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# Temperature Range Indicator (LM339)

2017-08-09 22:59
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This article describes the Temperature Range Indicator (LM339). The principle is very simple, very practical. The circuit components can help you understand better grasp this principle. For example, in this circuit, you can go to find and buy these components: LM339.

A window comparator usually employs 2 comparators with one output indicating the input is somewhere between two limits. In these examples, a third comparator is added to display all three conditions where the input is in the center range, or higher, or lower.The first example uses a thermistor to indicate the temperature is near 68 degrees within about /- 5 degree tollerance.

The thermistor measures 33K at around 68 degrees and varies about 3570 ohms over a range of 10 degrees. Using a 12 volt supply, the thermistor voltage will be 6 volts in the center of the range. As the temperature increases 10 degrees, the total resistance falls 3750 ohms, the current will be 12/ (66K -3750) =193uA and the thermistor voltage will be 193u * (33k -3750) = 5.65 volts. This represents a voltage change of (6 – 5.65) = 350 millivolts for a 10 degree change.

The center resistor of the window voltage divider must then drop 350 millivolts. Using 20K resistors on the top and bottom of the window voltage divider produces a current of (6 – (.350/2)) / 20K = 291uA, and the center resistor is .350/291u = 1.2K When the temperature is in the center of the window range, the voltage at pins 5 and 6 will be 1/2 the supply voltage, or 6 volts in this case.

#### Figure 1 Circuit diagram

The voltage divider (20K, 1.2K, 20K) produces a voltage of around 5.8 at pin 4 and 6.2 at pin 7. Since the voltage at pin 5 (6 volts) is more positive than the voltage at pin 4 (5.8 volts), the output at pin 2 will be a high level. At the same time, the voltage at pin 7 ( input) is higher than pin 6 (- input) causing pin 1 to also be a high level.

This condition produces a high (12 volt) level at pin 10 (- input) which produces a low level at pin 13, lighting the windowLEDindicating the temperature is in the window range. As the thermistor voltage moves above the upper 6.2 limit, pin 1 will switch low, extinguishing the windowLEDand illuminating the (Low Temp)LED. Similar action happens as the thermistor voltage moves below the lower 5.8 limit causing pin 2 to switch low (Over TempLED) while the other twoLEDs remain off.