak
0.162 38.08 65.36 Quasi Peak
0.462 28.78 56.66 Quasi Peak
0.230 28.10 62.45 Quasi Peak
1.918 21.10 56.00 Quasi Peak
16.934 33.84 50.00 Average
16.298 32.30 50.00 Average
14.938 26.56 50.00 Average
0.470 21.62 46.51 Average
18.334 23.59 50.00 Average
14.262 22.76 50.00 Average
Table 9: Conducted Emission, 150kHz – 30MHz, Quasi Peak and Average Data, Line (L), Mode B
Frequency [MHz]
Emission level [dB (μV)]
Limit [dB (μV)]
Detector
16.934 34.89 60.00 Quasi Peak
16.294 34.80 60.00 Quasi Peak
0.158 40.35 65.57 Quasi Peak
0.466 31.14 56.58 Quasi Peak
14.938 31.94 60.00 Quasi Peak
1.834 22.50 56.00 Quasi Peak
16.934 33.88 50.00 Average
16.294 31.57 50.00 Average
14.938 30.52 50.00 Average
0.470 24.39 46.51 Average
18.334 26.25 50.00 Average
12.902 20.76 50.00 Average
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Mode 3: RESULT: PASS
Date of testing: 09-Jul-2019
Ambient temperature: 25.5C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 0.15 - 30MHz Equipment classification: Class B Kind of test site: Open Test Site Supply voltage during testing: AC 240V Test mode applied: A
Note:
The EUT was placed on a wooden table 80cm above the reference ground plane. A vertical conducting plane of the screened room was located 40cm to the rear of the EUT. The power cable of the EUT was connected to a Line Impedance Stabilization Network (LISN).
The measurements were performed with a receiver operating in the CISPR quasi-peak and average detection modes. The receiver’s 6 dB bandwidth was set to 9kHz.
Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+LF+PF+CL.
Where, RR → Receiver reading LF → LISN Factor PF → Pulse Limiter Factor CL → Cable Loss
Measurement Uncertainty of Conducted Emission test is ± 2.079dB @ 10MHz.
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Figure 5: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Neutral (N), Mode A
Figure 6: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Line (L), Mode A
Peak
Peak
Average
Average
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Table 10: Conducted Emission, 150kHz - 30MHz, Quasi Peak and Average Data, Neutral (N), Mode A
Frequency [MHz]
Emission level [dB (μV)]
Limit [dB (μV)]
Detector
0.162 39.64 65.36 Quasi Peak
14.906 32.05 60.00 Quasi Peak
0.190 35.05 64.04 Quasi Peak
0.210 33.45 63.21 Quasi Peak
16.934 29.83 60.00 Quasi Peak
0.242 30.16 62.03 Quasi Peak
14.906 29.89 50.00 Average
16.934 27.29 50.00 Average
14.114 24.48 50.00 Average
24.026 23.08 50.00 Average
12.874 20.51 50.00 Average
0.510 15.64 46.00 Average
Table 11: Conducted Emission, 150kHz – 30MHz, Quasi Peak and Average Data, Line (L), Mode A
Frequency [MHz]
Emission level [dB (μV)]
Limit [dB (μV)]
Detector
0.150 40.38 66.00 Quasi Peak
0.206 33.49 63.37 Quasi Peak
0.222 32.83 62.74 Quasi Peak
0.270 28.67 61.12 Quasi Peak
15.398 23.96 60.00 Quasi Peak
0.870 17.94 56.00 Quasi Peak
14.114 24.76 50.00 Average
0.514 17.42 46.00 Average
15.682 18.63 50.00 Average
0.298 18.84 50.30 Average
12.87 17.94 50.00 Average
0.150 18.39 56.00 Average
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RESULT: PASS
Date of testing: 09-Jul-2019
Ambient temperature: 25.5C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 0.15 - 30MHz Equipment classification: Class B Kind of test site: Open Test Site Supply voltage during testing: AC 100V Test mode applied: B
Note:
The EUT was placed on a wooden table 80cm above the reference ground plane. A vertical conducting plane of the screened room was located 40cm to the rear of the EUT. The power cable of the EUT was connected to a Line Impedance Stabilization Network (LISN).
The measurements were performed with a receiver operating in the CISPR quasi-peak and average detection modes. The receiver’s 6 dB bandwidth was set to 9kHz.
Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+LF+PF+CL.
Where, RR → Receiver reading LF → LISN Factor PF → Pulse Limiter Factor CL → Cable Loss
Measurement Uncertainty of Conducted Emission test is ± 2.079dB @ 10MHz.
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Figure 7: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Neutral (N), Mode B
Figure 8: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Line (L), Mode B
Peak
Peak
Average
Average
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Table 12: Conducted Emission, 150kHz - 30MHz, Quasi Peak and Average Data, Neutral (N), Mode B
Frequency [MHz]
Emission level [dB (μV)]
Limit [dB (μV)]
Detector
0.158 42.51 65.57 Quasi Peak
0.446 28.26 56.95 Quasi Peak
14.914 30.75 60.00 Quasi Peak
1.922 26.36 56.00 Quasi Peak
0.250 30.13 61.76 Quasi Peak
25.402 25.70 60.00 Quasi Peak
14.918 29.56 50.00 Average
16.934 28.77 50.00 Average
0.454 23.02 46.80 Average
28.226 23.74 50.00 Average
24.026 23.54 50.00 Average
1.702 19.04 46.00 Average
Table 13: Conducted Emission, 150kHz – 30MHz, Quasi Peak and Average Data, Line (L), Mode B
Frequency [MHz]
Emission level [dB (μV)]
Limit [dB (μV)]
Detector
0.166 40.85 65.16 Quasi Peak
0.446 30.83 56.95 Quasi Peak
0.218 33.72 62.89 Quasi Peak
0.234 33.02 62.31 Quasi Peak
1.978 24.64 56.00 Quasi Peak
0.298 28.90 60.30 Quasi Peak
0.458 26.34 46.73 Average
16.934 29.02 50.00 Average
14.91 26.00 50.00 Average
14.114 24.40 50.00 Average
24.026 23.86 50.00 Average
25.402 23.59 50.00 Average
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5.2 Emission in the Frequency Range above 30 MHz
5.2.1 Radiated Emission
Mode 1: RESULT: PASS
Date of testing: 27-Jun-2019
Ambient temperature: 25.1C Relative humidity: 48.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 30MHz - 1GHz Measurement distance: 10m Frequency range: 1GHz - 6GHz Measurement distance: 3m Equipment classification: Class B Kind of test site: Semi Anechoic Chamber Supply voltage during testing: AC 240V Test mode applied: C Note:
The EUT was placed on a non-conductive table 80cm above the ground plane. Before final measurements of radiated emissions were performed, the EUT was scanned to determine its emission spectrum profile. The spectrum was examined from 30MHz to 6GHz. At each frequency selected for final measurement, the EUT was rotated 360° in order to determine the emission’s maximum level. Measurements were taken using both horizontal and vertical antenna polarizations. For frequencies between 30MHz and 1GHz, measurements were performed with a receiver operating in the CISPR quasi-peak detection mode. The receiver’s 6 dB bandwidth was set to 120kHz. For the frequencies between 1GHz and 6GHz, measurements were performed with a receiver operating in the CISPR Peak detection & Average detection mode. The receiver’s 6dB bandwidth was set to 1MHz. Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+(CL+AF)-PA
Where, RR → Receiver reading CL → Cable Loss
AF → Antenna Factor PA → Pre-amplifier gain
Measurement Uncertainty of Radiated Emission test is ± 4.275dB @ 800MHz.
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Figure 9: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode C
Figure 10: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode C
Peak
Peak
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Figure 11: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode C
Figure 12: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode C
1 GHz 6 GHz
TDS
TD SCAN
dBµV
dBµV
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
1 PK
MAXH
MT 1 s
0
10
20
30
40
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80
90
100
1
Marker 1 [T1 ]
40.44 dBµV
5.721250000 GHz
32PK_B
1G-6GHz_MicroChip_BM83 EV_240V
Date: 27.JUN.2019 07:47:01
1 GHz 6 GHz
TDS
TD SCAN
dBµV
dBµV
2 AV
MAXH
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RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
MT 1 s
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32AVG_B
1G-6GHz_MicroChip_BM83 EV_240V
Date: 27.JUN.2019 07:44:31
Peak
Average
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Figure 13: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode C
Figure 14: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode C
1 GHz 6 GHz
TDS
TD SCAN
dBµV
dBµV
1 PK
MAXH
6DB
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
MT 1 s
0
10
20
30
40
50
60
70
80
90
100
32PK_B
1G-6GHz_MicroChip_BM83 EV_240V
Date: 27.JUN.2019 07:25:04
1 GHz 6 GHz
TDS
TD SCAN
dBµV
dBµV
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
2 AV
MAXH
MT 1 s
0
10
20
30
40
50
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70
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1
Marker 1 [T2 ]
27.77 dBµV
5.999750000 GHz
32AVG_B
1G-6GHz_MicroChip_BM83 EV_240V
Date: 27.JUN.2019 07:25:51
Peak
Average
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Table 14: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode C
Frequency [MHz]
Antenna Orientation
Measured QP [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
64.265 Vertical 18.19 30.00 3.4 152
139.850 Vertical 15.14 30.00 1.3 134
233.360 Vertical 17.31 37.00 1.1 125
256.470 Vertical 16.15 37.00 1.0 41
209.690 Vertical 4.23 30.00 2.1 243
303.060 Vertical 8.96 37.00 1.1 148
36.814 Horizontal 10.88 30.00 1.2 355
327.090 Horizontal 16.10 37.00 3.5 327
303.150 Horizontal 14.95 37.00 3.5 198
210.250 Horizontal 6.80 30.00 1.0 243
233.750 Horizontal 12.62 37.00 4.0 283
64.289 Horizontal 1.50 30.00 3.7 225
Table 15: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode C
Frequency [GHz]
Antenna Orientation
Measured Peak [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
2.5267 Vertical 36.71 70.00 1.0 0
4.5225 Vertical 39.22 74.00 1.0 0
2.4200 Vertical 34.66 70.00 1.0 0
1.2602 Vertical 33.17 70.00 1.0 0
1.0912 Vertical 33.01 70.00 1.0 0
3.6910 Vertical 36.64 74.00 1.0 0
5.7420 Horizontal 41.46 74.00 1.0 0
2.4752 Horizontal 37.10 70.00 1.0 0
2.5520 Horizontal 37.08 70.00 1.0 0
2.2970 Horizontal 33.83 70.00 1.0 0
1.1190 Horizontal 33.05 70.00 1.0 0
3.4147 Horizontal 35.49 74.00 1.0 0
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Table 16: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode C
Frequency [GHz]
Antenna Orientation
Measured Average [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
5.9510 Vertical 27.95 54.00 1.0 0
3.4147 Vertical 26.18 54.00 1.0 0
1.2137 Vertical 21.59 50.00 1.0 0
2.5700 Vertical 21.47 50.00 1.0 0
2.4945 Vertical 21.25 50.00 1.0 0
1.1910 Vertical 20.95 50.00 1.0 0
5.8795 Horizontal 28.04 54.00 1.0 0
2.4757 Horizontal 23.17 50.00 1.0 0
2.5500 Horizontal 22.79 50.00 1.0 0
3.4140 Horizontal 26.22 54.00 1.0 0
2.2960 Horizontal 20.94 50.00 1.0 0
1.2622 Horizontal 19.80 50.00 1.0 0
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RESULT: PASS
Date of testing: 27-Jun-2019
Ambient temperature: 25.1C Relative humidity: 48.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 30MHz - 1GHz Measurement distance: 10m Frequency range: 1GHz - 6GHz Measurement distance: 3m Equipment classification: Class B Kind of test site: Semi Anechoic Chamber Supply voltage during testing: AC 100V Test mode applied: D
Note:
The EUT was placed on a non-conductive table 80cm above the ground plane. Before final measurements of radiated emissions were performed, the EUT was scanned to determine its emission spectrum profile.
The spectrum was examined from 30MHz to 6GHz. At each frequency selected for final measurement, the EUT was rotated 360° in order to determine the emission’s maximum level. Measurements were taken using both horizontal and vertical antenna polarizations.
For frequencies between 30MHz and 1GHz, measurements were performed with a receiver operating in the CISPR quasi-peak detection mode. The receiver’s 6 dB bandwidth was set to 120kHz.
For the frequencies between 1GHz and 6GHz, measurements were performed with a receiver operating in the CISPR Peak detection & Average detection mode. The receiver’s 6dB bandwidth was set to 1MHz.
Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+(CL+AF)-PA
Where, RR → Receiver reading CL → Cable Loss
AF → Antenna Factor PA → Pre-amplifier gain
Measurement Uncertainty of Radiated Emission test is ± 4.275dB @ 800MHz.
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Figure 15: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode D
Figure 16: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode D
Peak
Peak
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Figure 17: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode D
Figure 18: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode D
dBµV
dBµV
TD SCAN
1 GHz 6 GHz
1 PK
MAXH
6DB
TDS
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
MT 1 s
0
10
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100
1
Marker 1 [T1 ]
40.56 dBµV
5.694000000 GHz
32PK_B
1G-6GHz_MicroChip_BM83 EV_100V
Date: 27.JUN.2019 06:45:29dBµV
dBµV
TD SCAN
1 GHz 6 GHz
TDS
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
2 AV
MAXH
MT 1 s
0
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100
1
Marker 1 [T2 ]
27.88 dBµV
5.945500000 GHz
32AVG_B
1G-6GHz_MicroChip_BM83 EV_100V
Date: 27.JUN.2019 06:46:45
Peak
Average
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Figure 19: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode D
Figure 20: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode D
1 GHz 6 GHz
TDS
TD SCAN
dBµV
dBµV
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
1 PK
MAXH
MT 1 s
0
10
20
30
40
50
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80
90
100
1
Marker 1 [T1 ]
40.65 dBµV
5.414750000 GHz
32PK_B
1G-6GHz_MicroChip_BM83 EV_100V
Date: 27.JUN.2019 07:08:51
1 GHz 6 GHz
2 AV
MAXHTDS
6DB
TD SCAN
dBµV
dBµV
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
MT 1 s
0
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80
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100
32AVG_B
1G-6GHz_MicroChip_BM83 EV_100V
Date: 27.JUN.2019 07:07:16
Peak
Average
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Table 17: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode D
Frequency [MHz]
Antenna Orientation
Measured QP [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
64.338 Vertical 19.05 30.00 2.5 131
140.000 Vertical 18.79 30.00 1.0 119
233.530 Vertical 22.31 37.00 1.0 148
256.910 Vertical 20.55 37.00 1.1 143
279.820 Vertical 19.57 37.00 1.0 141
210.350 Vertical 5.81 30.00 1.0 170
303.180 Horizontal 23.15 37.00 3.3 198
36.644 Horizontal 10.93 30.00 2.7 331
210.200 Horizontal 8.42 30.00 3.3 245
326.820 Horizontal 13.29 37.00 3.3 119
233.480 Horizontal 10.83 37.00 4.0 312
140.220 Horizontal 0.94 30.00 3.2 248
Table 18: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode D
Frequency [GHz]
Antenna Orientation
Measured Peak [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
2.3800 Vertical 39.41 70.00 1.0 0
2.3357 Vertical 37.01 70.00 1.0 0
5.6940 Vertical 40.56 74.00 1.0 0
1.0265 Vertical 33.22 70.00 1.0 0
3.6120 Vertical 36.91 74.00 1.0 0
2.1515 Vertical 32.19 70.00 1.0 0
2.4280 Horizontal 38.81 70.00 1.0 0
2.5667 Horizontal 35.28 70.00 1.0 0
4.3915 Horizontal 39.13 74.00 1.0 0
2.3137 Horizontal 34.50 70.00 1.0 0
3.6547 Horizontal 36.86 74.00 1.0 0
1.1795 Horizontal 32.12 70.00 1.0 0
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Table 19: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode D
Frequency [GHz]
Antenna Orientation
Measured Average [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
5.9455 Vertical 27.88 54.00 1.0 0
2.3840 Vertical 23.25 50.00 1.0 0
3.4147 Vertical 26.17 54.00 1.0 0
2.4827 Vertical 21.29 50.00 1.0 0
2.2892 Vertical 20.68 50.00 1.0 0
1.0930 Vertical 19.25 50.00 1.0 0
5.9700 Horizontal 27.96 54.00 1.0 0
3.4147 Horizontal 26.25 54.00 1.0 0
2.4280 Horizontal 22.17 50.00 1.0 0
2.5665 Horizontal 21.52 50.00 1.0 0
2.3650 Horizontal 21.31 50.00 1.0 0
1.0117 Horizontal 19.27 50.00 1.0 0
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Mode 2: RESULT: PASS
Date of testing: 03-Jul-2019
Ambient temperature: 24.3C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 30MHz - 1GHz Measurement distance: 10m Frequency range: 1GHz - 6GHz Measurement distance: 3m Equipment classification: Class B Kind of test site: Semi Anechoic Chamber Supply voltage during testing: 5VDC USB power plus battery Test mode applied: G
Note:
The EUT was placed on a non-conductive table 80cm above the ground plane. Before final measurements of radiated emissions were performed, the EUT was scanned to determine its emission spectrum profile.
The spectrum was examined from 30MHz to 6GHz. At each frequency selected for final measurement, the EUT was rotated 360° in order to determine the emission’s maximum level. Measurements were taken using both horizontal and vertical antenna polarizations.
For frequencies between 30MHz and 1GHz, measurements were performed with a receiver operating in the CISPR quasi-peak detection mode. The receiver’s 6 dB bandwidth was set to 120kHz.
For the frequencies between 1GHz and 6GHz, measurements were performed with a receiver operating in the CISPR Peak detection & Average detection mode. The receiver’s 6dB bandwidth was set to 1MHz.
Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+(CL+AF)-PA
Where, RR → Receiver reading CL → Cable Loss
AF → Antenna Factor PA → Pre-amplifier gain
Measurement Uncertainty of Radiated Emission test is ± 4.275dB @ 800MHz.
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Figure 21: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode G
Figure 22: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode G
Peak
Peak
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Figure 23: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode G
Figure 24: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode G
1 GHz 6 GHz
TDS
dBµV
dBµV
6DB
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
1 PK
MAXH
MT 100 ms
0
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43.82 dBµV
2.395600000 GHz
32PK_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 3.JUL.2019 21:51:24
1 GHz 6 GHz
TDS
dBµV
dBµV
RBW 1 MHz
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AC
6DB
2 AV
MAXH
MT 100 ms
0
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29.73 dBµV
5.956000000 GHz
32AVG_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 3.JUL.2019 21:52:39
Peak
Average
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Figure 25: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode G
Figure 26: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode G
1 GHz 6 GHz
TDS
dBµV
dBµV
1 PK
MAXH
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
MT 100 ms
0
10
20
30
40
50
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100
1
Marker 1 [T1 ]
42.33 dBµV
5.674400000 GHz
32PK_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 3.JUL.2019 22:02:12
1 GHz 6 GHz
TDS
dBµV
dBµV
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
2 AV
MAXH
MT 100 ms
0
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29.81 dBµV
5.947600000 GHz
32AVG_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 3.JUL.2019 22:02:46
Peak
Average
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Table 20: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode G
Frequency [MHz]
Antenna Orientation
Measured QP [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
207.85 Vertical 23.78 30.00 1.0 51
762.18 Vertical 25.95 37.00 2.1 295
398.57 Vertical 25.06 37.00 1.0 180
166.33 Vertical 12.65 30.00 1.2 344
242.53 Vertical 15.06 37.00 1.0 97
115.03 Vertical 6.67 30.00 1.0 348
207.85 Horizontal 19.74 30.00 2.6 51
415.72 Horizontal 23.99 37.00 2.5 47
59.803 Horizontal 13.02 30.00 4.0 200
499.76 Horizontal 17.16 37.00 1.6 270
806.19 Horizontal 15.44 37.00 1.2 238
311.95 Horizontal 12.63 37.00 2.7 47
Table 21: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode G
Frequency [GHz]
Antenna Orientation
Measured Peak [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
2.395 Vertical 43.82 70.00 1.0 0
5.564 Vertical 42.10 74.00 1.0 0
4.334 Vertical 39.29 74.00 1.0 0
1.014 Vertical 34.08 70.00 1.0 0
3.648 Vertical 37.22 74.00 1.0 0
1.662 Vertical 32.47 70.00 1.0 0
2.429 Horizontal 39.18 70.00 1.0 0
5.674 Horizontal 42.33 74.00 1.0 0
5.118 Horizontal 41.38 74.00 1.0 0
4.181 Horizontal 38.67 74.00 1.0 0
1.595 Horizontal 33.65 70.00 1.0 0
2.666 Horizontal 33.48 70.00 1.0 0
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Table 22: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode G
Frequency [GHz]
Antenna Orientation
Measured Average [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
5.464 Vertical 28.69 54.00 1.0 0
4.413 Vertical 26.90 54.00 1.0 0
1.662 Vertical 21.71 50.00 1.0 0
1.498 Vertical 21.37 50.00 1.0 0
2.470 Vertical 20.93 50.00 1.0 0
1.039 Vertical 20.19 50.00 1.0 0
5.568 Horizontal 29.08 54.00 1.0 0
2.429 Horizontal 24.75 50.00 1.0 0
4.823 Horizontal 27.53 54.00 1.0 0
1.039 Horizontal 20.90 50.00 1.0 0
3.789 Horizontal 24.59 54.00 1.0 0
1.594 Horizontal 20.01 50.00 1.0 0
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Mode 3: RESULT: PASS
Date of testing: 05-Jul-2019
Ambient temperature: 24.4C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 30MHz - 1GHz Measurement distance: 10m Frequency range: 1GHz - 6GHz Measurement distance: 3m Equipment classification: Class B Kind of test site: Semi Anechoic Chamber Supply voltage during testing: AC 240V Test mode applied: C
Note:
The EUT was placed on a non-conductive table 80cm above the ground plane. Before final measurements of radiated emissions were performed, the EUT was scanned to determine its emission spectrum profile.
The spectrum was examined from 30MHz to 6GHz. At each frequency selected for final measurement, the EUT was rotated 360° in order to determine the emission’s maximum level. Measurements were taken using both horizontal and vertical antenna polarizations.
For frequencies between 30MHz and 1GHz, measurements were performed with a receiver operating in the CISPR quasi-peak detection mode. The receiver’s 6 dB bandwidth was set to 120kHz.
For the frequencies between 1GHz and 6GHz, measurements were performed with a receiver operating in the CISPR Peak detection & Average detection mode. The receiver’s 6dB bandwidth was set to 1MHz.
Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+(CL+AF)-PA
Where, RR → Receiver reading CL → Cable Loss
AF → Antenna Factor PA → Pre-amplifier gain
Measurement Uncertainty of Radiated Emission test is ± 4.275dB @ 800MHz.
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Figure 27: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode C
Figure 28: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode C
Peak
Peak
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Figure 29: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode C
Figure 30: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode C
dBµV
dBµV
1 PK
MAXH
6DB
1 GHz 6 GHz
TDS
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
MT 100 ms
0
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Marker 1 [T1 ]
50.34 dBµV
2.400400000 GHz
32PK_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 5.JUL.2019 22:56:54
dBµV
dBµV
1 GHz 6 GHz
TDS
RBW 1 MHz
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AC
6DB
2 AV
MAXH
MT 100 ms
0
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Marker 1 [T2 ]
29.93 dBµV
5.948800000 GHz
32AVG_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 5.JUL.2019 22:57:35
Peak
Average
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Figure 31: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode C
Figure 32: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode C
dBµV
dBµV
1 GHz 6 GHz
TDS
1 PK
MAXH
6DB
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
MT 100 ms
0
10
20
30
40
50
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70
80
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1
Marker 1 [T1 ]
48.65 dBµV
4.961600000 GHz
32PK_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 5.JUL.2019 23:12:18
dBµV
dBµV
1 GHz 6 GHz
TDS
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
2 AV
MAXH
MT 100 ms
0
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Marker 1 [T2 ]
33.41 dBµV
4.961600000 GHz
32AVG_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 5.JUL.2019 23:12:49
Peak
Average
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Table 23: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode C
Frequency [MHz]
Antenna Orientation
Measured QP [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
218.81 Vertical 17.64 30.00 1.5 88
66.66 Vertical 16.84 30.00 2.1 299
67.99 Vertical 11.85 30.00 1.0 65
32.88 Vertical 11.16 30.00 3.5 78
117.83 Vertical 9.05 30.00 1.0 209
119.53 Vertical 5.94 30.00 3.7 232
30.04 Horizontal 11.67 30.00 1.5 187
33.68 Horizontal 11.41 30.00 3.1 56
30.97 Horizontal 11.34 30.00 4.0 200
993.16 Horizontal 17.91 37.00 1.1 61
461.62 Horizontal 15.99 37.00 1.6 29
437.20 Horizontal 11.29 37.00 3.0 29
Table 24: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode C
Frequency [GHz]
Antenna Orientation
Measured Peak [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
2.400 Vertical 50.34 70.00 1.0 0
5.292 Vertical 41.70 74.00 1.0 0
3.691 Vertical 38.04 74.00 1.0 0
1.916 Vertical 32.70 70.00 1.0 0
1.291 Vertical 32.56 70.00 1.0 0
2.512 Vertical 36.37 74.00 1.0 0
4.961 Horizontal 48.65 74.00 1.0 0
5.904 Horizontal 42.45 74.00 1.0 0
2.372 Horizontal 37.29 70.00 1.0 0
2.431 Horizontal 38.97 74.00 1.0 0
1.141 Horizontal 34.94 70.00 1.0 0
1.191 Horizontal 33.42 70.00 1.0 0
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Table 25: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode C
Frequency [GHz]
Antenna Orientation
Measured Average [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
2.404 Vertical 25.01 50.00 1.0 0
5.229 Vertical 28.54 54.00 1.0 0
2.552 Vertical 22.41 50.00 1.0 0
1.141 Vertical 21.86 50.00 1.0 0
1.044 Vertical 20.88 50.00 1.0 0
3.603 Vertical 24.49 54.00 1.0 0
4.961 Horizontal 33.41 54.00 1.0 0
5.854 Horizontal 29.76 54.00 1.0 0
1.141 Horizontal 25.15 50.00 1.0 0
1.190 Horizontal 23.20 50.00 1.0 0
2.373 Horizontal 22.62 50.00 1.0 0
2.431 Horizontal 23.60 54.00 1.0 0
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RESULT: PASS
Date of testing: 05-Jul-2019
Ambient temperature: 24.4C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 55032:2015 Frequency range: 30MHz - 1GHz Measurement distance: 10m Frequency range: 1GHz - 6GHz Measurement distance: 3m Equipment classification: Class B Kind of test site: Semi Anechoic Chamber Supply voltage during testing: AC 100V Test mode applied: D
Note:
The EUT was placed on a non-conductive table 80cm above the ground plane. Before final measurements of radiated emissions were performed, the EUT was scanned to determine its emission spectrum profile.
The spectrum was examined from 30MHz to 6GHz. At each frequency selected for final measurement, the EUT was rotated 360° in order to determine the emission’s maximum level. Measurements were taken using both horizontal and vertical antenna polarizations.
For frequencies between 30MHz and 1GHz, measurements were performed with a receiver operating in the CISPR quasi-peak detection mode. The receiver’s 6 dB bandwidth was set to 120kHz.
For the frequencies between 1GHz and 6GHz, measurements were performed with a receiver operating in the CISPR Peak detection & Average detection mode. The receiver’s 6dB bandwidth was set to 1MHz.
Disturbances other than those mentioned are small or not detectable.
Emission Level= RR+(CL+AF)-PA
Where, RR → Receiver reading CL → Cable Loss
AF → Antenna Factor PA → Pre-amplifier gain
Measurement Uncertainty of Radiated Emission test is ± 4.275dB @ 800MHz.
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Figure 33: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode D
Figure 34: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode D
Peak
Peak
Fluctuating frequencies which was captured only during Peak measurement
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Figure 35: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode D
Figure 36: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode D
dBµV
dBµV
1 GHz 6 GHz
TDS
1 PK
MAXH
6DB
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
MT 100 ms
0
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1
Marker 1 [T1 ]
47.10 dBµV
2.428000000 GHz
32PK_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 5.JUL.2019 23:51:57
dBµV
dBµV
1 GHz 6 GHz
TDS
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
2 AV
MAXH
MT 100 ms
0
10
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Marker 1 [T2 ]
29.93 dBµV
5.989200000 GHz
32AVG_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 5.JUL.2019 23:52:57
Peak
Average
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Figure 37: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode D
Figure 38: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode D
dBµV
dBµV
1 GHz 6 GHz
TDS
1 PK
MAXH
6DB
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
MT 100 ms
0
10
20
30
40
50
60
70
80
90
100
1
Marker 1 [T1 ]
42.65 dBµV
5.565200000 GHz
32PK_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 5.JUL.2019 23:33:52
dBµV
dBµV
1 GHz 6 GHz
TDS
RBW 1 MHz
PREAMP OFFAtt 10 dB
AC
6DB
2 AV
MAXH
MT 100 ms
0
10
20
30
40
50
60
70
80
90
100
1
Marker 1 [T2 ]
29.94 dBµV
5.968000000 GHz
32AVG_B
1G-6GHz_L&TBangalore_SmartwellCOTS
Date: 5.JUL.2019 23:34:29
Peak
Average
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Table 26: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode D
Frequency [MHz]
Antenna Orientation
Measured QP [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
66.47 Vertical 10.18 30.00 2.1 250
68.46 Vertical 6.45 30.00 2.9 80
148.24 Vertical 3.64 30.00 1.1 340
146.42 Vertical 2.76 30.00 1.1 290
146.13 Vertical 2.70 30.00 1.5 249
152.31 Vertical 2.14 30.00 1.0 241
34.89 Horizontal 11.35 30.00 3.5 248
34.17 Horizontal 11.24 30.00 3.8 295
32.40 Horizontal 11.01 30.00 1.7 52
461.06 Horizontal 14.20 37.00 1.6 49
359.96 Horizontal 13.08 37.00 2.8 65
291.60 Horizontal 11.30 37.00 1.7 35
Table 27: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode D
Frequency [GHz]
Antenna Orientation
Measured Peak [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
2.428 Vertical 47.10 70.00 1.0 0
4.958 Vertical 43.80 74.00 1.0 0
5.436 Vertical 42.39 74.00 1.0 0
1.140 Vertical 33.50 70.00 1.0 0
1.116 Vertical 32.79 70.00 1.0 0
2.530 Vertical 35.68 74.00 1.0 0
5.565 Horizontal 42.65 74.00 1.0 0
5.058 Horizontal 41.77 74.00 1.0 0
2.428 Horizontal 36.78 70.00 1.0 0
1.117 Horizontal 34.01 70.00 1.0 0
2.556 Horizontal 35.65 74.00 1.0 0
1.193 Horizontal 31.02 70.00 1.0 0
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Table 28: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode D
Frequency [GHz]
Antenna Orientation
Measured Average [dB(μV/m)]
Limit [dB(μV/m)]
Height [m]
Angle [°]
2.428 Vertical 29.30 50.00 1.0 0
5.989 Vertical 29.93 54.00 1.0 0
4.958 Vertical 29.16 54.00 1.0 0
1.116 Vertical 23.24 50.00 1.0 0
1.164 Vertical 22.75 50.00 1.0 0
2.552 Vertical 21.85 50.00 1.0 0
5.343 Horizontal 28.76 54.00 1.0 0
4.634 Horizontal 27.67 54.00 1.0 0
1.167 Horizontal 23.54 50.00 1.0 0
2.428 Horizontal 23.11 50.00 1.0 0
1.116 Horizontal 23.03 50.00 1.0 0
2.534 Horizontal 21.95 54.00 1.0 0
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6 . Test Results I M M U N I T Y
6.1 Continuous Disturbances
6.1.1 Radiated Radio-frequency Electromagnetic Fields (Radiated Susceptibility)
Mode 1: RESULT: PASS
Date of testing: 27-Jun-2019
Ambient temperature: 24.9C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-3:2006+A2:2010 Frequency range: 80-6000MHz Test level: 2 (3V/m) (unmodulated, rms.) Modulation: 80% AM, 1kHz Step size: 1% Dwell time: 2.85s Supply voltage during testing: AC 240V Test mode applied: A Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT was placed on a non-conductive table 80cm above the floor in an anechoic chamber. Each face of the EUT and the attached cables were exposed in sequence to the electromagnetic field produced by a transmitting antenna. For each EUT orientation, the frequency was swept from 80MHz to 6GHz.It was verified that its response to the external disturbance remains within the performance specifications. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 29: Immunity against Radiated Radio-frequency Electromagnetic Fields
Field Polarization
Frequency Result Remark
Vertical 80MHz -6000 MHz PASS EUT operated as intended. No degradation of performance was observed.
Horizontal 80MHz -6000 MHz PASS EUT operated as intended. No degradation of performance was observed.
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Mode 2: RESULT: PASS
Date of testing: 03-Jul-2019
Ambient temperature: 24.3C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-3:2006+A2:2010 Frequency range: 80-6000MHz Test level: 2 (3V/m) (unmodulated, rms.) Modulation: 80% AM, 1kHz Step size: 1% Dwell time: 2.85s Supply voltage during testing: 5VDC USB power plus battery Test mode applied: F Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT was placed on a non-conductive table 80cm above the floor in an anechoic chamber. Each face of the EUT and the attached cables were exposed in sequence to the electromagnetic field produced by a transmitting antenna. For each EUT orientation, the frequency was swept from 80MHz to 6GHz.It was verified that its response to the external disturbance remains within the performance specifications. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Table 30: Immunity against Radiated Radio-frequency Electromagnetic Fields
Field Polarization
Frequency Result Remark
Vertical 80MHz -6000 MHz PASS EUT operated as intended. No degradation of performance was observed.
Horizontal 80MHz -6000 MHz PASS EUT operated as intended. No degradation of performance was observed.
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Mode 3: RESULT: PASS
Date of testing: 05-Jul-2019
Ambient temperature: 24.4C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-3:2006+A2:2010 Frequency range: 80-6000MHz Test level: 2 (3V/m) (unmodulated, rms.) Modulation: 80% AM, 1kHz Step size: 1% Dwell time: 2.85s Supply voltage during testing: AC 240V Test mode applied: A Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT was placed on a non-conductive table 80cm above the floor in an anechoic chamber. Each face of the EUT and the attached cables were exposed in sequence to the electromagnetic field produced by a transmitting antenna. For each EUT orientation, the frequency was swept from 80MHz to 6GHz.It was verified that its response to the external disturbance remains within the performance specifications. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Table 31: Immunity against Radiated Radio-frequency Electromagnetic Fields
Field Polarization
Frequency Result Remark
Vertical 80MHz -6000 MHz PASS EUT operated as intended. No degradation of performance was observed.
Horizontal 80MHz -6000 MHz PASS EUT operated as intended. No degradation of performance was observed.
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6.1.2 Conducted Disturbances induced by Radio-frequency Fields (Conducted Susceptibility)
Mode 1: RESULT: PASS
Date of testing: 27-Jun-2019
Ambient temperature: 24.6C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-6:2014 Severity level: 2 (3V) for AC power ports (unmodulated, rms)
Source impedance: 150 Frequency range: 150kHz - 80MHz Step size: 1% Modulation: 80% AM, 1kHz Sweep mode: Automatic Dwell time: 2.85s Supply voltage during testing: AC 240V Test mode applied: A Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT and its associated accessories were placed on a non-conductive support 10cm above a reference ground plane. Radio-frequency conducted disturbances were injected into the EUT cables via a CDN or a coupling clamp. For each cable selected for testing, the frequency was swept from 150kHz to 80MHz. It was verified that its response to the external disturbance remains within the performance specifications. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Table 32: Immunity against Conducted Disturbances induced by Radio-frequency Fields
Coupling Port Coupling Method: Result Remark
AC Input: Line (L), Neutral(N), PE
CDN M-5 PASS
EUT operated as intended. No degradation of performance was observed.
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Mode 3: RESULT: PASS
Date of testing: 09-Jul-2019
Ambient temperature: 25.5C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-6:2014 Severity level: 2 (3V) for AC power ports (unmodulated, rms)
Source impedance: 150 Frequency range: 150kHz - 80MHz Step size: 1% Modulation: 80% AM, 1kHz Sweep mode: Automatic Dwell time: 2.85s Supply voltage during testing: AC 240V Test mode applied: A Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT and its associated accessories were placed on a non-conductive support 10cm above a reference ground plane. Radio-frequency conducted disturbances were injected into the EUT cables via a CDN or a coupling clamp. For each cable selected for testing, the frequency was swept from 150kHz to 80MHz. It was verified that its response to the external disturbance remains within the performance specifications. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Table 33: Immunity against Conducted Disturbances induced by Radio-frequency Fields
Coupling Port Coupling Method: Result Remark
AC Input: Line (L), Neutral(N), PE
CDN M2/M3 PASS
EUT operated as intended. No degradation of performance was observed.
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6.1.3 Power Frequency Magnetic Fields
Mode 2: RESULT: PASS
Date of testing: 10-Jul-2019
Ambient temperature: 24.5C Relative humidity: 48.0% Atmospheric pressure: 91kPa Test Procedure: EN 61000-4-8:2010 Severity level: 2 (3A/m) Frequency: 50Hz Supply voltage during testing: 5VDC USB power plus battery Test mode applied: F Performance criterion: A Met criterion: A Note:
The EUT was placed inside the 3dB test volume at the center of a square inductive coil connected to a test generator. The system was producing a power frequency magnetic field of the specified level. The test was performed for three orthogonal orientations of the inductive coil. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Table 34: Immunity against Power Frequency Magnetic Fields, 50Hz Magnetic Fields
Field Polarization Coil Orientation Result Remark
Horizontal Parallel to front side Pass EUT operated as intended, no degradation of functionality was observed.
Horizontal Perpendicular to front side Pass EUT operated as intended, no degradation of functionality was observed.
Vertical Horizontal to front side Pass EUT operated as intended, no degradation of functionality was observed.
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Mode 3: RESULT: PASS
Date of testing: 10-Jul-2019
Ambient temperature: 24.5C Relative humidity: 48.0% Atmospheric pressure: 91kPa Test Procedure: EN 61000-4-8:2010 Severity level: 2 (3A/m) Frequency: 50Hz Supply voltage during testing: AC 240V Test mode applied: A Performance criterion: A Met criterion: A Note:
The EUT was placed inside the 3dB test volume at the center of a square inductive coil connected to a test generator. The system was producing a power frequency magnetic field of the specified level. The test was performed for three orthogonal orientations of the inductive coil. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Table 35: Immunity against Power Frequency Magnetic Fields, 50Hz Magnetic Fields
Field Polarization Coil Orientation Result Remark
Horizontal Parallel to front side Pass EUT operated as intended, no degradation of functionality was observed.
Horizontal Perpendicular to front side Pass EUT operated as intended, no degradation of functionality was observed.
Vertical Horizontal to front side Pass EUT operated as intended, no degradation of functionality was observed.
Note: As mode 3 being highest configuration between Mode 1 & 3, this test was performed only on mode 3.
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6.2 Transient Disturbances
6.2.1 Electrical Fast Transients and Bursts
Mode 1: RESULT: PASS
Date of testing: 02-Jul-2019
Ambient temperature: 24.4C Relative humidity: 46.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-4:2012 Severity level: 2 (±1kV) AC power ports Repetition rate: 5kHz Test duration: 60s Supply voltage during testing: AC 240V & AC 100V Test mode applied: A & B Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT and its attached cables were placed on a non-conductive support 10cm above a reference ground plane. Electrical fast transients and bursts were injected into each cable selected for testing via a CDN. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 36: Immunity against Electrical Fast Transients and Bursts:
Coupling Method: CDN Injection
Test Voltage: 240VAC
Coupling Port Test
Voltage Result
Remark
AC Input: Line (L), Neutral(N), PE
±500V
PASS EUT operated as intended. No degradation of performance was observed. ±1000V
PASS
Test Voltage: 100VAC
AC Input: Line (L), Neutral(N), PE
±500V PASS EUT operated as intended. No degradation of performance was observed.
±1000V PASS
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Mode 3: RESULT: PASS
Date of testing: 09-Jul-2019
Ambient temperature: 25.5C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-4:2012 Severity level: 2 (±1kV) AC power ports Repetition rate: 5kHz Test duration: 60s Supply voltage during testing: AC 240V & AC 100V Test mode applied: A & B Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT and its attached cables were placed on a non-conductive support 10cm above a reference ground plane. Electrical fast transients and bursts were injected into each cable selected for testing via a CDN. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 37: Immunity against Electrical Fast Transients and Bursts:
Coupling Method: CDN Injection
Test Voltage: 240VAC
Coupling Port Test
Voltage Result
Remark
AC Input: Line (L), Neutral(N), PE
±500V
PASS EUT operated as intended. No degradation of performance was observed. ±1000V
PASS
Test Voltage: 100VAC
AC Input: Line (L), Neutral(N), PE
±500V PASS EUT operated as intended. No degradation of performance was observed.
±1000V PASS
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6.2.2 Surges
Mode 1: RESULT: PASS
Date of testing: 02-Jul-2019
Ambient temperature: 24.1C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Standard: EN 61000-4-5:2014+A1:2017 Severity level: 3 (±2kV) for AC power ports
Source impedance: 2, 12,
Test voltages: 500V, 1000V, 2000V
Coupling phases: 0, /2, 3/2 (0°, 90°, 270°) Number of surges: 5 (for each parameter combination) Time between pulses: 60s Supply voltage during testing: AC 240V Test mode applied: A Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT and its attached cables were placed on a non-conductive support 80cm above a reference ground plane. Surges were injected into each cable selected for testing via a CDN. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 38: Surge Immunity Tests, on AC Power port
Coupling Port Test
Voltage Coupling
Phase Result Remark
Test Voltage: 240VAC
Input Port: L1 (L) - L2 (N)
Differential (Line to Neutral)
500V
1000V
0
/2
3/2
Pass EUT operated as intended. No degradation of performance was observed.
Input Port: L1 (L) – PE Common (Line to Ground)
500V
1000V
2000V
0
/2
3/2
Pass EUT operated as intended. No degradation of performance was observed.
Input Port: L2 (N) - PE Common (Neutral to Ground)
500V
1000V
2000V
---- Pass EUT operated as intended. No degradation of performance was observed.
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RESULT: PASS
Date of testing: 02-Jul-2019
Ambient temperature: 24.4C Relative humidity: 46.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Standard: EN 61000-4-5:2014+A1:2017 Severity level: 3 (±2kV) for AC power ports
Source impedance: 2, 12,
Test voltages: 500V, 1000V, 2000V
Coupling phases: 0, /2, 3/2 (0°, 90°, 270°) Number of surges: 5 (for each parameter combination) Time between pulses: 60s Supply voltage during testing: AC 100V Test mode applied: B Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT and its attached cables were placed on a non-conductive support 80cm above a reference ground plane. Surges were injected into each cable selected for testing via a CDN. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Table 39: Surge Immunity Tests, on AC Power port
Coupling Port Test
Voltage Coupling
Phase Result Remark
Test Voltage: 100VAC
Input Port: L1 (L) - L2 (N)
Differential (Line to Neutral)
500V
1000V
0
/2
3/2
Pass EUT operated as intended. No degradation of performance was observed.
Input Port: L1 (L) – PE Common (Line to Ground)
500V
1000V
2000V
0
/2
3/2
Pass EUT operated as intended. No degradation of performance was observed.
Input Port: L2 (N) - PE Common (Neutral to Ground)
500V
1000V
2000V
---- Pass EUT operated as intended. No degradation of performance was observed.
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Mode 3:
RESULT: PASS
Date of testing: 09-Jul-2019
Ambient temperature: 25.5C Relative humidity: 49.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Standard: EN 61000-4-5:2014+A1:2017 Severity level: 3 (±2kV) for AC power ports
Source impedance: 2, 12,
Test voltages: 500V, 1000V, 2000V
Coupling phases: 0, /2, 3/2 (0°, 90°, 270°) Number of surges: 5 (for each parameter combination) Time between pulses: 60s Supply voltage during testing: AC 240V Test mode applied: A Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT and its attached cables were placed on a non-conductive support 80cm above a reference ground plane. Surges were injected into each cable selected for testing via a CDN. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 40: Surge Immunity Tests, on AC Power port
Coupling Port Test
Voltage Coupling
Phase Result Remark
Test Voltage: 240VAC
Input Port: L1 (L) - L2 (N)
Differential (Line to Neutral)
500V
1000V
0
/2
3/2
Pass EUT operated as intended. No degradation of performance was observed.
Input Port: L1 (L) – PE Common (Line to Ground)
500V
1000V
2000V
0
/2
3/2
Pass EUT operated as intended. No degradation of performance was observed.
Input Port: L2 (N) - PE Common (Neutral to Ground)
500V
1000V
2000V
---- Pass EUT operated as intended. No degradation of performance was observed.
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RESULT: PASS
Date of testing: 09-Jul-2019
Ambient temperature: 24.1C Relative humidity: 48.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Standard: EN 61000-4-5:2014+A1:2017 Severity level: 3 (±2kV) for AC power ports
Source impedance: 2, 12,
Test voltages: 500V, 1000V, 2000V
Coupling phases: 0, /2, 3/2 (0°, 90°, 270°) Number of surges: 5 (for each parameter combination) Time between pulses: 60s Supply voltage during testing: AC 100V Test mode applied: B Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT and its attached cables were placed on a non-conductive support 80cm above a reference ground plane. Surges were injected into each cable selected for testing via a CDN. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Table 41: Surge Immunity Tests, on AC Power port
Coupling Port Test
Voltage Coupling
Phase Result Remark
Test Voltage: 100VAC
Input Port: L1 (L) - L2 (N)
Differential (Line to Neutral)
500V
1000V
0
/2
3/2
Pass EUT operated as intended. No degradation of performance was observed.
Input Port: L1 (L) – PE Common (Line to Ground)
500V
1000V
2000V
0
/2
3/2
Pass EUT operated as intended. No degradation of performance was observed.
Input Port: L2 (N) - PE Common (Neutral to Ground)
500V
1000V
2000V
---- Pass EUT operated as intended. No degradation of performance was observed.
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6.2.3 Electrostatic Discharges
Mode 2: RESULT: PASS
Date of testing: 10-Jul-2019
Ambient temperature: 23.8C Relative humidity: 50.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-2:2009 Severity level: 2 (±4kV) (contact discharge)
3 (±8kV) (air discharge) Number of discharges per test point: ≥ 10 for each test voltage and polarity Supply voltage during testing: 5VDC USB power plus battery Test mode applied: F Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT was placed on a horizontal coupling plane (HCP) of 160 x 80cm dimension on top of a wooden table 80cm high and located above a ground reference plane. The EUT and its attached cables were isolated from the HCP by a thin insulating support of 0.5mm thickness. Electrostatic discharges were applied using an ESD gun either directly (via contact or air discharges) or indirectly (via horizontal or vertical coupling plane). The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
Note: As EUT is component assembled PCB, hence direct contact discharge was not performed on EUT and Indirect discharges (HCP and VCP) on EUT and Air discharge was performed on the cable.
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Table 42: Immunity against Electrostatic Discharges, both Polarities
Discharge Points Type of
Discharge Test Voltages Result Remark
Front Enclosure:
VCP & HCP ±2kV, ±4kV Pass EUT operated as intended, no degradation of functionality was observed.
Right Enclosure:
VCP & HCP ±2kV, ±4kV Pass EUT operated as intended, no degradation of functionality was observed.
Left Enclosure:
VCP & HCP ±2kV, ±4kV Pass EUT operated as intended, no degradation of functionality was observed.
Rear Enclosure:
VCP & HCP ±2kV, ±4kV Pass EUT operated as intended, no degradation of functionality was observed.
Cable:
Air ±2, ±4, ±8kV Pass EUT operated as intended, no degradation of functionality was observed.
VCP = Vertical Coupling Plane HCP = Horizontal Coupling Plane
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Mode 3: RESULT: PASS
Date of testing: 10-Jul-2019
Ambient temperature: 23.8C Relative humidity: 50.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-2:2009 Severity level: 2 (±4kV) (contact discharge)
3 (±8kV) (air discharge) Number of discharges per test point: ≥ 10 for each test voltage and polarity Supply voltage during testing: AC 240V Test mode applied: A Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT was placed on a horizontal coupling plane (HCP) of 160 x 80cm dimension on top of a wooden table 80cm high and located above a ground reference plane. The EUT and its attached cables were isolated from the HCP by a thin insulating support of 0.5mm thickness. Electrostatic discharges were applied using an ESD gun either directly (via contact or air discharges) or indirectly (via horizontal or vertical coupling plane). The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
As EUT is component assembled PCB, hence direct contact discharge was not performed on EUT and Indirect discharges (HCP and VCP) on EUT and Air discharge was performed on the cable.
As mode 3 being highest configuration between Mode 1 & 3, this test was performed only on mode 3.
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Table 43: Immunity against Electrostatic Discharges, both Polarities
Discharge Points Type of
Discharge Test Voltages Result Remark
Front Enclosure:
VCP & HCP ±2kV, ±4kV Pass EUT operated as intended, no degradation of functionality was observed.
Right Enclosure:
VCP & HCP ±2kV, ±4kV Pass EUT operated as intended, no degradation of functionality was observed.
Left Enclosure:
VCP & HCP ±2kV, ±4kV Pass EUT operated as intended, no degradation of functionality was observed.
Rear Enclosure:
VCP & HCP ±2kV, ±4kV Pass EUT operated as intended, no degradation of functionality was observed.
Cable:
Air ±2, ±4, ±8kV Pass EUT operated as intended, no degradation of functionality was observed.
VCP = Vertical Coupling Plane HCP = Horizontal Coupling Plane
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6.2.4 Voltage Dips
Mode 1: RESULT: PASS
Date of testing: 02-Jul-2019
Ambient temperature: 24.1C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-11:2004+A1:2017 Test parameters: 0%, 0.5 cycle, 10ms @ 50Hz 0%, 1 cycle, 20ms @ 50Hz -30%, 25 cycles, 500ms @ 50Hz Number of voltage dips: 3 (for each parameter combination) Time between voltage dips: 60s Supply voltage during testing: AC 240V & AC 100V Test mode applied: A & B
Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria
Note:
The EUT was connected to a test generator. The specified series of voltage dips were applied in sequence at the AC mains input port of the EUT. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 44: Immunity against Voltage Dips, AC 240V, 50Hz Input Voltage
Voltage Reduction
Applied Voltage
Duration Starting
Phase [rad] Result Remark
0% 0V 10ms 0 Pass EUT operated as intended. No degradation of performance was observed.
0% 0V 20ms 0 Pass EUT operated as intended. No degradation of performance was observed.
-30% 168V 500ms 0 Pass EUT operated as intended. No degradation of performance was observed.
Table 45: Immunity against Voltage Dips, AC 100V, 50Hz Input Voltage
Voltage Reduction
Applied Voltage
Duration Starting
Phase [rad] Result Remark
0% 0V 10ms 0 Pass EUT operated as intended. No degradation of performance was observed.
0% 0V 10ms 0 Pass EUT operated as intended. No degradation of performance was observed.
-30% 70V 500ms 0 Pass EUT operated as intended. No degradation of performance was observed.
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Mode 3: RESULT: PASS
Date of testing: 09-Jul-2019
Ambient temperature: 24.1C Relative humidity: 48.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-11:2004+A1:2017 Test parameters: 0%, 0.5 cycle, 10ms @ 50Hz 0%, 1 cycle, 20ms @ 50Hz -30%, 25 cycles, 500ms @ 50Hz Starting phases: 0° Number of voltage dips: 3 (for each parameter combination) Time between voltage dips: 60s Supply voltage during testing: AC 240V & AC 100V Test mode applied: A & B
Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria
Note:
The EUT was connected to a test generator. The specified series of voltage dips were applied in sequence at the AC mains input port of the EUT. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 46: Immunity against Voltage Dips, AC 240V, 50Hz Input Voltage
Voltage Reduction
Applied Voltage
Duration Starting
Phase [rad] Result Remark
0% 0V 10ms 0 Pass EUT operated as intended. No degradation of performance was observed.
0% 0V 20ms 0 Pass EUT operated as intended. No degradation of performance was observed.
-30% 168V 500ms 0 Pass EUT operated as intended. No degradation of performance was observed.
Table 47: Immunity against Voltage Dips, AC 100V, 50Hz Input Voltage
Voltage Reduction
Applied Voltage
Duration Starting
Phase [rad] Result Remark
0% 0V 10ms 0 Pass EUT operated as intended. No degradation of performance was observed.
0% 0V 10ms 0 Pass EUT operated as intended. No degradation of performance was observed.
-30% 70V 500ms 0 Pass EUT operated as intended. No degradation of performance was observed.
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6.2.5 Voltage Interruptions
Mode 1:
RESULT: PASS
Date of testing: 02-Jul-2019
Ambient temperature: 24.1C Relative humidity: 47.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-11:2004+A1:2017 Test parameters: 0%, 250 cycles, 5000ms @ 50Hz Number of voltage interruptions: 3 (for each parameter combination) Time between voltage interruptions: 60s Supply voltage during testing: AC 240V & AC 100V Test mode applied: A & B Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT was connected to a test generator. The specified series of voltage interruptions was applied at the AC mains input port of the EUT. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 48: Immunity against Voltage Interruptions, AC 240V, 50Hz Input Voltage
Voltage Reduction
Applied Voltage
Duration Starting
Phase [rad] Result Remark
0% 0V 5s 0 Pass
EUT went off and power recovered back automatically Bluetooth operation was initiated manually.
Table 49: Immunity against Voltage Interruptions, AC 100V, 50Hz Input Voltage
Voltage Reduction
Applied Voltage
Duration Starting
Phase [rad] Result Remark
0% 0V 5s 0 Pass
EUT went off and power recovered back automatically Bluetooth operation was initiated manually.
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Mode 3:
RESULT: PASS
Date of testing: 09-Jul-2019
Ambient temperature: 24.1C Relative humidity: 48.0% Atmospheric pressure: 91.0kPa Reference standard: Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Test Procedure: EN 61000-4-11:2004+A1:2017 Test parameters: 0%, 250 cycles, 5000ms @ 50Hz Starting phases: 0° Number of voltage interruptions: 3 (for each parameter combination) Time between voltage interruptions: 60s Supply voltage during testing: AC 240V & AC 100V Test mode applied: A & B Performance criterion: According to Clause 6 of Draft EN 301 489-1 V 2.2.1: 2019 Draft EN 301 489-17 V 3.2.0: 2017 Met criterion: Meets the required performance criteria Note:
The EUT was connected to a test generator. The specified series of voltage interruptions was applied at the AC mains input port of the EUT. The EUT operation was monitored during the test as mentioned in clause 4.4 of this test report.
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Table 50: Immunity against Voltage Interruptions, AC 240V, 50Hz Input Voltage
Voltage Reduction
Applied Voltage
Duration Starting
Phase [rad] Result Remark
0% 0V 5s 0 Pass
EUT went off and power recovered back automatically Bluetooth operation was initiated manually.
Table 51: Immunity against Voltage Interruptions, AC 100V, 50Hz Input Voltage
Voltage Reduction
Applied Voltage
Duration Starting
Phase [rad] Result Remark
0% 0V 5s 0 Pass
EUT went off and power recovered back automatically Bluetooth operation was initiated manually.
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7. Photographs of the Test Set-Up
Photograph 1: Set-up for Harmonics & Flicker Emission – Mode 1 & 3
Photograph 2: Set-up for Conducted Emission on AC Mains Ports – Mode 1 & 3
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Photograph 3: Set-up for Radiated Emission, Vertical Polarization – Mode 1 & 3
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Photograph 4: Set-up for Radiated Emission, Horizontal Polarization – Mode 1 & 3
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Photograph 5: Set-up for Radiated Emission, Vertical Polarization – Mode 2
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Photograph 6: Set-up for Radiated Emission, Horizontal Polarization – Mode 2
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Photograph 7: Set-up for Radiated Susceptibility, Vertical Polarization – Mode 1
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Photograph 8:Set-up for Radiated Susceptibility, Horizontal Polarization – Mode 1
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Photograph 9: Set-up for Radiated Susceptibility, Vertical Polarization – Mode 2
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Photograph 10:Set-up for Radiated Susceptibility, Horizontal Polarization – Mode 2
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Photograph 11: Set-up for Radiated Susceptibility, Vertical Polarization – Mode 3
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Photograph 12:Set-up for Radiated Susceptibility, Horizontal Polarization – Mode 3
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Photograph 13: Set-up for Conducted Susceptibility, CDN Injection Method, AC Input Power Ports – Mode 1 & 3
Photograph 14: Set-up for Power Frequency Magnetic Fields – Mode 2
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Photograph 15: Set-up for Power Frequency Magnetic Fields – Mode 3
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Photograph 16: Set-up for Electrical Fast Transients and Bursts, on AC Input Power Ports – Mode 1 & 3
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Photograph 17: Set-up for Surges, on AC Input Power Ports – Mode 1 & 3
Photograph 18: Set-up for Electrostatic Discharges, VCP – Mode 2
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Photograph 19: Set-up for Electrostatic Discharges, HCP – Mode 2
Photograph 20: Set-up for Electrostatic Discharges, Air Discharges – Mode 2
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Photograph 21: Set-up for Electrostatic Discharges, VCP – Mode 3
Photograph 22: Set-up for Electrostatic Discharges, HCP – Mode 3
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Photograph 23: Set-up for Electrostatic Discharges, Air Discharges – Mode 3
Photograph 24: Set-up for Voltage Dips and Interruption – Mode 1 & 3
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8. List of Tables Table 1: List of Test and Measurement Equipment ...................................................................................... 7 Table 2: Harmonics ..................................................................................................................................... 13 Table 3: Harmonics ..................................................................................................................................... 15 Table 4: Voltage Fluctuations ...................................................................................................................... 16 Table 5: Voltage Fluctuations ...................................................................................................................... 17 Table 6: Conducted Emission, 150kHz - 30MHz, Quasi Peak and Average Data, Neutral (N), Mode A ... 20 Table 7: Conducted Emission, 150kHz – 30MHz, Quasi Peak and Average Data, Line (L), Mode A ........ 20 Table 8: Conducted Emission, 150kHz - 30MHz, Quasi Peak and Average Data, Neutral (N), Mode B ... 23 Table 9: Conducted Emission, 150kHz – 30MHz, Quasi Peak and Average Data, Line (L), Mode B ........ 23 Table 10: Conducted Emission, 150kHz - 30MHz, Quasi Peak and Average Data, Neutral (N), Mode A . 26 Table 11: Conducted Emission, 150kHz – 30MHz, Quasi Peak and Average Data, Line (L), Mode A ...... 26 Table 12: Conducted Emission, 150kHz - 30MHz, Quasi Peak and Average Data, Neutral (N), Mode B . 29 Table 13: Conducted Emission, 150kHz – 30MHz, Quasi Peak and Average Data, Line (L), Mode B ...... 29 Table 14: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode C .............................................................................................................................................. 34 Table 15: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode C ........................................................................................................................................................ 34 Table 16: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode C ........................................................................................................................................................ 35 Table 17: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode D .............................................................................................................................................. 40 Table 18: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode D ........................................................................................................................................................ 40 Table 19: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode D ........................................................................................................................................................ 41 Table 20: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode G .............................................................................................................................................. 46 Table 21: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode G ........................................................................................................................................................ 46 Table 22: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode G ........................................................................................................................................................ 47 Table 23: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode C .............................................................................................................................................. 52 Table 24: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode C ........................................................................................................................................................ 52 Table 25: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode C ........................................................................................................................................................ 53 Table 26: Radiated Emission 30MHz - 1GHz, Vertical & Horizontal Antenna Orientations, Quasi Peak Data, Mode D .............................................................................................................................................. 58 Table 27: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Peak Data, Mode D ........................................................................................................................................................ 58 Table 28: Radiated Emission 1GHz - 6GHz, Vertical & Horizontal Antenna Orientations, Average Data, Mode D ........................................................................................................................................................ 59 Table 29: Immunity against Radiated Radio-frequency Electromagnetic Fields ........................................ 61 Table 30: Immunity against Radiated Radio-frequency Electromagnetic Fields ........................................ 62 Table 31: Immunity against Radiated Radio-frequency Electromagnetic Fields ........................................ 63 Table 32: Immunity against Conducted Disturbances induced by Radio-frequency Fields ........................ 64 Table 33: Immunity against Conducted Disturbances induced by Radio-frequency Fields ........................ 65 Table 34: Immunity against Power Frequency Magnetic Fields, 50Hz Magnetic Fields............................. 66 Table 35: Immunity against Power Frequency Magnetic Fields, 50Hz Magnetic Fields............................. 67 Table 36: Immunity against Electrical Fast Transients and Bursts: ............................................................ 69 Table 37: Immunity against Electrical Fast Transients and Bursts: ............................................................ 71 Table 38: Surge Immunity Tests, on AC Power port ................................................................................... 73 Table 39: Surge Immunity Tests, on AC Power port ................................................................................... 74 Table 40: Surge Immunity Tests, on AC Power port ................................................................................... 76
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Table 41: Surge Immunity Tests, on AC Power port ................................................................................... 77 Table 42: Immunity against Electrostatic Discharges, both Polarities ........................................................ 79 Table 43: Immunity against Electrostatic Discharges, both Polarities ........................................................ 81 Table 44: Immunity against Voltage Dips, AC 240V, 50Hz Input Voltage .................................................. 83 Table 45: Immunity against Voltage Dips, AC 100V, 50Hz Input Voltage .................................................. 83 Table 46: Immunity against Voltage Dips, AC 240V, 50Hz Input Voltage .................................................. 85 Table 47: Immunity against Voltage Dips, AC 100V, 50Hz Input Voltage .................................................. 85 Table 48: Immunity against Voltage Interruptions, AC 240V, 50Hz Input Voltage ..................................... 87 Table 49: Immunity against Voltage Interruptions, AC 100V, 50Hz Input Voltage ..................................... 87 Table 50: Immunity against Voltage Interruptions, AC 240V, 50Hz Input Voltage ..................................... 89 Table 51: Immunity against Voltage Interruptions, AC 100V, 50Hz Input Voltage ..................................... 89
9. List of Figures Figure 1: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Neutral (N), Mode A19 Figure 2: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Line (L), Mode A .... 19 Figure 3: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Neutral (N), Mode B22 Figure 4: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Line (L), Mode B .... 22 Figure 5: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Neutral (N), Mode A25 Figure 6: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Line (L), Mode A .... 25 Figure 7: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Neutral (N), Mode B28 Figure 8: Conducted Emission on AC Mains Port, Spectral Diagram, 0.15 - 30MHz, Line (L), Mode B .... 28 Figure 9: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode C 30 Figure 10: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode C ........................................................................................................................................................ 31 Figure 11: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode C ........................................................................................................................................................ 32 Figure 12: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode C ........................................................................................................................................................ 32 Figure 13: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode C ........................................................................................................................................................ 33 Figure 14: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode C ........................................................................................................................................ 33 Figure 15: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode D .................................................................................................................................................................. 37 Figure 16: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode D ........................................................................................................................................................ 37 Figure 17: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode D ........................................................................................................................................................ 38 Figure 18: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode D ........................................................................................................................................................ 38 Figure 19: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode D ........................................................................................................................................................ 39 Figure 20: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode D ........................................................................................................................................ 39 Figure 21: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode G .................................................................................................................................................................. 42 Figure 22: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode G ........................................................................................................................................................ 43 Figure 23: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode G ........................................................................................................................................................ 44 Figure 24: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode G ........................................................................................................................................................ 44 Figure 25: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode G ........................................................................................................................................................ 45 Figure 26: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode G ........................................................................................................................................ 45
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Figure 27: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode C .................................................................................................................................................................. 48 Figure 28: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode C ........................................................................................................................................................ 49 Figure 29: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode C ........................................................................................................................................................ 50 Figure 30: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode C ........................................................................................................................................................ 50 Figure 31: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode C ........................................................................................................................................................ 51 Figure 32: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode C ........................................................................................................................................ 51 Figure 33: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Vertical Antenna Orientation, Mode D .................................................................................................................................................................. 54 Figure 34: Radiated Emission, Spectral Diagram, 30MHz – 1GHz, Horizontal Antenna Orientation, Mode D ........................................................................................................................................................ 55 Figure 35: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Peak, Mode D ........................................................................................................................................................ 56 Figure 36: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Vertical Antenna Orientation Average, Mode D ........................................................................................................................................................ 56 Figure 37: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Peak, Mode D ........................................................................................................................................................ 57 Figure 38: Radiated Emission, Spectral Diagram, 1GHz – 6GHz, Horizontal Antenna Orientation Average, Mode D ........................................................................................................................................ 57
10. List of Photographs Photograph 1: Set-up for Harmonics & Flicker Emission – Mode 1 & 3 ..................................................... 90 Photograph 2: Set-up for Conducted Emission on AC Mains Ports – Mode 1 & 3 ..................................... 90 Photograph 3: Set-up for Radiated Emission, Vertical Polarization – Mode 1 & 3 ..................................... 91 Photograph 4: Set-up for Radiated Emission, Horizontal Polarization – Mode 1 & 3 ................................. 92 Photograph 5: Set-up for Radiated Emission, Vertical Polarization – Mode 2 ............................................ 93 Photograph 6: Set-up for Radiated Emission, Horizontal Polarization – Mode 2 ....................................... 94 Photograph 7: Set-up for Radiated Susceptibility, Vertical Polarization – Mode 1 ..................................... 95 Photograph 8:Set-up for Radiated Susceptibility, Horizontal Polarization – Mode 1 .................................. 96 Photograph 9: Set-up for Radiated Susceptibility, Vertical Polarization – Mode 2 ..................................... 97 Photograph 10:Set-up for Radiated Susceptibility, Horizontal Polarization – Mode 2 ................................ 98 Photograph 11: Set-up for Radiated Susceptibility, Vertical Polarization – Mode 3 ................................... 99 Photograph 12:Set-up for Radiated Susceptibility, Horizontal Polarization – Mode 3 .............................. 100 Photograph 13: Set-up for Conducted Susceptibility, CDN Injection Method, AC Input Power Ports – Mode 1 & 3 ................................................................................................................................................ 101 Photograph 14: Set-up for Power Frequency Magnetic Fields – Mode 2 ................................................. 101 Photograph 15: Set-up for Power Frequency Magnetic Fields – Mode 3 ................................................. 102 Photograph 16: Set-up for Electrical Fast Transients and Bursts, on AC Input Power Ports – Mode 1 & 3 ................................................................................................................................................................. 103 Photograph 17: Set-up for Surges, on AC Input Power Ports – Mode 1 & 3 ............................................ 104 Photograph 18: Set-up for Electrostatic Discharges, VCP – Mode 2 ........................................................ 104 Photograph 19: Set-up for Electrostatic Discharges, HCP – Mode 2 ....................................................... 105 Photograph 20: Set-up for Electrostatic Discharges, Air Discharges – Mode 2 ....................................... 105 Photograph 21: Set-up for Electrostatic Discharges, VCP – Mode 3 ........................................................ 106 Photograph 22: Set-up for Electrostatic Discharges, HCP – Mode 3 ....................................................... 106 Photograph 23: Set-up for Electrostatic Discharges, Air Discharges – Mode 3 ....................................... 107 Photograph 24: Set-up for Voltage Dips and Interruption – Mode 1 & 3 .................................................. 107