How can I create an impulse (delta) signal in Simulink?
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How can I create an impulse (delta) signal in Simulink? I looked for it in "Sources" library but there is not.
Accepted Answer
Mark Lin
on 27 Mar 2019
Hi Alessio,
Use a step response block and linked it to a derivative block can create a delta, impulse, signal.
All you need to do is making sure the response time in your system.
Hope it help.
3 Comments
Fangjun Jiang
on 29 Mar 2019
Alessio Conte, what is your purpose of needing a pulse in Simulink?
The derivative of a step signal is the impulse signal. But that is only theoritical. Doing that in Simulink, the outcome depends on the sample time.
Jimmy Sølvsteen Nielsen
on 12 Jun 2020
I could see several uses for a pulse function in Simulink. For example adding a defined amount of chemical into a mixing tank volume instantaneously, and having delayed mixing in the tank. calculating output concentration is a common chemical enginering task.
I get that takting the derivative of the step function will depend on the sample time, and I wonder why the Dirac function is not available in the Simulink function library?
More Answers (5)
Chul-Goo Kang
on 28 Dec 2019
Use step input and multiply s in the transfer function of the next block.
2 Comments
Fangjun Jiang
on 4 May 2018
Edited: Fangjun Jiang
on 4 May 2018
From the note of impulse():
Note: In discrete time, impulse computes the response to a unit-area pulse of length Ts and height 1/Ts where Ts is the sample time. This pulse approaches the continuous-time Dirac impulse delta(t) as Ts goes to zero.
So you will construct a pulse of width as Ts and height as 1/Ts.
2 Comments
Fangjun Jiang
on 7 May 2018
That is correct. When Ts->0, the pulse becomes the theoretical delta (the impulse).
Hiromasa
on 14 Jun 2024
Thank you for your question.
One way to create an impulse signal is to use Hit Crossing block. (https://www.mathworks.com/help/simulink/slref/hitcrossing.html)
As shown below, Hit Crossing outputs an impulse signal of magnitue 1. The gain block after the Hit Crossing amplifies the signal by the factor of 1/t where t is a discrete time step for the system.
Hope this information helps.
0 Comments
Guy Rouleau
on 23 Aug 2024
This blog post provides an in-depth response to this question:
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