Description

Use this field to add all kinds of information about the component

Control type

The breakers' state can be controlled from any of the following sources

Internal {0}

Internal control defined in the the Timing tab

External (input sensors) {1}

Target digital inputs on CMD(a,b,c) sensors

External (input pins) {3}

Schematic control signal; binary

Ropen

Open state resistance of phase breakers

Rclosed

Closed state resistance of phase breakers

Current chopping limit

Threshold for the absolute value of current below which the breaker is forced to open, simulating the effect of current chopping. Applies only when the model type is set to 'Breaker'.

Base power

Base value pour PU conversion

Base voltage

Base value pour PU conversion

Base frequency

Base value pour PU conversion

Time units

Units applied to the programmed state transition operations

Second {s}

All operations T_n are in seconds

Millisecond {ms}

All operations T_n are in milliseconds

Cycle {c}

All operations T_n are in electrical cycles (setting the frequency is mandatory)

General operation

Master switch that determines whether the programmed operations will occur upon triggering an acquisition

Disable {0}

Programmed operations are disabled

Enable {1}

Programmed operations are enabled

Steady-state condition

State of breaker in steady-state: open or closed.

Network frequency

Legacy. Should be set using the parameter "Base frequency".

Model type

Determine whether the component acts as a switch or as a breaker

Breaker {0}

Once the time condition is met, the breaker waits for the current to cross the breaking capacity before changing its state

Switch {1}

The state of the switch changes as soon as the time condition is met

Enable

Enable/disable the state transition operation on the same line.

Disable {0}

Disable the state transition operation on the same line

Enable {1}

Enable the state transition operation on the same line. If the line is enabled but no information is filled, the state transition operation is ignored.

Time

Relative time (with respect to POW synchronization) when the command is sent to the breaker (or switch) to change state. There are four ways to input this time.

Important notes:

• For changes of state to occur, programmed operation times must always respect T_n>T_n-1.

• If a parameter field is blank or contains “-”, no switching will occur for this line.

• There is no alias for the type of timing in the API. The timing type and values are entered as a single string.

• If using referenced operations, the calculated time is applied after it received the command from the other component. See the Referenced Operations section for more information.

Fixed

(f: fixed time)

At each acquisition, T_n command is sent at the same time.

Incremental

(i: initial time/final time/time increment)

For the first acquisition, T_n command is sent at the set initial time. Then at each acquisition, T_n command is sent a time increment later than the previous acquisition. Once the final time is reached, the next acquisition will be done using the initial time again.

Uniform

(u: minimal time/maximal time)

At each acquisition, T_n command is sent at a random time. The probability is uniform over the specified range.

Uniform gaussian

(ug: minimal time/maximal time/ dispersion)

At each acquisition, T_n command is sent at a random time. The probability follows a gaussian distribution over the specified range.

Referenced operations

Use to refer the triggering of T_n to another breaker programmed state transition. See the Referenced Operations section for more information.

NB: all columns must be filled for the referenced operation to work.

Component

Name (or path) of the breaker to which the timing is referenced

Time

Time T_n ID of the referenced breaker's step to which the timing is referenced

Phase/Command

Activate (Phase) or deactivate (Command) the reference dependency

Phase operated

Change of state when the timing condition is reached.