TS850modifications: Difference between revisions

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[http://pritchard.dyndns.org/assets/ts850/tcxo_kenwood_so2.htm VCTXCO upgraded, for higher PLL-reference stability.  This small PCB can work in many synthesized Kenwoods]
[http://tigerfire.ca/assets/ts850/tcxo_kenwood_so2.htm VCTXCO upgraded, for higher PLL-reference stability.  This small PCB can work in many synthesized Kenwoods, in addition to my '850]
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[http://pritchard.dyndns.org/assets/ts850/ts850noiseblanker.htm Kenwood TS-850 Noise Blanker Modification - stiffens the bias-voltage, raises the threshold]
[http://tigerfire.ca/assets/ts850/ts850noiseblanker.htm Kenwood TS-850 Noise Blanker Modification - stiffens the bias-voltage, raises the threshold, alters time-constants]
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[http://pritchard.dyndns.org/assets/ts850/850BAT.html TS-850 volatile-memory backup battery relocation (mine's under the DRU-2 top-cover hatch, for easy replacement)]
[http://tigerfire.ca/assets/ts850/850BAT.html TS-850 volatile-memory backup battery relocation (mine's under the DRU-2 top-cover hatch, for easy replacement - I have no DRU-2)]
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[http://pritchard.dyndns.org/assets/ts850/cw_sidetone_adj_850.html Make the CW sidetone level adjustable, via the front-panel MONI control (just like SSB)]
[http://tigerfire.ca/assets/ts850/cw_sidetone_adj_850.html Make the CW sidetone level adjustable, via the front-panel MONI control (just like SSB)]
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[http://pritchard.dyndns.org/assets/ts850/alc.htm Stablize the Transmit-ALC reference-voltage, by broadening the operating range of the multivibrator/invertor]
[http://tigerfire.ca/assets/ts850/alc.htm Stablize the Transmit-ALC reference-voltage, by broadening the operating range of the multivibrator/invertor]
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[http://tigerfire.ca/assets/ts850/ts850_mf_sensitivity.htm TS-850 Low Band (MF: 0.5MHz to 1.6MHz) Sensitivity Improvement, by disabling/bypassing the broadcast-band attenuator]
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I have also replaced all my carrier-board aluminum electrolytics with 25V-rated solid tantalum caps.  No leakage was present in my '850, but while it was open I thought it best to ensure continuing operation.  These solid tantalums have no liquid to leak, and maintain their capacitance to well-below freezing.  They were physically a bit larger than the aluminum cap carriers, so I had to gently scrape solder-mask from nearby traces, to accommodate the negative contact of the larger tantalums.
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There are reports that C18 on the display-PCB can also leak.  I replaced this 470uF with a higher-voltage-rated tantalum capacitor also.  This bulk/filter cap is not present in the schematics, but is present on the display board nonetheless.  When it leaks, it can etch and open-circuit one of the supply-traces to the display (resulting in no display).
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[http://tigerfire.ca/assets/ts850/ts850_inrad_filters.pdf Installing my #528 Inrad filter (500Hz / 455kHz IF)]
 
[[File:Ts850_underside_view.jpeg|500px|thumb|center]]
 
[[File:Ts850_underside_RFboard_view.jpeg|500px|thumb|center]]
 
[[File:ts850_underside_IFboard_view.jpeg|500px|thumb|center]]

Latest revision as of 16:48, 16 July 2020

VCTXCO upgraded, for higher PLL-reference stability. This small PCB can work in many synthesized Kenwoods, in addition to my '850

Kenwood TS-850 Noise Blanker Modification - stiffens the bias-voltage, raises the threshold, alters time-constants

TS-850 volatile-memory backup battery relocation (mine's under the DRU-2 top-cover hatch, for easy replacement - I have no DRU-2)

Make the CW sidetone level adjustable, via the front-panel MONI control (just like SSB)

Stablize the Transmit-ALC reference-voltage, by broadening the operating range of the multivibrator/invertor

TS-850 Low Band (MF: 0.5MHz to 1.6MHz) Sensitivity Improvement, by disabling/bypassing the broadcast-band attenuator

I have also replaced all my carrier-board aluminum electrolytics with 25V-rated solid tantalum caps. No leakage was present in my '850, but while it was open I thought it best to ensure continuing operation. These solid tantalums have no liquid to leak, and maintain their capacitance to well-below freezing. They were physically a bit larger than the aluminum cap carriers, so I had to gently scrape solder-mask from nearby traces, to accommodate the negative contact of the larger tantalums.

There are reports that C18 on the display-PCB can also leak. I replaced this 470uF with a higher-voltage-rated tantalum capacitor also. This bulk/filter cap is not present in the schematics, but is present on the display board nonetheless. When it leaks, it can etch and open-circuit one of the supply-traces to the display (resulting in no display).

Installing my #528 Inrad filter (500Hz / 455kHz IF)