In this model, the number of pulses and the frequency of the pulse are coupled. The simulation step, the sample time of the counter and the frequency of the pulse generator all need to work together to get the desired output. After you got 10 pulses, if you double or half the frequency of the pulse generator, you won't get the desired output.
Varying the frequency of the pulse is a tough task. Many blocks have frequency as a parameter, not a time-varying input.
I have a suggestion. Make f as an input, multiple it with 2*Pi and then use "Fcn" block to do the sin() operation then you will get sin(2*pi*f) which is a variable-frequency sine wave. Compare it with zero will give you the pulse athough the pulse width is also changing.
Then you will have some blocks to count the pulses. If the pulse signal has a rising edge, add one. Otherwise, do nothing. Compare the counter with your preset number of pulses. Use this comparison to control a Swith, passing either the pulse signal or zero.
Voila
