Page 1 of 54
RF Test Report Report No.: AGC04099151001EE04
TEST NAME
: 1999/5/EC R&TTE Directive Art.3.2
PRODUCT DESIGNATION
: Bling Helmet
BRAND NAME
: Livall
MODEL NAME
: BH60, BH6X
CLIENT
: Shenzhen Qianhai Livall IoT Technology Co., Ltd.
DATE OF ISSUE
: Nov.06,2015
STANDARD(S)
: EN 300 328 V1.8.1 2012-06
REPORT VERSION
: V1.0
Attestation of Global Compliance (Shenzhen) Co., Ltd CAUTION: This report shall not be reproduced except in full without the written permission of the test laboratory and shall not be quoted out of context.
Report No.: AGC04099151001EE04 Page 2 of 54
Report Revise Record Report Version
Revise Time
Issued Date
Valid Version
Notes
V1.0
/
Nov.06,2015
Valid
Original Report
Report No.: AGC04099151001EE04 Page 3 of 54
TABALE OF CONTENTS TABALE OF CONTENTS .................................................................................................................................. 3 1. TEST RESULT CERTIFICATION................................................................................................................. 4 2. TECHNICAL INFORMATION ...................................................................................................................... 5 2.1 EUT DESCRIPTION.................................................................................................................................... 5 2.2 SUPPORT EQUIPMENT ............................................................................................................................. 6 2.3 DESCRIPTION OF TEST MODES.............................................................................................................. 6 3. DETAILS OF TEST ...................................................................................................................................... 8 3.1 IDENTIFICATION OF THE RESPONSIBLE TESTING LOCATION ............................................................. 8 3.2 LIST OF TEST EQUIPMENTS ..................................................................................................................... 8 3.3 ENVIRONMENTAL CONDITIONS ............................................................................................................... 8 3.4 MEASUREMENT UNCERTAINTY ............................................................................................................... 8 4. ETSI EN 300 328 REQUIREMENTS.............................................................................................................. 9 4.1 RF OUTPUT POWER .................................................................................................................................. 9 4.2 DWELL TIME, MINIMUM FREQUENCY OCCUPIATION AND HOPPING SEQUENCE ............................ 16 4.4 HOPPING FREQUENCY SEPARATION .................................................................................................... 26 4.5 OCCUPIED CHANNEL BANDWIDTH ........................................................................................................ 27 4.6TRANSMITTER UNWANTED EMISSIONS IN THE OUT OF BAND DOMAIN ........................................... 31 4.7 TRANSMITTER SPURIOUS EMISSIONS ................................................................................................. 38 4.8 RECEIVER SPURIOUS EMISSIONS ........................................................................................................ 44 4.9. RECEIVER BLOCKING ............................................................................................................................ 47 APPENDIX A ................................................................................................................................................... 48 PHOTOGRAPHS OF THE TEST SETUP ........................................................................................................ 48 APPENDIX B ................................................................................................................................................... 49 PHOTOGRAPHS OF THE EUT ....................................................................................................................... 49
Report No.: AGC04099151001EE04 Page 4 of 54
1. TEST RESULT CERTIFICATION Applicant Name:
Shenzhen Qianhai Livall IoT Technology Co., Ltd.
Address:
Room 904, 9F., R&D Building, Shenzhen Tsinghua Hi-Tech Park, Nanshan District, Shenzhen, China
Manufacturer Name:
Shenzhen Qianhai Livall IoT Technology Co., Ltd.
Address:
Room 904, 9F., R&D Building, Shenzhen Tsinghua Hi-Tech Park, Nanshan District, Shenzhen, China
Product Designation:
Bling Helmet
Brand Name:
Livall
Test Model
BH60
Series Model
BH6X(X represents 1 to 9)
Difference description
All the same except for the appearance color
Date of test
Oct.21,2015 to Oct.23,2015
We (AGC), Attestation of Global Compliance (Shenzhen) Co., Ltd. for compliance with the requirements set forth in the European Standard ETSI EN 300 328 V1.8.1. product/system which was tested only.
The results of testing in this report apply to the
Other similar equipment will not necessarily produce the same results
due to production tolerance and measurement uncertainties.
Tested By Jerry Xiao(Xiao Wang)
Nov.06,2015
Forrest Lei(Lei Yonggang)
Nov.06,2015
Solger Zhang(Zhang Hongyi) Authorized Officer
Nov.06,2015
Reviewed By
Approved By
Report No.: AGC04099151001EE04 Page 5 of 54
2. TECHNICAL INFORMATION 2.1 EUT DESCRIPTION Modulation type
FHSS
Bluetooth Version
V4.1
Modulation
GFSK ,π /4-DQPSK, 8DPSK
Hardware Version
BH60 V1.0
Software Version
BH60 V1.0
Adaptive / non-adaptive equipment
Adaptive Equipment
The number of Hopping Frequencies
79
The maximum RF Output Power (e.i.r.p.) 1.28dBm The different transmit operating modes
Operating mode 1: Single Antenna Equipment Equipment with only 1 antenna
Operating Frequency Range(s)
2402MHz~2480MHz
Occupied Channel Bandwidth(s)
1.174MHz
Dwell Time
308.65ms(max)
Type of Equipment
Stand-alone
Antenna designation
PCB antenna
Antenna gain
0dBi
Nominal voltages
DC 3.7V by battery
The extreme operating conditions
Operating temperature range: -20°C~55°C Operating voltage range: DC3.4V-DC4.2V
Note: 1. The above information was declared by the applicant. 2.
The equipment submitted are representative production models.
3.
The EUT provides Bluetooth wireless interface operating at 2.4G ISM band (2402MHZ-2480MHZ). The EUT use Frequency Hopping Spread Spectrum (FHSS) modulation.
4.
Only the Bluetooth was tested according the standard requirement.
5.
The EUT is an adaptive equipment and hand-portable station according to ETSI EN 300 328 v1.8.1.
6.
Please refer to Appendix Ⅰ for the photographs of the EUT. For more details, please refer to the User’s manual of the EUT.
Report No.: AGC04099151001EE04 Page 6 of 54
2.2 SUPPORT EQUIPMENT Item
Equipment
Mfr/Brand
Model/Type No.
Remark
1
PC
Dell
INSPIRON
A.E
2.3 DESCRIPTION OF TEST MODES NO.
TEST MODE DESCRIPTION
1
Low channel TX
2
Middle channel TX
3
High channel TX
4
Low channel RX
5
Middle channel RX
6
High channel RX
7
Normal hopping
Note: 1. All the transmit mode would tested with each modulation (GFSK, π /4-DQPSK, 8-DPSK). 2. All modes have been tested and the worst mode test data recording in the test report, if no any other data.
Report No.: AGC04099151001EE04 Page 7 of 54
A) OBJECTIVE Perform Radio Spectrum tests for CE Marking according to the provisions of article 3.2 of the R&TTE Directive (1999/5/EC) for the Bluetooth function of the EUT. B) TEST STANDARDS AND RESULTS The EUT has been tested according to ETSI EN 300 328 V1.8.1 (2012-06). ETSI EN 300 328 V1.8.1 (2012-06)
Electromagnetic compatibility and Radio spectrum Matters (ERM); Wideband transmission systems;Data transmission equipment operating in the 2,4 GHz ISM band and using wide band modulation techniques; Harmonized EN covering the essential requirements of article 3.2 of the R&TTE Directive
TEST ITEMS AND THE RESULTS ARE AS BELOW: №
Basic Standard
Test Type
The worst case operational mode
Result
1
ETSI EN 300 328 4.3.1.1
RF Output Power
Mode 1/2/3
Pass
2
ETSI EN 300 328 4.3.1.2
Duty Cycle,Tx-sequence,Tx-gap
N/A
N/A
3
ETSI EN 300 328 4.3.1.3
Dwell time,Minimum Frequency Occupation and hopping sequence
Mode 1/2/3
Pass
4
ETSI EN 300 328 4.3.1.4
Hopping Frequency Separation
Mode 7
Pass
5
ETSI EN 300 328 4.3.1.5
Medium Utilisation
N/A
N/A
6
ETSI EN 300 328 4.3.1.6
Adaptivity (Adaptive Frequency Hopping)
N/A
N/A
7
ETSI EN 300 328 4.3.1.7
Occupied Channel Bandwidth
Mode 1/3
Pass
8
ETSI EN 300 328 4.3.1.8
Mode 1/3
Pass
9
ETSI EN 300 328 4.3.1.9
Mode 1/2/3
Pass
10
ETSI EN 300 328 4.3.1.10
Receiver Spurious emissions
Mode 6
Pass
11
ETSI EN 300 328 4.3.1.11
Receiver Blocking
N/A
N/A
Transmitter unwanted emission in the out of band domain Transmitter unwanted emission in the Spurious domain
Note: 1. N/A means it’s not applicable to this item. 2. Owing to the maximum declared RF Output power (e.i.r.p.) less than 10 dBm, so the item 2, 5, 6, 11 are not applicable.
Report No.: AGC04099151001EE04 Page 8 of 54
3. DETAILS OF TEST 3.1 IDENTIFICATION OF THE RESPONSIBLE TESTING LOCATION Company Name:
Attestation of Global Compliance (Shenzhen) Co., Ltd.
Address:
2/F., Building 2, No.1-No.4, Chaxi Sanwei Technical Industrial Park, Gushu, Xixiang, Bao'an District, Shenzhen, Guangdong, China
3.2 LIST OF TEST EQUIPMENTS Description
Manufacturer
Model No.
S/N
Calibration Date
Calibration Due.
SIGNAL ANALYZER
Agilent
N9020A
MY49100060
Oct. 21, 2015
Oct. 20,2016
SIGNAL GENERATOR
Agilent
N5182A
MY50140530
Oct. 21, 2015
Oct. 20,2016
SIGNAL GENERATOR
Agilent
E8257D
MY45141029
Dec. 04,2014
Dec.03,2015
USB Wideband Power Sensor
Agilent
U2021XA
MY54110007
Oct. 24, 2015
Oct. 23, 2016
Agilent
U2021XA
MY54110009
Oct. 24, 2015
Oct. 23, 2016
Agilent
U2021XA
MY54110014
Oct. 24, 2015
Oct. 23, 2016
Agilent
U2021XA
MY54110012
Oct. 24, 2015
Oct. 23, 2016
Agilent
U2531A
MY5211038
Oct. 24, 2015
Oct. 23, 2016
2.4 GHz Filter
Micro-Tronics
BRM50702
017
Mar. 06, 2015
Mar. 05, 2016
Spectrum Analyzer
Agilent
E4440A
US41421290
July 25, 2015
July 24, 2016
USB Wideband Power Sensor USB Wideband Power Sensor USB Wideband Power Sensor USB Simultaneous Sampling Multifunction DAQ
3.3 ENVIRONMENTAL CONDITIONS During the measurement the environmental conditions were within the listed ranges: - Temperature: 15-35ºC - Humidity: 30-60 % - Atmospheric pressure: 86-106 kPa 3.4 MEASUREMENT UNCERTAINTY The uncertainty is calculated using the methods suggested in the “Guide to the Expression of Uncertainty in Measurement” (GUM) published by ISO. -5 - Uncertainty of Radio Frequency, Uc=±1 x 10 - Uncertainty of total RF power, conducted, Uc = ±1.5dB - Uncertainty of RF power density, conducted, Uc = ±3dB - Uncertainty of spurious emissions, conducted, Uc = ±3dB - Uncertainty of all emissions, radiated, Uc = ±6dB - Uncertainty of Temperature: ±1°C - Uncertainty of Humidity: ±5 % - Uncertainty of DC and low frequency voltages: ±3 %
Report No.: AGC04099151001EE04 Page 9 of 54
4. ETSI EN 300 328 REQUIREMENTS 4.1 RF OUTPUT POWER EN 300 328 Clause 4.3.1.1 The maximum RF output power for adaptive Frequency Hopping equipment shall be equal to or less than 20 dBm.The maximum RF output power for non-adaptive Frequency Hopping equipment, shall be declared by the supplier. See clause 5.3.1 m). The maximum RF output power for this equipment shall be equal to or less than the value declared by the supplier. This declared value shall be equal to or less than 20 dBm.
Test Configuration
Remarks: EUT was direct connected to test equipment through coupling device.
Report No.: AGC04099151001EE04 Page 10 of 54
TEST PROCEDURE 1. Please refer to ETSI EN 300 328 (V1.8.1) clause 5.3.2.1 for the test conditions. 2. Please refer to ETSI EN 300 328 (V1.8.1) clause 5.3.2.2.1 for the measurement method. TEST RESULTS Operation Mode:
TX
Test Date:
Oct.21,2015
Temperature:
25oC
Tested by:
Jerry Xiao
Humidity:
55 % RH
Detector:
RMS
Number of Burst
>= 10
Measurement Time
= 45.48ms
GFSK MODULATION RF OUTPUT POWER (dBm) TEST CONDITIONS Temp (25)°C
Temp (-20)°C
Temp (55)°C
Result
DC 3.7V
DC 3.4V
DC 4.2V
DC 3.4V
DC 4.2V
Low Channel TX
1.28
1.26
1.23
1.21
1.27
Middle Channel TX
0.85
0.83
0.80
0.78
0.84
High Channel TX
-0.11
-0.13
-0.16
-0.17
-0.12
Limit
20dBm Low Channel
Report No.: AGC04099151001EE04 Page 11 of 54
Middle Channel
High Channel
Report No.: AGC04099151001EE04 Page 12 of 54
Π /4-DQPSK MODULATION RF OUTPUT POWER (dBm) TEST CONDITIONS Temp (25)°C
Temp (-20)°C
Temp (55)°C
Result
DC 3.7V
DC 3.4V
DC 4.2V
DC 3.4V
DC 4.2V
Low Channel TX
0.14
0.12
0.09
0.08
0.13
Middle Channel TX
0.52
0.50
0.47
0.46
0.49
High Channel TX
0.03
0.02
-0.02
-0.04
-0.05
Limit
20dBm Low Channel
Middle Channel
Report No.: AGC04099151001EE04 Page 13 of 54
High Channel
Report No.: AGC04099151001EE04 Page 14 of 54
8DPSK MODULATION RF OUTPUT POWER (dBm) TEST CONDITIONS Temp (25)°C
Temp (-20)°C
Temp (55)°C
Voltage
DC 3.7V
DC 3.4V
DC 4.2V
DC 3.4V
DC 4.2V
Low Channel TX
0.70
0.69
0.64
0.67
0.66
Middle Channel TX
0.85
0.84
0.82
0.84
0.78
High Channel TX
0.30
-0.04
0.24
0.28
0.27
Limit
20dBm Low Channel
Middle Channel
Report No.: AGC04099151001EE04 Page 15 of 54
High Channel
Note: Result=Reading+ Ant. Gain The reading value included cable loss. The diagrams are for normal temperature. Conclusion: PASS
Report No.: AGC04099151001EE04 Page 16 of 54
4.2 DWELL TIME, MINIMUM FREQUENCY OCCUPIATION AND HOPPING SEQUENCE ETSI EN 300 328 SUBCLAUSE 4.3.1.3.2 The maximum accumulated dwell time on any hopping frequency shall be 400 ms within any period of 400 ms multiplied by the minimum number of hopping frequencies (N) that have to be used. The hopping sequence(s) shall contain at least N hopping frequencies at all times, where N is 15 or 15 divided by the minimum Hopping Frequency Separation in MHz, whichever is the greater. The Minimum Frequency Occupation Time shall be equal to one dwell time within a period not exceeding four times the product of the dwell time per hop and the number of hopping frequencies in use.
TEST CONFIGURATION
Monopole Antenna
EUT Spectrum analyzer
TEST PROCEDURE Please refer to ETSI EN300328 V1.8.1 Section 5.3.4
(See Note)
Report No.: AGC04099151001EE04 Page 17 of 54
TEST RESULT (Dwell Time) Bluetooth 1Mbps(DH5)Test Result
Channel
Dwell Time (ms)
Limit (ms)
Low
1230.34
400
Middle
1230.34
400
High
1230.34
400
Low Channel
Report No.: AGC04099151001EE04 Page 18 of 54
Middle Channel
High Channel
Report No.: AGC04099151001EE04 Page 19 of 54
Bluetooth 2Mbps(DH5) Test Result Channel
Dwell Time (ms)
Limit (ms)
Low
307.58
400
Middle
308.65
400
High
308.65
400
Low Channel
Report No.: AGC04099151001EE04 Page 20 of 54
Middle Channel
High Channel
Report No.: AGC04099151001EE04 Page 21 of 54
Bluetooth 3Mbps(DH5) Test Result Channel
Dwell Time (ms)
Limit (ms)
Low
308.65
400
Middle
308.65
400
High
308.65
400
Low Channel
Report No.: AGC04099151001EE04 Page 22 of 54
Middle Channel
High Channel
Report No.: AGC04099151001EE04 Page 23 of 54
TEST RESULT FOR HOPPING SEQUENCE Channel
Frequency (GHz)
Channel
Frequency (GHz)
01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41
2.40202 2.40302 2.40402 2.40502 2.40602 2.40702 2.40802 2.40902 2.41002 2.41102 2.41202 2.41302 2.41402 2.41502 2.41602 2.41702 2.41802 2.41902 2.42002 2.42102 2.42202 2.42302 2.42402 2.42502 2.42602 2.42702 2.42802 2.42902 2.43002 2.43102 2.43202 2.43302 2.43402 2.43502 2.43602 2.43702 2.43802 2.43902 2.44002 2.44102 2.44202
42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79
2.44302 2.44402 2.44502 2.44602 2.44702 2.44802 2.44902 2.45002 2.45102 2.45202 2.45302 2.45402 2.45502 2.45602 2.45702 2.45802 2.45902 2.46002 2.46102 2.46202 2.46302 2.46402 2.46502 2.46602 2.46702 2.46802 2.46902 2.47002 2.47102 2.47202 2.47302 2.47402 2.47502 2.47602 2.47702 2.47802 2.47902 2.48002
Report No.: AGC04099151001EE04 Page 24 of 54
Hopping Channel Test Plot
Report No.: AGC04099151001EE04 Page 25 of 54
TEST RESULT FOR OCCUPATION TIME Bluetooth 1Mbps(DH5)Test Result Channel
Occupation Time (ms)
Low
1230.34
Middle
1230.34
High
1230.34
Limit
>400ms
Bluetooth 2Mbps(DH5)Test Result Channel
Occupation Time (ms)
Low
1230.34
Middle
1234.61
High
1234.61
Limit
>400ms
Bluetooth 3Mbps(DH5)Test Result Channel
Occupation Time (ms)
Low
1234.61
Middle
1234.61
High
1234.61
Limit
>400ms
Report No.: AGC04099151001EE04 Page 26 of 54
4.4 HOPPING FREQUENCY SEPARATION ETSI EN 300 328 SUBCLAUSE 4.3.1.4 For Non-adaptive frequency hopping systems: The minimum Hopping Frequency Separation shall be equal to Occupied Channel Bandwidth (see clause 4.3.1.7) of a single hop, with a minimum separation of 100 kHz. For Adaptive frequency hopping systems: The minimum Hopping Frequency Separation shall be 100 kHz. CONFIGURATION
TEST PROCEDURE Test Procedure please refer to clause 5.3.5.2.1 TEST RESULT Hopping frequency separation Test Plot-1
Hopping Frequency Separation (FHS) = F2C - F1C=1MHz Note: The modulation used during test is 8-DPSK and this is the worst case. Conclusion: PASS
Report No.: AGC04099151001EE04 Page 27 of 54
4.5 OCCUPIED CHANNEL BANDWIDTH EN300328 4.3.1.4 OCCUPIED CHANNEL BANDWIDTH The Occupied Channel Bandwidth is the bandwidth that contains 99 % of the power of the signal. CONFIGURATION
TEST PROCEDURE 1. Please refer to ETSI EN 300 328 (V1.8.1) clause 5.3.8.1 for the test conditions. 2. Please refer to ETSI EN 300 328 (V1.8.1) clause 5.3.8.2 the measurement method. 3. The Test equipment information as following Centre frequency: 2402MHz,2480MHz Resolution bandwidth: 20kHz Video bandwidth: 62kHz Detector mode :RMZ Trace mode :Max Hold TEST RESULT TEST ITEM
OCCUPIED CHANNEL BANDWIDTH
TEST MODE
GFSK MOUDULATION MEASUREMENT RESULT Test Data (MHz)
Criteria
Low Channel
0.796
PASS
High Channel
0.801
PASS
Report No.: AGC04099151001EE04 Page 28 of 54
Low Channel
High Channel
Report No.: AGC04099151001EE04 Page 29 of 54
TEST ITEM
OCCUPIED CHANNEL BANDWIDTH
TEST MODE
Π /4-DQPSK MODULATION MOUDULATIO
MEASUREMENT RESULT Test Data (MHz)
Criteria
Low Channel
1.171
PASS
High Channel
1.170
PASS
Low Channel
High Channel
Report No.: AGC04099151001EE04 Page 30 of 54
TEST ITEM
OCCUPIED CHANNEL BANDWIDTH
TEST MODE
8-DPSK MODULATION
MEASUREMENT RESULT Test Data (MHz)
Criteria
Low Channel
1.172
PASS
High Channel
1.174
PASS
Low Channel
High Channel
Report No.: AGC04099151001EE04 Page 31 of 54
4.6TRANSMITTER UNWANTED EMISSIONS IN THE OUT OF BAND DOMAIN EN300328 4.3.1.8 TRANSMITTER UNWANTED EMISSIONS IN THE OUT OF BAND DOMAIN
TEST CONFIGURATION
For have temporary antenna connector product
Report No.: AGC04099151001EE04 Page 32 of 54
Antenna tower
Horn antenna
3m EUT 4m
Spectrum analyzer Turntable
1.5m
1m Pre-amp
For have no temporary antenna product TEST PROCEDURE Test Procedure Please refer to Clause 5.3.9.2.1 TEST RESULT see the next page
Report No.: AGC04099151001EE04 Page 33 of 54
Channel
Antenna
CH Low-2402
Antenna 1
CH Low-2402
NORMAL TEMPERATURE Freq(MHz)
Level
Limit
2399.5
-55.55
-10
Antenna 1
2398.5
-62.04
-20
Channel
Antenna
Freq(MHz)
Level
Limit
CH High-2480
Antenna 1
2484
-66.96
-10
CH High-2480
Antenna 1
2485
-68.54
-20
Report No.: AGC04099151001EE04 Page 34 of 54
Channel
LOW TEMPERATURE LOW VOLTAGE Antenna Freq(MHz) Level
Limit
CH Low-2402
Antenna 1
2399.5
-50.96
-10
CH Low-2402
Antenna 1
2398.329
-63.49
-20
Channel
Antenna
Freq(MHz)
Level
Limit
CH High-2480
Antenna 1
2484.17
-67.74
-10
CH High-2480
Antenna 1
2485.34
-69.34
-20
Report No.: AGC04099151001EE04 Page 35 of 54
Channel
LOW TEMPERATURE HIGH VOLTAGE Antenna Freq(MHz) Level
Limit
CH Low-2402
Antenna 1
2399.5
-51
-10
CH Low-2402
Antenna 1
2398.328
-63.67
-20
Channel
Antenna
Freq(MHz)
Level
Limit
CH High-2480
Antenna 1
2484.174
-67.8
-10
CH High-2480
Antenna 1
2485.348
-69.28
-20
Report No.: AGC04099151001EE04 Page 36 of 54
Channel
HIGH TEMPERATURE LOW VOLTAGE Antenna Freq(MHz) Level
Limit
CH Low-2402
Antenna 1
2399.5
-51.06
-10
CH Low-2402
Antenna 1
2398.326
-63.7
-20
Channel
Antenna
Freq(MHz)
Level
Limit
CH High-2480
Antenna 1
2484.174
-67.81
-10
CH High-2480
Antenna 1
2485.348
-69.31
-20
Report No.: AGC04099151001EE04 Page 37 of 54
Channel
HIGH TEMPERATURE HIGH VOLTAGE Antenna Freq(MHz) Level
Limit
CH Low-2402
Antenna 1
2399.5
-51.08
-10
CH Low-2402
Antenna 1
2398.326
-63.65
-20
Channel
Antenna
Freq(MHz)
Level
Limit
CH High-2480
Antenna 1
2484.174
-67.83
-10
CH High-2480
Antenna 1
2485.348
-69.31
-20
Note: The modulation used during test is GFSK and this is the worst case. Conclusion: PASS
Report No.: AGC04099151001EE04 Page 38 of 54
4.7 TRANSMITTER SPURIOUS EMISSIONS Spurious emissions are emissions outside the frequency range(s) of the equipment as defined in Clause 4.3.1.9. Transmitter unwanted emissions in the spurious domain are emissions outside the allocated band and outside the out-of-band domain as indicated in figure 1 when the equipment is in Transmit mode. The spurious emissions of the transmitter shall not exceed the values in tables in the indicated bands: Frequency Range
Maximum Power
Bandwidth
e.r.p(<=1GHz)/e.i.r.p(>1GHz) 30MHZ to 47MHZ
-36dBm
100kHz
47MHZ to 74MHZ
-54dBm
100kHz
74MHZ to 87.5MHZ
-36dBm
100kHz
87.5MHZ to 118MHZ
-54dBm
100kHz
118MHZ to 174MHZ
-36dBm
100kHz
174 MHZ to 230MHZ
-54dBm
100kHz
230 MHZ to 470MHZ
-36dBm
100kHz
470 MHZ to 862MHZ
-54dBm
100kHz
862 MHZ to 1GHZ
-36dBm
100kHz
1 GHZ to 12.75GHZ
-30dBm
1MHz
Report No.: AGC04099151001EE04 Page 39 of 54
Test Configuration Below 1GHz
Antenna tower
Bi-log or Loop antenna
3m EUT 4m
Spectrum analyzer Turntable
Reference ground plane
1.5m
1m
Report No.: AGC04099151001EE04 Page 40 of 54
Above 1GHz
Antenna tower
Horn antenna
3m EUT 4m
Spectrum analyzer Turntable
1.5m
1m Pre-amp
Radiated Method
Conducted Method TEST PROCEDURE 1. Please refer to ETSI EN 300 328 (V1.8.1) clause 5.3.10.2.1 for the conducted method. 2. Please refer to ETSI EN 300 328 (V1.8.1) clause 5.3.10.2.2 for the radiated method.
Report No.: AGC04099151001EE04 Page 41 of 54
TEST SETTING The emissions over the range 30 MHz to 1 000 MHz shall be identified. Spectrum analyser settings: • Resolution bandwidth: 100 kHz • Video bandwidth: 300 kHz • Detector mode: Peak • Trace Mode: Max Hold • Sweep Points: ≥ 9 970 The emissions over the range 1 GHz to 12,75 GHz shall be identified. Spectrum analyser settings: • Resolution bandwidth: 1 MHz • Video bandwidth: 3 MHz • Detector mode: Peak • Trace Mode: Max Hold • Sweep Points: ≥ 11 750
CONDUCTED RESULTS: (Worst Case: Low channel, 1Mbps)
Report No.: AGC04099151001EE04 Page 42 of 54
Report No.: AGC04099151001EE04 Page 43 of 54
(Worst Case: High channel, 1Mbps)
Note: All the modes had been test but only the worst data record in the report. Conclusion: PASS
Report No.: AGC04099151001EE04 Page 44 of 54
4.8 RECEIVER SPURIOUS EMISSIONS TEST RESULTS FOR CONDUCTED METHOD RECEIVER MODE (Worst Case: Low channel, 1Mbps) Freq (MHz) RMS Level (dBm)
Limit (dBm)
770.586
-80.85
-57.00
Over Limit (dB) -23.85
Status
820.302
-81.06
-57.00
-24.06
Pass
837.036
-81.06
-57.00
-24.06
Pass
901.249
-80.99
-57.00
-23.99
Pass
913.994
-80.76
-57.00
-23.76
Pass
914.091
-80.74
-57.00
-23.74
Pass
1941.000
-67.04
-47.00
-20.04
Pass
1942.000
-67.15
-47.00
-20.15
Pass
1944.000
-63.46
-47.00
-16.46
Pass
5926.000
-66.96
-47.00
-19.96
Pass
6475.000
-67.11
-47.00
-20.11
Pass
12665.000
-67.04
-47.00
-20.04
Pass
Pass
Report No.: AGC04099151001EE04 Page 45 of 54
(Worst Case: High channel, 1Mbps) Freq (MHz)
RMS Level (dBm)
Limit (dBm)
Status
-57.00
Over Limit (dB) -23.61
736.047
-80.61
755.992
-80.59
-57.00
-23.59
Pass
759.203
-80.85
-57.00
-23.85
Pass
770.586
-80.85
-57.00
-23.85
Pass
811.740
-80.57
-57.00
-23.57
Pass
820.302
-81.06
-57.00
-24.06
Pass
837.036
-81.06
-57.00
-24.06
Pass
860.386
-80.65
-57.00
-23.65
Pass
901.249
-80.99
-57.00
-23.99
Pass
913.994
-80.76
-57.00
-23.76
Pass
914.091
-80.74
-57.00
-23.74
Pass
922.361
-80.58
-57.00
-23.58
Pass
1941.000
-66.53
-47.00
-19.53
Pass
1941.000
-67.04
-47.00
-20.04
Pass
1942.000
-63.57
-47.00
-16.57
Pass
1942.000
-67.15
-47.00
-20.15
Pass
1943.000
-63.21
-47.00
-16.21
Pass
1944.000
-63.46
-47.00
-16.46
Pass
1944.000
-62.80
-47.00
-15.80
Pass
5926.000
-66.96
-47.00
-19.96
Pass
5954.000
-67.00
-47.00
-20.00
Pass
6475.000
-67.11
-47.00
-20.11
Pass
11611.000
-66.03
-47.00
-19.03
Pass
12665.000
-67.04
-47.00
-20.04
Pass
Pass
Report No.: AGC04099151001EE04 Page 46 of 54
Note:
All the modes had been test but only the worst data record in the report.
Conclusion: PASS
Report No.: AGC04099151001EE04 Page 47 of 54
4.9. RECEIVER BLOCKING ETSI EN300328 SUBCLAUSE 4.3.2.10 This requirement does not apply to non-adaptive equipment or adaptive equipment operating in a non-adaptive mode. In addition, this requirement does not apply for equipment with a maximum declared RF Output power level of less than 10 dBm e.i.r.p. or for equipment when operating in a mode where the RF Output power is less than 10 dBm e.i.r.p. Adaptive Frequency Hopping equipment shall comply with the requirements defined in clauses 4.3.1.6.1 (LBT based DAA) or 4.3.1.6.2 (non-LBT based DAA) in the presence of a blocking signal with characteristics as provided in table 3.
TEST PROCEDURE 1. Please refer to ETSI EN 300 328 clause 5.3 for the test conditions. 2. Please refer to ETSI EN 300 328 clause 5.3.7.2 for the measurement methods.
TEST RESULTS N/A
Report No.: AGC04099151001EE04 Page 48 of 54
APPENDIX A PHOTOGRAPHS OF THE TEST SETUP CONDUCTED SPURIOUS EMISSION TEST
Report No.: AGC04099151001EE04 Page 49 of 54
APPENDIX B PHOTOGRAPHS OF THE EUT TOP VIEW OF EUT
BOTTOM VIEW OF EUT
Report No.: AGC04099151001EE04 Page 50 of 54
FRONT VIEW OF EUT
BACK VIEW OF EUT
Report No.: AGC04099151001EE04 Page 51 of 54
LEFT VIEW OF EUT
RIGHT VIEW OF EUT
Report No.: AGC04099151001EE04 Page 52 of 54
VIEW OF EUT (Port)
OPEN VIEW OF EUT
Report No.: AGC04099151001EE04 Page 53 of 54
INTERNAL VIEW OF EUT-1
INTERNAL VIEW OF EUT-2
Report No.: AGC04099151001EE04 Page 54 of 54
INTERNAL VIEW OF EUT-3
Antenna
----END OF REPORT----