Title :
New baseline restorer based on feedforward differential compensation
Author :
Kuwata, M. ; Maeda, H. ; Husimi, K.
Author_Institution :
JEOL Eng. Co., Tokyo, Japan
fDate :
8/1/1994 12:00:00 AM
Abstract :
The noise indices regarding the rectangular shaper have been calculated. The results indicate that the time constant of the BLR should be larger than about 20 times that of the prefilter pulse width. A new feedforward type baseline restorer has been developed for the quasi-rectangular shaper. Its time constant can be designed arbitrarily by the value of its components C and R. Therefore, it is simple to determine the compromising point of the delta noise index and the tracking ability for baseline fluctuation. The equivalent circuit of this restorer has an attenuator following the CR differentiator. The existence of the attenuator in the equivalent circuit is a difference from the others
Keywords :
differential amplifiers; equivalent circuits; nuclear electronics; pulse shaping circuits; attenuator; baseline fluctuation; delta noise index; equivalent circuit; feedforward baseline restorer; feedforward differential compensation; feedforward type baseline restorer; noise indices; rectangular shaper; time constant; tracking; Attenuators; Capacitors; Chromium; Circuit noise; Equivalent circuits; Noise cancellation; Noise shaping; Pulse amplifiers; Semiconductor device noise; Switches;
Journal_Title :
Nuclear Science, IEEE Transactions on
