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Chapter 11 Amplifiers: Specifications and External Characteristics

Chapter 11 Amplifiers: Specifications and External Characteristics. Chapter 11 Amplifiers: Specifications and External Characteristics. Use various amplifier models to calculate amplifier performance for given sources and loads. 2 . Compute amplifier efficiency.

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Chapter 11 Amplifiers: Specifications and External Characteristics

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  1. Chapter 11Amplifiers: Specifications andExternal Characteristics

  2. Chapter 11Amplifiers: Specifications andExternal Characteristics • Use various amplifier models to calculate amplifier performance for given sources and loads. • 2. Compute amplifier efficiency.

  3. 3. Understand the importance of input and output impedances of amplifiers. 4. Determine the best type of ideal amplifier for various applications. 5. Specify the frequency-response requirements for various amplifier applications. 6. Understand linear and nonlinear distortion in amplifiers.

  4. 7. Specify the pulse-response parameters of amplifiers. 8. Work with differential amplifiers and specify common-mode rejection requirements. 9. Understand the various sources of dc offsets and design balancing circuits.

  5. BASIC AMPLIFIER CONCEPTS Ideally, an amplifier produces an output signal with identical waveshape as the input signal, but with a larger amplitude.

  6. Inverting versus Noninverting Amplifiers Inverting amplifiers have negative voltage gain, and the output waveform is an inverted version of the input waveform. Noninverting amplifiers have positive voltage gain.

  7. Voltage-Amplifier Model

  8. Current Gain

  9. Power Gain

  10. CASCADED AMPLIFIERS

  11. Simplified Models for Cascaded Amplifier Stages First, determine the voltage gain of the first stage accounting for loading by the second stage. The overall voltage gain is the product of the gains of the separate stages. The input impedance is that of the first stage, and the output impedance is that of the last stage.

  12. POWER SUPPLIES AND EFFICIENCY

  13. Current-Amplifier Model Aiscis the current gain of the amplifier with the output short circuited.

  14. Transconductance-Amplifier Model Connect a short circuit across the output terminals and analyze the circuit to determine Gmsc.

  15. Transresistance-Amplifier Model Open circuit the output terminals and analyze the circuit to determine Rmoc.

  16. IMPORTANCE OF AMPLIFIER IMPEDANCES IN VARIOUS APPLICATIONS Some applications call for amplifiers with high input (or output) impedance while others call for low input (or output) impedance. Other applications call for amplifiers that have specific input and/or output impedances.

  17. The proper classification of a given amplifier depends on the ranges of source and load impedances with which the amplifier is used.

  18. FREQUENCY RESPONSE

  19. Determining Complex Gain

  20. LINEAR WAVEFORM DISTORTION If the gain of an amplifier has a different magnitude for the various frequency components of the input signal, a form of distortion known as amplitude distortion occurs.

  21. Phase Distortion If the phase shift of an amplifier is not proportional to frequency, phase distortion occurs.

  22. Requirements for Distortionless Amplification To avoid linear waveform distortion, an amplifier should have constant gain magnitude and a phase response that is linear versus frequency for the range of frequencies contained in the input signal.

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