New K3 SN#207 built but question on AM Filter

>
>
> The basic reason has already been explained, however, there are very few
> cases were exceeding 3kHz audio bandwidth is useful.  HF broadcast
> stations use 5kHz channelling, which would only allow them 2.5kHz with
> brick wall filtering at both transmit and receive ends, although they
> probably do expect to suffer significant adjacent channel interference.
>
> MF broadcast stations use 9kHz channelling in Europe and 10kHz in the
> USA, but I suspect that adjacent channel interference is less
> acceptable.  As they were designed to be received with LC IF filters,
> with poor shape factors, I suspect they don't even make use of the full
> channel, and if they did, they would probably be required to have
> filters which put the adjacent channel into the filter stop band.
>

> I've seen a number of old U.S. broadcast receivers
> with a 10 KHz notch
> filter in the audio to get rid of the high pitched
> hetrodynes from the
> adjacent channels.  But the wide IF sure brightens
> up the music when
> listening to your local honky-tonk station, and
> nobody gave a rip how
> wide their IF was if their music sounded good.
> That's why I was
> hoping for the option of going as wide as I see fit
> when conditions
> allow.  But then who (other than yours truly) would
> be using a K3 to
> listen to the local BC when he could be working CW
> while enjoying 100
> Hz selectivity?
>
> Dave  W5DHM
> >
> >
> > The basic reason has already been explained,
> however, there are very few
> > cases were exceeding 3kHz audio bandwidth is
> useful.  HF broadcast
> > stations use 5kHz channelling, which would only
> allow them 2.5kHz with
> > brick wall filtering at both transmit and receive
> ends, although they
> > probably do expect to suffer significant adjacent
> channel interference.
> >
> > MF broadcast stations use 9kHz channelling in
> Europe and 10kHz in the
> > USA, but I suspect that adjacent channel
> interference is less
> > acceptable.  As they were designed to be received
> with LC IF filters,
> > with poor shape factors, I suspect they don't even
> make use of the full
> > channel, and if they did, they would probably be
> required to have
> > filters which put the adjacent channel into the
> filter stop band.
> >
> ...
> > David Woolley
> _______________________________________________
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>

> The basic reason has already been explained, however, there are very few
> cases were exceeding 3kHz audio bandwidth is useful.  HF broadcast
> stations use 5kHz channelling, which would only allow them 2.5kHz with
> brick wall filtering at both transmit and receive ends, although they
> probably do expect to suffer significant adjacent channel interference.
>
> MF broadcast stations use 9kHz channelling in Europe and 10kHz in the
> USA, but I suspect that adjacent channel interference is less
> acceptable.  As they were designed to be received with LC IF filters,
> with poor shape factors, I suspect they don't even make use of the full
> channel, and if they did, they would probably be required to have
> filters which put the adjacent channel into the filter stop band.

> -----Original Message-----
> From: [hidden email]
> [mailto:[hidden email]] On Behalf Of Alan Bloom
> Sent: Sunday, January 13, 2008 10:48 PM
> To: David Woolley
> Cc: [hidden email]
> Subject: Re: [Elecraft] New K3 SN#207 built but question on AM Filter
>
>
> On Sun, 2008-01-13 at 02:49, David Woolley wrote:
> > Paul Webb wrote:
> >
> ...
> > The basic reason has already been explained, however, there
> are very few
> > cases were exceeding 3kHz audio bandwidth is useful.  HF broadcast
> > stations use 5kHz channelling, which would only allow them
> 2.5kHz with
> > brick wall filtering at both transmit and receive ends,
> although they
> > probably do expect to suffer significant adjacent channel
> interference.
> >
> > MF broadcast stations use 9kHz channelling in Europe and
> 10kHz in the
> > USA, but I suspect that adjacent channel interference is less
> > acceptable.  As they were designed to be received with LC
> IF filters,
> > with poor shape factors, I suspect they don't even make use
> of the full
> > channel, and if they did, they would probably be required to have
> > filters which put the adjacent channel into the filter stop band.
>
> Even with the 10 kHz channel spacing used in the USA, AM broadcast
> stations do not have 5 kHz audio bandwidth.  The FCC requires a guard
> band between stations.  As I recall, rgulations require that the audio
> start to drop off at about 4 kHz so that it can be down 20 dB
> or so by 6
> kHz (the passband edge of the adjacent station).
>
> So there's not much point in the receiver audio being wider
> than 4 kHz.
>
> Al N1AL
>
>
> _______________________________________________
> Elecraft mailing list
> Post to: [hidden email]
> You must be a subscriber to post to the list.
> Subscriber Info (Addr. Change, sub, unsub etc.):
>  http://mailman.qth.net/mailman/listinfo/elecraft   
>
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> Elecraft web page: http://www.elecraft.com
>
>

> -----Original Message-----
> From: [hidden email]
> [mailto:[hidden email]] On Behalf Of Barry N1EU
> Sent: Monday, January 14, 2008 7:37 AM
> To: [hidden email]
> Subject: RE: [Elecraft] New K3 SN#207 built but question on AM Filter
>
>
>
> This is admittedly topic skew, but for non-critical
> occasional am listening,
> it would be nice to have a much lower cost option than the
> $120 filters.  A
> cheap ceramic or 2-xtal filter, about 15Khz bw would have been a nice
> addition to the K3, maybe even as a st'd component.
>
> 73,
> Barry N1EU
>
>
>
> Joe Subich, W4TV-3 wrote:
> >
> >
> >> Even with the 10 kHz channel spacing used in the USA, AM broadcast
> >> stations do not have 5 kHz audio bandwidth.  The FCC
> requires a guard
> >> band between stations.  As I recall, rgulations require
> that the audio
> >> start to drop off at about 4 kHz so that it can be down 20 dB
> >> or so by 6 kHz (the passband edge of the adjacent station).
> >
> > I don't think that's right ... or wasn't the last time I was around
> > an AM station (I spent most of my career in TV).  I remember the AM
> > guys doing proof to 10 KHz.
> >
> > Admittedly, many of the directional stations could not
> maintain 10 KHz
> > through the phasors and the high end got trashed at night
> but the old
> > allocation systems generally kept first adjacent situations
> far enough
> > apart that 10 KHz could be obtained on groundwave during
> the daytime.  
> >
> > "In the day" most receivers would start to roll off
> somewhere around
> > 6 KHz and the better ones had a 10 KHz notch for nighttime
> conditions.
> >
> > Given the DSP demodulation in the K3, it's a shame that there isn't
> > an "offset" option to do "vestigial sideband" demodulation
> (offset the
> > AM filter to the upper sideband or lower sideband) and demodulate
> > carrier and one sideband for better fidelity.  This would
> work quite
> > well if the carrier were placed at the -6dB point on the composite
> > filter passband since it would keep the proper ratio
> between carrier
> > and sideband.  Alternatively, the carrier could be moved to 1 KHz
> > from the -6 dB point and the DSP could equalize out the 6 dB boost
> > in audio below 1 KHz from the "opposite" sideband.
> >
> > 73,
> >
> >    ... Joe, W4TV
> >  
> >
> >
> >
> >> -----Original Message-----
> >> From: [hidden email]
> >> [mailto:[hidden email]] On Behalf Of Alan Bloom
> >> Sent: Sunday, January 13, 2008 10:48 PM
> >> To: David Woolley
> >> Cc: [hidden email]
> >> Subject: Re: [Elecraft] New K3 SN#207 built but question
> on AM Filter
> >>
> >>
> >> On Sun, 2008-01-13 at 02:49, David Woolley wrote:
> >> > Paul Webb wrote:
> >> >
> >> ...
> >> > The basic reason has already been explained, however, there
> >> are very few
> >> > cases were exceeding 3kHz audio bandwidth is useful.  HF
> broadcast
> >> > stations use 5kHz channelling, which would only allow them
> >> 2.5kHz with
> >> > brick wall filtering at both transmit and receive ends,
> >> although they
> >> > probably do expect to suffer significant adjacent channel
> >> interference.
> >> >
> >> > MF broadcast stations use 9kHz channelling in Europe and
> >> 10kHz in the
> >> > USA, but I suspect that adjacent channel interference is less
> >> > acceptable.  As they were designed to be received with LC
> >> IF filters,
> >> > with poor shape factors, I suspect they don't even make use
> >> of the full
> >> > channel, and if they did, they would probably be
> required to have
> >> > filters which put the adjacent channel into the filter stop band.
> >>
> >> Even with the 10 kHz channel spacing used in the USA, AM broadcast
> >> stations do not have 5 kHz audio bandwidth.  The FCC
> requires a guard
> >> band between stations.  As I recall, rgulations require
> that the audio
> >> start to drop off at about 4 kHz so that it can be down 20 dB
> >> or so by 6
> >> kHz (the passband edge of the adjacent station).
> >>
> >> So there's not much point in the receiver audio being wider
> >> than 4 kHz.
> >>
> >> Al N1AL
> >>
> >>
> >> _______________________________________________
> >> Elecraft mailing list
> >> Post to: [hidden email]
> >> You must be a subscriber to post to the list.
> >> Subscriber Info (Addr. Change, sub, unsub etc.):
> >>  http://mailman.qth.net/mailman/listinfo/elecraft   
> >>
> >> Help: http://mailman.qth.net/subscribers.htm
> >> Elecraft web page: http://www.elecraft.com
> >>
> >>
> >
> > _______________________________________________
> > Elecraft mailing list
> > Post to: [hidden email]
> > You must be a subscriber to post to the list.
> > Subscriber Info (Addr. Change, sub, unsub etc.):
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> >
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> > Elecraft web page: http://www.elecraft.com
> >
> >
>
> --
> View this message in context:
> http://www.nabble.com/New-K3-SN-207-built-but-question-on-AM-F

> > A cheap ceramic or 2-xtal filter, about 15Khz bw would have been
> > a nice addition to the K3, maybe even as a st'd component.
>
>I don't know if off the shelf ceramic filters are available at
>the right frequency.  The issue with two or three crystal filters
>would be image rejection (the image is only 30 KHz away).  Based
>on data for the INRAD 6-pole 7 MHz "front end" filter, the 8-pole
>filter (KFL3B-FM) should have sufficient rejection for transmit
>use.
>
>I suspect someone could build their own wide filter if/when parts
>are available.  The key would be to make sure it could not be used
>for transmit!
>
>73,
>
>    ... Joe, W4TV
>
>
>
> > -----Original Message-----
> > From: [hidden email]
> > [mailto:[hidden email]] On Behalf Of Barry N1EU
> > Sent: Monday, January 14, 2008 7:37 AM
> > To: [hidden email]
> > Subject: RE: [Elecraft] New K3 SN#207 built but question on AM Filter
> >
> >
> >
> > This is admittedly topic skew, but for non-critical
> > occasional am listening,
> > it would be nice to have a much lower cost option than the
> > $120 filters.  A
> > cheap ceramic or 2-xtal filter, about 15Khz bw would have been a nice
> > addition to the K3, maybe even as a st'd component.
> >
> > 73,
> > Barry N1EU
> >
> >
> >
> > Joe Subich, W4TV-3 wrote:
> > >
> > >
> > >> Even with the 10 kHz channel spacing used in the USA, AM broadcast
> > >> stations do not have 5 kHz audio bandwidth.  The FCC
> > requires a guard
> > >> band between stations.  As I recall, rgulations require
> > that the audio
> > >> start to drop off at about 4 kHz so that it can be down 20 dB
> > >> or so by 6 kHz (the passband edge of the adjacent station).
> > >
> > > I don't think that's right ... or wasn't the last time I was around
> > > an AM station (I spent most of my career in TV).  I remember the AM
> > > guys doing proof to 10 KHz.
> > >
> > > Admittedly, many of the directional stations could not
> > maintain 10 KHz
> > > through the phasors and the high end got trashed at night
> > but the old
> > > allocation systems generally kept first adjacent situations
> > far enough
> > > apart that 10 KHz could be obtained on groundwave during
> > the daytime.
> > >
> > > "In the day" most receivers would start to roll off
> > somewhere around
> > > 6 KHz and the better ones had a 10 KHz notch for nighttime
> > conditions.
> > >
> > > Given the DSP demodulation in the K3, it's a shame that there isn't
> > > an "offset" option to do "vestigial sideband" demodulation
> > (offset the
> > > AM filter to the upper sideband or lower sideband) and demodulate
> > > carrier and one sideband for better fidelity.  This would
> > work quite
> > > well if the carrier were placed at the -6dB point on the composite
> > > filter passband since it would keep the proper ratio
> > between carrier
> > > and sideband.  Alternatively, the carrier could be moved to 1 KHz
> > > from the -6 dB point and the DSP could equalize out the 6 dB boost
> > > in audio below 1 KHz from the "opposite" sideband.
> > >
> > > 73,
> > >
> > >    ... Joe, W4TV
> > >
> > >
> > >
> > >
> > >> -----Original Message-----
> > >> From: [hidden email]
> > >> [mailto:[hidden email]] On Behalf Of Alan Bloom
> > >> Sent: Sunday, January 13, 2008 10:48 PM
> > >> To: David Woolley
> > >> Cc: [hidden email]
> > >> Subject: Re: [Elecraft] New K3 SN#207 built but question
> > on AM Filter
> > >>
> > >>
> > >> On Sun, 2008-01-13 at 02:49, David Woolley wrote:
> > >> > Paul Webb wrote:
> > >> >
> > >> ...
> > >> > The basic reason has already been explained, however, there
> > >> are very few
> > >> > cases were exceeding 3kHz audio bandwidth is useful.  HF
> > broadcast
> > >> > stations use 5kHz channelling, which would only allow them
> > >> 2.5kHz with
> > >> > brick wall filtering at both transmit and receive ends,
> > >> although they
> > >> > probably do expect to suffer significant adjacent channel
> > >> interference.
> > >> >
> > >> > MF broadcast stations use 9kHz channelling in Europe and
> > >> 10kHz in the
> > >> > USA, but I suspect that adjacent channel interference is less
> > >> > acceptable.  As they were designed to be received with LC
> > >> IF filters,
> > >> > with poor shape factors, I suspect they don't even make use
> > >> of the full
> > >> > channel, and if they did, they would probably be
> > required to have
> > >> > filters which put the adjacent channel into the filter stop band.
> > >>
> > >> Even with the 10 kHz channel spacing used in the USA, AM broadcast
> > >> stations do not have 5 kHz audio bandwidth.  The FCC
> > requires a guard
> > >> band between stations.  As I recall, rgulations require
> > that the audio
> > >> start to drop off at about 4 kHz so that it can be down 20 dB
> > >> or so by 6
> > >> kHz (the passband edge of the adjacent station).
> > >>
> > >> So there's not much point in the receiver audio being wider
> > >> than 4 kHz.
> > >>
> > >> Al N1AL
> > >>
> > >>
> > >> _______________________________________________
> > >> Elecraft mailing list
> > >> Post to: [hidden email]
> > >> You must be a subscriber to post to the list.
> > >> Subscriber Info (Addr. Change, sub, unsub etc.):
> > >>  http://mailman.qth.net/mailman/listinfo/elecraft
> > >>
> > >> Help: http://mailman.qth.net/subscribers.htm
> > >> Elecraft web page: http://www.elecraft.com
> > >>
> > >>
> > >
> > > _______________________________________________
> > > Elecraft mailing list
> > > Post to: [hidden email]
> > > You must be a subscriber to post to the list.
> > > Subscriber Info (Addr. Change, sub, unsub etc.):
> > >  http://mailman.qth.net/mailman/listinfo/elecraft
> > >
> > > Help: http://mailman.qth.net/subscribers.htm
> > > Elecraft web page: http://www.elecraft.com
> > >
> > >
> >
> > --
> > View this message in context:
> > http://www.nabble.com/New-K3-SN-207-built-but-question-on-AM-F
>ilter-tp14780362p14800931.html
>Sent from the Elecraft mailing list archive at Nabble.com.
>
>_______________________________________________
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>
>_______________________________________________
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> > Even with the 10 kHz channel spacing used in the USA, AM broadcast
> > stations do not have 5 kHz audio bandwidth.  The FCC requires a guard
> > band between stations.  As I recall, rgulations require that the audio
> > start to drop off at about 4 kHz so that it can be down 20 dB
> > or so by 6 kHz (the passband edge of the adjacent station).
>
> I don't think that's right ... or wasn't the last time I was around
> an AM station (I spent most of my career in TV).  I remember the AM
> guys doing proof to 10 KHz.
>
> Admittedly, many of the directional stations could not maintain 10 KHz
> through the phasors and the high end got trashed at night but the old
> allocation systems generally kept first adjacent situations far enough
> apart that 10 KHz could be obtained on groundwave during the daytime.  
>
> "In the day" most receivers would start to roll off somewhere around
> 6 KHz and the better ones had a 10 KHz notch for nighttime conditions.
>
> Given the DSP demodulation in the K3, it's a shame that there isn't
> an "offset" option to do "vestigial sideband" demodulation (offset the
> AM filter to the upper sideband or lower sideband) and demodulate
> carrier and one sideband for better fidelity.  This would work quite
> well if the carrier were placed at the -6dB point on the composite
> filter passband since it would keep the proper ratio between carrier
> and sideband.  Alternatively, the carrier could be moved to 1 KHz
> from the -6 dB point and the DSP could equalize out the 6 dB boost
> in audio below 1 KHz from the "opposite" sideband.
>
> 73,
>
>    ... Joe, W4TV
>  

> OK< I looked it up.  According to Title 47, part 73.44 of the FCC
> regulations, <http://www.fcc.gov/mb/audio/bickel/amfmrule.html#AM> the
> modulation of an AM broadcast station must be down 25 dB at 10.2 kHz
> from the carrier.  Assuming a 3-pole low-pass filter (e.g. a
> pi-network), the filter attenuation is 18 dB per octave, which implies a
> cutoff frequency of no more than 3.9 kHz.  The -3 dB bandwidth would be
> a little higher than that.
>
> That's about what I remember from my broadcasting days many, many years
> ago.  If you think about it, a double-sideband AM signal can't have a
> bandwidth greater than 1/2 the channel spacing without interfering with
> adjacent channels.  And it has to be somewhat less than that given
> real-world filters.  So there is not much point in having a receiver
> with much more than 4 kHz or so audio response (8 kHz or so RF
> bandwidth).
>  
>

> Back in the 'old days' of AM broadcasting in the US, the local
> stations were spread out with greater than 10 KHz spacing so they
> would not interfere even when received on wide bandwidth AM
> receivers.  There were a few 'clear channel' superstations that had no
> competition nationwide and IIRC, they had a 20 kHz swath of spectrum.  
> Those were mostly Westinghouse stations which ran 50,000 watts and
> could be heard over great distances.  On normal stations, one would
> receive maximum fidelity with a 10 kHz IF filter (if a straight sided
> filter would have been available back then) because the modulation was
> supposed to be limited to less 5 kHz (or so rumor had it in those days).
>
> 73,
> Don W3FPR
>
> Alan Bloom wrote:
>> OK< I looked it up.  According to Title 47, part 73.44 of the FCC
>> regulations, <http://www.fcc.gov/mb/audio/bickel/amfmrule.html#AM> the
>> modulation of an AM broadcast station must be down 25 dB at 10.2 kHz
>> from the carrier.  Assuming a 3-pole low-pass filter (e.g. a
>> pi-network), the filter attenuation is 18 dB per octave, which implies a
>> cutoff frequency of no more than 3.9 kHz.  The -3 dB bandwidth would be
>> a little higher than that.
>>
>> That's about what I remember from my broadcasting days many, many years
>> ago.  If you think about it, a double-sideband AM signal can't have a
>> bandwidth greater than 1/2 the channel spacing without interfering with
>> adjacent channels.  And it has to be somewhat less than that given
>> real-world filters.  So there is not much point in having a receiver
>> with much more than 4 kHz or so audio response (8 kHz or so RF
>> bandwidth).
>>  
> _______________________________________________
> Elecraft mailing list
> Post to: [hidden email]
> You must be a subscriber to post to the list.
> Subscriber Info (Addr. Change, sub, unsub etc.):
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> Help: http://mailman.qth.net/subscribers.htm
> Elecraft web page: http://www.elecraft.com
>

> -----Original Message-----
> From: Alan Bloom [mailto:[hidden email]]
> Sent: Tuesday, January 15, 2008 1:50 AM
> To: Joe Subich, W4TV
> Cc: [hidden email]
> Subject: AM bandwidth, the rest of the story :=)
>
>
> OK< I looked it up.  According to Title 47, part 73.44 of the FCC
> regulations, <http://www.fcc.gov/mb/audio/bickel/amfmrule.html#AM> the
> modulation of an AM broadcast station must be down 25 dB at 10.2 kHz
> from the carrier.  Assuming a 3-pole low-pass filter (e.g. a
> pi-network), the filter attenuation is 18 dB per octave,
> which implies a
> cutoff frequency of no more than 3.9 kHz.  The -3 dB
> bandwidth would be
> a little higher than that.
>
> That's about what I remember from my broadcasting days many,
> many years
> ago.  If you think about it, a double-sideband AM signal can't have a
> bandwidth greater than 1/2 the channel spacing without
> interfering with
> adjacent channels.  And it has to be somewhat less than that given
> real-world filters.  So there is not much point in having a receiver
> with much more than 4 kHz or so audio response (8 kHz or so RF
> bandwidth).
>
> > I remember the AM guys doing proof to 10 KHz.
>
> Right, in order to confirm that the modulation is down 25 dB at 10.2
> kHz.
>
> Al N1AL
>
>
> On Sun, 2008-01-13 at 20:40, Joe Subich, W4TV wrote:
> > > Even with the 10 kHz channel spacing used in the USA, AM broadcast
> > > stations do not have 5 kHz audio bandwidth.  The FCC
> requires a guard
> > > band between stations.  As I recall, rgulations require
> that the audio
> > > start to drop off at about 4 kHz so that it can be down 20 dB
> > > or so by 6 kHz (the passband edge of the adjacent station).
> >
> > I don't think that's right ... or wasn't the last time I was around
> > an AM station (I spent most of my career in TV).  I remember the AM
> > guys doing proof to 10 KHz.
> >
> > Admittedly, many of the directional stations could not
> maintain 10 KHz
> > through the phasors and the high end got trashed at night
> but the old
> > allocation systems generally kept first adjacent situations
> far enough
> > apart that 10 KHz could be obtained on groundwave during
> the daytime.  
> >
> > "In the day" most receivers would start to roll off
> somewhere around
> > 6 KHz and the better ones had a 10 KHz notch for nighttime
> conditions.
> >
> > Given the DSP demodulation in the K3, it's a shame that there isn't
> > an "offset" option to do "vestigial sideband" demodulation
> (offset the
> > AM filter to the upper sideband or lower sideband) and demodulate
> > carrier and one sideband for better fidelity.  This would
> work quite
> > well if the carrier were placed at the -6dB point on the composite
> > filter passband since it would keep the proper ratio
> between carrier
> > and sideband.  Alternatively, the carrier could be moved to 1 KHz
> > from the -6 dB point and the DSP could equalize out the 6 dB boost
> > in audio below 1 KHz from the "opposite" sideband.
> >
> > 73,
> >
> >    ... Joe, W4TV
> >  
>
>
>