SSB6.1 with Si5351 RX Working

After a few trials, it looks like I figured out how to get the SSB6.1 to hear stuff.  I had several issues:

• The board and parts layout diagram had an area for R15-R18 and a part labeled WI (WJ?) but the schematic did not have any reference to these parts.  (Edit:  I discovered that this part is actually M1 -- the letters are transposed on the board so it looks like WI/J.)
• I was missing the 2 100 Ohm resistors (R42 and R63).
• C22 is incorrectly labeled as a 2.2uF where a 10uF should be used.

Other than these pretty minor issues, the assembly was straight-forward.  I substituted a couple of non-surface mount resistors for R42 & R63 (they look kinda funny but it will do for now).  The M1 part seems to be for a preamp that actually was included with the parts but I bypassed it since I did not find it on the schematic.  Close examination of a picture of the board from the internet shows a 10pF capacitor installed across 2 pins of M1 instead (the resistors were not populated).

The Si5351 cobbled to the SSB6.1

I decided to only wind the coils for 10m, 15m, and 20m to confirm that I could get something working (and frankly I wanted to get something ready for testing as fast as possible).  I'll wind the 40m coils next.  I am not sure if I'll bother with the 75/80m coils as I'm not sure I will use this radio for that band.  I'd really like to figure out how to get this working on 17m as that is a great band.

The SSB6.1 has an intermediate frequency (IF) of 8 MHz.  During my first tests with the Si5351, I used a DDS mixing frequency of 22 MHz thinking that would give me 14 MHz after the mixer.  Well, it did but I was not able to demodulate signals properly.  The signals all sounded like they were using the wrong side band.  I then tried a DDS frequency of 6 MHz and I started hearing properly demodulated signals!  I then tried a DDS frequency of 13 MHz and was able to hear 15m signals.

After fooling around with the optical encoder code, I am easily able to tune up and down the band.  I display both the DDS frequency and the actual frequency on the microView. I do not have an easy way to switch bands yet; I have to recompile the code and switch jumper connectors.

I read another site about using the Si5351 with a '602 mixer and how the 5351 can overload the '602. I implemented a 10dB attenuator using a few resistors based on information from radio-electronics.com.

Another cool thing about the Si5351 is that I was able to product a sweep frequency to test the receiver incredibly easily.  I simply enabled one of the other clock outputs and it worked great.