On 03/15/18 21:07, Mac A. Cody wrote:
At the sacrifice of some bandwidth, the following advantages can be had with using DSB modulation:
- DSB modulation is relatively easy to achieve. The band-limited audio
is fed into a double-balanced mixer, bandpass filtered for harmonics, and fed into a PA for transmission. The resulting hardware is comparatively inexpensive to construct and to tune. 2) Sideband inversion caused by some linear birds is no longer an issue. Having both sidebands present in DSB modulation means that the correct sideband will always be available for reception. 3) Interoperability with SSB stations would be maintained, as DSB modulation is a superset of SSB modulation.
Why not use the new LimeSDR Mini and do a SDR-based design for satellite work? It already has separate TX and RX paths, ready for duplex operation.
One simply, for various values of simple, needs to design a receiver/transmitter design to go into the Altera FPGA, bolt on a suitable CODEC (might I suggest the MAX9860?), and then add some filtering and a PA.
[Mic/Spkr] <---> [MAX9960] <---> [FPGA] <---> [Limechip] <--> PA/Filter
I'd bolt on a LCD, rotary encoder, and a few buttons for user I/O. No PC needed for control. Add antenna and you're done.
You'd have a complete all-mode (SSB, AM, FM, etc.) solution for perhaps $200.
(This is a back-burner project for me -- I won't be offended if anyone gets there first. hihi)
--- Zach N0ZGO