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55 TriStar MPPT-600V-TR Operator's Manual

Operation

4.7 Protections, Faults & Alarms

The TS-MPPT-600V-TR protections and automatic recovery are important features that ensure

the safe operation of the system. Additionally, the TS-MPPT-600V-TR features real-time self

diagnostics that report Fault and Alarm conditions as they occur.

Faults are events or conditions that require the TS-MPPT-600V-TR to cease operation. A Fault

usually occurs when a limit such as voltage, current, or temperature has been surpassed. Fault

conditions are indicated with unique LED sequences and are also displayed on a TriStar Meter,

and in MSView software.

Alarms are events or conditions that may require the TS-MPPT-600V-TR to modify operation.

Alarms are commonly used to alert the user that the controller is nearing a specic voltage, cur-

rent, or temperature limit. Alarm conditions are only displayed on a TriStar Meter, and in MSView

software.

Some basic Fault and Alarm conditions are described below.

Protections

Solar Overload

The TS-MPPT-600V-TR will limit battery current to the Maximum Battery Current rating. See

Figure 9-1 - Battery Current vs. Array Voltage de-rating graph - in Section 9.0. An over-sized

solar array will not operate at peak power. The solar array power should be less than the

TS-MPPT-600V-TR Nominal Maximum Input Power rating for optimal performance.

Solar High Input Voltage

As the array open-circuit voltage approaches the 600 volt maximum input voltage limit, solar

input current will be limited.

High Temperature

The TS-MPPT-600V-TR will limit the solar input current if the heatsink temperature exceeds safe

limits. Solar charge current will be tapered back (to 0 amps if needed) to reduce the heatsink

temperature.

Faults

Remote Temperature Sensor Failure (R+Y / G+Y)

If a fault in the RTS (such as a short circuit, open-circuit, loose terminal) occurs after the RTS has

been working, the LEDs will indicate a failure. However, if the controller is re-started with a failed

RTS, the controller may not detect that the RTS is connected, and the LEDs will not indicate a

problem. A TriStar meter or the PC software can be used to determine if an RTS is detected and

working properly.

Battery Voltage Sense Failure (R+Y / G+Y)

If a fault in the battery sense connection (such as a short circuit, open-circuit or loose terminal)

occurs after the battery sense has been working, the LEDs will indicate a failure. If the control-

ler is restarted with the failure still present, the controller may not detect that the battery sense is

connected and the LEDs will not indicate a fault. A TriStar meter or the PC software can be used

to determine if the battery sense is working properly.

Settings (DIP) Switch Changed (R / Y / G sequencing)

If a settings switch is changed while there is power to the controller, the LEDs will begin sequenc-

ing and the solar input will disconnect. The controller must be restarted to clear the fault and

begin operation with the new settings.

Battery High Voltage Disconnect (G / R sequencing)

This fault is set when battery voltage is above normal operating limits. The controller will discon-

nect the solar input and set a High Voltage Disconnect fault. This fault is commonly caused by

other charging sources in the system charging the battery above the TS-MPPT-600V-TR regula-

tion voltage. When the battery voltage returns to normal levels, the fault will automatically clear.

Custom Settings Edit (R / Y / G sequencing)

A value has been modied in custom settings memory. The controller will stop charging and

indicate a fault condition. After all settings have been modied, the controller must be reset by

removing and then restoring power to the controller. The new programmed settings will be used

after the power reset.

Firmware Update Failure (start-up interrupted - stops on Y)

The rmware update was not successfully programmed. The controller will not indicate the full

power-up LED sequence of G / Y / R when power to the controller is reset. Instead, the con-

troller will display green and then stop on yellow. The yellow LED will continue to be lit and the

controller will not complete start up or begin charging. Retry the rmware update. The rmware

must be successfully loaded before the controller will start up. Note: the second indication of

rmware update failure is that the other processor is not responding.

Solar Over-Current (Y + R / G)

While rare, if battery charging current exceeds approximately 130% of the controller’s output

current rating, this fault can occur. The fault is generally related to fast, large battery voltage

transients (connecting a very heavy or capacitive load like an inverter) that are faster than the

controller can regulate and it shuts off to protect the circuitry. The controller will automatically

re-start in 10 seconds.