It was about 72v at the Yellow, Green, and Blue hall connections to the controller when I put it voltmeter on the negative connection in the controller?
I'm thinking you were testing at the main PHASE wire connections The main large colored wires going to the motor? At U,V, & W... Other wise we have serious issues. 
Are you sure the voltmeter was on the Negative controller connection? I'm hoping you were incorrectly measuring the voltage in relation to the Battery Positive
(Red) instead of the battery -
(Black) as this might explain why such a high voltage
(~5V less than battery voltage) was measured at the Hall sensors
(or the Phase wires).
However, if the meter was actually connected to the Battery Negative as stated, the only other causes I can think of would be:
- A direct short circuit between the +5V wire (or possibly the Throttle signal wire) and the Battery Feed wire (Normally used to power the LED Battery Gauge) on the Throttle wiring/connections.
- The battery Gauge wire and +5V wire have been incorrectly connected (transposed) causing full battery voltage to be sent to the Throttle Hall sensor instead of +5V. This could blow the throttle Hall sensor allowing Battery voltage to flow back along the throttle signal wire to the controller
- The battery Gauge wire and Throttle signal wire have been incorrectly connected (transposed) causing full battery voltage to be sent to the Throttle's Hall sensor. This might also blow the throttle Hall sensor, possibly allowing Battery voltage to feed back along the +5V wire to the controller
Unfortunately, if any of the above has occurred, I suspect the controller may have been damaged, as a 5V circuit is unlikely to survive for very long on a 72V supply, and something is likely to die.
Also a question for when I get this working, the +12v would work for lights and other 12v applications that is left over from the ICE components? Thanks.
Typically this is a very low power source from the controller. Perhaps less than .5 amp. And therefore probably unsuitable. I'll try to find out exactly. Unless Alan would chime in. 
It is my understanding that the
+12V high brake (optional) wire is used as an alternative input to operate the regen and power cutoff. This +12V signal input would come from the vehicle's existing 12V supply
(a 12V battery and/or inverter) which would be switched via the original brake light switches.
This wire would simply connect into the brake light bulb feed wire so that it receive 12V input to operate the regen and power cutoff whenever the brakes are applied
(just like the brake light bulb does).
If your bike already had a 12V system for lights, indicators, horn and radio etc. this enables the 12V output from the bike's original brake switches to be used to trigger the regen, cancel the cruise and safely cut the motor power when either of the brakes are applied.
I wouldn't expect the controller to actually supply a 12V feed via this wire, but as I don't have a controller to physically inpspect, I am unable to confirm my suspicions.
It appears that we are all in the same boat here, as we are all still learning!
Alan 
