Specifications

Figure 28 Bead type thermistor ((Permission is granted under the GNU Free

Documentation License, http://en.wikipedia.org/)

Different temperature sensors have a wide range of temperatures pre-designed

within each IC chip for manufacturing and functionality purposes. In Florida, we

would generally want a temperature sensor to have a range of temperatures from

40 or 50 degrees F to probably 90 degrees F. That way we can preset the

thermostat as to what temperature a user would want depending upon what

season of the year it is. Most thermostats either use mercury or bimetallic strips

to bend as the temperature changes. Bimetallic strips are two different metals

that break or make electrical contact within a thermostat. These two metals

expand by different amounts depending upon the material being used and

eventually causing the strip to bend. This expansion is known as average

coefficient of linear expansion. In order to find the average coefficient of linear

expansion, the formula needed to derive this is as follows:   



.  is

the change in the initial and final lengths of the metals,  is the coefficient of

linear expansion, and  is the change or difference in the final and initial

temperatures.

An air conditioner consists of the following categories: sensors, microcontrollers,

and actuators. All three of these categories go through a control loop starting

from a sensor where it reads/ interprets a signal and sends an electronic signal to

the microcontroller. Then the microcontroller reads the sensor‟s signal and

eventually converts it to the user‟s preferred setting on the controller. Finally the

actuator responds to the microcontroller signal and performs an action to activate

the sensors information.

In order to search for good sensors one needs to determine how reliable a

sensor is, whether the sensor is weather proof in case of a wire short-circuiting,

and its relative tolerance or resolution. The next step would be to search for how