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Getting rid of mobile phone galloping ghost from audio circuits.
With the proliferisation of mobile devices running on the mobile phone
network its getting increasingly a annoying to listen to things on a good old fashioned or even new fangled radio, without the noise occurring at some point. Even from next door one can get it getting into the audio chain. Anyone know if there is an easy way to stop it. In the old days a few capacitors got rid of Radio China or Vatican City, but due to the high frequencies of the phones and the spiky nature of the handshaking noise, this seems not to work much. What is the mechanism. they cannot be tuned to the r frequencies, so is it just straight diode type detection due to the huge signal level? Low level circuits like turntables, microphone inputs etc, seem to be the worst, but I've also proved my Denon is picking it up from its speaker cables. Brian -- From the Sofa of Brian Gaff Reply address is active Remember, if you don't like where I post or what I say, you don't have to read my posts! :-) |
Getting rid of mobile phone galloping ghost from audio circuits.
Top posted because it's Brian.
Looping speaker leads though ferrite clip-on block may fix that entry route. You may find something similar plus more careful earthing or/and a filtered mains block would help. You'd need to say more about the details of your "Low level circuits" for me to give more specific suggestions. e.g. a 100pF rf cap shunt may help, but larger caps would be a problem for some inputs like "turntables" (sic). Maybe you've not tried caps that remain caps at UHF and above? Diodes might simply make it worse by spraying the energy across into other frequency bands and pulling more current. Jim In article , Brian-Gaff wrote: With the proliferisation of mobile devices running on the mobile phone network its getting increasingly a annoying to listen to things on a good old fashioned or even new fangled radio, without the noise occurring at some point. Even from next door one can get it getting into the audio chain. Anyone know if there is an easy way to stop it. In the old days a few capacitors got rid of Radio China or Vatican City, but due to the high frequencies of the phones and the spiky nature of the handshaking noise, this seems not to work much. What is the mechanism. they cannot be tuned to the r frequencies, so is it just straight diode type detection due to the huge signal level? Low level circuits like turntables, microphone inputs etc, seem to be the worst, but I've also proved my Denon is picking it up from its speaker cables. Brian -- Please use the address on the audiomisc page if you wish to email me. Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Armstrong Audio http://www.audiomisc.co.uk/Armstrong/armstrong.html Audio Misc http://www.audiomisc.co.uk/index.html |
Getting rid of mobile phone galloping ghost from audio circuits.
In article ,
Brian-Gaff wrote: With the proliferisation of mobile devices running on the mobile phone network its getting increasingly a annoying to listen to things on a good old fashioned or even new fangled radio, without the noise occurring at some point. Even from next door one can get it getting into the audio chain. Anyone know if there is an easy way to stop it. In the old days a few capacitors got rid of Radio China or Vatican City, but due to the high frequencies of the phones and the spiky nature of the handshaking noise, this seems not to work much. What is the mechanism. they cannot be tuned to the r frequencies, so is it just straight diode type detection due to the huge signal level? Low level circuits like turntables, microphone inputs etc, seem to be the worst, but I've also proved my Denon is picking it up from its speaker cables. You seem to be very unlucky or live in an odd area or have odd equipment if you're picking up interference on a pickup or mic? My laptop reports some 20 Wi-Fi signals at usable level round here, but no problems on the Hi-Fi here. Or with mobile phones which I'd guess are as common as the above. Obviously, roaming the radio waves for distant and obscure stuff might be a different matter. -- *The fact that no one understands you doesn't mean you're an artist Dave Plowman London SW To e-mail, change noise into sound. |
Getting rid of mobile phone galloping ghost from audio circuits.
On 21/11/2015 14:34, Dave Plowman (News) wrote:
In article , Brian-Gaff wrote: With the proliferisation of mobile devices running on the mobile phone network its getting increasingly a annoying to listen to things on a good old fashioned or even new fangled radio, without the noise occurring at some point. Even from next door one can get it getting into the audio chain. Anyone know if there is an easy way to stop it. In the old days a few capacitors got rid of Radio China or Vatican City, but due to the high frequencies of the phones and the spiky nature of the handshaking noise, this seems not to work much. What is the mechanism. they cannot be tuned to the r frequencies, so is it just straight diode type detection due to the huge signal level? Low level circuits like turntables, microphone inputs etc, seem to be the worst, but I've also proved my Denon is picking it up from its speaker cables. You seem to be very unlucky or live in an odd area or have odd equipment if you're picking up interference on a pickup or mic? My laptop reports some 20 Wi-Fi signals at usable level round here, but no problems on the Hi-Fi here. Or with mobile phones which I'd guess are as common as the above. Obviously, roaming the radio waves for distant and obscure stuff might be a different matter. FWIW, my iPhone's 'polling' (not sure how, what or why) can be heard on my hifi, FM radios, and work's PA systems in lecture halls. It's a sort of chirping, and lasts about 10s. -- Cheers, Rob |
Getting rid of mobile phone galloping ghost from audio circuits.
Brian-Gaff wrote:
With the proliferisation of mobile devices running on the mobile phone network its getting increasingly a annoying to listen to things on a good old fashioned or even new fangled radio, without the noise occurring at some point. Even from next door one can get it getting into the audio chain. Anyone know if there is an easy way to stop it. ** There is no easy way. In the old days a few capacitors got rid of Radio China or Vatican City, but due to the high frequencies of the phones and the spiky nature of the handshaking noise, this seems not to work much. What is the mechanism. they cannot be tuned to the r frequencies, so is it just straight diode type detection due to the huge signal level? ** At a range of a few metres, the induced signal is hundreds of millivolts.. Rectification by a non linear component produces a small DC level and when the RF signal is 100% amplitude modulated at an audio frequency causes the buzzing noise. GSM phones are the worst. Low level circuits like turntables, microphone inputs etc, seem to be the worst, but I've also proved my Denon is picking it up from its speaker cables. ** The standard technique is to reduce RF energy entering a device via input and output leads by making sure the shields are grounded to the metal case right at the connectors. A 10nF ceramic cap wired direct to chassis from the ground pin of the connector normally does the trick. The same can also be done with both speaker terminals. I helps if all co-axial signal cables have woven shields. If the device does not have a metal case, you are outta luck. .... Phil |
Getting rid of mobile phone galloping ghost from audio circuits.
"Phil Allison" wrote in message ... Brian-Gaff wrote: With the proliferisation of mobile devices running on the mobile phone network its getting increasingly a annoying to listen to things on a good old fashioned or even new fangled radio, without the noise occurring at some point. Even from next door one can get it getting into the audio chain. Anyone know if there is an easy way to stop it. ** There is no easy way. In the old days a few capacitors got rid of Radio China or Vatican City, but due to the high frequencies of the phones and the spiky nature of the handshaking noise, this seems not to work much. What is the mechanism. they cannot be tuned to the r frequencies, so is it just straight diode type detection due to the huge signal level? ** At a range of a few metres, the induced signal is hundreds of millivolts. Rectification by a non linear component produces a small DC level and when the RF signal is 100% amplitude modulated at an audio frequency causes the buzzing noise. GSM phones are the worst. Low level circuits like turntables, microphone inputs etc, seem to be the worst, but I've also proved my Denon is picking it up from its speaker cables. ** The standard technique is to reduce RF energy entering a device via input and output leads by making sure the shields are grounded to the metal case right at the connectors. A 10nF ceramic cap wired direct to chassis from the ground pin of the connector normally does the trick. The same can also be done with both speaker terminals. I helps if all co-axial signal cables have woven shields. If the device does not have a metal case, you are outta luck. .... Phil For once I would agree with Phil, and there is one other point. Many hi-fi components these days only have a two core cable with just one, hopefully the amplifier, having three core. Aside from any safety issues this means that many sources can only achieve proper signal and unit screening through the braid/screen of a signal cable which can make the whole unit at the distant end from the amplifier act as an aerial especially if, for any reason, the cables are long. Decoupling does work and in many cases will help, save that the average user doesn't even know what a soldering iron is let alone which is the hot end. IME the one connection that has most effect is the longest aerial of all, the loudspeaker leads. In many cases putting a loop or two the speaker cable through a ferrite ring will kill the interference dead, but have you tried buying ferrite rings these days? At one time they were easily obtained and in many varieties but now - lets us say rocking horse manure comes to mind. -- Woody harrogate3 at ntlworld dot com |
Getting rid of mobile phone galloping ghost from audio circuits.
On 22/11/2015 07:57, Woody wrote:
"Phil Allison" wrote in message ... Brian-Gaff wrote: With the proliferisation of mobile devices running on the mobile phone network its getting increasingly a annoying to listen to things on a good old fashioned or even new fangled radio, without the noise occurring at some point. Even from next door one can get it getting into the audio chain. Anyone know if there is an easy way to stop it. ** There is no easy way. In the old days a few capacitors got rid of Radio China or Vatican City, but due to the high frequencies of the phones and the spiky nature of the handshaking noise, this seems not to work much. What is the mechanism. they cannot be tuned to the r frequencies, so is it just straight diode type detection due to the huge signal level? ** At a range of a few metres, the induced signal is hundreds of millivolts. Rectification by a non linear component produces a small DC level and when the RF signal is 100% amplitude modulated at an audio frequency causes the buzzing noise. GSM phones are the worst. Low level circuits like turntables, microphone inputs etc, seem to be the worst, but I've also proved my Denon is picking it up from its speaker cables. ** The standard technique is to reduce RF energy entering a device via input and output leads by making sure the shields are grounded to the metal case right at the connectors. A 10nF ceramic cap wired direct to chassis from the ground pin of the connector normally does the trick. The same can also be done with both speaker terminals. I helps if all co-axial signal cables have woven shields. If the device does not have a metal case, you are outta luck. ... Phil For once I would agree with Phil, and there is one other point. Many hi-fi components these days only have a two core cable with just one, hopefully the amplifier, having three core. Aside from any safety issues this means that many sources can only achieve proper signal and unit screening through the braid/screen of a signal cable which can make the whole unit at the distant end from the amplifier act as an aerial especially if, for any reason, the cables are long. Decoupling does work and in many cases will help, save that the average user doesn't even know what a soldering iron is let alone which is the hot end. IME the one connection that has most effect is the longest aerial of all, the loudspeaker leads. In many cases putting a loop or two the speaker cable through a ferrite ring will kill the interference dead, but have you tried buying ferrite rings these days? At one time they were easily obtained and in many varieties but now - lets us say rocking horse manure comes to mind. Try the CPC website. No **** but dozens of ferrite cores. Or visit your local tip and pick up an old PC with ferrites on the motherboard and in the PSU. I replaced a shorted 10nF cap on the output of my Yamaha amp recently. It sacrificed itself to save the amplifier from a nearby lightning strike. -- Eiron. |
Getting rid of mobile phone galloping ghost from audio circuits.
In article , RJH wrote:
FWIW, my iPhone's 'polling' (not sure how, what or why) can be heard on my hifi, FM radios, and work's PA systems in lecture halls. It's a sort of chirping, and lasts about 10s. We don't get any problems from phones, etc, even when using one in the same room. This is despite a lot of the kit I use being pretty old - i.e. like me! I always fitted an RC at the input to amps and a full Zobel (series inductor/resistor as well as shunt cap/resistor) to help block crap getting in. I also put caps across all four mains bridge diodes and across the mains input. On 22 Nov in uk.rec.audio, Woody wrote: In many cases putting a loop or two the speaker cable through a ferrite ring will kill the interference dead, but have you tried buying ferrite rings these days? At one time they were easily obtained and in many varieties but now - lets us say rocking horse manure comes to mind. FWIW I buy rings from CPC. I'd echo that they often deal with garbage picked up from the speaker leads. As you only have to wind the lead though them they are an easy fix for people to try. The Armstrong 626 I had refurbished recently was an early version. These were prone to clicks, etc. The first impression might be that they were getting in via the mains. They also have a wooden lid and plastic base, so are exposed to external fields. (Unless you line them with ali foil or mu-metal!) But experiment showed me that it was via speaker leads. Solved with ferrite clip-on blocks/rings. Jim -- Please use the address on the audiomisc page if you wish to email me. Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Armstrong Audio http://www.audiomisc.co.uk/Armstrong/armstrong.html Audio Misc http://www.audiomisc.co.uk/index.html |
Getting rid of mobile phone galloping ghost from audio circuits.
In article ,
RJH wrote: You seem to be very unlucky or live in an odd area or have odd equipment if you're picking up interference on a pickup or mic? My laptop reports some 20 Wi-Fi signals at usable level round here, but no problems on the Hi-Fi here. Or with mobile phones which I'd guess are as common as the above. Obviously, roaming the radio waves for distant and obscure stuff might be a different matter. FWIW, my iPhone's 'polling' (not sure how, what or why) can be heard on my hifi, FM radios, and work's PA systems in lecture halls. It's a sort of chirping, and lasts about 10s. Yes - that does happen, but moving the phone away a few feet should sort it. It used to happen frequently on live radio etc broadcasts despite those in the studio being told to turn off any phones. Rather than go to silent. It's far less common these days, so something has changed. -- *Reality is a crutch for people who can't handle drugs. Dave Plowman London SW To e-mail, change noise into sound. |
Getting rid of mobile phone galloping ghost from audio circuits.
On Sun, 22 Nov 2015 08:48:57 +0000, Eiron
wrote: On 22/11/2015 07:57, Woody wrote: "Phil Allison" wrote in message ... Brian-Gaff wrote: With the proliferisation of mobile devices running on the mobile phone network its getting increasingly a annoying to listen to things on a good old fashioned or even new fangled radio, without the noise occurring at some point. Even from next door one can get it getting into the audio chain. Anyone know if there is an easy way to stop it. ** There is no easy way. In the old days a few capacitors got rid of Radio China or Vatican City, but due to the high frequencies of the phones and the spiky nature of the handshaking noise, this seems not to work much. What is the mechanism. they cannot be tuned to the r frequencies, so is it just straight diode type detection due to the huge signal level? ** At a range of a few metres, the induced signal is hundreds of millivolts. Rectification by a non linear component produces a small DC level and when the RF signal is 100% amplitude modulated at an audio frequency causes the buzzing noise. GSM phones are the worst. Low level circuits like turntables, microphone inputs etc, seem to be the worst, but I've also proved my Denon is picking it up from its speaker cables. ** The standard technique is to reduce RF energy entering a device via input and output leads by making sure the shields are grounded to the metal case right at the connectors. A 10nF ceramic cap wired direct to chassis from the ground pin of the connector normally does the trick. The same can also be done with both speaker terminals. I helps if all co-axial signal cables have woven shields. If the device does not have a metal case, you are outta luck. ... Phil For once I would agree with Phil, and there is one other point. Many hi-fi components these days only have a two core cable with just one, hopefully the amplifier, having three core. Aside from any safety issues this means that many sources can only achieve proper signal and unit screening through the braid/screen of a signal cable which can make the whole unit at the distant end from the amplifier act as an aerial especially if, for any reason, the cables are long. Decoupling does work and in many cases will help, save that the average user doesn't even know what a soldering iron is let alone which is the hot end. IME the one connection that has most effect is the longest aerial of all, the loudspeaker leads. In many cases putting a loop or two the speaker cable through a ferrite ring will kill the interference dead, but have you tried buying ferrite rings these days? At one time they were easily obtained and in many varieties but now - lets us say rocking horse manure comes to mind. Try the CPC website. No **** but dozens of ferrite cores. Or visit your local tip and pick up an old PC with ferrites on the motherboard and in the PSU. I replaced a shorted 10nF cap on the output of my Yamaha amp recently. It sacrificed itself to save the amplifier from a nearby lightning strike. Decent screened cables help. Many phono leads have no more than a dozen or so very fine copper strands for screening - in fact all they do is just about carry the ground. For fixed wiring that doesn't require flexibility, go for CT100 - the stuff used for satellite downleads. It uses copper foil as well as wire to achieve 100% screening. Additionally, killing the common mode currents induced by high level RF fields is a good idea. Ferrites slipped over audio and power cables will prevent the ingress of ground currents, which only need a small series impedance to be turned into signal voltages. As for two mains wire vs three. This is absolutely vital. Only one component - and the amplifier is a good choice - should carry a mains earth connection. Everything else should ground via the signal leads. Unless your audio is balanced pair, any other arrangement will lead to ground loops and consequent hum. Lightning protection - All my audio gear is powered from a single mains extension strip in which I have incorporated three large MOVs, a gas discharge tube, two Y1 caps, a Y2 cap and a common mode choke. Everything is pretty much proof against lightning surge. The antenna feed grounds at the star point from this strip before continuing to the receiver. Do all this, and your audio system should be proof against pretty much anything. d --- This email has been checked for viruses by Avast antivirus software. https://www.avast.com/antivirus |
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