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From: G0MRF@aol.com
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Date: Sun, 27 Jan 2002 19:00:45 EST
Subject: Re: LF: Jason Tests / PSK31
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<HTML><FONT FACE=arial,helvetica><FONT  SIZE=2>In a message dated 1/27/02 4:34:34 PM GMT Standard Time, DL4YHF@aol.com writes:
<BR>
<BR>
<BR><BLOCKQUOTE TYPE=CITE style="BORDER-LEFT: #0000ff 2px solid; MARGIN-LEFT: 5px; MARGIN-RIGHT: 0px; PADDING-LEFT: 5px">Hello Jim and David, 
<BR>
<BR>I have modified the PSK31 core in Spectrum Lab a bit so it can now produce an on/off keyed "audio carrier" with a few kHz which only needs to be rectified to have the raw phase keying information. 
<BR>
<BR>What I did not understand completely is how Jim produces the amplitude shaping. I think the PA supply voltage is variable, but where does the "envelope" signal come from ? One could (with a bit more programming work and more CPU power) deliver the "pulse shaping envelope" on the second channel of a stereo card. 
<BR>
<BR>73 Wolf &nbsp;DL4YHF. </FONT><FONT  COLOR="#0f0f0f" SIZE=2 FAMILY="SANSSERIF" FACE="Arial" LANG="0">
<BR>
<BR>
<BR></BLOCKQUOTE>
<BR></FONT></FONT><FONT  COLOR="#000000" SIZE=2 FAMILY="SANSSERIF" FACE="Arial" LANG="0">
<BR>Hello Wolf.
<BR>
<BR>Not sure about Jim's system. Best let him answer.
<BR>However, The SM6LKM/G0MRF DDS has an input pin that allows a DC voltage to control the output level and phase. ( A balanced modulator using 2 diodes)
<BR>With half the supply rail (lets say 6 Volts) on the pin, the RF output is zero.
<BR>As the voltage is increased towards 12V the output increases in proportion.
<BR>If the voltage is decreased from 6V towards zero then the RF output also increases in proportion, but with the opposite phase.
<BR>
<BR>So 6V = no output.
<BR>&gt; 6 V = &nbsp;phase 0 degrees
<BR>&lt; 6V &nbsp;= &nbsp;-180 degrees
<BR>
<BR>A potentially good idea when we designed it, but lacking an application.
<BR>
<BR>Thanks
<BR>
<BR>David &nbsp;G0MRF</FONT></HTML>