24007 1 FCC Part 15.247 Test Report

Test Report

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Document DEVICE REPORTROXW-Test-Report-X-Media-Tech-2ajfz-roxw-ex-1-7 
Intentional Radiator Test Report
For the X-Media Tech, Inc.
WiLinq
Tested under
The FCC Rules contained in Title 47 of the CFR, Part 15.247 Digitally Transmitting Sequence March 04, 2024 Prepared for: X-Media Tech, Inc. 1200 Commerce Drive, Suite 108 Plano, TX 75093

Prepared By: H.B. Compliance Solutions 5005 S. Ash Avenue, Suite # A-10 Tempe, Arizona 85282

Reviewed By: Hoosamuddin Bandukwala

Cert # ATL-0062-E Engineering Statement: The measurements shown in this report were made in accordance with the procedure indicated, and the emissions from this equipment were found to be within the limits applicable. I assume full responsibility for the accuracy and completeness of these measurements, and for the qualifications of all persons taking them. It is further stated that upon the basis of the measurement made, the equipment tested is capable of operation in accordance with the requirements of Part 15 of the FCC Rules under normal use and maintenance. All results contained herein relate only to the sample tested.
Certificates and reports shall not be reproduced except in full, without the written permission of H.B Compliance Solutions, LLC.

Revision # Ø

Report Status Sheet

Report Date March 04, 2024

Reason for Revision Initial Issue

HBCS Report # RF_24007_1

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Table of Contents
EXECUTIVE SUMMARY ............................................................................................4 1. Testing Summary........................................................................................4
EQUIPMENT CONFIGURATION................................................................................5 1. Overview ....................................................................................................5 2. Test Facility.................................................................................................6 3. Description of Test Sample.........................................................................7 4. Equipment Configuration ...........................................................................7 5. Support Equipment ....................................................................................7 6. Ports and Cabling Information....................................................................7 7. Method of Monitoring EUT Operation........................................................7 8. Mode of Operation.....................................................................................8 9. Modifications .............................................................................................9 10. Disposition of EUT ......................................................................................9
Criteria for Un-Intentional Radiators ....................................................................10 1. Radiated Emissions...................................................................................10 Emissions Tests Calculations ......................................................................11
Criteria for Intentional Radiators ..........................................................................14 1. Occupied Bandwidth ................................................................................14 2. RF Power Output ......................................................................................21 3. Conducted Spurious Emissions .................................................................23 4. Radiated Spurious Emissions and Restricted Band ...................................43 6. Emissions At Band Edges ..........................................................................47 7. Power Spectral Density.............................................................................52
8. Test Equipment.............................................................................................59 9. Measurement Uncertainty............................................................................60

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EXECUTIVE SUMMARY
1. Testing Summary
These tests were conducted on a sample of the equipment for the purpose of demonstrating compliance with Part 15.247. All tests were conducted using measurement procedure from ANSI C63.10-2013 and FCC Guidance document 558074 D01 v05r02 April 02, 2019.

Test Name
Unintentional Radiated Emissions A/C Powerline Conducted Emissions Occupied Bandwidth Peak Output Power Conducted Spurious Emissions Radiated Spurious Emissions & Restricted Band Emissions at Band Edges Power Spectral Density

Test

Result

Method/Standard

15.209

Pass

15.207

N/A

15.247(a)(2)

Pass

15.247(b)

Pass

15.247(d)

Pass

15.247(d),

Pass

15.209(a), 15.205

15.247(d),

Pass

15.209(a), 15.205

15.247(e)

Pass

Comments
Battery Powered Device

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EQUIPMENT CONFIGURATION
1. Overview

H.B Compliance Solutions was contracted by X-Media Tech to perform testing on the WiLinq under the purchase order number 257524.

This document describes the test setups, test methods, required test equipment, and the test limit criteria used to perform compliance testing of the X-Media Tech, WiLinq.

The tests were based on FCC Part 15 Rules. The tests described in this document were formal tests as described with the objective of the testing was to evaluate compliance of the Equipment Under Test (EUT) to the requirements of the aforementioned specifications. GROM Audio should retain a copy of this document and it should be kept on file for at least five years after the manufacturing of the EUT has been permanently discontinued. The results obtained relate only to the item(s) tested.

Product Name: Model(s) Tested: FCC ID: Supply Voltage Input: Frequency Range: No. of Channels: Necessary Bandwidth Type(s) of Modulation:
Range of Operation Power: Emission Designator: Channel Spacing(s) Test Item: Type of Equipment: Antenna Requirement (§15.203): Environmental Test Conditions:
Modification to the EUT: Evaluated By: Test Date(s):

WiLinq

WLQ1

2AJFZ-ROXW

Primary Power: 5 VDC (USB)

802.11b/g/n20: 2412MHz ­ 2462MHz

11

N/A

802.11b : DSSS (DBPSK, DQPSK, QPSK)

802.11g/n (HT20): OFDM, (64QAM, 16QAM, QPSK, BPSK)

0.272W

N/A

None

Pre-Production

Portable

Type of Antenna: Chip Antenna

Gain of Antenna: 2dBi

Temperature:

15-35C

Humidity:

30-60%

Barometric Pressure: 860-1060 mbar

None

Staff at H.B. Compliance Solutions

02/12/2024 till 02/27/2024

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2. Test Facility
All testing was performed at H.B. Compliance Solutions. This facility is located at 5005 S. Ash Avenue, Suite # A-10, Tempe AZ-85282. All equipment used in making physical determination is accurate and bears recent traceability to the National Institute of Standards and Technology.
Radiated Emissions measurements were performed in a GTEM chamber (equivalent to an Open Area Test Site). In accordance with §2.948(a)(3), a complete site description is contained at H.B. Compliance Solutions.
Test facility H.B. Compliance Solutions is an ANAB accredited test site. The ANAB certificate number is L2458. The scope of accreditation can be found on ANAB website www.anab.org

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3. Description of Test Sample
The GROM Audio, WiLinq is a plug and play device used in automotives to convert wired Android deices to wireless.

4. Equipment Configuration

Ref. ID Name / Description
# 1 WiLinq (Sample #1 ­ For Conducted Testing) # 2 WiLinq (Sample #2 ­ For Radiated Testing)
Table 1. Equipment Configuration
5. Support Equipment

Model Number WLQ1 WLQ1

Serial Number
-

All support equipment supplied is listed in the following Support Equipment List.

Ref ID Name /

Manufacturer Model #

Serial #

Description

# 3 CP2102 USB to

-

-

-

TTL/UART

# 4 Laptop Computer Acer

Swift SF314-52

-

Table 2. Support Equipment

6. Ports and Cabling Information

Ref ID Port name on

Cable Qty.

the EUT

Description

# 5

USB C

USB C to 1

USB A

# 6

TTL/UART

3 Wire

1

Table 3. Ports and Cabling Information

Length (m)
0.1

Shielded? (Y/N)
N

Termination Box ID & Port
ID # 4

0.2

N

# 3 / # 4

7. Method of Monitoring EUT Operation A test receiver will be used to monitor the data transmission from the EUT.
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8. Mode of Operation
To support FCC testing, a test firmware was provided to allow configuration of the data rates, transmission channel, and power level for worst case emissions. Pretesting was performed across all operational modes to determine the data rate for each that provided the worst caseemissions.

Channel

Frequency (MHz)

1

2412

2

2417

3

2422

4

2427

5

2432

6

2437

Table 4. Operational Channels for 802.11b/g/n

Channel 7 8 9 10 11

Frequency (MHz) 2422 2447 2452 2457 2462

Operational Mode

Data Rates

802.11b

1/2/5/11 Mbps

802.11g

6/9/12/18/24/36/48/54 Mbps

802.11n (20 MHz)

6.5/13/19.5/26/39/52/58.5/65 Mbps (MSC0-MSC7)

Table 5. Data rates for Operational WIFI modes

Worst Case used for Testing 1 Mbps 6 Mbps
6.5 Mbps (MSC0)

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9. Modifications
9.1 Modifications to EUT No modifications were made to the EUT
9.2 Modifications to Test Standard No Modifications were made to the test standard.

10.

Disposition of EUT

The test sample including all support equipment submitted to H.B Compliance Solutions for testing will be returned to X-Media Tech, Inc at the completion of testing & certification.

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Criteria for Un-Intentional Radiators
1. Radiated Emissions

Test Requirement(s): Test Results:

§15.109 Pass

Test Engineer(s): Test Date(s):

Evan L. Feb 12, 2024

Test Procedures:
The final radiated emissions test was performed using the parameters described above as worst case. That final test was conducted at a facility that meets the ANSI C63.4 NSA requirements. The frequency range noted in the data sheets was scanned/tested at that facility. Emissions were maximized as specified, by varying table azimuth, antenna height, and manipulating cables.
Using the mode of operation and configuration noted within this report, a final radiated emissions test was performed. The frequency range investigated (scanned), is also noted in this report. Radiated emissions measurements were made at the EUT azimuth and antenna height such that the maximum radiated emissions level will be detected. This requires the use of a turntable and an antenna positioner. The preferred method of a continuous azimuth search is utilized for frequency scans of the EUT field strength with both polarities of the measuring antenna. A calibrated, linearly polarized antenna was positioned at the specified distance from the periphery of the EUT.
Note: The specified distance is the horizontal separation between the closest periphery of the EUT and the center of the axis of the elements of the receiving antenna. However, if the receiving antenna is a log-periodic array, the specified distance shall be the distance between the closest periphery of the EUT and the front-to-back center of the array of elements.
Tests were made with the antenna positioned in both the horizontal and vertical polarization planes. The measurement was varied in height above the conducting ground plane to obtain the maximum signal strength. Though specified in the report, the measurement distance shall be 3 meters. At any measurement distance, the antenna height was varied from 1 meter to 4 meters. These height scans apply for both horizontal and vertical polarization, except that for vertical polarization the minimum height of the center of the antenna shall be increased so that the lowest point of the bottom of the antenna clears the ground surface by at least 25 cm.

Frequency Range (MHz) 30 MHz to 1 GHz 1 GHz to 11 GHz

Peak Data (kHz) 120 kHz 1MHz

Quasi-Peak Data (kHz) 120 kHz N/A

Average Data (kHz) N/A
1MHz

Measurements were made using the bandwidths and detectors specified. The video filter was at least as wide as the IF bandwidth of the measuring receiver.
Table 6. Radiated Emissions ­ Measurement Bandwidth

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Emissions Tests Calculations
In the case of indoor measurements, radiated emissions measurements are made by the manipulation of correction factors using TILE4 software. This is done automatically by the software during the final measurement process.
In both cases, the level of the Field Strength of the interfering signal is calculated by adding the Antenna Factor, Cable Factor and by subtracting the Amplifier Gain from the measured reading. The basic equation is as follows:
FS = RA + AF + (CF ­AG)
Where: FS = Field Strength
RA = Receiver (indicated) Amplitude
AF = Antenna Factor
CF = Cable Attenuation Factor
AG = Amplifier Gain
This laboratory uses an approach of combining the CF and AG using an end-to-end measurement of the entire cabling system, including the test cable, any in-line amplifiers, attenuators, or transient protection networks, all measured in-situ.
For a sample calculation, assume a receiver reading of 52.5 dBuV is obtained. With an antenna factor of 7.4 and a combined cable factor (CF + AG) of -27.9:
FS = 52.5 + 7.4 + (-27.9) = 32 dBuV/m
FS = 32 dBuV/m
If desired, this can be converted into its corresponding level in uV/m:
FS = 10^((32 dBuV/m)/20) = 39.8 uV/m

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Figure 1. Radiated Emissions Test Setup (30MHz ­ 1GHz)

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P eak A m p litu d e in d B u V /m

H.B. Compliance Solutions
Radiated Emissions 30 MHz - 1 GHz 3 Meter Distance

80

Limit

Peak

70

QP_Final

60

50

40

30

20

10

0

10M

100M

1G

Frequency

Plot 1 ­ Radiated Emissions ­ 30MHz to 1GHz

Frequency

Measured Level

Detector

(MHz)

76.32

22.04

Peak

126.81

33.48

Peak

150.04

30.55

Peak

300.00

33.41

Peak

450.06

37.74

Peak

Table 7. Final Measurement Results for Radiated Emissions

Limit (dBuV)
40.0 43.52 43.52 46.02 46.02

Margin (dB)
-17.96 -10.04 -12.97 -12.61 -8.28

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Criteria for Intentional Radiators
1. Occupied Bandwidth

Test

15.247(a)(2), ANSI C63.10 Test Engineer(s):

Requirement(s):

Test Results:

Pass

Test Date(s):

Sean E. Feb 20, 2024

Test Procedure:

As required by 47 CFR 15.247(a)(2) System using digital modulation techniques may operate in the 902-928MHz, 2400 ­ 2483.5MHz, and 5725 ­ 5850MHz bands. The minimum 6dB bandwidth shall be at least 500 kHz.
Customer provided a test mode internal to the EUT to control the RF modulation, and frequency channel. The EUT was connected through an attenuator to a Spectrum Analyzer. The measured highest peak power was set relative to zero dB reference. The RBW of the Spectrum Analyzer was set to 100kHz and VBW>RBW. Measurements were carried out at the low, mid and high channels of the TX band at the output terminals of the EUT.

Test Setup:

Figure 2. Occupied Bandwidth Test Setup

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Test Results:

Operational Mode
802.11b

Frequency (MHz) 2412 2437 2462

Recorded Measurement
8.57 MHz 8.11 MHz 9.04 MHz

Specification Limit
 500 KHz  500 KHz  500 KHz

802.11g

2412 2437 2462

15.20 MHz 15.20 MHz 15.18 MHz

 500 KHz  500 KHz  500 KHz

802.11n (20 MHz)

2412 2437 2462

16.01 MHz 16.01 MHz 15.79 MHz

Table 8. Occupied Bandwidth Summary, WIFI Test Results

 500 KHz  500 KHz  500 KHz

The following pages show measurements of Occupied Bandwidth plots:

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Plot 2 ­ 802.11b Lowest Channel ­ 6dB BW

Plot 3 ­ 802.11b Middle Channel ­ 6dB BW HBCS Report # RF_24007_1

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Plot 4 ­ 802.11b Highest Channel ­ 6dB BW

Plot 5 ­ 802.11g Lowest Channel ­ 6dB BW HBCS Report # RF_24007_1

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Plot 6 ­ 802.11g Middle Channel ­ 6dB BW

Plot 7 ­ 802.11g Highest Channel ­ 6dB BW HBCS Report # RF_24007_1

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Plot 8 ­ 802.11n (20 MHz) Lowest Channel ­ 6dB BW

Plot 9 ­ 802.11n (20 MHz) Middle Channel ­ 6dB BW HBCS Report # RF_24007_1

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Plot 10 ­ 802.11n (20 MHz) Highest Channel ­ 6dB BW

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2. RF Power Output

Test Requirement(s): §15.247(b)(3)

Test Results:

Pass

Test Engineer(s): Test Date(s):

Sean E. Feb 20, 2024

Test Procedures:

As required by 47 CFR 15.247(b)(3), RF Power output measurements were made at the RF output terminals of the EUT
Customer provided a test mode internal to the EUT to control the RF modulation, and frequency channel. For testing the WIFI Channels, the EUT was connected through an attenuator to a Wideband Power Sensor capable of making power measurements. Measurements were made at the low, mid, and high channels of the entire frequency band.

Test Setup:

Figure 3. RF Power Test Setup ­ WIFI

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Test Results:

Operational Mode
802.11b

Frequency (MHz) 2412 2437 2462

Conducted Power (dBm) 19.79 20.25 20.69

Conducted Power (Watts) 0.0953 0.1059 0.1172

Specification Limit 1W 1W 1W

802.11g

2412 2437 2462

23.42 24
24.35

0.2198

1W

0.2512

1W

0.2723

1W

802.11n (20 MHz)

2412 2437 2462

23.72 24.32 24.35

Table 9. RF Power Output, WIFI Test Results

0.2355

1W

0.2704

1W

0.2723

1W

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3. Conducted Spurious Emissions

Test Requirement(s): Test Results:

§15.247(c) Pass

Test Engineer(s): Test Date(s):

Sean E. Feb 21, 2024

Test Procedures:

As required by 47 CFR 15.247(c): In any 100kHz bandwidth the frequency band in which the spread spectrum or digitally modulation intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20dB below that in the 100kHz bandwidth within the band that contains the highest level of the desired power, based on either and RF conducted or a radiated measurement. Conducted spurious emissions at antenna terminal measurements were made at the RF output antenna terminal of the EUT.
Customer provided a test mode internal to the EUT to control the RF modulation, and frequency channel. The EUT was connected through an attenuator to a Spectrum Analyzer with RBW set to 100kHz and VBW  RBW. The Spectrum Analyzer was set to sweep from 30MHz up to 10th harmonic of the fundamental or 40GHz whichever is the lesser. Measurements were made at the low, mid and high frequency of the transmit band.

Test Setup:

Figure 4. Conducted Spurious Emissions Test Setup

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Test Results:

Operational Mode
802.11b

Transmit Frequency (MHz) 2412
2437
2462

Measured Frequency (GHz)
4.824 7.240 4.874 7.310 4.924 7.390

Measured Level (dBm) -55.79 -49.83 -53.82 -49.83 -48.35 -45.17

802.11g

2412 2437 2462

3.618 7.230 3.651 7.300 4.923 7.380

-60.58 -51.50 -61.16 -52.83 -60.07 -50.17

2412

3.616 7.230

802.11n (20 MHz)

2437

3.657 7.300

2462

4.921 7.390

Table 10. Conducted Spurious Emissions, WIFI Test Results

-60.17 -51.50 -61.86 -52.83 -59.55 -50.17

Limit (dBm)
-11.0 -11.0 -11.0 -11.0 -11.0 -11.0
-14.0 -14.0 -14.0 -14.0 -14.0 -14.0
-14.5 -14.5 -14.5 -14.5 -14.5 -14.5

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Plot 11 ­ 802.11b Lowest Channel ­ 30MHz to 1000MHz

Plot 12 ­ 802.11b Lowest Channel ­ 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 13 ­ 802.11b Lowest Channel ­ 6GHz to 12GHz

Plot 14 ­ 802.11b Lowest Channel ­ 12GHz to 25GHz HBCS Report # RF_24007_1

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Plot 15 ­ 802.11b Middle Channel - 30MHz to 1000MHz

Plot 16 ­ 802.11b Middle Channel - 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 17 ­ 802.11b Middle Channel - 6GHz to 12GHz

Plot 18 ­ 802.11b Middle Channel - 12GHz to 25GHz HBCS Report # RF_24007_1

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Plot 19 ­ 802.11b Highest Channel ­ 30MHz to 1000MHz

Plot 20 ­ 802.11b Highest Channel ­ 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 21 ­ 802.11b Highest Channel ­ 6GHz to 12GHz

Plot 22 ­ 802.11b Highest Channel ­ 12GHz to 25GHz HBCS Report # RF_24007_1

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Plot 23 ­ 802.11g Lowest Channel ­ 30MHz to 1000MHz

Plot 24 ­ 802.11g Lowest Channel ­ 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 25 ­ 802.11g Lowest Channel ­ 6GHz to 12GHz

Plot 26 ­ 802.11g Lowest Channel ­ 12GHz to 25GHz HBCS Report # RF_24007_1

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Plot 27 ­ 802.11g Middle Channel - 30MHz to 1000MHz

Plot 28 ­ 802.11g Middle Channel - 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 29 ­ 802.11g Middle Channel - 6GHz to 12GHz

Plot 30 ­ 802.11g Middle Channel - 12GHz to 25GHz HBCS Report # RF_24007_1

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Plot 31 ­ 802.11g Highest Channel ­ 30MHz to 1000MHz

Plot 32 ­ 802.11g Highest Channel ­ 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 33 ­ 802.11g Highest Channel ­ 6GHz to 12GHz

Plot 34 ­ 802.11g Highest Channel ­ 12GHz to 25GHz HBCS Report # RF_24007_1

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Plot 35 ­ 802.11n (20 MHz) Lowest Channel ­ 30MHz to 1000MHz

Plot 36 ­ 802.11n (20 MHz) Lowest Channel ­ 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 37 ­ 802.11n (20 MHz) Lowest Channel ­ 6GHz to 12GHz

Plot 38 ­ 802.11n (20 MHz) Lowest Channel ­ 12GHz to 25GHz HBCS Report # RF_24007_1

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Plot 39 ­ 802.11n (20 MHz) Middle Channel - 30MHz to 1000MHz

Plot 40 ­ 802.11n (20 MHz) Middle Channel - 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 41 ­ 802.11n (20 MHz) Middle Channel - 6GHz to 12GHz

Plot 42 ­ 802.11n (20 MHz) Middle Channel - 12GHz to 25GHz HBCS Report # RF_24007_1

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Plot 43 ­ 802.11n (20 MHz) Highest Channel ­ 30MHz to 1000MHz

Plot 44 ­ 802.11n (20 MHz) Highest Channel ­ 1GHz to 6GHz HBCS Report # RF_24007_1

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Plot 45 ­ 802.11n (20 MHz) Highest Channel ­ 6GHz to 12GHz

Plot 46 ­ 802.11n (20 MHz) Highest Channel ­ 12GHz to 25GHz HBCS Report # RF_24007_1

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4. Radiated Spurious Emissions and Restricted Band

Test Requirement(s):
Test Results:

§15.247(d), 15.209(a), Test Engineer(s): 15.205

Pass

Test Date(s):

Sean E. Feb 27, 2024

Test Procedures:

As required by 47 CFR 15.247, Radiated spurious measurements were made in accordance with the procedures of the FCC Guidance Document 558074 D01 and ANSI C63.10.
The EUT was placed on a non-reflective table inside a 3-meter open area test site. The EUT was set on continuous transmit.
The measurement antenna was placed at a distance of 3 meters from the EUT. During the tests, the antenna height and polarization as well as EUT azimuth were varied in order to identify the maximum level of emissions from the EUT. The frequency range up to the 10th harmonic was investigated included all the restricted band frequencies include 2483.5MHz. Measurement 10dB below the limits were not reported.
To get a maximum emission level from the EUT, the EUT was rotated throughout the X-axis, Y-axis and Z-axis. Worst case is X-axis

Detector

Resolution

Setting

Bandwidth

Peak

1MHz

Average

1MHz

Table 11. Analyzer Settings

Video Bandwidth Span

3MHz 10Hz

As necessary 0 Hz

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Test Setup:
Figure 5. Radiated Emission Above 1GHz Test Setup

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Test Result:

Transmit Frequency
(MHz)
2412

Measured Frequency
(MHz) 2412 4824* 7236

Peak Amplitude (dBuV/m)
98.29 48.22 49.57

Peak Limit (dBuV/m)
Fundamental 74.0 78.29

Average Amplitude (dBuV/m) Fundamental
-

2437

2437 4874* 7311*

98.66 48.36 48.76

Fundamental Fundamental

74.0

-

74.0

-

2462

99.70

Fundamental Fundamental

2462

4924*

48.45

74.0

-

7386*

43.70

74.0

-

Table 12 - Spurious Radiated Emission Data ­ 802.11b Operation Mode

Average Limit (dBuV/m)
Fundamental 54.0 58.29
Fundamental 54.0 54.0
Fundamental 54.0 54.0

Transmit Frequency
(MHz)
2412

Measured Frequency
(MHz) 2412 4824*

Peak Amplitude (dBuV/m)
101.59 47.76

Peak Limit (dBuV/m)
Fundamental 74.0

Average Amplitude (dBuV/m) Fundamental
-

2437

2437 4874*

102.09 47.57

Fundamental Fundamental

74.0

-

2462

2462 4924*

100.59 47.64

Fundamental Fundamental

74.0

-

Table 13 - Spurious Radiated Emission Data ­ 802.11g Operation Mode

Average Limit (dBuV/m)
Fundamental 54.0
Fundamental 54.0
Fundamental 54.0

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Transmit Frequency
(MHz)
2412

Measured Frequency
(MHz) 2412 4824*

Peak Amplitude (dBuV/m)
100.55 47.56

Peak Limit (dBuV/m)
Fundamental 74.0

Average Amplitude (dBuV/m) Fundamental
-

Average Limit (dBuV/m)
Fundamental 54.0

2437

2437 4874*

102.64 47.24

Fundamental Fundamental

74.0

-

Fundamental 54.0

2462

2462 4924*

100.96 47.46

Fundamental Fundamental

74.0

-

Fundamental 54.0

Table 14 ­ Spurious Radiated Emission Data ­ 802.11n (20 MHz) Operation Mode

NOTE: There were no detectable emissions above the 2nd or 3rd harmonic dependent on operational mode.

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6. Emissions At Band Edges

Test Requirement(s): Test Results:

§15.247(d) Pass

Test Engineer(s): Test Date(s):

Sean E. Feb 20, 2024

Test Procedures:

As required by 47 CFR 15.247, Band edge radiated emissions measurements were made at the RF antenna output terminals of the EUT using the marker-delta method.

Customer provided a test mode internal to the EUT to control the RF modulation, and frequency channel. The EUT output was connected directly to the spectrum analyzer through an attenuator. The EUT was set up at maximum power, first on the lowest operating channel, then on the highest operating channel of the transmit band.

Detector

Resolution

Setting

Bandwidth

Peak

100 kHz

Table 15 ­ Analyzer settings

Video Bandwidth Sweep Time

300 kHz

Auto

Test Setup:

Figure 6. Band Edge Test Setup

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Test Results:

Operational Mode
802.11b

Frequency (MHz)
2400 2483.5

Measured Level (dBm)
-46.62 -50.60

Detector
Peak Peak

2400

-31.73

Peak

802.11g

2483.5

-44.21

Peak

802.11n

2400

-30.47

(20 MHz)

2483.5

-41.90

Table 16 ­ Band Edge Emissions Summary ­ WIFI

Peak Peak

Limit -20dBc -20dBc
-20dBc -20dBc
-20dBc -20dBc

HBCS Report # RF_24007_1

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Plot 47 ­ 802.11b Lowest Channel ­ Band Edge

Plot 48 ­ 802.11b Highest Channel ­ Band Edge HBCS Report # RF_24007_1

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Plot 49 ­ 802.11g Lowest Channel ­ Band Edge

Plot 50 ­ 802.11g Highest Channel ­ Band Edge HBCS Report # RF_24007_1

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Plot 51 ­ 802.11n (20 MHz) Lowest Channel ­ Band Edge

Plot 52 ­ 802.11n (20 MHz) Highest Channel ­ Band Edge HBCS Report # RF_24007_1

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7. Power Spectral Density

Test Requirement(s): Test Results:

§15.247(f), ANSI C63.10 Pass

Test Engineer(s): Test Date(s):

Sean E. Feb 20, 2024

Test Procedures:

As required by 47 CFR 15.247(d), For digitally modulated systems, the peak power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8 dBm in any 3kHz band during any time interval of continuous transmission. Power spectral density measurements were made at the RF antenna output terminals of the EUT using the DTS methods section 8.4 was used for DTS mode.
The EUT output was connected directly to the spectrum analyzer through an attenuator. The measurements were made at the RF antenna output terminals of the EUT.

Detector

Resolution

Setting

Bandwidth

Peak

3KHz

Table 17 ­ Analyzer settings

Sweep Time Auto

Span As Necessary

Test Setup:

Figure 7. Power Spectral Density Test Setup

HBCS Report # RF_24007_1

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Test Results: Operational Mode
802.11b

Frequency (MHz)
2412 2437 2462

Measured Level (dBm)
-5.45 -3.46 -3.80

802.11g

2412 2437 2462

-6.56 -7.73 -6.95

802.11n (20 MHz)

2412 2437 2462

-6.71 -5.95 -6.76

Table 18 ­ Power Spectral Density ­ WIFI Test Results

Limit
8 dBm 8 dBm 8 dBm
8 dBm 8 dBm 8 dBm
8 dBm 8 dBm 8 dBm

HBCS Report # RF_24007_1

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Plot 53 ­ 802.11b Lowest Channel - Power Spectral Density

Plot 54 ­ 802.11b Middle Channel - Power Spectral Density HBCS Report # RF_24007_1

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Plot 55 ­ 802.11b Highest Channel - Power Spectral Density

Plot 56 ­ 802.11g Lowest Channel - Power Spectral Density HBCS Report # RF_24007_1

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Plot 57 ­ 802.11g Middle Channel - Power Spectral Density

Plot 58 ­ 802.11g Highest Channel - Power Spectral Density HBCS Report # RF_24007_1

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Plot 59 ­ 802.11n (20 MHz) Lowest Channel - Power Spectral Density

Plot 60 ­ 802.11n (20 MHz) Middle Channel - Power Spectral Density HBCS Report # RF_24007_1

Page 57 of 60

Plot 61 ­ 802.11n (20 MHz) Highest Channel - Power Spectral Density

HBCS Report # RF_24007_1

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8. Test Equipment

Equipment

Manufacturer Model

Spectrum Analyzer Agilent

E4443A

Serial # US41420164

Last Cal Date Jun-01-23

Cal Due Date Jun-01-24

EMI Test Receiver
High Pass Filter Spectrum Analyzer
Attenuator 20dB Horn Antenna

Rhode & Schwarz Mini-Circuits Hewlett Packard Weinschel Com-Power

ESMI26 840607/005

VHF-3100+ 1048

8666B

2747A05264

41-20-12 86332 AHA-118 711150

Nov-15-23 Nov-15-24
Verified Feb-01-24 Feb-01-25
Verified Jan-09-23 Jan-09-25

Antenna

EMCO

USB Wideband

Agilent

Power Sensor

Spectrum Analyzer Hewlett

Packard

Spectrum Analyzer Hewlett

Packard

Two Line V-

Teseq

Network ­ LISN

Table 19 ­ Test Equipment List

GTEM 5417 U2021XA

1063

Verified

MY54210014 Nov-15-23 Nov-15-24

8563E

3821A09316 May-02-23 May-02-24

8595EM 3801A00177 May-02-23 May-02-24

NNB 51 43198

Jan-12-23 Jan-12-25

*Statement of Traceability: Test equipment is maintained and calibrated on a regular basis. All
calibrations have been performed by a 17025 accredited test facility, traceable to National Institute of Standards and Technology (NIST)

HBCS Report # RF_24007_1

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9. Measurement Uncertainty
ISO/IEC 17025 requires that an estimate of the measurement uncertainties associated with the emissions test results be included in the report. These measurements figures are calculated in accordance with ETSI TR 100 028 Parts 1 and 2. Instrumentation measurement uncertainty has not been taken into account to determine compliance. The following measurement uncertainty values have been calculated as show in the table below:

Measured Parameter
Conducted Emissions (AC Power) Radiated Emission below 30MHz Radiated Emissions below 1GHz Radiated Emissions above 1GHz

Measurement Unit
dBuV or dBuA dBuV/m dBuV/m dBuV/m

Frequency Range
150kHz ­ 30MHz 9kHz-30MHz 30 ­ 1000MHz 1 ­ 26.5GHz

Expanded Uncertainty
± 4.3dB ± 2.96dB ± 5.6dB ± 4.1dB

The reported expanded uncertainty has been estimated at a 95% confidence level (k=2)

END OF TEST REPORT

HBCS Report # RF_24007_1

Page 60 of 60

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