Title :
Differential charge-domain bilinear-Z switched-capacitor pseudo-N-path filters
Author :
Lin, Jung-Chen ; Nevin, Joseph H.
Author_Institution :
Dept. of Electr. & Comput. Eng., Cincinnati Univ., OH, USA
fDate :
4/1/1988 12:00:00 AM
Abstract :
The charge-domain bilinear-Z transformation is used in conjunction with a fully-differential pseudo-N-path filter design to create a design that has strong potential in the high-frequency bandpass domain. Both low-pass and high-pass N-path designs are examined theoretically and relative comparisons made of component and op-amp gain-sensitivity. Analysis by SWITCAP of component-sensitivity shows that the largest frequency-varying sensitivity is 0.064 dB per 1% component variation. A discrete prototype HP-two-path differential stray-insensitive filter was built as a test vehicle. Results are presented for a design with a bandpass center-frequency of two kHz and a bandwidth of 20 Hz. The clock feedthrough noise was shifted out of the passband by the use of z →z-N transformation. Mirror frequency components were found to be about 55 dB below the signal level
Keywords :
band-pass filters; high-pass filters; low-pass filters; network analysis; network synthesis; sensitivity analysis; switched capacitor filters; SWITCAP; active filters; bilinear-Z transformation; charge-domain; component-sensitivity; differential stray-insensitive filter; fully-differential pseudo-N-path filter; high-frequency bandpass domain; high-pass; low-pass; op-amp gain-sensitivity; switched-capacitor; Band pass filters; Bandwidth; Clocks; Frequency; Mirrors; Operational amplifiers; Passband; Prototypes; Testing; Vehicles;
Journal_Title :
Circuits and Systems, IEEE Transactions on
