TransducerFaultsAngularAcceleration coming soon

https://bladednextgen.dnv.com/schema/0.4.1/Turbine/BladedControl/MeasuredSignalProperties/SignalPropertiesAngularAcceleration/TransducerFaultsAngularAcceleration/TransducerFaultsAngularAcceleration.json

Not supported yet

• ApplyOnlyToFirst: boolean
• MiscalibrationOffset: number
• InverseInstallation: boolean
• FailTime: number (s)
• FaultType: string = None | Noise | ToConstant | ConstantOffset | GrowingOffset | HarmonicOffset
• NoiseMultiplier: number
• FailureValue: number
• FailureValueRampRate: number
• ConstantOffset: number
• GrowingOffset: number
• Magnitude: number
• Period: number (s)
• MiscalibrationOffset: number (rad/s²)
• FailureValue: number (rad/s²)
• FailureValueRampRate: number (rad/s³)
• ConstantOffset: number (rad/s²)
• GrowingOffset: number (rad/s³)
• Magnitude: number (rad/s²)

Properties

ApplyOnlyToFirst: boolean, optionalcoming soon

If true, the fault will be aplied only to the first instance of this transducer. If false, all sensors of this type will fail identically.

default = True

MiscalibrationOffset: number, optionalcoming soon

A constant value added to the sensor's output - for example, if the sensor had been incorrectly installed or poorly calibrated.

default = 0.0

InverseInstallation: boolean, optionalcoming soon

Whether the sensor was installed in reverse, resulting in its outputs being multiplied by -1.0.

default = False

FailTime: number (s), optionalcoming soon

The time at which any time-dependent failure occurs. This will be from the beginning of the simulation, and not from the start of logging. Please ensure that this time will equate to a period which is being clearly logged.

default = 0.0

FaultType: string, optionalcoming soon

What fault occurs at a specified time in the simulation.

default = None

NoiseMultiplier: number, optionalcoming soon

The factor by which the noise on the signal increases (or decreases) by.

default = 1.0

FailureValue: number, optionalcoming soon

The value which the sensor reverts to in the case of failure.

default = 0.0

FailureValueRampRate: number, optionalcoming soon

The rate at which the signal reverts to its fail value. A rate of 0.0 represents an instantaneous step change to the fail value.

default = 0.0

ConstantOffset: number, optionalcoming soon

The value by which the signal is offset by.

default = 0.0

GrowingOffset: number, optionalcoming soon

The rate at which the signal is deviating from its calibrated value.

default = 0.0

Magnitude: number, optionalcoming soon

The greatest magnitude of the harmonic interference from the 'true' value.

default = 0.0

Period: number (s), optionalcoming soon

The time period of the full sinusoidal interference pattern.

default = 1.0

MiscalibrationOffset: number (rad/s²), optionalcoming soon

A constant value added to the sensor's output - for example, if the sensor had been incorrectly installed or poorly calibrated.

default = 0.0

FailureValue: number (rad/s²), optionalcoming soon

The value which the sensor reverts to in the case of failure.

default = 0.0

FailureValueRampRate: number (rad/s³), optionalcoming soon

The rate at which the signal reverts to its fail value. A rate of 0.0 represents an instantaneous step change to the fail value.

default = 0.0

ConstantOffset: number (rad/s²), optionalcoming soon

The value by which the signal is offset by.

default = 0.0

GrowingOffset: number (rad/s³), optionalcoming soon

The rate at which the signal is deviating from its calibrated value.

default = 0.0

Magnitude: number (rad/s²), optionalcoming soon

The greatest magnitude of the harmonic interference from the 'true' value.

default = 0.0