COFDM Wireless 175 MHz Video System GPS Interference FAQ

SSS: 175 MHz Video System and GPS Interference on Drones

Q1: olabilir mi 175 MHz video system interfere with my drone’s GPS?

Evet, it’s possible. Drones integrate multiple electronic systems into a compact space, and strong RF signals from devices like a 175 MHz video transmitter can sometimes affect sensitive GPS reception if installation or shielding isn’t optimized.

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2. Çeyrek: How can I check if my GPS is being affected?

You can perform a simple test:

1. Turn on the 175 MHz video system and observe GPS performance: satellite count, sinyal gücü, and positioning stability.
2. Turn kapalı the video system and compare GPS performance.

If GPS works normally with the video system off but degrades when it’s on, interference is likely.

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3. Çeyrek: What can I do to reduce interference?

There are three effective solutions:

1. Reduce the transmitter power

• Set the 175 MHz video transmitter to 1 W if it’s higher.
  • Nasıl yapılır?
  • How do I adjust the transmit power via the transmitter parameter configuration board?
  • Please modify the ATTEN (Attenuation) parameter in the transmitter settings. (see above picture). Power levels correspond to the following attenuation values:
  • 0 dB ≈ 3-watt PA (maximum power)
  • –2 dB ≈ 2-watt PA
  • –4 dB ≈ 1-watt PA
• Lower power can reduce interference while maintaining sufficient video range.

2. Increase physical separation between antennas

• Use an RF extension cable to place the video transmitter antenna farther from the GPS antenna.
• Recommended layout:
  • GPS antenna üzerinde top of the drone to receive satellite signals.
  • Video transmitter antenna üzerinde bottom, pointing to the ground.
• The drone body can act as shielding to reduce interference.

3. Install a band-pass filter

• Adding a band-pass filter on the RF antenna line ensures only 175 MHz is transmitted.
• This suppresses harmonics or spurious emissions that could affect GPS.

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4. Çeyrek: What should I do next?

Try these steps in order: test GPS with the video system on/off, reduce power, optimize antenna placement, and consider a band-pass filter. If GPS issues persist, further adjustments or professional RF isolation may be needed.

SSS: Will a 175 MHz Video Transmitter Interfere with GPS Frequencies via Harmonics?

Q1: What are the GPS frequencies?
Modern civilian GPS satellites operate on the following bands:

• L1: 1575.42 MHz
• L2: 1227.60 MHz
• L5: 1176.45 MHz

GPS receivers are most sensitive around 1.2–1.6 GHz.

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2. Çeyrek: What is the second harmonic of a 175 MHz transmitter?
The second harmonic of a signal is twice its frequency:$$F_{\text{2ve}}<span\; class="tr\_"\; id="tr\_79"\; data-source=""\; data-orig="=">=</span>2x175\text{ MHz}<span\; class="tr\_"\; id="tr\_80"\; data-source=""\; data-orig="=">=</span>350\text{ MHz}$$f_\text{2ve} = 2 \times 175\ \metin{MHz} = 350\ \metin{MHz}f2nd​=2×175 MHz=350 MHz

The third harmonic would be:$$F_{\text{3üçüncü}}<span\; class="tr\_"\; id="tr\_87"\; data-source=""\; data-orig="=">=</span>3x175\text{ MHz}<span\; class="tr\_"\; id="tr\_88"\; data-source=""\; data-orig="=">=</span>525\text{ MHz}$$f_\text{3üçüncü} = 3 \times 175\ \metin{MHz} = 525\ \metin{MHz}f3rd​=3×175 MHz=525 MHz

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3. Çeyrek: Could this harmonic interfere with GPS?

• The second harmonic at 350 MHz and third harmonic at 525 MHz öyle far below GPS frequencies (1.2–1.6 GHz).
• Direct interference from the second harmonic is extremely unlikely.

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4. Çeyrek: Could there be indirect interference?
Evet, but only under special circumstances:

1. If a GPS receiver or antenna has strong nonlinear components (örneğin, low-quality amplifiers), high-power signals might generate intermodulation products that fall into GPS bands.
2. Poor shielding or inadequate front-end filtering in the GPS receiver could theoretically allow some energy from the harmonics, but this is rare.

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S5: Özet

• bir 175 MHz video transmitter will not directly interfere with GPS via its second harmonic.
• Any observed GPS interference is more likely due to receiver nonlinearity, poor shielding, or intermodulation effects rather than the transmitter’s harmonics.