Difference between revisions of "Temperature sensors"

From MarineSpecies Introduced Traits Wiki
Jump to: navigation, search
Line 16: Line 16:
 
A thermometer is an instrument that measures temperature. However, as the thermometer does not measure the kinetic state of molecules but rather other parameters that are influenced by the change of temperature; thus, there are several different techniques to measure temperature.
 
A thermometer is an instrument that measures temperature. However, as the thermometer does not measure the kinetic state of molecules but rather other parameters that are influenced by the change of temperature; thus, there are several different techniques to measure temperature.
 
The most commonly used temperature sensors in oceanography are  the Resistance Temperature Detectors (RTDs) and the Thermistors.
 
The most commonly used temperature sensors in oceanography are  the Resistance Temperature Detectors (RTDs) and the Thermistors.
{| style="border: 1px solid black"; align="right"
+
{| style= border"1" align="right"
 
{| style="border: 1px solid #000000"
 
{| style="border: 1px solid #000000"
 
  ! style="background: #696969; color: white" | '''Type'''
 
  ! style="background: #696969; color: white" | '''Type'''

Revision as of 09:50, 12 July 2012

Category:Stub
Category:Revision

The authors below are planning to work on this article


See also: Instruments and sensors to measure environmental parameters


Introduction

Temperature Definition

Temperature is a difficult concept to define. Ordinarily, temperature is a qualitative measure for classifying how objects appear to be hot or cold. More specifically, temperature is a physical parameter that describes the average kinetic energy of molecules, it is not a measure of energy but it is proportional to the average kinetic energy of molecules. That means that the hotter molecules are, the more they move. By contrast, when molecules do not move at all, i.e., their kinetic energy is zero, then the temperature is 0ºK (absolute zero, -273.15ºC) [1]

Sensors

A thermometer is an instrument that measures temperature. However, as the thermometer does not measure the kinetic state of molecules but rather other parameters that are influenced by the change of temperature; thus, there are several different techniques to measure temperature. The most commonly used temperature sensors in oceanography are the Resistance Temperature Detectors (RTDs) and the Thermistors.

Type Thermometric Variable
liquid in glass volume
constant volume gas pressure
bimetallic strip coil pitch
electric resistor resistance
thermocouple voltage
Different types of thermometers and respective

thermometric variables


Temperature Scales

Different temperature scales

Temperature scales are based on “temperature standard points”, points at which a phenomenon occurs at constant temperature. Fahrenheit scale was developed by Daniel Gabriel Fahrenheit (in 1724) supposedly based on the lowest temperature achieved at the time (0ºF) and using 180 degrees between the freezing and the boiling point of water, 32 ºF and 212 ºF, respectively. As seen above, Kelvin scale (K) is based on the absolute zero with 100 degrees between the freezing and the boiling point of water. The zero value of the Celsius scale is based on the freezing point of water and the degree range is the same as in Kelvin. SI units are represented in Kelvin (K), while the most commonly used scale is Celsius.


RTDs

Example of a resistance temperature detector (RTD)

The principle behind this sensor is that of that pure metals change their resistivity with temperature in a predictable way. RTDs are constructed with metals whose resistivity increases linearly with temperature. Metals used should a have high boiling point, be easily available in its pure form, be resistant to corrosion (chemical stability) and electrical properties that are highly reproducible. The most commonly used metal is platinum but copper and nickel are also used.

Thermistors

Thermistors are temperature sensitive resistors. The principle behind the functioning of this sensor is much like the one from the RTD, however thermistors differ from RTDs in that the material used in a thermistor is generally a ceramic or polymer, while RTDs use pure metals and, also unlike RTDs, the resistance of a thermistor decreases with increasing temperature. The temperature response is different as well; RTDs are useful over broader temperature ranges, while thermistors typically achieve a higher precision within a limited temperature range, usually −90 °C to 130 °C.


Thermocouples

Thermocouples are based on the Seebeck effect: two dissimilar metals bearing different temperatures, joint together at at least two different points (a reference and a measuring point) will produce electromotive force proportional to the temperature. Different metal-pairs produce different outputs (i.e., temperature ranges). Thermocouples are not as accurate as thermistors or RTDs but can take readings of very high temperatures ranges over 2000°C). They are used, for instance, in High Temperature Probes attached to ROVs exploring hydrothermal vents.

Calibration

Calibration is necessary to verify sensor/instrument performance and to ensure that the sensor maintains its performance over time. RTDs and thermistors are calibrated by generating Temperature vs. Resistance graphs and then comparing them with international standard (IPTS-68, ITS-90), thermocouples are calibrated similarly by building a calibration graph with voltage and temperature while measuring the reference temperature with an accurate thermometer or using a “temperature standard point”.

Read more: http://wiki.answers.com/Q/How_do_you_calibrate_a_thermocouple#ixzz20DnbTYKD

Examples of Instruments:

CTD - thermistors / RTDs T chain - thermistors XBT - thermistors HT probes - thermocouples



See also

... ...

References