I found two old RPi3's in my junk box this morning and so an idea sprung from the junk stuff. With a bit of panache and a flare for the dramatic, I updated the software and included the vwspkg in the QUISK directory. Both took the VWS pkg software and after identifying the serial port as /dev/ttyACM0 and in a blink of an eye the MHST was receiving signals. JFF (Just For Fun) I installed a 50 Ohm resistor on what is normally the transmit output port of the steerable amp and put my scope probe across the resistor and this is what I saw. Damn -- it is working! That said it will not transmit with the RPI4 or RPi5. The RPi3 is configured as a 32-Bit machine and the 4/5 are a 64Bit machines. I have no explanation. True it is a crap looking signal with a lot of trash riding along but the 1st real sign of a signal output in transmit. Some big issues remain such as cleaning up the signal and the transmitted frequency is nowhere correct. So, if you have an RPI3 -- you are good to go! MHST w...
Today we start with an updated Block Diagram of the MHST (Minimalist Homebrew SDR Transceiver). Let us start by tracing the Receive and Transmit Paths. Essentially the Received signal starts at the Analog front end passing through the TR Relay into the Main Board. The received signal is first amplified by the Steerable Amp and then passes this signal stream on to the Band Pass Filter. From here a simple FT-37-43 transformer splits the received RF signal into two RF signal paths passing one each to the RF input side of the two ADE-1's. There in each ADE-1 a Quadrature LO signal introduced from the Pi Pico converts the RF signals into two audio streams (In Phase and Quadrature -- I & Q). The next step is the Sound Card which processes the two audio streams into the RPI5 for signal processing and displaying the signals on the HDMI Screen and sending recovered audio to a Headphone/Mic Sound card dongle. The Optimal Shop Sound Card has both a stereo ...