Xantrex Technology PV-225208 User Manual

SECTION 5
TROUBLESHOOTING

DOCUMENT: 151811

PV-225208 Photovoltaic Inverter

Operation and Maintenance Manual

Copyright 2003, Xantrex Technology Inc.

5-5

Pins 1 and 3 are correct, the CT may be damaged.

Clear the fault and restart the PCU. If the fault is sustained contact your Xantrex Technology distributor for
assistance or service.

0828 – PV Over-Current Fault (S)
Current through the PV CT has exceeded the allowable limit.

Possible causes:

•

PV system wiring short: Inspect the PV power system for short circuits.

•

PCU Power Supply is defective: Verify +/-15Vdc sources, referenced to analog ground, on the
PCU. There are labeled test points on the PCU circuit board. Note: There are two isolated +15Vdc
power supplies labeled +15Vdc and +15Vdc Drv. The +15Vdc Drv power supply provides power
for the matrix driver boards only.

•

Faulty CT wiring: Verify the wiring between the PCU and the CT is properly connected and undam-
aged. Refer to the system schematic in Section 7.

•

CT defective: Locate the current transducer for the PV leg in question (see control components
drawing in Section 7). With a digital multi-meter measure the voltage from CT pins 1, 2, and 3 to
chassis ground. Pins 1 and 3 should read approximately +15 and -15Vdc respectively. These volt-
ages are sourced directly from the PCU. Pin 2 should read less than 20mV when no current is
passing through the CT window. If Pin 2 reads greater than 20mV, and the supply voltages are on
Pins 1 and 3 are correct, the CT may be damaged

Clear the fault and restart the PCU. If the fault is sustained contact your Xantrex Technology distributor
for assistance or service.

8021 - DC Bus Voltage High (H)
The DC Bus voltage has exceeded the maximum allowable limit.

This fault is generally transient in nature. Clear the fault and attempt to restart the PV-225208.