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Thermal runaway in a transistor biased in the active region is due to 1. heating of the transistor. 2. change in β due to an increase in temperature. 3. change in reverse collector saturation current due to a rise in temperature. 4. base-emitter voltage VBE which decreases with rise in temperature. Which of the above statements is/are correct?

Thermal runaway in a transistor biased in the active region is due to 1. heating of the transistor. 2. change in β due to an increase in temperature. 3. change in reverse collector saturation current due to a rise in temperature. 4. base-emitter voltage VBE which decreases with rise in temperature. Which of the above statements is/are correct? Correct Answer 2 and 3

Explanation:

Thermal runaway

The excess heat produced at the collector-base junction may even burn and destroy the transistor. This situation is called the “Thermal Runaway” of the transistor.

The collector current is defined as

IC  = β IB + (1 + β) IC0

IC0: leakage current and this depends on temperature.

  • If the temperature is increased then IC0 increases.
  • If IC0 increases then collector current also increases


As T ↑ ⇒ Ico ↑ ⇒ Ic ↑ ⇒ PT ↑ ⇒ T ↑

This is a Cumulative process.

Statement 3 is correct

β depends on various parameters like

  • Temperature
  • Frequency
  • Process variation etc.


∴ Thermal runaway is also possible for a change in β with temperature. Statement 2 is correct.

For Silicon transistor, this temperature is in the range 150° to 225° C and for Germanium, it is between 60° to 100° C.

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