Monday, 10 February 2020

Loopstick Magic And The CR-1 Clone

BCB Ferrite Loopstick







Regular blog readers may recall my two previous blogs, on the Heathkit CR-1 crystal radio receiver.













This very much sought-after radio is a well engineered ‘double-tuned’ set utilizing a series-tuned antenna tank circuit coupled to a parallel-tuned detector tank.



Both coils are wound on the same 1/4” diameter tubular form containing two ferrite slugs ... one for the antenna coil and one for the detector coil. The coils have been pre-wound and fixed on the form, about 20mm apart while the slugs have been waxed in place to set each inductance to the desired value.


courtesy: Scott's Crystal Radios

I do wish that I'd had enough sense when I was a kid to buy myself a CR-1 as it seemed like they were dirt-cheap.




The $7.95 even included a set of headphones! Of course, $7.95 to a 12 year old was probably a lot of money, being about $70 in today’s currency!

My previous experience with homebrew DX crystal radios (ones that can hear stations other than strong locals) had taught me that they required large coils and ‘hot’ diodes. The CR-1 has neither of these yet it performed exceptionally well during the few weeks of evening tests a few months ago. I was able to log 50 stations, as described in the earlier blog ... and began to see that, just maybe, requirements may not be as rigid as I had always thought, when it comes to building DX sets!

When I discovered several ‘new-in-the bag’ broadcast band ferrite loopsticks in my junk box, I realized there might be an opportunity to allow me to make something very similar to the CR-1 circuit.



These are the same loopsticks used in the crystal ‘Rocket Radio’ of the 50s or in various transistor radios of the day.



I breadboard-mounted the two loopsticks so that the distance between the antenna coil and the detector coil could be adjusted, allowing some control over coupling and selectivity ... something not available with the stationary CR-1 coils.


Using the same antenna, headphones and external wavetraps, proved once again the excellent performance available from a very small and simple hi-Q coil system ... a DX machine without huge coils and expensive Litz! A total of 51 stations were logged over a two-week period, one more than was heard with the CR-1 and with a few ‘almost’ heards still waiting for one of those really good propagation nights. Having the ability to adjust the coupling was very helpful and made some of the weaker stations a little easier to detect. Stations in RED are local strong signals while those in BLUE are skywave propagated DX signals:



Mounting one of my old HRO 'PN' vernier dials on the main tuning capacitor provided plenty of bandspread, with each dial division corresponding to ~ 2kHz. It was very easy to locate any given frequency within the broadcast band once the dial was calibrated.



Soon after, I ran across a post by Zoltan Pap on Facebook’s ‘Crystal Set Radio Group’, describing his unique use of an old 455kHz I.F. transformer in a crystal tuner. I thought this was a rather brilliant idea and dug out an old I.F. can from the junkbox to see what it might offer.



The old I.F. can had two litz-wound (10 strand) tank coils, fixed in place over two adjustable ferrite slug cores ... in reality, something very similar to the, now very difficult to find, ferrite loopsticks used above.

The two inductors measured out at ~ 700uH - 1.1mH as the slugs were tuned from one end to the other. I was aiming for something close to the inductance used in the two CR-1 tank coils ... approximately 380uH.




A sufficient number of turns were removed from both coils to yield the needed inductance and both coils on the CR-1 breadboard clone were replaced with the old I.F. can coils.






In just a few minutes of tuning through the band, it was very easy to hear and separate all 16 local stations (RED in the above log). A few hours after sunset (on a not-so-good night) yielded quick copy of KPOJ (620kHz) in Portland, Oregon (231 miles) as well as CHED (630kHz) in Edmonton, Alberta (534 miles), demonstrating that even this old 1940's I.F. can could be turned into a crystal radio DX machine!

I don't believe the 'Q' of this pair of coils is very high, compared with the smaller loopstick, as its selectivity appears to drop off above 1000kHz. I'll try separating the form into two halves so that the coupling can be adjusted. The experiment is still under way but if you want to play and can't lay your hands on the pricey loopsticks, old I.F. cans are often much easier to find and probably a lot cheaper.

8 comments:

Anonymous said...

Love seeing this sort of ingenuity when materials and parts from decades ago are next to impossible to find.
BTW, I used a slug-tuned crystal set and a long wire antenna when I was a HS student in Burns Lake eons ago. It was the only way to listen to rock n roll-- KOL and CKWX, as I recall--in a place with only a CBC repeater station.

Anonymous said...

This brings back memories. RadShack once had a store in the Shelbourne St. K-Mart plaza. About 1972-3 I bought a loopstick coil to make a simple radio. It looked very much like the coil in your blog. RS sold a germanium transistor and a miniature film 365 uuF variable to go with it.

I wired the parts on pressed wood pegboard, and found my receiver had no selectivity. Every station in Victoria was received. Not sure what I had done wrong - no doubt many mistakes. I don't recall what antenna I was using, maybe a 30 foot random wire. The ground was the copperclad rod sold by RS that I used with my Globe Patrol superregen RX.

The only remnants I've saved from the project are some 9V battery snaps in a drawer. However the UBC club's inherited radio junkbox may have some loopsticks of the same or similar type.

I also have a National dial exactly like yours saved away from early Hamsoc times. Wondering now if it came from the same source as yours... the Point Grey radio station, which donated much junk to Hamsoc, or maybe it was Satellite Electronics.

Dan VE7DES

Steve McDonald said...

Hi Dan. I hope you can dig out some of those old loopsticks as they are pretty hard to find nowadays. The key to selectivity is the coupled antenna tuner (series tuned) as it makes a huge difference. My PN dials came from local hamfests mostly and one on e-bay that was too cheap to pass up ... back when Canada Post didn’t force you to take out a bank loan to pay for shipping.

Anonymous said...


That rocket radio triggered a fond memory of a unique crystal set I had around 1960. It was made to resemble a "satellite". It was a round yellow sphere... somewhat larger than a baseball. It had "legs" in a tripod arrangement, so it could sit without rolling away. Out of the top of the sphere, was a threaded brass rod with a red ball attached at the end. That was for tuning. Out from the ball were two "wires". One was the crystal heaphone pair, the other was a length of wire that had an alligator clip on the end, which served as the antenna connection. I remember clipping that wire to the metal wire frame (it held the shade in place) of a table lamp, next to the incandescent light bulb. I could sit in a chair along-side the lamp and listen to local radio. I could tune the radio by twisting the red knob... permeability tuning.

I wish I still had that unique little radio. Of course, like most of us experimenters, I ended up taking it apart for whatever reason seemed good at the time, and the rest of its story is lost to memory.

Anonymous said...

You can still buy those rocket radios. They are made in China (probably always were) and they are still cheap. Try looking for them on Alibaba or Ali Express.

Steve McDonald said...

Can you point me to one directly? That would be wonderful news. I think most of the Rocket Radios were from Japan back in the 50s

351Mustang said...

I have a question on the “dot” convention/ polarity. I am winding two individual coils to slip over a 1/4” form with two slugs. Does it matter which winding lead goes where? In other words if these two coils are loosely coupled as a “transformer” then on the detector side it seems it must matter which lead of the second winding goes to ground so that “peaking” one side supports the other side? It didn’t matter in the original Heathkit because the coils were pre wound on the form and terminated. You just followed the directions on which lead to wire where.
Any suggestions would be welcomed!
Thank you
351

Steve McDonald said...

When coupling two coils I like to keep the directions oriented the same ... so if coil #1 has its right end grounded then coil #2 is oriented so that its right end is grounded. It may not make a lot of difference as I've never checked compared it the other way. As well, make sure both coils are wound in the same direction. That may not be important as well in circuits like this as compared to a coil in an oscillator. Also, there's nothing to be gained sensitivity-wise by grounding the detector coil's end so if you leave it un-grounded (but still connected to the capacitor), then there's no dilemma as to which end to ground. In some circuits though, you may see some hand-capacity effects with the capacitor frame un-grounded.