Laboratory - Resistance

Experiments With Temperature Sensors - 2

One way to measure temperature is with a thermistor in a bridge circuit. Here is a thermistor (shown as a variable resistor - the one with an arrow through it) in a bridge circuit.

The bridge circuit has a number of characteristics that make it a useful circuit.

The output voltage can be adjusted so that it is zero at some reference temperature.
To adjust the output voltage to zero - when the bridge is said to be balanced - requires that the resistor values satisfy a certain relationship.
Then, if the temperature moves above the reference temperature the output voltage moves in one direction - positive or negative? - and if the temperature moves below the reference temperature, the output voltage moves in the other direction.

Two EE grad students - Willy Nilly and Millie Farad are interested in using this circuit to measure temperature. They are trying to help out some friends in Chemical Engineering who need to be able to measure temperature so that they can build a temperature sensing and control circuit. They need your help to answer the following questions.

Is the circuit set up properly so that output voltage goes positive when temperature rises - assuming that the bridge is balanced at room temperature?
If it isn't set up properly, what changes can be made?

Willy and Millie are also puzzled by another aspect of this circuit. They are not sure how much current can be drawn from the circuit and still be able to get an accurate temperature measurement. They have generated the following questions.

How does the output voltage depend upon current drawn from the output terminals.
Does the answer to this question depend upon temperature?

Finally, Millie has been working with something called Mathcad, and she thinks that she can use that to predict how the output voltage will depend upon temperature. However, she needs help setting that up, and has called on you to help.

Generate a graph of output voltage vs. temperature from the theoretical equation relating thermistor resistance and temperature.