Type: Inertia

Description: 1D-rotational component with inertia

Type: SpeedSensor

Description: Ideal sensor to measure the absolute flange angular velocity

Type: PI

Description: Discrete-time PI controller with clocked input and output signals (for periodic and aperiodic systems using the parameterization of the continuous PI controller)

Type: Feedback

Description: Output difference between commanded and feedback input

Type: Torque

Description: Input signal acting as external torque on a flange

Type: AngleSensor

Description: Ideal sensor to measure the absolute flange angle

Type: KinematicPTP2

Description: Move as fast as possible from start to end position within given kinematic constraints with output signals q, qd=der(q), qdd=der(qd)

Type: Feedback

Description: Output difference between commanded and feedback input

Type: Gain

Description: Output the product of a gain value with the input signal

Type: SampleClocked

Description: Sample the continuous-time, Real input signal and provide it as clocked output signal. The clock is provided as input signal

Type: Sample

Description: Sample the continuous-time, Real input signal and provide it as clocked output signal (clock is inferred)

Type: Hold

Description: Hold the clocked, Real input signal and provide it as continuous-time output signal (zero order hold)

Type: Sample

Description: Sample the continuous-time, Real input signal and provide it as clocked output signal (clock is inferred)

Type: SuperSample

Description: Super-sample the clocked Real input signal and provide it as clocked output signal

Type: PeriodicRealClock

Description: Generate a periodic clock signal with a period defined by a Real number