Title :
Low-noise CMOS signal processing IC for interpolating cathode strip chambers
Author_Institution :
Brookhaven Nat. Lab., Upton, NY, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
A CMOS circuit for obtaining precision amplitude and timing information from the cathodes of a proportional chamber with interpolating cathode strips has been developed. The chip performs charge amplification, shaping, analog storage and multiplexing, and generates a prompt timing pulse which can be used for trigger purposes. Novel features of the IC include: preamplifier optimized for large (40-250 pF) detector capacitance, digitally programmable gain and bandwidth of the fourth-order shaper, and an array of on-chip capacitors and switches for injecting charge for calibration. Noise is less than 1500 RMS electrons with an input capacitance of 100 pF using bipolar 550 nsec shaping. Linearity is better than 0.8% over a dynamic range of 1500:1. The constant fraction discriminator has a time walk of ±2.5 nsec over the range 10-500 fC. Power dissipation is 50 mW per channel
Keywords :
CMOS analogue integrated circuits; analogue processing circuits; calibration; detector circuits; discriminators; multiwire proportional chambers; nuclear electronics; preamplifiers; proportional counters; signal processing; 100 pF; 40 to 250 pF; CMOS circuit; analog storage; bipolar shaping; calibration; charge amplification; charge shaping; constant fraction discriminator; digitally programmable bandwidth; digitally programmable gain; fourth-order shaper; gas multiwire proportional chambers; input capacitance; interpolating cathode strip chambers; linearity; low-noise CMOS signal processing IC; multiplexing; noise; power dissipation; preamplifier; precision amplitude information; precision timing information; proportional chamber cathodes; CMOS integrated circuits; CMOS process; Capacitance; Cathodes; Pulse amplifiers; Pulse generation; Pulse shaping methods; Signal processing; Strips; Timing;
Journal_Title :
Nuclear Science, IEEE Transactions on
