Global United Technology Services Co., Ltd. - TEST REPORT

Report No.: GTS2024120409F01

Test Report Details

Applicant: Bushnell Holdings Inc.

Address of Applicant: 177 Garden Drive, Bozeman, Montana 59718, United States

Manufacturer/Factory: VIETNAM IBE LASER TECHNOLOGY COMPANY LIMITED

Address of Manufacturer/Factory: Lot CN-34 and Lot CN-39, Thuan Thanh II industrial zone, An Binh & Mao Dien commune, Thuan Thanh district, Bac Ninh province, Vietnam

Equipment Under Test (EUT)

Product Name: Laser Rangefinder

Model No.: TOUR HYBRID

Trade Mark: Bushnell Golf

FCC ID: 2ASQI-202500

Applicable standards: FCC CFR Title 47 Part 15 Subpart C Section 15.247

Date of sample receipt: December 26, 2024

Date of Test: December 26, 2024-January 14, 2025

Date of report issued: January 15, 2025

Test Result: PASS

* In the configuration tested, the EUT complied with the standards specified above.

Authorized Signature: Robinson Luo (Laboratory Manager)

This results shown in this test report refer only to the sample(s) tested, this test report cannot be reproduced, except in full, without prior written permission of the company. The report would be invalid without specific stamp of test institute and the signatures of compiler and approver.

Version Information

Version No.DateDescription
00January 15, 2025Original

Prepared By: Tyson Wu (Project Engineer)

Date: January 15, 2025

Check By: Robinson Luo (Reviewer)

Date: January 15, 2025

Test Summary

Test ItemSection in CFR 47Result
Antenna requirement15.203/15.247 (c)Pass
AC Power Line Conducted Emission15.207N/A
Conducted Output Power15.247 (b)(3)Pass
Channel Bandwidth15.247 (a)(2)Pass
Power Spectral Density15.247 (e)Pass
Band Edge15.247(d)Pass
Spurious Emission15.205/15.209Pass

Remarks:

Measurement Uncertainty

No.ItemMeasurement Uncertainty
1Radio Frequency±7.25×10-8
2Duty cycle±0.37%
3Occupied Bandwidth±3%
4RF conducted power±0.75dB
5RF power density±3dB
6Conducted Spurious emissions±2.58dB
7AC Power Line Conducted Emission±3.44dB (0.15MHz ~ 30MHz)
8Radiated Spurious emission test±3.1dB (9kHz-30MHz)
±3.8039dB (30MHz-200MHz)
±3.9679dB (200MHz-1GHz)
±4.29dB (1GHz-18GHz)
±3.30dB (18GHz-40GHz)
9Temperature test±1°C
10Humidity test±3%
11Time±3%

General Information

General Description of EUT

Product Name: Laser Rangefinder

Model No.: TOUR HYBRID

Test sample(s) ID: GTS2024120409-1

Sample(s) Status: Engineer sample

S/N: VTYMM000000

Operation Frequency: 2402MHz~2480MHz

Channel Numbers: 40

Channel Separation: 2MHz

Modulation Type: GFSK

Data Rate: LE 2M PHY: 2 Mb/s, LE 1M PHY: 1 Mb/s

Antenna Type: PCB Antenna

Antenna Gain: 0.47dBi (Declared by applicant)

Power Supply: DC 3V SIZE "CR123A" battery

Remark:

Operation Frequency each of channel

ChannelFrequencyChannelFrequencyChannelFrequencyChannelFrequency
12402 MHz112422 MHz212442 MHz312462 MHz
22404 MHz122424 MHz222444 MHz322464 MHz
32406 MHz132426 MHz232446 MHz332466 MHz
42408 MHz142428 MHz242448 MHz342468 MHz
52410 MHz152430 MHz252450 MHz352470 MHz
62412 MHz162432 MHz262452 MHz362472 MHz
72414 MHz172434 MHz272454 MHz372474 MHz
82416 MHz182436 MHz282456 MHz382476 MHz
92418 MHz192438 MHz292458 MHz392478 MHz
102420 MHz202440 MHz302460 MHz402480 MHz

Note: In section 15.31(m), regards to the operating frequency range over 10 MHz, the Lowest frequency, the middle frequency, and the highest frequency of channel were selected to perform the test, and the selected channel see below:

ChannelFrequency
The lowest channel2402MHz
The middle channel2440MHz
The Highest channel2480MHz

Test Conditions and Procedures

Test Mode

Transmitting mode: Keep the EUT in continuously transmitting mode.

Description of Support Units

None.

Deviation from Standards

None.

Abnormalities from Standard Conditions

None.

Test Facility

The test facility is recognized, certified, or accredited by the following organizations:

Test Location

All tests were performed at: Global United Technology Services Co., Ltd. Address: No. 123-128, Tower A, Jinyuan Business Building, No.2, Laodong Industrial Zone, Xixiang Road, Baoan District, Shenzhen, Guangdong, China 518102. Tel: 0755-27798480, Fax: 0755-27798960.

Additional Instructions

Test SoftwareSpecial test software provided by manufacturer
Power level setupDefault

Test Instruments List

Radiated Emission Instruments

ItemTest EquipmentManufacturerModel No.Inventory No.Cal.Date (mm-dd-yy)Cal.Due date (mm-dd-yy)
13m Semi- Anechoic ChamberZhongYu Electron9.2(L)*6.2(W)* 6.4(H)GTS250Jun. 22, 2024Jun. 21, 2027
2Control RoomZhongYu Electron6.2(L)*2.5(W)* 2.4(H)GTS251N/AN/A
3EMI Test ReceiverRohde & Schwarz SCHWARZBECKESU26GTS203Apr. 11, 2024Apr. 10, 2025
4BiConiLog AntennaMESS-ELEKTRONIKVULB9168GTS640Mar. 19, 2023Mar. 18, 2025
5Double -ridged waveguide hornSCHWARZBECK MESS-ELEKTRONIKBBHA 9120 DGTS208Apr. 17, 2023Apr. 16, 2025
6Wideband Radio Communication TesterRohde & SchwarzCMW500GTS575Apr. 11, 2024Apr. 10, 2025
7Loop AntennaZHINANZN30900AGTS534Nov. 12, 2024Nov. 11, 2025
8Broadband PreamplifierSCHWARZBECKBBV9718GTS535Apr. 11, 2024Apr. 10, 2025
9Amplifier(1GHz-26.5GHz)HP8449BGTS601Apr. 11, 2024Apr. 10, 2025
10Horn Antenna (15GH-40GHz)SCHWARZBECK01296GTS691Mar. 07, 2024Mar. 06, 2025
11FSV Signal Analyzer (10Hz-40GHz)KeysightFSV-40-NGTS666Mar. 12, 2024Mar. 11, 2025
12Amplifier/LNA-1000-30SGTS650Apr. 11, 2024Apr. 10, 2025
13CDNE M2+M3-16AHCT30MHz-300MHzGTS692Nov. 07, 2024Nov. 06, 2025
14Wideband Amplifier/WDA-01004000-15P35GTS602Apr. 11, 2024Apr. 10, 2025
15Thermo meterJINCHUANGGSP-8AGTS643Apr. 18, 2024Apr. 17, 2025
16RE cable 1GTSN/AGTS675Jul. 02, 2024Jul. 01, 2025
17RE cable 2GTSN/AGTS676Jul. 02, 2024Jul. 01, 2025
18RE cable 3GTSN/AGTS677Jul. 02, 2024Jul. 01, 2025
19RE cable 4GTSN/AGTS678Jul. 02, 2024Jul. 01, 2025
20RE cable 5GTSN/AGTS679Jul. 02, 2024Jul. 01, 2025
21RE cable 6GTSN/AGTS680Jul. 02, 2024Jul. 01, 2025
22RE cable 7GTSN/AGTS681Jul. 05, 2024Jul. 04, 2025
23RE cable 8GTSN/AGTS682Jul. 05, 2024Jul. 04, 2025
24EMI Test SoftwareAUDIXE3-6.100614aGTS725N/AN/A

RF Conducted Test Instruments

ItemTest EquipmentManufacturerModel No.Serial No.Cal.Date (mm-dd-yy)Cal.Due date (mm-dd-yy)
1MXA Signal AnalyzerAgilentN9020AGTS566Apr. 13, 2024Apr. 12, 2025
2EMI Test ReceiverR&SESCI 7GTS552Apr. 13, 2024Apr. 12, 2025
3PSA Series Spectrum AnalyzerAgilentE4440AGTS536Apr. 13, 2024Apr. 12, 2025
4MXG vector Signal GeneratorAgilentN5182AGTS567Apr. 13, 2024Apr. 12, 2025
5ESG Analog Signal GeneratorAgilentE4428CGTS568Apr. 13, 2024Apr. 12, 2025
6USB RF Power SensorDARERPR3006WGTS569Apr. 13, 2024Apr. 12, 2025
7RF Switch BoxShongyiRFSW3003328GTS571Apr. 13, 2024Apr. 12, 2025
8Programmable Constant Temp & Humi Test ChamberWEWONWHTH-150L-40-880GTS572Apr. 13, 2024Apr. 12, 2025
9Thermo meterJINCHUANGGSP-8AGTS641Apr. 18, 2024Apr. 17, 2025
10EXA Signal AnalyzerKeysightN9010BMY60241168Nov. 02, 2024Nov. 01, 2025

General Used Equipment

ItemTest EquipmentManufacturerModel No.Inventory No.Cal.Date (mm-dd-yy)Cal.Due date (mm-dd-yy)
1BarometerKUMAOSF132GTS647Apr. 18, 2024Apr. 17, 2025

Test Results and Measurement Data

7.1 Antenna Requirement

Standard requirement: FCC Part15 C Section 15.203 /247(c)

15.203 requirement: An intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator, the manufacturer may design the unit so that a broken antenna can be replaced by the user, but the use of a standard antenna jack or electrical connector is prohibited.

15.247(c) (1)(i) requirement: Systems operating in the 2400-2483.5 MHz band that is used exclusively for fixed. Point-to-point operations may employ transmitting antennas with directional gain greater than 6dBi provided the maximum conducted output power of the intentional radiator is reduced by 1 dB for every 3 dB that the directional gain of the antenna exceeds 6dBi.

E.U.T Antenna: The antenna is PCB antenna, reference to the appendix II for details.

7.2 Conducted Output Power

Test Requirement: FCC Part15 C Section 15.247 (b)(3)

Test Method: ANSI C63.10:2013 and KDB558074 D01 15.247 Meas Guidance v05r02

Limit: 30dBm

Test setup:

[Description of test setup diagram: A spectrum analyzer is connected to the EUT via a non-conducted table, with a ground reference plane.]

Test Instruments: Refer to section 6.0 for details

Test mode: Refer to section 5.2 for details

Test results: Pass

Measurement Data: The detailed test data see Appendix for BLE.

7.3 Channel Bandwidth

Test Requirement: FCC Part15 C Section 15.247 (a)(2)

Test Method: ANSI C63.10:2013 and KDB558074 D01 15.247 Meas Guidance v05r02

Limit: >500KHz

Test setup:

[Description of test setup diagram: A spectrum analyzer is connected to the EUT via a non-conducted table, with a ground reference plane.]

Test Instruments: Refer to section 6.0 for details

Test mode: Refer to section 5.2 for details

Test results: Pass

Measurement Data: The detailed test data see Appendix for BLE.

7.4 Power Spectral Density

Test Requirement: FCC Part15 C Section 15.247 (e)

Test Method: ANSI C63.10:2013 and KDB558074 D01 15.247 Meas Guidance v05r02

Limit: 8dBm/3kHz

Test setup:

[Description of test setup diagram: A spectrum analyzer is connected to the EUT via a non-conducted table, with a ground reference plane.]

Test Instruments: Refer to section 6.0 for details

Test mode: Refer to section 5.2 for details

Test results: Pass

Measurement Data: The detailed test data see Appendix for BLE.

7.5 Spurious Emission in Non-restricted & restricted Bands

7.5.1 Conducted Emission Method

Test Requirement: FCC Part15 C Section 15.247 (d)

Test Method: ANSI C63.10:2013 and KDB558074 D01 15.247 Meas Guidance v05r02

Limit: In any 100 kHz bandwidth outside the frequency band in which the spread spectrum intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement.

Test setup:

[Description of test setup diagram: A spectrum analyzer is connected to the EUT via a non-conducted table, with a ground reference plane.]

Test Instruments: Refer to section 6.0 for details

Test mode: Refer to section 5.2 for details

Test results: Pass

Measurement Data: The detailed test data see Appendix for BLE.

7.5.2 Radiated Emission Method

Test Requirement: FCC Part15 C Section 15.209

Test Method: ANSI C63.10:2013

Test Frequency Range: 9kHz to 25GHz

Test site: Measurement Distance: 3m

Receiver setup:

FrequencyDetectorRBWVBWValue
9KHz-150KHzQuasi-peak200Hz600HzQuasi-peak
150KHz-30MHzQuasi-peak9KHz30KHzQuasi-peak
30MHz-1GHzQuasi-peak120KHz300KHzQuasi-peak
Above 1GHzPeak1MHz3MHzPeak
10HzAverage

Note: For Duty cycle ≥ 98%, average detector set as above. For Duty cycle < 98%, average detector set as below: VBW ≥ 1/T

Limit:

FrequencyLimit (uV/m)ValueMeasurement Distance
0.009MHz-0.490MHz2400/F(KHz)QP/PK/AV300m
0.490MHz-1.705MHz24000/F(KHz)QP30m
1.705MHz-30MHz30QP30m
30MHz-88MHz100QP
88MHz-216MHz150QP
216MHz-960MHz200QP3m
960MHz-1GHz500QP
Above 1GHz500 (Average) / 5000 (Peak)

Test setup:

[Description of test setup diagram for radiated emissions from 9kHz to 30MHz: EUT is placed on a turntable, 1m high, 3m distance to test antenna, receiver and pre-amplifier are connected.]

[Description of test setup diagram for radiated emissions from 30MHz to 1GHz: EUT is placed on a turntable, 0.8m high, 3m distance to test antenna, receiver and pre-amplifier are connected.]

[Description of test setup diagram for radiated emissions above 1GHz: EUT is placed on a turntable, 1.5m high, 3m distance to test antenna, receiver and pre-amplifier are connected.]

Test Procedure:

  1. The EUT was placed on the top of a rotating table (0.8m for below 1G and 1.5m for above 1G) above the ground at a 3 meter camber. The table was rotated 360 degrees to determine the position of the highest radiation.
  2. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower.
  3. The antenna height is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement.
  4. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters and the rota table was turned from 0 degrees to 360 degrees to find the maximum reading.
  5. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode.
  6. If the emission level of the EUT in peak mode was 10dB lower than the limit specified, then testing could be stopped and the peak values of the EUT would be reported. Otherwise the emissions that did not have 10dB margin would be re-tested one by one using peak, quasi-peak or average method as specified and then reported in a data sheet.

Test Instruments: Refer to section 6.0 for details

Test mode: Refer to section 5.2 for details

Test environment: Temp.: 25 °C, Humid.: 52%, Press.: 1012mbar

Test voltage: DC 3V

Test results: Pass

Measurement data:

Remark: Pre-scan all kind of the place mode (X-axis, Y-axis, Z-axis), and found the Y-axis which it is worse case.

9kHz~30MHz: The low frequency, which started from 9 kHz to 30 MHz, was pre-scanned and the result which was 20 dB lower than the limit line per 15.31(o) was not reported.

Below 1GHz

Pre-scan all test modes, found worst case at 2480MHz, and so only show the test result of 2480MHz. Both 1MHz and 2MHz bandwidth were tested and passed, only report the worst condition (GFSK_1MHz)

Horizontal:
Freq (MHz)Reading Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Level (dBuV/m)Over Limit (dB)Remark
31.39929.1012.501.1332.3010.4340.00-29.57QP
64.20826.1611.381.5532.366.7340.00-33.27QP
90.53733.078.651.7832.4611.0443.50-32.46QP
141.82630.1213.882.3932.4613.9343.50-29.57QP
346.80924.9613.543.6532.289.8746.00-36.13QP
640.61125.6419.804.8231.6818.5846.00-27.42QP
Vertical:
Freq (MHz)Reading Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Level (dBuV/m)Over Limit (dB)Remark
46.34030.9413.371.3532.3013.3640.00-26.64QP
59.23236.1712.071.4732.3417.3740.00-22.63QP
67.67538.6311.031.6132.3718.9040.00-21.10QP
167.82432.9213.622.6232.4316.7343.50-26.77QP
300.36726.2212.413.4232.309.7546.00-36.25QP
869.13025.2922.785.6531.1022.6246.00-23.38QP

Above 1GHz

Unwanted Emissions in Non-restricted Frequency Bands
Lowest channel

Peak value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
4804.0037.2132.016.0138.5436.6974.00-37.31Vertical
7206.0031.4236.217.9239.1436.4174.00-37.59Vertical
9608.0031.6738.2014.8740.2244.5274.00-29.48Vertical
4804.0041.6732.016.0138.5441.1574.00-32.85Horizontal
7206.0033.4836.217.9239.1438.4774.00-35.53Horizontal
9608.0030.4538.2014.8740.2243.3074.00-30.70Horizontal

Average value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
4804.0025.6132.016.0138.5425.0954.00-28.91Vertical
7206.0020.2236.217.9239.1425.2154.00-28.79Vertical
9608.0019.5638.2014.8740.2232.4154.00-21.59Vertical
4804.0030.0732.016.0138.5429.5554.00-24.45Horizontal
7206.0022.4436.217.9239.1427.4354.00-26.57Horizontal
9608.0019.5638.2014.8740.2232.4154.00-21.59Horizontal
Middle channel

Peak value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
4880.0036.7132.106.0338.5236.3274.00-37.68Vertical
7320.0031.1036.308.0439.2236.2274.00-37.78Vertical
9760.0031.3838.2011.3540.2540.6874.00-33.32Vertical
4880.0041.0832.106.0338.5240.6974.00-33.31Horizontal
7320.0033.1136.308.0439.2238.2374.00-35.77Horizontal
9760.0030.1238.2011.3540.2539.4274.00-34.58Horizontal

Average value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
4880.0025.2132.106.0338.5224.8254.00-29.18Vertical
7320.0019.9536.308.0439.2225.0754.00-28.93Vertical
9760.0019.3238.2011.3540.2528.6254.00-25.38Vertical
4880.0029.6232.106.0338.5229.2354.00-24.77Horizontal
7320.0022.1436.308.0439.2227.2654.00-26.74Horizontal
9760.0019.2838.2011.3540.2528.5854.00-25.42Horizontal
Highest channel

Peak value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
4960.0036.7832.206.0538.5136.5274.00-37.48Vertical
7440.0031.1436.308.1639.3136.2974.00-37.71Vertical
9920.0031.4238.2411.7640.2841.1474.00-32.86Vertical
4960.0041.1631.5217.4338.5151.6074.00-22.40Horizontal
7440.0033.1636.3424.4339.3154.6274.00-19.38Horizontal
9920.0030.1638.3230.7540.2858.9574.00-15.05Horizontal

Average value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
4960.0025.3132.206.0538.5125.0554.00-28.95Vertical
7440.0020.0236.308.1639.3125.1754.00-28.83Vertical
9920.0019.3838.2411.7640.2829.1054.00-24.90Vertical
4960.0029.7231.5217.4338.5140.1654.00-13.84Horizontal
7440.0022.2136.3424.4339.3143.6754.00-10.33Horizontal
9920.0019.3538.3230.7540.2848.1454.00-5.86Horizontal

Remarks:

  1. Final Level =Receiver Read level + Antenna Factor + Cable Loss – Preamplifier Factor
  2. The emission levels of other frequencies are very lower than the limit and not show in test report.
  3. Both 1MHz and 2MHz bandwidth were tested and passed, only report the worst condition(GFSK_1MHz)

Unwanted Emissions in Restricted Frequency Bands

Lowest channel

Peak value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
2310.0046.2827.004.1339.1438.2774.00-35.73Horizontal
2390.0049.7927.084.1739.3441.7074.00-32.30Horizontal
2310.0046.4827.004.1339.1438.4774.00-35.53Vertical
2390.0051.2927.084.1739.3443.2074.00-30.81Vertical

Average value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
2310.0035.7627.004.1339.1427.7554.00-26.26Horizontal
2390.0037.3327.084.1739.3429.2454.00-24.76Horizontal
2310.0035.9127.004.1339.1427.9054.00-26.10Vertical
2390.0037.9427.084.1739.3429.8554.00-24.15Vertical
Highest channel

Peak value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
2483.5048.3927.274.0839.5640.1874.00-33.82Horizontal
2500.0047.0727.304.0639.6038.8374.00-35.17Horizontal
2483.5049.6727.274.0839.5641.4674.00-32.54Vertical
2500.0048.3227.304.0639.6040.0874.00-33.92Vertical

Average value:

Frequency (MHz)Read Level (dBuV)Antenna Factor (dB/m)Cable Loss (dB)Preamp Factor (dB)Level (dBuV/m)Limit Line (dBuV/m)Over Limit (dB)Polarization
2483.5036.7327.274.0839.5628.5254.00-25.48Horizontal
2500.0036.5027.304.0639.6028.2654.00-25.74Horizontal
2483.5037.2027.274.0839.5628.9954.00-25.01Vertical
2500.0036.6927.304.0639.6028.4554.00-25.55Vertical

Remarks:

  1. Final Level =Receiver Read level + Antenna Factor + Cable Loss – Preamplifier Factor
  2. The emission levels of other frequencies are very lower than the limit and not show in test report.
  3. Both 1MHz and 2MHz bandwidth were tested and passed, only report the worst condition(GFSK_1MHz)

Test Setup Photo and Constructional Details

Test Setup Photo: Reference to the appendix I for details.

EUT Constructional Details: Reference to the appendix II for details.

------End------

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