PowerLogic™ PM5500 series user manual

Chapter 10—Alarms

 

 

Maximum allowable setpoint

The meter is programmed to help prevent user data entry errors. Limits have been set for the standard (1-Sec) alarms.

The maximum setpoint value you can enter for some of the standard alarms depend on the voltage transformer ratio (VT ratio), current transformer ratio (CT ratio), system type (i.e., number of phases) and/or the maximum voltage and maximum current limits programmed at the factory.

NOTE: VT ratio is the VT primary divided by the VT secondary, and CT ratio is the CT primary divided by the CT secondary.

Standard alarm maximum setpoint values

Standard alarm

Maximum setpoint value

 

 

Over Phase Current

(maximum current) x (CT ratio)

 

 

Under Phase Current

(maximum current) x (CT ratio)

 

 

Over Neutral Current

(maximum current) x (CT ratio) x (number of phases)

 

 

Over Ground Current

(maximum current) x (CT ratio)

 

 

Over Voltage L-L

(maximum voltage) x (VT ratio)

 

 

Under Voltage L-L

(maximum voltage) x (VT ratio)

 

 

Over Voltage L-N

(maximum voltage) x (VT ratio)

 

 

Under Voltage L-N

(maximum voltage) x (VT ratio)

 

 

Over Active Power

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Reactive Power

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Apparent Power

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Present Active Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Last Active Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Predicted Active Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Present Reactive Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Last Reactive Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Predicted Reactive Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Present Apparent Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Last Apparent Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Predicted Apparent Power Demand

(maximum voltage) x (maximum current) x (number of phases)

 

 

Over Voltage Unbalance

(maximum voltage) x (VT ratio)

 

 

Phase Loss

(maximum voltage) x (VT ratio)

 

 

Power factor (PF)

You can set up a Leading PF or Lagging PF alarm to monitor when the circuit’s power factor goes above or below the threshold you specify. The Leading PF and Lagging PF alarms use the power factor quadrants as the values on the y-axis, with quadrant II on the lowest end of the scale, followed by quadrant III, quadrant I, and finally quadrant IV on the highest end of the scale.

PF quadrants and related values

Quadrant

PF values

Lead/Lag

 

 

 

II

0 to -1

Leading (capacitive)

 

 

 

III

-1 to 0

Lagging (inductive)

 

 

 

I

0 to 1

Lagging (inductive)

 

 

 

IV

1 to 0

Leading (capacitive)

 

 

 

HRB1684301-01

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Schneider Electric HRB1684301-01 Maximum allowable setpoint, Power factor PF, Standard alarm maximum setpoint values