At some stage we will need to install new temperature sensors on the thermal shields. Tara et al. had installed AD590s in vacuum (and did a similar thing for the pervious longer cavities), these are now broken. They give currents proportional to applied voltage in the forward direction (see: PSL:1173). One theory is that they were overheated during soldering. Another possibility is that that the ICs didn't fare well in vacuum. Either way it would be best to have passive components that we know are vacuum compatible and low noise.
Previous rana post here on temperature sensor noise plots: PSL:1205
We need a robust low noise circuit to turn resistance into a ADC usable voltage. I've attached a sketch below. It uses a IC dual current source regulator (REG200) and a low noise instrument amplifier (AD620) to convert resistance of a PT100 sensor (like the one used in the TCS, see PSL:1700 and subsequent posts) in a three wire scheme. I've yet to compute a noise budget, for now I've penciled in some specs for noise I've drawing from their data sheets. This scheme would require three wires per sensor (but it might be possible to double up the grounding line between sensors).
Note: the R1 resistor provides an offset so that the Vout is within a useable range for high gain. R_g sets gain, where G = 49.4kΩ/R_g +1.
edit: added not on function of R1 and R_g - awadeWed Nov 9 17:47:14 2016