{ "item_title" : "Operational Amplifiers", "item_author" : [" Johan Huijsing "], "item_description" : "Summary. Introduction. Notation.1. DEFINITION OF OPERATIONAL AMPLIFIERS. 1.1 Operational Inverting Amplifier (OIA). 1.2 Operational Voltage Amplifier (OVA). 1.3 Operational Current Amplifier (OCA). 1.4 Operational Floating Amplifier (OFA). 1.5 Conclusion. 1.6 References. 2. MACROMODELS. 2.1 Operational Inverting Amplifier (OIA). 2.2 Operational Voltage Amplifier (OVA). 2.3 Operational Current Amplifier (OCA). 2.4 Operational Floating Amplifier (OFA). 2.5 Macromodels in Spice. 2.6 Measurement Techniques for Operational Amplifiers. 2.7 Problems and Simulation Exercises. 2.8 References.3. APPLICATIONS. 3.1 Operational Inverting Amplifier. 3.2 Operational Voltage Amplifier. 3.3 Operational Current Amplifier. 3.4 Operational Floating Amplifier. 3.5 Dynamic range. 3.6 Problems. 3.7 References. 4. INPUT STAGES. 4.1 Offset, Bias, and Drift. 4.2 Noise. 4.3 Common-Mode Rejection. 4.4 Rail-to-rail Input Stages. 4.5 Problems and Simulation Exercises. 4.6 References.5. OUTPUT STAGES. 5.1 Power Efficiency of Output Stages. 5.2 Classification of Output Stages. 5.3 Feedforward Class-AB Biasing (FFB). 5.4 Feedback Class-AB Biasing (FBB). 5.5 Saturation Protection and Current Limitation. 5.6 Problems and Simulation Exercises. 5.7 References.6. OVERALL DESIGN. 6.1 Classification of Overall Topologies. 6.2 Frequency Compensation. 6.3 Slew Rate. 6.4 Non-Linear Distortion. 6.5 Problems and Simulation Exercises. 6.6 References.7. DESIGN EXAMPLES. 7.1 GA-CF Configuration. 7.2 GA-GA Configuration. 7.3 GA-CF-VF Configuration. 7.4 GA-GA-VF Configuration. 7.5 GA-CF-VF/GA Configuration. 7.6 GA-GA-VF/GA Configuration. 7.7 GA-CF-GA Configuration. 7.8 GA-GA-GA Configuration. 7.9 GA-GA-GA-GA Configuration. 7.10 Problems and Simulation Exercises. 7.11 References.8. FULLY DIFFERENTIAL OPERATIONAL AMPLIFIERS. 8.1 Fully Differential GA-CF Configuration. 8.2 Fully Differential GA-CF-GA Configuration. 8.3 Fully Differential GA-GA-GA-GA Configuration. 8.4 Problems and Simulation Exercises. 8.5 References.9. OPERATIONAL FLOATING AMPLIFIERS (OFA). 9.1 Introduction. 9.2 Unipolar Voltage-to-Current converter. 9.3 Differential Voltage-to-Current converters. 9.4 Instrumentation Amplifiers. 9.5 Universal class-AB voltage-to-current converter design using an Instrumentation Amplifier. 9.6 Universal class-A OFA design. 9.7 Universal class-AB OFA realization with power-supply isolation. 9.8 Universal Class-AB OFA design. 9.9 Problems. 9.10 References.10. LOW NOISE AND LOW OFFSET AMPLIFIERS. 10.1 Introduction. 10.2 Appications of Instrumentation Amplifiers. 10.3 Three-OpAmp Instrumentation Amplifiers. 10.4 Indirect-Current-Feedback InstAmps. 10.5 Auto-Zero Opamps and InstAmps. 10.6 Chopper OpAmps and InstAmps. 10.7 Chopper-Stabilized OpAmps and InstAmps. 10.8 Chopper-Stabilized and AZ Chopper OA and IA. 10.9 Chopper Amplifiers with Ripple-Reduction Loop. 10.10 Chopper Amplifiers with Capacitive-Coupled Input. 10.11 Gain Accuracy of Instrumentation Amplifiers. 10.12 Summary Low Offset. 10.13 References.Biography. Index.", "item_img_path" : "https://covers3.booksamillion.com/covers/bam/9/40/079/300/9400793006_b.jpg", "price_data" : { "retail_price" : "129.00", "online_price" : "129.00", "our_price" : "129.00", "club_price" : "129.00", "savings_pct" : "0", "savings_amt" : "0.00", "club_savings_pct" : "0", "club_savings_amt" : "0.00", "discount_pct" : "10", "store_price" : "" } }

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