Inverter Based Circuit Design Techniques for Low Supply Voltages 1st Edition by Rakesh Kumar Palani, Ramesh Harjani 3319466286 9783319466286

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Product details:

ISBN-10 :  3319466286 

ISBN-13 :  9783319466286

Author:  Rakesh Kumar Palani, Ramesh Harjani 

This book describes intuitive analog design approaches using digital inverters, providing filter architectures and circuit techniques enabling high performance analog circuit design. The authors provide process, supply voltage and temperature (PVT) variation-tolerant design techniques for inverter based circuits. They also discuss various analog design techniques for lower technology nodes and lower power supply, which can be used for designing high performance systems-on-chip.    

Inverter-Based Circuit Design Techniques for Low Supply Voltages 1st table of contents:

1 Introduction
1.1 Traditional Operational Transconductance
1.2 Differential Pair Versus Inverter
1.3 Non Linearity Analysis
1.4 Noise Analysis
1.5 Inverter Transconductor
1.6 Non-linearity Cancellation Techniques
1.7 Organization
2 Biasing
2.1 Semi-constant Current Biasing
2.1.1 Optimal NMOS-PMOS Ratioing
2.1.2 Non Linearity Cancellation in Inverters
2.1.3 Case 1: Small Input
2.1.4 Case 2: Large Input
2.1.5 Simulation
2.2 Constant Current Biasing
2.3 Constant-gm Biasing
2.4 Conclusion
3 Inverter Based OTA Design
3.1 OTA Design
3.1.1 Common Mode Rejection Stage
3.1.2 Gain and Driver Stage
3.2 Measurement Results
3.3 Conclusion
4 ADC Driver
4.1 ADC Driver
4.2 OTA Driving Load
4.2.1 Driving Load Capacitor Directly
4.2.2 Driving Load Capacitor Through Resistor
4.2.2.1 Effect of Pole Zero Doublets
4.3 Continuous and Discrete Time ADC Driver
4.3.1 Continuous Time Driver
4.3.1.1 Noise Analysis
4.3.1.2 OTA Design
4.3.2 Discrete Time Driver
4.3.2.1 Noise Analysis
4.3.2.2 OTA Design
4.4 Simulation to Verify Noise Filtering
4.5 ADC Driver Architecture
4.6 Components of the ADC Driver
4.6.1 Current Mirror Design
4.6.1.1 Noise Analysis
4.6.1.2 Non Linearity Analysis
4.6.2 Trans-Impedance Amplifier (TIA) Design
4.6.2.1 Noise Analysis
4.6.3 Anti-Alias Filter
4.6.4 Sampler
4.6.5 Passive Amplification
4.7 Measurements
4.8 Conclusion
5 Current Mirror Based Filter
5.1 Integrator Design
5.1.1 Non-Linearity Cancellation
5.1.1.1 Effect of Mismatch in Inverters
5.1.1.2 Comparison with Conventional Gm-C Integrator
5.1.2 Bandwidth Limitation Effects
5.1.3 Gain Limitation Effects
5.1.4 Noise Analysis
5.2 Filter Design
5.2.1 Current-Domain Biquad
5.2.2 Effect of OTA Nonidealities on Biquad
5.2.3 Butterworth Filter Design
5.2.4 Compensation of the Amplifiers
5.2.5 Noise Comparison with Active RC Integrator Filter
5.2.5.1 Active RC Filter
5.2.5.2 Proposed Filter
5.3 Measurements
5.4 Conclusion
6 All MOSCAP Based Continuously Tunable Filter
6.1 Filter Architecture
6.1.1 Root Locus
6.1.2 First-Order System
6.1.2.1 Low Frequency Input
6.1.2.2 High Frequency Input
6.1.2.3 Compensation
6.1.3 Third Order Filter
6.2 Biasing and CMFB
6.3 Measurement Results
6.4 Conclusion
7 ADC
7.1 ADC Architecture
7.2 DAC Design
7.3 Sampler Design
7.4 Preamp Design
7.4.1 Input Voltage Range
7.4.2 Preamp Transconductance Linearity
7.4.3 Input Capacitance Linearity
7.4.4 Gate Leakage
7.5 Measurement Results
7.6 Conclusion

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Tags: Inverter Based, Circuit Design, Techniques, Low Supply Voltages, Rakesh Kumar Palani, Ramesh Harjani