Title :
Discriminator design considerations for time-interval measurement circuits in collider detector systems
Author :
Simpson, Michael L. ; Paulus, Michael J.
Author_Institution :
Oak Ridge Nat. Lab., TN, USA
fDate :
2/1/1998 12:00:00 AM
Abstract :
An analysis of timing jitter from leading-edge discriminators (LED´s) and constant-fraction discriminators (CFD´s) is presented. The jitter is calculated for the cases of random white noise, coherent noise (e.g., digital switching noise or ac power-line hum), and mixed (random and coherent) noise for both discriminator architectures. A general jitter equation valid for all of these conditions is derived. It is shown that the discriminator bandwidth for minimum jitter is strongly dependent on the amount of coherent noise. This effect is shown to be more pronounced for the LED. Even though off-line walk adjustments are possible for many timing measurements, the CFD is shown to provide a major advantage by acting as a correlated double sampler that removes much of the coherent noise expected in large, multichannel collider detector systems.
Keywords :
detector circuits; discriminators; jitter; nuclear electronics; timing circuits; AC power-line hum; coherent noise; collider detector systems; constant-fraction discriminators; correlated double sampler; digital switching noise; discriminator architectures; discriminator bandwidth; discriminator design considerations; general jitter equation; leading-edge discriminators; multichannel collider detector systems; off-line walk adjustments; random white noise; time-interval measurement circuits; Bandwidth; Clocks; Detectors; Dynamic range; Integrated circuit noise; Noise shaping; Particle measurements; Signal design; Timing jitter; White noise;
Journal_Title :
Nuclear Science, IEEE Transactions on
