Measuring SWR (Long)

> On Apr 9, 2019, at 12:42 PM, Al Lorona <[hidden email]> wrote:
>
> There's always a lot of discussion about measuring SWR, low SWR values, SWR lights not lighting up, etc. Here's something that might give you a better 'feel' for SWR.
>
> Imagine that you measure your forward power at 100 W and your reflected power at only 1 W. You'd probably be very happy about this. Congratulations, your SWR would be 1.22 to 1.
>
> Pause for a moment and let it soak in that an SWR of 1.22 is fabulously good. Once you get to this point, below which we're dealing with reflected power that's less than 1% of your power, or four-hundredths of a dB, it's not worth doing any more to your antenna system to improve it. No trimming, cutting, raising, lowering, hanging stuff from it, adding remote tuned things, nothing. You're done for the day and can now get on the air!
>
> If the reflected power were 4 W, which would still look pretty small on the meter, the SWR would be 1.5 to 1.
>
> A lot of people might be bothered by an SWR of 1.5, but really this is still very good and it's probably not worth going back up to the antenna to mess with it any more. Most importantly, the station on the other end cannot possibly hear the difference between your 1.2 and 1.5.
>
> At this point you may be saying, "Yeah, but my rig/amplifier/other thing isn't happy unless the SWR is below 1.5 to 1, so I would still have to do more work."
>
> Okay, that's fine, but my point is that the absolute number 1.5 nonetheless represents a system that is working quite well.
>
> Let's allow the reflected power to increase all the way to <gasp> 10 watts! At that point, your SWR would be about 2 to 1. Sounds pretty bad, but surely if you were stranded in the desert and had to use your KX3 and a wire to get help, you'd be happy to have a match this good.
>
> Now, let's look at a certain type of SWR meter found in virtually every HF rig out there that uses a directional bridge, a diode as a half-wave rectifier, a filter capacitor, a resistor, and a readout of some kind - analog meter, digital display, or other.
>
> These types of SWR meters are very common. There's one in the K2 (it's actually in the KPA100), one in the K3, and probably every other rig out there. And those Birds, MFJs and Daiwas have them, too.
>
> This type of circuit turns RF voltage into a DC current, usually using either a germanium or Schottky diode, because these diodes have the best sensitivity due to their low forward voltage drops: 0.3 V for the germanium, and 0.4 V for the Schottky.
>
> Let's say that our directional bridge, when 100 W is in the forward direction, delivers 10 V to the forward Schottky diode. In our example above of 1 watt reflected, the reflected diode would see 1.0 volts from the reflected port of the bridge. Since this is above the diode threshold voltage, the diode would be happy and operating in its linear region where we'd get about 1 volt out for 1 volt in. The meter would correctly read 1.22 to 1.
>
> Now say you have your Elecraft rig set for TUN PWR = 10 W, so when you tune up, forward power is 10 watts, and if the SWR is the aforementioned 1.2 to 1, the forward power would produce a little more than 3 volts at the diode and the 0.1 watts reflected would produce about 0.3 volts. Here is where we run into trouble.
>
> Since a Schottky diode doesn't fully conduct until we exceed its 0.4 volt threshold, expecting to get 0.3 V out for 0.3 V in isn't quite realistic. The diode's output voltage won't be zero, but it'll be smaller than expected, according to the nonlinear region around its "knee". I measured a Schottky diode and got about 0.09 V at that level. The meter would indicate an SWR of... 1.06 instead of the actual 1.22. This reading is false.
>
> There are some things that can be done to the circuit to compensate for this error but I'm not sure how many rigs go through the trouble. Suffice it to say that measurement of very low SWR has a large amount of uncertainty because the detectors get more and more nonlinear as the thing they're trying to measure (reflected power) gets smaller and smaller. Due to this effect (and also due to directivity) every meter of this kind has a point below which SWR measurements are probably wrong.
>
> When we see posts here by folks puzzled as to why low SWR measurements from two different instruments don't agree, this undoubtedly is one of the reasons.
>
> I chose these scenarios deviously, to illustrate a kind of corner case, but I think you get the idea that errors always exist in any power measurement like SWR. You might say, "But my SuperDuper wattmeter is calibrated by aliens in a metrology lab deep inside a secret mountain in Nevada and I would bet my life on it." Great, cool, congratulations. But I'm afraid every last power meter has errors stemming from mismatch, directivity, nonlinearity and drift.
>
> If you simply tune for minimum reflected power you should be good to go, and don't get too hung up on if the meter says "1.2" or "1.5" or "1.0". Remember, once you get down into this zone it's very likely good enough.
>
> Al  W6LX
> ______________________________________________________________
> Elecraft mailing list
> Home: http://mailman.qth.net/mailman/listinfo/elecraft
> Help: http://mailman.qth.net/mmfaq.htm
> Post: mailto:[hidden email]
>
> This list hosted by: http://www.qsl.net
> Please help support this email list: http://www.qsl.net/donate.html

> There's always a lot of discussion about measuring SWR, low SWR values, SWR lights not lighting up, etc. Here's something that might give you a better 'feel' for SWR.
>
> Imagine that you measure your forward power at 100 W and your reflected power at only 1 W. You'd probably be very happy about this. Congratulations, your SWR would be 1.22 to 1.
>
> Pause for a moment and let it soak in that an SWR of 1.22 is fabulously good. Once you get to this point, below which we're dealing with reflected power that's less than 1% of your power, or four-hundredths of a dB, it's not worth doing any more to your antenna system to improve it. No trimming, cutting, raising, lowering, hanging stuff from it, adding remote tuned things, nothing. You're done for the day and can now get on the air!
>
> If the reflected power were 4 W, which would still look pretty small on the meter, the SWR would be 1.5 to 1.
>
> A lot of people might be bothered by an SWR of 1.5, but really this is still very good and it's probably not worth going back up to the antenna to mess with it any more. Most importantly, the station on the other end cannot possibly hear the difference between your 1.2 and 1.5.
>
> At this point you may be saying, "Yeah, but my rig/amplifier/other thing isn't happy unless the SWR is below 1.5 to 1, so I would still have to do more work."
>
> Okay, that's fine, but my point is that the absolute number 1.5 nonetheless represents a system that is working quite well.
>
> Let's allow the reflected power to increase all the way to <gasp> 10 watts! At that point, your SWR would be about 2 to 1. Sounds pretty bad, but surely if you were stranded in the desert and had to use your KX3 and a wire to get help, you'd be happy to have a match this good.
>
> Now, let's look at a certain type of SWR meter found in virtually every HF rig out there that uses a directional bridge, a diode as a half-wave rectifier, a filter capacitor, a resistor, and a readout of some kind - analog meter, digital display, or other.
>
> These types of SWR meters are very common. There's one in the K2 (it's actually in the KPA100), one in the K3, and probably every other rig out there. And those Birds, MFJs and Daiwas have them, too.
>
> This type of circuit turns RF voltage into a DC current, usually using either a germanium or Schottky diode, because these diodes have the best sensitivity due to their low forward voltage drops: 0.3 V for the germanium, and 0.4 V for the Schottky.
>
> Let's say that our directional bridge, when 100 W is in the forward direction, delivers 10 V to the forward Schottky diode. In our example above of 1 watt reflected, the reflected diode would see 1.0 volts from the reflected port of the bridge. Since this is above the diode threshold voltage, the diode would be happy and operating in its linear region where we'd get about 1 volt out for 1 volt in. The meter would correctly read 1.22 to 1.
>
> Now say you have your Elecraft rig set for TUN PWR = 10 W, so when you tune up, forward power is 10 watts, and if the SWR is the aforementioned 1.2 to 1, the forward power would produce a little more than 3 volts at the diode and the 0.1 watts reflected would produce about 0.3 volts. Here is where we run into trouble.
>
> Since a Schottky diode doesn't fully conduct until we exceed its 0.4 volt threshold, expecting to get 0.3 V out for 0.3 V in isn't quite realistic. The diode's output voltage won't be zero, but it'll be smaller than expected, according to the nonlinear region around its "knee". I measured a Schottky diode and got about 0.09 V at that level. The meter would indicate an SWR of... 1.06 instead of the actual 1.22. This reading is false.
>
> There are some things that can be done to the circuit to compensate for this error but I'm not sure how many rigs go through the trouble. Suffice it to say that measurement of very low SWR has a large amount of uncertainty because the detectors get more and more nonlinear as the thing they're trying to measure (reflected power) gets smaller and smaller. Due to this effect (and also due to directivity) every meter of this kind has a point below which SWR measurements are probably wrong.
>
> When we see posts here by folks puzzled as to why low SWR measurements from two different instruments don't agree, this undoubtedly is one of the reasons.
>
> I chose these scenarios deviously, to illustrate a kind of corner case, but I think you get the idea that errors always exist in any power measurement like SWR. You might say, "But my SuperDuper wattmeter is calibrated by aliens in a metrology lab deep inside a secret mountain in Nevada and I would bet my life on it." Great, cool, congratulations. But I'm afraid every last power meter has errors stemming from mismatch, directivity, nonlinearity and drift.
>
> If you simply tune for minimum reflected power you should be good to go, and don't get too hung up on if the meter says "1.2" or "1.5" or "1.0". Remember, once you get down into this zone it's very likely good enough.
>
> Al  W6LX
> ______________________________________________________________

> On Apr 9, 2019, at 12:42 PM, Al Lorona <[hidden email]> wrote:
>
> There's always a lot of discussion about measuring SWR, low SWR values, SWR lights not lighting up, etc. Here's something that might give you a better 'feel' for SWR.
>
> Imagine that you measure your forward power at 100 W and your reflected power at only 1 W. You'd probably be very happy about this. Congratulations, your SWR would be 1.22 to 1.
>
> Pause for a moment and let it soak in that an SWR of 1.22 is fabulously good. Once you get to this point, below which we're dealing with reflected power that's less than 1% of your power, or four-hundredths of a dB, it's not worth doing any more to your antenna system to improve it. No trimming, cutting, raising, lowering, hanging stuff from it, adding remote tuned things, nothing. You're done for the day and can now get on the air!
>
> If the reflected power were 4 W, which would still look pretty small on the meter, the SWR would be 1.5 to 1.
>
> A lot of people might be bothered by an SWR of 1.5, but really this is still very good and it's probably not worth going back up to the antenna to mess with it any more. Most importantly, the station on the other end cannot possibly hear the difference between your 1.2 and 1.5.
>
> At this point you may be saying, "Yeah, but my rig/amplifier/other thing isn't happy unless the SWR is below 1.5 to 1, so I would still have to do more work."
>
> Okay, that's fine, but my point is that the absolute number 1.5 nonetheless represents a system that is working quite well.
>
> Let's allow the reflected power to increase all the way to <gasp> 10 watts! At that point, your SWR would be about 2 to 1. Sounds pretty bad, but surely if you were stranded in the desert and had to use your KX3 and a wire to get help, you'd be happy to have a match this good.
>
> Now, let's look at a certain type of SWR meter found in virtually every HF rig out there that uses a directional bridge, a diode as a half-wave rectifier, a filter capacitor, a resistor, and a readout of some kind - analog meter, digital display, or other.
>
> These types of SWR meters are very common. There's one in the K2 (it's actually in the KPA100), one in the K3, and probably every other rig out there. And those Birds, MFJs and Daiwas have them, too.
>
> This type of circuit turns RF voltage into a DC current, usually using either a germanium or Schottky diode, because these diodes have the best sensitivity due to their low forward voltage drops: 0.3 V for the germanium, and 0.4 V for the Schottky.
>
> Let's say that our directional bridge, when 100 W is in the forward direction, delivers 10 V to the forward Schottky diode. In our example above of 1 watt reflected, the reflected diode would see 1.0 volts from the reflected port of the bridge. Since this is above the diode threshold voltage, the diode would be happy and operating in its linear region where we'd get about 1 volt out for 1 volt in. The meter would correctly read 1.22 to 1.
>
> Now say you have your Elecraft rig set for TUN PWR = 10 W, so when you tune up, forward power is 10 watts, and if the SWR is the aforementioned 1.2 to 1, the forward power would produce a little more than 3 volts at the diode and the 0.1 watts reflected would produce about 0.3 volts. Here is where we run into trouble.
>
> Since a Schottky diode doesn't fully conduct until we exceed its 0.4 volt threshold, expecting to get 0.3 V out for 0.3 V in isn't quite realistic. The diode's output voltage won't be zero, but it'll be smaller than expected, according to the nonlinear region around its "knee". I measured a Schottky diode and got about 0.09 V at that level. The meter would indicate an SWR of... 1.06 instead of the actual 1.22. This reading is false.
>
> There are some things that can be done to the circuit to compensate for this error but I'm not sure how many rigs go through the trouble. Suffice it to say that measurement of very low SWR has a large amount of uncertainty because the detectors get more and more nonlinear as the thing they're trying to measure (reflected power) gets smaller and smaller. Due to this effect (and also due to directivity) every meter of this kind has a point below which SWR measurements are probably wrong.
>
> When we see posts here by folks puzzled as to why low SWR measurements from two different instruments don't agree, this undoubtedly is one of the reasons.
>
> I chose these scenarios deviously, to illustrate a kind of corner case, but I think you get the idea that errors always exist in any power measurement like SWR. You might say, "But my SuperDuper wattmeter is calibrated by aliens in a metrology lab deep inside a secret mountain in Nevada and I would bet my life on it." Great, cool, congratulations. But I'm afraid every last power meter has errors stemming from mismatch, directivity, nonlinearity and drift.
>
> If you simply tune for minimum reflected power you should be good to go, and don't get too hung up on if the meter says "1.2" or "1.5" or "1.0". Remember, once you get down into this zone it's very likely good enough.
>
> Al  W6LX
> ______________________________________________________________
> Elecraft mailing list
> Home: http://mailman.qth.net/mailman/listinfo/elecraft
> Help: http://mailman.qth.net/mmfaq.htm
> Post: mailto:[hidden email]
>
> This list hosted by: http://www.qsl.net
> Please help support this email list: http://www.qsl.net/donate.html

> There's always a lot of discussion about measuring SWR, low SWR values, SWR lights not lighting up, etc. Here's something that might give you a better 'feel' for SWR.
>
> Imagine that you measure your forward power at 100 W and your reflected power at only 1 W. You'd probably be very happy about this. Congratulations, your SWR would be 1.22 to 1.
>
> Pause for a moment and let it soak in that an SWR of 1.22 is fabulously good. Once you get to this point, below which we're dealing with reflected power that's less than 1% of your power, or four-hundredths of a dB, it's not worth doing any more to your antenna system to improve it. No trimming, cutting, raising, lowering, hanging stuff from it, adding remote tuned things, nothing. You're done for the day and can now get on the air!
>
> If the reflected power were 4 W, which would still look pretty small on the meter, the SWR would be 1.5 to 1.
>
> A lot of people might be bothered by an SWR of 1.5, but really this is still very good and it's probably not worth going back up to the antenna to mess with it any more. Most importantly, the station on the other end cannot possibly hear the difference between your 1.2 and 1.5.
>
> At this point you may be saying, "Yeah, but my rig/amplifier/other thing isn't happy unless the SWR is below 1.5 to 1, so I would still have to do more work."
>
> Okay, that's fine, but my point is that the absolute number 1.5 nonetheless represents a system that is working quite well.
>
> Let's allow the reflected power to increase all the way to <gasp> 10 watts! At that point, your SWR would be about 2 to 1. Sounds pretty bad, but surely if you were stranded in the desert and had to use your KX3 and a wire to get help, you'd be happy to have a match this good.
>

> "...Let's allow the reflected power to increase all the way to <gasp> 10
> watts! At that point, your SWR would be about 2 to 1. Sounds pretty bad,
> but
> surely if you were stranded in the desert and had to use your KX3 and a
> wire
> to get help, you'd be happy to have a match this good...(etc.)"
>
>
> From memory now, at 2 to 1...feedline voltage nodes and current nodes can
> double -- no small thing when power is 1500 watts; can stress antenna
> system
> components.
>
> 73,   Roy    K6XK
>
>
> ______________________________________________________________
> Elecraft mailing list
> Home: http://mailman.qth.net/mailman/listinfo/elecraft
> Help: http://mailman.qth.net/mmfaq.htm
> Post: mailto:[hidden email]
>
> This list hosted by: http://www.qsl.net
> Please help support this email list: http://www.qsl.net/donate.html
>

> Since no one has answered your question. I will venture a
> supposition that many know but few will speak out.
> And some still remember their CB days and the erroneous
> advertising saying the power is lost.
> Reflected Power flows back down the feed line and is subjected
> to the normal feed line loss. It then is "reflected" back toward the
> antenna, again subject to the feed line loss, where some of it is
> radiated and some reflected again.
> This continues until the power is dissipated. The book "Reflections"
>   has a very good but somewhat technical explanation.
> Therein also is the reference to forgetting about striving for the
> "Holy Grail" of 1:1 SWR.
> And concentrating on getting it low enough that the transmitter will
> supply full power output. Also using the best low loss feed line and
> proper matching when possible of the feed line to the antenna.
>
> Dr. Don W4BWS
>

> On Apr 9, 2019, at 19:10, Fred Jensen <[hidden email]> wrote:
>
> Well, the reflected power is created by a "virtual transmitter" at the feedpoint of the antenna and heads down the coax which has a surge impedance of Z0 ohms.  It meets the SO-239 at the TX and sees an impedance of Z1, the impedance presented by the PA and output filters.  If Z1=Z0, the power is dissipated as heat in the PA and associated RF circuitry.  If Z1<>Z0, some is dissipated and some is reflected, where some is radiated, and some is reflected [virtual transmitter again].  Ad infinitum, and when forever is over, it is all gone and everyone lives happily ever after.
>
> SWR and all the associated measuring equipment and concern with it only became an issue when: 1) Coax replaced parallel lines and; 2) Resonant output circuits were replaced by solid state amplifiers with non-resonant filters.  When I sat for the Extra in early 1956, the only question that involved standing waves was one about how Lecher Lines could be used to measure transmitter frequency.
>
> It's important today but calculating it hasn't changed.  At 10 W, a 2:1 SWR will probably work ok.  At 1500 W, a solid state amplifier may not be happy with the voltages developed at its output connector.
>
> 73,
> Fred ["Skip"] K6DGW
> Sparks NV DM09dn
> Washoe County
>
>> On 4/9/2019 5:56 PM, Don Sanders wrote:
>> Since no one has answered your question. I will venture a
>> supposition that many know but few will speak out.
>> And some still remember their CB days and the erroneous
>> advertising saying the power is lost.
>> Reflected Power flows back down the feed line and is subjected
>> to the normal feed line loss. It then is "reflected" back toward the
>> antenna, again subject to the feed line loss, where some of it is
>> radiated and some reflected again.
>> This continues until the power is dissipated. The book "Reflections"
>>  has a very good but somewhat technical explanation.
>> Therein also is the reference to forgetting about striving for the
>> "Holy Grail" of 1:1 SWR.
>> And concentrating on getting it low enough that the transmitter will
>> supply full power output. Also using the best low loss feed line and
>> proper matching when possible of the feed line to the antenna.
>>
>> Dr. Don W4BWS
>>
>
> ______________________________________________________________
> Elecraft mailing list
> Home: http://mailman.qth.net/mailman/listinfo/elecraft
> Help: http://mailman.qth.net/mmfaq.htm
> Post: mailto:[hidden email]
>
> This list hosted by: http://www.qsl.net
> Please help support this email list: http://www.qsl.net/donate.html

> Since no one has answered your question. I will venture a
> supposition that many know but few will speak out.
> And some still remember their CB days and the erroneous
> advertising saying the power is lost.
> Reflected Power flows back down the feed line and is subjected
> to the normal feed line loss. It then is "reflected" back toward the
> antenna, again subject to the feed line loss, where some of it is
> radiated and some reflected again.
> This continues until the power is dissipated. The book "Reflections"
>   has a very good but somewhat technical explanation.
> Therein also is the reference to forgetting about striving for the
> "Holy Grail" of 1:1 SWR.
> And concentrating on getting it low enough that the transmitter will
> supply full power output. Also using the best low loss feed line and
> proper matching when possible of the feed line to the antenna.
>
> Dr. Don W4BWS
>
> God Bless All
> Ham Radio does not make the world go round.
> Ham Radio is what makes the ride worthwhile.
>
>
> On Tue, Apr 9, 2019 at 6:43 PM Roy Koeppe <[hidden email]> wrote:
>
>> "...Let's allow the reflected power to increase all the way to <gasp> 10
>> watts! At that point, your SWR would be about 2 to 1. Sounds pretty bad,
>> but
>> surely if you were stranded in the desert and had to use your KX3 and a
>> wire
>> to get help, you'd be happy to have a match this good...(etc.)"
>>
>>
>>  From memory now, at 2 to 1...feedline voltage nodes and current nodes can
>> double -- no small thing when power is 1500 watts; can stress antenna
>> system
>> components.
>>
>> 73,   Roy    K6XK
>>
>>
>> ______________________________________________________________
>> Elecraft mailing list
>> Home: http://mailman.qth.net/mailman/listinfo/elecraft
>> Help: http://mailman.qth.net/mmfaq.htm
>> Post: mailto:[hidden email]
>>
>> This list hosted by: http://www.qsl.net
>> Please help support this email list: http://www.qsl.net/donate.html
>>
> ______________________________________________________________
> Elecraft mailing list
> Home: http://mailman.qth.net/mailman/listinfo/elecraft
> Help: http://mailman.qth.net/mmfaq.htm
> Post: mailto:[hidden email]
>
> This list hosted by: http://www.qsl.net
> Please help support this email list: http://www.qsl.net/donate.html
>

> I agree except that even at 500KW a 2:1 or greater is the norm with open wire line.
>
> Sent from my iPhone
>
>> On Apr 9, 2019, at 19:10, Fred Jensen <[hidden email]> wrote:
>>
>> Well, the reflected power is created by a "virtual transmitter" at the feedpoint of the antenna and heads down the coax which has a surge impedance of Z0 ohms.  It meets the SO-239 at the TX and sees an impedance of Z1, the impedance presented by the PA and output filters.  If Z1=Z0, the power is dissipated as heat in the PA and associated RF circuitry.  If Z1<>Z0, some is dissipated and some is reflected, where some is radiated, and some is reflected [virtual transmitter again].  Ad infinitum, and when forever is over, it is all gone and everyone lives happily ever after.
>>
>> SWR and all the associated measuring equipment and concern with it only became an issue when: 1) Coax replaced parallel lines and; 2) Resonant output circuits were replaced by solid state amplifiers with non-resonant filters.  When I sat for the Extra in early 1956, the only question that involved standing waves was one about how Lecher Lines could be used to measure transmitter frequency.
>>
>> It's important today but calculating it hasn't changed.  At 10 W, a 2:1 SWR will probably work ok.  At 1500 W, a solid state amplifier may not be happy with the voltages developed at its output connector.
>>
>> 73,
>> Fred ["Skip"] K6DGW
>> Sparks NV DM09dn
>> Washoe County
>>

> Or 10:1 or even 20:1.  However ... there's always a "however" or a "but"
> ... it doesn't matter.  The dielectric constant of air [the insulator
> between open wire conductors] is very close to 1 whereas it is much
> larger for various forms of coax.  Very high SWR creates very high
> voltages along the line.  The energy storage with high dielectric
> constants is much higher than with air, and dielectric losses go up
> dramatically.  In prehistoric times when we used vacuum tubes and
> resonant tank circuits, we coupled power to the line with a 2-3 turn
> link coil adjacent or in the middle of the resonant tank.
>
> If the line exhibited reactance, it detuned the tank which we just
> retuned to resonance ["Dip the plate, increase the coupling, repeat"].
> The PA tank circuit became a thoroughly mis-named "antenna tuner."  It
> didn't matter what the SWR was on the open wire transmission line, and
> in fact no one paid any attention to it.  Then flexible coaxial cable
> was invented.  It was much more convenient than open wire line, however
> in reasonable physical sizes, it had very low characteristic [surge]
> impedances ... 50 and 75 ohm impedances were the result and now, SWR
> mattered.  The dielectric constant inside the cable was very much
> higher, and the higher voltages from high SWR resulted in much higher
> dielectric losses.
>
> Then, someone invented the Pi-network [for all of you with fingers
> poised over the keyboard to pounce on my description of history, relax
> and breath deeply.  I'm making some of the non-technical stuff up to
> help hold your attention].  The Pi-network would transform the 50 or 75
> ohm impedance at the end of the coax to the several thousand ohm plate
> circuit impedance of the PA stage and power would flow to the antenna
> unimpeded.  It was at this point that sales of SWR indicators soared,
> SWR became a household abbreviation in the ham community, and an SWR of
> 1.000:1 became the Nirvana of ham radio.  It has been thus ever since.
>
> As electronics progressed [?] from the vacuous to the solid state, SWR
> took on an enhanced importance since the solid state was far less
> tolerant of overvoltage and energy dissipation than the 807's, 813's,
> and 250TH's of the previous era.  The resonant tank circuit faded,
> amplifiers now feed non-resonant filter networks and expect to see a
> 50+j0 ohm load ... or else!  This made open wire transmission lines much
> more difficult to use, requiring some way to adapt a PL259 to connect
> them to the radio which is both mechanically and electrically hard, and
> sparked the incorporation of "SWR Alarms" into our radios.  It also
> spawned the "balun," a mysterious device that may be of alien origin
> since no one seems to know exactly what it does or how it does it.
>
> I hope this helps. [:-)
>
> 73,
> Fred ["Skip"] K6DGW
> ex KN6DGW 1953
> Sparks NV DM09dn
> Washoe County
>
> On 4/9/2019 7:21 PM, W2xj wrote:
>> I agree except that even at 500KW a 2:1 or greater is the norm with
>> open wire line.
>>
>> Sent from my iPhone
>>
>>> On Apr 9, 2019, at 19:10, Fred Jensen <[hidden email]> wrote:
>>>
>>> Well, the reflected power is created by a "virtual transmitter" at
>>> the feedpoint of the antenna and heads down the coax which has a
>>> surge impedance of Z0 ohms.  It meets the SO-239 at the TX and sees
>>> an impedance of Z1, the impedance presented by the PA and output
>>> filters.  If Z1=Z0, the power is dissipated as heat in the PA and
>>> associated RF circuitry.  If Z1<>Z0, some is dissipated and some is
>>> reflected, where some is radiated, and some is reflected [virtual
>>> transmitter again].  Ad infinitum, and when forever is over, it is
>>> all gone and everyone lives happily ever after.
>>>
>>> SWR and all the associated measuring equipment and concern with it
>>> only became an issue when: 1) Coax replaced parallel lines and; 2)
>>> Resonant output circuits were replaced by solid state amplifiers with
>>> non-resonant filters.  When I sat for the Extra in early 1956, the
>>> only question that involved standing waves was one about how Lecher
>>> Lines could be used to measure transmitter frequency.
>>>
>>> It's important today but calculating it hasn't changed.  At 10 W, a
>>> 2:1 SWR will probably work ok.  At 1500 W, a solid state amplifier
>>> may not be happy with the voltages developed at its output connector.
>>>
>>> 73,
>>> Fred ["Skip"] K6DGW
>>> Sparks NV DM09dn
>>> Washoe County
>>>
>
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> Hummmm.......see: http://www.dj0ip.de/balun-stuff/
>
> I seem to think this fellow has a good grasp about the "alien origin"
> of baluns.
>
> 73
> Bob, K4TAX
>
>
> On 4/10/2019 12:23 PM, Fred Jensen wrote:
>> It also spawned the "balun," a mysterious device that may be of alien
>> origin since no one seems to know exactly what it does or how it does
>> it.
>

> It was a feeble attempt at humor, given the nearly countable infinity of
> posts here on baluns over the last few years including but not limited
> to what they are, what they aren't, how they work, do they even work?,
> and do they even exist at all.  Perhaps my attempt was more feeble than
> I thought. [:-) And, yes I know that "near infinity" is meaningless.
>
> 73,
> Fred ["Skip"] K6DGW
> Sparks NV DM09dn
> Washoe County
>
> On 4/10/2019 11:13 AM, Bob McGraw K4TAX wrote:
> > Hummmm.......see: http://www.dj0ip.de/balun-stuff/
> >
> > I seem to think this fellow has a good grasp about the "alien origin"
> > of baluns.
> >
> > 73
> > Bob, K4TAX
> >
> >
> > On 4/10/2019 12:23 PM, Fred Jensen wrote:
> >> It also spawned the "balun," a mysterious device that may be of alien
> >> origin since no one seems to know exactly what it does or how it does
> >> it.
> >
>
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