80m FETer Transceiver
80m FETer QRPp CW transceiver
A handful of parts gives you a complete 80m CW transceiver that really works.
W2UW's design inspiration
Some years ago a beautifully simple circuit for a 40m CW transceiver by W2UW (now a silent key) was published in GQRP SPRAT. This inspired me to have a go at an even simpler version for 80m using just 14 parts apart from the key and crystal earpiece.
The Design
You would be hard pressed to get the parts count lower and achieve solid and reliable local (and DX?) communications. Basically the circuit shares a single MPF102 FET between a very simple regenerative RX and a QRP crystal oscillator. RX and TX switching consists of a 4 pole 2 way switch which changes over the antenna and all 3 connections to the shared FET. If you want a simpler TX-RX switch you could use two FETs instead. Although a little PCB would be neater, I just used ugly construction on a piece of single sided copper clad board. The FET is mounted on the back of the switch. The small aluminium box was obtained from Maplins.
Receiver
Feedback is provided by the tap on the main toroid winding. You may need to optimise this but start with the tap point as shown. A single turn antenna winding is over-wound on the main coil. Regeneration is set by C3. Once regeneration is set to just oscillate it won't need readjustment unless you change the power supply volts or antenna. The band tuned is set by choosing values of C4 so that the variable capacitor comfortably tunes across the 80m CW band. In my case the RX tunes 3.48 to 3.62MHz with a few hundred pFs of fixed capacitance at C4.
The receiver is quite remarkable for something this simple: mine measures around -100dBm sensitivity for a usable signal level in the earpiece and picks up plenty of CW and SSB stations.
NOTE: Please note that this simple receiver will radiate a small carrier on the frequency to which it is tuned (because it is set to be just in oscillation), so avoid using this when operating in close physical proximity to other 80m CW stations.
Transmitter
On TX, I adjusted and fixed the value of C1 so that the oscillator started reliably with a 50 ohm load. In my case 68pF was optimum. Observing on a scope, R3 was adjusted from zero until maximum RF output was obtained, in my case about 18mW. Most people will use an ATU between the output and antenna, but a low pass filter is recommended if not. By the way, my antenna is just a 15m random wire with a central heating radiator as ground.
Results
G3XIZ has worked 3 countries (best DX 450kms) with his version and has been heard as far as Switzerland on his. See his neat layout in the photo of his version. The G3XBM version is in the photos.
Conclusions
What amazes me is how well this little circuit works: the RX is stable enough and not at all fiddly. It is, all things considered, remarkably sensitive and picks up plenty of European SSB and CW signals at night. On transmit, the signal reports have been good. Even buying all parts new it will not cost you much more than a fish and chip supper. For me, this sort of circuit is the ultimate QRP challenge. Making and using it has been real fun. Next I want to try the same idea on 28MHz. Check my website and blog pages for latest developments and news of further contacts.
FETer schematic
G3XBM FETer inside
G3XBM's FETer
G3XIZ's FETer