A 100kHz Zero Droop Peak Detector

Here’s an inexpensive precision peak detector circuit that accurately tracks the peak voltage of input signals at frequencies up to 100kHz and has zero voltage droop over an indefinite period of time…no microcontrollers required!

The following circuit uses a dual comparator, three op amps, and a digital potentiometer to provide two peak detection outputs: one “real-time” peak output, accurate to within 2% for input signals up to 100kHz, and one maximum peak output which outputs the maximum peak voltage seen since the last reset:

Precision zero-droop 100kHz peak detector circuit

Precision zero-droop 100kHz peak detector circuit

References and additional reading:

Description Reference
A comparator based peak detector LM311 Datasheet, Texas Instruments, Figure 28
A droopless peak detector using a digital potentiometer Application Note 1163, Maxim Inetgrated
Wide bandwidth precision peak detector Precision Peak Detector Uses No Precision Components, Jim McLucas, EDN
High speed peak detector design Peak Detectors Gain in Speed and Performance, John Wright, Linear Technologies, Design Note 61

Single Supply Op-Amp Rectifiers

An introduction to single-supply precision op-amp rectifier circuits, their inherent limitations, and a single-supply design that outperforms even its dual-supply counterparts!

Single supply full wave rectifier with wide dynamic range and low distortion to >20kHz

Single supply full wave rectifier with wide dynamic range and low distortion to >20kHz

References and additional reading:

Description Reference
Basic single supply full wave rectifier circuit LT1078 Absolute Value Circuit (Full-Wave Rectifier), Linear Technologies
Improved single supply full wave rectifier Burr-Brown Application Bulletin: Precision Absolute Value Circuits, David Jones & Mark Stitt
High speed (500kHz) full wave rectifier Intersil Application Note 1698, Tamara Schmitz
High speed (2.5MHz) precision rectifier High Speed Comparator Techniques (Application Note 13), Jim Williams

Precision Op-Amp Rectifiers

An introduction to using operational amplifiers for precision half-wave and full-wave rectification of AC signals: How it works, how to configure the circuits for gain/attenuation, and the effects of op-amp slew rate and resistor matching on the precision of the rectified signal.

Single OpAmp Window Comparators

A recent question on the Electrical Engineering Stack Exchange site got me thinking about some interesting window comparator circuits. Here’s how to detect three different input voltage levels with just one op-amp!

References and additional reading:

Description Reference
Simplified window comparators Applications of Operational Amplifiers, Third-Generation Techniques, Jerald G. Graeme, Chapter 4.1.2
Tri Level Voltage Detector LVM821 Datasheet, Texas Instruments, Section 8.2.3

Colpitts Crystal Oscillator Design

A qualitative and quantitative analysis of the Colpitts crystal oscillator circuit, oscillation requirements, and practical circuit design considerations.

References and additional reading:

Description Reference
Quantitative analysis of Colpitts crystal oscillators Crystal Oscillator Design and Temperature Compensation, Marvin E. Frerking, Chapter 7.3, Appendix F
Oscillator phase vs frequency, and crystal loaded Q analysis Crystal Oscillator Circuits, Robert J. Matthys, Chapters 6, 7
Colpitts crystal oscillator phase vs gain analysis Oscillator Design and Computer Simulation, 2nd Edition, Randall W. Rhea, Chapter 11.2
Crystal drive level equations Intel application note AP-155 (Oscillators for Microcontrollers), Appendix A
Common collector gain equations Common collector, Wikipedia
Transistor biasing RF Circuit Design, Chris Bowick, Chapter 6

RC Filter Design Basics

An introduction to passive and active low pass filters, filter requirements and design concerns, and the evolution from a simple single-pole RC filter to a multi-stage Sallen-Key topology.

Description Reference
Single and dual pole passive RC filters Low Pass Filters, ElectronicsTutorials
Qualitative and quantitative Sallen-Key analysis Analysis of the Sallen-Key Architecture, Texas Instruments
Sallen-Key filter design and operation Sallen-Key 101 Whiteboard Series, Matt Duff, Analog Devices

Jim Williams’ Analog IQ #14

This week’s analog IQ test leads us down the road of BJT temperature sensors, delta Vbe’s, and diode theory! But how well does the theory hold up in the real world?

Description Reference
PN junction temperature curves The Effect of Temperature on Diode Characteristics, Concepts Electronics
Accurate Temperature Sensing with an External P-N Junction Linear Technologies Application Note 137, Michael Jones
The Brokaw band-gap circuit, explained by Paul Brokaw himself! A Transistor Voltage Reference and What the Band-Gap Has To Do With it, A. Paul Brokaw
Measured temperature vs Vbe characteristics What’s All This VBE Stuff, Anyhow?, Bob Pease