Author :
Higuchi, T. ; Hazumi, M. ; Ikeno, M. ; Itoh, R. ; Iwasaki, Y. ; Nakao, M. ; Nakayoshi, K. ; Suzuki, S.Y. ; Tanaka, M. ; Tauchi, K. ; Aulchenko, V. ; Bukin, M.A. ; Schwartz, B. ; Usov, Y. ; Wei, B. ; Varner, G.S. ; Kawasaki, T. ; Nakano, E. ; Kapusta, P.J.
Abstract :
To explore a new physics in the flavor sector, we plan the SuperKEKB upgrade with a luminosity of 5times1035 cm-2s-1. To cope with the higher trigger rate up to 30 kHz, and the severe background condition, we develop a new pipelined data acquisition system. The new readout system is designed as a composite of a sub-detector specific part customized to meet the requirements of each sub-detector and a common readout platform part, in order to reduce costs for maintenance and development. The sub-detector specific part should have a signal digitizer synchronized with 42.3 MHz reduced RF clock, a level-1 pipeline buffer to hold data for trigger delay time of 3-5 mus, and a communication logic to the trigger system in a fixed protocol. These functions are implemented on a 76times186 mm2 sized module. A 17-bit TDC module that handles 24 channels in parallel has been developed for the drift chamber readout of SuperBelle in a low luminosity stage. A readout system test with TDC emulator modules mounted on the common platform shows that the new readout system works at a more than 30 kHz input trigger rate.
Keywords :
analogue-digital conversion; data acquisition; drift chambers; nuclear electronics; readout electronics; 17-bit TDC emulator modules; 186 mm; 3 to 5 mus; 30 kHz; 42.3 MHz; 76 mm; SuperBelle; SuperKEKB; drift chamber readout; flavor sector; input trigger rate; level-1 pipeline buffer; modularized pipeline readout electronics; new physics; pipelined data acquisition system; signal digitizer; trigger delay time; Clocks; Costs; Data acquisition; Delay effects; Physics; Pipelines; RF signals; Radio frequency; Readout electronics; Synchronization;
