Sensor Project Essay
I have decided to measure the temperature of a greenhouse using a thermistor in a potential divider circuit, and then when the temperature gets too cold, the relay will activate and turn on a heater. A thermistor is a temperature sensor in which its resistance will increase or decrease with temperature change depending on what type of resistor. An alternative for this experiment could have been measuring light levels in a greenhouse using an LDR. A light sensor in a green house could tell you when and where in the greenhouse the most intense sunlight is, which you could you use to aid your growing skills.
I decided to design a temperature sensor for a greenhouse using a thermistor, as temperature can be critical in growing plants especially if it gets too hot or too cold. As my thermistor is an NTC this means that as temperature decreases its resistance increases, and when temperature increases its resistance decreases. Plan: Circuit – Explanation – The water is boiled until it reaches a temperature of just above 90i?? Celsius. The thermistor is inserted into the hot water and the voltage across it is measured for a temperature of 90i??.
The varying voltage across the thermistor is measured as the temperature falls at 10-degree intervals. The experiment is repeated and a second set of readings obtained. An average set of readings is obtained and a voltage-temperature conversion graph is plotted. Then test the sensor by attaching the amplifier and relay. Materials/Apparatus Needed: Thermometer, Thermistor, Beaker, Electric kettle, Power supply, Multimeter, Variable resistor, Amplifier, Relay, Leads. These pictures show me testing the thermistor (left), and testing the amplifier to see at what voltage it activates (right).
Variables – The volume of water used for this experiment was kept at 250cmi?? The experiment was completed over one day, and on the day, the temperature in the physics laboratory where the experiment took place was 19i?? C. Results – Calculation of R1: I want my amplifier to activate at 10i?? C, for the heater to come on. The amplifier turns on at 1. 93V, as I have tested, and because the voltage is proportional to the resistance, I will work out which resister to use using the equation below. (At 10i?? C the thermistor’s resistance is 124. 8? )
Subject: Extra Sensory,
University/College: University of Arkansas System
Type of paper: Thesis/Dissertation Chapter
Date: 10 July 2017
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