Download Handbook of operational amplifier applications – Texas Instruments, The purpose of this handbook is to provide a single source of information covering the proper design of circuits employing the versatile modem operational amplifier. This manual will be helpful to the experienced user of operational amplifiers, as well as the new user, in extending the range of potential applications in which these devices can be used to advantage.
- INTRODUCTION
- Computation Control Instrumentation
- The Feedback Technique
- Notation and Terminology
- Input Terminals
- Output Terminals
- Power Connections
- Summary of Notation
- Electrical Circuit Models
- Circuit Notation
- The Ideal Operational Amplifier
- Defining the Ideal Operational Amplifier
- A Summing Point Restraint
- CIRCUITS AND ANALYSES USING THE IDEAL OPERATIONAL AMPLIFIER
- The Desirability of Feedback
- Two Important Feedback Circuits
- Voltage Follower
- Non-Inverting Amplifier
- INVERTING AMPLIFIER
- Intuitive Analysis Techniques
- Current Output
- Reactive Elements
- Integrator
- Differentiator
- Voltage Adder
- Scaling Summer
- Combining Circuit Functions
- Differential Input Amplifier
- Balanced Amplifier
- Ideal-Real Comparison
- CHARACTERISTICS OF PRACTICAL OPERATIONAL AMPLIFIERS
- Open Loop Characteristics
- Open Loop Operation
- Output Limiting
- FREQUENCY DEPENDENT PROPERTIES
- Introduction
- Open Loop Gain and the Bode Plot
- Bode Plot Construction
- Closed Loop Gain
- Stability
- Compensation
- Compensation Changes
- Bandwidth
- Loop Gain
- The Significance of Loop Gain
- BODE PLOTS AND BASIC PRACTICAL CIRCUITRY
- Voltage Follower
- THE DIFFERENTIAL (BALANCED) OUTPUT AMPLIFIER
- DC AMPLIFIERS
- Simple Inverting sign changing amplifier
- Chopper Stabilized
- Simple Gain Control
- Linear Gain Control
- Simple Non-Inverting
- Power Booster
- Differential Output
- Gain Control
- Inverting Gain Control
- DIFFERENTIAL AMPLIFIERS
- Subtractor
- Difference Amplifier
- Common Mode Rejection
- Differential Input-Output
- AC AMPLIFIERS
- DC Amplifiers with Blocking Capacitors
- Simple Amplifier
- Single Supply
- Non-Inverting
- Double Rolloff
- AC Preamplifier
- CURRENT OUTPUT DEVICES
- Feedback Loop
- Simple Meter Amplifier
- Meter Amplifier
- Current Injector
- Linear Current Source
- Deflection Coil Driver
- OSCILLATORS AND MULTI VIBRATORS
- Simple Oscillator
- Wien Bridge Oscillator
- PHASE LEAD AND LAG NETWORKS
- Lag Element
- Adjustable Lag
- Lag value linear with R setting
- Adjustable Lead
- Lead-Lag
- Time Delay
- ADDITIONAL CIRCUITS
- Absolute Value
- Peak Follower
- Precision Rectifier
- AC to DC Converter
- Full Wave Rectifier
- Rate Limiter
- Time Delay
- Selective Amplifier
- SECTION III: SELECTING THE PROPER OPERATIONAL AMPLIFIER
- Focus on Limiting Specifications
- Avoid Closed Loop vs. Open Loop Confusion
- Selection Checklist
- Assistance Available from Texas Instruments
- References
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