I got this mic at a local hamfest with the intention of putting it on the Central Electronics 10B. The seller said the mic was good but that the amplifier in the base was “disabled.” This is perfect for my use, because I’d rather just use a straight Hi-Z element and use the preamp inside the 10B. Of course, we don’t know what we’re getting into until until we open it up and find out what “disabled” really entails….Continue reading “Repairing an Astatic D-104 microphone”
The PS-4 is a variable high-voltage bench supply that was manufactured starting around 1960. It is regulated up to 400 VDC at 100 mA, and it also has a separate low-current negative output from 0-100V in case you like make a manual curve tracer or whatever, as well as a 6.3V AC output for lighting up filaments. It appears to be electrically identical to the Heathkit IP-32 supply, but I don’t have one to compare it to. I regularly use this one as a steady voltage supply for my early one-tube oscillators like this one since the regulated voltage tends to keep the frequency steady. However, it took a little work to get it there, and I figure I might as well write about it in case it help (or just entertains) anyone looking to do the same.Continue reading “Repairing a Heathkit PS-4 Power Supply”
Continue reading “1924: A Five Watt Sending Set for $25”
The first question about a transmitting set that a fellow wants answered, —or maybe it is his dad who wants answered—is, “How much is this thing going to cost?” Well, that all depends. You can buy all of the fixin’s and do-gadjits and make a set that cost a couple of hundred dollars and still have only a 5-watt set, or you can buy only a few things, make the rest of the parts yourself, hook ’em up in a good old circuit, and talk to amateurs several hundred miles away for $25. The latter sounds the best.Mason, H.F., “A Five Watt Sending Set for $25” QST, Vol 8 No. 2 (Sept 1924), p. 56.
Now that the 10B is alive again after what was probably several decades I figured it was time to make some crystals for it the old fashioned way. Yes, I know what a VFO is, but that is not the point. I’m a sucker for the lost art of quartz crystals. There’s so much mystery and old wives tales around that that it has become some sort of dark art. In my limited experience its not magic, so long as you know your materials and keep in mind the laws of physics, and obey them.Continue reading “Crystals for the Central Electronics 10B”
This past spring I picked up a Central Electronics 10B exciter. This is a low power radio transmitter that was part of the on the first generation of single-sideband voice on Amateur Radio bands in the 1950’s. You can think of these transmitters as full-carrier double-sideband AM transmitters that use phasing circuits to cancel the carrier and the unwanted sideband. In fact, if you ever written software for an SDR (like one of Tony Parks’ softrock kits) its pretty much the same complex multiplication using a quadrature signal, just with analog parts rather than software. What’s old is new again!Continue reading “Central Electronics 10B Exciter Restoration”
Building a radio with homemade condensers (that’s the old word for capacitor I’ll be using herein) is an art as old as radio itself, but one that had largely passed away by the mid 1920’s. Constructing a condenser for your spark transmitter was a right of passage in the days before radio licenses. The old spark sets often used tin foil and various materials for dielectric: glass, mica, oil or oil-soaked paper, etc. Air could be used, but it was both mechanically difficult and the relatively low dielectric constant and breakdown voltage was a challenge for the amateur who needed a large capacity at at least a few kilovolts for a small set. Oil dielectric was a messy but viable option, especially for its self-healing properties in case of an arc (and is still used in high-voltage capacitors today). Power loss due to corona discharge from the edges of a the metal plates in air were a problem with the RF voltages involved, and this was often mitigated by rounding corners of the plates and even immersing the whole sandwich of materials in a high-dielectric-constant binder such as shellac or paraffin. Using a solid binder also tended to improve the physical construction. Discarded window glass and 4×5″ photographic plates were popular materials; it helped to be friends with a glazier or photographer.
For typical example of homemade glass-condenser construction for a 1 kW amateur transmitter, see the July 1914 issue of Wireless Age, p. 847, available over at American Radio History. The only materials are shellac, glass, and tin, so quite a bit of of money would be saved compared to purchasing a commercial mica condenser, like the ones here:Continue reading “1920’s-Style Homebrew Mica and Glass-Plate Capacitors”