cimpy.cgmes_v2_4_15.ExcELIN1 module

class cimpy.cgmes_v2_4_15.ExcELIN1.ExcELIN1(dpnf=0.0, efmax=0.0, efmin=0.0, ks1=0.0, ks2=0.0, smax=0.0, tfi=0.0, tnu=0.0, ts1=0.0, ts2=0.0, tsw=0.0, vpi=0.0, vpnf=0.0, vpu=0.0, xe=0.0, *args, **kw_args)

Static PI transformer fed excitation system: ELIN (VATECH) - simplified model. This model represents an all-static excitation system. A PI voltage controller establishes a desired field current set point for a proportional current controller. The integrator of the PI controller has a follow-up input to match its signal to the present field current. A power system stabilizer with power input is included in the model.

dpnf:

Controller follow up dead band (Dpnf). Typical Value = 0. Default: 0.0

efmax:

Maximum open circuit excitation voltage (Efmax). Typical Value = 5. Default: 0.0

efmin:

Minimum open circuit excitation voltage (Efmin). Typical Value = -5. Default: 0.0

ks1:

Stabilizer Gain 1 (Ks1). Typical Value = 0. Default: 0.0

ks2:

Stabilizer Gain 2 (Ks2). Typical Value = 0. Default: 0.0

smax:

Stabilizer Limit Output (smax). Typical Value = 0.1. Default: 0.0

tfi:

Current transducer time constant (Tfi). Typical Value = 0. Default: 0.0

tnu:

Controller reset time constant (Tnu). Typical Value = 2. Default: 0.0

ts1:

Stabilizer Phase Lag Time Constant (Ts1). Typical Value = 1. Default: 0.0

ts2:

Stabilizer Filter Time Constant (Ts2). Typical Value = 1. Default: 0.0

tsw:

Stabilizer parameters (Tsw). Typical Value = 3. Default: 0.0

vpi:

Current controller gain (Vpi). Typical Value = 12.45. Default: 0.0

vpnf:

Controller follow up gain (Vpnf). Typical Value = 2. Default: 0.0

vpu:

Voltage controller proportional gain (Vpu). Typical Value = 34.5. Default: 0.0

xe:

Excitation transformer effective reactance (Xe) (>=0). Xe represents the regulation of the transformer/rectifier unit. Typical Value = 0.06. Default: 0.0

Documentation of parent class ExcitationSystemDynamics:

Excitation system function block whose behavior is described by reference to a standard model

DiscontinuousExcitationControlDynamics:

Discontinuous excitation control model associated with this excitation system model. Default: None

OverexcitationLimiterDynamics:

Overexcitation limiter model associated with this excitation system model. Default: None

PFVArControllerType1Dynamics:

Power Factor or VAr controller Type I model associated with this excitation system model. Default: None

PFVArControllerType2Dynamics:

Power Factor or VAr controller Type II model associated with this excitation system model. Default: None

PowerSystemStabilizerDynamics:

Power system stabilizer model associated with this excitation system model. Default: None

SynchronousMachineDynamics:

Synchronous machine model with which this excitation system model is associated. Default: None

UnderexcitationLimiterDynamics:

Undrexcitation limiter model associated with this excitation system model. Default: None

VoltageCompensatorDynamics:

Voltage compensator model associated with this excitation system model. Default: None

Documentation of parent class DynamicsFunctionBlock:

Abstract parent class for all Dynamics function blocks.

enabled:

Function block used indicator. true = use of function block is enabled false = use of function block is disabled. Default: False

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: