Title :
CDF run IIb silicon detector: electrical performance and deadtime-less operation
Author :
Akimoto, T. ; Aoki, M. ; Azzi, P. ; Bacchetta, N. ; Behari, S. ; Benjamin, D. ; Bisello, D. ; Bolla, G. ; Bortoletto, D. ; Busetto, G. ; Cabrera, S. ; Canepa, A. ; Cardoso, G. ; Chertok, M. ; Ciobanu, C.I. ; Derylo, G. ; Fang, I. ; Feng, E.J. ; Fernandez,
Author_Institution :
Univ. of Tsukuba, Ibaraki, Japan
fDate :
6/1/2004 12:00:00 AM
Abstract :
The main building block and readout unit of the planned CDF Run IIb silicon detector is a "stave," a highly integrated mechanical, thermal, and electrical structure. One of its characteristic features is a copper-on-Kapton flexible cable for power, high voltage, data transmission, and control signals that is placed directly below the silicon microstrip sensors. The dense packaging makes deadtime-less operation of the stave a challenge since coupling of bus cable activity into the silicon sensors must be suppressed efficiently. The stave design features relevant for deadtime-less operation are discussed. The electrical performance achieved with stave prototypes is presented.
Keywords :
position sensitive particle detectors; readout electronics; silicon radiation detectors; CDF Run IIb silicon detector; SVX4 readout chip; bus cable activity; capacitive coupling; conductive coupling; control signal; copper-on-Kapton flexible cable; data transmission; deadtime-less operation; dense packaging phenomena; electrical performance; electrical structure; high voltage transmission; highly integrated mechanical structure; power transmission; silicon microstrip sensor; silicon tracker; stave design; stave prototypes; thermal structure; Communication cables; Couplings; Data communication; Detectors; Mechanical sensors; Microstrip; Packaging; Sensor phenomena and characterization; Silicon; Voltage control; CDF; Run IIb; SVX4; deadtime-less; silicon tracker;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2004.829508
