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What did it mean to “align” a radio?



The 2019 Stack Overflow Developer Survey Results Are InWhat is a panadapter?Are there famous radio frequencies?What were the reasons why ATIS identification was introduced?What does the spark-gap do in a spark-gap transmitter?How did hams manage to tune their antennas before VSWR meters?When was the first radio transceiver (transmitter/receiver) built, and by whom?Using approximate signal strength at a distance to estimate reception strength of a radio stationWhat additional information do I get from an RF ammeter, as compared to a regular SWR/wattmeter?How did the terms like QRZ, QTH, and other forms of ham shorthand evolve?










4












$begingroup$


I've heard older hams talk about "aligning" their equipment. E.g. "I sent it to a guy for alignment" or "that rig probably needs to be completely aligned before you use it".



As a kid, sometimes I remember broadcast AM/FM receiver dial indicators would get "stuck" and you'd have to fuss with the knob, like crank it all the way one direction for a while, to get it to properly line up with the rough tuning labels again.



Is "alignment" basically that only on a more precise VFO indicator? Or does it involve more tuning elsewhere, say re-adjusting to factory biases via trimpots? Or is it not really a physical adjustment thing at all, more like checking capacitors or replacing tubes?










share|improve this question









$endgroup$











  • $begingroup$
    Great question, but your title could just as well say "What does it mean...", because alignment is necessary on newer equipment also.
    $endgroup$
    – Mike Waters
    6 hours ago
















4












$begingroup$


I've heard older hams talk about "aligning" their equipment. E.g. "I sent it to a guy for alignment" or "that rig probably needs to be completely aligned before you use it".



As a kid, sometimes I remember broadcast AM/FM receiver dial indicators would get "stuck" and you'd have to fuss with the knob, like crank it all the way one direction for a while, to get it to properly line up with the rough tuning labels again.



Is "alignment" basically that only on a more precise VFO indicator? Or does it involve more tuning elsewhere, say re-adjusting to factory biases via trimpots? Or is it not really a physical adjustment thing at all, more like checking capacitors or replacing tubes?










share|improve this question









$endgroup$











  • $begingroup$
    Great question, but your title could just as well say "What does it mean...", because alignment is necessary on newer equipment also.
    $endgroup$
    – Mike Waters
    6 hours ago














4












4








4





$begingroup$


I've heard older hams talk about "aligning" their equipment. E.g. "I sent it to a guy for alignment" or "that rig probably needs to be completely aligned before you use it".



As a kid, sometimes I remember broadcast AM/FM receiver dial indicators would get "stuck" and you'd have to fuss with the knob, like crank it all the way one direction for a while, to get it to properly line up with the rough tuning labels again.



Is "alignment" basically that only on a more precise VFO indicator? Or does it involve more tuning elsewhere, say re-adjusting to factory biases via trimpots? Or is it not really a physical adjustment thing at all, more like checking capacitors or replacing tubes?










share|improve this question









$endgroup$




I've heard older hams talk about "aligning" their equipment. E.g. "I sent it to a guy for alignment" or "that rig probably needs to be completely aligned before you use it".



As a kid, sometimes I remember broadcast AM/FM receiver dial indicators would get "stuck" and you'd have to fuss with the knob, like crank it all the way one direction for a while, to get it to properly line up with the rough tuning labels again.



Is "alignment" basically that only on a more precise VFO indicator? Or does it involve more tuning elsewhere, say re-adjusting to factory biases via trimpots? Or is it not really a physical adjustment thing at all, more like checking capacitors or replacing tubes?







history maintenance






share|improve this question













share|improve this question











share|improve this question




share|improve this question










asked 6 hours ago









natevw - AF7TBnatevw - AF7TB

2,6831932




2,6831932











  • $begingroup$
    Great question, but your title could just as well say "What does it mean...", because alignment is necessary on newer equipment also.
    $endgroup$
    – Mike Waters
    6 hours ago

















  • $begingroup$
    Great question, but your title could just as well say "What does it mean...", because alignment is necessary on newer equipment also.
    $endgroup$
    – Mike Waters
    6 hours ago
















$begingroup$
Great question, but your title could just as well say "What does it mean...", because alignment is necessary on newer equipment also.
$endgroup$
– Mike Waters
6 hours ago





$begingroup$
Great question, but your title could just as well say "What does it mean...", because alignment is necessary on newer equipment also.
$endgroup$
– Mike Waters
6 hours ago











4 Answers
4






active

oldest

votes


















3












$begingroup$

The process of alignment applies to superheterodyne and similar technology receivers. It involves optimizing the settings of variable inductors and/or trimmer capacitors in the set to maximize sensitivity and selectivity. It usually involves feeding the set a series of precise signals and adjusting particular components, in sequence, in each case to maximize output volume or voltage at a particular test point.



This was mostly a procedure of the vacuum tube era, though solid state sets (even pocket transistor radios) could also be aligned. Once set, however, only extreme conditions or a goodly number of years of operation (resulting, in either case, in value drift of components like capacitors and resistors) would generally require realignment. One exception to this is that replacing a tube in a vacuum tube set might change some value (dependent on the replaced tube) enough that realignment would be of value.



There are at least a couple YouTube videos that show the process (with a little compression, not to see all, in that case, 23 adjustments required) -- in one of them, the operator has to use an alternative alignment frequency to work around a very strong local AM broadcast station close to the recommended one.






share|improve this answer









$endgroup$












  • $begingroup$
    Ah, you beat me by 5 minutes! ;-) Nice answer, except that alignment is not limited to superhets. I have aligned many early-20th century TRF receivers as well.
    $endgroup$
    – Mike Waters
    6 hours ago



















1












$begingroup$

Alignment usually means to put the equipment back to factory specs. It is necessary because as some electronic components age, they change in value over time. That can and does cause reduced performance of the radio.



There are two basic types of alignment. This is kind of tongue-in-cheek, but bear with me. ;-)



  1. Adjusting the adjustable adjustments

  2. Adjusting the non-adjustable adjustments




The "adjustable adjustments" are built-in adjustable components, such as:

  • Trim pots (variable resistors)

  • Variable capacitors

  • Variable inductors

These are found on IF cans (containing transformers).




"Non-adjustable" adjustments are necessary when a component has drifted out of specs, and the technician must add a component in series or parallel with it. For example, I had to trim the BFO crystals in my Collins S-Line back to spec by adding a capacitor in parallel or in series with the crystal.

The mechanical adjustment of the pointer could also be considered as alignment as well, I suppose; but that's not what is usually meant. A blind person would likely not be affected by that.



There's more that could be said, but basically, that is what it means to align a radio. I have done this many times over the years.






share|improve this answer











$endgroup$












  • $begingroup$
    Although I have aligned my tube receivers at least twice since 1979, some components have aged again to the point where they are desperately in need of alignment again. One of them is a Collins 75S-3, which used mil-spec components such as dipped silver mica capacitors.
    $endgroup$
    – Mike Waters
    6 hours ago



















1












$begingroup$

As Mr. Peabody would say in a cartoon of my youth, "Sherman, set the WABAC machine!"



As shown in this block diagram of a double-conversion superheterodyne receiver, the signal from the antenna would be heterodyned - mixed in modern parlance - down to successively lower intermediate frequencies:



enter image description here



A primary purpose for the conversion steps was that the achievable bandwidth for a given filter $Q$ becomes narrower as the cutoff frequency is decreased, improving selectivity, the ability to reject unwanted signals on adjacent frequencies. Triple-conversion "superhets" were not unknown and the more recent trend of up-converting the antenna frequency to ~70MHz before downconverting it twice for single-signal filtering has only recently been seriously challenged in ham gear.



Affordable bandpass filters in the 1st and 2nd IF stages were based on multisection LC resonators, around which an entire field of study arose. Regardless of whether the sections were tuned to the same frequency or were "stagger" tuned, inevitable component variations required that a laborious "alignment" process be followed to optimize receiver performance.



As single sideband, supressed-carrier modulation (SSB) supplanted AM, the superior performance of resonators based on piezoelectric and mechanical filters over LC phasing networks resulted in the dominance of the "filter method" of SSB generation. The great expense of these filters, in turn, was a driving force in the development of the "transceiver," which combined the transmitter and receiver into a single unit. This allowed the very high-$Q$ SSB generation filter(s) to be deployed in the receive chain. The elimination of multiple LC resonators in two receiver stages all but eliminated the need for the receiver "alignment" process.






share|improve this answer









$endgroup$




















    1












    $begingroup$

    It's more complicated than that. One of the things you do in an alignment is like what you describe, making sure that all of the fixed and adjustable frequencies inside the rig are correct and agree with what's on the dials. This might involve mechanical or electrical adjustment. But in addition to that you do things like



    • Adjusting the tuned filters for different IF stages to make sure that they have the maximum response in the places where the signal ought to be

    • Adjusting band pre-select filters to make sure that they admit as much of the desired band as possible, with a minimum of everything else

    • Adjusting the gains and biases of various amplifiers so that they're operating in the ideal range, where they will pick up weak signals, but without saturating or distorting on strong signals

    • Making sure that the receive and transmit sides of a transceiver are in good agreement, and the RIT offset is really 0 when that knob is at 0.

    If you have some time, I recommend this Mr. Carlson's Lab video for a pretty detailed rundown of aligning a receiver; a few of his other restorations involve similar tuning-up.






    share|improve this answer









    $endgroup$













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      4 Answers
      4






      active

      oldest

      votes








      4 Answers
      4






      active

      oldest

      votes









      active

      oldest

      votes






      active

      oldest

      votes









      3












      $begingroup$

      The process of alignment applies to superheterodyne and similar technology receivers. It involves optimizing the settings of variable inductors and/or trimmer capacitors in the set to maximize sensitivity and selectivity. It usually involves feeding the set a series of precise signals and adjusting particular components, in sequence, in each case to maximize output volume or voltage at a particular test point.



      This was mostly a procedure of the vacuum tube era, though solid state sets (even pocket transistor radios) could also be aligned. Once set, however, only extreme conditions or a goodly number of years of operation (resulting, in either case, in value drift of components like capacitors and resistors) would generally require realignment. One exception to this is that replacing a tube in a vacuum tube set might change some value (dependent on the replaced tube) enough that realignment would be of value.



      There are at least a couple YouTube videos that show the process (with a little compression, not to see all, in that case, 23 adjustments required) -- in one of them, the operator has to use an alternative alignment frequency to work around a very strong local AM broadcast station close to the recommended one.






      share|improve this answer









      $endgroup$












      • $begingroup$
        Ah, you beat me by 5 minutes! ;-) Nice answer, except that alignment is not limited to superhets. I have aligned many early-20th century TRF receivers as well.
        $endgroup$
        – Mike Waters
        6 hours ago
















      3












      $begingroup$

      The process of alignment applies to superheterodyne and similar technology receivers. It involves optimizing the settings of variable inductors and/or trimmer capacitors in the set to maximize sensitivity and selectivity. It usually involves feeding the set a series of precise signals and adjusting particular components, in sequence, in each case to maximize output volume or voltage at a particular test point.



      This was mostly a procedure of the vacuum tube era, though solid state sets (even pocket transistor radios) could also be aligned. Once set, however, only extreme conditions or a goodly number of years of operation (resulting, in either case, in value drift of components like capacitors and resistors) would generally require realignment. One exception to this is that replacing a tube in a vacuum tube set might change some value (dependent on the replaced tube) enough that realignment would be of value.



      There are at least a couple YouTube videos that show the process (with a little compression, not to see all, in that case, 23 adjustments required) -- in one of them, the operator has to use an alternative alignment frequency to work around a very strong local AM broadcast station close to the recommended one.






      share|improve this answer









      $endgroup$












      • $begingroup$
        Ah, you beat me by 5 minutes! ;-) Nice answer, except that alignment is not limited to superhets. I have aligned many early-20th century TRF receivers as well.
        $endgroup$
        – Mike Waters
        6 hours ago














      3












      3








      3





      $begingroup$

      The process of alignment applies to superheterodyne and similar technology receivers. It involves optimizing the settings of variable inductors and/or trimmer capacitors in the set to maximize sensitivity and selectivity. It usually involves feeding the set a series of precise signals and adjusting particular components, in sequence, in each case to maximize output volume or voltage at a particular test point.



      This was mostly a procedure of the vacuum tube era, though solid state sets (even pocket transistor radios) could also be aligned. Once set, however, only extreme conditions or a goodly number of years of operation (resulting, in either case, in value drift of components like capacitors and resistors) would generally require realignment. One exception to this is that replacing a tube in a vacuum tube set might change some value (dependent on the replaced tube) enough that realignment would be of value.



      There are at least a couple YouTube videos that show the process (with a little compression, not to see all, in that case, 23 adjustments required) -- in one of them, the operator has to use an alternative alignment frequency to work around a very strong local AM broadcast station close to the recommended one.






      share|improve this answer









      $endgroup$



      The process of alignment applies to superheterodyne and similar technology receivers. It involves optimizing the settings of variable inductors and/or trimmer capacitors in the set to maximize sensitivity and selectivity. It usually involves feeding the set a series of precise signals and adjusting particular components, in sequence, in each case to maximize output volume or voltage at a particular test point.



      This was mostly a procedure of the vacuum tube era, though solid state sets (even pocket transistor radios) could also be aligned. Once set, however, only extreme conditions or a goodly number of years of operation (resulting, in either case, in value drift of components like capacitors and resistors) would generally require realignment. One exception to this is that replacing a tube in a vacuum tube set might change some value (dependent on the replaced tube) enough that realignment would be of value.



      There are at least a couple YouTube videos that show the process (with a little compression, not to see all, in that case, 23 adjustments required) -- in one of them, the operator has to use an alternative alignment frequency to work around a very strong local AM broadcast station close to the recommended one.







      share|improve this answer












      share|improve this answer



      share|improve this answer










      answered 6 hours ago









      Zeiss IkonZeiss Ikon

      799113




      799113











      • $begingroup$
        Ah, you beat me by 5 minutes! ;-) Nice answer, except that alignment is not limited to superhets. I have aligned many early-20th century TRF receivers as well.
        $endgroup$
        – Mike Waters
        6 hours ago

















      • $begingroup$
        Ah, you beat me by 5 minutes! ;-) Nice answer, except that alignment is not limited to superhets. I have aligned many early-20th century TRF receivers as well.
        $endgroup$
        – Mike Waters
        6 hours ago
















      $begingroup$
      Ah, you beat me by 5 minutes! ;-) Nice answer, except that alignment is not limited to superhets. I have aligned many early-20th century TRF receivers as well.
      $endgroup$
      – Mike Waters
      6 hours ago





      $begingroup$
      Ah, you beat me by 5 minutes! ;-) Nice answer, except that alignment is not limited to superhets. I have aligned many early-20th century TRF receivers as well.
      $endgroup$
      – Mike Waters
      6 hours ago












      1












      $begingroup$

      Alignment usually means to put the equipment back to factory specs. It is necessary because as some electronic components age, they change in value over time. That can and does cause reduced performance of the radio.



      There are two basic types of alignment. This is kind of tongue-in-cheek, but bear with me. ;-)



      1. Adjusting the adjustable adjustments

      2. Adjusting the non-adjustable adjustments




      The "adjustable adjustments" are built-in adjustable components, such as:

      • Trim pots (variable resistors)

      • Variable capacitors

      • Variable inductors

      These are found on IF cans (containing transformers).




      "Non-adjustable" adjustments are necessary when a component has drifted out of specs, and the technician must add a component in series or parallel with it. For example, I had to trim the BFO crystals in my Collins S-Line back to spec by adding a capacitor in parallel or in series with the crystal.

      The mechanical adjustment of the pointer could also be considered as alignment as well, I suppose; but that's not what is usually meant. A blind person would likely not be affected by that.



      There's more that could be said, but basically, that is what it means to align a radio. I have done this many times over the years.






      share|improve this answer











      $endgroup$












      • $begingroup$
        Although I have aligned my tube receivers at least twice since 1979, some components have aged again to the point where they are desperately in need of alignment again. One of them is a Collins 75S-3, which used mil-spec components such as dipped silver mica capacitors.
        $endgroup$
        – Mike Waters
        6 hours ago
















      1












      $begingroup$

      Alignment usually means to put the equipment back to factory specs. It is necessary because as some electronic components age, they change in value over time. That can and does cause reduced performance of the radio.



      There are two basic types of alignment. This is kind of tongue-in-cheek, but bear with me. ;-)



      1. Adjusting the adjustable adjustments

      2. Adjusting the non-adjustable adjustments




      The "adjustable adjustments" are built-in adjustable components, such as:

      • Trim pots (variable resistors)

      • Variable capacitors

      • Variable inductors

      These are found on IF cans (containing transformers).




      "Non-adjustable" adjustments are necessary when a component has drifted out of specs, and the technician must add a component in series or parallel with it. For example, I had to trim the BFO crystals in my Collins S-Line back to spec by adding a capacitor in parallel or in series with the crystal.

      The mechanical adjustment of the pointer could also be considered as alignment as well, I suppose; but that's not what is usually meant. A blind person would likely not be affected by that.



      There's more that could be said, but basically, that is what it means to align a radio. I have done this many times over the years.






      share|improve this answer











      $endgroup$












      • $begingroup$
        Although I have aligned my tube receivers at least twice since 1979, some components have aged again to the point where they are desperately in need of alignment again. One of them is a Collins 75S-3, which used mil-spec components such as dipped silver mica capacitors.
        $endgroup$
        – Mike Waters
        6 hours ago














      1












      1








      1





      $begingroup$

      Alignment usually means to put the equipment back to factory specs. It is necessary because as some electronic components age, they change in value over time. That can and does cause reduced performance of the radio.



      There are two basic types of alignment. This is kind of tongue-in-cheek, but bear with me. ;-)



      1. Adjusting the adjustable adjustments

      2. Adjusting the non-adjustable adjustments




      The "adjustable adjustments" are built-in adjustable components, such as:

      • Trim pots (variable resistors)

      • Variable capacitors

      • Variable inductors

      These are found on IF cans (containing transformers).




      "Non-adjustable" adjustments are necessary when a component has drifted out of specs, and the technician must add a component in series or parallel with it. For example, I had to trim the BFO crystals in my Collins S-Line back to spec by adding a capacitor in parallel or in series with the crystal.

      The mechanical adjustment of the pointer could also be considered as alignment as well, I suppose; but that's not what is usually meant. A blind person would likely not be affected by that.



      There's more that could be said, but basically, that is what it means to align a radio. I have done this many times over the years.






      share|improve this answer











      $endgroup$



      Alignment usually means to put the equipment back to factory specs. It is necessary because as some electronic components age, they change in value over time. That can and does cause reduced performance of the radio.



      There are two basic types of alignment. This is kind of tongue-in-cheek, but bear with me. ;-)



      1. Adjusting the adjustable adjustments

      2. Adjusting the non-adjustable adjustments




      The "adjustable adjustments" are built-in adjustable components, such as:

      • Trim pots (variable resistors)

      • Variable capacitors

      • Variable inductors

      These are found on IF cans (containing transformers).




      "Non-adjustable" adjustments are necessary when a component has drifted out of specs, and the technician must add a component in series or parallel with it. For example, I had to trim the BFO crystals in my Collins S-Line back to spec by adding a capacitor in parallel or in series with the crystal.

      The mechanical adjustment of the pointer could also be considered as alignment as well, I suppose; but that's not what is usually meant. A blind person would likely not be affected by that.



      There's more that could be said, but basically, that is what it means to align a radio. I have done this many times over the years.







      share|improve this answer














      share|improve this answer



      share|improve this answer








      edited 6 hours ago

























      answered 6 hours ago









      Mike WatersMike Waters

      3,7812635




      3,7812635











      • $begingroup$
        Although I have aligned my tube receivers at least twice since 1979, some components have aged again to the point where they are desperately in need of alignment again. One of them is a Collins 75S-3, which used mil-spec components such as dipped silver mica capacitors.
        $endgroup$
        – Mike Waters
        6 hours ago

















      • $begingroup$
        Although I have aligned my tube receivers at least twice since 1979, some components have aged again to the point where they are desperately in need of alignment again. One of them is a Collins 75S-3, which used mil-spec components such as dipped silver mica capacitors.
        $endgroup$
        – Mike Waters
        6 hours ago
















      $begingroup$
      Although I have aligned my tube receivers at least twice since 1979, some components have aged again to the point where they are desperately in need of alignment again. One of them is a Collins 75S-3, which used mil-spec components such as dipped silver mica capacitors.
      $endgroup$
      – Mike Waters
      6 hours ago





      $begingroup$
      Although I have aligned my tube receivers at least twice since 1979, some components have aged again to the point where they are desperately in need of alignment again. One of them is a Collins 75S-3, which used mil-spec components such as dipped silver mica capacitors.
      $endgroup$
      – Mike Waters
      6 hours ago












      1












      $begingroup$

      As Mr. Peabody would say in a cartoon of my youth, "Sherman, set the WABAC machine!"



      As shown in this block diagram of a double-conversion superheterodyne receiver, the signal from the antenna would be heterodyned - mixed in modern parlance - down to successively lower intermediate frequencies:



      enter image description here



      A primary purpose for the conversion steps was that the achievable bandwidth for a given filter $Q$ becomes narrower as the cutoff frequency is decreased, improving selectivity, the ability to reject unwanted signals on adjacent frequencies. Triple-conversion "superhets" were not unknown and the more recent trend of up-converting the antenna frequency to ~70MHz before downconverting it twice for single-signal filtering has only recently been seriously challenged in ham gear.



      Affordable bandpass filters in the 1st and 2nd IF stages were based on multisection LC resonators, around which an entire field of study arose. Regardless of whether the sections were tuned to the same frequency or were "stagger" tuned, inevitable component variations required that a laborious "alignment" process be followed to optimize receiver performance.



      As single sideband, supressed-carrier modulation (SSB) supplanted AM, the superior performance of resonators based on piezoelectric and mechanical filters over LC phasing networks resulted in the dominance of the "filter method" of SSB generation. The great expense of these filters, in turn, was a driving force in the development of the "transceiver," which combined the transmitter and receiver into a single unit. This allowed the very high-$Q$ SSB generation filter(s) to be deployed in the receive chain. The elimination of multiple LC resonators in two receiver stages all but eliminated the need for the receiver "alignment" process.






      share|improve this answer









      $endgroup$

















        1












        $begingroup$

        As Mr. Peabody would say in a cartoon of my youth, "Sherman, set the WABAC machine!"



        As shown in this block diagram of a double-conversion superheterodyne receiver, the signal from the antenna would be heterodyned - mixed in modern parlance - down to successively lower intermediate frequencies:



        enter image description here



        A primary purpose for the conversion steps was that the achievable bandwidth for a given filter $Q$ becomes narrower as the cutoff frequency is decreased, improving selectivity, the ability to reject unwanted signals on adjacent frequencies. Triple-conversion "superhets" were not unknown and the more recent trend of up-converting the antenna frequency to ~70MHz before downconverting it twice for single-signal filtering has only recently been seriously challenged in ham gear.



        Affordable bandpass filters in the 1st and 2nd IF stages were based on multisection LC resonators, around which an entire field of study arose. Regardless of whether the sections were tuned to the same frequency or were "stagger" tuned, inevitable component variations required that a laborious "alignment" process be followed to optimize receiver performance.



        As single sideband, supressed-carrier modulation (SSB) supplanted AM, the superior performance of resonators based on piezoelectric and mechanical filters over LC phasing networks resulted in the dominance of the "filter method" of SSB generation. The great expense of these filters, in turn, was a driving force in the development of the "transceiver," which combined the transmitter and receiver into a single unit. This allowed the very high-$Q$ SSB generation filter(s) to be deployed in the receive chain. The elimination of multiple LC resonators in two receiver stages all but eliminated the need for the receiver "alignment" process.






        share|improve this answer









        $endgroup$















          1












          1








          1





          $begingroup$

          As Mr. Peabody would say in a cartoon of my youth, "Sherman, set the WABAC machine!"



          As shown in this block diagram of a double-conversion superheterodyne receiver, the signal from the antenna would be heterodyned - mixed in modern parlance - down to successively lower intermediate frequencies:



          enter image description here



          A primary purpose for the conversion steps was that the achievable bandwidth for a given filter $Q$ becomes narrower as the cutoff frequency is decreased, improving selectivity, the ability to reject unwanted signals on adjacent frequencies. Triple-conversion "superhets" were not unknown and the more recent trend of up-converting the antenna frequency to ~70MHz before downconverting it twice for single-signal filtering has only recently been seriously challenged in ham gear.



          Affordable bandpass filters in the 1st and 2nd IF stages were based on multisection LC resonators, around which an entire field of study arose. Regardless of whether the sections were tuned to the same frequency or were "stagger" tuned, inevitable component variations required that a laborious "alignment" process be followed to optimize receiver performance.



          As single sideband, supressed-carrier modulation (SSB) supplanted AM, the superior performance of resonators based on piezoelectric and mechanical filters over LC phasing networks resulted in the dominance of the "filter method" of SSB generation. The great expense of these filters, in turn, was a driving force in the development of the "transceiver," which combined the transmitter and receiver into a single unit. This allowed the very high-$Q$ SSB generation filter(s) to be deployed in the receive chain. The elimination of multiple LC resonators in two receiver stages all but eliminated the need for the receiver "alignment" process.






          share|improve this answer









          $endgroup$



          As Mr. Peabody would say in a cartoon of my youth, "Sherman, set the WABAC machine!"



          As shown in this block diagram of a double-conversion superheterodyne receiver, the signal from the antenna would be heterodyned - mixed in modern parlance - down to successively lower intermediate frequencies:



          enter image description here



          A primary purpose for the conversion steps was that the achievable bandwidth for a given filter $Q$ becomes narrower as the cutoff frequency is decreased, improving selectivity, the ability to reject unwanted signals on adjacent frequencies. Triple-conversion "superhets" were not unknown and the more recent trend of up-converting the antenna frequency to ~70MHz before downconverting it twice for single-signal filtering has only recently been seriously challenged in ham gear.



          Affordable bandpass filters in the 1st and 2nd IF stages were based on multisection LC resonators, around which an entire field of study arose. Regardless of whether the sections were tuned to the same frequency or were "stagger" tuned, inevitable component variations required that a laborious "alignment" process be followed to optimize receiver performance.



          As single sideband, supressed-carrier modulation (SSB) supplanted AM, the superior performance of resonators based on piezoelectric and mechanical filters over LC phasing networks resulted in the dominance of the "filter method" of SSB generation. The great expense of these filters, in turn, was a driving force in the development of the "transceiver," which combined the transmitter and receiver into a single unit. This allowed the very high-$Q$ SSB generation filter(s) to be deployed in the receive chain. The elimination of multiple LC resonators in two receiver stages all but eliminated the need for the receiver "alignment" process.







          share|improve this answer












          share|improve this answer



          share|improve this answer










          answered 6 hours ago









          Brian K1LIBrian K1LI

          1,811115




          1,811115





















              1












              $begingroup$

              It's more complicated than that. One of the things you do in an alignment is like what you describe, making sure that all of the fixed and adjustable frequencies inside the rig are correct and agree with what's on the dials. This might involve mechanical or electrical adjustment. But in addition to that you do things like



              • Adjusting the tuned filters for different IF stages to make sure that they have the maximum response in the places where the signal ought to be

              • Adjusting band pre-select filters to make sure that they admit as much of the desired band as possible, with a minimum of everything else

              • Adjusting the gains and biases of various amplifiers so that they're operating in the ideal range, where they will pick up weak signals, but without saturating or distorting on strong signals

              • Making sure that the receive and transmit sides of a transceiver are in good agreement, and the RIT offset is really 0 when that knob is at 0.

              If you have some time, I recommend this Mr. Carlson's Lab video for a pretty detailed rundown of aligning a receiver; a few of his other restorations involve similar tuning-up.






              share|improve this answer









              $endgroup$

















                1












                $begingroup$

                It's more complicated than that. One of the things you do in an alignment is like what you describe, making sure that all of the fixed and adjustable frequencies inside the rig are correct and agree with what's on the dials. This might involve mechanical or electrical adjustment. But in addition to that you do things like



                • Adjusting the tuned filters for different IF stages to make sure that they have the maximum response in the places where the signal ought to be

                • Adjusting band pre-select filters to make sure that they admit as much of the desired band as possible, with a minimum of everything else

                • Adjusting the gains and biases of various amplifiers so that they're operating in the ideal range, where they will pick up weak signals, but without saturating or distorting on strong signals

                • Making sure that the receive and transmit sides of a transceiver are in good agreement, and the RIT offset is really 0 when that knob is at 0.

                If you have some time, I recommend this Mr. Carlson's Lab video for a pretty detailed rundown of aligning a receiver; a few of his other restorations involve similar tuning-up.






                share|improve this answer









                $endgroup$















                  1












                  1








                  1





                  $begingroup$

                  It's more complicated than that. One of the things you do in an alignment is like what you describe, making sure that all of the fixed and adjustable frequencies inside the rig are correct and agree with what's on the dials. This might involve mechanical or electrical adjustment. But in addition to that you do things like



                  • Adjusting the tuned filters for different IF stages to make sure that they have the maximum response in the places where the signal ought to be

                  • Adjusting band pre-select filters to make sure that they admit as much of the desired band as possible, with a minimum of everything else

                  • Adjusting the gains and biases of various amplifiers so that they're operating in the ideal range, where they will pick up weak signals, but without saturating or distorting on strong signals

                  • Making sure that the receive and transmit sides of a transceiver are in good agreement, and the RIT offset is really 0 when that knob is at 0.

                  If you have some time, I recommend this Mr. Carlson's Lab video for a pretty detailed rundown of aligning a receiver; a few of his other restorations involve similar tuning-up.






                  share|improve this answer









                  $endgroup$



                  It's more complicated than that. One of the things you do in an alignment is like what you describe, making sure that all of the fixed and adjustable frequencies inside the rig are correct and agree with what's on the dials. This might involve mechanical or electrical adjustment. But in addition to that you do things like



                  • Adjusting the tuned filters for different IF stages to make sure that they have the maximum response in the places where the signal ought to be

                  • Adjusting band pre-select filters to make sure that they admit as much of the desired band as possible, with a minimum of everything else

                  • Adjusting the gains and biases of various amplifiers so that they're operating in the ideal range, where they will pick up weak signals, but without saturating or distorting on strong signals

                  • Making sure that the receive and transmit sides of a transceiver are in good agreement, and the RIT offset is really 0 when that knob is at 0.

                  If you have some time, I recommend this Mr. Carlson's Lab video for a pretty detailed rundown of aligning a receiver; a few of his other restorations involve similar tuning-up.







                  share|improve this answer












                  share|improve this answer



                  share|improve this answer










                  answered 5 hours ago









                  hobbs - KC2Ghobbs - KC2G

                  94228




                  94228



























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