Title :
A monolithic, constant-fraction discriminator using distributed R-C delay line shaping
Author :
Simpson, M.L. ; Young, G.R. ; Jackson, R.G. ; Xu, M.
Author_Institution :
Oak Ridge Nat. Lab., TN, USA
fDate :
6/1/1996 12:00:00 AM
Abstract :
A monolithic, CMOS, constant-fraction discriminator (CFD) was designed and fabricated in a 1.2-μ, N-well process. This circuit used an on-chip, distributed R-C delay line to realize the constant-fraction shaping. The delay line was constructed of a 4.8-μ wide, 500-μ long serpentine layer of polysilicon above a grounded second layer of polysilicon. This line generated about 1.1 ns of delay for a 5-ns risetime signal with a slope degradation of only 15%. The CFD also featured dc feedback for both the arming and zero-crossing discriminators to eliminate timing errors caused by offsets. The entire circuit, including the delay line, required an area of 200 μ×950 μ. The timing walk for 5-ns risetime signals over the dynamic range from -20 mV to -2 V was less than ±150 ps. Each channel of the CFD consumed ~15 mW from a single 5-V supply
Keywords :
CMOS logic circuits; RC circuits; delay lines; detector circuits; discriminators; monolithic integrated circuits; nuclear electronics; 20 mV to 2 V; N-well process; constant-fraction shaping; delay line; distributed R-C delay line shaping; monolithic CMOS constant-fraction discriminator; monolithic constant-fraction discriminator; slope degradation; timing errors; CMOS process; Capacitors; Circuits; Computational fluid dynamics; Delay lines; Detectors; Feedback; Laboratories; Signal generators; Timing;
Journal_Title :
Nuclear Science, IEEE Transactions on
