# How to draw the transfer function of an RC circuit using MATLAB?

If I have an RC circuit with transfer function `1/(1+sRC)` how do I draw the transfer function using MATLAB?

``````Num2=[1];
Den2=[R*C 1];
RCcirc=tf(Num2,Den2);
``````

How do I declare the R and the C so that there are no errors?

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Are you asking how to plot a function in Matlab? –  trutheality Jun 11 '11 at 3:49
yes , but first i need to know how to declare the RC trasfer function using matlab –  Shadi Jun 11 '11 at 3:51
@Shadi: Show us what you've tried. We won't do your homework. –  yoda Jun 11 '11 at 3:54
ok i edited the question –  Shadi Jun 11 '11 at 3:54
Wouldn't R and C just be fixed numbers? What error are you getting? –  trutheality Jun 11 '11 at 4:03
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`tf` is the wrong tool for plotting the transfer function. Try these instead:

1. Use `linspace` to generate a range of values for `s`. Give `R` and `C` reasonable values of your choice.
2. Read up on arithmetic operations in MATLAB, especially `./`
3. Look at how to use `plot` and familiarize yourself with the command using some simple examples from the docs.

With these you should be able to plot the transfer function in MATLAB :)

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I cannot use values for R and C thats the thing i need the transfer function in terms of R and C and S –  Shadi Jun 11 '11 at 4:09
ok, then what are you trying to plot? –  yoda Jun 11 '11 at 4:11
can you just please tell me how to write the variables of R and C without intializing them with values so that the transfer function appears as 1/(1+sRC) –  Shadi Jun 11 '11 at 4:13
While `tf` does not plot a transfer function, it is the right way to go when you are working with transfer functions. There are lots of functions which will take a `DynamicSystem` object (like a `tf` system) and plot e.g. the bode plot, nyquist plot, ... What you are suggesting will lead to a frequency response function (FRF), while it provides good visualization of a transfer function (TF), it is not the same. In a TF the `s` (or `z`, ...) remains a free variable, in an FRF this not the case. The FRF is the evaluation of a TF in a set of values for `s=jw` (or `z=e^jw`, ...). –  Egon Jun 11 '11 at 9:40
@Egon: I don't know if you were replying to me or to Shadi, but you're correct. I know what `tf` does, but that is definitely not what the OP needs here. The confusion seems more fundamental and hopefully your explanation helped him. I stopped replying after OP became confrontational and abusive (comments deleted). –  yoda Jun 11 '11 at 23:38
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First of all you need to understand what transfer function you want. Without defined values of R and C you won't get any transfer function. Compare it to this, you want to plot a sine wave: `x = sin(w*t)`, I hope you can agree with me that you cannot plot such a function (including axes) unless I specifically say e.g. `t` is the time, ranging from 0 seconds to 10 seconds and `w` is a pulsation of 1 rad/s. It's exactly the same with your RC network: without any values, it is impossible for numerical software such as MATLAB to come up with a plot.

If you fill in those values, you can use th `tf` function to display the transfer function in whatever way you like (e.g. a bode plot).

On the other hand, if you just want the expression `1/(1+s*R*C)`, take a look at the symbolic toolbox, you can do such things there. But to make a plot, you will still have to fill in the `R` and `C` value (and even a value for your Laplace variable in this case).

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