Module 3 – How to Design Bandgap Circuits

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This module shows how to design bias circuits that are independent of temperature as well as power supply. The first lesson focuses on classical bandgap circuits including both the serial and parallel architectures. The second lessons deals with how to design trimming circuits and the third lecture shows how to design ultra-stable temperature independent circuits that cancel the bandgap curvature effect. This module has one laboratory focused on the design and simulation of a bandgap circuit.

Modules

Module 3 - How to Design Bandgap Circuits

Lesson 1 - How to design bias circuits independent of VDD and temperature Lesson 2 - How to design trimming circuits Lesson 3 - How to design ultra-stable temperature independent bias circuits Lesson 4 - Laboratory 2 - Bandgap Design Lesson 5 - How to use ELECTRIC Lesson 6 - How to use NGSpice

Lessons

Other Lessons

3.5 – How to Use Electric

Length: 37 minutesComplexity: Easy

3.6 – How to Use NGSpice

Length: 39 minutesComplexity: Standard

This lesson gives examples of how to use NGSpice to do .OP, .DC, .AC, and .TRAN simulations of CMOS integrated circuits. It also shows how to use the waveform viewer SymProbe to look at the results of the simulation. There are no lecture notes for this lesson.