Information

This information is part of the Modelica Standard Library maintained by the Modelica Association.

Stray load losses are modeled similar to standards EN 60034-2 and IEEE 512, i.e., they are dependent on square of current, but without scaling them to zero at no-load current.

For an estimation of dependency on varying angular velocity see: [Lang1984]

The stray load losses are modeled such way that they do not cause a voltage drop in the electric circuit. Instead, the dissipated losses are considered through an equivalent braking torque at the shaft.

The stray load loss torque is

tau = PRef/wRef * (i/IRef)^2 * (w/wRef)^power_w

where i is the current of the machine and w is the actual angular velocity. The dependency of the stray load torque on the angular velocity is modeled by the exponent power_w.

Parameters (3)

m	Value: 3 Type: Integer Description: Number of phases
useHeatPort	Value: false Type: Boolean Description: = true, if heatPort is enabled
strayLoadParameters	Value: Type: StrayLoadParameters Description: Stray load loss parameters

Value: 3

Type: Integer

Description: Number of phases

useHeatPort

Value: false

Type: Boolean

Description: = true, if heatPort is enabled

strayLoadParameters

Value:

Type: StrayLoadParameters

Description: Stray load loss parameters

Connectors (5)

	plug_p	Type: PositivePlug Description: Positive quasi-static polyphase plug
	plug_n	Type: NegativePlug Description: Negative quasi-static polyphase plug
	flange	Type: Flange_a Description: Shaft end
	support	Type: Flange_a Description: Housing and support
	heatPort	Type: HeatPort_a Description: Optional port to which dissipated losses are transported in form of heat

Components (3)

	v	Type: ComplexVoltage[m] Description: Complex voltage
	i	Type: ComplexCurrent[m] Description: Complex current
	strayLoadParameters	Type: StrayLoadParameters Description: Stray load loss parameters

Type: ComplexVoltage[m]

Description: Complex voltage

Type: ComplexCurrent[m]

Description: Complex current