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Lecture # 9 Power Amplifiers (Class A & B)
Instructor: Dr. Ahmad El-Banna
Benha University Faculty of Engineering at Shoubra
Dec
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2014
ECE-312 Electronic Circuits (A)
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Post Mid-Term Schedule
• Power Amplifiers Week 8
• Oscillators Week 9
• Tuned Amplifiers
• Mixers & Modulators Week 10
• Project Delivery & Oral Exam (Group A)
• Project Delivery & Oral Exam (Group B) Week 11 2
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Agenda
Introduction
Series-Fed Class A Amplifier
Transformer-Coupled Class A Amplifier
Class B Amplifier Operation
Class B Amplifier Circuits 3
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INTRODUCTION 4
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Amplifier Classes
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• In small-signal amplifiers, the main factors are usually amplification linearity and magnitude of gain.
• Large-signal or power amplifiers, on the other hand, primarily provide sufficient power to an output load to drive a speaker or other power device, typically a few watts to tens of watts.
• The main features of a large-signal amplifier are the circuit’s power efficiency, the maximum amount of power that the circuit is capable of handling, and the impedance matching to the output device.
• Amplifier classes represent the amount the output signal varies over one cycle of operation for a full cycle of input signal.
Power Amplifier Classes: 1. Class A: The output signal varies
for a full 360° of the input signal. • Bias at the half of the supply
2. Class B: provides an output signal
varying over one-half the input signal cycle, or for 180° of signal. • Bias at the zero level
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Amplifier Efficiency
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3. Class AB: An amplifier may be biased at a dc level above the zero-base-current level of class B and above one-half the supply voltage level of class A.
4. Class C: The output of a class C amplifier is biased for operation at less than 180° of the cycle and will operate only with a tuned (resonant) circuit, which provides a full cycle of operation for the tuned or resonant frequency.
5. Class D: This operating class is a form of amplifier operation using pulse (digital) signals, which are on for a short interval and off for a longer interval.
Power Amplifier Classes …
• The power efficiency of an amplifier, defined as the ratio of power output to power input, improves (gets higher) going from class A to class D.
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SERIES-FED CLASS A AMPLIFIER
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SERIES-FED CLASS A AMPLIFIER
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• DC Bias Operation
• AC Operation
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Power Considerations
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• Maximum Efficiency
• Efficiency
• Output Power
• The power drawn from the supply is
N.B.:
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Example
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TRANSFORMER-COUPLED CLASS A AMPLIFIER
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Transformer Action
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• A transformer can increase or decrease voltage or current levels according to its turns ratio a=N1:N2
• The impedance connected to one side of a transformer can be made to appear either larger or smaller (step up or step down) at the other side of the transformer.
• Voltage Transformation
• Current Transformation
• Impedance Transformation
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Operation of Amplifier Stage
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• Maximum Theoretical Efficiency
• Signal Swing and Output AC Power
• Check EXAMPLE 12.4 !
• power loss
• Efficiency
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CLASS B AMPLIFIER OPERATION 14
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Push–Pull Amplifier
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• Connection of push–pull amplifier to load
• Class B operation is provided when the dc bias leaves the transistor biased just off, the transistor turning on when the ac signal is applied.
• This is essentially no bias, and the transistor conducts current for only one-half of the signal cycle.
• The current drawn from a single power supply has the form of a full-wave rectified signal
• whereas that drawn from two power supplies has the form of a half-wave rectified signal from each supply.
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Efficiency & Power Consideration
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• Power Dissipated by Output Transistors
• Efficiency
• Maximum Power Considerations
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CLASS B AMPLIFIER CIRCUITS 17
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Phase-Splitter Circuits
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Class B Amplifier Circuits
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• Transformer-Coupled Push–Pull Circuits
Transistors are bulky !
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Class B Amplifier Circuits..
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• Complementary-Symmetry Circuits
Needs two separate voltage supplies!
• Complementary-symmetry push–pull circuit using Darlington transistors.
Biasing the transistors in class AB improves this operation
o higher output current o lower output resistance.
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Class B Amplifier Circuits…
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• Quasi-Complementary Push–Pull Amplifier
• Quasi-complementary push–pull transformerless power amplifier.
o In practical power amplifier circuits, it is preferable to use npn transistors for both high-current-output devices.
o The push–pull operation is achieved by using complementary transistors (Q 1 and Q2) before the matched npn output transistors ( Q3 and Q4 ).
o R2 can be adjusted to minimize crossover distortion.
o It is the most popular form of power amplifier
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Example
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• For more details, refer to:
• Chapter 12 at R. Boylestad, Electronic Devices and Circuit Theory, 11th edition, Prentice Hall.
• The lecture is available online at:
• http://bu.edu.eg/staff/ahmad.elbanna-courses/11966
• For inquires, send to:
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