There are many different types of temperature sensors, and many of them operate in completely different ways. The most basic type of temperature sensor is the classic mercury thermometer. This sensor works purely based on the expansion and contraction of mercury in a glass tube. The next step up technologically is the bimetallic strip temperature sensor. This sensor makes use of the different coefficients of expansion that different materials have. These sensors are usually composed of steel and copper, which expand and contract at different rates. This sensor takes the temperature change, and turns it into a mechanical displacement. This technique can be used in many different types of sensors.
There are also much newer sensors that instead of turning heat into mechanical energy, they read the heat change in a difference of electrical energy. The two most common sensors are a thermistor and a resistance thermal detector (RTD). These two objects work on very similar principles, they both measure the change in resistance and correlate it with the change in temperature. The main difference between the two is the materials used to make them. Thermistors use primarily ceramic, whereas RTDs use pure metals. This difference in materials usually results in thermistors having a more accurate reading in a smaller range of temperatures whereas RTD stay accurate even at extreme temperatures.
Most of the previous sensors all require contact, or to be within convection range of the heat source to get a viable reading, however there are also non-contact thermal sensors that use radiation. These sensors use Plank's Law to correlate the radiation given off by an object and its overall temperature. These sensors are really useful as you can measure the temperature of something while being far away from it, whether it be the temperature in an oven, or the temperature of the sun.
Of all these sensors, the most useful for our applications is the RTD. The sensors themselves are really just metal, so they have no moving parts, and never need to be calibrated. Because of the simplicity and cheapness of these sensors they can easily be applied almost anywhere in a building. Couple the readings of these sensors along with the HVAC system or even window/blinds control and, without any human interaction, a room could always be at an optimal temperature. This is just one example that these sensors could be used in, the fact that they are so small and cheap and easy means they could be used almost anywhere, in ovens, in fridges, in water heaters, anywhere that temperature levels are of interest, these types of sensors could be applied.
Because I was the first to post, I discussed the history of sensors and their many different types. It seems the other posters used mine as a base and talked about what the different sensors are used for now or what they could be used for in the future. David talks about thermography which, in simple terms, is seeing heat which I think is a really cool concept and, like David said, has many uses including assisting fire fighters to save lives. Nathan goes on to discuss how IR sensors are used a lot in cooking to ensure the quality of food. Not only is it being used to ensure the food is done cooking, but I just saw on the news the other day, police are pulling over food delivery trucks and using these IR sensors to ensure the truck is at correct temperature for food shipment.
Sources:
http://www.ehow.com/how-does_4928076_temperature-sensor-work.html
http://www.instructables.com/id/Temperature-Sensor-Tutorial/
http://en.wikipedia.org/wiki/Bimetallic_strip
http://en.wikipedia.org/wiki/Thermistor
http://en.wikipedia.org/wiki/Resistance_thermometer
There are also much newer sensors that instead of turning heat into mechanical energy, they read the heat change in a difference of electrical energy. The two most common sensors are a thermistor and a resistance thermal detector (RTD). These two objects work on very similar principles, they both measure the change in resistance and correlate it with the change in temperature. The main difference between the two is the materials used to make them. Thermistors use primarily ceramic, whereas RTDs use pure metals. This difference in materials usually results in thermistors having a more accurate reading in a smaller range of temperatures whereas RTD stay accurate even at extreme temperatures.
Most of the previous sensors all require contact, or to be within convection range of the heat source to get a viable reading, however there are also non-contact thermal sensors that use radiation. These sensors use Plank's Law to correlate the radiation given off by an object and its overall temperature. These sensors are really useful as you can measure the temperature of something while being far away from it, whether it be the temperature in an oven, or the temperature of the sun.
Of all these sensors, the most useful for our applications is the RTD. The sensors themselves are really just metal, so they have no moving parts, and never need to be calibrated. Because of the simplicity and cheapness of these sensors they can easily be applied almost anywhere in a building. Couple the readings of these sensors along with the HVAC system or even window/blinds control and, without any human interaction, a room could always be at an optimal temperature. This is just one example that these sensors could be used in, the fact that they are so small and cheap and easy means they could be used almost anywhere, in ovens, in fridges, in water heaters, anywhere that temperature levels are of interest, these types of sensors could be applied.
Because I was the first to post, I discussed the history of sensors and their many different types. It seems the other posters used mine as a base and talked about what the different sensors are used for now or what they could be used for in the future. David talks about thermography which, in simple terms, is seeing heat which I think is a really cool concept and, like David said, has many uses including assisting fire fighters to save lives. Nathan goes on to discuss how IR sensors are used a lot in cooking to ensure the quality of food. Not only is it being used to ensure the food is done cooking, but I just saw on the news the other day, police are pulling over food delivery trucks and using these IR sensors to ensure the truck is at correct temperature for food shipment.
Sources:
http://www.ehow.com/how-does_4928076_temperature-sensor-work.html
http://www.instructables.com/id/Temperature-Sensor-Tutorial/
http://en.wikipedia.org/wiki/Bimetallic_strip
http://en.wikipedia.org/wiki/Thermistor
http://en.wikipedia.org/wiki/Resistance_thermometer
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