Slot: damping
Damping torque coefficient (D) (>= 0). A proportionality constant that, when multiplied by the angular velocity of the rotor poles with respect to the magnetic field (frequency), results in the damping torque. This value is often zero when the sources of damping torques (generator damper windings, load damping effects, etc.) are modelled in detail. Typical value = 0.
URI: cim:RotatingMachineDynamics.damping
Applicable Classes
| Name | Description | Modifies Slot |
|---|---|---|
| AsynchronousMachineUserDefined | Asynchronous machine whose dynamic behaviour is described by a user-defined m... | no |
| AsynchronousMachineDynamics | Asynchronous machine whose behaviour is described by reference to a standard ... | no |
| SynchronousMachineTimeConstantReactance | Synchronous machine detailed modelling types are defined by the combination o... | no |
| AsynchronousMachineTimeConstantReactance | Parameter details: | |
| no | ||
| SynchronousMachineDynamics | Synchronous machine whose behaviour is described by reference to a standard m... | no |
| SynchronousMachineDetailed | All synchronous machine detailed types use a subset of the same data paramete... | no |
| RotatingMachineDynamics | Abstract parent class for all synchronous and asynchronous machine standard m... | no |
| SynchronousMachineEquivalentCircuit | The electrical equations for all variations of the synchronous models are bas... | no |
| SynchronousMachineSimplified | The simplified model represents a synchronous generator as a constant interna... | no |
| AsynchronousMachineEquivalentCircuit | The electrical equations of all variations of the asynchronous model are base... | no |
| SynchronousMachineUserDefined | Synchronous machine whose dynamic behaviour is described by a user-defined mo... | no |
Properties
- Range: Float
Identifier and Mapping Information
Schema Source
- from schema: https://cim.ucaiug.io/ns#TC57CIM
LinkML Source
name: damping
description: Damping torque coefficient (<i>D</i>) (>= 0). A proportionality constant
that, when multiplied by the angular velocity of the rotor poles with respect to
the magnetic field (frequency), results in the damping torque. This value is often
zero when the sources of damping torques (generator damper windings, load damping
effects, etc.) are modelled in detail. Typical value = 0.
from_schema: https://cim.ucaiug.io/ns#TC57CIM
rank: 1000
slot_uri: cim:RotatingMachineDynamics.damping
multivalued: false
alias: damping
owner: RotatingMachineDynamics
domain_of:
- RotatingMachineDynamics
range: float
required: false