For the common emitter class A power Amplifier shown next figure, answer the following questions: a) Find the values of RL, Q-point collector and base currents, and RB to achieve a maximum collector current of 1.2 Amperes assuming 100% swinging at the output load resistance. b) Maximum power delivered to the transistor in watts (PQ). c) using the value of RL in (a) what would be the value of Ic(MAX) and Vcc if the maximum power delivered to the transistor becomes 5 Watts.
For the common emitter class A power Amplifier shown next figure, answer the following questions: a) Find the values of RL, Q-point collector and base currents, and RB to achieve a maximum collector current of 1.2 Amperes assuming 100% swinging at the output load resistance. b) Maximum power delivered to the transistor in watts (PQ). c) using the value of RL in (a) what would be the value of Ic(MAX) and Vcc if the maximum power delivered to the transistor becomes 5 Watts.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:For the common emitter class A power
Amplifier shown next figure, answer the
following questions:
a) Find the values of RL, Q-point collector
and base currents, and RB to achieve a
maximum collector current of 1.2 Amperes
assuming 100% swinging at the output load
resistance.
b) Maximum power delivered to the
transistor in watts (PQ).
c) using the value of RL in (a) what would be
the value of Ic(MAX) and Vcc if the
maximum power delivered to the transistor
becomes 5 Watts.
d) what is the maximum power that can be
delivered to RL based on both answers in
(a) and (c) assuming maximum swinging is
achieved.
e) calculate the power efficiency in both
parts (a) and (c). explain the result.
Transcribed Image Text:B=80, Vcc =30V, and Ic.max=1.2A.
Vcc
Rg
C
Vs = Vp sin or
(V)
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