cimpy.cgmes_v2_4_15.LinearShuntCompensator module

class cimpy.cgmes_v2_4_15.LinearShuntCompensator.LinearShuntCompensator(b0PerSection=0.0, bPerSection=0.0, g0PerSection=0.0, gPerSection=0.0, *args, **kw_args)

A linear shunt compensator has banks or sections with equal admittance values.

b0PerSection:

Zero sequence shunt (charging) susceptance per section Default: 0.0

bPerSection:

Positive sequence shunt (charging) susceptance per section Default: 0.0

g0PerSection:

Zero sequence shunt (charging) conductance per section Default: 0.0

gPerSection:

Positive sequence shunt (charging) conductance per section Default: 0.0

Documentation of parent class ShuntCompensator:

A shunt capacitor or reactor or switchable bank of shunt capacitors or reactors. A section of a shunt compensator is an individual capacitor or reactor. A negative value for reactivePerSection indicates that the compensator is a reactor. ShuntCompensator is a single terminal device. Ground is implied.

SvShuntCompensatorSections:

The state for the number of shunt compensator sections in service. Default: None

aVRDelay:

Time delay required for the device to be connected or disconnected by automatic voltage regulation (AVR). Default: 0.0

grounded:

Used for Yn and Zn connections. True if the neutral is solidly grounded. Default: False

maximumSections:

The maximum number of sections that may be switched in. Default: 0

nomU:

The voltage at which the nominal reactive power may be calculated. This should normally be within 10% of the voltage at which the capacitor is connected to the network. Default: 0.0

normalSections:

The normal number of sections switched in. Default: 0

sections:

Shunt compensator sections in use. Starting value for steady state solution. Non integer values are allowed to support continuous variables. The reasons for continuous value are to support study cases where no discrete shunt compensators has yet been designed, a solutions where a narrow voltage band force the sections to oscillate or accommodate for a continuous solution as input. Default: 0.0

switchOnCount:

The switch on count since the capacitor count was last reset or initialized. Default: 0

switchOnDate:

The date and time when the capacitor bank was last switched on. Default: ‘’

voltageSensitivity:

Voltage sensitivity required for the device to regulate the bus voltage, in voltage/reactive power. Default: 0.0

Documentation of parent class RegulatingCondEq:

A type of conducting equipment that can regulate a quantity (i.e. voltage or flow) at a specific point in the network.

RegulatingControl:

The regulating control scheme in which this equipment participates. Default: None

controlEnabled:

Specifies the regulation status of the equipment. True is regulating, false is not regulating. Default: False

Documentation of parent class ConductingEquipment:

The parts of the AC power system that are designed to carry current or that are conductively connected through terminals.

BaseVoltage:

All conducting equipment with this base voltage. Use only when there is no voltage level container used and only one base voltage applies. For example, not used for transformers. Default: None

SvStatus:

The status state variable associated with this conducting equipment. Default: None

Terminals:

Conducting equipment have terminals that may be connected to other conducting equipment terminals via connectivity nodes or topological nodes. Default: “list”

Documentation of parent class Equipment:

The parts of a power system that are physical devices, electronic or mechanical.

EquipmentContainer:

Container of this equipment. Default: None

OperationalLimitSet:

The operational limit sets associated with this equipment. Default: “list”

aggregate:

The single instance of equipment represents multiple pieces of equipment that have been modeled together as an aggregate. Examples would be power transformers or synchronous machines operating in parallel modeled as a single aggregate power transformer or aggregate synchronous machine. This is not to be used to indicate equipment that is part of a group of interdependent equipment produced by a network production program. Default: False

Documentation of parent class PowerSystemResource:

A power system resource can be an item of equipment such as a switch, an equipment container containing many individual items of equipment such as a substation, or an organisational entity such as sub-control area. Power system resources can have measurements associated.

Controls:

Regulating device governed by this control output. Default: “list”

Location:

Location of this power system resource. Default: None

Measurements:

The power system resource that contains the measurement. Default: “list”

Documentation of parent class IdentifiedObject:

This is a root class to provide common identification for all classes needing identification and naming attributes.

DiagramObjects:

The domain object to which this diagram object is associated. Default: “list”

description:

The description is a free human readable text describing or naming the object. It may be non unique and may not correlate to a naming hierarchy. Default: ‘’

energyIdentCodeEic:

The attribute is used for an exchange of the EIC code (Energy identification Code). The length of the string is 16 characters as defined by the EIC code. References: Default: ‘’

mRID:

Master resource identifier issued by a model authority. The mRID is globally unique within an exchange context. Global uniqueness is easily achieved by using a UUID, as specified in RFC 4122, for the mRID. The use of UUID is strongly recommended. For CIMXML data files in RDF syntax conforming to IEC 61970-552 Edition 1, the mRID is mapped to rdf:ID or rdf:about attributes that identify CIM object elements. Default: ‘’

name:

The name is any free human readable and possibly non unique text naming the object. Default: ‘’

shortName:

The attribute is used for an exchange of a human readable short name with length of the string 12 characters maximum. Default: ‘’

Inheritance Diagram: