Back in July 2017 I wrote a post on here in which I gave a rough sketch of a combination transceiver/computer that would allow me to take a single unit, antenna kit and power, and work digital modes portably, with a minimum amount of baggage. Like one might do with the Mountain Topper range of CW transceivers, but capable of operating with digital modes.

When I wrote the article, I was into JT65 and JT9. Now of course, FT8 is the mode du jour.

The DDS of choice was the ‘el cheapo’ AD9850/AD9851 boards that are available on eBay: now I’d go for the Si5351 DDS boards, with a module available from Adafruit, and also available in an ‘el cheapo’ variant! This DDS creates fewer harmonics.

I’m still very much a beginner at RF design: that is still the major risk to the project, as is the absence of copious amounts of spare time in which to work on it!

However, one risk I’d identified – making an Arduino present itself as a sound card + multiple serial devices – seems to be reducible. LUFA (Lightweight USB Framework for AVRs is a “an open-source complete USB stack for the USB-enabled Atmel AVR8 and (some of the) AVR32 microcontroller series, released under the permissive MIT License”. It has examples of Audio In/Out and Serial devices. I’m hoping it can also provide a composite device that allows the single audio I/O channel, and two serial ports (diagnostic and CAT control).

So the next action on this project is to make an Arduino Micro look like a sound card with two serial ports. It’ll be a loopback device, so whatever sound you play at it (i.e. when transmitting) will be played back to you when receiving; whatever you send on serial port A will be echoed back to you with a ‘DIAG’ prepended to it; similarly with port B as the ‘CAT’ port.

Still unknown: SSB transceiver design that’s buildable by a beginner, and that can be connected into a ADC / DAC pair. How many bits of audio do I need to sample, at what rate?

This may well require a microcontroller that’s a bit more powerful than my usual Arduino Micro – possibly one from the Teensy range.

… to be continued…