Magnum Energy ME-ARC Remote User Manual

Using a PT Controller: Troubleshooting

Page 123

• FET

Overtemp-PT – The internal FETs (Field Effect Transistors) have exceeded their safe

temperature operating range (≥85˚C/185˚F).

Remedy: If this fault happens often, ensure the controller is not in a hot area, has

proper ventilation, and the cooling fans inside are working.
Note: This fault automatically clears and the unit resumes operation when the FET

temperature has cooled down to 83°C/181°F or below. Manually clear by pressing the

PT’s RESET pushbutton for one second once the FET temperature falls below 85°C/185°F.

• Ground Fault-PT – The PT controller turned off because the GFP fuse inside the PT has

opened due to a ground-fault condition.

WARNING: Conductors that were normally grounded may have become ungrounded

and energized if a ground fault is indicated.

Remedy: Find and correct the ground-fault condition and replace the GFP fuse. Once

the ground-fault condition is corrected and the GFP fuse is replaced, manually clear this

fault by pressing the PT controller’s RESET pushbutton for one second.

Info: See the PT owner’s manual for the GFP fuse location and type.

• HiBatt

Temp-PT – The temperature around the BTS has risen to 55°C/131°F or above.

Remedy: Check the area where the BTS is located. Ensure that the BTS hasn’t been

placed in a hot area or near a hot device. If the BTS was placed on a battery ensure

the batteries are not overheated. If neither of these are the issue, then remove the

BTS from the BTS port. If the fault clears, replace the BTS. If the fault continues, then

inspect the BTS port for cleanliness and/or have the controller serviced.
Note: This fault automatically clears and the unit resumes operation when the BTS

temperature has cooled down to 50°C/122°F or below. Manually clear by pressing the

PT’s RESET pushbutton for one second once the BTS temperature falls below 54°C/129°F.

• High Bat VDC-PT – High voltage (≥68 VDC) has been detected on the battery input termi-

nals (i.e., BAT+ to BAT-).

Remedy: Check the voltage on the battery terminals. High voltage can be caused by an

incorrect connection of the PV array to the battery terminals, or the battery bank being

charged by an external means and the voltage is >68 VDC (including ripple voltage).
Note: The fault automatically clears and the unit resumes operation once the voltage

to the battery input terminals is ≤66.4 VDC. Manually clear the fault by pressing the PT

controller’s RESET pushbutton for one second when the voltage falls below 68 VDC.

CAUTION: The PT controller can be damaged if the voltage to the battery input terminals

is above 68 VDC.

• High PV VDC-PT – A very high PV voltage (>187 VDC) has been detected on the PV

terminals (i.e., PV+ to PV-).

Remedy: Check if the sizing of the PV array voltage is too high or too close to the

maximum PT input operating voltage during cold weather periods. To prevent this fault

and keep the controller running, size the PV array to ensure the PV input voltage stays

below 187 VDC under any weather condition.
Note: The fault automatically clears and the unit resumes operation once the voltage to

the PV input terminals is less than 187 VDC.
CAUTION: The PT controller can be damaged if the voltage to the PV input terminals is

more than 200 VDC above the battery voltage or greater than the 240 VDC maximum,

whichever is less.