cimpy.cgmes_v2_4_15.GovHydroWEH module

class cimpy.cgmes_v2_4_15.GovHydroWEH.GovHydroWEH(mwbase=0.0, rpg=0.0, rpp=0.0, tpe=0, kp=0.0, ki=0.0, kd=0.0, td=0, tp=0, tdv=0, tg=0, gtmxop=0.0, gtmxcl=0.0, gmax=0.0, gmin=0.0, dturb=0.0, tw=0, db=0.0, dpv=0.0, dicn=0.0, feedbackSignal=False, gv1=0.0, gv2=0.0, gv3=0.0, gv4=0.0, gv5=0.0, fl1=0.0, fl2=0.0, fl3=0.0, fl4=0.0, fl5=0.0, fp1=0.0, fp2=0.0, fp3=0.0, fp4=0.0, fp5=0.0, fp6=0.0, fp7=0.0, fp8=0.0, fp9=0.0, fp10=0.0, pmss1=0.0, pmss2=0.0, pmss3=0.0, pmss4=0.0, pmss5=0.0, pmss6=0.0, pmss7=0.0, pmss8=0.0, pmss9=0.0, pmss10=0.0, *args, **kw_args)

Woodward Electric Hydro Governor Model.

mwbase

Base for power values (MWbase) (>0). Unit = MW. Default: 0.0

rpg

Permanent droop for governor output feedback (R-Perm-Gate). Default: 0.0

rpp

Permanent droop for electrical power feedback (R-Perm-Pe). Default: 0.0

tpe

Electrical power droop time constant (Tpe). Default: 0

kp

Derivative control gain (Kp). Default: 0.0

ki

Derivative controller Integral gain (Ki). Default: 0.0

kd

Derivative controller derivative gain (Kd). Default: 0.0

td

Derivative controller time constant to limit the derivative characteristic beyond a breakdown frequency to avoid amplification of high-frequency noise (Td). Default: 0

tp

Pilot Valve time lag time constant (Tp). Default: 0

tdv

Distributive Valve time lag time constant (Tdv). Default: 0

tg

Value to allow the Distribution valve controller to advance beyond the gate movement rate limit (Tg). Default: 0

gtmxop

Maximum gate opening rate (Gtmxop). Default: 0.0

gtmxcl

Maximum gate closing rate (Gtmxcl). Default: 0.0

gmax

Maximum Gate Position (Gmax). Default: 0.0

gmin

Minimum Gate Position (Gmin). Default: 0.0

dturb

Turbine damping factor (Dturb). Unit = delta P (PU of MWbase) / delta speed (PU). Default: 0.0

tw

Water inertia time constant (Tw) (>0). Default: 0

db

Speed Dead Band (db). Default: 0.0

dpv

Value to allow the Pilot valve controller to advance beyond the gate limits (Dpv). Default: 0.0

dicn

Value to allow the integral controller to advance beyond the gate limits (Dicn). Default: 0.0

feedbackSignal

Feedback signal selection (Sw). true = PID Output (if R-Perm-Gate=droop and R-Perm-Pe=0) false = Electrical Power (if R-Perm-Gate=0 and R-Perm-Pe=droop) or false = Gate Position (if R-Perm-Gate=droop and R-Perm-Pe=0). Default: False

gv1

Gate 1 (Gv1). Gate Position value for point 1 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

gv2

Gate 2 (Gv2). Gate Position value for point 2 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

gv3

Gate 3 (Gv3). Gate Position value for point 3 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

gv4

Gate 4 (Gv4). Gate Position value for point 4 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

gv5

Gate 5 (Gv5). Gate Position value for point 5 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

fl1

Flow Gate 1 (Fl1). Flow value for gate position point 1 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

fl2

Flow Gate 2 (Fl2). Flow value for gate position point 2 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

fl3

Flow Gate 3 (Fl3). Flow value for gate position point 3 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

fl4

Flow Gate 4 (Fl4). Flow value for gate position point 4 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

fl5

Flow Gate 5 (Fl5). Flow value for gate position point 5 for lookup table representing water flow through the turbine as a function of gate position to produce steady state flow. Default: 0.0

fp1

Flow P1 (Fp1). Turbine Flow value for point 1 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp2

Flow P2 (Fp2). Turbine Flow value for point 2 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp3

Flow P3 (Fp3). Turbine Flow value for point 3 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp4

Flow P4 (Fp4). Turbine Flow value for point 4 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp5

Flow P5 (Fp5). Turbine Flow value for point 5 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp6

Flow P6 (Fp6). Turbine Flow value for point 6 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp7

Flow P7 (Fp7). Turbine Flow value for point 7 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp8

Flow P8 (Fp8). Turbine Flow value for point 8 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp9

Flow P9 (Fp9). Turbine Flow value for point 9 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

fp10

Flow P10 (Fp10). Turbine Flow value for point 10 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss1

Pmss Flow P1 (Pmss1). Mechanical Power output Pmss for Turbine Flow point 1 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss2

Pmss Flow P2 (Pmss2). Mechanical Power output Pmss for Turbine Flow point 2 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss3

Pmss Flow P3 (Pmss3). Mechanical Power output Pmss for Turbine Flow point 3 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss4

Pmss Flow P4 (Pmss4). Mechanical Power output Pmss for Turbine Flow point 4 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss5

Pmss Flow P5 (Pmss5). Mechanical Power output Pmss for Turbine Flow point 5 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss6

Pmss Flow P6 (Pmss6). Mechanical Power output Pmss for Turbine Flow point 6 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss7

Pmss Flow P7 (Pmss7). Mechanical Power output Pmss for Turbine Flow point 7 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss8

Pmss Flow P8 (Pmss8). Mechanical Power output Pmss for Turbine Flow point 8 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss9

Pmss Flow P9 (Pmss9). Mechanical Power output Pmss for Turbine Flow point 9 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

pmss10

Pmss Flow P10 (Pmss10). Mechanical Power output Pmss for Turbine Flow point 10 for lookup table representing per unit mechanical power on machine MVA rating as a function of turbine flow. Default: 0.0

Documentation of parent class TurbineGovernorDynamics:

Turbine-governor function block whose behavior is described by reference to a standard model

SynchronousMachineDynamics

Turbine-governor model associated with this synchronous machine model. Default: “list”

AsynchronousMachineDynamics

Asynchronous machine model with which this turbine-governor model is associated. Default: None

TurbineLoadControllerDynamics

Turbine load controller providing input to this turbine-governor. 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”

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: ‘’

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: ‘’

shortName

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

cgmesProfile

alias of cimpy.cgmes_v2_4_15.Base.Profile

Inheritance Diagram: