Stations

 

Table 1: Location of Monitors

Monitor	modules	data	N-HL	AWA.	T-St.	Muon	total	size
SPILL	CAM COINS.	1 W	1	1	3	1	6	288B
GPS	VME moudle	10 W	1	0	0	0	1	84B
CT	CAM CH-ADC	1 W	3	2	3	0	4	192B
SEC	CAM CH-ADC	1 W	3	3	3	0	6	288B
SPIC	F-BUS ADC	64 W	12	8	7	0	28	8.4KB
SLOW	CAM SC-ADC	32 W	0	0	1	0	2	354B
HORN	VME Module	5k W	0	0	8	0	8	160KB
P/PI	F-BUS ADC	352 W	0	0	1	0	1	1.5kB
PI	CAM CH-ADC	32 W	0	0	1	0	1	172B
IO	CAM CH-ADC	60 W	0	0	1	0	1	284B
MUON	TKO CH-ADC	96 W	0	0	0	1	1	412B

There are 4 daq stations on the beam line to assemble beam monitor data.
At North Counter Hall, G.P.S. time measuring system and Proton beam monitors are in place. The beam timing (-1.1msec) comes from accelerator,and is distributed to each station. Another beam timing ( -20msec ) go through to Target station. For tagging each station's data, spill number is constructed and distributed to each station by VME TRG module. The DAQ is a combination of CAMAC, fastbus and VME systems.

At AWABAKO station, some beam monitors are placed. The trigger timing( -100 micro sec ) comes from North Counter Hall. The DAQ is a combination of CAMAC and fastbus systems.

At the Target Station, Proton beam monitors,HORN current monitor, PI cherenkov monitor, Ionocopter and P/PI Profile monitor are in place.Two trigger timing signal ( -1.1 msec, -20 msec ) come from North Counter Hall, the -1.1 msec signal triggers beam monitors, and the -20 msec signal triggers the HORN fire. The DAQ is a combinatin of CAMAC,fastbus and VME systems.

At the Muon monitor room, Muon monitor is placed The trigger timing( -120 micro sec ) comes from North Counter Hall.
DAQ is TKO system.