Limit rate of change of signal
u(i) and t(i) are the current block input and time, and y(i–1) and t(i–1) are the output and time at the previous step. The output is determined by comparing rate to the Rising slew rate and Falling slew rate parameters:
If rate is greater than the Rising slew rate parameter (R), the output is calculated as
If rate is less than the Falling slew rate parameter (F), the output is calculated as
If rate is between the bounds of R and F, the change in output is equal to the change in input:
When the block is running in continuous mode (for example, Sample time mode is inherited and Sample time of the driving block is zero), the Initial condition is ignored. The block output at t = 0 is equal to the initial input:
When the block is running in discrete mode (for example, Sample time mode is inherited and Sample time of the driving block is nonzero), the Initial condition is preserved:
where Ic is the initial condition. The block output at t = 0 is calculated as if rate is outside the bounds of R and F. For t = 0, rate is calculated as follows:
The Rate Limiter block accepts and outputs signals of any numeric data type that Simulink® supports, except Boolean. The Rate Limiter block supports fixed-point data types.
For more information, see Data Types Supported by Simulink in the Simulink documentation.
Specify the limit of the derivative of an increasing input signal. This parameter is tunable for fixed-point inputs.
Specify the limit of the derivative of a decreasing input signal. This parameter is tunable for fixed-point inputs.
Specify the sample time mode, continuous or inherited from the driving block.
Set the initial output of the simulation. Simulink software does not allow you to set the initial condition of this block to inf or NaN.
Linearization commands in Simulink software treat this block as a gain in state space. Select this check box to cause the linearization commands to treat the gain as 1; otherwise, the commands treat the gain as 0.
Continuous or inherited (specified in the Sample time mode parameter)
Yes, of input and parameters