(c) Design a voltage regulator using the circuit in Figure 3. The voltage regulator is to power a car radio at V = 9 V from an automobile battery whose voltage may vary between 11 and 13.6 V. The current in the radio will vary between 0 (off ) to 100 mA (full volume). Iz(min)=0.1 Iz(max). Hint: Find the suitable current limiting resistor and Zener diode. %3D R; Vps Radio Figure 3. Circuit for design
(c) Design a voltage regulator using the circuit in Figure 3. The voltage regulator is to power a car radio at V = 9 V from an automobile battery whose voltage may vary between 11 and 13.6 V. The current in the radio will vary between 0 (off ) to 100 mA (full volume). Iz(min)=0.1 Iz(max). Hint: Find the suitable current limiting resistor and Zener diode. %3D R; Vps Radio Figure 3. Circuit for design
Chapter59: Motor Startup And Troubleshooting Basics
Section: Chapter Questions
Problem 12SQ: How is a solid-state diode tested? Explain.
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![(c) Design a voltage regulator using the circuit in Figure 3. The voltage regulator is to
power a car radio at V = 9 V from an automobile battery whose voltage may vary
between 11 and 13.6 V. The current in the radio will vary between 0 (off ) to 100 mA
(full volume). Iz(min)=0.1 Iz(max).
Hint: Find the suitable current limiting resistor and Zener diode.
%3D
R;
Vps
Radio
Figure 3. Circuit for design](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F29286eeb-f35a-4f34-ad0f-6e052366f0bf%2F0c712168-4368-4c44-b7c6-381d712e707b%2Fcvi3zkl.png&w=3840&q=75)
Transcribed Image Text:(c) Design a voltage regulator using the circuit in Figure 3. The voltage regulator is to
power a car radio at V = 9 V from an automobile battery whose voltage may vary
between 11 and 13.6 V. The current in the radio will vary between 0 (off ) to 100 mA
(full volume). Iz(min)=0.1 Iz(max).
Hint: Find the suitable current limiting resistor and Zener diode.
%3D
R;
Vps
Radio
Figure 3. Circuit for design
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