Saturday, October 18, 2025
Notes from an Australian SA612 Enthusiast
The SA612 truly is a remarkable chip. It's as if The Radio Gods got together back in the early 80s and said, 'what integrated circuit can we bring into the radio world that will supercharge homebrew radio and help enthusiasts to build their own rigs?'. And after the wise council settled on a combined oscillator-mixer in a single DIP-8 package, the rest is history
.
The 602/612 launched dozens of DIY radios and even businesses, and the careers of the QRP pioneers, from Doug DeMaw to Wayne Burdick to Dave Benson. I'll bet even Wes Hayward built a few.
SA612 discussions on Groups.io lists such as Qrp-Tech ran for decades and continue to attract attention and raise new insights today.
Even Elecraft with all of their digital radio know-how and resources launched the KH1 hand-held CW rig into production with SA612s in its receiver as late as 2023.
It really is an almost ideal part for simple homebrew receivers and transmitters. A 200MHz mixer with balanced inputs and outputs, an on-chip stable LO that can be used in three ways - a crystal BFO, an LC (or varactor) VFO, or a buffer for an external oscillator or clock such as the si5351 digital PLL/multisynth. Up to 15dB conversion gain which mostly eliminates the need for IF gain. Able to be gain-controlled with a DC AGC applied to its input. And did I mention low current?
Its only weakness is in its mixer dynamic range and strong signal performance but if you put a basic BPF in front, for simple homebrew rigs at home or portable/field rigs, this hasn't really been a problem.
Of course there are other mixers that outperform the 612 but some consume much more current, and none have the built-in oscillator.
Vale the SA612. You served, and continue to support the homebrew community like no other chip. You will not be forgotten.
Fortuitously, eBay is full of $5 a piece NOS parts on tape, which pretty much guarantees they are not fake. And at this price, for all you get, they're still great value!
Paul VK3HN.
Confirmed card-carrying SA612 fan-boy.
Friday, October 17, 2025
Wikipedia: AI causing dangerous drop in human visitors. SolderSmoke is seeing this too!
I took a look at where the traffic to the SolderSmoke blog has been coming from during the last 3 months: U.S. visits are down to 68%. Together, Singapore, Hong Kong and Mexico account for 17%. Any of these three locations far outweigh the UK and Germany. Obviously this traffic comes not from humans but from AI robots.
Even Wikipedia sees the problem:
The Wikimedia Foundation, the nonprofit organization that hosts Wikipedia says that it’s seeing a significant decline in human traffic to the online encyclopedia because more people are getting the information that’s on Wikipedia via generative AI chatbots that were trained on its articles and search engines that summarize them without actually clicking through to the site.
https://www.404media.co/wikipedia-says-ai-is-causing-a-dangerous-decline-in-human-visitors/
Read the article for an interesting discussion of what Wikipedia is doing to unmask and block the bots.
Thursday, October 16, 2025
A Wonderful Homebrew Direct Conversion Receiver (and other HB projects) from Italy
Wednesday, October 15, 2025
The Perils of Overreliance on Math
On the Importance of Really Understanding Radio and Radio Circuitry
In the first version of my book I included (in bold letters) sections in which I described my efforts to deeply understand how the circuits I was using really worked. I mentioned that this yearning for understanding probably had its roots in the influence of Jean Shepherd: Shep seemed to expect true radio hams to really understand the gear that they worked on. As a child, James Clerk Maxwell would often ask about how things worked: “What’s the go of it? What’s the particular go of it?” That is the kind of understanding that I wanted. But as I progressed, I would often come across hams who had other notions about what constituted “understanding.” These people were often Electrical Engineers, deeply schooled in mathematics. For them, knowing the math was synonymous with understanding how circuits worked. Asked, for example, how a mixer mixed, they would spit out trigonometry formulae. I found this kind of understanding insufficient and unsatisfying. I was not alone:
In 1990, after seven years of teaching at Harvard, Eric Mazur, now Balkanski professor of physics and applied physics, was delivering clear, polished lectures and demonstrations and getting high student evaluations for his introductory Physics 11 course, populated mainly by premed and engineering students who were successfully solving complicated problems. Then he discovered that his success as a teacher “was a complete illusion, a house of cards.”
The epiphany came via an article in the American Journal of Physics by Arizona State professor David Hestenes. He had devised a very simple test, couched in everyday language, to check students’ understanding of one of the most fundamental concepts of physics—force—and had administered it to 8 thousands of undergraduates in the southwestern United States. Astonishingly, the test showed that their introductory courses had taught them “next to nothing,” says Mazur: “After a semester of physics, they still held the same misconceptions as they had at the beginning of the term.”
The students had improved at handling equations and formulas, he explains, but when it came to understanding “what the real meanings of these things are, they basically reverted to Aristotelian logic—thousands of years back.”
To Mazur’s consternation, the simple test of conceptual understanding showed that his students had not grasped the basic ideas of his physics course: two-thirds of them were modern Aristotelians. “The students did well on textbook-style problems,” he explains. “They had a bag of tricks, formulas to apply. But that was solving problems by rote. They floundered on the simple word problems, which demanded a real understanding of the concepts behind the formulas.”
From: http://harvardmagazine.com/2012/03/twilight-of-the-lecture
