I have a a low pass filter described by the following transfer function:
h[n] = (w_c/Pi) * sinc( n * w_c / Pi ), where is w_c is the cutoff frequency
I have to convert this lowpass filter to a bandpass filter.
I have a a low pass filter described by the following transfer function: h[n] = (w_c/Pi) * sinc( n * w_c / Pi ), where is w_c is the cutoff frequency I have to convert this lowpass filter to a bandpass filter. 


You To do this, multiply Multiplication in time domain is convolution in frequency domain. Since See Discrete Time Fourier Transform for more details. Note: such a filter will not be symmetric about 0, which means it will have complex values. To make it symmetric, you need to add
Since
This filter then has purely real values. 


Let 


The short answer is that you will multiply by a complex exponential in the time domain. Multiplication in the time domain will shift the signal in the frequency domain. Matlab code:
p.s. I happened to have just implemented this exact functionality for school a couple of weeks ago. Here is code for creating your own band pass filter using the windowing method:
Example on how to use this function:


