DS10001 Digital Signage Test Report Hangzhou Hikvision Digital Technology Co., Ltd.

Hangzhou Hikvision Digital Technology Co., Ltd. Digital Signage

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SGS-CSTC Standards Technical Services Co.,
Ltd. Shanghai Branch
Report No.: SHEM181100128102
Page:
1 of 30
TEST REPORT
Application No.:
SHEM1811001281CR
FCC ID:
2ADTD-DS10001
Applicant:
Hangzhou Hikvision Digital Technology Co., Ltd.
Address of Applicant:
No.555 Qianmo Road, Binjiang District, Hangzhou 310052, China
Manufacturer:
Hangzhou Hikvision Digital Technology Co., Ltd.
Address of Manufacturer:
No.555 Qianmo Road, Binjiang District, Hangzhou 310052, China
Factory:
1.Hangzhou Hikvision Technology Co., Ltd.
2.Hangzhou Hikvision Electronics Co., Ltd.
Address of Factory:
1. No.700,Dongliu Road, Binjiang District, Hangzhou City, Zhejiang,
310052, China
2. No.299,Qiushi Road, Tonglu Economic Development Zone, Tonglu
County, Hangzhou,Zhejiang,310052,China
Equipment Under Test (EUT):
EUT Name:
Digital Signage
Model No.:
DS-D6055FL-B/S, DS-D6055TL-B/S, DS-D6055FL-B/SF,
DS-D6055FL-B/SC ¤
¤
Please refer to section 2 of this report which indicates which model was
actually tested and which were electrically identical.
Standard(s) :
47 CFR Part 15, Subpart C 15.247
Date of Receipt:
2018-11-28
Date of Test:
2018-11-29 to 2018-12-03
Date of Issue:
2018-12-05
Test Result:
Pass*
* In the configuration tested, the EUT complied with the standards specified above.
Parlam Zhan
E&E Section Manager
The manufacturer should ensure that all products in series production are in conformity with the product sample detailed in this report.
If the product in this report is used in any configuration other than that detailed in the report, the manufacturer must ensure the new
system complies with all relevant standards. Any mention of SGS International Electrical Approvals or testing done by SGS
International Electrical Approvals in connection with, distribution or use of the product described in this report must be approved by
SGS International Electrical Approvals in writing.
SGS-CSTC Standards Technical Services Co., Ltd. Shanghai
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Revision Record
Version
Description
Date
Remark
00
Original
2018-12-05
Authorized for issue by:
Vincent Zhu / Project Engineer
Parlam Zhan / Reviewer
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Test Summary
Radio Spectrum Technical Requirement
Item
Standard
Method
Requirement
Result
Antenna Requirement
47 CFR Part 15,
Subpart C 15.247
N/A
47 CFR Part 15, Subpart
C 15.203 & 15.247(c)
Customer
Declaration
Radio Spectrum Matter Part
Item
Standard
Method
Requirement
Result
Conducted Emissions
at AC Power Line
(150kHz-30MHz)
47 CFR Part 15,
Subpart C 15.247
ANSI C63.10 (2013)
Section 6.2
47 CFR Part 15,
Subpart C 15.207
Pass
Minimum 6dB
Bandwidth
47 CFR Part 15,
Subpart C 15.247
ANSI C63.10 (2013)
Section 11.8.1
47 CFR Part 15,
Subpart C
15.247a(2)
Pass
Conducted Peak
Output Power
47 CFR Part 15,
Subpart C 15.247
ANSI C63.10 (2013)
Section 11.9.1
47 CFR Part 15,
Subpart C
15.247(b)(3)
Pass
Power Spectrum
Density
47 CFR Part 15,
Subpart C 15.247
ANSI C63.10 (2013)
Section 11.10.2
47 CFR Part 15,
Subpart C
15.247(e)
Pass
Conducted Band
Edges Measurement
47 CFR Part 15,
Subpart C 15.247
ANSI C63.10 (2013)
Section 11.13.3.2
47 CFR Part 15,
Subpart C
15.247(d)
Pass
Conducted Spurious
Emissions
47 CFR Part 15,
Subpart C 15.247
ANSI C63.10 (2013)
Section 11.11
47 CFR Part 15,
Subpart C
15.247(d)
Pass
Radiated Emissions
which fall in the
restricted bands
47 CFR Part 15,
Subpart C 15.247
ANSI C63.10 (2013)
Section 6.10.5
47 CFR Part 15,
Subpart C 15.205
& 15.209
Pass
Radiated Spurious
Emissions
47 CFR Part 15,
Subpart C 15.247
ANSI C63.10 (2013)
Section 6.4,6.5,6.6
47 CFR Part 15,
Subpart C 15.205
& 15.209
Pass
Declaration of EUT Family Grouping:
Note: There are series models mentioned in this report, and they are the similar in electrical and
electronic characters. Only the model DS-D6055FL-B/S was tested since their differences were the
model number and appearance.
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Contents
Page
COVER PAGE ............................................................................................................................................. 1
TEST SUMMARY ......................................................................................................................................... 3
CONTENTS .................................................................................................................................................. 4
GENERAL INFORMATION ......................................................................................................................... 5
4.1
4.2
4.3
4.4
4.5
4.6
4.7
DETAILS OF E.U.T. ................................................................................................................................ 5
DESCRIPTION OF SUPPORT UNITS........................................................................................................... 5
MEASUREMENT UNCERTAINTY ................................................................................................................ 6
TEST LOCATION ..................................................................................................................................... 7
TEST FACILITY ....................................................................................................................................... 7
DEVIATION FROM STANDARDS ................................................................................................................ 7
ABNORMALITIES FROM STANDARD CONDITIONS ....................................................................................... 7
EQUIPMENT LIST ....................................................................................................................................... 8
RADIO SPECTRUM TECHNICAL REQUIREMENT ................................................................................... 9
6.1
ANTENNA REQUIREMENT ........................................................................................................................ 9
RADIO SPECTRUM MATTER TEST RESULTS ......................................................................................10
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
CONDUCTED EMISSIONS AT AC POWER LINE (150KHZ-30MHZ) ............................................................10
MINIMUM 6DB BANDWIDTH ...................................................................................................................14
CONDUCTED PEAK OUTPUT POWER .....................................................................................................15
POWER SPECTRUM DENSITY ................................................................................................................16
CONDUCTED BAND EDGES MEASUREMENT ...........................................................................................17
CONDUCTED SPURIOUS EMISSIONS ......................................................................................................18
RADIATED EMISSIONS WHICH FALL IN THE RESTRICTED BANDS................................................................19
RADIATED SPURIOUS EMISSIONS ..........................................................................................................25
TEST SETUP PHOTOGRAPHS ................................................................................................................30
EUT CONSTRUCTIONAL DETAILS .........................................................................................................30
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General Information
4.1 Details of E.U.T.
Power supply:
Test voltage:
Cable:
Antenna Gain
Antenna Type
Channel Spacing
Modulation Type
Number of Channels
Operation Frequency
100-240V AC, 50/60Hz, 2.0A
AC 120V 60Hz
AC Cable 1.5m
1.13dBi
PCB Antenna
2MHz
GFSK
40
2402MHz to 2480MHz
4.2 Description of Support Units
Description
Manufacturer
Model No.
Serial No.
Laptop
Lenovo
ThinkPad X100e
SecureCRT
VanDyke
V 6.2.0
Serial port adapter plate
Test Plate 3
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4.3 Measurement Uncertainty
No.
Item
Measurement Uncertainty
Radio Frequency
±7.25 x 10-8
Timeout
±2s
Duty cycle
±0.37%
Occupied Bandwidth
±3%
RF conducted power
±0.75dB
RF power density
±2.84dB
Conducted Spurious emissions
±0.75dB
RF Radiated power
±4.5dB (Below 1GHz)
±4.8dB (Above 1GHz)
±4.2dB (Below 30MHz)
Radiated Spurious emission test
±4.4dB (30MHz-1GHz)
±4.6dB (1GHz-18GHz)
±5.2dB (Above 18GHz)
10
Temperature test
±1°C
11
Humidity test
±3%
12
Supply voltages
±1.5%
13
Time
±3%
Note: The measurement uncertainty represents an expanded uncertainty expressed at
approximately the 95% confidence level using a coverage factor of k=2.
SGS-CSTC Standards Technical Services Co., Ltd. Shanghai
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4.4 Test Location
All tests were performed at:
SGS-CSTC Standards Technical Services Co., Ltd. Shanghai Branch
588 West Jindu Road, Xinqiao, Songjiang, 201612 Shanghai, China
Tel: +86 21 6191 5666
Fax: +86 21 6191 5678
No tests were sub-contracted.
4.5 Test Facility
The test facility is recognized, certified, or accredited by the following organizations:
• CNAS (No. CNAS L0599)
CNAS has accredited SGS-CSTC Standards Technical Services (Shanghai) Co., Ltd. to ISO/IEC
17025:2005 General Requirements for the Competence of Testing and Calibration Laboratories
(CNAS-CL01 Accreditation Criteria for the Competence of Testing and Calibration Laboratories) for
the competence in the field of testing.
• NVLAP (Certificate No. 201034-0)
SGS-CSTC Standards Technical Services (Shanghai) Co., Ltd. is accredited by the National
Voluntary Laboratory Accreditation Program(NVLAP). Certificate No. 201034-0.
• FCC –Designation Number: CN5033
SGS-CSTC Standards Technical Services (Shanghai) Co., Ltd. has been recognized as an
accredited testing laboratory.
Designation Number: CN5033. Test Firm Registration Number: 479755.
• Industry Canada (IC) – IC Assigned Code: 8617A
The 3m Semi-anechoic chamber of SGS-CSTC Standards Technical Services (Shanghai) Co., Ltd.
has been registered by Certification and Engineering Bureau of Industry Canada for radio
equipment testing with Registration No.: 8617A-1.
• VCCI (Member No.: 3061)
The 3m Semi-anechoic chamber and Shielded Room of SGS-CSTC Standards Technical Services
(Shanghai) Co., Ltd. has been registered in accordance with the Regulations for Voluntary Control
Measures with Registration No.: R-13868, C-14336, T-12221, G-10830 respectively.
4.6 Deviation from Standards
None
4.7 Abnormalities from Standard Conditions
None
SGS-CSTC Standards Technical Services Co., Ltd. Shanghai
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Equipment List
Equipment
Manufacturer
Model No
Inventory No
Cal Date
Cal Due Date
SHEM162-1
2017-12-20
2018-12-19
Conducted Emission at AC Power Line
EMI test receiver
R&S
ESR7
LISN
Schwarzbeck
NSLK8127
SHEM061-1
2017-12-20
2018-12-19
LISN
EMCO
3816/2
SHEM019-1
2017-12-20
2018-12-19
Pulse limiter
R&S
ESH3-Z2
SHEM029-1
2017-12-20
2018-12-19
CE test Cable
CE01
2017-12-26
2018-12-25
Spectrum Analyzer
R&S
FSP-30
SHEM002-1
2017-12-20
2018-12-19
Spectrum Analyzer
Agilent
N9020A
SHEM181-1
2018-08-13
2019-08-12
Signal Generator
R&S
SMR20
SHEM006-1
2018-08-13
2019-08-12
Signal Generator
Agilent
N5182A
SHEM182-1
2018-08-13
2019-08-12
Communication Tester
R&S
CMW270
SHEM183-1
2018-08-13
2019-08-12
Switcher
Tonscend
JS0806
SHEM184-1
2018-08-13
2019-08-12
Power Sensor
Keysight
U2021XA * 4
SHEM184-1
2018-08-13
2019-08-12
Splitter
Anritsu
MA1612A
SHEM185-1
Conducted Test
Coupler
e-meca
803-S-1
SHEM186-1
High-low Temp Cabinet
Suzhou Zhihe
TL-40
SHEM087-1
2017-09-25
2020-09-24
AC Power Stabilizer
WOCEN
6100
SHEM045-1
2017-12-26
2018-12-25
DC Power Supply
QJE
QJ30003SII
SHEM046-1
2017-12-26
2018-12-25
Conducted test Cable
RF01~RF04
2017-12-26
2018-12-25
Radiated Test
EMI test Receiver
R&S
ESU40
SHEM051-1
2017-12-20
2018-12-19
Spectrum Analyzer
R&S
FSP-30
SHEM002-1
2017-12-20
2018-12-19
FMZB1519
SHEM135-1
2017-04-10
2020-04-09
Loop Antenna (9kHz-30MHz) Schwarzbeck
Antenna (25MHz-2GHz)
Schwarzbeck
VULB9168
SHEM048-1
2017-02-28
2020-02-27
Antenna (25MHz-3GHz)
Schwarzbeck
HL562
SHEM010-1
2017-02-28
2020-02-27
Horn Antenna (1-8GHz)
Schwarzbeck
HF906
SHEM009-1
2017-10-24
2020-10-23
Horn Antenna (1-18GHz)
Schwarzbeck
BBHA9120D
SHEM050-1
2017-01-14
2020-01-13
Horn Antenna (14-40GHz)
Schwarzbeck
BBHA 9170
SHEM049-1
2017-12-03
2020-12-02
Pre-amplifier (9KHz-2GHz)
CLAVIIO
BDLNA-0001
SHEM164-1
2018-08-13
2019-08-12
Pre-amplifier (1-18GHz)
CLAVIIO
BDLNA-0118
SHEM050-2
2018-08-13
2019-08-12
High-amplifier (14-40GHz)
Schwarzbeck
10001
SHEM049-2
2017-12-20
2018-12-19
Signal Generator
R&S
SMR40
SHEM058-1
2018-08-13
2019-08-12
Band Filter
LORCH
9BRX-875/X150
SHEM156-1
Band Filter
LORCH
13BRX-1950/X500
SHEM083-2
Band Filter
LORCH
5BRX-2400/X200
SHEM155-1
Band Filter
LORCH
5BRX-5500/X1000
SHEM157-2
High pass Filter
Wainwright
WHK3.0/18G
SHEM157-1
High pass Filter
Wainwright
WHKS1700
SHEM157-3
Semi/Fully Anechoic
ST
11*6*6M
SHEM078-2
2017-07-22
2020-07-21
RE test Cable
RE01, RE02, RE06
2017-12-26
2018-12-25
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Radio Spectrum Technical Requirement
6.1 Antenna Requirement
6.1.1 Test Requirement:
47 CFR Part 15, Subpart C 15.203 & 15.247(c)
6.1.2 Conclusion
Standard 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.
15.247(b) (4) requirement:
The conducted output power limit specified in paragraph (b) of this section is based on the use of
antennas with directional gains that do not exceed 6 dBi. Except as shown in paragraph (c) of this
section, if transmitting antennas of directional gain greater than 6 dBi are used, the conducted output
power from the intentional radiator shall be reduced below the stated values in paragraphs (b)(1),
(b)(2), and (b)(3) of this section, as appropriate, by the amount in dB that the directional gain of the
antenna exceeds 6 dBi.
EUT Antenna:
The antenna is PCB antenna and no consideration of replacement. The best case gain of the antenna
is 1.13dBi.
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Radio Spectrum Matter Test Results
7.1 Conducted Emissions at AC Power Line (150kHz-30MHz)
Test Requirement
Test Method:
Limit:
Frequency of emission(MHz)
47 CFR Part 15, Subpart C 15.207
ANSI C63.10 (2013) Section 6.2
Conducted limit(dBµV)
Quasi-peak
Average
0.15-0.5
66 to 56*
56 to 46*
0.5-5
56
46
5-30
60
50
*Decreases with the logarithm of the frequency.
7.1.1 E.U.T. Operation
Operating Environment:
Atmospheric Pressure: 1010
Temperature:
22 °C
Humidity: 50 % RH
b:TX mode_Keep the EUT in continuously transmitting mode with GFSK
Test mode
modulation
7.1.2 Test Setup Diagram
mbar
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7.1.3 Measurement Procedure and Data
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 50ohm/50µH + 5ohm 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.
Remark: LISN=Read Level+ Cable Loss+ LISN Factor
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Mode:b; Line:Live Line
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Mode:b; Line:Neutral Line
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7.2 Minimum 6dB Bandwidth
Test Requirement
Test Method:
Limit:
47 CFR Part 15, Subpart C 15.247a(2)
ANSI C63.10 (2013) Section 11.8.1
≥500 kHz
7.2.1 E.U.T. Operation
Operating Environment:
Temperature:
20 °C
Atmospheric Pressure: 1010
Humidity: 50 % RH
b:TX mode_Keep the EUT in continuously transmitting mode with GFSK
Test mode
modulation
7.2.2 Test Setup Diagram
7.2.3 Measurement Procedure and Data
The detailed test data see: Appendix B SHEM181100128102
mbar
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7.3 Conducted Peak Output Power
Test Requirement
Test Method:
Limit:
47 CFR Part 15, Subpart C 15.247(b)(3)
ANSI C63.10 (2013) Section 11.9.1
Frequency range(MHz)
Output power of the intentional radiator(watt)
902-928
0.25 for 25≤ hopping channels <50
1 for ≥50 hopping channels
1 for digital modulation
1 for ≥75 non-overlapping hopping channels
2400-2483.5
0.125 for all other frequency hopping systems
1 for digital modulation
5725-5850
1 for frequency hopping systems and digital modulation
7.3.1 E.U.T. Operation
Operating Environment:
Temperature:
20 °C
Atmospheric Pressure: 1010
Humidity: 50 % RH
b:TX mode_Keep the EUT in continuously transmitting mode with GFSK
Test mode
modulation
7.3.2 Test Setup Diagram
7.3.3 Measurement Procedure and Data
The detailed test data see: Appendix B SHEM181100128102
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7.4 Power Spectrum Density
Test Requirement
Test Method:
Limit:
47 CFR Part 15, Subpart C 15.247(e)
ANSI C63.10 (2013) Section 11.10.2
≤8dBm in any 3 kHz band during any time interval of continuous
transmission
7.4.1 E.U.T. Operation
Operating Environment:
Temperature:
20 °C
Atmospheric Pressure: 1010
Humidity: 50 % RH
b:TX mode_Keep the EUT in continuously transmitting mode with GFSK
Test mode
modulation
7.4.2 Test Setup Diagram
7.4.3 Measurement Procedure and Data
The detailed test data see: Appendix B SHEM181100128102
mbar
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7.5 Conducted Band Edges Measurement
Test Requirement
Test Method:
Limit:
47 CFR Part 15, Subpart C 15.247(d)
ANSI C63.10 (2013) Section 11.13.3.2
In any 100 kHz bandwidth outside the frequency band in which the spread
spectrum or digitally modulated intentional radiator is operating, the radio
frequency power that is produced by the intentional radiator shall be at least
20 dB below that in the 100 kHz bandwidth within the band that contains the
highest level of the desired power, based on either an RF conducted or a
radiated measurement, provided the transmitter demonstrates compliance
with the peak conducted power limits. If the transmitter complies with the
conducted power limits based on the use of RMS averaging over a time
interval, as permitted under paragraph (b)(3) of this section, the attenuation
required under this paragraph shall be 30 dB instead of 20 dB. Attenuation
below the general limits specified in §15.209(a) is not required. In addition,
radiated emissions which fall in the restricted bands, as defined in
§15.205(a), must also comply with the radiated emission limits specified in
§15.209(a) (see §15.205(c)
7.5.1 E.U.T. Operation
Operating Environment:
Atmospheric Pressure: 1010
Temperature:
20 °C
Humidity: 50 % RH
b:TX mode_Keep the EUT in continuously transmitting mode with GFSK
Test mode
modulation
7.5.2 Test Setup Diagram
7.5.3 Measurement Procedure and Data
The detailed test data see: Appendix B SHEM181100128102
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7.6 Conducted Spurious Emissions
Test Requirement
Test Method:
Limit:
47 CFR Part 15, Subpart C 15.247(d)
ANSI C63.10 (2013) Section 11.11
In any 100 kHz bandwidth outside the frequency band in which the spread
spectrum or digitally modulated intentional radiator is operating, the radio
frequency power that is produced by the intentional radiator shall be at least
20 dB below that in the 100 kHz bandwidth within the band that contains the
highest level of the desired power, based on either an RF conducted or a
radiated measurement, provided the transmitter demonstrates compliance
with the peak conducted power limits. If the transmitter complies with the
conducted power limits based on the use of RMS averaging over a time
interval, as permitted under paragraph (b)(3) of this section, the attenuation
required under this paragraph shall be 30 dB instead of 20 dB. Attenuation
below the general limits specified in §15.209(a) is not required. In addition,
radiated emissions which fall in the restricted bands, as defined in
§15.205(a), must also comply with the radiated emission limits specified in
§15.209(a) (see §15.205(c)
7.6.1 E.U.T. Operation
Operating Environment:
Atmospheric Pressure: 1010
Temperature:
20 °C
Humidity: 50 % RH
b:TX mode_Keep the EUT in continuously transmitting mode with GFSK
Test mode
modulation
7.6.2 Test Setup Diagram
7.6.3 Measurement Procedure and Data
The detailed test data see: Appendix B SHEM181100128102
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7.7 Radiated Emissions which fall in the restricted bands
Test Requirement
Test Method:
Limit:
47 CFR Part 15, Subpart C 15.205 & 15.209
ANSI C63.10 (2013) Section 6.10.5
Frequency(MHz)
Field strength(microvolts/meter)
Measurement distance(meters)
0.009-0.490
2400/F(kHz)
300
0.490-1.705
24000/F(kHz)
30
1.705-30.0
30
30
30-88
100
88-216
150
216-960
200
Above 960
500
Remark: The emission limits shown in the above table are based on measurements employing a CISPR
quasi-peak detector except for the frequency bands 9-90kHz, 110-490kHz and above 1000 MHz. Radiated
emission limits in these three bands are based on measurements employing an average detector, the peak
field strength of any emission shall not exceed the maximum permitted average limits specified above by
more than 20 dB under any condition of modulation.
7.7.1 E.U.T. Operation
Operating Environment:
Atmospheric Pressure: 1010
Temperature:
20 °C
Humidity: 50 % RH
b:TX mode_Keep the EUT in continuously transmitting mode with GFSK
Test mode
modulation
7.7.2 Test Setup Diagram
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7.7.3 Measurement Procedure and Data
a. For below 1GHz, the EUT was placed on the top of a rotating table 0.8 meters above the ground at
a 3 or 10 meter semi-anechoic chamber. The table was rotated 360 degrees to determine the position
of the highest radiation.
b. For above 1GHz, the EUT was placed on the top of a rotating table 1.5 meters above the ground at
a 3 meter fully-anechoic chamber. The table was rotated 360 degrees to determine the position of the
highest radiation.
c. The EUT was set 3 or 10 meters away from the interference-receiving antenna, which was
mounted on the top of a variable-height antenna tower.
d. 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.
e. 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 rotatable table was turned from 0 degrees to 360 degrees to find
the maximum reading.
f. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum
Hold Mode.
g. 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.
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 the worst case.
j. Repeat above procedures until all frequencies measured was complete.
Remark 1: Level= Read Level+ Cable Loss+ Antenna Factor- Preamp Factor
Remark 2: For frequencies above 1GHz, the field strength limits are based on average limits.
However, the peak field strength of any emission shall not exceed the maximum permitted average
limits specified above by more than 20 dB under any condition of modulation. For the emissions
whose peak level is lower than the average limit, only the peak measurement is shown in the report.
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Mode:b; Polarization:Horizontal; Modulation:GFSK; ; Channel:Low
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Mode:b; Polarization:Vertical; Modulation:GFSK; ; Channel:Low
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Mode:b; Polarization:Horizontal; Modulation:GFSK; ; Channel:High
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Mode:b; Polarization:Vertical; Modulation:GFSK; ; Channel:High
Note: Over the limit is fundamental emission.
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7.8 Radiated Spurious Emissions
Test Requirement
Test Method:
Limit:
47 CFR Part 15, Subpart C 15.205 & 15.209
ANSI C63.10 (2013) Section 6.4,6.5,6.6
Frequency(MHz)
Field strength(microvolts/meter)
Measurement distance(meters)
0.009-0.490
2400/F(kHz)
300
0.490-1.705
24000/F(kHz)
30
1.705-30.0
30
30
30-88
100
88-216
150
216-960
200
Above 960
500
Remark: The emission limits shown in the above table are based on measurements employing a CISPR
quasi-peak detector except for the frequency bands 9-90kHz, 110-490kHz and above 1000 MHz. Radiated
emission limits in these three bands are based on measurements employing an average detector, the peak
field strength of any emission shall not exceed the maximum permitted average limits specified above by
more than 20 dB under any condition of modulation.
7.8.1 E.U.T. Operation
Operating Environment:
Atmospheric Pressure: 1010
Temperature:
20 °C
Humidity: 50 % RH
b:TX mode_Keep the EUT in continuously transmitting mode with GFSK
Test mode
modulation
7.8.2 Test Setup Diagram
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7.8.3 Measurement Procedure and Data
a. For below 1GHz, the EUT was placed on the top of a rotating table 0.8 meters above the ground at
a 3 or 10 meter semi-anechoic chamber. The table was rotated 360 degrees to determine the position
of the highest radiation.
b. For above 1GHz, the EUT was placed on the top of a rotating table 1.5 meters above the ground at
a 3 meter fully-anechoic chamber. The table was rotated 360 degrees to determine the position of the
highest radiation.
c. The EUT was set 3 or 10 meters away from the interference-receiving antenna, which was
mounted on the top of a variable-height antenna tower.
d. 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.
e. 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 rotatable table was turned from 0 degrees to 360 degrees to find
the maximum reading.
f. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum
Hold Mode.
g. 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.
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 the worst case.
j. Repeat above procedures until all frequencies measured was complete.
Remark:
1) For emission below 1GHz, through pre-scan found the worst case is the lowest channel. 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 + Antenna Factor + Cable Factor – Preamplifier Factor
3) Scan from 9kHz to 25GHz, the disturbance above 18GHz and below 30MHz was very low. The
points marked on above plots are the highest emissions could be found when testing, so only above
points had been displayed. The amplitude of spurious emissions from the radiator which are
attenuated more than 20dB below the limit need not be reported.
4) For frequencies above 1GHz, the field strength limits are based on average limits. However, the
peak field strength of any emission shall not exceed the maximum permitted average limits specified
above by more than 20 dB under any condition of modulation. For the emissions whose peak level is
lower than the average limit, only the peak measurement is shown
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30MHz~1GHz:
HORIZONTAL:
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VERTICAL:
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Mode:b; Polarization:Horizontal; Modulation:GFSK; ; Channel:Low
Frequency RX_R
Factor
Emission
Limit
Over Limit Detector
MHz
dBuV
dB
dBuV/m
dBuV/m
dB
4804
35.71
6.18
41.89
54
-12.11
peak
7206
34.63
10.63
45.26
54
-8.74
peak
9608
34.53
14.38
48.91
54
-5.09
peak
Mode:b; Polarization:Vertical; Modulation:GFSK; ; Channel:Low
Frequency RX_R
Factor
Emission
Limit
Over Limit Detector
MHz
dBuV
dB
dBuV/m
dBuV/m
dB
4804
39.23
6.18
45.41
54
-8.59
peak
7206
35.92
10.63
46.55
54
-7.45
peak
9608
37.35
14.38
51.73
54
-2.27
peak
Mode:b; Polarization:Horizontal; Modulation:GFSK; ; Channel:middle
Frequency RX_R
Factor
Emission
Limit
Over Limit Detector
MHz
dBuV
dB
dBuV/m
dBuV/m
dB
4880
39.13
6.97
46.1
54
-7.9
peak
7320
35.42
11.12
46.54
54
-7.46
peak
9760
31.2
14.35
45.55
54
-8.45
peak
Mode:b; Polarization:Vertical; Modulation:GFSK; ; Channel:middle
Frequency RX_R
Factor
Emission
Limit
Over Limit Detector
MHz
dBuV
dB
dBuV/m
dBuV/m
dB
4880
34.5
6.97
41.47
54
-12.53
peak
7320
37.24
11.12
48.36
54
-5.64
peak
9760
33.77
14.35
48.12
54
-5.88
peak
Mode:b; Polarization:Horizontal; Modulation:GFSK; ; Channel:High
Frequency RX_R
Factor
Emission
Limit
Over Limit Detector
MHz
dBuV
dB
dBuV/m
dBuV/m
dB
4960
37.87
7.49
45.36
54
-8.64
peak
7440
34.77
11.65
46.42
54
-7.58
peak
9920
36.8
14.4
51.2
54
-2.8
peak
Mode:b; Polarization:Vertical; Modulation:GFSK; ; Channel:High
Frequency
RX_R
Factor
Emission
Limit
Over Limit Detector
MHz
dBuV
dB
dBuV/m
dBuV/m
4960
38.61
7.49
46.1
54
-7.9
peak
7440
36.48
11.65
48.13
54
-5.87
peak
9920
36.4
14.4
50.8
54
-3.2
peak
dB
SGS-CSTC Standards Technical Services Co., Ltd. Shanghai
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Test Setup Photographs
Refer to the < Test Setup photos-FCC>.
EUT Constructional Details
Refer to the < External Photos > & < Internal Photos >.
- End of the Report -
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