Patent ID: 7502423
Filing Date: 2009-03-10
Classification: H04L

Abstract:
1. A digital modulator for quadrature-modulating in-phase and quadrature component data and outputting a modulated signal at a predetermined output frequency, the digital modulator comprising: a first filter for band-limiting the in-phase component data using a first sampling frequency obtained by multiplying a symbol frequency of the in-phase component data by an integer; a second filter for oversampling data output from the first filter using a second sampling frequency obtained by multiplying the first sampling frequency by an integer; a first CIC (cascaded integrator-COMB) filter for oversampling data output from the second filter using a third sampling frequency obtained by multiplying the second sampling frequency by an integer; a first interpolation section for interpolating data output from the first CIC filter to the predetermined output frequency; a third filter for band-limiting the quadrature component data using the first sampling frequency obtained by multiplying a symbol frequency of the quadrature component data by an integer; a fourth filter for oversampling data output from the third filter using the second sampling frequency obtained by multiplying the first sampling frequency by an integer; a second CIC (cascaded integrator-COMB) filter for oversampling data output from the fourth filter using the third sampling frequency obtained by multiplying the second sampling frequency by an integer; a second interpolation section for interpolating data output from the second CIC filter to the predetermined output frequency; a quadrature modulation section for digital-quadrature-modulating data output from each of the first and second interpolation sections and outputting resultant data; and a bypass section for outputting, when a ratio between the first sampling frequency and the third sampling frequency is smaller than a preset value, the data output from the first filter and the data output from the third filter to the first and second CIC filters, respectively, so that oversampling in each of the second and fourth filters is bypassed.