2456ERM.004A1_RF_FCC_27_part3

FCC ID: QIPALAS5-W

Test Report

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DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Highest Channel 26dBc Bandwidth kHz




LTE QPSK MODULATION. BW = 20 MHz
Lowest Channel 99% Occupied Bandwidth




Report No: 2456ERM.004A1                Page 56 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Lowest Channel 26dBc Bandwidth kHz




Middle Channel 99% Occupied Bandwidth




Report No: 2456ERM.004A1                Page 57 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America



            TEST RESULTS (Cont):

Middle Channel 26dBc Bandwidth kHz




Highest Channel 99% Occupied Bandwidth




Report No: 2456ERM.004A1                 Page 58 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Highest Channel 26dBc Bandwidth kHz




LTE 16QAM MODULATION. BW = 20 MHz
Lowest Channel 99% Occupied Bandwidth




Report No: 2456ERM.004A1                Page 59 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Lowest Channel 26dBc Bandwidth kHz




Middle Channel 99% Occupied Bandwidth




Report No: 2456ERM.004A1                Page 60 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Middle Channel 26dBc Bandwidth kHz




Highest Channel 99% Occupied Bandwidth




Report No: 2456ERM.004A1                 Page 61 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Highest Channel 26dBc Bandwidth kHz




Report No: 2456ERM.004A1              Page 62 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




TEST A.5: SPURIOUS EMISSIONS AT ANTENNA TERMINALS

                            Product standard:                      FCC Part 27 / IC RSS-199
        LIMITS:
                             Test standard:            FCC §2.1051 and § 27.53 / RSS-199 Clause 4.5

LIMITS
According to specification, the power of emissions shall be attenuated below the transmitter power (P) by a
factor of at least 43 + 10 log (P) dB. P in watts.
At Po transmitting power of 2 watts (33 dBm), the specified minimum attenuation becomes 43+10log (Po). and
the level in dBm relative to Po becomes:
Po (dBm) – [43 + 10 log (Po in watts)] = -13 dBm


                   TEST SETUP

The EUT RF output connector was connected to a spectrum analyzer and to the Universal Radio Communication
Tester R&S CMW500 (selecting maximum transmission power of the EUT and different modes of modulation)
using a 50-ohm attenuator and a power splitter.

The reading of the spectrum analyzer is corrected with the attenuation loss of connection between output terminal
of EUT and input of the spectrum analyzer.

For LTE mode the configuration of Resource Blocks and modulation which is the worst case for conducted
power was used.




Report No: 2456ERM.004A1                           Page 63 of 89                                       04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




               TESTED SAMPLES:                                                  S/01

       TESTED CONDITIONS MODES:                                               TC#01

                  TEST RESULTS:                                                PASS



Frequency range 30 MHz – 27 GHz


LTE QPSK MODULATION. BW = 5 MHz
Lowest Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.
Middle Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.
Highest Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.

LTE QPSK MODULATION. BW = 10 MHz
Lowest Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.
Middle Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.
Highest Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.

LTE QPSK MODULATION. BW = 15 MHz
Lowest Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.
Middle Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.
Highest Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.

LTE QPSK MODULATION. BW = 20 MHz
Lowest Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.
Middle Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.
Highest Channel
No spurious signal was found at less than 10 dB respect to the limit in the frequency range.




Report No: 2456ERM.004A1                            Page 64 of 89                              04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




           TEST RESULTS (Cont.):

LTE QPSK MODULATION. BW = 5MHz
Lowest Channel




Middle Channel




Report No: 2456ERM.004A1           Page 65 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Highest Channel




LTE QPSK MODULATION. BW = 10 MHz
Lowest Channel




Report No: 2456ERM.004A1           Page 66 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Middle Channel




Highest Channel




Report No: 2456ERM.004A1           Page 67 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

LTE QPSK MODULATION. BW = 15 MHz
Lowest Channel




Middle Channel




Report No: 2456ERM.004A1           Page 68 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America



            TEST RESULTS (Cont):

Highest Channel




LTE QPSK MODULATION. BW = 20 MHz
Lowest Channel




Report No: 2456ERM.004A1           Page 69 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

Middle Channel




Highest Channel




Report No: 2456ERM.004A1           Page 70 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




TEST A.6: SPURIOUS EMISSIONS AT ANTENNA TERMINALS AT BLOCK EDGES

                            Product standard:                        FCC Part 27 / IC RSS-199
        LIMITS:
                             Test standard:                        FCC § 27.53 / RSS- Clause 4.5

LIMITS
According to specification, the power of emissions shall be attenuated below the transmitter power (P) by a
factor of at least 43 + 10 log (P) dB. P in watts.
At Po transmitting power of 2 watts (33 dBm), the specified minimum attenuation becomes 43+10log (Po). and
the level in dBm relative to Po becomes:
Po (dBm) – [43 + 10 log (Po in watts)] = -13 dBm


                   TEST SETUP

The EUT RF output connector was connected to a spectrum analyzer and to the Universal Radio Communication
tester R&S CMW500 (selecting maximum transmission power of the EUT and different modes of modulation) using
a 50 ohm attenuator and a power splitter.
The reading of the spectrum analyzer is corrected with the attenuation loss of connection between output terminal
of EUT and input of the spectrum analyzer.

For LTE mode the configuration of modulation which is the worst case for conducted power was used.
As indicated in FCC part 27.53 (h) (3), in the 1 MHz bands immediately outside and adjacent to the licensee’s
frequency block or band, a resolution bandwidth of at least one percent of the emission bandwidth of the
fundamental emission of the transmitter may be employed.




Report No: 2456ERM.004A1                           Page 71 of 89                                        04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




               TESTED SAMPLES:                                          S/01

       TESTED CONDITIONS MODES:                                        TC#01

                  TEST RESULTS:                                         PASS

RESULTS


                   LTE QPSK             RB=1             RB=1          RB=.          RB=1
                  MODULATION           Offset =0       Offset =0     Offset =0     Offset =0
                                      BW = 5 MHz      BW = 10 MHz   BW = 15 MHz   BW = 20 MHz
           Maximum measured level
                                        -20.45            -24.21      -21.53         -20.96
            at lowest Block Edge at
              antenna port (dBm)


                   LTE QPSK             RB=25           RB=50         RB=75         RB=100
                  MODULATION           Offset =0       Offset =0     Offset =0     Offset =0
                                      BW = 5 MHz      BW = 10 MHz   BW = 15 MHz   BW = 20 MHz
           Maximum measured level
                                        -28.69            -30.42      -33.13         -30.95
            at lowest Block Edge at
              antenna port (dBm)


                   LTE QPSK             RB=1             RB=1          RB=1          RB=1
                  MODULATION           Offset =0       Offset =0     Offset =0     Offset =0
                                      BW = 5 MHz      BW = 10 MHz   BW = 15 MHz   BW = 20 MHz
           Maximum measured level
                                        -24.34            -34.05      -28.54         -29.5
           at Highest Block Edge at
              antenna port (dBm)


                   LTE QPSK             RB=25           RB=50         RB=75         RB=100
                  MODULATION           Offset =0       Offset =0     Offset =0     Offset =0
                                      BW = 5 MHz      BW = 10 MHz   BW = 15 MHz   BW = 20 MHz
           Maximum measured level
                                        -32.03            -31.71      -31.45        -34.53
           at Highest Block Edge at
              antenna port (dBm)




Report No: 2456ERM.004A1                           Page 72 of 89                                04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America



            TEST RESULTS (Cont):

LTE QPSK MODULATION. RB = 1. Offset = 0. BW = 5 MHz
Lowest Channel




LTE QPSK MODULATION. RB = 1. Offset = Max. BW = 5 MHz
Highest Channel




Report No: 2456ERM.004A1                    Page 73 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

LTE QPSK MODULATION. RB = 25. Offset = 0. BW = 5 MHz
Lowest Channel




Highest Channel




Report No: 2456ERM.004A1                    Page 74 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

LTE QPSK MODULATION. RB = 1. Offset = 0. BW = 10 MHz
Lowest Channel




LTE QPSK MODULATION. RB = 1. Offset = Max. BW = 10 MHz
Highest Channel




Report No: 2456ERM.004A1                    Page 75 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

LTE QPSK MODULATION. RB = 50. Offset = 0. BW = 10 MHz
Lowest Channel




Highest Channel




Report No: 2456ERM.004A1                    Page 76 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

LTE QPSK MODULATION. RB = 1. Offset = 0. BW = 15 MHz
Lowest Channel




LTE QPSK MODULATION. RB = 1. Offset = Max. BW = 15 MHz
Highest Channel




Report No: 2456ERM.004A1                    Page 77 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

LTE QPSK MODULATION. RB = 75. Offset = 0. BW = 15 MHz
Lowest Channel




Highest Channel




Report No: 2456ERM.004A1                    Page 78 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

LTE QPSK MODULATION. RB = 1. Offset = 0. BW = 20 MHz
Lowest Channel




LTE QPSK MODULATION. RB = 1. Offset = Max. BW = 20 MHz
Highest Channel




Report No: 2456ERM.004A1                    Page 79 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




            TEST RESULTS (Cont):

LTE QPSK MODULATION. RB = 100. Offset = 0. BW = 20 MHz
Lowest Channel




Highest Channel




Report No: 2456ERM.004A1                    Page 80 of 89   04-10-2019


DEKRA Certification, Inc.
405 Glenn Dr. Suite 12,
Sterling, VA 20164
United States of America




TEST A.7: RADIATED EMISSIONS


                            Product standard:                      FCC Part 27 / IC RSS-199
        LIMITS:
                             Test standard:             FCC §2.1053 and §27.53 / RSS-199 Clause 4.5

LIMITS
According to specification, the power of emissions shall be attenuated below the transmitter power (P) by a
factor of at least 43 + 10 log (P) dB. P in watts.
At Po transmitting power of 2 watts (33 dBm), the specified minimum attenuation becomes 43+10log (Po). and
the level in dBm relative to Po becomes:
Po (dBm) – [43 + 10 log (Po in watts)] = -13 dBm

                   TEST SETUP

The measurement was performed with the EUT inside an anechoic chamber. The spectrum was scanned from 30
MHz to at least the 10th harmonic of the highest frequency generated within the equipment.
The EUT was placed on a non-conductive stand at a 3-meter distance from the measuring antenna for
measurements below 1 GHz and at 1-meter distance for measurements above 1 GHz.
Detected emissions were maximized at each frequency by rotating the EUT and adjusting the measuring antenna
height and polarization. The maximum reading was recorded.
Radiated measurements < 1GHz




Radiated measurements > 1GHz




Report No: 2456ERM.004A1                           Page 81 of 89                                      04-10-2019



Document Created: 2019-04-11 12:02:50
Document Modified: 2019-04-11 12:02:50

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