To My Readers



If this is the first time you're visiting my blog, thank you. Whether you're interested or just curious to find out about PCB reverse engineering (PCB-RE), I hope you'll find something useful here.

This blog contains many snippets of the content in my books to provide a more detailed overall sampling for my would-be readers to be better informed before making the purchase. Of course, the book contains more photos and nice illustrations, as evidence from its cover page. Hopefully, this online trailer version will whet your appetite enough to want to get a copy for yourself.

Top Review

I started doing component level repair of electronics with (and without) schematics more than 40 years ago, which activity often involves reverse-engineering of printed circuit boards. Although over the years my technical interests have shifted into particle beam instrumentation, electron microscopy, and focused ion beam technology fields, till this day——and more often than not——PCB repairs have returned multiple multi-million-dollar accelerators, FIB, and SEM instruments back to operation, delivering great satisfaction and some profit.

Many of the methods described by Keng Tiong in great details are similar to the approaches I've developed, but some of the techniques are different, and as effective and useful as efficient and practical. Systematic approach and collection of useful information presented in his books are not only invaluable for a novice approaching PCB-level reverse engineering, but also very interesting reading and hands-on reference for professionals.

Focus on reverse engineering instead of original design provides unique perspective into workings of electronics, and in my opinion books by Keng Tiong (I've got all three of them) are must-read for anybody trying to develop good understanding of electronics——together with writings by Paul Horowitz and Winfield Hill, Phil Hobbs, Jim Williams, Bob Pease, Howard Johnson and Martin Graham, Sam Goldwasser, and other world's top electronics experts.

Valery Ray
Particle Beam Systems Technologist

Thursday, November 11, 2021

What Goes Up Must Come Down

That's as far as gravity is concerned, though there are those who argue it is the density of an object and not the gravitational force of the earth that is at work. I'm not a physicist but an engineer, so I'll just focus on what I know best——pull-up and pull-down resistors.

When you think about it, digital circuits aren't that 'digital' to begin with once you peel off the facade that confined their operational limits to the binary universe. Since its inception until today, the term 'digital' is not just about TTL or CMOS anymore. The insatiable appetite for the never ending quest of higher operating speeds has resulted in a kind of 'digital' metaverse, one in which different operating voltages exist side-by-side and interacting with each other via translators in the form of digital 'stargates'.

If ever MCU Studio decides to come out with a new series (X-Men and Avengers are really showing their age), perhaps they might want to consider Meta-Warriors or something to that effect. Just a suggestion.

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