GSZ1 GameSir Gaming Keypad Test Report FCC PART BT4.0-15.249 Guangzhou Chicken Run Network Technology Co.,Ltd.

Guangzhou Chicken Run Network Technology Co.,Ltd. GameSir Gaming Keypad

Page 1 of GSZ1 GameSir Gaming Keypad Test Report FCC PART BT4.0-15.249 Guangzhou Chicken Run Network Technology Co.,Ltd.
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Page 1 of 33Report No.: HK1810251369-E
FCC TEST REPORT
Test report
On Behalf of
GuangZhou Chicken Run Network Technology Co,Ltd.
For
GameSir Gaming Keypad
Model No.: GameSir-Z1,GameSir-Z1s
FCC ID: 2AF9S-GSZ1
Prepared for :
GuangZhou Chicken Run Network Technology Co,Ltd.
301A-1,NO.68-1,Huacui Street,Jianye Road,Tianhe District,
GuangZhouChina
Prepared By :
Shenzhen HUAK Testing Technology Co., Ltd.
1F, B2 Building, Junfeng Zhongcheng Zhizao Innovation Park, Fuhai Street,
Bao'an District, Shenzhen City, China
Date of Test:
Oct. 12, 2018 ~ Oct. 25, 2018
Date of Report:
Oct. 25, 2018
Report Number:
HK1810251369-E
Page 2 of 33Report No.: HK1810251369-E
TEST RESULT CERTIFICATION
Applicant’s name ...................: GuangZhou Chicken Run Network Technology Co,Ltd.
Address.....................................:
301A-1,NO.68-1,Huacui Street,Jianye Road,Tianhe District,
GuangZhouChina
Manufacture's Name..............: WUHU DELUX MOBILE INTERNET DEVICE CO., LTD
Address.....................................: WUHU MACHINERY INDUSTRIAL PARK ANHUI,CHINA
Product description
GAMESIR
Trade Mark:
Product name ...........................: GameSir Gaming Keypad
Model and/or type reference .: GameSir-Z1,GameSir-Z1s
Standards ................................:
FCC Rules and Regulations Part 15 Subpart C Section 15.249
ANSI C63.10: 2013
This publication may be reproduced in whole or in part for non-commercial purposes as long as
the Shenzhen HUAK Testing Technology Co., Ltd. is acknowledged as copyright owner and source
of the material. Shenzhen HUAK Testing Technology Co., Ltd. takes no responsibility for and will
not assume liability for damages resulting from the reader's interpretation of the reproduced
material due to its placement and context.
Date of Test............................................. :
Date (s) of performance of tests ............. :
Oct. 12, 2018 ~ Oct. 25, 2018
Date of Issue ........................................... :
Oct. 25, 2018
Test Result ............................................... :
Pass
Testing Engineer
(Gary Qian)
Technical Manager
(Eden Hu)
Authorized Signatory :
(Jason Zhou)
Page 3 of 33Report No.: HK1810251369-E
Table of Contents
Page
1 . TEST SUMMARY
2 . GENERAL INFORMATION
3.
2.1 GENERAL DESCRIPTION OF EUT
2.2 Carrier Frequency of Channels
2.3 Operation of EUT during testing
2.4DESCRIPTION OF TEST SETUP
2.5MEASUREMENT INSTRUMENTS LIST
CONDUCTED EMISSIONS TEST
3.1 Conducted Power Line Emission Limit
3.2 Test Setup
3.3 Test Procedure
3.4 Test Result
4 RADIATED EMISSION TEST
11
4.1 Radiation Limit
11
4.2 Test Setup
11
4.3 Test Procedure
12
4.4 Test Result
12
5 BAND EDGE
18
5.1 Limits
18
5.2 Test Procedure
18
5.3 Test Result
18
6 OCCUPIED BANDWIDTH MEASUREMENT
20
6.1 Test Setup
20
6.2 Test Procedure
20
6.3 Measurement Equipment Used
20
6.4 Test Result
20
7 ANTENNA REQUIREMENT
22
8 PHOTOGRAPH OF TEST
23
Conducted Emission
23
Radiated Emission
24
Page 4 of 33Report No.: HK1810251369-E
1. TEST SUMMARY
1.1TEST PROCEDURES AND RESULTS
DESCRIPTION OF TEST
CONDUCTED EMISSIONS TEST
RADIATED EMISSION TEST
BAND EDGE
OCCUPIED BANDWIDTH MEASUREMENT
ANTENNA REQUIREMENT
RESULT
COMPLIANT
COMPLIANT
COMPLIANT
COMPLIANT
COMPLIANT
1.2 TEST FACILITY
Test Firm
Address
: Shenzhen HUAK Testing Technology Co., Ltd.
1F, B2 Building, Junfeng Zhongcheng Zhizao Innovation Park, Fuhai
Street, Bao'an District, Shenzhen City, China
1.3 MEASUREMENT UNCERTAINTY
Measurement Uncertainty
Conducted Emission Expanded Uncertainty
Radiated emission expanded uncertainty(9kHz-30MHz)
Radiated emission expanded uncertainty(30MHz-1000MHz)
Radiated emission expanded uncertainty(Above 1GHz)
2.23dB, k=2
3.08dB, k=2
4.42dB, k=2
4.06dB, k=2
Page 5 of 33Report No.: HK1810251369-E
2. GENERAL INFORMATION
2.1GENERAL DESCRIPTION OF EUT
Equipment
GameSir Gaming Keypad
Model Name
GameSir-Z1
Serial No.
GameSir-Z1s
Trade Mark
GAMESIR
Model Difference
All model’s the function, software and electric circuit are
the same, only with a product color and model named
different. Test sample model: GameSir-Z1.
FCC ID
2AF9S-GSZ1
Antenna Type
PCB Antenna
Antenna Gain
0dBi
BT Operation frequency
2402-2480MHz
Number of Channels
40CH
Modulation Type
GFSK
PowerSource
Power Rating
DC3.7V From Battery or DC 5V from adapter with
AC 120V/60Hz
DC3.7V From Battery or DC 5V from adapter with
AC 120V/60Hz
Page 6 of 33Report No.: HK1810251369-E
2.2 Carrier Frequency of Channels
Channel List
Channel
01
02
03
04
05
06
07
08
09
10
Frequency
(MHz)
Channel
Frequency
(MHz)
Channel
Frequency
(MHz)
Channel
Frequency
(MHz)
11
12
13
14
15
16
17
18
19
20
2422
2424
2426
2428
2430
2432
2434
2436
2438
2440
21
22
23
24
25
26
27
28
29
30
2442
2444
2446
2448
2450
2452
2454
2456
2458
2460
31
32
33
34
35
36
37
38
39
40
2462
2464
2466
2468
2470
2472
2474
2476
2478
2480
2402
2404
2406
2408
2410
2412
2414
2416
2418
2420
2.3 Operation of EUT during testing
Operating Mode
The mode is used: Transmitting mode
Low Channel: 2402MHz
Middle Channel: 2440MHz
High Channel: 2480MHz
2.4DESCRIPTION OF TEST SETUP
Operation of EUT during Conducted testing:
AC 120V/60Hz
Laptop
EUT
Operation of EUT duringRadiation and Above1GHz Radiation testing:
EUT
●Adapter information
Model: HW-051000CHQ
Input: 100-240V~, 50/60Hz, 0.5A
Output: 5VDC, 1A
●Laptop information
Model:HP109
Input:DC 24V, 2A
Page 7 of 33Report No.: HK1810251369-E
2.5MEASUREMENT INSTRUMENTS LIST
Item
Equipment
Last Cal.
Cal.
Manufacturer
Model No.
Serial No.
R&S
ENV216
HKE-002
Dec. 28, 2017 1 Year
R&S
ESCI 7
HKE-010
Dec. 28, 2017 1 Year
Tonscend
JS0806-2
HKE-060
Dec. 28, 2017 1 Year
Interval
L.I.S.N.
1.
Artificial Mains
Network
2.
3.
Receiver
RF automatic
control unit
4.
Spectrum analyzer
R&S
FSP40
HKE-025
Dec. 28, 2017 1 Year
5.
Spectrum analyzer
Agilent
N9020A
HKE-048
Dec. 28, 2017 1 Year
6.
Preamplifier
Schwarzbeck
BBV 9743
HKE-006
Dec. 28, 2017 1 Year
7.
EMI Test Receiver
Rohde & Schwarz
ESCI 7
HKE-010
Dec. 28, 2017 1 Year
Schwarzbeck
VULB9163
HKE-012
Dec. 28, 2017 1 Year
HKE-014
Dec. 28, 2017 1 Year
HKE-013
Dec. 28, 2017 1 Year
HKE-015
Dec. 28, 2017 1 Year
HKE-016
Dec. 28, 2017 1 Year
HKE-083
Dec. 28, 2017
8.
Bilog Broadband
Antenna
9.
Loop Antenna
Schwarzbeck
10.
Horn Antenna
Schewarzbeck
11.
Pre-amplifier
EMCI
12.
Pre-amplifier
Agilent
13.
EMI Test Software
EZ-EMC
Tonscend
FMZB 1519
9120D
EMC051845
SE
83051A
JS1120-B
Version
N/A
14.
Power Sensor
Agilent
E9300A
HKE-086
Dec. 28, 2017 1 Year
15.
Spectrum analyzer
Agilent
N9020A
HKE-048
Dec. 28, 2017 1 Year
16.
Signal generator
Agilent
N5182A
HKE-029
Dec. 28, 2017 1 Year
17.
Signal Generator
Agilent
83630A
HKE-028
Dec. 28, 2017 1 Year
18.
Shielded room
Shiel Hong
4*3*3
HKE-039
Dec. 28, 2017 3 Year
Page 8 of 33Report No.: HK1810251369-E
3. CONDUCTED EMISSIONS TEST
3.1 Conducted Power Line Emission Limit
For unintentional device, according to § 15.107(a) Line Conducted Emission Limits is as following
* Decreasing linearly with the logarithm of the frequency
For intentional device, according to §15.207(a) Line Conducted Emission Limit is same as above table.
3.2 Test Setup
3.3 Test Procedure
1, The equipment was set up as per the test configuration to simulate typical actual usage per the
user’smanual. The EUT is a tabletop system, a wooden table with a height of 0.8 meters is used and is
placed onthe ground plane as per ANSI C63.10.
2, Support equipment, if needed, was placed as per ANSI C63.10.
3, All I/O cables were positioned to simulate typical actual usage as per ANSI C63.10.
4,If a EUT received DC power from the USB Port of Notebook PC, the PC’s adapter received
AC120V/60Hzpower through a Line Impedance Stabilization Network (LISN) which supplied power
source and wasgrounded to the ground plane.
5, All support equipments received AC power from a second LISN, if any.
6, The EUT test program was started. Emissions were measured on each current carrying line of the
EUTusing a spectrum Analyzer / Receiver connected to the LISN powering the EUT. The LISN has
twomonitoring points: Line 1 (Hot Side) and Line 2 (Neutral Side). Two scans were taken: one with Line
1connected to Analyzer / Receiver and Line 2 connected to a 50 ohm load; the second scan had Line
1connected to a 50 ohm load and Line 2 connected to the Analyzer / Receiver.
7, Analyzer / Receiver scanned from 150 KHz to 30MHz for emissions in each of the test modes.
3.4 Test Result
Pass
Page 9 of 33Report No.: HK1810251369-E
Test Specification: Line
Remark: Transd = Cable lose + Antenna factor - Pre-amplifier; Margin = Limit – Level
Page 10 of 33Report No.: HK1810251369-E
Test Specification: Neutral
Remark: Transd = Cable lose + Antenna factor - Pre-amplifier; Margin = Limit – Level
Page 11 of 33Report No.: HK1810251369-E
4 RADIATED EMISSION TEST
4.1 Radiation Limit
For unintentional device, according to § 15.109(a), except for Class A digital devices, the field strength
ofradiated emissions from unintentional radiators at a distance of 3 meters shall not exceed the
followingvalues:
Frequency
(MHz)
30-88
88-216
216-960
Above 960
Distance
(Meters)
Radiated
(dBμV/m)
40
43.5
46
54
Radiated
(μV/m)
100
150
200
500
For intentional device, according to § 15.209(a), the general requirement of field strength of
radiatedemissions from intentional radiators at a distance of 3 meters shall not exceed the above table.
4.2 Test Setup
(1)Radiated Emission Test-Up Frequency Below 30MHz
(2)Radiated Emission Test-Up Frequency 30MHz~1GHz
Page 12 of 33Report No.: HK1810251369-E
(3)Radiated Emission Test-Up Frequency Above 1GHz
4.3 Test Procedure
1. Below 1GHz measurement the EUT is placed on turntable which is 0.8m above ground plane.
And above 1GHz measurement EUT was placed on low permittivity and low tangent turn table
which is 1.5m above ground plane.
2. The turntable shall be rotated for 360 degrees to determine the position of maximum emission level.
3. EUT is set 3m away from the receiving antenna, which is varied from 1m to 4m to find out the
highestemissions.
4. Maximum procedure was performed on the six highest emissions to ensure EUT compliance.
5. And also, each emission was to be maximized by changing the polarization of receiving antenna
bothhorizontal and vertical.
6. Repeat above procedures until the measurements for all frequencies are complete.
7. The test frequency range from 9KHz to25GHz per FCC PART 15.33(a).
Note:
For battery operated equipment, the equipment tests shall be performed using a new battery.
4.4 Test Result
PASS
All the test modes completed for test. The worst case of Radiated Emission
is CH 2402; the test data of this mode was reported.
Page 13 of 33Report No.: HK1810251369-E
Below 1GHz Test Results:
Antenna polarity: H
Remark: Transd = Cable lose + Antenna factor - Pre-amplifier; Margin = Limit – Level
Page 14 of 33Report No.: HK1810251369-E
Antenna polarity: V
Remark: Transd = Cable lose + Antenna factor - Pre-amplifier; Margin = Limit – Level
Remark:
(1) Measuring frequencies from 9 KHz to the 1 GHz, Radiated emission test from 9KHz to 30MHzwas verified,
and no any emission was found except system noise floor.
(2) * denotes emission frequency which appearing within the Restricted Bands specified in
provision of 15.205, then the general radiated emission limits in 15.209 apply.
(3) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz
for measuring above 1 GHz, below 30MHz was 10KHz.
Page 15 of 33Report No.: HK1810251369-E
Above 1 GHz Test Results:
CH Low (2402MHz)
Horizontal:
Frequency
Meter Reading
Factor
E mis sion Level
Limits
Margin
(MHz)
(dB μV)
(dB)
(dBμV/m)
(dBμV/m)
(dB )
Detector
Type
2402
109.32
-5.84
103.48
114
-10.52
peak
2402
85.43
-5.84
79.59
94
-14.41
AV G
4804
59.61
-3.64
55.97
74
-18.03
peak
4804
48.32
-3.64
44.68
54
-9.32
AV G
7206
57.91
-0.95
56.96
74
-17.04
peak
7206
41.24
-0.95
40.29
54
-13.71
AV G
Remark : Fac tor = A ntenna Factor + Cable Loss – Pre-amplifier.
Vertical:
Frequency
Meter Reading
Factor
Emission Level
Limits
Margin
(MHz)
(dBμV)
(dB)
(dBμV/m)
(dBμV/m)
(dB)
Detector
Type
2402
108.46
-5.84
102.62
114
-11.38
peak
2402
84.32
-5.84
78.48
94
-15.52
AVG
4804
59.18
-3.64
55.54
74
-18.46
peak
4804
41.65
-3.64
38.01
54
-15.99
AVG
7206
53.12
-0.95
52.17
74
-21.83
peak
7206
39.75
-0.95
38.8
54
-15.2
AVG
Remark: Factor = Antenna Factor + Cable Loss – Pre-amplifier.
Page 16 of 33Report No.: HK1810251369-E
CH Middle (2440MHz)
Horizontal:
Frequency
Meter Reading
Factor
E mis sion Level
Limits
Margin
(MHz)
(dB μV)
(dB)
(dBμV/m)
(dBμV/m)
(dB )
Detector
Type
2440
108.93
-5.71
103.22
114
-10.78
peak
2440
83.16
-5.71
77.45
94
-16.55
AV G
4880
58.46
-3.51
54.95
74
-19.05
peak
4880
45.72
-3.51
42.21
54
-11.79
AV G
7320
58.37
-0.82
57.55
74
-16.45
peak
7320
39.78
-0.82
38.96
54
-15.04
AV G
Remark : Fac tor = A ntenna Factor + Cable Loss – Pre-amplifier.
Vertical:
Frequency
Meter Reading
Factor
E mis sion Level
Limits
Margin
(MHz)
(dB μV)
(dB)
(dBμV/m)
(dBμV/m)
(dB )
Detector
Type
2440
110.35
-5.71
104.64
114
-9.36
peak
2440
86.34
-5.71
80.63
94
-13.37
AV G
4880
58.76
-3.51
55.25
74
-18.75
peak
4880
43.26
-3.51
39.75
54
-14.25
AV G
7320
57.34
-0.82
56.52
74
-17.48
peak
7320
40.19
-0.82
39.37
54
-14.63
AV G
Remark : Fac tor = A ntenna Factor + Cable Loss – Pre-amplifier.
Page 17 of 33Report No.: HK1810251369-E
CH High (2480MHz)
Horizontal:
Frequency
Meter Reading
Factor
Emission Level
Limits
Margin
(MHz)
(dBμV)
(dB)
(dBμV/m)
(dBμV/m)
(dB)
Detector
Type
2480
111.28
-5.65
105.63
114
-8.37
peak
2480
86.19
-5.65
80.54
94
-13.46
AVG
4960
57.31
-3.43
53.88
74
-20.12
peak
4960
45.17
-3.43
41.74
54
-12.26
AVG
7440
59.31
-0.75
58.56
74
-15.44
peak
7440
40.86
-0.75
40.11
54
-13.89
AVG
Remark: Factor = Antenna Factor + Cable Loss – Pre-amplifier.
Vertical:
Frequency
Meter Reading
Factor
E mis sion Level
Limits
Margin
(MHz)
(dB μV)
(dB)
(dBμV/m)
(dBμV/m)
(dB )
Detector
Type
2480
110.23
-5.65
104.58
114
-9.42
peak
2480
86.41
-5.65
80.76
94
-13.24
AV G
4960
58.34
-3.43
54.91
74
-19.09
peak
4960
43.19
-3.43
39.76
54
-14.24
AV G
7440
56.75
-0.75
56
74
-18
peak
7440
40.12
-0.75
39.37
54
-14.63
AV G
Remark : Fac tor = A ntenna Factor + Cable Loss – Pre-amplifier.
Remark:
(1) Measuring frequencies from 1 GHz to the 25 GHz。
(2) “F” denotes fundamental frequency; “H” denotes spurious frequency. “E” denotes band edge
frequency.
(3) * denotes emission frequency which appearing within the Restricted Bands specified in
provision of 15.205, then the general radiated emission limits in 15.209 apply.
(4) Data of measurement within this frequency range shown “--- ” in the table above means the
reading of emissions are attenuated more than 20dB below the permissible limits or the field
strength is too small to be measured.
(5) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for
measuring above 1 GHz, below 30MHz was 10KHz.The resolution bandwidth of test
receiver/spectrum analyzer is 1MHzand video bandwidth is 3MHz for peak measurement with
peak detectorat frequency above 1GHz.The resolution bandwidth of test receiver/spectrum
analyzer is 1MHzand video bandwidth is 10Hz for Average measurement with peak
detection at frequency above 1GHz.
(6) When the test results of Peak Detected below the limits of Average Detected, the Average
Detected is not need completed. For example: Top Channel at Fundamental 73.16dBuV/m(PK
Value) <93.98(AV Limit), at harmonic 53.20 dBuV/m(PK Value) <54 dBuV/m(AV Limit), the
Average Detected not need to completed.
(7)All modes of operation were investigated and the worst-case emissions are reported.
Page 18 of 33Report No.: HK1810251369-E
5 BAND EDGE
5.1 Limits
FCC PART 15.249(d) Emissions radiated outside of the specified frequency bands, except for
harmonics,shall be attenuated by at least 50 dB below the level of the fundamental or to the general
radiated emissionlimits in §15.209, whichever is the lesser attenuation.
5.2 Test Procedure
The band edge compliance of RF radiated emission should be measured by following the guidance
in ANSIC63.10 with respect to maximizing the emission by rotating the EUT, measuring the emission
while the EUT issituated in three orthogonal planes (if appropriate), adjusting the measurement antenna
height andpolarization etc. Set RBW to 100KHz and VBM to 300KHz to measure the peak field strength
and setRBW to 1MHz and VBW to 10Hz to measure the average radiated field strength.The conducted
RF band edge was measured by using a spectrum analyzer. Set span wide enough to capture
the highest in-band emission and the emission at the band edge. Set RBW to 100 KHz and VBW to
300 KHz,to measure the conducted peak band edge.
5.3 Test Result
PASS
Radiated Band Edge Test:
Operation Mode: TX CH Low (2402MHz)
Horizontal (Worst case)
F re qu e nc y
M ete r
R e ad ing
F a c to r
Em i s s i on Le v el
Li m it s
M a rgi n
(M H z)
(d Bμ V)
( dB )
( dB μV/ m )
( dB μV /m )
(dB )
D e te c to r
Ty pe
2 3 1 0 .0 0
5 3 .9 4
-5 . 8 1
4 8 .1 3
74
- 25 . 8 7
pe ak
2 3 1 0 .0 0
-5 . 8 1
54
AV G
2 3 9 0 .0 0
5 2 .1 8
-5 . 8 4
4 6 .3 4
74
- 27 . 6 6
pe ak
2 3 9 0 .0 0
-5 . 8 4
54
AV G
2 4 0 0 .0 0
5 5 .1 7
-5 . 9 5
4 9 .2 2
74
- 24 . 7 8
pe ak
2 4 0 0 .0 0
-5 . 9 5
54
AV G
R em a rk : F a c t o r = A nte nn a F ac t or + C ab le L o s s – P re -a m pli fi e r.
Vertical:
Fa c to r
Em issi on Le v el
Lim its
M a rgin
(MH z)
M ete r
Re ad ing
(d Bμ V)
( dB )
( dB μV/m)
( dB μV/m )
(dB )
De te cto r
Ty pe
2 3 10 .0 0
5 4 .6 2
-5 .8 1
4 8 .8 1
74
- 25 .1 9
pe ak
2 3 10 .0 0
-5 .8 1
54
2 3 90 .0 0
5 3 .1 9
-5 .8 4
4 7 .3 5
74
- 26 .6 5
pe ak
2 3 90 .0 0
-5 .8 4
54
AVG
2 4 00 .0 0
5 4 .5 6
-5 .9 5
4 8 .6 1
74
- 25 .3 9
pe ak
2 4 00 .0 0
-5 .9 5
54
AVG
Fre qu e ncy
R em a rk: Fa cto r = Ante nn a F ac tor + C ab le L o ss – P re -a m pli fi e r.
AVG
Page 19 of 33Report No.: HK1810251369-E
Operation Mode: TX CH High (2480MHz)
Horizontal (Worst case)
Frequency
Meter Reading
Factor
Emission Level
Limits
Margin
(MHz)
(dBμV)
(dB)
(dBμV/m)
(dBμV/m)
(dB)
2483.50
55.92
-5.81
50.11
74
-23.89
peak
2483.50
-5.81
54
AVG
2500.00
53.47
-6.06
47.41
74
-26.59
peak
2500.00
-6.06
54
AVG
Detector
Type
Detector
Type
Remark: Factor = Antenna Factor + Cable Loss – Pre-amplifier.
Vertical:
Frequency
Meter Reading
Factor
Emission Level
Limits
Margin
(MHz)
(dBμV)
(dB)
(dBμV/m)
(dBμV/m)
(dB)
2483.50
55.34
-5.81
49.53
74
-24.47
peak
2483.50
-5.81
54
AVG
2500.00
53.67
-6.06
47.61
74
-26.39
peak
2500.00
-6.06
54
AVG
Remark: Factor = Antenna Factor + Cable Loss – Pre-amplifier.
Remark: All the other emissions not reported were too low to read and deemed to comply with FCC limit.
Page 20 of 33Report No.: HK1810251369-E
6 OCCUPIED BANDWIDTH MEASUREMENT
6.1 Test Setup
Same asRadiated Emission Measurement
6.2 Test Procedure
1. The EUT was placed on a turn table which is 0.8m above ground plane.
2. Set EUT as normal operation.
3. Based on ANSI C63.10 section 6.9.2: RBW= 30KHz. VBW= 100 KHz, Span=4MHz.
4. The useful radiated emission from the EUT was detected by the spectrum analyser with peak detector.
6.3 Measurement Equipment Used
Same asRadiated Emission Measurement
6.4 Test Result
PASS
Frequency
20dB Bandwidth
(MHz)
Result
2402 MHz
1.127
PASS
2440 MHz
1.128
PASS
2480 MHz
1.130
PASS
CH: 2402MHz
Page 21 of 33Report No.: HK1810251369-E
CH: 2440MHz
CH: 2480MHz
Page 22 of 33Report No.: HK1810251369-E
7 ANTENNA REQUIREMENT
Standard Applicable
For intentional device, according to FCC 47 CFR Section 15.203, an intentional radiator shall be
designed toensure that no antenna other than that furnished by the responsible party shall be used
with the device.And according to FCC 47 CFR Section 15.249, if transmitting antennas of directional
gain greater than6dBi are used, the power shall be reduced by the amount in dB that the directional
gain of the antennaexceeds 6dBi.
Refer to statement below for compliance.
The manufacturer may design the unit so that the user can replace a broken antenna, but the use of
astandard antenna jack or electrical connector is prohibited. Further, this requirement does not apply
tointentional radiators that must be professionally installed.
Antenna Connected Construction
The antenna used in this product is a Internal Antenna, The directional gains of antenna used for
transmitting is 0dBi.
ANTENNA
Page 23 of 33Report No.: HK1810251369-E
8 PHOTOGRAPH OF TEST
Conducted Emission
Page 24 of 33Report No.: HK1810251369-E
Radiated Emission
Page 25 of 33Report No.: HK1810251369-E
EUT
Photo 1
Photo 2
Page 26 of 33Report No.: HK1810251369-E
Photo 3
Photo 4
Page 27 of 33Report No.: HK1810251369-E
Photo 5
Photo 6
Page 28 of 33Report No.: HK1810251369-E
Photo 7
Photo 8
Page 29 of 33Report No.: HK1810251369-E
Photo 9
Photo 10
Page 30 of 33Report No.: HK1810251369-E
Photo 11
Photo 12
Page 31 of 33Report No.: HK1810251369-E
Photo 13
Photo 14
Page 32 of 33Report No.: HK1810251369-E
Photo 15
Photo 16
Page 33 of 33Report No.: HK1810251369-E
Photo 17
--The end of report--
Download: GSZ1 GameSir Gaming Keypad Test Report FCC PART BT4.0-15.249 Guangzhou Chicken Run Network Technology Co.,Ltd.
Mirror Download [FCC.gov]GSZ1 GameSir Gaming Keypad Test Report FCC PART BT4.0-15.249 Guangzhou Chicken Run Network Technology Co.,Ltd.
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Title                           : FCC PART BT4.0-15.249 test report
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