Motorola Mobility LLC T56AN8 Mobile Cellular Phone IHDT56AN8 IHDT56AN8 t56an8
ADR TEST AND CERTIFICATION CENTER
Report No.: TR-24ADRTCC7009
FCC TEST REPORT
Name of Sample: Model of Sample: Applicant: Issue Date:
Mobile Cellular Phone XT2427-1 Motorola Mobility LLC 2024-05-22
ADR TEST AND CERTIFICATION CENTER Motorola Mobility LLC, a Lenovo Company
Add: No. 19, Gao Xin 4th Road Wuhan, People's Republic of China 430205 Phone: (86)18702717862
E-mail: lucz1@motorola.com
FCC RF Test Report
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
Report No.: TR-24ADRTCC7009
Name of Client
Motorola Mobility LLC
Address of Client 222 W, Merchandise Mart Plaza, Chicago IL 60654 USA
Trademark Applicant No. Delivering Date
Motorola RF176511 2024-04-01
Type Name or ID FCC ID: IHDT56AN8
Sample No.
1#: N9ML2K0110 2#: N9ML2K0105
Test Date
2024-04-01 to 2024-05-06
Sample Illustration None
Standard
47 CFR Part 2; 47 CFR Part 22; 47 CFR Part 24; 47 CFR Part 27; 47 CFR Part 90;
Conclusion
Pass
Remarks
N/A
Editor: Wangzhenyu Auditor: Hexiaolin
Approver: HuangshengLin
FCC RF Test Report
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
Report No.: TR-24ADRTCC7009
Matters Needing Attention
a) The electronic report shall be valid after encryption. b) The paper report shall be valid after being stamped with the official seal of the company. c) The report is invalid without the signature of the Editor, Auditor and Approver. d) The test report is invalid if there is any evidence of erasure and/or falsification. e) If there is any dissidence for the test report, please file objection to the lab within 15 days from
the date of receiving the test report. f) The test report is only responsible for the tested model/sample. The sample(s) presented in this
report are provided by client. g) Context of the test report cannot be used partially or in full for publicity and/or promotional
purposes without previous written approval of the lab.
Report No. TR-24ADRTCC7009 TR-24ADRTCC7009 TR-24ADRTCC7009
Version Rev.01 Rev.02 Rev.03
Revision History
Description
Issued Date
Initial issue of report Update Accessories on Page11-12 Update n7/38/41 Band Edge limit description.
2024-05-06 2024-05-17 2024-05-22
FCC RF Test Report
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
Report No.: TR-24ADRTCC7009
Catalogue
1. TEST SUMMARY ............................................................................................................................................................. 5
1.1. 5G NR BAND N5/N26................................................................................................................................................................. 5 1.2. 5G NR BAND N2.......................................................................................................................................................................... 5 1.3. 5G NR BAND N66 ....................................................................................................................................................................... 5 1.4. 5G NR BAND N7/N38/N41 ....................................................................................................................................................... 6 1.5. 5G NR BAND N26 (814-824)................................................................................................................................................... 6 1.6. 5G NR BAND N78 (3450-3550) .............................................................................................................................................. 6
2. MAXIMUM EFFECTIVE RADIATED (ISOTROPIC) POWER AND EMISSION DESIGNATOR............................ 7
2.1. NR SYSTEM.................................................................................................................................................................................... 7
3. GENERAL INFORMATION .......................................................................................................................................... 11
3.1. GENERAL DESCRIPTION OF EUT................................................................................................................................................11 3.2. TEST ENVIRONMENT ...................................................................................................................................................................11 3.3. SPECIFICATION OF ACCESSORIES ...............................................................................................................................................11
4. TEST CONFIGURATION OF EQUIPMENT UNDER TEST....................................................................................... 12
4.1. TEST MODE FOR NR CONFIGURATION.....................................................................................................................................12 4.2. TEST FREQUENCIES......................................................................................................................................................................14
5. DESCRIPTION OF TESTS ............................................................................................................................................. 16
5.1. CONDUCTED OUTPUT POWER MEASUREMENT .......................................................................................................................16 5.2. EFFECTIVE (ISOTROPIC) RADIATED POWER ...............................................................................................................................16 5.3. PEAK-TO-AVERAGE RATIO MEASUREMENT.............................................................................................................................16 5.4. 99% OCCUPIED BANDWIDTH & 26DB EMISSION BANDWIDTH .............................................................................................17 5.5. CONDUCTED BAND EDGE MEASUREMENT ...............................................................................................................................18 5.6. CONDUCTED SPURIOUS EMISSION MEASUREMENT.................................................................................................................18 5.7. FREQUENCY STABILITY MEASUREMENT.....................................................................................................................................19
6. LIST OF MEASURING EQUIPMENT .......................................................................................................................... 20
7. MEASUREMENT UNCERTAINTY ............................................................................................................................... 20
7.1. UNCERTAINTY OF CONDUCTED MEASUREMENT ......................................................................................................................20
8. APPENDIXES .................................................................................................................................................................. 20
FCC RF Test Report
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LML-R-TCC-201 V1.5
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Report No.: TR-24ADRTCC7009
1. Test Summary
1.1. 5G NR Band n5/n26
Test Item Conducted Power
Rule No. §2.1046
Effective Radiated Power
§22.913(a)(5)
Peak-Average Ratio
§22.913(d)
Requirements Report Only ERP < 7W
<13 dB
Modulation Characteristics Occupied Bandwidth 26dB Emission Bandwidth
Conducted Band Edges
§2.1047
§2.1049
§2.1051 §22.917(a)
Conducted Spurious Emission
Frequency Stability
1.2. 5G NR Band n2
Test Item Conducted Power Effective Isotropic Radiated Power
Peak-Average Ratio
§2.1051 §22.917(a) §2.1055 §22.355
Rule No. §2.1046 §24.232(c)
§24.232(d)
Digital modulation
No limit No limit < -13 dBm/1%*EBW, in 1 MHz bands immediately outside and adjacent to the frequency block. < -13 dBm/100 kHz, from 9 kHz to 10th harmonics but outside authorized operating frequency ranges
< ±2.5ppm
Requirements Report Only EIRP < 2W
<13 dB
Modulation Characteristics Occupied Bandwidth 26dB Emission Bandwidth
Conducted Band Edges
§2.1047
§2.1049
§2.1051 §24.238(a)
Conducted Spurious Emission
§2.1051 §24.238(a)
Frequency Stability
§24.235
1.3. 5G NR Band n66
Test Item Conducted Power Effective Isotropic Radiated Power
Rule No. §2.1046
§27.50(d)
Peak-Average Ratio
---
Digital modulation
No limit No limit < -13 dBm/1%*EBW, in 1 MHz bands immediately outside and adjacent to the frequency block. < -13 dBm/MHz, from 9 kHz to 10th harmonics but outside authorized operating frequency ranges.
< ±2.5 ppm
Requirements Report Only EIRP < 1W
<13 dB
Modulation Characteristics Occupied Bandwidth 26dB Emission Bandwidth
Conducted Band Edges
Conducted Spurious Emission
§2.1047
§2.1049
§2.1051 §27.53(h)
§2.1051 §27.53(h)
Frequency Stability
§27.54
Digital modulation
No limit No limit < -13 dBm/1%*EBW, in 1 MHz bands immediately outside and adjacent to the frequency block. < -13 dBm/MHz, from 9 kHz to 10th harmonics but outside authorized operating frequency ranges
Within authorized bands
Test Result Section 1 of Appendix B
Section 2 of Appendix B
Section 3 of Appendix B
Section 4 of Appendix B
Section 5 of Appendix B
Verdict Pass Pass Pass Pass Pass
Section 6 of Appendix B
Section 7 of Appendix B
Pass Pass
Test Result
Section 1 of Appendix B
Section 2 of Appendix B
Section 3 of Appendix B
Section 4 of Appendix B
Section 5 of Appendix B
Verdict Pass Pass Pass Pass Pass
Section 6 of Appendix B
Section 7 of Appendix B
Pass Pass
Test Result
Section 1 of Appendix B
Section 2 of Appendix B
Section 3 of Appendix B
Section 4 of Appendix B
Section 5 of Appendix B
Verdict Pass Pass Pass Pass Pass
Section 6 of Appendix B
Section 7 of Appendix B
Pass Pass
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LML-R-TCC-201 V1.5
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Report No.: TR-24ADRTCC7009
1.4. 5G NR Band n7/n38/n41
Test Item Conducted Power Effective Isotropic Radiated Power
Rule No. §2.1046
§27.50(h) (2)
Peak-Average Ratio
§27.50(a)
Modulation Characteristics
Occupied Bandwidth 26dB Emission Bandwidth
§2.1047 §2.1049
Conducted Band Edges
§2.1051 §27.53(m) (4)
Conducted Spurious Emission
§2.1051 §27.53(m) (4)
Frequency Stability
§27.54
1.5. 5G NR Band n26 (814-824)
Test Item
Rule No.
Conducted Power
§2.1046 §90.635
Peak-Average Ratio
---
Modulation Characteristics
Occupied Bandwidth 26dB Emission Bandwidth
§2.1047 §2.1049
Emission Mask
§2.1051 § 90.691
Conducted Spurious Emission
§2.1051 §90.691
Frequency Stability
§90.213
1.6. 5G NR Band n78 (3450-3550)
Test Item Conducted Power Effective Isotropic Radiated Power
Rule No. §2.1046
§27.50(k) (3)
Peak-Average Ratio
§27.50(k) (4)
Requirements Report Only
EIRP < 2W
Test Result
Section 1 of Appendix B
<13 dB
Digital modulation
No limit No limit For mobile digital stations, the attenuation factor shall be not less than 40 + 10 log (P) dB on all frequencies between the channel edge and 5 megahertz from the channel edge, 43 + 10 log (P) dB on all frequencies between 5 megahertz and X megahertz from the channel edge, and 55 + 10 log (P) dB on all frequencies more than X megahertz from the channel edge, where X is the greater of 6 megahertz or the actual emission bandwidth as defined in paragraph (m)(6) of this section In addition, the attenuation factor shall not be less that 43 + 10 log (P) dB on all frequencies between 2490.5 MHz and 2496 MHz and 55 + 10 log (P) dB at or below 2490.5MHz.
< -25 dBm/MHz for outside Band Edge Range
Section 2 of Appendix B Section 3 of Appendix B Section 4 of Appendix B
Section 5 of Appendix B
Section 6 of Appendix B
Within authorized bands
Section 7 of Appendix B
Verdict Pass Pass Pass Pass
Pass
Pass Pass
Requirements
Report Only
<13 dB
Digital modulation
No limit No limit For any frequency removed from the EA licensee's frequency block by up to and including 37.5 kHz, the power of any emission shall be attenuated below the transmitter power (P) in watts by at least 116 Log10(f/6.1) decibels or 50+10Log10(P) decibels or 80 decibels, whichever is the lesser attenuation, where f is the frequency removed from the center of the outer channel in the block in kilohertz and where f is greater than 12.5 kHz. < 43 + 10Log10(P[Watts]) for all out-of-band emissions
< ±2.5ppm
Test Result Section 1 of Appendix B Section 2 of Appendix B Section 3 of Appendix B Section 4 of Appendix B
Section 5 of Appendix B
Section 6 of Appendix B Section 7 of Appendix B
Verdict PASS PASS PASS PASS
PASS
PASS PASS
Requirements Report Only EIRP < 1W
<13 dB
Test Result Section 1 of Appendix B
Section 2 of
Verdict Pass Pass
FCC RF Test Report
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
Report No.: TR-24ADRTCC7009
Test Item
Rule No.
Requirements
Modulation Characteristics Occupied Bandwidth 26dB Emission Bandwidth
Conducted Band Edges
§2.1047
§2.1049 §2.1051 §27.53(n) (2)
Digital modulation No limit No limit
< -13 dBm/MHz
Test Result Appendix B
Section 3 of Appendix B
Section 4 of Appendix B
Section 5 of Appendix B
Verdict Pass Pass Pass
Conducted Spurious Emission
§2.1051 §27.53(n) (2)
< -13 dBm/MHz
Section 6 of Appendix B
Pass
Frequency Stability
§27.54
Within authorized bands
Section 7 of Appendix B
Pass
Remark:
1 Only 5G NR Bands conducted test performed and the data displayed in this report, the radiated spurious emission refer to the report (FG432901G).
2 The maximum E(I)RP is calculated from max output power and max antenna gain, only the max E(I)RP data
displayed in this report, n5/n26 for Antenna 0; n2/n7/n38/n41/n66 for Antenna 1; n78 for antenna 3.
3 5G NR Bands support SA mode for n2/n5/n7/n26/n38/n41/n78 and NSA mode for n2/n5/n7/n38/n41/n66/n78.
4 The test has been assessed on SA and NSA mode, but only the worst mode performed the whole conducted test
items by referring to the max conducted power.
5 The ENDC combination could be referred to the product specification.
2. Maximum Effective Radiated (Isotropic) Power and Emission Designator
2.1. NR System
2.1.1. NR Band n2 (1850-1910)
5G NR SA
Pi/2 BPSK / QPSK
16QAM/64QAM/256QAM
(n2A)
Bandwidth
Frequency Range (MHz)
Maximum EIRP (W)
Emission Designator 99% OBW
Maximum Emission Designator
EIRP (W)
99% OBW
5MHz
1852.5-1907.5
0.083368
4M48G7D
0.070146
4M49W7D
10MHz
1855.0-1905.0
0.090573
9M29G7D
0.068865
9M29W7D
15MHz
1857.5-1902.5
0.083560
14M1G7D
0.069984
14M1W7D
20MHz
1860.0-1900.0
0.081846
18M9G7D
0.071614
19M0W7D
2.1.2. NR Band n5 (824-849)
5G NR SA
(n5A)
Bandwidth
Frequency Range (MHz)
5MHz
826.5-846.5
10MHz
829.0-844.0
15MHz
831.5-841.5
20MHz
834.0-839.0
Pi/2 BPSK / QPSK
16QAM/64QAM/256QAM
Maximum ERP (W)
Emission Designator 99% OBW
Maximum Emission Designator
ERP (W)
99% OBW
0.025942 0.025586 0.026062 0.025645
4M48G7D 9M25G7D 14M1G7D 18M9G7D
0.021627 0.020893 0.022284 0.021184
4M49W7D 9M29W7D 14M1W7D 18M9W7D
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2.1.3. NR Band n7 (2500-2570)
5G NR SA
(n7A)
Bandwidth
Frequency Range (MHz)
5MHz
2502.5-2567.5
10MHz
2505.0-2565.0
15MHz
2507.5-2562.5
20MHz
2510.0-2560.0
25MHz
2512.5-2557.5
30MHz
2515.0-2555.0
40MHz
2520.0-2550.0
Pi/2 BPSK / QPSK
Maximum EIRP (W)
Emission Designator 99% OBW
0.079616 0.084333 0.080724 0.080353 0.085114 0.085310 0.085310
4M48G7D 9M29G7D 14M1G7D 18M9G7D 23M7G7D 28M5G7D 38M7G7D
16QAM/64QAM/256QAM
Maximum Emission Designator
EIRP (W)
99% OBW
0.068549 0.066681 0.067453 0.069502 0.070469 0.069024 0.069343
4M51W7D 9M31W7D 14M2W7D 19M0W7D 23M7W7D 28M6W7D 38M6W7D
5G NR NSA
(DC_66A_n7A)
Bandwidth
Frequency Range (MHz)
5MHz
2502.5-2567.5
10MHz
2505.0-2565.0
15MHz
2507.5-2562.5
20MHz
2510.0-2560.0
25MHz
2512.5-2557.5
30MHz
2515.0-2555.0
40MHz
2520.0-2550.0
Pi/2 BPSK / QPSK
16QAM/64QAM/256QAM
Maximum EIRP (W)
Emission Designator 99% OBW
Maximum Emission Designator
EIRP (W)
99% OBW
0.070469 0.071945 0.068549 0.066834 0.069663 0.069663 0.068865
4M48G7D 9M27G7D 14M1G7D 18M9G7D 23M7G7D 28M5G7D 38M7G7D
0.055208 0.057148 0.055208 0.053703 0.054828 0.054325 0.054450
4M49W7D 9M29W7D 14M1W7D 19M0W7D 23M7W7D 28M6W7D 38M6W7D
2.1.4. NR Band n26 (814-824)
5G NR SA
(n26A)
Bandwidth
Frequency Range (MHz)
5MHz
816.5-821.5
10MHz
819.0
15MHz
821.5
20MHz
824.0
Pi/2 BPSK / QPSK
Maximum
Emission
Conducted
Designator
Power (W)
99% OBW
0.185780
4M48G7D
0.171791
9M27G7D
0.175792
14M1G7D
0.177828
18M9G7D
16QAM/64QAM/256QAM
Maximum
Emission
Conducted
Designator
Power (W)
99% OBW
0.151705
4M48W7D
0.138676
9M29W7D
0.145881
14M1W7D
0.146555
19M0W7D
2.1.5. NR Band n26 (824-849)
5G NR SA
(n26A)
Bandwidth
Frequency Range (MHz)
5MHz
826.5-846.5
10MHz
829.0-844.0
15MHz
831.5-841.5
20MHz
834.0-839.0
FCC RF Test Report
Pi/2 BPSK / QPSK
16QAM/64QAM/256QAM
Maximum ERP (W)
Emission Designator 99% OBW
Maximum Emission Designator
ERP (W)
99% OBW
0.024604 0.025119 0.025061 0.024210
4M48G7D 9M25G7D 14M1G7D 18M9G7D
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0.020941 0.020417 0.020464 0.021429
4M49W7D 9M29W7D 14M1W7D 18M9W7D
LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
Report No.: TR-24ADRTCC7009
2.1.6. NR Band n38 (2570-2620)
5G NR SA
Pi/2 BPSK / QPSK
(n38A)
Bandwidth
Frequency Range (MHz)
Maximum EIRP (W)
Emission Designator 99% OBW
20MHz
2580.0-2610.0
0.076033
18M2G7D
30MHz
2585.0-2605.0
0.077625
27M8G7D
40MHz
2590.0-2600.0
0.078524
37M8G7D
16QAM/64QAM/256QAM
Maximum Emission Designator
EIRP (W)
99% OBW
0.065013 0.061235 0.064565
18M2W7D 27M9W7D 37M8W7D
2.1.7. NR Band n41 (2496-2690)
5G NR SA
(n41A)
Bandwidth
Frequency Range (MHz)
20MHz
2506.02-2679.99
30MHz
2511.00-2674.98
40MHz
2516.01-2670.00
50MHz
2521.02-2664.99
60MHz
2526.00-2659.98
70MHz
2531.01-2655.00
80MHz
2536.02-2649.99
90MHz
2541.00-2644.98
100MHz
2546.01-2640.00
Pi/2 BPSK / QPSK
Maximum EIRP (W)
Emission Designator 99% OBW
0.079433 0.083368 0.084528 0.079616 0.078886 0.077268 0.077268 0.075858 0.075858
18M2G7D 27M8G7D 37M8G7D 47M4G7D 57M8G7D 67M6G7D 77M2G7D 87M0G7D 97M1G7D
16QAM/64QAM/256QAM
Maximum Emission Designator
EIRP (W)
99% OBW
0.067608 0.065013 0.069823 0.064565 0.063826 0.061944 0.062230 0.061376 0.061235
18M2W7D 27M9W7D 37M9W7D 47M6W7D 57M8W7D 67M4W7D 77M4W7D 87M4W7D 97M1W7D
2.1.8. NR Band n66 (1710-1780)
5G NR SA
(n66A)
Bandwidth
Frequency Range (MHz)
5MHz
1712.5-1777.5
10MHz
1715.0-1775.0
15MHz
1717.5-1772.5
20MHz
1720.0-1770.0
30MHz
1725.0-1765.0
40MHz
1730.0-1760.0
Pi/2 BPSK / QPSK
Maximum EIRP (W)
Emission Designator 99% OBW
0.103753 0.110662 0.106660 0.102565 0.103753 0.103276
4M48G7D 9M29G7D 14M1G7D 18M9G7D 28M6G7D 38M7G7D
16QAM/64QAM/256QAM
Maximum Emission Designator
EIRP (W)
99% OBW
0.088920 0.085507 0.086896 0.090365 0.086099 0.086696
4M49W7D 9M31W7D 14M2W7D 19M0W7D 28M6W7D 38M6W7D
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5G NR NSA
(DC_7A_n66A)
Bandwidth
Frequency Range (MHz)
5MHz
1712.5-1777.5
10MHz
1715.0-1775.0
15MHz
1717.5-1772.5
20MHz
1720.0-1770.0
30MHz
1725.0-1765.0
40MHz
1730.0-1760.0
Pi/2 BPSK / QPSK
16QAM/64QAM/256QAM
Maximum EIRP (W)
Emission Designator 99% OBW
Maximum Emission Designator
EIRP (W)
99% OBW
0.071450 0.071614 0.069183 0.070307 0.070795 0.069984
4M49G7D 9M29G7D 14M2G7D 18M9G7D 28M7G7D 38M8G7D
0.057280 0.057148 0.055335 0.056234 0.055719 0.055463
4M49W7D 9M29W7D 14M2W7D 19M0W7D 28M7W7D 38M6W7D
2.1.9. NR Band n78 (3450-3550)
5G NR SA
Bandwidth
20MHz 30MHz 40MHz 50MHz 60MHz 70MHz 80MHz 90MHz 100MHz
Frequency Range (MHz) 3460.02-3540.00 3465.00-3534.99 3470.01-3529.98 3475.02-3525.00 3480.00-3519.99 3485.01-3514.98 3490.02-3510.00 3495.00-3504.99
3500.01
Pi/2 BPSK / QPSK
Maximum EIRP (W)
Emission Designator 99% OBW
0.117761 0.122744 0.121339 0.110917 0.113240 0.112202 0.111173 0.106660 0.104954
18M2G7D 27M8G7D 37M8G7D 47M5G7D 57M8G7D 67M4G7D 77M4G7D 87M4G7D 97M1G7D
16QAM/64QAM/256QAM
Maximum Emission Designator
EIRP (W)
99% OBW
0.098175 0.097949 0.099541 0.089331 0.090991 0.087700 0.091201 0.085507 0.082224
18M2W7D 27M9W7D 37M8W7D 47M5W7D 57M9W7D 67M4W7D 77M5W7D 87M2W7D 97M3W7D
FCC RF Test Report
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LML-R-TCC-201 V1.5
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Report No.: TR-24ADRTCC7009
3. General Information
3.1. General Description of EUT
EUT Description:
Mobile Cellular Phone
Brand Name:
Motorola
Model Name:
XT2427-1
FCC ID:
IHDT56AN8
IMEI Code:
1#: 350699730028631/3500699730028649 (Conducted); 2#: 350699730028615/350699730028623 (Conducted);
Hardware Version:
DVT2
Software Version:
U3UO34.38
NR Modulation:
DFT-s-OFDM: Pi/2BPSK; QPSK; 16QAM; 64QAM; CP-OFDM: QPSK; 16QAM; 64QAM; 256QAM;
256QAM;
Sample Type:
Portable Device, Module
Antenna Type:
External, Integrated
n2: -4.00dBi (Ant1); -3.00dBi (Ant4);
n5: -6.50dBi (Ant0); -6.00dBi (Ant4);
n7: -4.50dBi (Ant1); -3.10dBi (Ant4);
Antenna Gain:
n26: -6.50dBi (Ant0); -6.00dBi (Ant4); n38: -4.50dBi (Ant1);
n41: -4.50dBi (Ant1);
n66: -3.00dBi (Ant1); -4.00dBi (Ant4);
n78: -3.00dBi (Ant3); -4.50dBi (Ant5); -6.50dBi (Ant7); -4.00dBi (Ant8);
Remark
1 The information above was declared by manufacture. Please refer to the specifications or user manual for more
detailed description.
3.2. Test Environment
Relative Humidity:
52.0% - 62.0%
Atmospheric Pressure: 101.32 KPa
Temperature:
NT (normal temperature)
25.0 °C 27.5 °C
LV (Low voltage)
3.60V
Voltage:
NV (Nominal voltage)
3.91V
HV (High voltage)
4.50V
3.3. Specification of Accessories
Accessory
Brand Name
Adapter 1 (US)
Motorola (Chenyang)
AC Adapter 1 (EU)
Motorola (Chenyang)
AC Adapter 1 (AU)
Motorola (Chenyang)
AC Adapter 1 (AR)
Motorola (Chenyang)
AC Adapter 1 (BR)
Motorola (Chenyang)
AC Adapter 2 (US)
Motorola (AOHAI)
AC Adapter 2 (EU)
Motorola (AOHAI)
AC Adapter 2 (UK)
Motorola (AOHAI)
AC Adapter 3 (CHILE) Motorola (Salcomp)
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Model Name MC-331 MC-332 MC-335 MC-336 MC-337 MC-331 MC-332 MC-333 MC-339
LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
AC Adapter 3 (KR) Battery 1 Battery 2 USB Cable 1 USB Cable 2 Earphone1 Wireless Earphones
Motorola (Salcomp) Motorola (SCUD) Motorola (COSMX) hexin chuantuo Motorola (Lyand) Motorola
Report No.: TR-24ADRTCC7009
MC-330 QE50 QE50 S928E21807 S928E21806 MI181C XT2443-1
4. Test Configuration of Equipment Under Test
4.1. Test Mode for NR Configuration
SCS
Modulation
Test Case
5G NR
Bandwidth
Channel
RB
15KHz 30KHz Pi/2BPSK QPSK 16QAM 64QAM 256QAM
LCH MCH HCH
1 Full
N2 (1850-1910) All Supported BW
N5 (824-849)
All Supported BW
N7 (2500-2570) All Supported BW
Effective
N25 (1850-1915) All Supported BW
Isotropic
N26 (814-824)
All Supported BW
Radiated
N26 (824-849)
All Supported BW
Power
N38 (2570-2620) All Supported BW
N41 (2496-2690) All Supported BW
N66 (1710-1780) All Supported BW
N78 (3450-3550) All Supported BW
N2 (1850-1910)
Highest BW
N5 (824-849)
Highest BW
N7 (2500-2570)
Highest BW
Peak-Average Ratio
N26 (814-824) N26 (824-849) N38 (2570-2620)
Highest BW Highest BW Highest BW
N41 (2496-2690)
Highest BW
N66 (1710-1780)
Highest BW
N78 (3450-3550)
Highest BW
N2 (1850-1910)
Highest BW
N5 (824-849)
Highest BW
N7 (2500-2570)
Highest BW
Modulation Characteristics
N26 (814-824) N26 (824-849) N38 (2570-2620)
Highest BW Highest BW Highest BW
N41 (2496-2690)
Highest BW
N66 (1710-1780)
Highest BW
N78 (3450-3550) All Supported BW
Occupied
N2 (1850-1910) All Supported BW
Bandwidth & N5 (824-849)
All Supported BW
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
Report No.: TR-24ADRTCC7009
26dB Emission N7 (2500-2570) All Supported BW
Bandwidth
N26 (814-824)
All Supported BW
N26 (824-849)
All Supported BW
N38 (2570-2620) All Supported BW
N41 (2496-2690) All Supported BW
N66 (1710-1780) All Supported BW
N78 (3450-3550) All Supported BW
N2 (1850-1910) All Supported BW
N5 (824-849)
All Supported BW
N7 (2500-2570) All Supported BW
Conducted Band Edges
N26 (814-824)
All Supported BW
N26 (824-849)
All Supported BW
N38 (2570-2620) All Supported BW
N41 (2496-2690) All Supported BW
N66 (1710-1780) All Supported BW
N78 (3450-3550) All Supported BW
N2 (1850-1910) All Supported BW
N5 (824-849)
All Supported BW
N7 (2500-2570) All Supported BW
Conducted
N26 (814-824)
All Supported BW
Spurious
N26 (824-849)
All Supported BW
Emission
N38 (2570-2620) All Supported BW
N41 (2496-2690) All Supported BW
N66 (1710-1780) All Supported BW
N78 (3450-3550) All Supported BW
N2 (1850-1910)
Highest BW
N5 (824-849)
Highest BW
N7 (2500-2570)
Highest BW
Frequency Stability
N26 (814-824) N26 (824-849) N38 (2570-2620)
Highest BW Highest BW Highest BW
N41 (2496-2690)
Highest BW
N66 (1710-1780)
Highest BW
N78 (3450-3550)
Highest BW
Remark: 1 the mark "" means this configuration was chosen for testing, mark "" means not selected, and the
mark "" means not applicable.
2 All Supported BW means all supported bandwidth for selected SCS configuration.
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
4.2. Test Frequencies
4.2.1. 5G NR System
4.2.1.1. NR Band n2 (1850-1910)
4.2.1.1.1. SCS=15KHz
Bandwidth
LCH
Arfcn
Freq
5MHz
370500 1852.5
10MHz
371000 1855.0
15MHZ
371500 1857.5
20MHz
372000 1860.0
Report No.: TR-24ADRTCC7009
MCH
Arfcn
Freq
376000 1880.0
376000 1880.0
376000 1880.0
376000 1880.0
HCH
Arfcn
Freq
381500 1907.5
381000 1905.0
380500 1902.5
380000 1900.0
4.2.1.2. NR Band n5 (824-849)
4.2.1.2.1. SCS=15KHz
Bandwidth
LCH
Arfcn
Freq
5MHz
165300
826.5
10MHz
165800
829.0
15MHZ
166300
831.5
20MHz
166800
834.0
MCH
Arfcn
Freq
167300
836.5
167300
836.5
167300
836.5
167300
836.5
HCH
Arfcn
Freq
169300
846.5
168800
844.0
168300
841.5
167800
839.0
4.2.1.3. NR Band n7 (2500-2570)
4.2.1.3.1. SCS=15KHz
Bandwidth
LCH
Arfcn
Freq
5MHz
500500 2502.5
10MHz
501000 2505.0
15MHZ
501500 2507.5
20MHz
502000 2510.0
25MHz
502500 2512.5
30MHz
503000 2515.0
40MHz
504000 2520.0
MCH
Arfcn
Freq
507000 2535.0
507000 2535.0
507000 2535.0
507000 2535.0
507000 2535.0
507000 2535.0
507000 2535.0
HCH
Arfcn
Freq
513500 2567.5
513000 2565.0
512500 2562.5
512000 2560.0
511500 2557.5
511000 2555.0
510000 2550.0
4.2.1.4. NR Band n26 (814-824)
4.2.1.4.1. SCS=15KHz
Bandwidth
LCH
Arfcn
Freq
5MHz
163300
816.5
10MHz
163800
819.0
15MHz
164300
821.5
20MHz
164800
824.0
MCH
Arfcn
Freq
163800
819.0
163800
819.0
164300
821.5
164800
824.0
HCH
Arfcn
Freq
164300
821.5
163800
819.0
164300
821.5
164800
824.0
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
4.2.1.5. NR Band n26 (824-849)
4.2.1.5.1. SCS=15KHz
Bandwidth
LCH
Arfcn
Freq
5MHz
165300
826.5
10MHz
165800
829.0
15MHZ
166300
831.5
20MHz
166800
834.0
Report No.: TR-24ADRTCC7009
MCH
Arfcn
Freq
167300
836.5
167300
836.5
167300
836.5
167300
836.5
HCH
Arfcn
Freq
169300
846.5
168800
844.0
168300
841.5
167800
839.0
4.2.1.6. NR Band n38 (2570-2620)
4.2.1.6.1. SCS=30KHz
Bandwidth
LCH
Arfcn
Freq
20MHz
516000 2580.0
30MHz
517000 2585.0
40MHz
518000 2590.0
MCH
Arfcn
Freq
519000 2595.0
519000 2595.0
519000 2595.0
HCH
Arfcn
Freq
522000 2610.0
521000 2605.0
520000 2600.0
4.2.1.7. NR Band n41 (2496-2690)
4.2.1.7.1. SCS=30KHz
Bandwidth
LCH
Arfcn
Freq
20MHz
501204 2506.02
30MHz
502200 2511.00
40MHz
503202 2516.01
50MHz
504204 2521.02
60MHz
505200 2526.00
70MHz
506202 2531.01
80MHz
507204 2536.02
90MHz
508200 2541.00
100MHz
509202 2546.01
MCH
Arfcn
Freq
518598 2592.99
518598 2592.99
518598 2592.99
518598 2592.99
518598 2592.99
518598 2592.99
518598 2592.99
518598 2592.99
518598 2592.99
HCH
Arfcn
Freq
535998 2679.99
534996 2674.98
534000 2670.00
532998 2664.99
531996 2659.98
531000 2655.00
529998 2649.99
528996 2644.98
528000 2640.00
4.2.1.8. NR Band n66 (1710-1780)
4.2.1.8.1. SCS=15KHz
Bandwidth
LCH
Arfcn
Freq
5MHz
342500 1712.5
10MHz
343000 1715.0
15MHz
343500 1717.5
20MHz
344000 1720.0
30MHz
345000 1725.0
40MHz
346000 1730.0
MCH
Arfcn
Freq
349000 1745.0
349000 1745.0
349000 1745.0
349000 1745.0
349000 1745.0
349000 1745.0
HCH
Arfcn
Freq
355500 1777.5
355000 1775.0
354500 1772.5
354000 1770.0
353000 1765.0
352000 1760.0
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
4.2.1.9. NR Band N78 (3450-3550)
4.2.1.9.1. SCS=30KHz
Bandwidth
LCH
Arfcn
Freq
20MHz
630668 3460.02
25MHz
630834 3462.51
30MHz
631000 3465.00
40MHz
631334 3470.01
50MHz
631668 3475.02
60MHz
632000 3480.00
70MHz
632334 3485.01
80MHz
632668 3490.02
90MHz
633000 3495.00
100MHz
633334 3500.01
Report No.: TR-24ADRTCC7009
MCH
Arfcn
Freq
633334 3500.01
633334 3500.01
633334 3500.01
633334 3500.01
633334 3500.01
633334 3500.01
633334 3500.01
633334 3500.01
633334 3500.01
633334 3500.01
HCH
Arfcn
Freq
636000 3540.00
635832 3537.48
635666 3534.99
635332 3529.98
635000 3525.00
634666 3519.99
634332 3514.98
634000 3510.00
633666 3504.99
633334 3500.01
5. Description of Tests
5.1. Conducted Output Power Measurement 5.1.1. Description of Conducted Output Power Measurement
A base station simulator was used to establish communication with the EUT, Its parameters were set to transmit the maximum power on the EUT. The measured power in the radio frequency on the transmitter output terminals shall be reported. 5.1.2. Test Procedures
1 The testing follows ANSI C63.26 Section 5.2. 2 The transmitter output port was connected to the system simulator. 3 Set EUT at maximum power through the system simulator. 4 Select lowest, Middle, Highest channels for each band and each modulation. 5 Record the reading power from the system simulator.
5.2. Effective (Isotropic) Radiated Power Measurement Procedure: ANSI C63.26 Calculate power in dBm by the following formula: ERP (dBm) = Conducted Power (dBm) + antenna gain (dBd) EIRP (dBm) = Conducted Power (dBm) + antenna gain (dBi) EIRP=ERP+2.15dB 5.3. Peak-to-Average Ratio Measurement 5.3.1. Description of PAR Measurement
Power Complementary Cumulative Distribution Function (CCDF) curves provide a means for characterizing the power peaks of a digitally modulated signal on a statistical basis, A CCDF curve depicts the probability of peak signal amplitude exceeding the average power level. Most contemporary measurement instrumentation include the capability to produce CCDF curves for an input signal provided that the instrument's resolution bandwidth can be set wide enough to accommodate the entire input signal bandwidth. In measuring transmissions in this band using an average power technique, the peak-to-average ratio (PAR) of the transmission may not exceed 13dB.
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LML-R-TCC-201 V1.5
ADR TEST AND CERTIFICATION CENTER
Report No.: TR-24ADRTCC7009
5.3.2. Test Procedures
1 The testing follows ANSI C63.26 Section 5.2.3.4(CCDF) 2 Refer to instrument's analyser instruction manual for details on how to use the power statistics/CCDF
function. 3 Centre Frequency = Carrier centre frequency. 4 Set resolution bandwidth signal's occupied bandwidth. 5 Set the number of counts to a value that stabilizes the measured CCDF curve. 6 Set the measurement interval as follows:
1) for continuous transmissions (>98% duty cycle), set to 1ms. 2) for burst transmissions, employ an external trigger that is synchronized with the EUT burst timing sequence, or use the internal burst trigger with a trigger level that allows the burst to stabilize and set the measurement interval to a time that is less than or equal to the burst duration. 7 Record the maximum PAR level associated with a probability of 0.1%. 5.3.3. Alternate procedure for PAR Measurement Procedure: 5.2.6 of ANSI C63.26 Some regulatory requirements specify a PAR limit when the output power limits are specified in terms of average power. If it becomes necessary to provide measurement data to demonstrate compliance to a PAR limit, then the appropriate procedure from those provided in 5.2.3 shall be utilized to determine the peak power (or peak PSD) and the appropriate procedure from those provided in 5.2.4 shall be used to determine the average power (or average PSD). The data from these measurements is then used in Equation (2) to determine the PAR of a narrowband CW-like signal. See 5.2.3.4 for guidance on determining the PAR of a broadband noise-like signal. PAR (dB) = PPk (dBm or dBW) - PAvg (dBm or dBW) where PAR peak-to-average power ratio, in dB PPk measured peak power or peak PSD level, in dBm or dBW PAvg measured average power or average PSD level, in dBm or dBW
5.4. 99% Occupied Bandwidth & 26dB Emission Bandwidth 5.4.1. Description of 99% Occupied Bandwidth & 26dB Emission Bandwidth Measurement
The occupied bandwidth, that is the frequency bandwidth such that, below its lower and above its upper frequency limits, the mean powers radiated are each equal to 0.5 percent of the total mean power radiated by a given emission shall be measured. The transmitter output was connected to a calibrated coaxial cable, attenuator and Spectrum analyser, the other end of which was connected to a Base Station Simulator. The Base Station Simulator was set to force the EUT to its maximum power setting. The tests were performed at three frequencies (low channel, middle channel and high channel). The span of the analyser shall be set to capture all products of the modulation process, including the emission skirts. The resolution bandwidth shall be set to as close to 1 percent of the selected span as is possible without being below 1 percent. The video bandwidth shall be set to 3 times the resolution bandwidth. Video averaging is not permitted. Where practical, a sampling detector shall be used since a peak or, peak hold, may produce a wider bandwidth than actual. The trace data points are recovered and are directly summed in linear terms. The recovered amplitude data points, beginning at the lowest frequency, are placed in a running sum until 0.5 percent of the total is reached and that frequency recorded. The process is repeated for the highest frequency data points. This frequency is recorded. The span between the two recorded frequencies is the occupied bandwidth.
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5.4.2. Test Procedures
1 The testing follows ANSI C63.26 Section 5.4 2 The signal analyzer's automatic measurement capability was used to perform the 99% occupied
bandwidth and the 26dB emission bandwidth. The bandwidth measurement was not influenced by any intermediate power nulls in the fundamental emission. 3 RBW 1% - 5% of the expected OBW. 4 VBW 3 * RBW 5 Detector=Peak 6 Trace Mode= Max Hold. 7 Sweep Time=Auto 8 The trace was allowed to stabilize. 9 If necessary, steps 2-7 were repeated after changing the RBW such that it would be within 1%-5% of the 99% occupied bandwidth observed in step 7. 5.5. Conducted Band Edge Measurement 5.5.1. Description of Conducted Band Edge Measurement
The transmitter output was connected to a calibrated coaxial cable, attenuator and spectrum analyser, the other end of which was connected to a Base Station Simulator. The Base Station Simulator was set to force the EUT to its maximum power setting. The tests were performed at two frequencies (low channel and high channel).in the 1MHz bands immediately outside and adjacent to the frequency block a resolution bandwidth of 100kHz or 1% of the emission bandwidth of the fundamental emission of the transmitter may be employed. The EUT emission bandwidth is measured as the width of the signal between two points, outside of which all emissions are attenuated at least 26dB below the transmitter power. The video bandwidth of the spectrum analyser was set at thrice the resolution bandwidth. Detector Mode was set to peak or peak hold power. 5.5.2. Test Procedures
1 The testing follows ANSI C63.26 Section 5.7 2 Start and stop frequency were set such that the band edge would be placed in the centre of the spectrum
analyzer screen. 3 Span was set large enough to capture all out of band emissions near the band edge. 4 RBW 1% of the emission bandwidth (2% of the emission bandwidth for n7/n38/n41 except when 1MHz
band is 2495-2496MHz); 5 VBW 3 * RBW 6 Detector=RMS 7 Trace Mode=Trace Average for continuous emissions, Max Hold for pulse emissions. 8 Sweep Points 2 x Span/RBW 9 Sweep Time = Auto 10 The trace was allowed to stabilize.
5.6. Conducted Spurious Emission Measurement 5.6.1. Description of Conducted Spurious Emission Measurement
The transmitter output was connected to a calibrated coaxial cable, attenuator and Spectrum analyser, the other end of which was connected to a Base Station Simulator. The Base Station Simulator was set to force the EUT to its maximum power setting. The tests were performed at three frequencies (low channel and high channel). The level of the carrier and the various conducted spurious and harmonic frequencies is
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LML-R-TCC-201 V1.5
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Report No.: TR-24ADRTCC7009
measured by means of a calibrated spectrum analyser. The spectrum is scanned from 9KHz up to a frequency including its 10th harmonic or 40GHz, which is lower. 5.6.2. Test Procedures
1 The testing follows ANSI C63.26 Section 5.7 2 RBW 100KHz for emissions below 1GHz,1MHz for emissions above 1GHz. 3 VBW 3 * RBW 4 Detector = RMS 5 Trace Mode = Average. 6 Sweep Points 2 * Span/RBW 7 Sweep Time = Auto 8 The trace was allowed to stabilize.
5.7. Frequency Stability Measurement 5.7.1. Description of Frequency Stability Measurement The Frequency Stability should be measured by variation of ambient temperature and variation of primary supply voltage to ensure that the fundamental emissions stays within the authorized frequency block.
5.7.2. Measurement Procedure for Temperature Variation 1 The testing follows ANSI C63.26 section 5.6.4. 2 The EUT was set up in the thermal chamber and connected with the system simulator. 3 With power off, the temperature was decreased to -30°C and the EUT was stabilized before testing.
Power was applied and the maximum change in frequency was recorded within one minute. 4 With power off, the temperature was raised in 10°C step up to 50°C. The EUT was stabilized at each
step for at least half an hour. Power was applied and the maximum change in frequency was recorded within one minute. 5.7.3. Measurement Procedure for Voltage Variation 1 The testing follows ANSI C63.26 section 5.6.5. 2 The EUT was placed in a thermal chamber at 20±5°C and connected with the system simulator. 3 The power supply voltage to the EUT was varied from 85% to 115% of the nominal value for other than hand carried battery equipment. 4 For hand carried, battery powered equipment, reduce the primary ac or dc supply voltage to the battery operating end point, which shall be specified by the manufacturer. 5 The variation in frequency was measured for the worst case.
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6. List of Measuring Equipment
Equipment
Model
Manufacture
Device No.
Cal Date
Cal Due
Radio Communication Analyzer
MT8000A MT8821C
Anritsu Anritsu
6272478367 6272498303
2023-12-07 2023-12-07
2024-12-06 2024-12-06
Spectrum Analyzer (50Hz-40GHz)
FSV
R&S
101046
2023-12-07
2024-12-06
Power Supply
2036
Keithley
4058748
2023-12-07
2024-12-06
Temperature Chamber
C/64/40/3
Weiss
56246017780020
2024-04-01
2025-03-31
Power Divider
-
WOKEN
0120A04051801O
NCR
Power Divider
-
WOKEN
0120A02056002D
NCR
Remark:
1 For equipment listed above that has a calibration date or calibration due date that falls within the test date range, and the equipment was used after calibrate date and before calibrate due date.
2 "NCR" means no calibration required.
7. Measurement Uncertainty
The measurement uncertainties shown below were calculated in accordance with the requirements of ANSI
63.26. All the measurement uncertainties value were shown with a coverage K=2 to indicate 95% level of
confidence. The measurement data show herein meets or exceeds the CISPR measurement uncertainty
values specified in CISPR 16-4-2 and can be directly to specified limit to determine compliance.
7.1. Uncertainty of Conducted Measurement
Contribution
Expanded Uncertainty
Conducted Power
± 0.77
Conducted Emission
± 0.76
Channel Bandwidth
± 0.08%
8. Appendixes
Appendix B.1 Appendix B.2 Appendix B.3 Appendix B.4 Appendix B.5 Appendix B.6 Appendix B.7 Appendix B.8 Appendix B.9 Appendix B.10 Appendix B.11
NR Band n2A (1850-1910) NR Band n5A (824-849) NR Band n7A (2500-2570) NR Band n26A (814-824) NR Band n26A (824-849) NR Band n38A (2570-2620) NR Band n41A (2496-2690) NR Band n66A (1710-1780) NR Band n78A (3450-3550) NR Band DC_66A_n7A (2500-2570) NR Band DC_7A_n66A (1710-1780) The End
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