seppomans building information;ssm2164_pcb
the following informations are take from the midibox forum, its a collection of infos, without the claim to be 100% true, i will try to test the given information.

+ GND -
J5 is obviously the only connector where you could come to the conclusion that it might have something to do with power supply.Just like the:
AOUT(NG), the 2044 board, the MB_FM module etc, it expects a bipolar power supply of +/- 12 V and GND.

as a general rule of thumb you can assume that everything that doesn't specifically mention a bipolar control voltage will expect an unipolar CV.
In the case of this module, IIRC the dynamic range of the regular CV range (0 .. 11.67V) (uni-polar!) is about 65 dB, with 0V being “silence” and 11.67V being unity gain.
I have never thought about what happens if you apply a negative voltage to the CV input…

Note also that generally a bipolar control voltage (CV) still doesn't mean that there are more than two wires involved,
just the one signal can be above or below GND.

Unipolar Jumpering like shown:

if you followed aout_ng built plan you will get following Stock-CV-Voltages @+-12V PSU:
Uni-Polar CV-Range: 0-11,4V
Bi-Polar CV-Range: +-3V

SSM2164 & Stock AOUT_NG:
As the SSM2164 is UniPolar, and seppoman designed it as a couple with AOUT_NG. stock is ok

SSM2044 & Stock AOUT_NG:
As the CUT-Off-CV is UniPolar, and seppoman designed it as a couple with AOUT_NG. stock is ok
I guess for proper +/- 5V operation I'll have to try out a few other resistor values on the SSM module,
but this will only apply if you if you're using a different CV source than an AOUT_NG.\\

If you need more CV-Range: for more distortion, drive, range, or other modules:

if you sum two voltages through two resistors of same value, you'll get (V1+V2) / 2 as a result…

R9…R16 > 5.6k (only on the channels that are setup for bipolar mode)
+-3.5V to +-5.8V Bi-Polar calibration range
Pro: easy job, still have a decent precision when calibrating.
Con: “just change the jumpers if you need some channel in bipolar mode” thought will not work. ( really?)

we came to the conclusion that it's probably much easier to have the AOUT only output unipolar 0 to 10 volt, and design a simple -5v level shifter board that can be used as an add-on (or separate module with hands-on access to the level shifting) to shift the output to -5 to +5 volt where needed.

Things to consider are:

- not a lot of equipment actually makes use of negative voltages

- equipment that needs bipolar CV input can be retrofitted with a fixed level shifter at the input to make it compatible with your other modules

- negative voltages can be used for CV modulation purposes (modulate one CV source with another) so it's certainly not useless

R1…R8 > 10k
R9…R16 >2.2k (on all channels). (QUESTION WHY ON ALL? )
+9.5V to +22V Uni-Polar calibration-range
+-2.4V to +-5.5V Bi-Polar calibration-range ( dont think so )
Pro: preserve the “just change the jumpers if you need some channel in bipolar mode” thought behind this option.
Con:dramatically increase the calibration range, i.e. exactly calibrating the outputs will get harder because the same angle of turning the pot will have much more impact.

SSM2164 Pin 1 (the first pin) sets the “Mode”

Pin 1 is Open, no Resistor to +12V (PCB Default)
Lower current results in higher distortion/lower noise.
—i do want distortion and dont care about noise— so i do not change anything, the pcb is fine.

Pin 1 is Connected to +12V via a Resistor
Higher current results in lower distortion/higher noise
lets look in the datasheet:

Figures 11 and 12 show the THD and noise performance of the SSM2164 as the bias current is adjusted

I_MODE = ( (V+)−0.6V )/ RB
1,52mA = (12V-0.6V) / 7,5K
Leaving the MODE pin open sets the SSM2164 in Class AB with 30 μA in the Gain-Core