The Idea
In a desire to build something to get me on the air, I've taken a step back from the 80 MMM and have decided to move forward with a 40M transmitter. Bill Maera recommended aiming at the 10 Minute Transmitter. Quite sure this was on Bill's mind when posting Ciprian's version.
I decided to not build a low pass filter for my 80M MMM. My thinking: I'm a parts cheapskate and I really won't be using the 80M MMM to get on the air. Yeah, I wanted to see an improvement of the carrier wave on the oscilloscope, but I'll be doing this for 40M, right?
I collected some parts, ordered a few too. Bill recommended trying any NPN transistor that I had in inventory, so I'll thought I'd mock up the transmitter using a 2N2222 or 2N3094. What's the worst that can happen? I mean, there is the word "smoke" in the Solder Smoke podcast name.
Here's the design(s) that I used:
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| Original 10 Minute Transmitter by Steve (G4RAW) |
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| Walter (KA4KXX)'s version as seen in the Solder Smoke blog.. |
And here's my parts:
- 100uH coil.*
- .1uF capacitors (2)
- 240 pF capacitor**
- 7.123 MHz crystal
- 22K resistor
- 2N3053 transistor***
* Using 37-43 toroid, that's about 16-17 turns as indicated in winding data found on Kits & Parts.
**Walter (KA4KXX) has adjustment instructions on the Solder Smoke blog: please be advised that the way to tune the "240" pf series output capacitor is to first connect a 50 ohm dummy load to the transmitter and peak the RF Output Voltage. If there is no defined peak then temporarily use a variable capacitor with a wide range because your value may be much different than mine since you are using another transistor, circuit board layout, etc. Also, note that in my version I connected the transmitter to a multi-stage antenna tuner before attaching that to my end-fed antenna so my signal out of the antenna was probably very clean. .
***Other NPN transistors such as a 2n2222 or 2n3904 should also work.
The Trouble
On this project you might need an antenna or an antenna substitute. Just put a 50 ohm resistor from the variable cap antenna connection to ground. Then try getting it going while fiddling with the variable cap setting.
It should work with 9V. But maybe try a fresh battery.
To check the voltages -- keeping the key up, the voltage on the collector of the transistor should equal the voltage of your power source.
If you've let the transistor get too hot, try with a new transistor.
Make sure you have the leads right on the transistor, It is usually E B C facing the flat part of the transistor, It is easy to get them backwards.
I think Walter was talking about peak output voltage. Don't worry about that for now -- you just want to get it oscillating.Make sure your receiver is on LSB or SSB or CW (not on AM) Tune around a bit as you fiddle with it.Peter Parker did a video on this: https://www.youtube.com/watch?v=cPPi7uLGtgY
Perhaps more useful is this: https://makerf.com/posts/ten-minute-transmitter Hang in there. Let me know how it is going.
2. Most importantly, perhaps, I ditched the breadboard. Chances are some small connection is broken or I failed to visualize a vertical connection. "Time to melt some solder," said Bill.
Great article Jack. Sorry I'm reading late as I was crazy busy these days. I love your humor and the way you wrote too hahaha. I want to build a final version of the transmitter that I will keep as a memory... and I want to replace the inductor with the same as you have as it's a lot better this way. And maybe a bigger heatsink for the transistor... not sure yet if I will use the same 2N2222 with metal case... or maybe a BD139 since I can have it flat on a really nice heatsink. It is indeed a really nice little transmitter to have fun building it. 73 and thank you for sharing.
ReplyDeleteYou're very welcome. I found the heatsink at Kits and Parts. Fits the metal TO5/39 case. According to Bill Meara, an alligator clip will also do in a "pinch."
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