Analogue IC Design: The Current-mode ApproachChris Toumazou, F. J. Lidgey, David Haigh State-of-the-art analogue integrated circuit design is receiving a tremendous boost from the development and application of current-mode approaches, which are rapidly superseding traditional voltage-mode techniques. This activity is linked to important advances in integrated circuit technologies, such as the true complementary bipolar process; CMOS VLSI technology, which allows realization of high-performance mixed analogue and digital circuits, and gallium arsenide processing, which has matured to a point where it can be used effectively in high-speed analogue circuit and system design. |
Contents
Introduction | 1 |
Current Conveyor Theory And Practice | 93 |
Universal CurrentMode Analogue Amplifiers | 127 |
High Frequency CMOS Transconductors | 181 |
Appendix 5A Power Series Representation of Nonlinear Functions 233 | 233 |
Dynamic Current Mirrors | 297 |
Gallium Arsenide Analogue Integrated Circuit Design Techniques | 327 |
ContinuousTime Filters | 371 |
Analog Interface Circuits For VLSI | 451 |
Current Mode AD and DA Converters | 491 |
Applications of currentcopier circuits | 515 |
Integrated Current Conveyor | 535 |
Applying Current Feedback to Voltage Amplifiers | 569 |
Neural Network Building Blocks for Analog MOS VLSI | 597 |
Future of Analogue Integrated Circuit Design | 617 |
641 | |
Continuoustime and Switched Capacitor Monolithic Filters Based | 387 |
SwitchedCurrent Filters | 415 |
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Analogue IC Design: The Current-mode Approach Chris Toumazou,F. J. Lidgey,David Haigh Limited preview - 1993 |
Common terms and phrases
accuracy analogue circuits applications bandwidth base current basic beta bias current biased bipolar buffer capacitance cascode CCII cell Chapter circuit design circuit of Figure Circuits and Systems class-AB CMOS collector current common-mode components configuration converter current conveyor current feedback current gain current mirror current source current-mode devices differential pair diode distortion drain current dynamic Early voltage Electronics Letters Equation error filter GaAs gate I₁ IEEE implementation input current input signal input voltage instrumentation amplifier integrated circuit inverting linear loop matching MESFET mismatch monolithic MOS transistor multiplier negative node noise nonlinearity op-amp operational amplifier output current output impedance output resistance parameters performance PNP transistors Q1 and Q2 realisation reduced resistor saturation shown in Figure signal processing simulation Solid-State Circuits switched capacitor switched-capacitor switched-current techniques threshold voltage topology Toumazou transconductance transfer function translinear VLSI zero