40m QIL Cryo_Lab CTN SUS_Lab TCS_Lab OMC_Lab CRIME_Lab FEA ENG_Labs OptContFac Mariner WBEEShop
  40m Log  Not logged in ELOG logo
Message ID: 13272     Entry time: Wed Aug 30 06:45:32 2017
Author: Kevin 
Type: Summary 
Category: PEM 
Subject: New Heater Circuit 

I changed the heater circuit described in this elog to a current sink. The new and old circuits are shown in the attachment. The heater is R_h and is currently 24Ω; the sense resistor R is currently 6Ω. The op-amp is still an OP27 and the MOSFET is still an IRF630.

The current through the old circuit was saturating because the gate voltage on the MOSFET was saturating at the op-amp supply rails. This is because the source voltage is relatively high: V_S = I(R + R_h).

In the new circuit the source voltage is lower and the op-amp can thus drive a large enough V_{GS} to draw more current (until the power supply saturates at 25V/30Ω = 0.8A in this case). The source and DAC voltages are equal in this caseV_{\mathrm{DAC}} = V_S and so the current is I = V_{\mathrm{DAC}}/R. Since this is the same current through the heater, the drain voltage is V_D = V_{cc} - IR_h. I observed this behavior in this circuit until the power supply saturated at 0.8A. Note that when this happens V_D = V_S and the gate voltage saturates at the supply rails in an attempt to supply the necessary current.

Attachment 1: circuit.pdf  24 kB  | Hide | Hide all
circuit.pdf
ELOG V3.1.3-