Building a Better RTL-SDR TCXO

Its hard to beat the cost and versatility of the ubiquitous RTL-SDR dongles, but the temperature stability of their reference oscillators isn’t sufficient for some applications. While the internal 28.8MHz quartz crystal in these units can be replaced by a high quality temperature compensated oscillator, these tend to be relatively expensive and/or difficult to source.

Here’s a scratch-built 28.8MHz TCXO capable of +-1ppm stability from 0C-55C; best of all, it’s not only easy to build, but is designed entirely from readily available and inexpensive components. For improved temperature stability, the main oscillator can even be replaced with one of many commercially available TCXOs!

UPDATE: Elia has kindly designed a PCB for this circuit, using a commercially available TCXO. Now available from OSHPark!

KiCAD schematics and additional project files are available on github.

28.8MHz TCXO schematic diagram

28.8MHz TCXO schematic diagram

TCXO f-T curve

TCXO f-T curve

References and additional reading:

Description Reference
Oscillator temperature compensation techniques Design Technique for Analog Temperature Compensation of Crystal Oscillators, Mark A. Haney, Virginia Polytechnic Institute
TXCO tutorial Tutorial on TCXOs, Vectron International
R820T datasheet R820T: High Performance Low Power Advanced Digital TV Silicon Tuner, Rafael Microelectronics
Guide to proper toroid selection Iron Power Cores for High Q Inductors, Jim Cox, Micrometals, Inc.

Oscillator Simulation and Design

Today we explore the use of oscillator synthesis software (Genesys) for practical crystal oscillator design, and the impact of the Randall-Hock correction formula on linear open loop analysis accuracy.

References and additional reading:

Description Reference
Oscillator synthesis/simulation software Genesys, Keysight Technologies
Randall and Hock’s IEEE paper (no paywall) General oscillator characterization using linear open-loop S-parameters, Mitch Randall, Terry Hock
Application of the Randall-Hock correction formula in oscillator synthesis Discrete Oscillator Design, Chapter 1.2.1.5, Randall W. Rhea
Randall Rhea’s oscillator design webinar Discrete Oscillator Design Tools and Techniques, Randall W. Rhea, presented by Keysight Technologies
Effects of S11 and S22 on oscillator loop gain Practical RF Circuit Design for Modern Wireless Systems, Vol. 2, Chapter 6.2, Rowan Gilmore, Les Besser
Evaluating and optimizing oscillator performance using Genesys simulation Improving the Vackar Oscillator, QRP Quarterly, Volume 56 Number 1, January 2015, p.20, David White (WN5Y)