Sweet, I like it
http://www.makezine.com/blog/archive/2005/08/cvs_camcorder_u.html
Your package is in the UPS system and is on time with a scheduled delivery date of Sep 26, 2005.
bummer, they say no resistors until Monday : ( , biggest question mark I have right now is will the new thermistor match the used one, if two match than we have a better chance of them all being close, I'll try get that done this weekend.
Best guess is 110 Ω , of the two nearby resistors to the current “ideal” 200°F it is the closest at 198°F also it will reduce the current more than a 100 Ω resistor (center 204°F), 110 Ω is not that common, if you only find 100’s then you can try that one or put a 100 Ω resistor and a 10 Ω resistor in series, this is not ideal as you will have a unsupported mid air solder joint witch is potentially less reliable but I will let you make that call.
Rick here are the early directions, they may require interpretation on your end, if something does not make sense let me know.
1 Removing the gauge
Removal is not too bad, the FSM did a pretty good job of getting me through the cluster removal so I will start with the cluster removed, if you need info on removing the cluster shoot me a message.
First the cluster splits in two, the gauges and a white backing are one half, the "glass" and black mask in the other. There are clips around the perimeter lift each one in turn by hand and the two halves will split, after the glass is off be careful not to set it on its face, the cards and needles are kind of fragile. Try not to not touch the face cards of the gauges, fingerprints leave permanent marks.
There are 4 screws (see pic above in the thread) back these screws out partially and then press them with moderate finger pressure. the gauge will seam stuck at first but then will pop up a little bit, if is feels wrong or partially attached stop and give it a good looking over, completely remove the screws and then carefully work the gauge out, it had some slight interference with the tack card but it can be worked out of there. The tach card is semi flexible but do not force it, it might crease.
2 bypassing the Zener Diode
You could completely de-solder the diode, remove it and replace it with a wire, working on the top side of the PCB in that area will be more difficult. An easier and completely acceptable solution is to just bypass it on from the bottom of the PCB find the two solder points of the diode and solder a suitable jumper wire from one point to the other, there is clearance for a small wire on the bottom so no problem there.
The currents this jumper will carry are quite small, a 22 gauge solid or multi-stranded wire would be fine, tined copper would be easier to work with.
3. Replace the resistor
De-solder the resistor and solder in the new one, no polarity to observe so it goes in either way, I would install this one on the top side as the original as it has the potential to get hot, I would also ensure that it has plenty of clearance to other objects for cooling.
4. Check connections (optional)
Measure the resistance from the “U” nut on the back of the PCB to the mount post near the resistor, it should have almost none or about the same as touching you meters leads together
Remove the small brass nut near the “IGN” marking, measure the resistance from the IGN mount post to the mount post near the resistor, it should read near 110 ohms.
Torque for the little brass nuts is medium finger tight with a bare socket (no ratchet)
5 measure and report back resistance of air core motor (optional)
Remove 2 small brass nuts, one at IGN and the other near “U” marking
Measure the resistance from “Temp” to “U” (inductor L1)
Measure resistance from “Temp” to “--“ (inductor L3)
Measure resistance from “Temp” to “IGN” (inductor L2)
6 Reassemble
P.S. wile you are in there check the PCB for charring/darkening around the resistor leads as they pass through the PCB, I have a suspicion that this can be a tell tale sign of an overheated 80 at least on the 96/97.
(so OK, it's flopping around the cabin but it adds a masculine touch to things... 
