RM100 reMarkable paper tablet Test Report WIFI 5G reMarkable AS

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Report No. : EED32J00094002
Page 1 of 53
COVER PAGE
TEST REPORT
Product Name
reMarkable paper tablet
Trade mark
Model/Type reference
RM100
Serial Number
N/A
Report Number
EED32J00094002
FCC ID
2AMK2-RM100
Date of Issue
Test Standards
Aug. 23, 2017
47 CFR Part 15 Subpart E
Test result
PASS
Prepared for:
reMarkable AS
Pilestredet 75C, 0354, Oslo, Norway
Prepared by:
Centre Testing International Group Co., Ltd.
Hongwei Industrial Zone, Bao’an 70 District,
Shenzhen, Guangdong, China
TEL: +86-755-3368 3668
FAX: +86-755-3368 3385
Tested By:
Compiled by:
Tom chen (Test Project)
Reviewed by:
Approved by:
Kevin lan (Reviewer)
Date:
Kevin yang (Project Engineer)
Aug. 23, 2017
Sheek Luo (Lab supervisor)
Check No.:2496527073
Report No. : EED32J00094002
Page 2 of 53
2 Version
Version No.
Date
Description
00
Aug. 23, 2017
Original
Report No. : EED32J00094002
Page 3 of 53
3 Test Summary
Test Item
Test Requirement
Test method
Result
Antenna Requirement
47 CFR Part 15 Subpart C
Section 15.203
ANSI C63.10-2013
PASS
47 CFR Part 15 Subpart E
Section 15.407 (b)(6)
ANSI C63.10-2013
PASS
ANSI C63.10-2013
PASS
AC Power Line Conducted
Emission
Conducted Output Power and
47 CFR Part 15 Subpart E
transmit power control
Section 15.407 (a)(1)(2)(4)(h)(1)
mechanism
Emission Bandwidth
47 CFR Part 15 Subpart E
Section 15.407 (a)(1)(2)
ANSI C63.10-2013
PASS
Peak Power Spectral Density
47 CFR Part 15 Subpart E
Section 15.407 (a)(1)(2)(5)
ANSI C63.10-2013
PASS
Frequency stability
47 CFR Part 15 Subpart E
Section 15.407 (g)
ANSI C63.10-2013
PASS
Operation in the absence of
information to the transmit
47 CFR Part 15 Subpart E
Section 15.407 (c)
47 CFR Part 15 Subpart E
PASS
Unwanted Emissions that fall
Outside of the Restricted
Bands
47 CFR Part 15 Subpart E
Section 15.407 (b)(1)(2)(3)(5)
ANSI C63.10-2013
PASS
Unwanted Emissions in the
Restricted Bands
47 CFR Part 15 Subpart E
Section 15.407 (b)(6)(7)(8)
ANSI C63.10-2013
PASS
Restricted bands around
fundamental frequency
(Radiated Emission)
47 CFR Part 15 Subpart E
Section 15.407 (b)(6)(7)(8)
ANSI C63.10-2013
PASS
Remark:
The tested sample and the sample information are provided by the client.
Tx:
In this whole report Tx (or tx) means Transmitter.
Rx:
In this whole report Rx (or rx) means Receiver.
RF:
In this whole report RF means Radiated Frequency.
CH:
In this whole report CH means channel.
Volt:
In this whole report Volt means Voltage.
Temp: In this whole report Temp means Temperature.
Humid: In this whole report Humid means humidity.
Press: In this whole report Press means Pressure.
N/A:
In this whole report not application.
Report No. : EED32J00094002
Page 4 of 53
4 Content
1 COVER PAGE......................................................................................................................................................................1
2 VERSION.............................................................................................................................................................................. 2
3 TEST SUMMARY................................................................................................................................................................ 3
4 CONTENT.............................................................................................................................................................................4
5 TEST REQUIREMENT....................................................................................................................................................... 5
5.1 TEST SETUP....................................................................................................................................................................5
5.1.1 For Conducted test setup................................................................................................................................... 5
5.1.2 For Radiated Emissions test setup................................................................................................................... 5
5.1.3 For Conducted Emissions test setup................................................................................................................6
5.2 TEST ENVIRONMENT...................................................................................................................................................... 6
5.3 TEST CONDITION............................................................................................................................................................6
6 GENERAL INFORMATION............................................................................................................................................... 7
6.1 CLIENT INFORMATION.................................................................................................................................................... 7
6.2 GENERAL DESCRIPTION OF EUT.................................................................................................................................. 7
6.3 PRODUCT SPECIFICATION SUBJECTIVE TO THIS STANDARD........................................................................................ 7
6.4 DESCRIPTION OF SUPPORT UNITS................................................................................................................................8
6.5 TEST LOCATION..............................................................................................................................................................8
6.6 DEVIATION FROM STANDARDS...................................................................................................................................... 8
6.7 ABNORMALITIES FROM STANDARD CONDITIONS.......................................................................................................... 8
6.8 OTHER INFORMATION REQUESTED BY THE CUSTOMER.............................................................................................. 8
6.9 MEASUREMENT UNCERTAINTY (95% CONFIDENCE LEVELS, K=2)..............................................................................9
7 EQUIPMENT LIST.............................................................................................................................................................10
8 RADIO TECHNICAL REQUIREMENTS SPECIFICATION........................................................................................12
Appendix
Appendix
Appendix
Appendix
Appendix
Appendix
Appendix
Appendix
Appendix
Appendix
Appendix
Appendix
A): Duty Cycle............................................................................................................................................ 13
B): Emission Bandwidth............................................................................................................................15
C): Maximum Conduct Output Power.....................................................................................................17
D): Power Spectral Density......................................................................................................................19
E): Band Edge Measurements................................................................................................................ 21
F): Frequency Stability..............................................................................................................................23
G): Antenna Requirement........................................................................................................................ 26
H): Operation in the absence of information to the transmit............................................................... 27
I): AC Power Line Conducted Emission.................................................................................................28
J): Restricted bands around fundamental frequency (Radiated Emission)......................................31
K): Unwanted Emissions in the Restricted Bands (Radiated Emission)...........................................34
L): Unwanted Emissions that fall Outside of the Restricted Bands................................................... 46
PHOTOGRAPHS OF TEST SETUP..................................................................................................................................51
PHOTOGRAPHS OF EUT CONSTRUCTIONAL DETAILS......................................................................................... 53
Report No. : EED32J00094002
Page 5 of 53
5 Test Requirement
5.1 Test setup
5.1.1 For Conducted test setup
5.1.2 For Radiated Emissions test setup
Radiated Emissions setup:
Figure 1. Below 30MHz
Figure 2. 30MHz to 1GHz
Figure 3. Above 1GHz
Report No. : EED32J00094002
Page 6 of 53
5.1.3 For Conducted Emissions test setup
Conducted Emissions setup
5.2 Test Environment
Operating Environment:
Temperature:
25C
Humidity:
52% RH
Atmospheric Pressure:
1010 mbar
5.3 Test Condition
Test channel:
RF Channel
Test Mode
Tx/Rx
802.11a
5150MHz ~5250 MHz
802.11a
5725MHz ~5850 MHz
Low(L)
Middle(M)
High(H)
Channel 36
Channel 44
Channel 48
5180MHz
5220MHz
5240MHz
Channel 149
Channel 157
Channel 165
5745MHz
5785MHz
5825MHz
Test mode:
Pre-scan under all rate at lowest channel 1
Mode
Data Rate
Power(dBm)
MCS0
12.71
Mode
Data Rate
Power(dBm)
MCS0
15.79
MCS1
12.66
802.11a for 5150MHz ~5250 MHz
MCS2
MCS3
MCS4
MCS5
12.60
12.53
12.49
12.40
MCS6
12.33
MCS7
12.29
MCS1
15.73
802.11a for 5725MHz ~5850 MHz
MCS2
MCS3
MCS4
MCS5
15.69
15.61
15.55
15.49
MCS6
15.43
MCS7
15.38
Through Pre-scan, MCS0 is the worst case of 802.11a (20M) for 5150MHz ~5250 MH; MCS0 is the worst case
of 802.11a (20M) for 5725MHz ~5850 MHz;
Report No. : EED32J00094002
Page 7 of 53
General Information
6.1 Client Information
Applicant:
reMarkable AS
Address of Applicant:
Pilestredet 75C, 0354, Oslo, Norway
Manufacturer:
reMarkable AS
Address of Manufacturer:
Factory:
Pilestredet 75C, 0354, Oslo, Norway
Dongguang Kaifa Technology Co., Ltd
Kaifa Park of CEC Industry Base, Humen town, Dongguan City, Guangdong
Province
Address of Factory:
6.2 General Description of EUT
Product Name:
reMarkable paper tablet
Model No.:
RM100
Trade Mark:
Power Supply:
Wlan 2.4GHz 802.11b/g/n(HT20): 2412MHz ~2462 MHz
5G: U-NII-1: 5.15-5.25GHz; U-NII-3: 5.725-5.850GHz;
802.11a (EUT can’t operation in 2.4 GHz and 5 GHz simultaneous, the
hardware and software limited to prevent simultaneous operation
in the 2.4 GHz and 5GHz bands)
DC5V by USB port
Battery:
DC 3.7V, 3000mAh
Sample Received Date:
May 16, 2017
Sample tested Date:
May 16, 2017 to Aug. 23, 2017
EUT Supports Radios
application:
6.3 Product Specification subjective to this standard
Type of Modulation:
IEEE 802.11a: 5150MHz ~5250 MHz
IEEE 802.11a: 5725MHz ~5850 MHz
IEEE 802.11a: 5150MHz ~5250MHz/ 4 channel
IEEE 802.11a: 5725MHz ~5850MHz/ 5 channel
OFDM (64QAM, 16QAM, QPSK, BPSK )
Sample Type:
Portable production
Test Power Grade:
a :11 (manufacturer declare )
Test Software of EUT:
Secure CRT 6.5.0 (manufacturer declare )
Antenna Type and Gain:
PIFA Antenna and 5.07dBi
Test Voltage:
DC 5V by USB port
Operation Frequency:
Channel Numbers:
Report No. : EED32J00094002
Page 8 of 53
Operation Frequency each of channel
For 802.11a Operation in the 5150MHz ~5250 MHz band
Channel
Frequency
Channel
Frequency
36
5180MHz
44
5220MHz
40
5200MHz
48
5240MHz
For 802.11a Operation in the 5725MHz ~5850 MHz band
Channel
Frequency
Channel
Frequency
149
5745MHz
162
5805MHz
153
5765MHz
165
5825MHz
157
5785MHz
NA
NA
6.4 Description of Support Units
The EUT has been tested with associated equipment below.
Test Ancillary equipment
EUT B
Adapter
Model
Type
Remark
CAA-0002016-C
---
CTI
6.5 Test Location
All tests were performed at:
Centre Testing International Group Co., Ltd.
Hongwei Industrial Zone, Bao’an 70 District, Shenzhen, Guangdong, China 518101
Telephone: +86 (0) 755 3368 3668 Fax:+86 (0) 755 3368 3385
No tests were sub-contracted.
6.6 Deviation from Standards
None.
6.7 Abnormalities from Standard Conditions
None.
6.8 Other Information Requested by the Customer
None.
Report No. : EED32J00094002
Page 9 of 53
6.9 Measurement Uncertainty (95% confidence levels, k=2)
No.
Item
Measurement Uncertainty
Radio Frequency
7.9 x 10-8
RF power, conducted
Radiated Spurious emission test
Conduction emission
Temperature test
0.64°C
Humidity test
2.8%
DC power voltages
0.025%
0.31dB (30MHz-1GHz)
0.57dB (1GHz-18GHz)
4.5dB (30MHz-1GHz)
4.8dB (1GHz-12.75GHz)
3.6dB (9kHz to 150kHz)
3.2dB (150kHz to 30MHz)
Report No. : EED32J00094002
Page 10 of 53
7 Equipment List
RF test system
Equipment
Manufacturer
Model No.
Serial
Number
Cal. Date
(mm-dd-yyyy)
Cal. Due date
(mm-dd-yyyy)
Signal Generator
Keysight
E8257D
MY53401106
03-14-2017
03-13-2018
Communication
test set test set
Agilent
N4010A
MY51400230
03-14-2017
03-13-2018
Spectrum Analyzer
Keysight
N9010A
MY54510339
03-14-2017
03-13-2018
Signal Generator
Keysight
N5182B
MY53051549
03-14-2017
03-13-2018
High-pass filter
Sinoscite
FL3CX03WG18
NM12-0398-002
---
01-11-2017
01-10-2018
High-pass filter
MICROTRONICS
SPA-F-63029-4
---
01-11-2017
01-10-2018
DC Power
Keysight
E3642A
MY54436035
03-14-2017
03-13-2018
PC-1
BT&WI-FI
Automatic control
RF control unit
Lenovo
R4960d
---
04-01-2017
03-31-2018
R&S
OSP120
101374
03-14-2017
03-13-2018
JS Tonscend
JS0806-2
158060006
03-14-2017
03-13-2018
JS Tonscend
JS1120-2
---
03-14-2017
03-13-2018
BT&WI-FI
Automatic test
software
Conducted disturbance Test
Equipment
Manufacturer
Model No.
Serial
Number
Cal. date
(mm-dd-yyyy)
Cal. Due date
(mm-dd-yyyy)
Receiver
R&S
ESCI
100009
06-14-2017
06-13-2018
Temperature/ Humidity
Indicator
TAYLOR
1451
1905
05-08-2017
05-07-2018
Communication test set
Agilent
E5515C
GB47050534
03-14-2017
03-13-2018
Communication test set
R&S
CMW500
152394
03-14-2017
03-13-2018
LISN
R&S
ENV216
100098
06-13-2017
06-12-2018
LISN
schwarzbeck
NNLK8121
8121-529
06-13-2017
06-12-2018
Voltage Probe
R&S
ESH2-Z3
--
06-13-2017
06-11-2020
Current Probe
R&S
EZ17
100106
06-13-2017
06-12-2018
ISN
TESEQ GmbH
ISN T800
30297
02-23-2017
02-22-2018
Report No. : EED32J00094002
Page 11 of 53
3M Semi/full-anechoic Chamber
Equipment
Manufacturer
Model No.
Serial
Number
Cal. date
(mm-dd-yyyy)
Cal. Due date
(mm-dd-yyyy)
3M Chamber &
Accessory Equipment
TDK
SAC-3
---
06-05-2016
06-05-2019
TRILOG Broadband
Antenna
SCHWARZBEC
VULB9163
9163-484
05-23-2017
05-22-2018
Microwave Preamplifier
Agilent
8449B
3008A02425
02-16-2017
02-15-2018
Horn Antenna
ETS-LINDGREN
3117
00057407
07-20-2015
07-18-2018
Loop Antenna
ETS
6502
00071730
06-22-2017
06-21-2019
Microwave Preamplifier
A.H.SYSTEMS
PAP-1840-60
6041.6042
06-30-2015
06-28-2018
Horn Antenna
A.H.SYSTEMS
SAS-574
374
06-30-2015
06-28-2018
Microwave Preamplifier
A.H.SYSTEMS
PAP-1840-60
6041.6042
06-30-2015
06-28-2018
Horn Antenna
A.H.SYSTEMS
SAS-574
374
06-30-2015
06-28-2018
Spectrum Analyzer
R&S
FSP40
100416
06-13-2017
06-12-2018
Receiver
R&S
ESCI
100435
06-14-2017
06-13-2018
Multi device Controller
maturo
NCD/070/10711
112
---
01-12-2017
01-11-2018
LISN
schwarzbeck
NNBM8125
81251547
06-13-2017
06-12-2018
LISN
schwarzbeck
NNBM8125
81251548
06-13-2017
06-12-2018
Signal Generator
Agilent
E4438C
MY45095744
03-14-2017
03-13-2018
Signal Generator
Keysight
E8257D
MY53401106
03-14-2017
03-13-2018
Temperature/ Humidity
Indicator
TAYLOR
1451
1905
05-08-2017
05-07-2018
Cable line
Fulai(7M)
SF106
5219/6A
01-11-2017
01-10-2018
Cable line
Fulai(6M)
SF106
5220/6A
01-11-2017
01-10-2018
Cable line
Fulai(3M)
SF106
5216/6A
01-11-2017
01-10-2018
Cable line
Fulai(3M)
SF106
5217/6A
01-11-2017
01-10-2018
High-pass filter
Sinoscite
FL3CX03WG18
NM12-0398-002
---
01-11-2017
01-10-2018
High-pass filter
MICROTRONICS
SPA-F-63029-4
---
01-11-2017
01-10-2018
band rejection filter
Sinoscite
FL5CX01CA09
CL12-0395-001
---
01-11-2017
01-10-2018
band rejection filter
Sinoscite
FL5CX01CA08
CL12-0393-001
---
01-11-2017
01-10-2018
band rejection filter
Sinoscite
FL5CX02CA04
CL12-0396-002
---
01-11-2017
01-10-2018
band rejection filter
Sinoscite
FL5CX02CA03
CL12-0394-001
---
01-11-2017
01-10-2018
Report No. : EED32J00094002
Page 12 of 53
8 Radio Technical Requirements Specification
Reference documents for testing:
No.
Identity
FCC Part15E
ANSI C63.10-2013
KDB 789033 D02 General UNII
Test Procedures New Rules v01r04
Document Title
Subpart E—Unlicensed National Information Infrastructure
Devices
American National Standard
for Testing Unlicesed Wireless
Devices
Guidelines for compliance testing of unlicensed national
information infrastructure (U-NII) device part 15 subpart E
Test Results List:
Test Requirement
Test method
Test item
Verdict
Note
Part15E Section
15.407 (a)(1)(2)
KDB789033
Emission Bandwidth and
Occupied Bandwidth
PASS
Appendix B)
Part15E Section 15.407
(a)(1)(2)(4)(h)(1)
KDB789033
Conducted Output Power
and transmit power
control mechanism
PASS
Appendix C)
KDB789033
Power Spectral Density
PASS
Appendix D)
KDB789033
Band Edge
Measurements
PASS
Appendix E)
KDB789033
Frequency stability
PASS
Appendix F)
ANSI C63.10
Antenna Requirement
PASS
Appendix G)
Section 15.407
Operation in the absence
of information to the
transmit
PASS
Appendix H)
PASS
Appendix I)
Part15E Section
15.407 (a)(1)(2)(5)
Part15E Section
15.407 (b)(1)to(6)
Part15E Section
15.407 (g)
Part15C Section
15.203
Part15E Section 15.407 (c)
Part15E Section
15.407 (b)(6)
Part15E Section
15.407 (b)(6)(7)(8)
Part15E Section
15.407 (b)(6)(7)(8)
Part15E Section
15.407 (b)(1)(2)(3)(5)
ANSI C63.10
AC Power Line
Conducted
Emission
KDB789033
Restricted bands around
fundamental frequency
(Radiated Emission)
PASS
Appendix J)
KDB789033
Unwanted Emissions in
the Restricted Bands
PASS
Appendix K)
KDB789033
Unwanted Emissions that
fall Outside of the
Restricted Bands
PASS
Appendix L)
Report No. : EED32J00094002
Page 13 of 53
Appendix A): Duty Cycle
Result Table
Test Mode
11A
11A
11A
11A
11A
11A
Antenna
Ant1
Ant1
Ant1
Ant1
Ant1
Ant1
Channel
5180
5200
5240
5745
5785
5825
Duty Cycle[%]
88.16%
89.47%
89.47%
88.16%
89.47%
88.16%
Verdict
PASS
PASS
PASS
PASS
PASS
PASS
Report No. : EED32J00094002
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Test Graph
11A-Ant1-5180
11A-Ant1-5200
11A-Ant1-5240
11A-Ant1-5745
11A-Ant1-5785
11A-Ant1-5825
Report No. : EED32J00094002
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Appendix B): Emission Bandwidth
Result Table
Test Mode
Antenna
Channel
26dB EBW[MHz]
99% OBW[MHz]
Verdict
11A
Ant1
5180
18.52
16.386
PASS
11A
Ant1
5200
18.44
16.348
PASS
11A
Ant1
5240
18.43
16.368
PASS
Test Mode
Antenna
Channel
6dB EBW[MHz]
99% OBW[MHz]
Verdict
11A
Ant1
5745
15.41
16.322
PASS
11A
Ant1
5785
16.15
16.307
PASS
11A
Ant1
5825
13.41
16.365
PASS
Report No. : EED32J00094002
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Test Graph
11A-Ant1-5180
11A-Ant1-5200
11A-Ant1-5240
11A-Ant1-5745
11A-Ant1-5785
11A-Ant1-5825
Report No. : EED32J00094002
Page 17 of 53
Appendix C): Maximum Conduct Output Power
Result Table
Test Mode
Antenna
Channel
Meas.Level [dBm]
Av.Power [dBm]
Verdict
11A
Ant1
5180
10.6
11.14
PASS
11A
Ant1
5200
11.36
11.84
PASS
11A
Ant1
5240
11.7
12.18
PASS
11A
Ant1
5745
13.68
14.22
PASS
11A
Ant1
5785
13.57
14.05
PASS
Ant1
11A
5825
14.02
14.56
PASS
Remark:
1. According KDB789033 D02, If continuous transmission cannot be achieved the 10 log (1/duty cycle) should
be add.
Av.Power=Meas.Level+10 log (1/duty cycle)
E.i.r.p=Av.Power+G, G = antenna gain in dBi.
2. Duty Cycle value in report Appendix A, Meas.Level value in report Appendix C,
For band 1, MCS0 mode, 802.11a channel 36:5180MHz, Duty Cycle value is 88.16%=0.8816, Meas.Level
value is 10.6dBm, Av.Power=10.6+10 log (1/0.8816) =11.14dBm. E.i.r.p=11.14+5.07=16.21dBm.
Report No. : EED32J00094002
Page 18 of 53
Test Graph
11A-Ant1-5180
11A-Ant1-5200
11A-Ant1-5240
11A-Ant1-5745
11A-Ant1-5785
11A-Ant1-5825
Report No. : EED32J00094002
Page 19 of 53
Appendix D): Power Spectral Density
Result Table
Test Mode
Antenna
Channel
Meas.Level [dBm]
PSD [dBm/MHz]
Verdict
11A
Ant1
5180
4.57
5.11
PASS
11A
Ant1
5200
4.90
5.38
PASS
11A
Ant1
5240
5.65
6.13
PASS
Test Mode
Antenna
Channel
Meas.Level [dBm]
PSD [dBm/500kHz]
Verdict
11A
Ant1
5745
4.95
5.49
PASS
11A
Ant1
5785
4.53
5.01
PASS
Ant1
11A
5825
5.50
6.04
PASS
Remark:
1. According KDB789033 D02, If continuous transmission cannot be achieved the 10 log (1/duty cycle) should
be add.
PSD=Meas.Level+10 log (1/duty cycle)
E.i.r.p spectral density=PSD+G, G = antenna gain in dBi.
2. Duty Cycle value in report Appendix A, Meas.Level value in report Appendix D,
For band 1, MCS0 mode, 802.11a channel 36:5180MHz, Duty Cycle value is 88.16%=0.8816, Meas.Level
value is 4.57 in report Appendix D, PSD=4.57+10 log (1/0.8816) =5.11.
E.i.r.p spectral density=5.11+5.07=10.18.
Report No. : EED32J00094002
Page 20 of 53
Test Graph
11A-Ant1-5180
11A-Ant1-5200
11A-Ant1-5240
11A-Ant1-5745
11A-Ant1-5785
11A-Ant1-5825
Report No. : EED32J00094002
Page 21 of 53
Appendix E): Band Edge Measurements
Result Table
Test Mode
Antenna
Channel
Max.Level [dBm]
Verdict
11A
Ant1
5180
-46.35
PASS
11A
Ant1
5240
-46.87
PASS
Test Mode
Antenna
Channel
11A
Ant1
5745
Test Mode
Antenna
Channel
11A
Ant1
5825
Max.Level [dBm]
Below 5715
5715-5725
-47.133
-42.932
Max.Level [dBm]
5850-5860
Above 5860
-45.165
-43.177
Verdict
PASS
Verdict
PASS
Report No. : EED32J00094002
Page 22 of 53
Test Graph
11A-Ant1-5180
11A-Ant1-5240
11A-Ant1-5745
11A-Ant1-5825
Report No. : EED32J00094002
Page 23 of 53
Appendix F): Frequency Stability
Frequency Error vs. Voltage:
Test Mode
11A
11A
11A
11A
11A
11A
Antenna
Ant1
Ant1
Ant1
Ant1
Ant1
Ant1
Channel
5180
5200
5240
5745
5785
5825
Temp.
Volt.
TN
VL
TN
Freq.Error(MHz)
Freq.vs.rated(ppm)
Verdict
5179.955
-8.687259
PASS
VN
5180.075
14.478764
PASS
TN
VH
5179.94
-11.583012
PASS
TN
VL
5199.985
-2.884615
PASS
TN
VN
5199.985
-2.884615
PASS
TN
VH
5200.06
11.538462
PASS
TN
VL
5239.985
-2.862595
PASS
TN
VN
5239.985
-2.862595
PASS
TN
VH
5239.94
-11.450382
PASS
TN
VL
5745.015
2.610966
PASS
TN
VN
5745
PASS
TN
VH
5745
PASS
TN
VL
5784.955
-7.778738
PASS
TN
VN
5785.03
5.185825
PASS
TN
VH
5784.985
-2.592913
PASS
TN
VL
5824.94
-10.300429
PASS
TN
VN
5825.015
2.575107
PASS
TN
VH
5824.94
-10.300429
PASS
Report No. : EED32J00094002
Page 24 of 53
Frequency Error vs. Temperature:
Test
Mode
11A
11A
11A
11A
Antenna
Ant1
Ant1
Ant1
Ant1
Channel
5180
5200
5240
Temp.
Volt.
50
VN
40
Freq.vs.rated(ppm)
Verdict
5179.985
-2.895753
PASS
VN
5180.03
5.791506
PASS
30
VN
5179.985
-2.895753
PASS
20
VN
5180
PASS
10
VN
5180
PASS
VN
5179.94
-11.583012
PASS
-10
VN
5180.06
11.583012
PASS
-20
VN
5179.985
-2.895753
PASS
-30
VN
5179.955
-8.687259
PASS
50
VN
5200.03
5.769231
PASS
40
VN
5200
PASS
30
VN
5200.06
11.538462
PASS
20
VN
5199.97
-5.769231
PASS
10
VN
5199.985
-2.884615
PASS
VN
5200.015
2.884615
PASS
-10
VN
5199.97
-5.769231
PASS
-20
VN
5199.97
-5.769231
PASS
-30
VN
5199.94
-11.538462
PASS
50
VN
5239.955
-8.587786
PASS
40
VN
5240
PASS
30
VN
5240.03
5.725191
PASS
20
VN
5239.97
-5.725191
PASS
10
VN
5240.045
8.587786
PASS
VN
5239.94
-11.450382
PASS
-10
VN
5240.03
5.725191
PASS
-20
VN
5239.97
-5.725191
PASS
-30
VN
5240.045
8.587786
PASS
50
VN
5744.94
-10.443864
PASS
40
VN
5744.97
-5.221932
PASS
30
VN
5745.03
5.221932
PASS
20
VN
5744.955
-7.832898
PASS
5745
Freq.Error(MHz)
Report No. : EED32J00094002
11A
11A
Ant1
Ant1
5785
5825
Page 25 of 53
10
VN
5745.03
5.221932
PASS
VN
5745
PASS
-10
VN
5744.985
-2.610966
PASS
-20
VN
5745.045
7.832898
PASS
-30
VN
5745.06
10.443864
PASS
50
VN
5785.045
7.778738
PASS
40
VN
5784.94
-10.371651
PASS
30
VN
5784.955
-7.778738
PASS
20
VN
5785.015
2.592913
PASS
10
VN
5784.94
-10.371651
PASS
VN
5785.03
5.185825
PASS
-10
VN
5785
PASS
-20
VN
5784.97
-5.185825
PASS
-30
VN
5784.955
-7.778738
PASS
50
VN
5825.045
7.725322
PASS
40
VN
5825
PASS
30
VN
5825.045
7.725322
PASS
20
VN
5825
PASS
10
VN
5825.045
7.725322
PASS
VN
5825
PASS
-10
VN
5824.985
-2.575107
PASS
-20
VN
5824.985
-2.575107
PASS
-30
VN
5824.985
-2.575107
PASS
Report No. : EED32J00094002
Page 26 of 53
Appendix G): Antenna Requirement
15.203 requirement:
An intentional radiator shall be designed to ensure that no antenna other than that furnished by the
responsible party shall be used with the device. The use of a permanently attached antenna or of an antenna
that uses a unique coupling to the intentional radiator, the manufacturer may design the unit so that a broken
antenna can be replaced by the user, but the use of a standard antenna jack or electrical connector is
prohibited.
15.407(a)(1) (2) requirement:
The conducted output power limit specified in paragraph (a) of this section is based on the use of antennas
with directional gains that do not exceed 6 dBi. Except as shown in paragraph (a) of this section, if
transmitting antennas of directional gain greater than 6 dBi are used, the conducted output power and the
peak power spectral density shall be reduced by the by the amount in dB that the directional gain of the
antenna exceeds 6 dBi.
EUT Antenna:
The antenna is integrated on the main PCB and no consideration of replacement. The best case gain of the
WIFI antenna is 5.07dBi.
Report No. : EED32J00094002
Page 27 of 53
Appendix H): Operation in the absence of information to the transmit
15.407(c) requirement:
The device shall automatically discontinue transmission in case of either absence of information to transmit or
operational failure. These provisions are not intended to preclude the transmission of control or signal ling
information or the use of repetitive codes used by certain digital technologies to complete frame or burst
intervals. Applicants shall include in their application for equipment authorization a description of how this
requirement is met.
Operation in the absence of information to the transmit
While the EUT is not transmitting any information, the EUT can automatically discontinue
transmission and become standby mode for power saving. The EUT can detect the controlling
signal of ASK message transmitting from remote device and verify whether it shall resend or
discontinue transmission. (manufacturer declare )
Report No. : EED32J00094002
Page 28 of 53
Appendix I): AC Power Line Conducted Emission
Test Procedure:
Test frequency range :150KHz-30MHz
1)The mains terminal disturbance voltage test was conducted in a shielded room.
2) The EUT was connected to AC power source through a LISN 1 (Line Impedance
Stabilization Network) which provides a 50Ω/50µH + 5Ω linear impedance. The
power cables of all other units of the EUT were connected to a second LISN 2,
which was bonded to the ground reference plane in the same way as the LISN 1
for the unit being measured. A multiple socket outlet strip was used to connect
multiple power cables to a single LISN provided the rating of the LISN was not
exceeded.
3)The tabletop EUT was placed upon a non-metallic table 0.8m above the ground
reference plane. And for floor-standing arrangement, the EUT was placed on the
horizontal ground reference plane,
4) The test was performed with a vertical ground reference plane. The rear of the
EUT shall be 0.4 m from the vertical ground reference plane. The vertical ground
reference plane was bonded to the horizontal ground reference plane. The LISN
1 was placed 0.8 m from the boundary of the unit under test and bonded to a
ground reference plane for LISNs mounted on top of the ground reference
plane. This distance was between the closest points of the LISN 1 and the EUT.
All other units of the EUT and associated equipment was at least 0.8 m from the
LISN 2.
5) In order to find the maximum emission, the relative positions of equipment and
all of the interface cables must be changed according to ANSI C63.10 on
conducted measurement.
Limit:
Frequency range (MHz)
Limit (dBµV)
Quasi-peak
Average
0.15-0.5
66 to 56*
56 to 46*
0.5-5
56
46
5-30
60
50
* The limit decreases linearly with the logarithm of the frequency in the range 0.15
MHz to 0.50 MHz.
NOTE : The lower limit is applicable at the transition frequency
Measurement Data
An initial pre-scan was performed on the live and neutral lines with peak detector.
Quasi-Peak and Average measurement were performed at the frequencies with maximized peak emission were
detected.
Report No. : EED32J00094002
Live line:
Page 29 of 53
Report No. : EED32J00094002
Neutral line:
Notes:
1. The following Quasi-Peak and Average measurements were performed on the EUT:
2. Final Test Level =Receiver Reading + LISN Factor + Cable Loss.
Page 30 of 53
Report No. : EED32J00094002
Page 31 of 53
Appendix J): Restricted bands around fundamental frequency
(Radiated Emission)
Receiver Setup:
Frequency
Detector
RBW
VBW
Remark
30MHz-1GHz
Quasi-peak
120kHz
300kHz
Quasi-peak
Peak
1MHz
3MHz
Peak
Above 1GHz
Test Procedure:
Limit:
Peak
1MHz
10Hz
Average
Below 1GHz test procedure as below:
a. The EUT was placed on the top of a rotating table 0.8 meters above the ground
at a 3 meter semi-anechoic camber. The table was rotated 360 degrees to
determine the position of the highest radiation.
b. The EUT was set 3 meters away from the interference-receiving antenna, which
was mounted on the top of a variable-height antenna tower.
c. The antenna height is varied from one meter to four meters above the ground to
determine the maximum value of the field strength. Both horizontal and vertical
polarizations of the antenna are set to make the measurement.
d. For each suspected emission, the EUT was arranged to its worst case and then
the antenna was tuned to heights from 1 meter to 4 meters and the rotatable
was turned from 0 degrees to 360 degrees to find the maximum reading.
e. The test-receiver system was set to Peak Detect Function and Specified
Bandwidth with Maximum Hold Mode.
f. Place a marker at the end of the restricted band closest to the transmit
frequency to show compliance. Also measure any emissions in the restricted
bands. Save the spectrum analyzer plot. Repeat for each power and modulation
for lowest and highest channel
Above 1GHz test procedure as below:
g. Different between above is the test site, change from Semi- Anechoic Chamber
to fully Anechoic Chamber and change form table 0.8 metre to 1.5
metre( Above 18GHz the distance is 1 meter and table is 1.5 metre).
h. Test the EUT in the lowest channel , the Highest channel
i. The radiation measurements are performed in X, Y, Z axis positioning for
Transmitting mode, and found the X axis positioning which it is worse case.
j. Repeat above procedures until all frequencies measured was complete.
Frequency
Limit (dBµV/m @3cm)
Remark
30MHz-88MHz
40.0
Quasi-peak Value
88MHz-216MHz
43.5
Quasi-peak Value
216MHz-960MHz
46.0
Quasi-peak Value
960MHz-1GHz
54.0
Quasi-peak Value
54.0
Average Value
74.0
Peak Value
Above 1GHz
Report No. : EED32J00094002
Page 32 of 53
Test plot as follows:
For 802.11a Operation in the 5150MHz ~5250 MHz band
Worse case mode:
802.11a (MCS0)
Frequency: 5180MHz
Test channel: 36 channel
Polarization: Horizontal
Remark: Peak
Report No. : EED32J00094002
Worse case mode:
802.11a (MCS0)
Frequency: 5180MHz
Test channel: 36 channel
Page 33 of 53
Polarization: Vertical
Remark: Peak
Note:
1) Through Pre-scan transmitting mode with all kind of modulation and data rate, find the MCS0 is the worst
case of 802.11a; and then Only the worst case is recorded in the report.
2) The field strength is calculated by adding the Antenna Factor, Cable Factor & Preamplifier. The basic
equation with a sample calculation is as follows:
Final Test Level =Receiver Reading - Correct Factor
Correct Factor = Preamplifier Factor– Antenna Factor–Cable Factor
Report No. : EED32J00094002
Page 34 of 53
Appendix K): Unwanted Emissions in the Restricted Bands (Radiated
Emission)
Receiver Setup:
Frequency
Detector
RBW
VBW
Remark
0.009MHz-0.090MHz
Peak
10kHz
30kHz
Peak
0.009MHz-0.090MHz
Average
10kHz
30kHz
Average
0.090MHz-0.110MHz
Quasi-peak
10kHz
30kHz
Quasi-peak
0.110MHz-0.490MHz
Peak
10kHz
30kHz
Peak
0.110MHz-0.490MHz
Average
10kHz
30kHz
Average
0.490MHz -30MHz
Quasi-peak
10kHz
30kHz
Quasi-peak
30MHz-1GHz
Quasi-peak
120kHz
300kHz
Quasi-peak
Peak
1MHz
3MHz
Peak
Peak
1MHz
10Hz
Average
Above 1GHz
Test Procedure:
Below 1GHz test procedure as below:
a. The EUT was placed on the top of a rotating table 0.8 meters above the ground at a 3 meter semi-anechoic
camber. The table was rotated 360 degrees to determine the position of the highest radiation.
b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a
variable-height antenna tower.
c. The antenna height is varied from one meter to four meters above the ground to determine the maximum value
of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement.
d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to
heights from 1 meter to 4 meters (for the test frequency of below 30MHz, the antenna was tuned to heights 1
meter) and the rota table was turned from 0 degrees to 360 degrees to find the maximum reading.
e. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode.
f. If the emission level of the EUT in peak mode was 10dB lower than the limit specified, then testing could be
stopped and the peak values of the EUT would be reported. Otherwise the emissions that did not have 10dB
margin would be re-tested one by one using peak, quasi-peak or average method as specified and then reported
in a data sheet.
Above 1GHz test procedure as below:
g. Different between above is the test site, change from Semi- Anechoic Chamber to fully Anechoic Chamber and
change form table 0.8 metre to 1.5 metre( Above 18GHz the distance is 1 meter and table is 1.5 metre)
h. Test the EUT in the lowest channel ,the middle channel ,the Highest channel
i. The radiation measurements are performed in X, Y, Z axis positioning for Transmitting mode, and found the X
axis positioning which it is worse case.
j. Repeat above procedures until all frequencies measured was complete.
Limit:
Field strength
Limit
Measurement
Frequency
Remark
(microvolt/meter) (dBµV/cm)
distance (cm)
Test result:
0.009MHz-0.490MHz
2400/F(kHz)
0.490MHz-1.705MHz
24000/F(kHz)
1.705MHz-30MHz
30
30MHz-88MHz
100
40.0
Quasi-peak
88MHz-216MHz
150
43.5
Quasi-peak
216MHz-960MHz
200
46.0
Quasi-peak
960MHz-1GHz
500
54.0
Quasi-peak
Above 1GHz
500
54.0
Average
Note: 15.35(b), Unless otherwise specified, the limit on peak radio frequency
emissions is 20dB above the maximum permitted average emission limit
applicable to the equipment under test. This peak limit applies to the total
peak emission level radiated by the device.
PASS
300
30
30
Report No. : EED32J00094002
Page 35 of 53
Radiated Spurious Emissions test Data:
Radiated Emission below 1GHz
30MHz~1GHz (QP)
Worse case mode:802.11a(MCS0)
Test Frequency: 5180MHz
Transmitting
Horizontal
Report No. : EED32J00094002
Worse case mode:802.11a(MCS0)
Page 36 of 53
Test Frequency: 5180MHz
Transmitting
Vertical
Report No. : EED32J00094002
Page 37 of 53
30MHz~1GHz (QP)
Worse case mode:802.11a(MCS0)
Test Frequency: 5745MHz
Transmitting
Horizontal
Report No. : EED32J00094002
Worse case mode:802.11a(MCS0)
Page 38 of 53
Test Frequency: 5745MHz
Transmitting
Vertical
Report No. : EED32J00094002
Page 39 of 53
Transmitter Emission 1GHz-18GHz
802.11a for 5150MHz ~5250 MHz, 5725MHz ~5850MHz
Test mode: 802.11a(MCS0)
Test Frequency: 5180MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1308.399
30.48
2.64
44.23
49.88
38.77
74.00
-35.23
Pass
Horizontal
1872.381
31.51
3.14
43.61
50.15
41.19
74.00
-32.81
Pass
Horizontal
2428.671
32.61
4.37
44.07
50.35
43.26
74.00
-30.74
Pass
Horizontal
3252.005
33.38
5.57
44.67
50.51
44.79
74.00
-29.21
Pass
Horizontal
10360.000
38.67
7.45
45.24
46.63
47.51
74.00
-26.49
Pass
Horizontal
15540.000
40.92
9.35
44.75
44.28
49.80
74.00
-24.20
Pass
Horizontal
1370.328
30.61
2.70
44.15
49.50
38.66
74.00
-35.34
Pass
Vertical
1916.180
31.58
3.17
43.57
49.70
40.88
74.00
-33.12
Pass
Vertical
2718.469
33.14
5.04
44.41
48.44
42.21
74.00
-31.79
Pass
Vertical
3214.623
33.41
5.58
44.68
49.69
44.00
74.00
-30.00
Pass
Vertical
10360.000
38.67
7.45
45.24
44.80
45.68
74.00
-28.32
Pass
Vertical
15540.000
40.92
9.35
44.75
44.56
50.08
74.00
-23.92
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5220MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1431.047
30.73
2.76
44.08
49.85
39.26
74.00
-34.74
Pass
Horizontal
1938.463
31.61
3.19
43.55
50.52
41.77
74.00
-32.23
Pass
Horizontal
2782.060
33.25
5.18
44.48
48.67
42.62
74.00
-31.38
Pass
Horizontal
3252.005
33.38
5.57
44.67
50.46
44.74
74.00
-29.26
Pass
Horizontal
10440.000
38.75
7.46
45.18
47.91
48.94
74.00
-25.06
Pass
Horizontal
15660.000
40.97
9.35
44.77
43.75
49.30
74.00
-24.70
Pass
Horizontal
1435.189
30.74
2.77
44.07
48.67
38.11
74.00
-35.89
Pass
Vertical
2442.751
32.64
4.41
44.09
48.93
41.89
74.00
-32.11
Pass
Vertical
3280.326
33.35
5.56
44.67
49.76
44.00
74.00
-30.00
Pass
Vertical
7497.646
36.45
6.93
45.01
48.84
47.21
74.00
-26.79
Pass
Vertical
10440.000
38.75
7.46
45.18
45.86
46.89
74.00
-27.11
Pass
Vertical
15660.000
40.97
9.35
44.77
44.29
49.84
74.00
-24.16
Pass
Vertical
Report No. : EED32J00094002
Test mode: 802.11a(MCS0)
Page 40 of 53
Test Frequency: 5240MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1447.688
30.77
2.78
44.06
49.44
38.93
74.00
-35.07
Pass
Horizontal
1888.687
31.53
3.15
43.60
49.84
40.92
74.00
-33.08
Pass
Horizontal
2710.622
33.12
5.02
44.40
48.94
42.68
74.00
-31.32
Pass
Horizontal
3223.928
33.40
5.57
44.67
49.36
43.66
74.00
-30.34
Pass
Horizontal
10480.000
38.79
7.46
45.16
46.21
47.30
74.00
-26.70
Pass
Horizontal
15720.000
40.99
9.35
44.77
43.84
49.41
74.00
-24.59
Pass
Horizontal
1346.769
30.56
2.68
44.18
48.94
38.00
74.00
-36.00
Pass
Vertical
1883.236
31.53
3.15
43.60
49.78
40.86
74.00
-33.14
Pass
Vertical
2471.157
32.69
4.48
44.13
48.96
42.00
74.00
-32.00
Pass
Vertical
3214.623
33.41
5.58
44.68
49.89
44.20
74.00
-29.80
Pass
Vertical
10480.000
38.79
7.46
45.16
46.03
47.12
74.00
-26.88
Pass
Vertical
15720.000
40.99
9.35
44.77
43.49
49.06
74.00
-24.94
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5745MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1366.374
30.60
2.70
44.16
49.82
38.96
74.00
-35.04
Pass
Horizontal
2144.825
32.03
3.64
43.71
49.11
41.07
74.00
-32.93
Pass
Horizontal
2442.751
32.64
4.41
44.09
49.50
42.46
74.00
-31.54
Pass
Horizontal
3252.005
33.38
5.57
44.67
49.38
43.66
74.00
-30.34
Pass
Horizontal
11490.000
39.45
8.02
44.85
46.25
48.87
74.00
-25.13
Pass
Horizontal
17235.000
41.44
9.98
45.35
44.59
50.66
74.00
-23.34
Pass
Horizontal
1354.577
30.58
2.68
44.17
49.71
38.80
74.00
-35.20
Pass
Vertical
2182.346
32.11
3.74
43.76
49.49
41.58
74.00
-32.42
Pass
Vertical
3357.061
33.29
5.55
44.66
49.84
44.02
74.00
-29.98
Pass
Vertical
8764.146
37.04
8.05
45.63
49.67
49.13
74.00
-24.87
Pass
Vertical
11490.000
39.45
8.02
44.85
44.85
47.47
74.00
-26.53
Pass
Vertical
17235.000
41.44
9.98
45.35
42.56
48.63
74.00
-25.37
Pass
Vertical
Report No. : EED32J00094002
Test mode: 802.11a(MCS0)
Page 41 of 53
Test Frequency: 5785MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1323.614
30.51
2.65
44.21
48.51
37.46
74.00
-36.54
Pass
Horizontal
1905.135
31.56
3.16
43.58
49.07
40.21
74.00
-33.79
Pass
Horizontal
2428.671
32.61
4.37
44.07
49.29
42.20
74.00
-31.80
Pass
Horizontal
3168.500
33.45
5.59
44.68
50.02
44.38
74.00
-29.62
Pass
Horizontal
11570.000
39.47
8.10
44.86
45.77
48.48
74.00
-25.52
Pass
Horizontal
17355.000
41.52
10.07
45.37
42.12
48.34
74.00
-25.66
Pass
Horizontal
1315.985
30.49
2.64
44.22
49.53
38.44
74.00
-35.56
Pass
Vertical
2188.663
32.12
3.76
43.77
50.59
42.70
74.00
-31.30
Pass
Vertical
2521.664
32.79
4.60
44.19
48.74
41.94
74.00
-32.06
Pass
Vertical
8688.480
36.99
7.98
45.61
48.60
47.96
74.00
-26.04
Pass
Vertical
11570.000
39.47
8.10
44.86
45.81
48.52
74.00
-25.48
Pass
Vertical
17355.000
41.52
10.07
45.37
42.73
48.95
74.00
-25.05
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5825MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1362.430
30.59
2.69
44.16
49.20
38.32
74.00
-35.68
Pass
Horizontal
2456.913
32.66
4.44
44.11
50.44
43.43
74.00
-30.57
Pass
Horizontal
3261.418
33.37
5.57
44.67
50.24
44.51
74.00
-29.49
Pass
Horizontal
4354.454
33.68
5.29
44.60
49.43
43.80
74.00
-30.20
Pass
Horizontal
11650.000
39.50
8.18
44.87
46.01
48.82
74.00
-25.18
Pass
Horizontal
17475.000
41.59
10.16
45.40
42.75
49.10
74.00
-24.90
Pass
Horizontal
1370.328
30.61
2.70
44.15
49.22
38.38
74.00
-35.62
Pass
Vertical
2182.346
32.11
3.74
43.76
49.22
41.31
74.00
-32.69
Pass
Vertical
2750.080
33.19
5.11
44.44
48.79
42.65
74.00
-31.35
Pass
Vertical
3242.619
33.38
5.57
44.67
49.57
43.85
74.00
-30.15
Pass
Vertical
11650.000
39.50
8.18
44.87
45.34
48.15
74.00
-25.85
Pass
Vertical
17475.000
41.59
10.16
45.40
42.96
49.31
74.00
-24.69
Pass
Vertical
Report No. : EED32J00094002
Page 42 of 53
Transmitter Emission 18GHz-40GHz
802.11a for 5150MHz ~5250 MHz, 5725MHz ~5850MHz
Test mode: 802.11a(MCS0)
Test Frequency: 5180MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
18539.740
40.24
60.55
62.35
42.04
74.00
-31.96
Pass
Horizontal
20720.000
40.18
62.04
60.55
38.69
74.00
-35.31
Pass
Horizontal
22982.090
40.39
57.85
52.99
35.53
74.00
-38.47
Pass
Horizontal
25782.610
40.30
57.44
53.14
36.00
74.00
-38.00
Pass
Horizontal
26940.160
40.49
56.71
52.64
36.42
74.00
-37.58
Pass
Horizontal
28625.700
40.39
55.14
48.74
33.99
74.00
-40.01
Pass
Horizontal
18569.370
40.23
60.67
63.96
43.52
74.00
-30.48
Pass
Vertical
20720.000
40.18
62.04
61.18
39.32
74.00
-34.68
Pass
Vertical
22799.300
40.34
58.16
54.60
36.78
74.00
-37.22
Pass
Vertical
24892.480
40.33
57.70
53.54
36.17
74.00
-37.83
Pass
Vertical
26875.700
40.48
56.76
53.56
37.28
74.00
-36.72
Pass
Vertical
28534.410
40.43
55.22
50.28
35.49
74.00
-38.51
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5220MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
18584.210
40.22
60.73
62.59
42.08
74.00
-31.92
Pass
Horizontal
20880.000
40.14
62.16
56.70
34.68
74.00
-39.32
Pass
Horizontal
22690.330
40.31
58.35
53.27
35.23
74.00
-38.77
Pass
Horizontal
24615.760
40.41
57.69
51.53
34.25
74.00
-39.75
Pass
Horizontal
26875.700
40.48
56.76
53.08
36.80
74.00
-37.20
Pass
Horizontal
31228.840
40.45
51.71
47.75
36.49
74.00
-37.51
Pass
Horizontal
20016.830
40.39
61.53
61.84
40.70
74.00
-33.30
Pass
Vertical
20880.000
40.14
62.16
56.67
34.65
74.00
-39.35
Pass
Vertical
23765.920
40.55
57.70
51.78
34.63
74.00
-39.37
Pass
Vertical
26854.250
40.47
56.77
52.34
36.04
74.00
-37.96
Pass
Vertical
27992.780
40.70
55.70
49.48
34.48
74.00
-39.52
Pass
Vertical
30102.570
40.31
53.17
46.67
33.81
74.00
-40.19
Pass
Vertical
Report No. : EED32J00094002
Test mode: 802.11a(MCS0)
Page 43 of 53
Test Frequency: 5240MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
18733.200
40.18
61.34
63.21
42.05
74.00
-31.95
Pass
Horizontal
20960.000
40.11
62.21
54.76
32.66
74.00
-41.34
Pass
Horizontal
22313.020
40.20
59.01
54.84
36.03
74.00
-37.97
Pass
Horizontal
26897.170
40.48
56.74
52.22
35.96
74.00
-38.04
Pass
Horizontal
27970.430
40.69
55.72
50.51
35.48
74.00
-38.52
Pass
Horizontal
32216.670
40.60
49.77
45.69
36.52
74.00
-37.48
Pass
Horizontal
18703.300
40.19
61.22
62.91
41.88
74.00
-32.12
Pass
Vertical
20016.830
40.39
61.53
63.44
42.30
74.00
-31.70
Pass
Vertical
20960.000
40.11
62.21
56.38
34.28
74.00
-39.72
Pass
Vertical
23727.990
40.55
57.70
51.87
34.72
74.00
-39.28
Pass
Vertical
26897.170
40.48
56.74
51.86
35.60
74.00
-38.40
Pass
Vertical
31278.750
40.46
51.61
45.80
34.65
74.00
-39.35
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5745MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
18703.300
40.19
61.22
63.39
42.36
74.00
-31.64
Pass
Horizontal
21116.890
40.10
61.92
60.25
38.43
74.00
-35.57
Pass
Horizontal
22980.000
40.39
57.85
50.82
33.36
74.00
-40.64
Pass
Horizontal
26471.030
40.40
57.04
51.77
35.13
74.00
-38.87
Pass
Horizontal
29767.930
40.28
53.63
47.16
33.81
74.00
-40.19
Pass
Horizontal
34424.210
40.66
47.83
47.44
40.27
74.00
-33.73
Pass
Horizontal
18763.140
40.17
61.46
62.64
41.35
74.00
-32.65
Pass
Vertical
20258.020
40.32
61.71
59.68
38.29
74.00
-35.71
Pass
Vertical
22980.000
40.39
57.85
52.24
34.78
74.00
-39.22
Pass
Vertical
26918.660
40.48
56.73
51.48
35.23
74.00
-38.77
Pass
Vertical
29744.170
40.27
53.67
47.52
34.12
74.00
-39.88
Pass
Vertical
32319.730
40.60
49.62
45.20
36.18
74.00
-37.82
Pass
Vertical
Report No. : EED32J00094002
Test mode: 802.11a(MCS0)
Page 44 of 53
Test Frequency: 5785MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
18688.370
40.19
61.16
63.05
42.08
74.00
-31.92
Pass
Horizontal
21116.890
40.10
61.92
58.85
37.03
74.00
-36.97
Pass
Horizontal
23140.000
40.43
57.80
49.73
32.36
74.00
-41.64
Pass
Horizontal
26897.170
40.48
56.74
53.91
37.65
74.00
-36.35
Pass
Horizontal
31253.790
40.45
51.66
47.17
35.96
74.00
-38.04
Pass
Horizontal
34396.730
40.66
47.85
47.47
40.28
74.00
-33.72
Pass
Horizontal
18451.130
40.26
60.18
61.79
41.87
74.00
-32.13
Pass
Vertical
20000.850
40.40
61.52
62.13
41.01
74.00
-32.99
Pass
Vertical
23140.000
40.43
57.80
50.44
33.07
74.00
-40.93
Pass
Vertical
25823.820
40.30
57.43
51.69
34.56
74.00
-39.44
Pass
Vertical
28015.140
40.69
55.68
49.73
34.74
74.00
-39.26
Pass
Vertical
30368.150
40.34
52.88
46.34
33.80
74.00
-40.20
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5825MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
19434.090
40.23
62.02
62.33
40.54
74.00
-33.46
Pass
Horizontal
20782.330
40.16
62.09
60.41
38.48
74.00
-35.52
Pass
Horizontal
23300.000
40.46
57.77
52.35
35.04
74.00
-38.96
Pass
Horizontal
25762.030
40.30
57.45
53.10
35.95
74.00
-38.05
Pass
Horizontal
27549.280
40.61
56.13
50.19
34.67
74.00
-39.33
Pass
Horizontal
31179.010
40.44
51.82
46.25
34.87
74.00
-39.13
Pass
Horizontal
20032.820
40.39
61.54
62.07
40.92
74.00
-33.08
Pass
Vertical
23300.000
40.46
57.77
51.01
33.70
74.00
-40.30
Pass
Vertical
26897.170
40.48
56.74
52.36
36.10
74.00
-37.90
Pass
Vertical
31253.790
40.45
51.66
45.77
34.56
74.00
-39.44
Pass
Vertical
34451.710
40.65
47.80
47.39
40.24
74.00
-33.76
Pass
Vertical
37285.730
41.00
46.76
47.98
42.22
74.00
-31.78
Pass
Vertical
Report No. : EED32J00094002
Page 45 of 53
Note:
1) Through Pre-scan transmitting mode with all kind of modulation and data rate, find the MCS0 is the worst
case of 802.11a and then Only the worst case is recorded in the report.
2) The field strength is calculated by adding the Antenna Factor, Cable Factor & Preamplifier. The basic
equation with a sample calculation is as follows:
Final Test Level =Receiver Reading - Correct Factor
Correct Factor = Preamplifier Factor– Antenna Factor–Cable Factor
3) Scan from 9kHz to 40GHz, the disturbance below 30MHz was very low, and the above harmonics were the
highest point could be found when testing, so only the above harmonics had been displayed. The amplitude of
spurious emissions from the radiator which are attenuated more than 20dB below the limit need not be reported.
Report No. : EED32J00094002
Page 46 of 53
Appendix L): Unwanted Emissions that fall Outside of the Restricted
Bands
Receiver Setup:
Frequency
Detector
RBW
VBW
Remark
Above 1GHz
Peak
1MHz
3MHz
Peak
Test Procedure:
a) The EUT was placed on the top of a rotating table 1.5 meters above the ground at a 3 meter semi-anechoic
camber. The table was rotated 360 degrees to determine the position of the highest radiation.
b)The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a
variable-height antenna tower.
c) The antenna height is varied from one meter to four meters above the ground to determine the maximum
value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the
measurement.
d) For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to
heights from 1 meter to 4 meters and the rotatable table was turned from 0 degrees to 360 degrees to find
the maximum reading.
e) The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold
Mode.
f) Place a marker at the end of the restricted band closest to the transmit frequency to show compliance. Also
measure any emissions in the restricted bands. Save the spectrum analyzer plot. Repeat for each power and
modulation for lowest and highest channel
j) Test the EUT in the lowest channel or/and the middle channel ,the Highest channel
h) The radiation measurements are performed in X, Y, Z axis positioning for Transmitting mode, and found the
X axis positioning which it is worse case.
i) Repeat above procedures until all frequencies measured was complete.
Limit:
Transmitter
Measurement
Limit
Operation
Limit (EIRP)
(dBµV/m)@3m distance (cm)
Frequency(MHz)
5150-5350
-27dBm/MHz
68.2dBuV/m
5470-5725
-27dBm/MHz
68.2dBuV/m
5725-5850
Below
5725MHz
-27dBm/MHz
68.2dBuV/m
57255735MHz
-17dBm/MHz
78.2dBuV/m
58405850MHz
-17dBm/MHz
78.2dBuV/m
Above
5850MHz
-27dBm/MHz
68.2dBuV/m
Note:
(i) EIRP = ((E*d)^2) / 30
where:
• E is the field strength in V/m;
• d is the measurement distance in meters;
Test result:
• EIRP is the equivalent isotropically radiated power in watts.
(ii) Working in dB units, the above equation is equivalent to:
EIRP[dBm] = E[dBμV/m] + 20 log(d[meters]) - 104.77
(iii) Or, if d is 3 meters:
EIRP[dBm] = E[dBμV/m] - 95.2
PASS
Report No. : EED32J00094002
Page 47 of 53
Test Data:
802.11a for 5150MHz ~5250 MHz, 5725MHz ~5850MHz
Test mode: 802.11a(MCS0)
Test Frequency: 5180MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1179.100
30.18
2.49
44.41
48.99
37.25
68.20
-30.95
Pass
Horizontal
1639.274
31.13
2.95
43.84
49.21
39.45
68.20
-28.75
Pass
Horizontal
2687.220
33.08
4.97
44.37
49.17
42.85
68.20
-25.35
Pass
Horizontal
8106.200
36.58
7.46
45.43
48.98
47.59
68.20
-20.61
Pass
Horizontal
10636.850
38.95
7.48
45.05
47.92
49.30
68.20
-18.90
Pass
Horizontal
15577.900
40.93
9.35
44.76
45.51
51.03
68.20
-17.17
Pass
Horizontal
1162.182
30.13
2.47
44.44
49.34
37.50
68.20
-30.70
Pass
Vertical
1672.779
31.18
2.98
43.81
48.74
39.09
68.20
-29.11
Pass
Vertical
3768.513
32.97
5.48
44.62
50.01
43.84
68.20
-24.36
Pass
Vertical
6756.708
36.29
6.69
44.58
48.50
46.90
68.20
-21.30
Pass
Vertical
9205.540
37.44
8.07
45.66
48.56
48.41
68.20
-19.79
Pass
Vertical
11837.450
39.55
8.36
44.88
46.21
49.24
68.20
-18.96
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5220MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1252.885
30.35
2.58
44.31
49.07
37.69
68.20
-30.51
Pass
Horizontal
2449.822
32.65
4.43
44.10
49.15
42.13
68.20
-26.07
Pass
Horizontal
3768.513
32.97
5.48
44.62
49.41
43.24
68.20
-24.96
Pass
Horizontal
6470.026
36.14
6.96
44.55
48.72
47.27
68.20
-20.93
Pass
Horizontal
8613.468
36.94
7.92
45.59
49.02
48.29
68.20
-19.91
Pass
Horizontal
12079.390
39.58
8.51
44.88
46.71
49.92
68.20
-18.28
Pass
Horizontal
1249.269
30.34
2.57
44.31
48.43
37.03
68.20
-31.17
Pass
Vertical
1829.582
31.44
3.11
43.65
47.46
38.36
68.20
-29.84
Pass
Vertical
2947.623
33.52
5.52
44.65
47.33
41.72
68.20
-26.48
Pass
Vertical
6679.040
36.25
6.76
44.57
47.93
46.37
68.20
-21.83
Pass
Vertical
9475.497
37.74
7.84
45.60
47.10
47.08
68.20
-21.12
Pass
Vertical
11172.560
39.35
7.70
44.82
47.21
49.44
68.20
-18.76
Pass
Vertical
Report No. : EED32J00094002
Test mode: 802.11a(MCS0)
Page 48 of 53
Test Frequency: 5240MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1109.660
30.00
2.41
44.52
49.16
37.05
68.20
-31.15
Pass
Horizontal
2393.824
32.54
4.29
44.03
48.49
41.29
68.20
-26.91
Pass
Horizontal
4354.454
33.68
5.29
44.60
50.10
44.47
68.20
-23.73
Pass
Horizontal
8082.804
36.56
7.44
45.43
48.71
47.28
68.20
-20.92
Pass
Horizontal
11871.710
39.56
8.40
44.89
46.81
49.88
68.20
-18.32
Pass
Horizontal
13797.090
39.62
8.63
44.76
46.87
50.36
68.20
-17.84
Pass
Horizontal
1100.079
29.98
2.39
44.53
49.27
37.11
68.20
-31.09
Pass
Vertical
1583.392
31.03
2.90
43.90
49.26
39.29
68.20
-28.91
Pass
Vertical
2194.998
32.14
3.78
43.78
49.02
41.16
68.20
-27.04
Pass
Vertical
3790.361
32.95
5.47
44.62
49.27
43.07
68.20
-25.13
Pass
Vertical
6583.209
36.20
6.85
44.56
49.48
47.97
68.20
-20.23
Pass
Vertical
8514.456
36.87
7.83
45.56
49.10
48.24
68.20
-19.96
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5745MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1569.721
31.00
2.89
43.92
49.35
39.32
68.20
-28.88
Pass
Horizontal
2774.030
33.23
5.16
44.47
48.74
42.66
68.20
-25.54
Pass
Horizontal
3757.637
32.97
5.48
44.62
49.65
43.48
68.20
-24.72
Pass
Horizontal
8995.123
37.20
8.25
45.70
48.36
48.11
68.20
-20.09
Pass
Horizontal
13173.560
39.37
8.46
44.64
47.48
50.67
68.20
-17.53
Pass
Horizontal
15443.410
40.88
9.36
44.75
44.95
50.44
68.20
-17.76
Pass
Horizontal
1556.169
30.98
2.88
43.93
48.89
38.82
68.20
-29.38
Pass
Vertical
2407.703
32.57
4.32
44.05
49.22
42.06
68.20
-26.14
Pass
Vertical
3801.333
32.94
5.47
44.62
49.45
43.24
68.20
-24.96
Pass
Vertical
4859.975
34.81
5.09
44.60
49.68
44.98
68.20
-23.22
Pass
Vertical
7541.114
36.46
6.97
45.05
48.53
46.91
68.20
-21.29
Pass
Vertical
9781.603
38.07
7.59
45.54
48.35
48.47
68.20
-19.73
Pass
Vertical
Report No. : EED32J00094002
Page 49 of 53
Test mode: 802.11a(MCS0)
Test Frequency: 5785MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1129.072
30.05
2.43
44.49
48.74
36.73
68.20
-31.47
Pass
Horizontal
1658.337
31.16
2.97
43.82
49.05
39.36
68.20
-28.84
Pass
Horizontal
2718.469
33.14
5.04
44.41
48.24
42.01
68.20
-26.19
Pass
Horizontal
3790.361
32.95
5.47
44.62
50.23
44.03
68.20
-24.17
Pass
Horizontal
8248.005
36.68
7.59
45.48
49.18
47.97
68.20
-20.23
Pass
Horizontal
11076.100
39.32
7.60
44.81
47.17
49.28
68.20
-18.92
Pass
Horizontal
1777.458
31.36
3.06
43.70
49.16
39.88
68.20
-28.32
Pass
Vertical
3233.260
33.39
5.57
44.67
49.75
44.04
68.20
-24.16
Pass
Vertical
4341.886
33.65
5.29
44.60
50.17
44.51
68.20
-23.69
Pass
Vertical
7454.429
36.45
6.89
44.98
48.96
47.32
68.20
-20.88
Pass
Vertical
9781.603
38.07
7.59
45.54
48.42
48.54
68.20
-19.66
Pass
Vertical
13757.270
39.61
8.62
44.75
46.42
49.90
68.20
-18.30
Pass
Vertical
Test mode: 802.11a(MCS0)
Test Frequency: 5825MHz
Remark: Peak
Frequency
(MHz)
Antenna
Factor
(dB/m)
Cable
Loss
(dB)
Preamp
Gain
(dB)
Read
Level
(dBµV)
Final test
level
(dBµV/m)
Limit
(dBµV/m)
Over
Limit
(dB)
Result
Antenna
Polaxis
1762.112
31.33
3.05
43.72
48.92
39.58
68.20
-28.62
Pass
Horizontal
2990.531
33.59
5.60
44.69
48.83
43.33
68.20
-24.87
Pass
Horizontal
3801.333
32.94
5.47
44.62
49.35
43.14
68.20
-25.06
Pass
Horizontal
8514.456
36.87
7.83
45.56
48.74
47.88
68.20
-20.32
Pass
Horizontal
13097.620
39.34
8.44
44.62
46.35
49.51
68.20
-18.69
Pass
Horizontal
15443.410
40.88
9.36
44.75
44.90
50.39
68.20
-17.81
Pass
Horizontal
1520.598
30.91
2.85
43.97
49.30
39.09
68.20
-29.11
Pass
Vertical
2492.677
32.73
4.53
44.15
48.49
41.60
68.20
-26.60
Pass
Vertical
3757.637
32.97
5.48
44.62
49.86
43.69
68.20
-24.51
Pass
Vertical
4354.454
33.68
5.29
44.60
49.32
43.69
68.20
-24.51
Pass
Vertical
8082.804
36.56
7.44
45.43
49.14
47.71
68.20
-20.49
Pass
Vertical
10363.710
38.67
7.45
45.24
47.61
48.49
68.20
-19.71
Pass
Vertical
Report No. : EED32J00094002
Page 50 of 53
Note:
1) The field strength is calculated by adding the Antenna Factor, Cable Factor & Preamplifier. The basic
equation with a sample calculation is as follows:
Final Test Level =Receiver Reading - Correct Factor
Correct Factor = Preamplifier Factor– Antenna Factor–Cable Factor
2) Through Pre-scan transmitting mode with all kind of modulation and data rate, find the MCS0 is the worst
case of 802.11a and then Only the worst case is recorded in the report.
3) Scan from 9kHz to 40GHz, the disturbance below 30MHz was very low, and the above harmonics were the
highest point could be found when testing, so only the above harmonics had been displayed. The amplitude of
spurious emissions from the radiator which are attenuated more than 20dB below the limit need not be reported.
Report No. : EED32J00094002
Page 51 of 53
PHOTOGRAPHS OF TEST SETUP
Test Model No.: RM100
Radiated spurious emission Test Setup-1(Below 30MHz)
Radiated spurious emission Test Setup-2(30MHz-1GHz)
Report No. : EED32J00094002
Page 52 of 53
Radiated spurious emission Test Setup-3(Above 1GHz)
Conducted Emissions Test Setup
Report No. : EED32J00094002
Page 53 of 53
PHOTOGRAPHS OF EUT Constructional Details
Refer to Report No.EED32J00094001 for EUT external and internal photos.
*** End of Report ***
The test report is effective only with both signature and specialized stamp, The result(s) shown in this
report refer only to the sample(s) tested. Without written approval of CTI, this report can’t be reproduced
except in full.
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