Measuring SSB RMS Power

> On Jun 20, 2019, at 8:38 AM, John Oppenheimer <[hidden email]> wrote:
>
> Using DL1 with Oscilloscope to measure KX3 SSB RMS power:
>
> https://www.kn5l.net/ssbpower/
>
> Question, is this technique correct?
>
> John KN5L
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> On Jun 20, 2019, at 8:38 AM, John Oppenheimer <[hidden email]> wrote:
>
> Using DL1 with Oscilloscope to measure KX3 SSB RMS power:
>
> https://www.kn5l.net/ssbpower/
>
> Question, is this technique correct?
>
> John KN5L
> ______________________________________________________________
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>   Don , That may be peak to peak voltage squared decided by 400 for a 50 ohm load.
> Thanks 73 Ken K5DNL
>
>      On Thursday, June 20, 2019, 9:30:46 AM CDT, Bob McGraw K4TAX <[hidden email]> wrote:
>  
>   Here is a paper on the topic. This covers the correct procedure.
>
> http://www.eng.auburn.edu/~troppel/courses/TIMS-manuals-r5/TIMS%20Experiment%20Manuals/Student_Text/Vol-A1/a1-12.pdf
>
> 73
> Bob, K4TAX
>
>
> Sent from my iPhone
>
>> On Jun 20, 2019, at 8:38 AM, John Oppenheimer <[hidden email]> wrote:
>>
>> Using DL1 with Oscilloscope to measure KX3 SSB RMS power:
>>
>> https://www.kn5l.net/ssbpower/
>>
>> Question, is this technique correct?
>>
>> John KN5L
>> ______________________________________________________________
>> Elecraft mailing list
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>>
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>    
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> Here is a paper on the topic. This covers the correct procedure. 
>
> http://www.eng.auburn.edu/~troppel/courses/TIMS-manuals-r5/TIMS%20Experiment%20Manuals/Student_Text/Vol-A1/a1-12.pdf
>
>
> 73
>
> Bob, K4TAX
>
>
> Sent from my iPhone
>
> On Jun 20, 2019, at 8:38 AM, John Oppenheimer <[hidden email]
> <mailto:[hidden email]>> wrote:
>
>> Using DL1 with Oscilloscope to measure KX3 SSB RMS power:
>>
>> https://www.kn5l.net/ssbpower/
>>
>> Question, is this technique correct?
>>
>> John KN5L

> On Jun 20, 2019, at 10:34 AM, John Oppenheimer <[hidden email]> wrote:
>
> Hi Don,
>
>> On 6/20/19 9:21 AM, Don Wilhelm wrote:
>> John,
>>
>> That connection is OK if you realize that your scope is reading the DC
>> voltage developed by rectifying the RF from 1/2 of the load.  You still
>> have to use the power formula that is in the DL1 manual.
>
> Well yes, power references are DCV^2 / 25
>
> DdB ratios computed using voltage ratios in the form of
> 20 * Log(v1/v2). For example, 0 compression Pep/Pav dB =
> 20 * log(15.3/5.24) = 9.3. I do need to flip the table title to Pav/Pep
> for proper negative dB values, Done.
>
>> I prefer to allow the 'scope to read the full peak RF voltage.  Connect
>> the 'scope probe to the side of one resistor which is connected to the
>> BNC jack (one of the leads closest to the BNC), and the 'scope ground
>> probe to one or the resistor leads furthermost away from from the BNC jack.
>
> Using detected RF envelope for oscilloscope average RF measurement at
> each digitized point during long, six second, trace. This will result
> with increased accuracy when measuring modulated speech.
>
> John KN5L
>
>>> On 6/20/2019 9:38 AM, John Oppenheimer wrote:
>>> Using DL1 with Oscilloscope to measure KX3 SSB RMS power:
>>>
>>> https://www.kn5l.net/ssbpower/
>>>
>>> Question, is this technique correct?
>>>
>>
> ______________________________________________________________
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>

> To evaluate speech use a pink noise source.  That is the standard source signal for acoustic measurements.
>
> Bob, K4TAX
>
>
> Sent from my iPhone
>
>> On Jun 20, 2019, at 10:34 AM, John Oppenheimer <[hidden email]> wrote:
>>
>> Hi Don,
>>
>>> On 6/20/19 9:21 AM, Don Wilhelm wrote:
>>> John,
>>>
>>> That connection is OK if you realize that your scope is reading the DC
>>> voltage developed by rectifying the RF from 1/2 of the load.  You still
>>> have to use the power formula that is in the DL1 manual.
>>
>> Well yes, power references are DCV^2 / 25
>>
>> DdB ratios computed using voltage ratios in the form of
>> 20 * Log(v1/v2). For example, 0 compression Pep/Pav dB =
>> 20 * log(15.3/5.24) = 9.3. I do need to flip the table title to Pav/Pep
>> for proper negative dB values, Done.
>>
>>> I prefer to allow the 'scope to read the full peak RF voltage.  Connect
>>> the 'scope probe to the side of one resistor which is connected to the
>>> BNC jack (one of the leads closest to the BNC), and the 'scope ground
>>> probe to one or the resistor leads furthermost away from from the BNC jack.
>>
>> Using detected RF envelope for oscilloscope average RF measurement at
>> each digitized point during long, six second, trace. This will result
>> with increased accuracy when measuring modulated speech.
>>
>> John KN5L
>>
>>>> On 6/20/2019 9:38 AM, John Oppenheimer wrote:
>>>> Using DL1 with Oscilloscope to measure KX3 SSB RMS power:
>>>>
>>>> https://www.kn5l.net/ssbpower/
>>>>
>>>> Question, is this technique correct?

> Hi Bob,
>
> Viewing pink noise with an oscilloscope, it is continuous, where as
> speech has breaks.
>
> The web page is evaluating both expected power to a load and compression
> gain. Using a little over six second recorded speech. Recording contains
> fast spoken words, mostly numbers and a few "this is a test" etc, for
> maximum power over time. Evaluating scope shoot, about 25 words during
> six second recording. Not even close to pink noise.
>
> John KN5L
>
> On 6/20/19 11:27 AM, Bob McGraw K4TAX wrote:
>> To evaluate speech use a pink noise source.  That is the standard source signal for acoustic measurements.
>>
>> Bob, K4TAX
>>
>>
>> Sent from my iPhone
>>
>>> On Jun 20, 2019, at 10:34 AM, John Oppenheimer <[hidden email]> wrote:
>>>
>>> Hi Don,
>>>
>>>> On 6/20/19 9:21 AM, Don Wilhelm wrote:
>>>> John,
>>>>
>>>> That connection is OK if you realize that your scope is reading the DC
>>>> voltage developed by rectifying the RF from 1/2 of the load.  You still
>>>> have to use the power formula that is in the DL1 manual.
>>> Well yes, power references are DCV^2 / 25
>>>
>>> DdB ratios computed using voltage ratios in the form of
>>> 20 * Log(v1/v2). For example, 0 compression Pep/Pav dB =
>>> 20 * log(15.3/5.24) = 9.3. I do need to flip the table title to Pav/Pep
>>> for proper negative dB values, Done.
>>>
>>>> I prefer to allow the 'scope to read the full peak RF voltage.  Connect
>>>> the 'scope probe to the side of one resistor which is connected to the
>>>> BNC jack (one of the leads closest to the BNC), and the 'scope ground
>>>> probe to one or the resistor leads furthermost away from from the BNC jack.
>>> Using detected RF envelope for oscilloscope average RF measurement at
>>> each digitized point during long, six second, trace. This will result
>>> with increased accuracy when measuring modulated speech.
>>>
>>> John KN5L
>>>
>>>>> On 6/20/2019 9:38 AM, John Oppenheimer wrote:
>>>>> Using DL1 with Oscilloscope to measure KX3 SSB RMS power:
>>>>>
>>>>> https://www.kn5l.net/ssbpower/
>>>>>
>>>>> Question, is this technique correct?
> ______________________________________________________________
> Elecraft mailing list
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> Post: mailto:[hidden email]
>
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>

> Bob is correct to the extent that Pink Noise approximates the SPECTRUM
> of speech, but John's is on target that speech is not continuous, but
> highly variable in amplitude. For uncompressed speech, the average
> value is typically as much as 20 dB below the peak value; compression
> can reduce that to 10 dB or less.  Highly sophisticated audio
> processing that has been used by radio broadcasters for at least 40
> years reduces that ratio to 6 dB or less. "If the modulation meter
> moves below 100%, it isn't loud enough!"
>
> 73, Jim K9YC
>
> On 6/20/2019 10:13 AM, John Oppenheimer wrote:
>> Hi Bob,
>>
>> Viewing pink noise with an oscilloscope, it is continuous, where as
>> speech has breaks.
>>
>> The web page is evaluating both expected power to a load and compression
>> gain. Using a little over six second recorded speech. Recording contains
>> fast spoken words, mostly numbers and a few "this is a test" etc, for
>> maximum power over time. Evaluating scope shoot, about 25 words during
>> six second recording. Not even close to pink noise.
>>
>> John KN5L
>>
>> On 6/20/19 11:27 AM, Bob McGraw K4TAX wrote:
>>> To evaluate speech use a pink noise source.  That is the standard
>>> source signal for acoustic measurements.
>>>
>>> Bob, K4TAX
>>>
>>>
>>> Sent from my iPhone
>>>
>>>> On Jun 20, 2019, at 10:34 AM, John Oppenheimer <[hidden email]> wrote:
>>>>
>>>> Hi Don,
>>>>
>>>>> On 6/20/19 9:21 AM, Don Wilhelm wrote:
>>>>> John,
>>>>>
>>>>> That connection is OK if you realize that your scope is reading
>>>>> the DC
>>>>> voltage developed by rectifying the RF from 1/2 of the load.  You
>>>>> still
>>>>> have to use the power formula that is in the DL1 manual.
>>>> Well yes, power references are DCV^2 / 25
>>>>
>>>> DdB ratios computed using voltage ratios in the form of
>>>> 20 * Log(v1/v2). For example, 0 compression Pep/Pav dB =
>>>> 20 * log(15.3/5.24) = 9.3. I do need to flip the table title to
>>>> Pav/Pep
>>>> for proper negative dB values, Done.
>>>>
>>>>> I prefer to allow the 'scope to read the full peak RF voltage. 
>>>>> Connect
>>>>> the 'scope probe to the side of one resistor which is connected to
>>>>> the
>>>>> BNC jack (one of the leads closest to the BNC), and the 'scope ground
>>>>> probe to one or the resistor leads furthermost away from from the
>>>>> BNC jack.
>>>> Using detected RF envelope for oscilloscope average RF measurement at
>>>> each digitized point during long, six second, trace. This will result
>>>> with increased accuracy when measuring modulated speech.
>>>>
>>>> John KN5L
>>>>
>>>>>> On 6/20/2019 9:38 AM, John Oppenheimer wrote:
>>>>>> Using DL1 with Oscilloscope to measure KX3 SSB RMS power:
>>>>>>
>>>>>> https://www.kn5l.net/ssbpower/
>>>>>>
>>>>>> Question, is this technique correct?
>> ______________________________________________________________
>> 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
>> Message delivered to [hidden email]
>>
>
> ______________________________________________________________
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> Post: mailto:[hidden email]
>
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