EM7565 Nodegrid Test Report 90 LTE ZPE Systems, Inc.

ZPE Systems, Inc. Nodegrid

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FCC ID: 2ARCQ-EM7565
Report No.: T180821D09-RP5
Page
Rev.
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01
FCC TEST REPORT
For
Nodegrid
Model No.: SR
Trade Name: ZPE
Issued to
ZPE Systems,Inc.
46757 Fremont Blvd., Fremont, CA 94538, USA
Issued by
Compliance Certification Services Inc.
Wugu Laboratory
No.11, Wugong 6th Rd., Wugu Dist.,
New Taipei City 24891, Taiwan. (R.O.C.)
Issued Date: November 29, 2018
No.11, Wugong 6th Rd., Wugu Dist., New Taipei City 24891, Taiwan / 新北市五股區五工六路 11 號
t:(886-2) 2299-9720 f:(886-2) 2298-1882 www.sgs.tw www.ccsrf.com
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01
Revision History
Rev.
Issue Date
00
November 29, 2018
Revisions
Initial Issue
Effect Page
Revised By
ALL
Allison Chen
P.5, P.7-8,
P.15-28
Allison Chen
1. Revised description of test modes in
section 4.1.
01
December 21, 2018
2. Revised test condition in section 4.2.
3. Revised EIPR Power in section 2.
4. Revised test data in section 8.
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TABLE OF CONTENTS
TEST RESULT CERTIFICATION ...................................................................................... 4
EUT DESCRIPTION .......................................................................................................... 5
TEST SUMMARY .............................................................................................................. 6
TEST METHODOLOGY .................................................................................................... 7
4.1.
DESCRIPTION OF TEST TYPE ........................................................................................ 7
4.2.
THE WORST MODE OF MEASUREMENT ....................................................................... 8
INSTRUMENT CALIBRATION .......................................................................................... 9
5.1.
MEASURING INSTRUMENT CALIBRATION .................................................................... 9
5.2.
MEASUREMENT EQUIPMENT USED .............................................................................. 9
5.3.
MEASUREMENT UNCERTAINTY ................................................................................... 10
FACILITIES AND ACCREDITATIONS ............................................................................ 11
6.1.
FACILITIES ..................................................................................................................... 11
6.2.
EQUIPMENT ................................................................................................................... 11
SETUP OF EQUIPMENT UNDER TEST ......................................................................... 12
7.1.
SETUP CONFIGURATION OF EUT ................................................................................ 12
7.2.
SUPPORT EQUIPMENT ................................................................................................. 12
TEST PROCEDURE AND RESULT ................................................................................ 13
8.1.
RADIATED EMISSIONS .................................................................................................. 13
8.2.
TRANSMITTER RADIATED EMISSIONS ABOVE 1GHZ ................................................ 19
8.3.
EIRP MEASUREMENT .................................................................................................... 25
APPENDIX A PHOTOGRAPHS OF TEST SETUP ................................................................... A-1
APPENDIX 1 - PHOTOGRAPHS OF EUT
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1 TEST RESULT CERTIFICATION
Applicant:
Manufacturer:
ZPE Systems,Inc.
46757 Fremont Blvd., Fremont, CA 94538, USA
ZPE Systems,Inc.
46757 Fremont Blvd., Fremont, CA 94538, USA
Equipment Under Test:
Nodegrid
Trade Name:
ZPE
Model:
SR
Tested:
September 28 ~ October 2, 2018; December 20, 2018
Deviation from Applicable Standard
None
The above equipment has been tested by Compliance Certification Services Inc., and
found compliance with the requirements set forth in the technical standards mentioned
above. The results of testing in this report apply only to the product/system, which was
tested. Other similar equipment will not necessarily produce the same results due to
production tolerance and measurement uncertainties.
Approved by
Tested by
Sam Chuang
Manager
Compliance Certification Services Inc.
Jerry Chuang
Engineer
Compliance Certification Services Inc.
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2 EUT DESCRIPTION
Product
Model No.
Model Discrepancy
Trade Name
Received Date
Power Supply
Modulation Technology
Frequency Range
Maximum EIRP Power
Antenna Specification
Nodegrid
SR
N/A
ZPE
August 21, 2018
Power from AC adapter or internal Power Supply
LTE Band 26
QPSK, 16QAM
LTE Band 26
814.7MHz ~ 823.3MHz
Channel Bandwidth: 1.4MHz
LTE Band 26
815.5MHz ~ 822.5MHz
Channel Bandwidth: 3MHz
LTE Band 26
816.5MHz ~ 821.5MHz
Channel Bandwidth: 5MHz
LTE Band 26
819MHz
Channel Bandwidth: 10MHz
LTE Band 26
821.5MHz
Channel Bandwidth: 15MHz
QPSK
28.18 dBm
LTE Band 26
Channel Bandwidth: 1.4MHz
16QAM
28.96 dBm
QPSK
27.46 dBm
LTE Band 26
Channel Bandwidth: 3MHz
16QAM
27.63 dBm
QPSK
27.83 dBm
LTE Band 26
Channel Bandwidth: 5MHz
16QAM
28.49 dBm
QPSK
27.88 dBm
LTE Band 26
Channel Bandwidth: 10MHz
16QAM
28.09 dBm
QPSK
27.71 dBm
LTE Band 26
Channel Bandwidth: 15MHz
16QAM
28.14 dBm
External Antenna
LTE Band 26: 2.6 dBi
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3 TEST SUMMARY
FCC
Standard
Section
Report
Section
Test Item
Result
Antenna Requirement
Pass
2.1046
Conducted Output power
N/A
2.1049,
90.209
2.1051,
90.691
2.1051,
90.691
2.1053,
90.691
2.1053,
90.691
2.1055,
90.213
Occupied bandwidth and 26dB
Bandwidth
Emission masks In-band
emissions
Emission masks Out of band
emissions
N/A
N/A
N/A
8.1
8.2
Spurious Radiation Measurement
Pass
8.3
EIRP Measurement
Pass
Frequency Stability v.s.
temperature measurement
N/A
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4 TEST METHODOLOGY
4.1. DESCRIPTION OF TEST TYPE
The EUT (model: SR) had been tested under operating condition.
Software used to control the EUT for staying in continuous transmitting mode was
programmed.
LTE Band 26: 814 MHz ~ 849 MHz
Three channels had been tested for each channel bandwidth.
Channel
Bandwidth
Low channel (L)
Middle channel (M)
High channel (H)
Channel
Bandwidth
Low channel (L)
Middle channel (M)
High channel (H)
1.4MHz
Frequency
Channel
(MHz)
26697
814.7
26740
819
26783
823.3
10MHz
Frequency
Channel
(MHz)
26740
819
3MHz
Frequency
Channel
(MHz)
26705
815.5
26740
819
26775
822.5
15MHz
Frequency
Channel
(MHz)
26765
821.5
5MHz
Frequency
Channel
(MHz)
26715
816.5
26740
819
26765
821.5
For test mode:
The conducted power be measured in 1, 50% and 100% RB allocation, offset to upper
edge, centered and lower edge of the channel bandwidth of each required channel.
QPSK
Worst Mode
16QAM
Worst Mode
1M
1 RB ALLOCATED AT THE LOWER EDGE
1M
1 RB ALLOCATED AT THE LOWER EDGE
3M
1 RB ALLOCATED AT THE LOWER EDGE
3M
1 RB ALLOCATED AT THE LOWER EDGE
Band26 5M
1 RB ALLOCATED AT THE LOWER EDGE
5M
1 RB ALLOCATED AT THE LOWER EDGE
10M 1 RB ALLOCATED AT THE LOWER EDGE
10M
1 RB ALLOCATED AT THE LOWER EDGE
15M 1 RB ALLOCATED AT THE LOWER EDGE
15M
1 RB ALLOCATED AT THE LOWER EDGE
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4.2. THE WORST MODE OF MEASUREMENT
Emission for Unwanted and Fundamental
Test Condition
Power supply Mode Mode 1: EUT Power by adapter.
Worst Mode
Position
Mode 1
Mode 2
Mode 3
Mode 4
Placed in fixed position.
Placed in fixed position at X-Plane (E2-Plane)
Placed in fixed position at Y-Plane (E1-Plane)
Placed in fixed position at Z-Plane (H-Plane)
Remark:
1. The worst mode was record in this test report.
2. The EUT pre-scanned in three axis ,X,Y, Z and two polarity, Horizontal and Vertical for
radiated measurement. The worst case (X-Plane) were recorded in this report.
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5 INSTRUMENT CALIBRATION
5.1. MEASURING instrument calibration
The measuring equipment, which was utilized in performing the tests documented herein,
has been calibrated in accordance with the manufacturer's recommendations for utilizing
calibration equipment, which is traceable to recognized national standards.
5.2. MEASUREMENT EQUIPMENT USED
Equipment Used for Emissions Measurement
Remark: Each piece of equipment is scheduled for calibration once a year.
Wugu Fully Chamber
Name of Equipment
Bilog Antenna
Cable
Cable
Digital Radio
Communication Tester
Digital Thermo-Hygro
Meter
Horn Antenna
Pre-Amplifier
Pre-Amplifier
Signal Analyzer
Wideband Radio
Communication Tester
Antenna Tower
Controller
Turn Table
Software
Manufacturer
Sunol
Sciences
HUBER
SUHNER
HUBER
SUHNER
Model
Serial Number
Calibration Date
Calibration Due
JB1
A052609
03/14/2018
03/13/2019
SUCOFLEX
104PEA
SUCOFLEX
104PEA
23452
06/29/2018
06/28/2019
33960
06/29/2018
06/28/2019
R&S
CMU200
116604
07/19/2018
07/18/2019
WISEWIND
1110
D06
02/08/2018
02/07/2019
779
03/14/2018
03/13/2019
M89145
060570
MY52220817
06/29/2018
06/29/2018
03/22/2018
06/28/2019
06/28/2019
03/21/2019
116875
04/20/2018
04/19/2019
SCHWARZBE
BBHA 9120D
CK
Anritsu
MH648A
EMEC
EM01G26G
Agilent
N9010A
R&S
CMW 500
CCS
CCS
CCS
CC-A-1F
CC-C-1F
CC-T-1F
N/A
N.C.R
N/A
N.C.R
N/A
N.C.R
EZ-EMC (CCS-3A1RE)
N.C.R
N.C.R
N.C.R
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5.3. MEASUREMENT UNCERTAINTY
PARAMETER
Powerline Conducted Emission
UNCERTAINTY
N/A
3M Semi Anechoic Chamber / 30M~200M
+/- 4.0138
3M Semi Anechoic Chamber / 200M~1000M
+/- 3.9483
3M Semi Anechoic Chamber / 1G~8G
+/- 2.5975
3M Semi Anechoic Chamber / 8G~18G
+/- 2.6112
3M Semi Anechoic Chamber / 18G~26G
+/- 2.7389
3M Semi Anechoic Chamber / 26G~40G
+/- 2.9683
Remark: This uncertainty represents an expanded uncertainty expressed at approximately the 95%
confidence level using a coverage factor of k=2.
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6 FACILITIES AND ACCREDITATIONS
6.1. FACILITIES
All measurement facilities used to collect the measurement data are located at
No.199, Chunghsen Road, Hsintien City, Taipei Hsien, Taiwan, R.O.C.
Tel: 886-2-2217-0894 / Fax: 886-2-2217-1029
No.11, Wugong 6th Rd., Wugu Dist., New Taipei City 24891, Taiwan. (R.O.C.)
Tel: 886-2-2299-9720 / Fax: 886-2-2298-4045
The sites are constructed in conformance with the requirements of ANSI C63.7, ANSI
C63.4 and CISPR Publication 22.
6.2. EQUIPMENT
Radiated emissions are measured with one or more of the following types of linearly
polarized antennas: tuned dipole, biconical, log periodic, bi-log, and/or ridged waveguide,
horn. Spectrum analyzers with pre-selectors and quasi-peak detectors are used to
perform radiated measurements.
Calibrated wideband preamplifiers, coaxial cables, and coaxial attenuators are also used
for making measurements.
All receiving equipment conforms to CISPR Publication 16-1, “Radio Interference
Measuring Apparatus and Measurement Methods.”
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7 SETUP OF EQUIPMENT UNDER TEST
7.1. SETUP CONFIGURATION OF EUT
See test photographs attached in Appendix I for the actual connections between EUT
and support equipment.
7.2. SUPPORT EQUIPMENT
Device
Type
No.
Brand
Model
Series No.
FCC ID
Data Cable Power Cord
N/A
Remark:
1.
2.
All the equipment/cables were placed in the worst-case configuration to
maximize the emission during the test.
Grounding was established in accordance with the manufacturer’s
requirements and conditions for the intended use.
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8 TEST PROCEDURE AND RESULT
8.1. RADIATED EMISSIONS
FCC, Part 15 Subpart C §15.205/ §15.209
LIMIT
1. According to §15.209(a), except as provided elsewhere in this Subpart, the emissions
from an intentional radiator shall not exceed the field strength levels specified in the
following table:
Frequency
(MHz)
30-88
Field Strength
(μV/m)
100*
Measurement Distance
(m)
88-216
150*
216-960
200*
Above 960
500
Remark: Except as provided in paragraph (g), fundamental emissions from
intentional radiators operating under this Section shall not be located in the frequency
bands 54-72 MHz, 76-88 MHz, 174-216 MHz or 470-806 MHz. However, operation
within these frequency bands is permitted under other sections of this Part, e.g.,
Sections 15.231 and 15.241.
2. In the emission table above, the tighter limit applies at the band edges.
Frequency
(MHz)
30-88
Field Strength
(μV/m at 3-meter)
100
Field Strength
(dBμV/m at 3-meter)
40
88-216
150
43.5
216-960
200
46
Above 960
500
54
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Test Configuration
Below 1 GHz
Antenna
tower
Bi-log
antenna
3m
EUT
4m
Spectrum
analyzer
Turntable
0.8m
1m
Reference ground plane
TEST PROCEDURE
1. The EUT is placed on a turntable, which is 0.8m 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 highest emissions.
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 both horizontal and vertical.
6. Set the spectrum analyzer in the following setting as:
Below 1GHz:
RBW=100kHz / VBW=300kHz / Sweep=AUTO
7. Repeat above procedures until the measurements for all frequencies are complete.
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TEST RESULTS
Test Results
Below 1GHz
LTE Band 26 / BW: 15MHz / QPSK / RB =1, RB Offset = 0
Operation Mode:
Tx / Mid CH
Test Date:
December 20, 2018
Temperature:
23℃
Tested by:
Jerry Chuang
Humidity:
46 %RH
Polarity:
Ver.
Limit
(dBm)
Margin
(dB)
Antenna
Polarization
(V/H)
-89.28
-13.00
-75.76
-2.15
-90.84
-13.00
-76.07
1.93
-2.15
-87.36
-13.00
-74.62
-79.74
2.23
-2.15
-84.12
-13.00
-71.24
655.1650
-78.72
2.58
-2.15
-83.45
-13.00
-69.88
970.4150
-77.34
3.18
-2.15
-82.67
-13.00
-69.45
Frequency
(MHz)
S.G.
(dBm)
Cable
Loss(dB)
Ant.Gain Emission level
(dBd)
(dBm)
127.0000
-86.01
1.12
-2.15
287.0500
-87.01
1.68
372.8950
-83.28
492.2050
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Operation Mode:
Tx / Mid CH
Test Date:
December 20, 2018
Temperature:
23℃
Tested by:
Jerry Chuang
Humidity:
46 %RH
Polarity:
Hor.
Limit
(dBm)
Margin
(dB)
Antenna
Polarization
(V/H)
-88.76
-13.00
-75.76
-2.15
-89.07
-13.00
-76.07
1.89
-2.15
-87.62
-13.00
-74.62
-79.91
2.18
-2.15
-84.24
-13.00
-71.24
648.3750
-78.16
2.57
-2.15
-82.88
-13.00
-69.88
867.1100
-77.3
-2.15
-82.45
-13.00
-69.45
Frequency
(MHz)
S.G.
(dBm)
Cable
Loss(dB)
Ant.Gain Emission level
(dBd)
(dBm)
135.7300
-85.46
1.15
-2.15
196.8400
-85.53
1.39
358.8300
-83.58
470.3800
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LTE Band 26 / BW: 15MHz / 16QAM / RB =1, RB Offset = 0
Operation Mode:
Tx / Mid CH
Test Date:
December 20, 2018
Temperature:
23℃
Tested by:
Jerry Chuang
Humidity:
46 %RH
Polarity:
Ver.
Limit
(dBm)
Margin
(dB)
Antenna
Polarization
(V/H)
-87.00
-13.00
-74.00
-2.15
-85.14
-13.00
-72.14
1.41
-2.15
-91.30
-13.00
-78.30
-85.44
1.81
-2.15
-89.40
-13.00
-76.40
521.3050
-81.86
2.3
-2.15
-86.31
-13.00
-73.31
660.0150
-78.69
2.59
-2.15
-83.43
-13.00
-70.43
Frequency
(MHz)
S.G.
(dBm)
Cable
Loss(dB)
Ant.Gain Emission level
(dBd)
(dBm)
79.9550
-83.97
0.88
-2.15
128.9400
-81.86
1.13
202.6600
-87.74
329.2450
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Operation Mode:
Tx / Mid CH
Test Date:
December 20, 2018
Temperature:
23℃
Tested by:
Jerry Chuang
Humidity:
46 %RH
Polarity:
Hor.
Limit
(dBm)
Margin
(dB)
Antenna
Polarization
(V/H)
-86.92
-13.00
-73.92
-2.15
-88.15
-13.00
-75.15
1.28
-2.15
-89.83
-13.00
-76.83
-85
1.7
-2.15
-88.85
-13.00
-75.85
496.5700
-82.19
2.24
-2.15
-86.58
-13.00
-73.58
660.5000
-77.59
2.59
-2.15
-82.33
-13.00
-69.33
Frequency
(MHz)
S.G.
(dBm)
Cable
Loss(dB)
Ant.Gain Emission level
(dBd)
(dBm)
79.4700
-83.89
0.88
-2.15
113.4200
-84.94
1.06
166.2850
-86.4
290.9300
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8.2. TRANSMITTER RADIATED EMISSIONS ABOVE 1GHZ
FCC 47 CFR Part 90, Subpart S; §90.691, 2.1053
The power of any emission FCC part 90.691 on any frequency removed from the
assigned frequency by more than 250 percent of the authorized bandwidth at least 43 +
10Log(P) dB. The spectrum is scanned from 30MHz up to a frequency including it’s 10th
harmonic.
The power of any emission outside of the authorized operating frequency ranges must
be attenuated below the transmitter power (P) by a factor of at least 43+10log(P)dB. The
spectrum is scanned from 30MHz up to a frequency including its 10th harmonic.
Limit
For operation in the 814-824 band the power of any emission outside the frequency band
of operation shall be attenuated below the transmitter power (P) within the licensed band
of operation, measured in Watts, by at least 43 + 10*Log (P) = -13dBm.
Test Configuration
Above 1 GHz
Antenna
tower
Horn
antenna
3m
EUT
4m
Spectrum
analyzer
Turntable
0.8m
1m
Pre-amp
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TEST PROCEDURE
1. The EUT is placed on a turntable, which is 0.8m 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 highest emissions.
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 both horizontal and vertical.
6. Set the spectrum analyzer in the following setting as:
RBW=VBW=1MHz / Sweep=AUTO
7. Repeat above procedures until the measurements for all frequencies are complete.
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Above 1GHz
LTE Band 26 / BW: 15MHz / QPSK RB =1, RB Offset = 0
Operation Mode:
Tx / High CH
Test Date:
December 20, 2018
Temperature:
23℃
Tested by:
Jerry Chuang
Humidity:
46 %RH
Polarity:
Ver.
Frequency
(MHz)
S.G.
(dBm)
1643.000
-71.82
4.19
2464.500
-69.48
5.28
Limit
(dBm)
Margin
(dB)
Antenna
Polarization
(V/H)
-76.01
-13.00
-63.01
-74.76
-13.00
-61.76
Ant.Gain Emission level
(dBi)
(dBm)
N/A
Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental
frequency.
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Operation Mode:
Tx / High CH
Test Date:
December 20, 2018
Temperature:
23℃
Tested by:
Jerry Chuang
Humidity:
46 %RH
Polarity:
Hor.
Frequency
(MHz)
S.G.
(dBm)
1735.000
-65.45
4.32
3257.500
-62.29
6.18
Limit
(dBm)
Margin
(dB)
Antenna
Polarization
(V/H)
-69.77
-13.00
-56.77
-68.47
-13.00
-31.47
Ant.Gain Emission level
(dBi)
(dBm)
N/A
Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental
frequency.
Page
Rev.
Report No.: T180821D09-RP5
23 / 28
01
LTE Band 26 / BW: 15MHz / 16QAM / RB =1, RB Offset = 0
Operation Mode:
Tx / High CH
Test Date:
December 20, 2018
Temperature:
23℃
Tested by:
Jerry Chuang
Humidity:
46 %RH
Polarity:
Ver.
Frequency
(MHz)
S.G.
(dBm)
1643.000
-71.87
4.19
2464.500
-69.58
5.28
Limit
(dBm)
Margin
(dB)
Antenna
Polarization
(V/H)
-76.06
-13.00
-63.06
-74.86
-13.00
-61.86
Ant.Gain Emission level
(dBi)
(dBm)
N/A
Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental
frequency.
Page
Rev.
Report No.: T180821D09-RP5
24 / 28
01
Operation Mode:
Tx / High CH
Test Date:
December 20, 2018
Temperature:
23℃
Tested by:
Jerry Chuang
Humidity:
46 %RH
Polarity:
Hor.
Frequency
(MHz)
S.G.
(dBm)
1731.500
-65.16
4.31
3261.000
-63.45
6.18
Limit
(dBm)
Margin
(dB)
Antenna
Polarization
(V/H)
-69.47
-13.00
-56.47
-69.63
-13.00
-56.63
Ant.Gain Emission level
(dBi)
(dBm)
N/A
Remark:
1. Measuring frequencies from 1 GHz to the 10th harmonic of highest fundamental
frequency.
Page
Rev.
Report No.: T180821D09-RP5
8.3. EIRP MEASUREMENT
TEST CONFIGURATION
Below 1 GHz
Antenna
tower
Bi-log
antenna
3m
EUT
4m
Spectrum
analyzer
Turntable
1m
0.8m
Reference ground plane
Above 1 GHz
Antenna
tower
Horn
antenna
3m
EUT
4m
Spectrum
analyzer
Turntable
1.5m
1m
Pre-amp
25 / 28
01
Page
Rev.
Report No.: T180821D09-RP5
26 / 28
01
For Substituted Method Test Set-UP
Antenna mast
Ground plane
d: distance in
meters
d = 3 meters
1-4 meter
1m
S.G.
SPA
Substituted Half-wave Dipole or Horn Antenna
Bi-Log Antenna or Horn Antenna
TEST PROCEDURE
1. The EUT was placed on a non-conductive rotating platform (0.8m for below 1G and
above 1G) in a semi-chamber. The radiated emission at the fundamental frequency was
measured at 3m and SA with RMS detector per section 5, KDB 971168 D01 Power Meas
License Digital Systems.
2. During the measurement, the call box parameters were set to get the maximum output
power of the EUT. The maximum emission was recorded from spectrum analyzer power
level (LVL) from 360 degrees rotation of turntable and the test antenna raised and lowered
over a range from 1m to 4m in both horizontally and vertically polarized orientations.
3. EIRP was measured method according to TIA/EIA-603-E. The EUT was replaced by the
substitution antenna at same location, and then record the maximum Analyzer reading
through raised and lowered the test antenna.
ERP = S.G. output (dBm) + Antenna Gain (dBi) – Cable (dB) - 2.15
EIRP = S.G. output (dBm) + Antenna Gain (dBi) – Cable (dB)
TEST RESULTS
No non-compliance noted.
Page
Rev.
Report No.: T180821D09-RP5
27 / 28
01
EIRP POWER
LTE Band 26
BW: 1.4MHz / RB=1, RB Offset=0
Band
Vertical
EIRP
EIRP
(dBm)
(W)
Horizontal
EIRP
EIRP
(dBm)
(W)
12.59
0.0182
28.13
0.6501
12.13
0.0163
28.18
0.6577
Highest
13.30
0.0214
27.87
0.6124
Lowest
13.40
0.0219
28.31
0.6776
Middle 16 QAM
12.54
0.0179
28.64
0.7311
Highest
13.05
0.0202
28.96
0.7870
BW
Channel Mode
(MHz)
UL RB
Allocation
UL RB
offset
Lowest
Middle
26
1.4
QPSK
BW: 3MHz / RB=1, RB Offset=0
Band
Horizontal
EIRP
EIRP
(dBm)
(W)
UL RB
Allocation
UL RB
offset
Lowest
9.34
0.0086
27.35
0.5433
9.39
0.0087
27.46
0.5572
Highest
9.91
0.0098
27.17
0.5212
Lowest
9.17
0.0083
27.48
0.5598
Middle 16 QAM
9.36
0.0086
27.63
0.5794
Highest
10.33
0.0108
27.23
0.5284
Middle
26
Vertical
EIRP
EIRP
(dBm)
(W)
BW
Channel Mode
(MHz)
QPSK
BW: 5MHz / RB=1, RB Offset=0
Band
Horizontal
EIRP
EIRP
(dBm)
(W)
UL RB
Allocation
UL RB
offset
Lowest
9.17
0.0083
27.83
0.6067
9.89
0.0097
27.27
0.5333
Highest
9.65
0.0092
27.32
0.5395
Lowest
9.61
0.0091
28.49
0.7063
Middle 16 QAM
9.01
0.0080
28.11
0.6471
Highest
9.01
0.0080
27.67
0.5848
Middle
26
Vertical
EIRP
EIRP
(dBm)
(W)
BW
Channel Mode
(MHz)
QPSK
Page
Rev.
Report No.: T180821D09-RP5
28 / 28
01
BW: 10MHz / RB=1, RB Offset=0
Band
26
Vertical
EIRP
EIRP
(dBm)
(W)
Horizontal
EIRP
EIRP
(dBm)
(W)
BW
Channel Mode
(MHz)
UL RB
Allocation
UL RB
offset
Middle
9.71
0.0094
27.88
0.6138
9.71
0.0094
28.09
0.6442
10
QPSK
Middle 16 QAM
BW: 15MHz / RB=1, RB Offset=0
Band
26
Vertical
EIRP
EIRP
(dBm)
(W)
Horizontal
EIRP
EIRP
(dBm)
(W)
BW
Channel Mode
(MHz)
UL RB
Allocation
UL RB
offset
Middle
9.44
0.0088
27.71
0.5902
9.52
0.0090
28.14
0.6516
15
QPSK
Middle 16 QAM
- End of Test Report -
Download: EM7565 Nodegrid Test Report 90 LTE ZPE Systems, Inc.
Mirror Download [FCC.gov]EM7565 Nodegrid Test Report 90 LTE ZPE Systems, Inc.
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Document DescriptionTest Report 90 LTE
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Date Submitted2019-01-02 00:00:00
Date Available2019-01-02 00:00:00
Creation Date2018-12-21 14:44:46
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Document Lastmod2018-12-24 16:11:50
Document TitleTest Report 90 LTE
Document CreatorMicrosoft® Word 2016
Document Author: Allison Chen

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