Temperature Measurement
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1 Temperature Measurement
2 Concepts Concept from Claudius Galenus 8 Mixtures of Ice/boiling water Latin temperatura (blending/mixing) At left Galileo s Florentine Thermograph
3 Temperature Measurement
4 Florentine Thermometer
5 Fahrenheit ~1650 Florentine style thermometers developed Started playing about 1707 Previous Florentine thermometers had arbitrary scaling Fahrenheit used fixed 2-3 point references to establish scale. Ice/Salt (0) Body temperature (96)
6 Fahrenheit In 1714 Gabriel Fahrenheit stunned the world by producing two thermometers that produced the same readings!! Recognized the need for non-arbitrary temperature scales. Unlike Newton put that into practice.
7 Florentine Thermometer
8 Celsius Astronomer Anders Celsius ( ) Chose Ice/Boiling water for scale with 100 divisions During 16th Century about 20 different scales developed.
9 Kelvin William Thompson ( ) Ideal Gases Extrapolated gas behavior and recognized zero point Same scaling as Celsius
10 Kelvin
11 Laboratory Temperature Sensing Many types of sensors available Wide variety of Sensitivity Range Stability Calibrations Proper selection often based on several characteristics and/or limitations
12 Basic Sensor types Glass bulb Still in wide use Stable Scales from 0.1 -> 5 degrees Available calibrated, good lab reference Easy to read, long time constant Mercury must be routed to HAZMAT
13 Thermocouple Thomas Seebeck (1821) discovered Seebeck effect. Dissimilar Alloys produce thermoelectric circuit
14 Thermocouples When left open a potential develops based on junction temperature. Practical use not simple. Electric connection of device causes other TC junctions
15 TC Compensation Connecting eventually to copper forms two more junctions. Use of isothermal block for connection ensures formation of reference junction
16 TC Compensation Connecting eventually to copper forms two more junctions. Use of isothermal block for connection ensures formation of reference junction
17 TC Compensation Must track changes in compensation junction T Often use other types of sensors for measurement of ref T
18 Thermocouples Commercial products available with readouts Connectorized or bare junctions available based on needs Selection guides helpful
19
20 RTDs 1824 again, Sir Humphrey Davy discovered metal resistances show pronounced temperature dependence.
21 RTDs Made of either wire or metal thin films. Wire is more stable and robust Thin films have higher R Platinum most commonly used
22 RTDs NOT self powered Often used in Wheatstone bridge configuration for sensing Good choice for cryogenics
23 Non-Contact Sensing Thermal IR sensors Often have TC outputs Case T signal problematic Selectable FOV
24 Semiconductor Sensors/IC s Wide variety of devices Most based on Semiconductor properties Many have linear output w/ T
25 Semiconductors Semiconductor P-N junctions formed by bringing different materials together Formation of depletion region at junction
26 PN Junctions When not biased, depletion region forms barrier to current flow Application of external bias modifies barrier
27 PN Junction Diode Reverse biasing raises potentials and blocks current flow Forward biasing reduces barrier and promotes flow Forward bias condition of interest here
28 Diode Current At some positive bias, current begins to flow Diode Drop measurable with DVM Voltage is characteristics of material
29 Ideal Diode V-I Ideal diode current relationship Current controlled by Boltzmann distribution Available energy to overcome internal barrier ev/kt must be constant for constant current Diode Drop i nversely proportional to junction T Separation of Boltzmann tail from bandgap with decreasing T DVM will read ~.6V at 290K ~1.0V at 90K I =I 0 e ev 0 /kt 1
30 Other IC devices Wide variety of sensors Transducers Convert characteristic value to signal Most common are T -> V and T -> I Simple to use, inexpensive Often limited T range
31 AD590
32 DS1820
33 Sensor Temperature Errors
34 Energy Flow Errors
35 Measurement Errors Basic T error. Sensor isolated from object thermally and at equilibrium T out of spec for measurement Measurement error Signal degradation before measurement (R,V) Additional signal (e.g. TC connection junctions) Inadequate calibration Improperly spec d measurement components (wrong tolerance, wrong T coeff.)
36 Self Heating Thermal impedance of mechanical structure of sensor controls energy flow Effect can be several degrees depending on contact and wattage
37 Calibration Responses often non-linear Polynomial or piecewise interpolation required ITS90 Standard tables available for most TC s, RTD s
38 IC Calibration IC types often have second order effects expressed as nonlinearity Removal can provide order of magnitude improvement in accuracy
39 Choosing Wisely
40 Really Chilly
41 Temperatures in Astronomy Telescopes General Environment for records Environment for Control Structure temperature (focus) Mirror T (match to air T) Measure ut for seeing estimation & control Process control (lubricant T, dry air T, dewpoint) IR Sensing of clouds
42 Temperatures in Instrumentation Simple Monitoring for logging and trending Dewar T, hold times Electronics temperatures Detector/Optics temperatures Thermal control of critical items Detector T. Control behavior etc Dark I Instrument monitoring/control Monitor dt in instrument, control gradients, control heating rates Protection. Heaters/Ventilation to keep components within T limits
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