Source: https://fccid.io/TA8AKRC161749-1/Test-Report/test-report-part-1-3659453
Timestamp: 2019-03-20 21:08:05
Document Index: 460476312

Matched Legal Cases: ['art 1', 'art 27', 'art 22', 'art 2', 'art 22', 'art 27', '§27', '§27', '§2', 'art 22', '§22', '§22', '§22', '§22', 'art 2', 'art 15', '§27', '§22', '§22', '§22', 'art 1', 'art 1']

AKRC161749-1 Multi-standard remote radio Test Report part 1 Ericsson AB
Ericsson AB Multi-standard remote radio
AKRC161749-1
Radio Test report – Radio 4449 B13 B5
341574-1TRFWL-R1
Radio 4449
Radio 4449 B13 B5
KRC 161 749/1
TA8AKRC161749-1
Requirements/Summary:
Andrey Adelberg, Senior EMC/Wireless Specialist
FCC 27 and RSS-130.docx; Date: Mar 2017
349 Terry Fox
K2K 2V6
+1 613 963 8000
FCC test site registration number: CA2040 (3 m semi anechoic chamber)
Report reference ID: 341574-1TRFWL-R1
Test method .......................................................................................................................................................................................................................... 4
FCC Part 27 test results ......................................................................................................................................................................................................... 5
FCC Part 22 test results ......................................................................................................................................................................................................... 5
EUT test details...................................................................................................................................................................................................................... 8
Setup photographs.............................................................................................................................................................................................................. 10
Engineering considerations ................................................................................................................................................................ 14
Modifications incorporated in the EUT ............................................................................................................................................................................. 14
Technical judgment ............................................................................................................................................................................................................. 14
Deviations from laboratory tests procedures ................................................................................................................................................................... 14
Test conditions .................................................................................................................................................................................. 15
Atmospheric conditions ...................................................................................................................................................................................................... 15
Power supply range ............................................................................................................................................................................................................ 15
Measurement uncertainty ................................................................................................................................................................. 16
Uncertainty of measurement ............................................................................................................................................................................................. 16
Test equipment ................................................................................................................................................................................. 17
Test equipment list ............................................................................................................................................................................................................. 17
Testing data ...................................................................................................................................................................................... 18
FCC 27.50(b) Maximum output power at RF antenna connector ................................................................................................................................... 18
FCC 22.913(а) Maximum ERP ............................................................................................................................................................................................. 25
FCC 27.53 Spurious emissions at RF antenna connector ................................................................................................................................................. 38
FCC 22.917(a) Spurious emissions at RF antenna connector........................................................................................................................................... 56
FCC 27.53 and 22.917(a) Radiated spurious emissions .................................................................................................................................................... 72
FCC 27.54 Frequency stability ............................................................................................................................................................................................ 81
FCC 22.355 Frequency tolerance ....................................................................................................................................................................................... 82
FCC Part 2.1049 Occupied bandwidth ............................................................................................................................................................................... 83
FCC Part 22.917(b) Occupied bandwidth .......................................................................................................................................................................... 86
Block diagrams of test set-ups ........................................................................................................................................................... 92
Radiated emissions set-up for frequencies below 1 GHz ................................................................................................................................................. 92
Radiated emissions set-up for frequencies above 1 GHz ................................................................................................................................................. 92
the requirements tested.
This report applies to the Radio 4449 B13 B5 with model numbers KRC 161 749/1.
FCC Part 27 test results
§27.50(b)
§27.53(f)
§2.1049
Maximum output power at RF antenna connector
Spurious emissions at RF antenna connector
Radiated spurious emissions within 1559–1610 MHz band
FCC Part 22 test results
§22.913
§22.917(a)
§22.917(b)
§22.355
Effective radiated power limits
Emission limitations for cellular equipment
RF BW / IBW
B5 Frequency range
B13 Frequency range
Nominal O/P per antenna port
Accuracy (nominal)
Maximum combined OBW per port
Radio 4449 B5 B13
B440591478
4 TX/RX Ports
B5: 25 MHz
B13: 10 MHz
B5: 45 MHz
B13: 31 MHz
TX (DL): 869–894 MHz
RX (UL): 824–849 MHz
TX (DL): 746–756 MHz
RX (UL): 777–787 MHz
Config 1: B5: Single Carrier, Ports A through D: 1 × 40 W (46 dBm)
Config 1: B13: Single Carrier, Ports A through D: 1 × 40 W (46 dBm)
Config 2: B5: Single Carrier, Ports A and D: 1 × 60W (47.78 dBm)
Config 2: B13: Single Carrier, Ports A and D: 1 × 60W (47.78 dBm)
2 × −48 VDC @ 20 A
LTE: SC, MIMO
LTE: QPSK, 16 QAM, 64 QAM, 256QAM
LTE: 5 MHz (B5), 10 MHz (B13)
LTE: 100 kHz
Radio: FCC Part 2, 22, 27
EMC: FCC Part 15, ICES-003
Total Power based on IBW
Supported carrier / port
Safety: IEC/EN 62368-1, UL/CSA 62368-1
IEC/EN 60950-22, IEC/EN 60529, UL 50E
5M00W7D (B5), 10M0W7D (B13)
SC, MC, Single Antenna, TX Diversity, MIMO, Carrier Aggregation
−40 °C to +55 °C
Config 1: 4 × 40 W (B5) + 4 × 40 W (B13)
Config 2: 2 × 60 W (B5) + 2 × 60 W (B13)
LTE BW, B5: 5 (1-3), 10 (1-2); LTE BW, B13: 5 (2), 10 (1)
EUT description of the methods used to exercise the EUT and all relevant ports:
The Radio 4449 B5 B13 (KRC 161 749/1) is a multi-standard remote radio forming part of the Ericsson RBS (Radio Base Station)
equipment. The Radio 4449 provides radio access for mobile and fixed devices and is designed for the outdoor environment. Ra dio unit
installation is designed for pole, wall or mast mount options intended for co-location near the antenna. A fiber optic interface provides
the RRU/RBS control and digital interface between the Radio and the RBS. The Radio 4449 product is convection cooled and sha ll be
Horizontal mounting is not supported on this product.
Output RF Power is rated at 4 × 80 W (config 1) and 2 × 120 W (config 2).
Altitude during operation: Below 3000 m
Radio 2212 B13 (R1A) Hardware
RF Out C
RF Out D
Antenna Line Device
Alarm and DC for Optional Fan Tray
Optical Interface Data 1
Optical Interface Data 2
2 × −48 VDC
Display - Radio Status
455 × 335 × 240 mm (H × W × D)
−40 to +55 °C
Pole, Wall Mount
Convection (optional fan tray - forced air)
CXP9013268/15-R69AJ11
Product: KRC 161 749/1
KRF 901 349/1
ROA 128 6579/1
ROA 128 6611/49
NTB 101 0202/1
KRY 901 400/491
ROA 128 6610/491
NTB 101 171/491
KRY 901 400/492
ROA 128 6610/492
NTB 101 171/492
AIB SW
Radio Board B5
Radio Board B13
Parts B13
Legal Overlay / Label
EUT test details
EUT setup/configuration rationale:
Test Model / Configuration
E-TM1.1
E-UTRA-UL
Single carrier B13
Transmit / DL, MHz
Receive / UL, MHz
Single carrier B5
EUT Monitoring Method / Equipment:
Node EMC Test System
Anritsu MS 2691 VSA/Sig Gen
Timing and Synchronization box (GPS)
RBS 6601, BFM 901 009/1:
DUS 4101 KDU 137 624/1, R7B, S/N: CD3B327591
DUS SW: CXP102051/25-R26DM
Input Voltage: −48 VDC
Figure 3.5-1: Setup diagram, conducted
Figure 3.6-1: Test / Measurement Equipment - Set up for Radio Compliance Testing
Figure 3.6-2: EUT Set-up for Radio Compliance Testing
Figure 3.6-3: EUT Set-up diagram for Radiated Compliance Testing
Figure 3.6-4: EUT Set-up for Radiated Compliance Testing
Attenuator (10dB)
Attenuator (30dB)
MCE/Weinschel
Preamp (1–18 GHz)
Note: NCR - no calibration required
NRP-8S
XKW60-50
WA-48-10-43-LIM
WA-48-30-33-LIM
RARFSW4X1
730-3D
52 K/J Thermocouple
2700M-10k
US36048294
MY55410202
US39175389
1144.1374K02-101123-ea
1138.0005.02-102838-bR
1138.0005.02.102476-Fg
1419.0006K02-101657-As
1419.0006K02-101651-Cw
1001425551
BJ6051
3748A06076
9801135
T01F311639
FA002716
FA002877
Sep. 30/18
Feb. 11/18
Jun. 27/18
FCC 27.50(b) Maximum output power at RF antenna connector
Fixed and base stations transmitting a signal in the 757–758 and 775–776 MHz bands must not exceed an effective radiated power (ERP)
of 1000 watts and an antenna height of 305 m height above average terrain (HAAT), except that antenna heights greater than 305 m HAAT
are permitted if power levels are reduced below 1000 watts ERP in accordance with Table 1 of this section.
(4) Fixed and base stations transmitting a signal in the 746–757 MHz, 758–763 MHz, 776–787 MHz, and 788–793 MHz bands with an emission
bandwidth greater than 1 MHz must not exceed an ERP of 1000 watts/MHz and an antenna height of 305 m HAAT, except that antenna
heights greater than 305 m HAAT are permitted if power levels are reduced below 1000 watts/MHz ERP accordance with Table 3 of this
(11) For transmissions in the 757–758, 775–776, 787–788, and 805–806 MHz bands, maximum composite transmit power shall be measured
over any interval of continuous transmission using instrumentation calibrated in terms of RMS-equivalent voltage. The measurement
results shall be properly adjusted for any instrument limitations, such as detector response times, limited resolution bandwidth capability
when compared to the emission bandwidth, etc., so as to obtain a true maximum composite measurement for the emission in question
over the full bandwidth of the channel.
(12) For transmissions in the 746–757, 758–763, 776–787, and 788–793 MHz bands, licensees may employ equipment operating in compliance
with either the measurement techniques described in paragraph (b)(11) of this section or a Commission-approved average power
technique. In both instances, equipment employed must be authorized in accordance with the provisions of §27.51
Based on the maximum RF power listed in this report, considerations pertaining to the maximum allowed EIRP (or ERP) and antenna type should be
considered for each installation.
Measurement was performed using RMS power meter.
Configuration 1: Port A with 40 W power, Port B with 40 W power, Port C with 40 W power, Port D with 40 W power.
Configuration 2: Port A with 60 W power, Port D with 60 W power.
Table 8.1-1: Output power measurement results for SISO operation (Configuration 1)
Antenna A, QPSK
Antenna B, QPSK
Antenna C, QPSK
Antenna D, QPSK
Antenna A, 16QAM
Antenna B, 16QAM
Antenna C, 16QAM
Antenna D, 16QAM
Antenna A, 64QAM
Antenna B, 64QAM
Antenna C, 64QAM
Antenna D, 64QAM
Antenna A, 256QAM
Antenna B, 256QAM
Antenna C, 256QAM
Antenna D, 256QAM
RF output power, W
Table 8.1-2: Power spectral density measurement results for SISO operation (Configuration 1)
RF power density, dBm/MHz
Table 8.1-3: Output power measurement results for MIMO operation (Configuration 1)
port A, dBm
port B, dBm
port C, dBm
port D, dBm
Table 8.1-4: Power spectral density measurement results for MIMO operation (Configuration 1)
port A, dBm/MHz
port B, dBm/MHz
port C, dBm/MHz
port D, dBm/MHz
Table 8.1-5: Output power measurement results for multi-band operation (Configuration 1)
B13 + B5 at low channel
B13 + B5 at mid channel
B13 + B5 at high channel
power port A,
power port B,
power port C,
power port D,
Table 8.1-6: Output power measurement results for SISO operation (Configuration 2)
Table 8.1-7: Power spectral density measurement results for SISO operation (Configuration 2)
Table 8.1-8: Output power measurement results for MIMO operation (Configuration 2)
RF output power port A,
RF output power port D,
Total output power, dBm
Table 8.1-9: Power spectral density measurement results for MIMO operation (Configuration 2)
RF power density port A,
RF power density port D,
Total power density,
Table 8.1-10: Output power measurement results for multi-band operation (Configuration 2)
Figure 8.1-1: Modulation characteristics, QPSK
Figure 8.1-2: Modulation characteristics, 16QAM
Figure 8.1-3: Modulation characteristics, 64QAM
Figure 8.1-4: Modulation characteristics, 256QAM
Table 8.1-11: Complementary Cumulative Distribution Function (CCDF) of the PAPR reduction measurement results (Configuration 1)
0.1% CCDF, dB
PAPR reduction limit, dB
Table 8.1-12: Complementary Cumulative Distribution Function (CCDF) of the PAPR reduction measurement results (Configuration 2)
Figure 8.1-5: CCDF, QPSK, Port A, configuration 1
Figure 8.1-6: CCDF, QPSK, Port B, configuration 1
Figure 8.1-7: CCDF, QPSK, Port C, configuration 1
Figure 8.1-8: CCDF, QPSK, Port D, configuration 1
Figure 8.1-9: CCDF, QPSK, Port A, configuration 2
Figure 8.1-10: CCDF, QPSK, Port D, configuration 2
Figure 8.1-11: Power spectral density, QPSK, Port A, configuration 1
Figure 8.1-12: Power spectral density, QPSK, Port B, configuration 1
Figure 8.1-13: Power spectral density, QPSK, Port C, configuration 1
Figure 8.1-14: Power spectral density, QPSK, Port D, configuration 1
Figure 8.1-15: Power spectral density, QPSK, Port A, configuration 2
Figure 8.1-16: Power spectral density, QPSK, Port D, configuration 2
FCC 22.913(a) Maximum ERP
FCC 22.913(а) Maximum ERP
Licensees in the Cellular Radiotelephone Service are subject to the effective radiated power (ERP) limits and other requirements in this Section. See also
§22.169.
(2) Except as described in paragraphs (a)(3) and (4) of this section, for systems operating in areas more than 72 kilometers (45 miles) from international
borders that:
(i) Are located in counties with population densities of 100 persons or fewer per square mile, based upon the most recently available population statistics
from the Bureau of the Census; or
(ii) Extend coverage into Unserved Area on a secondary basis (see §22.949), the ERP of base transmitters and repeaters must n ot exceed—
(3) Provided that they also comply with paragraphs (b) and (c) of this section, licensees are permitted to operate their base transmitters and repeaters with
an ERP greater than 400 watts/MHz (PSD) per sector, up to a maximum ERP of 1000 watts/MHz (PSD) per sector unless they meet the conditions in
(4) Provided that they also comply with paragraphs (b) and (c) of this section, licensees of systems operating in areas more than 72 kilometers (45 miles)
from international borders that:
(ii) Extend coverage into Unserved Area on a secondary basis (see §22.949), are permitted to operate base transmitters and re peaters with an ERP greater
than 800 watts/MHz (PSD) per sector, up to a maximum of 2000 watts/MHz (PSD) per sector.
Based on the maximum RF power listed in this report, considerations pertaining to the maximum allowed EIRP and antenna type should be considered
Table 8.2-1: Output power measurement results for SISO operation (Configuration 1)
Antenna A, QPSK, low channel
Antenna B, QPSK, low channel
Antenna C, QPSK, low channel
Antenna D, QPSK, low channel
Antenna A, 16QAM, low channel
Antenna B, 16QAM, low channel
Antenna C, 16QAM, low channel
Antenna D, 16QAM, low channel
Antenna A, 64QAM, low channel
Antenna B, 64QAM, low channel
Antenna C, 64QAM, low channel
Antenna D, 64QAM, low channel
Antenna A, 256QAM, low channel
Antenna B, 256QAM, low channel
Antenna C, 256QAM, low channel
Antenna D, 256QAM, low channel
Antenna A, QPSK, mid channel
Antenna B, QPSK, mid channel
Antenna C, QPSK, mid channel
Antenna D, QPSK, mid channel
Antenna A, QPSK, high channel
Antenna B, QPSK, high channel
Antenna C, QPSK, high channel
Antenna D, QPSK, high channel
Table 8.2-2: Power spectral density measurement results for SISO operation (Configuration 1)
Table 8.2-3: Output power measurement results for MIMO operation (Configuration 1)
QPSK, low channel
16QAM, low channel
64QAM, low channel
256QAM, low channel
QPSK, mid channel
QPSK, high channel
Table 8.2-4: Power spectral density measurement results for MIMO operation (Configuration 1)
density port A,
density port B,
density port C,
density port D,
Table 8.2-5: Output power measurement results for multi-band operation (Configuration 1)
Table 8.2-6: Output power measurement results for SISO operation (Configuration 2)
Table 8.2-7: Power spectral density measurement results for SISO operation (Configuration 2)
Table 8.2-8: Output power measurement results for MIMO operation (Configuration 2)
RF output power port
A, dBm
D, dBm
Table 8.2-9: Output power measurement results for multi-band operation (Configuration 2)
Table 8.2-10: Power spectral density measurement results for MIMO operation (Configuration 2)
RF power density port
A, dBm/MHz
D, dBm/MHz
Figure 8.2-1: Modulation characteristics, QPSK
Figure 8.2-2: Modulation characteristics, 16QAM
Figure 8.2-3: Modulation characteristics, 64QAM
Figure 8.2-4: Modulation characteristics, 256QAM
Table 8.2-11: Complementary Cumulative Distribution Function (CCDF) of the PAPR reduction measurement results (Configuration 1)
Antenna A, low channel
Antenna B, low channel
Antenna C, low channel
Antenna D, low channel
Antenna A, mid channel
Antenna B, mid channel
Antenna C, mid channel
Antenna D, mid channel
Antenna A, high channel
Antenna B, high channel
Antenna C, high channel
Antenna D, high channel
Figure 8.2-5: CCDF, QPSK, Port A, low channel, configuration 1
Figure 8.2-6: CCDF, QPSK, Port B, low channel, configuration 1
Figure 8.2-7: CCDF, QPSK, Port C, low channel, configuration 1
Figure 8.2-8: CCDF, QPSK, Port D, low channel, configuration 1
Figure 8.2-9: CCDF, QPSK, Port A, mid channel, configuration 1
Figure 8.2-10: CCDF, QPSK, Port B, mid channel, configuration 1
Figure 8.2-11: CCDF, QPSK, Port C, mid channel, configuration 1
Figure 8.2-12: CCDF, QPSK, Port D, mid channel, configuration 1
Figure 8.2-13: CCDF, QPSK, Port A, high channel, configuration 1
Figure 8.2-14: CCDF, QPSK, Port B, high channel, configuration 1
Figure 8.2-15: CCDF, QPSK, Port C, high channel, configuration 1
Figure 8.2-16: CCDF, QPSK, Port D, high channel, configuration 1
Table 8.2-12: Complementary Cumulative Distribution Function (CCDF) of the PAPR reduction measurement results (Configuration 2)
Figure 8.2-17: CCDF, QPSK, Port A, low channel, configuration 2
Figure 8.2-18: CCDF, QPSK, Port D, low channel, configuration 2
Figure 8.2-19: CCDF, QPSK, Port A, mid channel, configuration 2
Figure 8.2-20: CCDF, QPSK, Port D, mid channel, configuration 2
Figure 8.2-21: CCDF, QPSK, Port A, high channel, configuration 2
Figure 8.2-22: CCDF, QPSK, Port D, high channel, configuration 2
Figure 8.2-23: Power spectral density, QPSK, Port A, low channel,
Figure 8.2-24: Power spectral density, QPSK, Port B, low channel,
Figure 8.2-25: Power spectral density, QPSK, Port C, low channel,
Figure 8.2-26: Power spectral density, QPSK, Port D, low channel,
Figure 8.2-27: Power spectral density, QPSK, Port A, mid channel,
Figure 8.2-28: Power spectral density, QPSK, Port B, mid channel,
Figure 8.2-29: Power spectral density, QPSK, Port C, mid channel,
Figure 8.2-30: Power spectral density, QPSK, Port D, mid channel,
Figure 8.2-31: Power spectral density, QPSK, Port A, high channel,
Figure 8.2-32: Power spectral density, QPSK, Port B, high channel,
Figure 8.2-33: Power spectral density, QPSK, Port C, high channel,
Figure 8.2-34: Power spectral density, QPSK, Port D, high channel,
Figure 8.2-35: Power spectral density, QPSK, Port A, low channel,
Figure 8.2-36: Power spectral density, QPSK, Port D, low channel,
Figure 8.2-37: Power spectral density, QPSK, Port A, mid channel,
Figure 8.2-38: Power spectral density, QPSK, Port D, mid channel,
Figure 8.2-39: Power spectral density, QPSK, Port A, high channel,
Figure 8.2-40: Power spectral density, QPSK, Port D, high channel,
Clause 27.53 Spurious emissions at RF antenna connector
FCC 27.53 Spurious emissions at RF antenna connector
(c) For operations in the 746–758 MHz band and the 776–788 MHz band, the power of any emission outside the licensee's frequency band(s) of operation
shall be attenuated below the transmitter power (P) within the licensed band(s) of operation, measured in watts, in accordance with th e following:
(1) On any frequency outside the 746–758 MHz band, the power of any emission shall be attenuated outside the band below the transmitter power (P) by
at least 43 + 10 log (P) dB;
(2) On any frequency outside the 776–788 MHz band, the power of any emission shall be attenuated outside the band below the transmitter power (P) by
(3) On all frequencies between 763–775 MHz and 793–805 MHz, by a factor not less than 76 + 10 log (P) dB in a 6.25 kHz band segment, for base and fixed
(4) On all frequencies between 763–775 MHz and 793–805 MHz, by a factor not less than 65 + 10 log (P) dB in a 6.25 kHz band segment, for mobile and
portable stations;
(5) Compliance with the provisions of paragraphs (c)(1) and (c)(2) of this section is based on the use of measurement instrumentation employing a
resolution bandwidth of 100 kHz or greater. However, in the 100 kHz bands immediately outside and adjacent to the frequency block, a resolution
bandwidth of at least 30 kHz may be employed;
(6) Compliance with the provisions of paragraphs (c)(3) and (c)(4) of this section is based on the use of measurement instrumentation such that the
reading taken with any resolution bandwidth setting should be adjusted to indicate spectral energy in a 6.25 kHz segment.
The spectrum was searched from 30 MHz to the 10 th harmonic.
All measurements were performed using a RMS detector.
For compensation of MIMO 4×4 application (configuration 1) limit lines were adjusted by 6 dB (10 × Log10(4))
For compensation of MIMO 2×2 application (configuration 2) limit lines were adjusted by 3 dB (10 × Log 10(2))
RBW within 30–1000 MHz was 100 kHz and 1 MHz above 1 GHz. VBW was wider than RBW.
Figure 8.3-1: Conducted spurious emissions within at Port A, QPSK,
Figure 8.3-2: Conducted spurious emissions within at Port B, QPSK,
Figure 8.3-3: Conducted spurious emissions within at Port C, QPSK,
Figure 8.3-4: Conducted spurious emissions within at Port D, QPSK,
Figure 8.3-5: Conducted band edge emission at 746 MHz, Port A, QPSK,
Figure 8.3-6: Conducted band edge emission at 745.9 MHz, Port A, QPSK,
Figure 8.3-7: Conducted band edge emission at 746 MHz, Port B, QPSK,
Figure 8.3-8: Conducted band edge emission at 745.9 MHz, Port B, QPSK,
Figure 8.3-9: Conducted band edge emission at 746 MHz, Port C, QPSK,
Figure 8.3-10: Conducted band edge emission at 745.9 MHz, Port C, QPSK,
Figure 8.3-11: Conducted band edge emission at 746 MHz, Port D, QPSK,
Figure 8.3-12: Conducted band edge emission at 745.9 MHz, Port D, QPSK,
Figure 8.3-13: Conducted band edge emission at 756 MHz, Port A, QPSK,
Figure 8.3-14: Conducted band edge emission at 756.1 MHz, Port A, QPSK,
Figure 8.3-15: Conducted band edge emission at 756 MHz, Port B, QPSK,
Figure 8.3-16: Conducted band edge emission at 756.1 MHz, Port B, QPSK,
Figure 8.3-17: Conducted band edge emission at 756 MHz, Port C, QPSK,
Figure 8.3-18: Conducted band edge emission at 756.1 MHz, Port C, QPSK,
Figure 8.3-19: Conducted band edge emission at 756 MHz, Port D, QPSK,
Figure 8.3-20: Conducted band edge emission at 756.1 MHz, Port D, QPSK,
Figure 8.3-21: Conducted spurious emission within 763–775 MHz,
Port A, QPSK, multi-band mode: Band 13 and Band 5 at low channel,
Figure 8.3-22: Conducted spurious emission within 763–775 MHz,
Port B, QPSK, multi-band mode: Band 13 and Band 5 at low channel,
Figure 8.3-23: Conducted spurious emission within 763–775 MHz,
Port C, QPSK, multi-band mode: Band 13 and Band 5 at low channel,
Figure 8.3-24: Conducted spurious emission within 763–775 MHz,
Port D, QPSK, multi-band mode: Band 13 and Band 5 at low channel,
Figure 8.3-25: Conducted spurious emission within 763–775 MHz,
Port A, QPSK, multi-band mode: Band 13 and Band 5 at mid channel,
Figure 8.3-26: Conducted spurious emission within 763–775 MHz,
Port B, QPSK, multi-band mode: Band 13 and Band 5 at mid channel,
Figure 8.3-27: Conducted spurious emission within 763–775 MHz,
Port C, QPSK, multi-band mode: Band 13 and Band 5 at mid channel,
Figure 8.3-28: Conducted spurious emission within 763–775 MHz,
Port D, QPSK, multi-band mode: Band 13 and Band 5 at mid channel,
Document ID 3659453
Application ID BHcUq/EvcT8LHwb49FJxPQ==
Document Description test report part 1
Filesize 490.11kB (6126423 bits)
Date Submitted 2017-11-30 00:00:00
Date Available 2017-11-30 00:00:00
Creation Date 2017-11-30 15:01:22
Document Lastmod 2017-11-30 15:01:25
Document Title test report part 1
Modify Date                     : 2017:11:30 15:01:25-05:00
Create Date                     : 2017:11:30 15:01:22-05:00
Metadata Date                   : 2017:11:30 15:01:25-05:00
Document ID                     : uuid:2b18e313-6297-4287-ad3f-f81ca7ab9476
Instance ID                     : uuid:8a39b6fa-0400-4043-9429-5fa913368a80
Page Count                      : 45