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#1
June 27th 07, 11:26 PM
posted to rec.radio.amateur.homebrew
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? on feedthrough caps
Can someone tell me what a feedthrough capacitor actually does? One source
says it passes DC or low frequency signal through a panel, and another says it passes any signal through said panel. Are they nothing more than a feed-through device with a small amount of capacitive reactance? My Encyclopedia of Electronics leaves me hanging on this one... Thanks for any help, Dave |
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#2
June 28th 07, 01:00 AM
posted to rec.radio.amateur.homebrew
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? on feedthrough caps
On Jun 27, 3:26 pm, "Dave" wrote:
Can someone tell me what a feedthrough capacitor actually does? One source says it passes DC or low frequency signal through a panel, and another says it passes any signal through said panel. Are they nothing more than a feed-through device with a small amount of capacitive reactance? My Encyclopedia of Electronics leaves me hanging on this one... Thanks for any help, Dave A good feedthrough capacitor is arranged so that the capacitor part has very low parasitic inductance and resistance between the center fed-through conductor and the case. The case may be intended to be soldered to a shield can, or may have threads so it can be mounted using a nut (or perhaps into a tapped hole in the shield can). They are used to get relatively low frequency signals into and out of shielded areas, most commonly. You can get them in various capacitance values. 1000pF is common, for example. Overall circuit design will determine what frequency range can be passed. For example, 1000pF driven by a 1 ohm source impedance will have a -3dB corner frequency of about 160MHz, but driven from a source impedance of 1000 ohms, it will be a 160kHz corner frequency. It's pretty common to use them in conjunction with a series inductance or ferrite bead on one or both sides, very close to the feedthrough, so that RF isn't picked up by the lead and fed through because the impedance is too low--the inductance or bead guarantees a reasonably high impedance at RF frequencies. You can also get feedthroughs that have not only shunt capacitance, but also series inductance or built-in ferrite. (Note that the ferrite provides some inductance at moderate frequencies, but at higher frequencies--up to a point--the series impedance becomes mainly resistive. That helps damp resonances. See curves of impedance versus frequency for parts found on the TDK website, for example.) Hope that helps... Cheers, Tom |
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#3
June 28th 07, 04:11 AM
posted to rec.radio.amateur.homebrew
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? on feedthrough caps
"K7ITM" wrote in message oups.com... On Jun 27, 3:26 pm, "Dave" wrote: Can someone tell me what a feedthrough capacitor actually does? One source says it passes DC or low frequency signal through a panel, and another says it passes any signal through said panel. Are they nothing more than a feed-through device with a small amount of capacitive reactance? My Encyclopedia of Electronics leaves me hanging on this one... Thanks for any help, Dave A good feedthrough capacitor is arranged so that the capacitor part has very low parasitic inductance and resistance between the center fed-through conductor and the case. The case may be intended to be soldered to a shield can, or may have threads so it can be mounted using a nut (or perhaps into a tapped hole in the shield can). They are used to get relatively low frequency signals into and out of shielded areas, most commonly. You can get them in various capacitance values. 1000pF is common, for example. Overall circuit design will determine what frequency range can be passed. For example, 1000pF driven by a 1 ohm source impedance will have a -3dB corner frequency of about 160MHz, but driven from a source impedance of 1000 ohms, it will be a 160kHz corner frequency. It's pretty common to use them in conjunction with a series inductance or ferrite bead on one or both sides, very close to the feedthrough, so that RF isn't picked up by the lead and fed through because the impedance is too low--the inductance or bead guarantees a reasonably high impedance at RF frequencies. You can also get feedthroughs that have not only shunt capacitance, but also series inductance or built-in ferrite. (Note that the ferrite provides some inductance at moderate frequencies, but at higher frequencies--up to a point--the series impedance becomes mainly resistive. That helps damp resonances. See curves of impedance versus frequency for parts found on the TDK website, for example.) Hope that helps... Cheers, Tom Wow. Thank you Tom. Lots more than I found with Google... It is much appreciated. Best regards... Dave |
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#4
June 29th 07, 01:58 AM
posted to rec.radio.amateur.homebrew
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? on feedthrough caps
Dave wrote:
"K7ITM" wrote in message oups.com... On Jun 27, 3:26 pm, "Dave" wrote: Can someone tell me what a feedthrough capacitor actually does? One source says it passes DC or low frequency signal through a panel, and another says it passes any signal through said panel. Are they nothing more than a feed-through device with a small amount of capacitive reactance? My Encyclopedia of Electronics leaves me hanging on this one... Thanks for any help, Dave A good feedthrough capacitor is arranged so that the capacitor part has very low parasitic inductance and resistance between the center fed-through conductor and the case. The case may be intended to be soldered to a shield can, or may have threads so it can be mounted using a nut (or perhaps into a tapped hole in the shield can). They are used to get relatively low frequency signals into and out of shielded areas, most commonly. You can get them in various capacitance values. 1000pF is common, for example. Overall circuit design will determine what frequency range can be passed. For example, 1000pF driven by a 1 ohm source impedance will have a -3dB corner frequency of about 160MHz, but driven from a source impedance of 1000 ohms, it will be a 160kHz corner frequency. It's pretty common to use them in conjunction with a series inductance or ferrite bead on one or both sides, very close to the feedthrough, so that RF isn't picked up by the lead and fed through because the impedance is too low--the inductance or bead guarantees a reasonably high impedance at RF frequencies. You can also get feedthroughs that have not only shunt capacitance, but also series inductance or built-in ferrite. (Note that the ferrite provides some inductance at moderate frequencies, but at higher frequencies--up to a point--the series impedance becomes mainly resistive. That helps damp resonances. See curves of impedance versus frequency for parts found on the TDK website, for example.) Hope that helps... Cheers, Tom Wow. Thank you Tom. Lots more than I found with Google... It is much appreciated. If you need to lower the corner frequency Tom mentioned you can solder a 0603 chip capacitor in the range of 0.01uF to 0.1uF from feedthrough pin to the can on either or both sides. I always have a whole can of those at hand, like the salt in a kitchen. -- Regards, Joerg http://www.analogconsultants.com |
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#5
June 29th 07, 03:23 AM
posted to rec.radio.amateur.homebrew
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? on feedthrough caps
"Joerg" wrote in message t... Dave wrote: "K7ITM" wrote in message oups.com... On Jun 27, 3:26 pm, "Dave" wrote: Can someone tell me what a feedthrough capacitor actually does? One source says it passes DC or low frequency signal through a panel, and another says it passes any signal through said panel. Are they nothing more than a feed-through device with a small amount of capacitive reactance? My Encyclopedia of Electronics leaves me hanging on this one... Thanks for any help, Dave A good feedthrough capacitor is arranged so that the capacitor part has very low parasitic inductance and resistance between the center fed-through conductor and the case. The case may be intended to be soldered to a shield can, or may have threads so it can be mounted using a nut (or perhaps into a tapped hole in the shield can). They are used to get relatively low frequency signals into and out of shielded areas, most commonly. You can get them in various capacitance values. 1000pF is common, for example. Overall circuit design will determine what frequency range can be passed. For example, 1000pF driven by a 1 ohm source impedance will have a -3dB corner frequency of about 160MHz, but driven from a source impedance of 1000 ohms, it will be a 160kHz corner frequency. It's pretty common to use them in conjunction with a series inductance or ferrite bead on one or both sides, very close to the feedthrough, so that RF isn't picked up by the lead and fed through because the impedance is too low--the inductance or bead guarantees a reasonably high impedance at RF frequencies. You can also get feedthroughs that have not only shunt capacitance, but also series inductance or built-in ferrite. (Note that the ferrite provides some inductance at moderate frequencies, but at higher frequencies--up to a point--the series impedance becomes mainly resistive. That helps damp resonances. See curves of impedance versus frequency for parts found on the TDK website, for example.) Hope that helps... Cheers, Tom Wow. Thank you Tom. Lots more than I found with Google... It is much appreciated. If you need to lower the corner frequency Tom mentioned you can solder a 0603 chip capacitor in the range of 0.01uF to 0.1uF from feedthrough pin to the can on either or both sides. I always have a whole can of those at hand, like the salt in a kitchen. -- Regards, Joerg http://www.analogconsultants.com COOL! Thank you, Joerg. I will definitly file that in my memory box. Thank you. I love usenet... Dave |
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