SHOW YOUR COMPLETE SOLUTION AND GIVE WHAT IS ASKED. ANSWERS SHOULD BE IN 4 DECIMAL PLACES In a series transistor voltage regulator of Figure 1, the load current varies from 0 to 1.075 A and the unregulated dc input varies from 24 V to 33V. The Zener voltage is 9.3 V which required at least 1 mA to stay in its regulating region. Beta is 64. Determine (d) The Zener maximum current in mA; (e) The maximum power dissipated in Zener diode in watt(s); (f) The maximum base current in mA.

SHOW YOUR COMPLETE SOLUTION AND GIVE WHAT IS ASKED. ANSWERS SHOULD BE IN 4 DECIMAL PLACES In a series transistor voltage regulator of Figure 1, the load current varies from 0 to 1.075 A and the unregulated dc input varies from 24 V to 33V. The Zener voltage is 9.3 V which required at least 1 mA to stay in its regulating region. Beta is 64. Determine (d) The Zener maximum current in mA; (e) The maximum power dissipated in Zener diode in watt(s); (f) The maximum base current in mA.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter21: Resistive-capacitive Series Circuits

Section: Chapter Questions

Problem 6RQ: A 15-F AC capacitor is connected in series with a 50 resistor. The capacitor has a voltage rating...

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Question

SHOW YOUR COMPLETE SOLUTION AND GIVE WHAT IS ASKED. ANSWERS SHOULD BE IN 4 DECIMAL PLACES

In a series transistor voltage regulator of Figure 1, the load current varies from 0 to 1.075
A and the unregulated dc input varies from 24 V to 33V. The Zener voltage is 9.3 V which required at least 1 mA to stay in its regulating region. Beta is 64.
Determine

(d) The Zener maximum current in mA;
(e) The maximum power dissipated in Zener diode in watt(s);
(f) The maximum base current in mA.

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