How do I implement the `diff()`

function available in Matlab using `Simulink`

block?

I need to read a sequence of digital sensor data `(x,y)`

where, `x=[0, 5, 10, 15, 20, 25, 30, ... 100]`

. I want to calculate the change in x i.e. `del_x`

. My assumption is that since it is a sequence of data, I can assume time as unit time `t=[0, 1, 2, 3, 4, 5, 6, 7, ... 20]`

.

Now I tried this simple model in Simulink with `Model Configuration Parameters`

being:

```
Start time: 0.0
Stop time: 20
Solver Option = Fixed-step
Solver: discrete (no continuous states)
Fixed-step size (fundamental sample time): 1
```

Here, `simin`

is equal to the input array x as described above. But `simout`

becomes `del_x = [5, 10, 15, 20, 25, 30, 35 ... 100]`

. So my question is, shouldn't the change in x (or `simout`

) be `del_x = [0, 5, 5, 5, 5, 5, 5, 5, ... ]`

since the change in x is always changing constantly by 5? In Matlab, `diff()`

function gives me the desired result.

Using the equation:
`del_x = (x[i] - x[i-1])/(t[i]-t[i-1]) = (x[i] - x[i-1])/(1)`

Why is the output the delayed version `x[t-1]`

of the input `x[t]`

instead of change in x? Isn't the `Discrete Derivative block`

supposed to operate identical to `diff()`

function in Matlab? Also the `Difference block`

gives the same undesired result. Just for bigger picture sake, I need to export a larger version of the Simulink model into C++ code in order to get the `error`

and `change in error`

of the sensor in order to implement a closed-loop control system but this simple simulation doesn't give the result I want.

**UPDATE:** It works with Matlab Function block with `diff()`

inside. But Simulink needs to go through a long compilation stage just to implement it. Isn't there something simple that I am missing here?

**UPDATE2:** All sample times are the same i.e. `1`

(Display->Sample Time->All option).

`Z(f(x)-f(x-1)) = 1-z^-1`

, or have I missed something? – patrik May 12 '14 at 12:12`(z-1)/z`

which is mathematically equivalent to your suggestion,`simout`

is the same as I described. Its just [x(2) ... x(20)] given the input [x(1) x(2) ... x(20)] which is not what I wanted. But the`diff()`

function in Matlab seems to work. Is there something with my Configuration Parameters for Fixed-step simulation? – user2551199 May 12 '14 at 12:21