Title :
N-path and pseudo-N-path cells for switched-current signal processing
Author :
Ng, Andrew Eng Jwee ; Sewell, John I.
Author_Institution :
Dept. of Electron. & Electr. Eng., Glasgow Univ., UK
fDate :
9/1/1999 12:00:00 AM
Abstract :
Novel switched-current N-path and pseudo-N-path cells are proposed, which allow the transformation of a z-domain low-pass reference filter into a bandpass one. The three types of cells, a forward Euler, backward Euler, and bilinear integrator, perform the z→-z and z→-zN transformations, which avoid clock-feedthrough noise in the realized filter passband. The pseudo-N-path cells operate on the circulating-delay principle, which avoids mirror-frequency noise due to path mismatches and require only standard biphase clocks to operate. The effects of circuit nonidealities are studied and performance comparisons are made with a conventional narrow-band bandpass filter. The robust frequency stability characteristic makes the cells suitable for narrow-band bandpass applications. Results of an HSPICE simulation example is given for a sixth-order pseudo-N-path filter
Keywords :
SPICE; band-pass filters; delay filters; frequency stability; integrating circuits; ladder filters; switched current circuits; switched filters; HSPICE simulation; N-path cells; backward Euler integrator; bandpass filter; bilinear integrator; circuit nonidealities; circulating-delay principle; forward Euler integrator; ladder filter; performance comparisons; pseudo-N-path cells; robust frequency stability characteristic; sixth-order pseudo-N-path filter; standard biphase clocks; switched current signal processing; z-domain low-pass reference filter; Band pass filters; Circuit noise; Circuit stability; Clocks; Frequency; Low pass filters; Narrowband; Noise robustness; Passband; Robust stability;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
