Samsung SMT515 Users Manual

Report No.: HCT-RF-1902-FC032-R1

FCC ID: A3LSMT515

Version

TEST REPORT NO. DATE DESCRIPTION

HCT-RF-1902-FC032 February 22, 2019 - First Approval Report

HCT-RF-1902-FC032-R1 February 28, 2019 - Modified Equipment Class

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FCC ID: A3LSMT515

Table of Contents

1. GENERAL INFORMATION .......................................................................................................................... 4

2. INTRODUCTION ........................................................................................................................................... 5

2.1. DESCRIPTION OF EUT ..................................................................................................................... 5

2.2. MEASURING INSTRUMENT CALIBRATION .................................................................................... 5

2.3. TEST FACILITY .................................................................................................................................. 5

3. DESCRIPTION OF TESTS ........................................................................................................................... 6

3.1 TEST PROCEDURE ............................................................................................................................ 6

3.2 RADIATED POWER ............................................................................................................................ 7

3.3 RADIATED SPURIOUS EMISSIONS .................................................................................................. 8

3.4 PEAK- TO- AVERAGE RATIO ............................................................................................................ 9

3.5 OCCUPIED BANDWIDTH. ................................................................................................................ 11

3.6 SPURIOUS AND HARMONIC EMISSIONS AT ANTENNA TERMINAL .......................................... 12

3.7 BAND EDGE ..................................................................................................................................... 13

3.8 FREQUENCY STABILITY / VARIATION OF AMBIENT TEMPERATURE ...................................... 14

3.9 WORST CASE(CONDUCTED TEST) ............................................................................................... 1 5

3.10 WORST CASE(RADIATED TEST) .................................................................................................. 16

4. LIST OF TEST EQUIPMENT ...................................................................................................................... 17

5. MEASUREMENT UNCERTAINTY ............................................................................................................. 18

6. SUMMARY OF TEST RESULTS ................................................................................................................ 19

7. SAMPLE CALCULATION .......................................................................................................................... 20

8. TEST DATA ................................................................................................................................................ 22

8.1 EFFECTIVE RADIATED POWER ..................................................................................................... 22

8.2 EQUIVALENT ISOTROPIC RADIATED POWER ............................................................................. 23

8.3 RADIATED SPURIOUS EMISSIONS ................................................................................................ 24

8.4 PEAK-TO-AVERAGE RATIO ............................................................................................................ 29

8.5 OCCUPIED BANDWIDTH ................................................................................................................. 30

8.6 CONDUCTED SPURIOUS EMISSIONS ........................................................................................... 31

8.7 BAND EDGE ..................................................................................................................................... 31

8.8 FREQUENCY STABILITY / VARIATION OF AMBIENT TEMPERATURE ...................................... 32

9. TEST PLOTS .............................................................................................................................................. 43

10. APPENDIX A_ TEST SETUP PHOTO .................................................................................................... 129

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MEASUREMENT REPORT

1. GENERAL INFORMATION

Applicant Name: SAMSUNG Electronics Co., Ltd.

Address: 129, Samsung-ro, Yeongtong-gu, Suwon-si, Gyeonggi-do, 16677, Rep. of

Korea

FCC ID: A3LSMT515

Application Type: Certification

FCC Classification: PCS Licensed Transmitter (PCB)

FCC Rule Part(s): §22, §24, §27, §2

EUT Type: Tablet

Model(s): SM-T515

Additional Model(s): SM-T515N, SM-T517

Tx Frequency: 824.20 - 848.80 MHz (GSM850)

826.40 - 846.60 MHz (WCDMA850)
1 850.20 - 1 909.80 MHz (GSM1900)
1 852.4 – 1 907.6 MHz (WCDMA1900)
1 712.4 – 1 752.6 MHz (WCDMA1700)

Rx Frequency: 869.20 - 893.80 MHz (GSM850)

871.40 - 891.60 MHz (WCDMA850)
1 930.20 - 1 989.80 MHz (GSM1900)
1 932.4 – 1 987.6 MHz (WCDMA1900)
2 112.4 – 2 152.6 MHz (WCDMA1700)

Date(s) of Tests:

February 02, 2019~ February 18, 2019

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2. INTRODUCTION

2.1. DESCRIPTION OF EUT

The EUT was a Tablet with GSM/GPRS/EGPRS/UMTS and LTE.

It also supports IEEE 802.11 a/b/g/n/ac (HT20/40/80), ANT+, Bluetooth, BT LE.

2.2. 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.

2.3. TEST FACILITY

The Fully-anechoic chamber and conducted measurement facility used to collect the radiated data are

located at the 74, Seoicheon-ro 578beon-gil, Majang-myeon, Icheon-si, Gyeonggi-do, 17383, Rep. of

KOREA.

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3. DESCRIPTION OF TESTS

3.1 TEST PROCEDURE

Test Description Test Procedure Used

FCC ID: A3LSMT515

Occupied Bandwidth

Band Edge

Spurious and Harmonic Emissions at Antenna

Terminal

Conducted Output Power - N/A (See SAR Report)

Peak- to- Average Ratio

Frequency stability - ANSI C63.26-2015 – Section 5.6

Effective Radiated Power/

Effective Isotropic Radiated Power

- KDB 971168 D01 v03r01 – Section 4.3

- ANSI C63.26-2015 – Section 5.4.4

- KDB 971168 D01 v03r01 – Section 6.0

- ANSI C63.26-2015 – Section 5.7

- KDB 971168 D01 v03r01 – Section 6.0

- ANSI C63.26-2015 – Section 5.7

- KDB 971168 D01 v03r01 – Section 5.7

- ANSI C63.26-2015 – Section 5.2.3.4

- ANSI C63.26-2015 – Section 5.2.6(only GSM)

- KDB 971168 D01 v03r01 – Section 5.2 & 5.8

- ANSI C63.26-2015 – Section 5.2

- ANSI/TIA-603-E-2016 – Section 2.2.17

Radiated Spurious and Harmonic Emissions

F-TP22-03 (Rev.00)

- KDB 971168 D01 v03r01 – Section 6.2

- ANSI/TIA-603-E-2016 – Section 2.2.12

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3.2 RADIATED POWER

Test Overview

Radiated tests are performed in the Fully-anechoic chamber.

The equipment under test is placed on a non-conductive table 3-meters away from the receive antenna in

accordance with ANSI/TIA-603-E-2016 Clause 2.2.17.

Test Settings

1. Radiated power measurements are performed using the signal analyzer’s “channel power”

measurement capability for signals with continuous operation.

2. RBW = 1 – 5% of the expected OBW, not to exceed 1MHz

3. VBW ≥ 3 x RBW

4. Span = 1.5 times the OBW

5. No. of sweep points > 2 x span / RBW

6. Detector = RMS

7. Trigger is set to “free run” for signals with continuous operation with the sweep times set to “auto”.

8. The integration bandwidth was roughly set equal to the measured OBW of the signal for signals with

continuous operation.

9. Trace mode = trace averaging (RMS) over 100 sweeps

10. The trace was allowed to stabilize

Test Note

1. The turntable is rotated through 360 degrees, and the receiving antenna scans in order to determine the

level of the maximized emission.

2. A half wave dipole is then substituted in place of the EUT. For emissions above 1GHz, a horn antenna is

substituted in place of the EUT. The substitute antenna is driven by a signal generator and the previously

recorded signal was duplicated.

The power is calculated by the following formula;

P

d(dBm)

= Pg

– cable loss

(dBm)

+ antenna gain

(dB)

(dB)

Where: Pdis the dipole equivalent power and Pgis the generator output power into the substitution antenna.

3. The maximum value is calculated by adding the forward power to the calibrated source plus its

appropriate gain value.

These steps are repeated with the receiving antenna in both vertical and horizontal polarization. the

difference between the gain of the horn and an isotropic antenna are taken into consideration

4. The EUT was tested in three orthogonal planes(X, Y, Z) and in all possible test configurations and

positioning.

5. All measurements are performed as RMS average measurements while the EUT is operating at its

maximum duty cycle, at maximum power, and at the appropriate frequencies.

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3.3 RADIATED SPURIOUS EMISSIONS

Test Overview

Radiated tests are performed in the Fully-anechoic chamber.

Radiated Spurious Emission Measurements at 3 meters by Substitution Method according to

ANSI/TIA-603-E-2016.

Test Settings

1. RBW = 100kHz for emissions below 1GHz and 1MHz for emissions above 1GHz

2. VBW ≥ 3 x RBW

3. Span = 1.5 times the OBW

4. No. of sweep points > 2 x span / RBW

5. Detector = Peak

6. Trace mode = Max Hold

FCC ID: A3LSMT515

7. The trace was allowed to stabilize

8. Test channel : Low/ Middle/ High

9. Frequency range : We are performed all frequency to 10th harmonics from 9 kHz.

Test Note

1. Measurements value show only up to 3 maximum emissions noted, or would be lesser

if no specific emissions from the EUT are recorded (ie: margin > 20 dB from the applicable limit)

and considered that's already beyond the background noise floor.

2. The EUT was tested in three orthogonal planes(X, Y, Z) and in all possible test configurations and

positioning.

The worst case emissions are reported with the EUT positioning, modulations, RB sizes and offsets,

and channel bandwidth configurations shown in the test dat

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3.4 PEAK- TO- AVERAGE RATIO

Test setup

FCC ID: A3LSMT515

① CCDF Procedure for PAPR

Test Settings

1. Set resolution/measurement bandwidth ≥ signal’s occupied bandwidth;

2. Set the number of counts to a value that stabilizes the measured CCDF curve;

3. Set the measurement interval as follows:

.- for continuous transmissions, set to 1 ms,

.- or 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.

4. Record the maximum PAPR level associated with a probability of 0.1%.

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② Alternate Procedure for PAPR

Use one of the procedures presented in 5.2(ANSI C63.26-2015) to measure the total peak power and

record as P

.

Pk

Use one of the applicable procedures presented 5.2(ANSI C63.26-2015) to measure the total average

power and record as P

. Determine the P.A.R. from:

Avg

P.A.R

(dB)

= P

Pk (dBm)

– P

Avg (dBm)

(P

= Average Power + Duty cycle Factor)

Avg

Test Settings(Peak Power)

The measurement instrument must have a RBW that is greater than or equal to the OBW of the

signal to be measured and a VBW ≥ 3 × RBW.

1. Set the RBW ≥ OBW.

2. Set VBW ≥ 3 × RBW.

3. Set span ≥ 2 × OBW.

4. Sweep time ≥ 10 × (number of points in sweep) × (transmission symbol period).

5. Detector = peak.

6. Trace mode = max hold.

7. Allow trace to fully stabilize.

8. Use the peak marker function to determine the peak amplitude level.

Test Settings(Average Power)

1. Set span to 2 × to 3 × the OBW.

2. Set RBW ≥ OBW.

3. Set VBW ≥ 3 × RBW.

4. Set number of measurement points in sweep ≥ 2 × span / RBW.

5. Sweep time:

Set ≥ [10 × (number of points in sweep) × (transmission period)] for single sweep

(automation-compatible) measurement. The transmission period is the (on + off) time.

6. Detector = power averaging (rms).

7. Set sweep trigger to “free run.”

8. Trace average at least 100 traces in power averaging (rms) mode if sweep is set to auto-couple. (To

accurately determine the average power over the on and off period of the transmitter, it can be

necessary to increase the number of traces to be averaged above 100 or, if using a manually

configured sweep time, increase the sweep time.)

9. Use the peak marker function to determine the maximum amplitude level.

10. Add [10 log (1/duty cycle)] to the measured maximum power level to compute the average power

during continuous transmission. For example, add [10 log (1/0.25)] = 6 dB if the duty cycle is a

constant 25%.

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3.5 OCCUPIED BANDWIDTH.

FCC ID: A3LSMT515

Test setup

The width of a frequency band such that, below the lower and above the upper frequency limits, the mean

powers emitted are each equal to a specified percentage 0.5 % of the total mean power of a given emission.

The EUT makes a call to the communication simulator.

The conducted occupied bandwidth used the power splitter via EUT RF power connector between simulation

base station and spectrum analyzer.

The communication simulator station system controlled a EUT to export maximum output power under

transmission mode and specific channel frequency. Use OBW measurement function of Spectrum analyzer

to measure 99 % occupied bandwidth

Test Settings

1. The signal analyzer’s automatic bandwidth measurement capability was used to perform the 99%

occupied bandwidth and the 26dB bandwidth. The bandwidth measurement was not influenced by

any intermediate power nulls in the fundamental emission.

2. RBW = 1 – 5% of the expected OBW

3. VBW ≥ 3 x RBW

4. Detector = Peak

5. Trace mode = max hold

6. Sweep = auto couple

7. The trace was allowed to stabilize

8. 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

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3.6 SPURIOUS AND HARMONIC EMISSIONS AT ANTENNA TERMINAL

Test setup

Test Overview

FCC ID: A3LSMT515

The level of the carrier and the various conducted spurious and harmonic frequencies is measured by means

of a calibrated spectrum analyzer. The spectrum is scanned from the lowest frequency generated in the

equipment up to a frequency including its 10th harmonic. All out of band emissions are measured with a

spectrum analyzer connected to the antenna terminal of the EUT while the EUT is operating at its maximum

duty cycle, at maximum power, and at the appropriate frequencies. All data rates were investigated to

determine the worst case configuration. All modes of operation were investigated and the worst case

configuration results are reported in this section.

Test Settings(GSM)

1. RBW = 1 MHz

2. VBW ≥ 3 MHz

3. Detector = Peak

4. Trace Mode = max hold

5. Sweep time = auto

6. Number of points in sweep ≥ 2 * Span / RBW

Test Settings(WCDMA)

1. RBW = 1 MHz

2. VBW ≥ 3 MHz

3. Detector = RMS

4. Trace Mode = trace average

5. Sweep time = auto

6. Number of points in sweep ≥ 2 * Span / RBW

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3.7 BAND EDGE

Test setup

Test Overview

FCC ID: A3LSMT515

All out of band emissions are measured with a spectrum analyzer connected to the antenna terminal of the

EUT while the EUT is operating at its maximum duty cycle, at maximum power, and at the appropriate

frequencies. All data rates were investigated to determine the worst case configuration. All modes of

operation were investigated and the worst case configuration results are reported in this section.

Test Settings

1. Start and stop frequency were set such that the band edge would be placed in the center of the plot

2. Span was set large enough so as to capture all out of band emissions near the band edge

3. RBW > 1% of the emission bandwidth

4. VBW > 3 x RBW

5. Detector = RMS

6. Number of sweep points ≥ 2 x Span/RBW

7. Trace mode = trace average

8. Sweep time = auto couple

9. The trace was allowed to stabilize

Test Notes

According to FCC 22.917, 24.238, 27.53 specified that power of any emission outside of The authorized

operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 +

10 log(P) dB. In the 1 MHz bands immediately outside and adjacent to the frequency block a resolution

bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter

may be employed.

All measurements were done at 2 channels(low and high operational frequency range.)

The band edge measurement used the power splitter via EUT RF power connector between simulation base

station and spectrum analyzer.

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3.8 FREQUENCY STABILITY / VARIATION OF AMBIENT TEMPERATURE

Test setup

FCC ID: A3LSMT515

Test Overview

Frequency stability testing is performed in accordance with the guidelines of ANSI C63.26-2015.

The frequency stability of the transmitter is measured by:

1. Temperature:

The temperature is varied from -30°C to +50°C in 10°C increments using an environmental chamber.

2. Primary Supply Voltage:

.- Unless otherwise specified, vary primary supply voltage from 85% to 115% of the nominal value

for other than hand carried battery equipment.

.- 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.

Test Settings

1. The carrier frequency of the transmitter is measured at room temperature

(20°C to provide a reference).

2. The equipment is turned on in a “standby” condition for fifteen minutes before applying power to the

transmitter. Measurement of the carrier frequency of the transmitter is made within one minute after

applying power to the transmitter.

3. Frequency measurements are made at 10°C intervals ranging from -30°C to +50°C. A period of at

least one half-hour is provided to allow stabilization of the equipment at each temperature level.

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3.9 WORST CASE(CONDUCTED TEST)

- All modes of operation were investigated and the worst case configuration results are reported.

[ Worst case ]

Test Description Modulation Test Channel

FCC ID: A3LSMT515

2G : Voice & EDGE(1 TX Slot)

3G : QPSK

Occupied Bandwidth

2G : EDGE(1 TX Slot) Low, Mid, High

Band Edge

Spurious and Harmonic Emissions at

Antenna Terminal

Low 128 512 9262 1312 4132

Mid 190 661 9400 1412 4183

2G

(GSM850)

2G : Voice & EDGE(1 TX Slot)

3G : QPSK

2G : Voice

3G : QPSK

[ Test Channel ]

UplinkChannel

2G

(GSM1900)

3G

(WCDMA B2)

Low, Mid, High

Low, High

Low, Mid, High

3G

(WCDMA B4)

3G

(WCDMA B5)

High 251 810 9538 1513 4233

Note:

- SM-T515 & additional models were tested and the worst case results are reported.
(Worst case : SM-T515)

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FCC ID: A3LSMT515

3.10 WORST CASE(RADIATED TEST)

- The EUT was tested in three orthogonal planes(X, Y, Z) and in all possible test configurations and

positioning.

- All modes of operation were investigated and the worst case configuration results are reported.

- The worst case is reported with the EUT positioning, modulations, and paging service configurations

shown in the test data.

- Please refer to the table below.

[ Worst case_3G ]

Test Description Modulation Paging Service

Effective Radiated Power,

Effective Isotropic Radiated Power

(WCDMA)

Radiated Spurious and Harmonic

Emissions

(WCDMA)

Test Description Mod Axis Test Channel

Effective Radiated Power,

Effective Isotropic Radiated Power

Radiated Spurious and Harmonic Emissions

QPSK

QPSK

[ Worst case_2G ]

Voice

EDGE(1 TX Slot)

Voice

12.2 kbps

RMC

12.2 kbps

RMC

Axis Test Channel

WCDMA B2 : Z

WCDMA B4 : Z

WCDMA B5 : X

WCDMA B2 : Y

WCDMA B4 : Z

WCDMA B5 : X

GSM850 : X

GSM1900 : Z

GSM850 : X

GSM1900 : Z

GSM850 : Z

GSM1900 : Z

Low, Mid, High

Low, Mid, High

Low, Mid, High

GSM 850 : High

GSM1900 : Mid

Low, Mid, High

[ Test Channel ]

UplinkChannel

2G

(GSM850)

2G

(GSM1900)

3G

(WCDMA B2)

3G

(WCDMA B4)

3G

(WCDMA B5)

Low 128 512 9262 1312 4132

Mid 190 661 9400 1412 4183

High 251 810 9538 1513 4233

Note:

- SM-T515 & additional models were tested and the worst case results are reported.
(Worst case : SM-T515)

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4. LIST OF TEST EQUIPMENT

FCC ID: A3LSMT515

Manufacture Model/ Equipment

REOHDE &

SCHWARZ

Wainwright WHK1.2/15G-10EF/H.P.F 4 04/04/2018

Wainwright WHK3.3/18G-10EF/H.P.F 2 04/04/2018

Hewlett Packard 11667B / Power Splitter(DC~26.5 GHz) 5001 06/07/2018

Agilent E3632A/DC Power Supply KR75303243 05/09/2018

Schwarzbeck UHAP/ Dipole Antenna 557 03/31/2017

Schwarzbeck UHAP/ Dipole Antenna 558 03/31/2017

ESPEC SU-642 / Chamber 93000718 08/07/2018

Schwarzbeck BBHA 9120D/ Horn Antenna(1~18GHz) 147 09/14/2018

Schwarzbeck BBHA 9120D/ Horn Antenna(1~18GHz) 9120D-1298 10/04/2018

Schwarzbeck BBHA 9170/ Horn Antenna(15~40GHz) BBHA9170342 04/25/2017

Schwarzbeck BBHA 9170/ Horn Antenna(15~40GHz) BBHA9170124 04/25/2017

Agilent N9020A/Signal Analyzer(10Hz~26.5GHz) MY52090906 06/08/2018

SCU 18 / AMPLIFIER 10094 04/17/2018

Serial

Number

Calibration

Date

Calibration

Interval

Annual 04/17/2019

Annual 04/04/2019

Annual 04/04/2019

Annual 06/07/2019

Annual 05/09/2019

Biennial 03/31/2019

Biennial 03/31/2019

Annual 08/07/2019

Annual 09/14/2019

Annual 10/04/2019

Biennial 04/25/2019

Biennial 04/25/2019

Annual 06/08/2019

Calibration

Due

Hewlett Packard 8493C/ATTENUATOR(20dB) 17280 06/21/2018

REOHDE &

SCHWARZ

Agilent 8960 (E5515C)/ Base Station MY48360800 09/27/2018

Schwarzbeck FMZB1513/ Loop Antenna(9kHz~30MHz) 1513-175 08/23/2018

Schwarzbeck VULB9160/ Bilog Antenna 9160-3368 08/09/2018

Schwarzbeck VULB9160/ Hybrid Antenna 760 04/06/2017

Anritsu Corp.

Anritsu Corp.

REOHDE &

SCHWARZ

REOHDE &

SCHWARZ

HCT CO., LTD.,

FSV40/Spectrum Analyzer(10Hz~40GHz) 100931 10/22/2018

MT8821C/Wideband Radio Communication

Tester

MT8820C/Wideband Radio Communication

Tester

SMB100A/ SIGNAL GENERATOR

(100kHz~40GHz)

ESU40 / EMI TEST RECEIVER 100524 07/27/2018

FCC LTE Mobile Conducted RF Automation

Test Software

6201502997 08/13/2018

6201026545 01/30/2019

177633 07/19/2018

- - - -

Annual 06/21/2019

Annual 10/22/2019

Annual 09/27/2019

Biennial 08/23/2020

Biennial 08/09/2020

Biennial 04/06/2019

Annual 08/13/2019

Annual 01/30/2020

Annual 07/19/2019

Annual 07/27/2019

Note:

1. Equipment listed above that has a calibration due date during the testing period, the testing is completed

before equipment expiration date.

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FCC ID: A3LSMT515

5. MEASUREMENT UNCERTAINTY

The measurement uncertainties shown below were calculated in accordance with the requirements of ANSI

C63.4:2014.

All measurement uncertainty values are shown with a coverage factor of k = 2 to indicate a 95 % level of
confidence. The measurement data shown herein meets or exceeds the U

values specified in CISPR 16-4-2 and, thus, can be compared directly to specified limits to determine

compliance.

Parameter

Conducted Disturbance (150 kHz ~ 30 MHz) 1.82

Radiated Disturbance (9 kHz ~ 30 MHz) 3.40

Radiated Disturbance (30 MHz ~ 1 GHz) 4.80

Radiated Disturbance (1 GHz ~ 18 GHz) 5.70

Radiated Disturbance (18 GHz ~ 40 GHz) 5.71

Expanded Uncertainty (±dB)

measurement uncertainty

CISPR

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6. SUMMARY OF TEST RESULTS

6.1 Test Condition : Conducted Test

FCC Part

Test Description

Section(s)

Occupied Bandwidth §2.1049 N/A PASS

§2.1051,

FCC ID: A3LSMT515

Test Limit Test Result

Band Edge / Spurious and Harmonic

Emissions at Antenna Terminal.

Conducted Output Power §2.1046 N/A See Note1

Peak- to- Average Ratio

Frequency stability / variation of

ambient temperature

§22.917(a),

§24.238(a),

§27.53(h)

§24.232(d),

§27.50(d)(5)

§2.1055,

§ 22.355

§24.235, §27.54

< 43 + 10log10 (P[Watts]) at Band Edge

and for all out-of-band emissions

< 13 dB PASS

< 2.5 ppm PASS

Emission must remain in band PASS

Note:

1. See SAR Report

6.2 Test Condition : Radiated Test

PASS

Test Description

Effective Radiated Power §22.913(a)(5) < 7 Watts max. ERP PASS

Equivalent Isotropic Radiated Power

Radiated Spurious and Harmonic

Emissions

F-TP22-03 (Rev.00)

FCC Part

Section(s)

§24.232(c),

§27.50(d)(4)

§2.1053,

§22.917(a),

§24.238(a),

§27.53(h)

Test Limit Test Result

< 2 Watts max. EIRP

PASS

< 1 Watts max. EIRP

< 43 + 10log10 (P[Watts]) for

PASS

all out-of band emissions

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7. SAMPLE CALCULATION

7.1 ERP Sample Calculation

FCC ID: A3LSMT515

Ch./ Freq.

channel Freq.(MHz) W dBm

128 824.20 -21.37 38.40 -10.61 0.95 H 0.483 26.84

Measured

Level(dBm)

Substitute

Level(dBm)

Ant. Gain

C.L Pol.

(dBd)

ERP

ERP = Substitute LEVEL(dBm) + Ant. Gain – CL(Cable Loss)

1) The EUT mounted on a non-conductive turntable is 2.5 meter above test site ground level.

2) During the test , the turn table is rotated until the maximum signal is found.

3) Record the field strength meter’s level.

4) Replace the EUT with dipole/Horn antenna that is connected to a calibrated signal generator.

5) Increase the signal generator output till the field strength meter’s level is equal to the item (3).

6) The signal generator output level with Ant. Gain and cable loss are the rating of effective radiated power.

7.2 EIRP Sample Calculation

Ch./ Freq.

channel Freq.(MHz) W dBm

Measured

Level(dBm)

Substitute

Level(dBm)

Ant. Gain

C.L Pol.

(dBi)

EIRP

20175 1,732.50 -15.75 18.45 9.90 1.76 H 0.456 26.59

EIRP = Substitute LEVEL(dBm) + Ant. Gain – CL(Cable Loss)

1) The EUT mounted on a non-conductive turntable is 2.5 meter above test site ground level.

2) During the test , the turn table is rotated until the maximum signal is found.

3) Record the field strength meter’s level.

4) Replace the EUT with dipole/Horn antenna that is connected to a calibrated signal generator.

5) Increase the signal generator output till the field strength meter’s level is equal to the item (3).

6) The signal generator output level with Ant. Gain and cable loss are the rating of equivalent isotropic

radiated power.

F-TP22-03 (Rev.00)

20/129

Report No.: HCT-RF-1902-FC032-R1

7.3. Emission Desi0gnator

GSM Emission Designator EDGE Emission Designator

FCC ID: A3LSMT515

Emission Designator = 249KGXW

GSM BW = 249 kHz

G = Phase Modulation

X = Cases not otherwise covered

W = Combination (Audio/Data)

WCDMA Emission Designator QPSK Modulation

Emission Designator = 4M17F9W

WCDMA BW = 4.17 MHz

F = Frequency Modulation

9 = Composite Digital Info

W = Combination (Audio/Data)

16QAM Modulation

Emission Designator = 249KG7W

GSM BW = 249 kHz

G = Phase Modulation

7 = Quantized/Digital Info

W = Combination (Audio/Data)

Emission Designator = 4M48G7D

LTE BW = 4.48 MHz

G = Phase Modulation

7 = Quantized/Digital Info

D = Data transmission; telemetry; telecommand

Emission Designator = 4M48W7D

LTE BW = 4.48 MHz

W = Amplitude/Angle Modulated

7 = Quantized/Digital Info

D = Data transmission; telemetry; telecommand

F-TP22-03 (Rev.00)

21/129

Report No.: HCT-RF-1902-FC032-R1

8. TEST DATA

8.1 EFFECTIVE RADIATED POWER

Mode

Ch./ Freq.

channel Freq.(MHz)

Measured

Level

(dBm)

128 824.2 -19.96

Substitute

LEVEL

(dBm)

41.32 -10.27

Ant. Gain

(dBi)

C.L Pol.

0.86 H

FCC ID: A3LSMT515

Limit EIRP

W W dBm

1.045 30.19

GSM850

EDGE 251 848.8 -26.54

190 836.6 -20.37

251 848.8 -21.16

41.93 -10.21

41.31 -10.16

35.76 -10.21

Mode

WCDMA850

Ch./ Freq.

channel Freq.(MHz)

Measured

Level

(dBm)

4132 826.4 -29.53

4183 836.6 -29.60

4233 846.6 -30.80

Substitute

LEVEL

(dBm)

31.88

32.70

31.54

Ant. Gain

(dBd)

-10.26

-10.21

-10.17

0.87 H 1.216 30.85
< 7.00

0.87 H 1.067 30.28

0.87 H 0.294 24.68

Limit ERP

C.L Pol.

0.86 H

0.87 H 0.145 21.62

W W dBm

0.119 20.76

< 7.00

0.87 H 0.112 20.50

F-TP22-03 (Rev.00)

22/129