Low VHF interference


Ok, so basically you are dependent on waiting for your local power company to fix those poles. You might be able to work around it, but you'd have to find a high gain Low VHF yagi style antenna, that you can get up HIGH, and away from the power poles to aim directly at your channel 2.
 
Ok, so basically you are dependent on waiting for your local power company to fix those poles. You might be able to work around it, but you'd have to find a high gain Low VHF yagi style antenna, that you can get up HIGH, and away from the power poles to aim directly at your channel 2.
i thought of that awhile ago but have no where else to go "home all around" unless i take a drive
 
I know nothing about SDR's, but I don't think they'll work for this purpose. Not that you can tell for sure from his reply above what he really discovered, that seems to be oddly truncated...
SDR stands for Software Defined Radio or Software Defined Receiver. They tune in a signal that is demodulated in software.
 
maybe i am misunderstanding the SDR, but i can listen to AM radio in 54-60Mhz range.
Commercial AM radio ranges from 535 to 1605KHz so your SDR setup is highly suspect in terms of what frequency it is telling you it has tuned. What you might find around 54MHz you wouldn't be able to listen to as it would almost certainly be a DTV television signal on RF channel 2. There may be some emergency services that can legally broadcast audio on that frequency but otherwise it is strictly reserved for commercial television broadcast. In any case, it probably wouldn't be AM modulated audio (NTSC used FM audio and DTV doesn't broadcast a separate audio carrier).

I don't imagine that SDR is going to get you what you seek.

What I would suggest is that you contact a nearby amateur radio club or amateur radio supporting storefront and see what insights they can offer. Chances are they've had to deal with the same thing and may even have access to the ideal equipment to help track it down.

54KHz is Navy VLF radio.
 
SDR stands for Software Defined Radio or Software Defined Receiver. They tune in a signal that is demodulated in software.

I know that much, I just question how useful an SDR would be in tracking down noisy power poles. Considering the way I believe they work, they might not easily detect the interference as well as an analog old-school am pocket radio would.
 
checked 54-60 Mhz with stock SDR antenna and found AM radio.Shawn Hannity, was on one station. No matter the direction of the SDR antenna AM radio still was Any thoughts would be appreciative.

Is it possible that the wrong frequency is tuned on the SDR? Pretty easy to mix-up MHz vs KHz and the number of zeros. 540-600KHz (.54-.60MHz) is AM broadcast band.

An SDR with a small UHF loop antenna (or wire hangar) makes an excellent tool for tracking the source of interference. Even the cheap 8" antenna provided with a SDR dongle will identify nearby interference if used in conjunction with the software RF gain.
 
I agree on the mixup between kHz and MHz. In the old analog days, there were a lot of issues with channel 2 receiving interferance from the 6 meter ham band (50-54 MHz). It was almost always a problem with a sloppy receiver section of the TV, but that never stopped complaints from being filed and the FCC and local police from becoming involved. Having a noticable antenna was a magnet for these complaints.

The best one was a case where my parents were approached by the FCC, the sheriff, the local police and were eventually sued over interference. The ironic part was that I was in the air force at the time and was deployed to Brazil for that entire summer, but my folks had to prove that my equipment, just sitting there disconnected wasn't causing interference.
 
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Is it possible that the wrong frequency is tuned on the SDR? Pretty easy to mix-up MHz vs KHz and the number of zeros. 540-600KHz (.54-.60MHz) is AM broadcast band.

An SDR with a small UHF loop antenna (or wire hangar) makes an excellent tool for tracking the source of interference. Even the cheap 8" antenna provided with a SDR dongle will identify nearby interference if used in conjunction with the software RF gain.
in my rush to judgement i could have did that. i post 2 pic there on page 2.
 
I agree on the mixup between kHz and MHz. In the old analog days, there were a lot of issues with channel 2 receiving interferance from the 6 meter ham band (50-54 MHz). It was almost always a problem with a sloppy receiver section of the TV, but that never stopped complaints from being filed and the FCC and local police from becoming involved. Having a noticable antenna was a magnet for these complaints.

The best one was a case where my parents were approached by the FCC, the sheriff, the local police and were eventually sued over interference. The ironic part was that I was in the air force at the time and was deployed to Brazil for that entire summer, but my folks had to prove that my equipment, just sitting there disconnected wasn't causing interference.
sounds like a nightmare. hope everything worked out ok.
 
I'm posting on this old thread to make a few comments because I wasn't able to help you as much as I wanted to when you tried to join the TVFool Forum.
i divided by the center frequency. I used 300 * 0.95 / 57=5 meter. 39.37 inches in a meter. divided by 2 equals 98.4. i made it 98.5. users.wfu.edu/matthews/misc/dipole
You did it correctly.

Channel 2 is 54-60 MHz; center freq is 57 MHz.

I use this formula for a first approximation:
Dipole length is 5540/Freq in MHz
5540/57 = 97.2 inches
 
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with nothing more then a AM/FM radio what else could i use ( build or buy, ) to find the noise from utility poles?
Using a portable radio that tunes the AM broadcast band can be useful when hunting for noise sources that cause interference to VHF TV signals. Even though the frequencies are far removed from each other, if you hear strong noise on the AM broadcast band, it will also often be on VHF; it certainly is at my location.

An AM battery operated portable radio has a ferrite loop stick antenna that is directional which can help you find the source.

The FCC seems to think a radio that tunes the AM Broadcast Band can be useful:
Interference with Radio, TV and Cordless Telephone Signals
A simple method of determining the location of electrical interference is by using a portable battery-powered AM radio tuned to a quiet frequency at the lower end of the dial. You should hear static or a buzzing sound as you get close to the source of the interference. The closer you get, the more intense the static will be.
Don't use FM; it rejects noise;

You can also use a radio that tunes the VHF Aircraft Band which is also AM.
 
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Using an SDR to Hunt for a Channel
UPDATE: I call the electric company and i felt like i was getting the run around without know 100% that it was the outside power lines. So i bought a SDR (awesome, RTL SDR) and checked 54-60 Mhz with stock SDR antenna and found AM radio.Shawn Hannity, was on one station. No matter the direction of the SDR antenna AM radio still was Any thoughts would be appreciative.
Your image:

freeisformeSatguysKJWPinterference_1.jpg


Yes, Sean Hannity is on the AM Broadcast Band.

It was a good idea to try an SDR to hunt for channel 2 on VHF-Low. You were way ahead of me; I didn't start learning about SDRs until 2019.

The SDR can be set to receive AM signals on any freq, not just the Broadcast Band.

The RTL-SDR dongle will only show 2.5 MHz of a channel with the SDR# software, so you must tune it to show the low end of the channel, some noise to estimate the SNR, and the pilot. The channel 2 pilot is at 54.310 MHz. My channel 3 pilot is at 60.310 MHz. For any channel, it is 310 KHz above the low end of the channel.

Adiust the software gain for max SNR, which is the difference between the top of the signal and the adjacent noise.

CH3 Test 8-9-2020 No1_1.jpg


If the noise level is high, you might not have enough signal above the noise for reliable reception:

CH3 Test 8-9-2020 No1b_1.jpg


CH3 Test 8-9-2020 No1c_1.jpg


The RSP1A SDR can show a 10 MHz span:

CH3 Test 8-9-2020 No3_1.jpg


This is channel 3 with the Airspy R2 SDR and Spectrum Spy software:

CH3 Test 8-9-2020 No4_1.jpg
 
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UPDATE: I call the electric company and i felt like i was getting the run around without know 100% that it was the outside power lines.
This is a scan of VHF-High by lenlab that shows serious interference, probably caused by power line noise:

lenlabHDFvhfNoise3.jpg


An RTL-SDR.COM V3 dongle was used with free open-source spectrum analyzer software from github. The software isn't available ready-to-use, it must be assembled in a folder. I found that difficult to do.

SMA to F Adapter Cable.jpg
 
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This is a scan of VHF-High by lenlab that shows serious interference, probably caused by power line noise:

View attachment 146886

An RTL-SDR.COM V3 dongle was used with free open-source spectrum analyzer software from github. The software isn't available ready-to-use, it must be assembled in a folder. I found that difficult to do.

View attachment 146887
Thanks Rabbit73. I will check it out when i get more time, maybe Thursday or Friday. Keep me informed im interested.
 
rabbit73: here is my RF channel 2 when it comes in. im able to receive the station more often cause they almost tripled there output about a year ago. but its hit or miss. i still use the twin lead antenna.
 

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rabbit73: here is my RF channel 2 when it comes in. im able to receive the station more often cause they almost tripled there output about a year ago. but its hit or miss. i still use the twin lead antenna.
Thank you for the image. I see the pilot for channel 2, but the rest of the signal must be buried in the noise. This is your image:


freeisformeSatGuys-rf channel 2_1.jpg


You weren't able to receive that channel at that time, were you? It looks like it's too weak.

I tried to simulate a similar scan with my channel 3:

CH3 Test 8-15-2020 VyWeakSig2.jpg
CH3 Test 8-15-2020 MarginalSig2.jpg

CH3 Test 8-15-2020 GoodSig2.jpg
CH3 Test 8-15-2020 VyStrongSig2.jpg
 
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