There must be either a poor connection somewhere between the battery and the voltmeter
(either on the Negative or Positive wire), or your battery's
BMS is faulty and not allowing the full battery voltage to be delivered when any load is placed upon it.
If you have a removable bottle mount battery, check the contacts where the battery fits into its mounting plate for loose or burnt contacts.
Are your battery cable connections properly soldered/crimped etc. or could there be a poor connection somewhere on the battery cables?
I once had my motor refuse to start with a freshly charged 48V battery but the LED headlamp still lit up at full brightness when the battery switch was turned On.
I wrongly assumed that is was not a battery connection as the headlamp was receiving its power from the battery all the way through the controller harness, main control harness and all the way up to the light via the throttle, therefore I thought the entire battery circuit was good.
However, upon further investigation, I noticed a feint buzzing noise coming from the main battery connector which was arcing internally due to a high resistance between two of the contacts.
I cleaned the burnt contacts and closed up the female connectors to make a much tighter connection and the motor then ran properly again.
A poor contact can cause a substantial voltage drop, and in my case it was enough to reduce the voltage of a freshly charged battery below the minimum working voltage setting of the controller, but still high enough to fully power the LED headlamp.
If you measure the voltage across the terminals of your 60A DC breaker, you should be able to confirm whether or not the switch is causing the problem. It should show full battery voltage with the switch in the Off position and ~0V when it is switched On.
If it shows higher than 0.1V across the two breaker terminals when switched On, dirty or damaged switch contacts must be causing the voltage drop.
Check for full battery voltage coming out of the battery when everything is connected and turned On.
If the battery voltage is correct, double check all wiring joints and connectors on the battery circuit until you locate the fault.
If you use a multimeter to measure the voltage between the Battery
- connection and all connections/joints etc. along the battery wiring circuit
(including the negative battery return circuit) you should be able to locate the exact point where the voltage drop occurs.
If you can measure full battery voltage between the Battery
- (Negative) connection and the Red controller
(Positive) connection, check if the Black controller
(Negative) connection is showing ~0V.
If it shows 14~20V instead of the expected ~0V, the fault will be somewhere on the Black battery return circuit
(Battery -) instead of the Red battery supply circuit
(Battery +).
Alan 
