Instytut Fizyki Doświadczalnej Wydział Matematyki, Fizyki i Informatyki UNIWERSYTET GDAŃSKI

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Instytut Fizyki Doświadczalnej Wydział Matematyki, Fizyki i Informatyki UNIWERSYTET GDAŃSKI

Experiment 28 : Determining the characteristics of thermistors I. Background theory. 1. Energy band structure in solids. 2. The origin of band gaps. 3. Classification of solids based on band theory. 4. Resistivity temperature dependence of conductors, semiconductors and insulators. 5. Conductivity of solids. 6. Electrical conductivity of intrinsic semiconductors. 7. Thermistors : a) temperature resistance characteristics; b) voltage current characteristics; c) power - temperature characteristics. 8. Uses of thermistors. Picture 1. Experimental setup to characterise thermistors: 1 power supply; 2 decade resistor; 3 RLC meter; 4 thermistor; 5 thermometer; 6 multimeters; 7 thermostat. Instytut Fizyki Doświadczalnej 1.

II. Experimental tasks. 1. Assemble the components shown in Picture 1 according to the diagram in Figure 2. Rysunek 2. Schemat układu do wyznaczania charakterystyk opornościowo-temperaturowych: R t termistor; RLC miernik RLC. 2. Present a graph of resistance temperature characteristics for the thermistor in the range 12 ⁰C to 50 ⁰C with a constant temperature increase of 1 ⁰C. To do this, place the thermistor in a water bath. Turn on the thermostat and controller (7 in Picture 1). When you see OFF on the controller, set the temperature to 12 ⁰C with the arrow keys and confirm by holding the OK button for a few seconds. When this temperature is reached, measure the resistance. Turn off the thermostat (with the main switch). Continue measuring the thermistor s resistance as a function of temperature. To do this, use the temperature control arrow keys to gradually raise the temperature of the water in steps of 1 ⁰C, pressing OK each time. Measure the resistance for each temperature until you reach 50 ⁰C. Read off the resistance using the RLC meter (by turning it on and selecting R with the button. Assume a measurement uncertainty of R = 0,5 %. Plot graphs of your results: R = f (T) and ln R = f (1/T). Determine the thermistor s dissipation constant, temperature coefficient of resistance for 25 ⁰C and semiconducting band gap. Instytut Fizyki Doświadczalnej 2.

3. Assemble the components according to Figure 3. Figure 3. Circuit diagram for determining voltage-current characteristics: R z safety resistor; R t thermistor. 4. Plot a graph of the thermistor s voltage current characteristics. To do this, remove the thermistor from the thermostat. Set the resistance R z for protecting the thermistor against damage (on the decade resistor) to 15 kω. Measure the voltage U as a function of current, starting from I = 0,5 ma. In the range 0,5 ma to 2 ma take steps of 0,1 ma, while for the range 2 ma to 7 ma take steps of 0,5 ma The maximum current through the thermistor must not exceed 7 ma. Plot a graph of your results U = f ( I ). 5. Determine the power temperature characteristics of the thermistor using the results obtained in steps 2 and 4. Present your results in a graph. 6. Discuss uncertainties. 7. Compare your results with the data given in the specifications found in the Appendix. Instytut Fizyki Doświadczalnej 3.

III. Apparatus. 1. Voltcraft PPS 12008 power supply. 2. MA 2115 decade resistor. 3. Agilent 41732A RLC meter. 4. NTC 210 semiconducting thermistor. 5. Thermometer. 6. 2 AT U 3401 A multimeters. 7. Julabo F12 ED Thermostat. IV. Literature. 1. A.P. Arya Fundamentals of Atomic Physics, Allyn & Bacon, Inc., Boston 1971. 2. A. Moliton Optoelectronics of Molecules and Polymers, Springer, 2001. 3. C. Kittel Introduction to Solid State Physics, Wiley & Sons, Inc., New York 2004. 4. H.A. Enge, M.R. Wehr, J.A. Richards Introduction to Atomic Physics, Wesley 1981. Instytut Fizyki Doświadczalnej 4.

Appendix NTC-210 thermistor specifications Thermistor bead in glass casing Thermistors encased in glass (Figure 4), with negative temperature coefficients of resistance, are used as sensors and temperature controllers as well as elements to compensate for temperature effects on electronic devices in consumer equipment and professional equipment. Figure 4. NTC-210 thermistor. Specifications: Characteristics for T = 25 o C: 1. Nominal resistance R 25 : 10; 15; 22; 33; 47 kω ± 20%; 2. B-constant : 3800 K ± 5%; 3. Temperature coefficient of resistance α 25 : - 4,3% / o C ± 5%; 4. Thermal dissipation constant K t : 1mW / o C ± 20%. Operating parameters: 1. Maximum power P max : 175 mw; 2. Thermal operating range : -25 +200 o C; 3. Storage temperature range: +15 +35 o C. Instytut Fizyki Doświadczalnej 5.

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