TIRT Testing Report

Radio Test Report

This report details the radio frequency testing conducted on the DOOGEE Smart Phone to ensure compliance with regulatory standards.

FCC ID: 2AX4YBLADEGT

IC: 33167-BLADEGT

Standards: 47 CFR FCC Part 15, Subpart C (Section 15.247), RSS-247 Issue 3, RSS-Gen Issue 5, ANSI C63.10:2013

Applicant: Shenzhen DOOGEE Hengtong Technology CO.,LTD

Manufacturer: Shenzhen DOOGEE Hengtong Technology CO.,LTD

Date of Receipt: 2024/09/11

Date of Test: 2024/09/11~2024/11/19

Issued Date: 2024/12/02

Testing Lab: TIRT

Report Issued History

1. Summary of Test Results

The following table summarizes the test results against the technical standards:

Note: The device utilizes a permanently attached antenna, which is considered compliant with standard requirements.

1.1 Test Facility & 1.2 Measurement Uncertainty

Testing was performed at Beijing TIRT Technology Service Co.,Ltd Shenzhen. The facility is accredited by CNAS (L14158) and A2LA (6049.01).

Measurement uncertainties for various parameters were estimated based on ISO/IEC 17025, with a 95% confidence level. Key uncertainties include:

• Occupied Channel Bandwidth: ±142.12 KHz
• RF power conducted: ±0.74 dB
• RF power radiated: ±3.25dB
• Spurious emissions, conducted: ±1.78dB
• Spurious emissions, radiated (30MHz~1GHz): ±4.6dB
• Spurious emissions, radiated (1GHz ~ 18GHz): ±4.9dB
• Conduction Emissions(150kHz~30MHz): ±3.1 dB
• Humidity: ±4.6%
• Temperature: ±0.7°C
• Time: ±1.25%

Note: Measurement uncertainty was not factored into compliance declarations unless specified.

1.3 Test Environment Conditions

Tests were conducted under various environmental conditions:

2. General Information

2.1 General Description of EUT

Equipment: Smart Phone

Brand Name: DOOGEE

Test Model: Blade GT

Model Numbers: Blade GT, Blade GT Ultra, Blade GT Play, Blade GT Pro, Blade GT Max, Blade10 Play, Blade10 Max 5G

PMN: Smart Phone

For ISED HVIN: Blade GT

Model Difference(s): No difference except the name of the model.

Software Version: DOOGEE-Blade_GT-EEA-Android14.0-20240830

Hardware Version/FVIN: M163-MUB-V2

Power Rating: DC 3.87V from battery or DC 11V from adapter

Operation Frequency: 2412 MHz ~ 2462 MHz

Modulation Type: IEEE 802.11b (DSSS), IEEE 802.11g (OFDM), IEEE 802.11n (OFDM)

Max. Output Power (IEEE 802.11b): 15.22dBm (0.033266W)

For detailed features, refer to the manufacturer's specifications or user manual.

2.2 Description of Test Modes

The EUT was tested in Continuous TX mode across various channels and wireless modes (802.11b/g/n). The worst-case modes were identified and used for final testing. These included TX N(HT20) Mode Channel 01 ANT1+ANT2 for conducted emissions and radiated emissions below 1GHz, and TX N(HT20) Mode Channel 01/06/11 ANT1+ANT2 for radiated emissions above 1GHz.

2.3 Accessories of Device (EUT)

Accessories: AC Adapter

Manufacturer: Shenzhen Theone Electronic CO.,Ltd

Model: TP182C-US

Ratings: Input: AC100-240V~ 50/60Hz 0.5A Max; Output: 5.0V=3.0A (15.0W), 9.0V=2.0A (18.0W), 12.0V=1.5A (18.0W). Max Power: 18.0W.

2.4 Block Diagram

The system configuration involves an Adapter connected to the EUT (Equipment Under Test).

2.5 Support Units

No external support units were required for testing.

3. AC Power Line Conducted Emissions

Limits: Specified limits for Quasi-peak and Average detectors are provided for frequency ranges 0.15-0.5 MHz, 0.5-5.0 MHz, and 5.0-30.0 MHz.

Test Procedure: The EUT was connected to a LISN (Line Impedance Stabilization Network) placed 0.8 meters from the ground plane. Cables were managed according to standards.

Test Setup: A diagram illustrates the setup with EUT, LISN, and Test Receiver, with specific distances noted (0.8m, 80cm).

Operating Conditions: The EUT was tested in GFSK (1M/2M) mode, transmitting continuously.

Test Results: Detailed results are presented in Appendix A.

4. Radiated Emissions

Limits: Emissions must comply with FCC Part 15.209 and restricted frequency bands defined in FCC Part 15.205 and RSS-GEN.

Test Procedure: Measurements were performed at 3 meters distance in a semi-anechoic chamber. The EUT was rotated, and antenna height was varied. Peak and Average detectors were used. For frequencies above 1 GHz, specific test procedures and bandwidths were applied.

Test Setup: Diagrams illustrate setups for frequencies below 1 GHz (using a loop antenna or biconical/log-periodic antenna) and above 1 GHz (using a horn antenna), with specific distances and equipment placement.

Operating Conditions: The EUT was programmed for continuous transmission.

Test Results: Detailed results for different frequency ranges (9 kHz-30 MHz, 30 MHz-1000 MHz, Above 1000 MHz) and polarizations are provided in Appendices B, C, and D.

5. Bandwidth

Limit: 6dB Bandwidth must be >= 500 kHz.

Test Procedure: The EUT was connected directly to a spectrum analyzer. Settings for 6dB Bandwidth and 99% Emission Bandwidth were configured.

Test Setup: A block diagram shows the EUT connected to a Spectrum Analyzer.

Operating Conditions: Continuous transmission mode.

Test Results: Detailed results are in Appendix E.

6. Maximum Output Power

Limit: 1.0000 watt or 30.00dBm.

Test Procedure: The EUT was connected directly to a spectrum analyzer with specific settings for measuring output power.

Test Setup: A block diagram shows the EUT connected to a Spectrum Analyzer.

Operating Conditions: Continuous transmission mode.

Test Results: Detailed results are in Appendix F.

7. Conducted Spurious Emission

Limit: Emissions must be at least 20 dB below the highest level of the desired power within a 100 kHz bandwidth, or 30 dB if RMS averaging is used.

Test Procedure: The EUT was connected directly to a spectrum analyzer. Settings for frequency range, RBW, VBW, detector, and trace were configured.

Test Setup: A block diagram shows the EUT connected to a Spectrum Analyzer.

Operating Conditions: Continuous transmission mode.

Test Results: Detailed results are in Appendix G.

8. Power Spectral Density

Limit: 8 dBm (in any 3 kHz).

Test Procedure: The EUT was connected directly to a spectrum analyzer with specific settings for measuring power spectral density.

Test Setup: A block diagram shows the EUT connected to a Spectrum Analyzer.

Operating Conditions: Continuous transmission mode.

Test Results: Detailed results are in Appendix H.

9. Antenna Requirement

Standard Requirement: Intentional radiators must use the furnished antenna or one with a unique coupling. Standard antenna jacks are prohibited.

Antenna Connected Construction: The antenna connector is unique and not replaceable.

Results: The EUT uses a PIFA antenna, which complies with the standard requirement.

10. Measurement Instruments List

A comprehensive list of measurement equipment used for testing is provided, including EMI Receivers, Antennas, Preamplifiers, RF Cables, LISN, Spectrum Analyzers, and Filters, along with their calibration details.

11. Photos of Test Setup & 12. Photos of EUT

Detailed photographs of the test setup and the EUT are provided in the appendices.

Appendices

The appendices contain detailed test data and results:

• Appendix A: AC Power Line Conducted Emissions
• Appendix B: Radiated Emission - 9 kHz to 30 MHz
• Appendix C: Radiated Emission - 30 MHz to 1000 MHz
• Appendix D: Radiated Emission - Above 1000 MHz
• Appendix E: Bandwidth
• Appendix F: Maximum Output Power
• Appendix G: Conducted Spurious Emission
• Appendix H: Power Spectral Density
• Appendix I: Duty Cycle