XG3 device...

>      The more I
> have glanced through the specs for this device, the more
> puzzled I have become. I grew up on signal generators that
> put out a
> (good approximation to a) sine wave. This device is
> described as an RF
> "square wave" generator, which I take to mean that the
> output wave shape
> is a trapezoid with very fast rise and fall times. As
> everyone knows,
> the harmonic content of an ideal square wave falls off as
> 1/N. In other
> words, this device is a harmonic generator, par excellence,
> very rich in
> harmonic content. To get a sine wave, one has to run it
> through a
> bandpass filter. In this case, the bandpass filter is the
> receiver to
> which you connect it.
>
>      So there are two questions.
>
> 1. What is the "frequency?" This term usually refers to a
> sinusoid, in
> which case the answer is trivial. Presumably the
> "frequency" meant here
> is the fundamental component of the "square" wave, but the
> true answer
> depends on the shape of the on/off switching, which
> presumably depends
> on the "frequency" one has dialed into the device. Is one
> getting more
> or less a 1/N dependence on amplitude at all frequencies?
>
> 2. When one refers to the calibrated "levels" of output, is
> one
> referring to the level of the square wave or of its
> fundamental
> sinusoidal component? Clearly, these are related...but
> which is meant?
> What about the high frequency end of the operating range,
> where the
> spectrum may well depart substantially from 1/N (because
> the trapezoid's
> edges are less "sharp").
>
> Neither of these questions has anything to do with the
> "phase noise"
> specification.
>
> John Ragle -- W1ZI
> ______________________________

> On Thu, Apr 14, 2011 at 10:32 AM, Ron D'Eau Claire <[hidden email]> wrote:
>
> > A square wave's frequency....
> >
> >
> >
> Ron, I think John is aksing about the calibrated power (John, correct me
> if I'm mis-stating here). If there are infinite harmonics each
> with amplitude = 1/N, then 1/2 of the total energy will be at the
> fundamental freqency, and 1/2 will be in the sum of all the higher
> harmonics.  So if you say that the output is, say, 1 mW and the frequency
> is
> 1 MHz, does that mean that there is 1mW of output at 1 MHz and another 1 mW
> of output in the harmonics? or what?
>
> Tony KT0NY
> ______________________________________________________________
> 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
>

> The more I have glanced through the specs for this device, the more
> puzzled I have become. I grew up on signal generators that put out a
> (good approximation to a) sine wave. This device is described as an RF
> "square wave" generator, which I take to mean that the output wave shape
> is a trapezoid with very fast rise and fall times. As everyone knows,
> the harmonic content of an ideal square wave falls off as 1/N. In other
> words, this device is a harmonic generator, par excellence, very rich in
> harmonic content. To get a sine wave, one has to run it through a
> bandpass filter. In this case, the bandpass filter is the receiver to
> which you connect it.
>
>      So there are two questions.
>
> 1. What is the "frequency?" This term usually refers to a sinusoid, in
> which case the answer is trivial. Presumably the "frequency" meant here
> is the fundamental component of the "square" wave, but the true answer
> depends on the shape of the on/off switching, which presumably depends
> on the "frequency" one has dialed into the device. Is one getting more
> or less a 1/N dependence on amplitude at all frequencies?
>
> 2. When one refers to the calibrated "levels" of output, is one
> referring to the level of the square wave or of its fundamental
> sinusoidal component? Clearly, these are related...but which is meant?
> What about the high frequency end of the operating range, where the
> spectrum may well depart substantially from 1/N (because the trapezoid's
> edges are less "sharp").
>
> Neither of these questions has anything to do with the "phase noise"
> specification.
>
> John Ragle -- W1ZI
> ______________________________________________________________
> 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
>

> Question 1:  The frequency is based on the period of the square wave, in
> other words, the frequency of the fundamental.  If you program a
> frequency greater than the maximum 200 MHz, software automatically
> selects the proper fundamental so that the harmonic comes out at the
> desired frequency.
>
> Question 2:  I wasn't one of the XG3 designers, but my understanding is
> that the amplitude is that of the fundamental (the sine-wave portion)
> and does not include the harmonics.  When you are operating on a
> harmonic, the amplitude is uncalibrated.  Although theoretically the
> third harmonic is 1/3 the amplitude (-9.5 dB) and the fifth is 1/5 the
> amplitude (-14 dB) it is not very accurate because of the finite
> rise/fall times of the square wave.
>
> For most things you use a signal generator for, the harmonics don't hurt
> anything - they are filtered out by the receiver or other device under
> test.  Even expensive professional signal generators typically only
> specify 30 or 40 dB harmonic suppression.
>
> Alan N1AL

> Question 1:  The frequency is based on the period of the square wave, in
> other words, the frequency of the fundamental.  If you program a
> frequency greater than the maximum 200 MHz, software automatically
> selects the proper fundamental so that the harmonic comes out at the
> desired frequency.
>
> Question 2:  I wasn't one of the XG3 designers, but my understanding is
> that the amplitude is that of the fundamental (the sine-wave portion)
> and does not include the harmonics.  When you are operating on a
> harmonic, the amplitude is uncalibrated.  Although theoretically the
> third harmonic is 1/3 the amplitude (-9.5 dB) and the fifth is 1/5 the
> amplitude (-14 dB) it is not very accurate because of the finite
> rise/fall times of the square wave.
>
> For most things you use a signal generator for, the harmonics don't hurt
> anything - they are filtered out by the receiver or other device under
> test.  Even expensive professional signal generators typically only
> specify 30 or 40 dB harmonic suppression.
>
> Alan N1AL
>
>
> On Thu, 2011-04-14 at 04:14 -0400, John Ragle wrote:
>> The more I have glanced through the specs for this device, the more
>> puzzled I have become. I grew up on signal generators that put out a
>> (good approximation to a) sine wave. This device is described as an RF
>> "square wave" generator, which I take to mean that the output wave shape
>> is a trapezoid with very fast rise and fall times. As everyone knows,
>> the harmonic content of an ideal square wave falls off as 1/N. In other
>> words, this device is a harmonic generator, par excellence, very rich in
>> harmonic content. To get a sine wave, one has to run it through a
>> bandpass filter. In this case, the bandpass filter is the receiver to
>> which you connect it.
>>
>>       So there are two questions.
>>
>> 1. What is the "frequency?" This term usually refers to a sinusoid, in
>> which case the answer is trivial. Presumably the "frequency" meant here
>> is the fundamental component of the "square" wave, but the true answer
>> depends on the shape of the on/off switching, which presumably depends
>> on the "frequency" one has dialed into the device. Is one getting more
>> or less a 1/N dependence on amplitude at all frequencies?
>>
>> 2. When one refers to the calibrated "levels" of output, is one
>> referring to the level of the square wave or of its fundamental
>> sinusoidal component? Clearly, these are related...but which is meant?
>> What about the high frequency end of the operating range, where the
>> spectrum may well depart substantially from 1/N (because the trapezoid's
>> edges are less "sharp").
>>
>> Neither of these questions has anything to do with the "phase noise"
>> specification.
>>
>> John Ragle -- W1ZI
>> ______________________________________________________________
>> 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
>

> Alan:
>
> One are where a square wave RF source can get you into trouble is 2nd
> and 3rd order intermodulation measurements.
>
> Mini-Circuits Ap Note 00008 discusses the reason why.
> http://www.minicircuits.com/pages/pdfs/AN00008.pdf
>
> I usually use an outboard low pass filter on my HP 8657A signal
> generators when making IMD measurements of high performance amplifiers,
> and it's not a bad idea even with HP 8640B generators which are 60 dB+
> down on the harmonics.
>
> As far as a low pass filter goes, CoilCraft has some very inexpensive
> ($3 range) 7th order elliptical low pass filter modules, the P7LP
> series, with cutoff frequencies from 300 KHz to 500 MHz.
> http://www.coilcraft.com/pdfs/lcfilt.pdf These are perfectly fine for
> output filtering of a single generator, but should not be used with
> multiple signals as they can themselves be intermod generators. I use
> them here for various  tasks including signal generator clean up.
>
> If anyone is interested, I have a few extra printed circuit boards with
> provisions for PCB-mount BNC connectors and a P7LP filter and can make
> them available at a reasonable price (PCB only, you supply the
> connectors and filter modules). Usual double sided, silk screen, solder
> masked boards. I have installed a socket strip in one as an experiment
> so that one might just plug in the appropriate filter, but that's not a
> great idea as the filter modules are not all that mechanically robust
> and the extra lead inductance from the socket degrades stop band
> performance at higher frequencies. I can send a photo of the board to
> anyone interested.
>
> Jack K8ZOA
>
>
>
>
>
>
> On 4/14/2011 2:26 PM, Alan Bloom wrote:
> > Question 1:  The frequency is based on the period of the square wave, in
> > other words, the frequency of the fundamental.  If you program a
> > frequency greater than the maximum 200 MHz, software automatically
> > selects the proper fundamental so that the harmonic comes out at the
> > desired frequency.
> >
> > Question 2:  I wasn't one of the XG3 designers, but my understanding is
> > that the amplitude is that of the fundamental (the sine-wave portion)
> > and does not include the harmonics.  When you are operating on a
> > harmonic, the amplitude is uncalibrated.  Although theoretically the
> > third harmonic is 1/3 the amplitude (-9.5 dB) and the fifth is 1/5 the
> > amplitude (-14 dB) it is not very accurate because of the finite
> > rise/fall times of the square wave.
> >
> > For most things you use a signal generator for, the harmonics don't hurt
> > anything - they are filtered out by the receiver or other device under
> > test.  Even expensive professional signal generators typically only
> > specify 30 or 40 dB harmonic suppression.
> >
> > Alan N1AL
> >
> >
> > On Thu, 2011-04-14 at 04:14 -0400, John Ragle wrote:
> >> The more I have glanced through the specs for this device, the more
> >> puzzled I have become. I grew up on signal generators that put out a
> >> (good approximation to a) sine wave. This device is described as an RF
> >> "square wave" generator, which I take to mean that the output wave shape
> >> is a trapezoid with very fast rise and fall times. As everyone knows,
> >> the harmonic content of an ideal square wave falls off as 1/N. In other
> >> words, this device is a harmonic generator, par excellence, very rich in
> >> harmonic content. To get a sine wave, one has to run it through a
> >> bandpass filter. In this case, the bandpass filter is the receiver to
> >> which you connect it.
> >>
> >>       So there are two questions.
> >>
> >> 1. What is the "frequency?" This term usually refers to a sinusoid, in
> >> which case the answer is trivial. Presumably the "frequency" meant here
> >> is the fundamental component of the "square" wave, but the true answer
> >> depends on the shape of the on/off switching, which presumably depends
> >> on the "frequency" one has dialed into the device. Is one getting more
> >> or less a 1/N dependence on amplitude at all frequencies?
> >>
> >> 2. When one refers to the calibrated "levels" of output, is one
> >> referring to the level of the square wave or of its fundamental
> >> sinusoidal component? Clearly, these are related...but which is meant?
> >> What about the high frequency end of the operating range, where the
> >> spectrum may well depart substantially from 1/N (because the trapezoid's
> >> edges are less "sharp").
> >>
> >> Neither of these questions has anything to do with the "phase noise"
> >> specification.
> >>
> >> John Ragle -- W1ZI
> >> ______________________________________________________________
> >> 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
> >
> ______________________________________________________________
> 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
>

> Hi Jack,
>
> You're right that when testing a wide-band device like an amplifier you
> have to filter out the generator harmonics in order to get a valid
> third-order IMD test.  But when testing a narrow-band device like a
> receiver the harmonics are normally not an issue.
>
> Those Coilcraft low-pass filters look very nice, especially for he
> price.  Where can you buy them?
>
> Alan N1AL
>
>
> On Thu, 2011-04-14 at 16:54 -0400, Jack Smith wrote:
>> Alan:
>>
>> One are where a square wave RF source can get you into trouble is 2nd
>> and 3rd order intermodulation measurements.
>>
>> Mini-Circuits Ap Note 00008 discusses the reason why.
>> http://www.minicircuits.com/pages/pdfs/AN00008.pdf
>>
>> I usually use an outboard low pass filter on my HP 8657A signal
>> generators when making IMD measurements of high performance amplifiers,
>> and it's not a bad idea even with HP 8640B generators which are 60 dB+
>> down on the harmonics.
>>
>> As far as a low pass filter goes, CoilCraft has some very inexpensive
>> ($3 range) 7th order elliptical low pass filter modules, the P7LP
>> series, with cutoff frequencies from 300 KHz to 500 MHz.
>> http://www.coilcraft.com/pdfs/lcfilt.pdf These are perfectly fine for
>> output filtering of a single generator, but should not be used with
>> multiple signals as they can themselves be intermod generators. I use
>> them here for various  tasks including signal generator clean up.
>>
>> If anyone is interested, I have a few extra printed circuit boards with
>> provisions for PCB-mount BNC connectors and a P7LP filter and can make
>> them available at a reasonable price (PCB only, you supply the
>> connectors and filter modules). Usual double sided, silk screen, solder
>> masked boards. I have installed a socket strip in one as an experiment
>> so that one might just plug in the appropriate filter, but that's not a
>> great idea as the filter modules are not all that mechanically robust
>> and the extra lead inductance from the socket degrades stop band
>> performance at higher frequencies. I can send a photo of the board to
>> anyone interested.
>>
>> Jack K8ZOA
>>
>>
>>
>>
>>
>>
>> On 4/14/2011 2:26 PM, Alan Bloom wrote:
>>> Question 1:  The frequency is based on the period of the square wave, in
>>> other words, the frequency of the fundamental.  If you program a
>>> frequency greater than the maximum 200 MHz, software automatically
>>> selects the proper fundamental so that the harmonic comes out at the
>>> desired frequency.
>>>
>>> Question 2:  I wasn't one of the XG3 designers, but my understanding is
>>> that the amplitude is that of the fundamental (the sine-wave portion)
>>> and does not include the harmonics.  When you are operating on a
>>> harmonic, the amplitude is uncalibrated.  Although theoretically the
>>> third harmonic is 1/3 the amplitude (-9.5 dB) and the fifth is 1/5 the
>>> amplitude (-14 dB) it is not very accurate because of the finite
>>> rise/fall times of the square wave.
>>>
>>> For most things you use a signal generator for, the harmonics don't hurt
>>> anything - they are filtered out by the receiver or other device under
>>> test.  Even expensive professional signal generators typically only
>>> specify 30 or 40 dB harmonic suppression.
>>>
>>> Alan N1AL
>>>
>>>
>>> On Thu, 2011-04-14 at 04:14 -0400, John Ragle wrote:
>>>> The more I have glanced through the specs for this device, the more
>>>> puzzled I have become. I grew up on signal generators that put out a
>>>> (good approximation to a) sine wave. This device is described as an RF
>>>> "square wave" generator, which I take to mean that the output wave shape
>>>> is a trapezoid with very fast rise and fall times. As everyone knows,
>>>> the harmonic content of an ideal square wave falls off as 1/N. In other
>>>> words, this device is a harmonic generator, par excellence, very rich in
>>>> harmonic content. To get a sine wave, one has to run it through a
>>>> bandpass filter. In this case, the bandpass filter is the receiver to
>>>> which you connect it.
>>>>
>>>>        So there are two questions.
>>>>
>>>> 1. What is the "frequency?" This term usually refers to a sinusoid, in
>>>> which case the answer is trivial. Presumably the "frequency" meant here
>>>> is the fundamental component of the "square" wave, but the true answer
>>>> depends on the shape of the on/off switching, which presumably depends
>>>> on the "frequency" one has dialed into the device. Is one getting more
>>>> or less a 1/N dependence on amplitude at all frequencies?
>>>>
>>>> 2. When one refers to the calibrated "levels" of output, is one
>>>> referring to the level of the square wave or of its fundamental
>>>> sinusoidal component? Clearly, these are related...but which is meant?
>>>> What about the high frequency end of the operating range, where the
>>>> spectrum may well depart substantially from 1/N (because the trapezoid's
>>>> edges are less "sharp").
>>>>
>>>> Neither of these questions has anything to do with the "phase noise"
>>>> specification.
>>>>
>>>> John Ragle -- W1ZI
>>>> ______________________________________________________________
>>>> 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
>>>
>> ______________________________________________________________
>> 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
>>
>
>

> Hi Jack,
>
> You're right that when testing a wide-band device like an amplifier you
> have to filter out the generator harmonics in order to get a valid
> third-order IMD test.  But when testing a narrow-band device like a
> receiver the harmonics are normally not an issue.
>
> Those Coilcraft low-pass filters look very nice, especially for he
> price.  Where can you buy them?
>
> Alan N1AL
>
>
> On Thu, 2011-04-14 at 16:54 -0400, Jack Smith wrote:
>> Alan:
>>
>> One are where a square wave RF source can get you into trouble is 2nd
>> and 3rd order intermodulation measurements.
>>
>> Mini-Circuits Ap Note 00008 discusses the reason why.
>> http://www.minicircuits.com/pages/pdfs/AN00008.pdf
>>
>> I usually use an outboard low pass filter on my HP 8657A signal
>> generators when making IMD measurements of high performance amplifiers,
>> and it's not a bad idea even with HP 8640B generators which are 60 dB+
>> down on the harmonics.
>>
>> As far as a low pass filter goes, CoilCraft has some very inexpensive
>> ($3 range) 7th order elliptical low pass filter modules, the P7LP
>> series, with cutoff frequencies from 300 KHz to 500 MHz.
>> http://www.coilcraft.com/pdfs/lcfilt.pdf These are perfectly fine for
>> output filtering of a single generator, but should not be used with
>> multiple signals as they can themselves be intermod generators. I use
>> them here for various  tasks including signal generator clean up.
>>
>> If anyone is interested, I have a few extra printed circuit boards with
>> provisions for PCB-mount BNC connectors and a P7LP filter and can make
>> them available at a reasonable price (PCB only, you supply the
>> connectors and filter modules). Usual double sided, silk screen, solder
>> masked boards. I have installed a socket strip in one as an experiment
>> so that one might just plug in the appropriate filter, but that's not a
>> great idea as the filter modules are not all that mechanically robust
>> and the extra lead inductance from the socket degrades stop band
>> performance at higher frequencies. I can send a photo of the board to
>> anyone interested.
>>
>> Jack K8ZOA

> Hi Al,
>
> You did say "normally not an issue", but when making even or odd order
> intermodulation measurements on a receiver the use of RF sources whose
> harmonic content is significant can and usually will lead to invalid
> results.
>
> 73,
> Geoff
> GM4ESD
>
>
> On April 14, 2011 at 22:58 +0100, Alan Bloom wrote:
>
> > Hi Jack,
> >
> > You're right that when testing a wide-band device like an amplifier you
> > have to filter out the generator harmonics in order to get a valid
> > third-order IMD test.  But when testing a narrow-band device like a
> > receiver the harmonics are normally not an issue.
> >
> > Those Coilcraft low-pass filters look very nice, especially for he
> > price.  Where can you buy them?
> >
> > Alan N1AL
> >
> >
> > On Thu, 2011-04-14 at 16:54 -0400, Jack Smith wrote:
> >> Alan:
> >>
> >> One are where a square wave RF source can get you into trouble is 2nd
> >> and 3rd order intermodulation measurements.
> >>
> >> Mini-Circuits Ap Note 00008 discusses the reason why.
> >> http://www.minicircuits.com/pages/pdfs/AN00008.pdf
> >>
> >> I usually use an outboard low pass filter on my HP 8657A signal
> >> generators when making IMD measurements of high performance amplifiers,
> >> and it's not a bad idea even with HP 8640B generators which are 60 dB+
> >> down on the harmonics.
> >>
> >> As far as a low pass filter goes, CoilCraft has some very inexpensive
> >> ($3 range) 7th order elliptical low pass filter modules, the P7LP
> >> series, with cutoff frequencies from 300 KHz to 500 MHz.
> >> http://www.coilcraft.com/pdfs/lcfilt.pdf These are perfectly fine for
> >> output filtering of a single generator, but should not be used with
> >> multiple signals as they can themselves be intermod generators. I use
> >> them here for various  tasks including signal generator clean up.
> >>
> >> If anyone is interested, I have a few extra printed circuit boards with
> >> provisions for PCB-mount BNC connectors and a P7LP filter and can make
> >> them available at a reasonable price (PCB only, you supply the
> >> connectors and filter modules). Usual double sided, silk screen, solder
> >> masked boards. I have installed a socket strip in one as an experiment
> >> so that one might just plug in the appropriate filter, but that's not a
> >> great idea as the filter modules are not all that mechanically robust
> >> and the extra lead inductance from the socket degrades stop band
> >> performance at higher frequencies. I can send a photo of the board to
> >> anyone interested.
> >>
> >> Jack K8ZOA
>
>
>
>

> Hi Geoff,
>
> Most receivers have bandpass and/or low-pass filters in the front end
> that would filter out the harmonics of a square-wave test signal.  I
> could dream up some unusual situations where the harmonics could cause a
> problem, but normally it would not be an issue.
>
> Alan N1AL
>
>
> On Fri, 2011-04-15 at 00:37 +0100, Geoffrey Mackenzie-Kennedy wrote:
>> Hi Al,
>>
>> You did say "normally not an issue", but when making even or odd order
>> intermodulation measurements on a receiver the use of RF sources whose
>> harmonic content is significant can and usually will lead to invalid
>> results.
>>
>> 73,
>> Geoff
>> GM4ESD
>>
>>
>> On April 14, 2011 at 22:58 +0100, Alan Bloom wrote:
>>
>> > Hi Jack,
>> >
>> > You're right that when testing a wide-band device like an amplifier you
>> > have to filter out the generator harmonics in order to get a valid
>> > third-order IMD test.  But when testing a narrow-band device like a
>> > receiver the harmonics are normally not an issue.
>> >
>> > Those Coilcraft low-pass filters look very nice, especially for he
>> > price.  Where can you buy them?
>> >
>> > Alan N1AL

> Hi Alan,
>
> Indeed, most receivers do have some form of filter "up front" in the front
> end, and therein lies one source of IMD measurement error if harmonics are
> present in the applied test signals.
>
> While the MiniCircuits application note AN-00-008 which Jack mentioned
> points out that harmonics present in the applied test signals are a
> potential source of error when measuring the IMD performance of a device
> such as a mixer, for the same reasons error can be introduced by a
> receiver's input filter(s). So it is essential that "clean" sources are used
> when testing a receiver.
>
> 73,
> Geoff
> GM4ESD
>
>
> On April 15, 2011 at 04:26 +0100, Alan Bloom wrote:
>
> > Hi Geoff,
> >
> > Most receivers have bandpass and/or low-pass filters in the front end
> > that would filter out the harmonics of a square-wave test signal.  I
> > could dream up some unusual situations where the harmonics could cause a
> > problem, but normally it would not be an issue.
> >
> > Alan N1AL
> >
> >
> > On Fri, 2011-04-15 at 00:37 +0100, Geoffrey Mackenzie-Kennedy wrote:
> >> Hi Al,
> >>
> >> You did say "normally not an issue", but when making even or odd order
> >> intermodulation measurements on a receiver the use of RF sources whose
> >> harmonic content is significant can and usually will lead to invalid
> >> results.
> >>
> >> 73,
> >> Geoff
> >> GM4ESD
> >>
> >>
> >> On April 14, 2011 at 22:58 +0100, Alan Bloom wrote:
> >>
> >> > Hi Jack,
> >> >
> >> > You're right that when testing a wide-band device like an amplifier you
> >> > have to filter out the generator harmonics in order to get a valid
> >> > third-order IMD test.  But when testing a narrow-band device like a
> >> > receiver the harmonics are normally not an issue.
> >> >
> >> > Those Coilcraft low-pass filters look very nice, especially for he
> >> > price.  Where can you buy them?
> >> >
> >> > Alan N1AL
>
>
>

> Hi Geoff,
>
> I guess I don't understand.  Filters are linear devices.  How can they
> cause IMD?  If the signal generator's harmonics are removed by the
> receiver filters then it is the same as if the sig gen were "clean", no?
>
> 73,
>
> Alan N1AL
>
>
> On Fri, 2011-04-15 at 11:54 +0100, Geoffrey Mackenzie-Kennedy wrote:
>> Hi Alan,
>>
>> Indeed, most receivers do have some form of filter "up front" in the front
>> end, and therein lies one source of IMD measurement error if harmonics are
>> present in the applied test signals.
>>
>> While the MiniCircuits application note AN-00-008 which Jack mentioned
>> points out that harmonics present in the applied test signals are a
>> potential source of error when measuring the IMD performance of a device
>> such as a mixer, for the same reasons error can be introduced by a
>> receiver's input filter(s). So it is essential that "clean" sources are used
>> when testing a receiver.
>>
>> 73,
>> Geoff
>> GM4ESD
>>
>>
>> On April 15, 2011 at 04:26 +0100, Alan Bloom wrote:
>>
>>> Hi Geoff,
>>>
>>> Most receivers have bandpass and/or low-pass filters in the front end
>>> that would filter out the harmonics of a square-wave test signal.  I
>>> could dream up some unusual situations where the harmonics could cause a
>>> problem, but normally it would not be an issue.
>>>
>>> Alan N1AL
>>>
>>>
>>> On Fri, 2011-04-15 at 00:37 +0100, Geoffrey Mackenzie-Kennedy wrote:
>>>> Hi Al,
>>>>
>>>> You did say "normally not an issue", but when making even or odd order
>>>> intermodulation measurements on a receiver the use of RF sources whose
>>>> harmonic content is significant can and usually will lead to invalid
>>>> results.
>>>>
>>>> 73,
>>>> Geoff
>>>> GM4ESD
>>>>
>>>>
>>>> On April 14, 2011 at 22:58 +0100, Alan Bloom wrote:
>>>>
>>>>> Hi Jack,
>>>>>
>>>>> You're right that when testing a wide-band device like an amplifier you
>>>>> have to filter out the generator harmonics in order to get a valid
>>>>> third-order IMD test.  But when testing a narrow-band device like a
>>>>> receiver the harmonics are normally not an issue.
>>>>>
>>>>> Those Coilcraft low-pass filters look very nice, especially for he
>>>>> price.  Where can you buy them?
>>>>>
>>>>> Alan N1AL
>>
>>
>
> ______________________________________________________________
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>
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>

> Only to a first approximation are filters linear.
>
> Usually the major source of non-linearity is in the inductors. Even
> powdered iron is non-linear to some degree. Ferrite is worse, of course.
> Air is pretty close to perfect.
>
> Capacitors are also non-linear at some level, as C is not constant with
> applied voltage. NP0/C0G caps are very good, but again not perfect.
>
> Filter generated intermodulation problems are real and measurable.  Been
> there and done that and have the Tee-shirt.
>
> Jack K8ZOA
>
>
> On 4/15/2011 1:01 PM, Alan Bloom wrote:
>> Hi Geoff,
>>
>> I guess I don't understand.  Filters are linear devices.  How can they
>> cause IMD?  If the signal generator's harmonics are removed by the
>> receiver filters then it is the same as if the sig gen were "clean", no?
>>
>> 73,
>>
>> Alan N1AL
>>
>>
>> On Fri, 2011-04-15 at 11:54 +0100, Geoffrey Mackenzie-Kennedy wrote:
>>> Hi Alan,
>>>
>>> Indeed, most receivers do have some form of filter "up front" in the front
>>> end, and therein lies one source of IMD measurement error if harmonics are
>>> present in the applied test signals.
>>>
>>> While the MiniCircuits application note AN-00-008 which Jack mentioned
>>> points out that harmonics present in the applied test signals are a
>>> potential source of error when measuring the IMD performance of a device
>>> such as a mixer, for the same reasons error can be introduced by a
>>> receiver's input filter(s). So it is essential that "clean" sources are used
>>> when testing a receiver.
>>>
>>> 73,
>>> Geoff
>>> GM4ESD
>>>
>>>
>>> On April 15, 2011 at 04:26 +0100, Alan Bloom wrote:
>>>
>>>> Hi Geoff,
>>>>
>>>> Most receivers have bandpass and/or low-pass filters in the front end
>>>> that would filter out the harmonics of a square-wave test signal.  I
>>>> could dream up some unusual situations where the harmonics could cause a
>>>> problem, but normally it would not be an issue.
>>>>
>>>> Alan N1AL
>>>>
>>>>
>>>> On Fri, 2011-04-15 at 00:37 +0100, Geoffrey Mackenzie-Kennedy wrote:
>>>>> Hi Al,
>>>>>
>>>>> You did say "normally not an issue", but when making even or odd order
>>>>> intermodulation measurements on a receiver the use of RF sources whose
>>>>> harmonic content is significant can and usually will lead to invalid
>>>>> results.
>>>>>
>>>>> 73,
>>>>> Geoff
>>>>> GM4ESD
>>>>>
>>>>>
>>>>> On April 14, 2011 at 22:58 +0100, Alan Bloom wrote:
>>>>>
>>>>>> Hi Jack,
>>>>>>
>>>>>> You're right that when testing a wide-band device like an amplifier you
>>>>>> have to filter out the generator harmonics in order to get a valid
>>>>>> third-order IMD test.  But when testing a narrow-band device like a
>>>>>> receiver the harmonics are normally not an issue.
>>>>>>
>>>>>> Those Coilcraft low-pass filters look very nice, especially for he
>>>>>> price.  Where can you buy them?
>>>>>>
>>>>>> Alan N1AL
>>>
>>>
>>
>> ______________________________________________________________
>> 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
>

> Only to a first approximation are filters linear.
>
> Usually the major source of non-linearity is in the inductors. Even
> powdered iron is non-linear to some degree. Ferrite is worse, of
> course. Air is pretty close to perfect.
>
> Capacitors are also non-linear at some level, as C is not constant
> with applied voltage. NP0/C0G caps are very good, but again not
> perfect.
>
> Filter generated intermodulation problems are real and measurable.
> Been there and done that and have the Tee-shirt.
>
> Jack K8ZOA
>
>
> On 4/15/2011 1:01 PM, Alan Bloom wrote:
> > Hi Geoff,
> >
> > I guess I don't understand.  Filters are linear devices.  How can they
> > cause IMD?  If the signal generator's harmonics are removed by the
> > receiver filters then it is the same as if the sig gen were "clean", no?
> >
> > 73,
> >
> > Alan N1AL
> >
> >
> > On Fri, 2011-04-15 at 11:54 +0100, Geoffrey Mackenzie-Kennedy wrote:
> > > Hi Alan,
> > >
> > > Indeed, most receivers do have some form of filter "up front" in the front
> > > end, and therein lies one source of IMD measurement error if harmonics are
> > > present in the applied test signals.
> > >
> > > While the MiniCircuits application note AN-00-008 which Jack mentioned
> > > points out that harmonics present in the applied test signals are a
> > > potential source of error when measuring the IMD performance of a device
> > > such as a mixer, for the same reasons error can be introduced by a
> > > receiver's input filter(s). So it is essential that "clean" sources are used
> > > when testing a receiver.
> > >
> > > 73,
> > > Geoff
> > > GM4ESD
> > >
> > >
> > > On April 15, 2011 at 04:26 +0100, Alan Bloom wrote:
> > >
> > > > Hi Geoff,
> > > >
> > > > Most receivers have bandpass and/or low-pass filters in the front end
> > > > that would filter out the harmonics of a square-wave test signal.  I
> > > > could dream up some unusual situations where the harmonics could cause a
> > > > problem, but normally it would not be an issue.
> > > >
> > > > Alan N1AL
> > > >
> > > >
> > > > On Fri, 2011-04-15 at 00:37 +0100, Geoffrey Mackenzie-Kennedy wrote:
> > > > > Hi Al,
> > > > >
> > > > > You did say "normally not an issue", but when making even or odd order
> > > > > intermodulation measurements on a receiver the use of RF sources whose
> > > > > harmonic content is significant can and usually will lead to invalid
> > > > > results.
> > > > >
> > > > > 73,
> > > > > Geoff
> > > > > GM4ESD
> > > > >
> > > > >
> > > > > On April 14, 2011 at 22:58 +0100, Alan Bloom wrote:
> > > > >
> > > > > > Hi Jack,
> > > > > >
> > > > > > You're right that when testing a wide-band device like an amplifier you
> > > > > > have to filter out the generator harmonics in order to get a valid
> > > > > > third-order IMD test.  But when testing a narrow-band device like a
> > > > > > receiver the harmonics are normally not an issue.
> > > > > >
> > > > > > Those Coilcraft low-pass filters look very nice, especially for he
> > > > > > price.  Where can you buy them?
> > > > > >
> > > > > > Alan N1AL
> > >
> > >
> >
> > ______________________________________________________________
> > 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
> >

> Sure, but if the filters are non-linear that's a whole different problem
> that has nothing to do with harmonics in the signal source.
>
> The question was whether signal generator harmonics are normally a
> problem when measuring a receiver.  I claim they are not because they
> are removed by the filters in the receiver front end.
>
> When I was working in the R&D lab of the Hewlett Packard Signal Sources
> division, one of our competitors came out with a new signal generator
> with digital modulation.  The modulation was generated at an IF which
> was heterodyned up to microwave frequencies without any filtering to
> remove the image.  So there was a zero-dB spur X MHz away from the
> desired signal.  They got away with it because it was far enough away to
> be filtered out by the receiver under test.
>
> Alan N1AL
>
>
> On Fri, 2011-04-15 at 13:11 -0400, Jack Smith wrote:
>> Only to a first approximation are filters linear.
>>
>> Usually the major source of non-linearity is in the inductors. Even
>> powdered iron is non-linear to some degree. Ferrite is worse, of
>> course. Air is pretty close to perfect.
>>
>> Capacitors are also non-linear at some level, as C is not constant
>> with applied voltage. NP0/C0G caps are very good, but again not
>> perfect.
>>
>> Filter generated intermodulation problems are real and measurable.
>> Been there and done that and have the Tee-shirt.
>>
>> Jack K8ZOA
>>
>>
>> On 4/15/2011 1:01 PM, Alan Bloom wrote:
>> > Hi Geoff,
>> >
>> > I guess I don't understand.  Filters are linear devices.  How can they
>> > cause IMD?  If the signal generator's harmonics are removed by the
>> > receiver filters then it is the same as if the sig gen were "clean",
>> > no?
>> >
>> > 73,
>> >
>> > Alan N1AL