======TIMING====== **Service to the user** The user have a 2-channel arbitrary delay generator system {{:strutture:lnf:da:btf:dispositivi:dg535m.pdf|Stanford DG535m}}\\ remotely controlled in BTF control room with the respecive bypass in BTF Hall. User customizable trigger signal (source LINAC SYS) **{{:strutture:lnf:da:btf:dispositivi:dg535m.pdf|STANFORD Delay Generator DDG535m}}** __BTF Setup Menu (**BSM**)__\\ -> **Go Forever** = lets the DAFNE injection rejected pulses (till the Odoscope one) to be delivered at set frequency to BTF\\ -> **Single Shot** = only one pulse delivered to BTF, after the DAFNE injection pulses\\ \\ __General Timing Status (**GTS**)__\\ -> **Normal** = cutoff trigger signal @ BTF (the DHPTB101 still works!!!)\\ -> **BTF** = gives trigger signal @ BTF and implements BTF status setup (**BSM**)\\ -> **BTF one shot** = gives trigger signal @ BTF and implements BTF status setup for one shot per second or manual shot\\ \\ __ODOSCOPE setup (**ODO**)__\\ -> **DAFNE** = cutoff the DHPTB101 \\ -> **DAFNE+BTF** = permits DHPTB101 to pulse\\ \\ \\ **__DAFNE+BTF status__**\\ \\ **MANUAL SHOT**\\ **GTS** -> BTF 1 shot\\ **BSM** -> Single shot\\ **ODO** -> DAFNE + BTF\\ Press RUN BTF button and it fires one pulse\\ \\ **One shot per second**\\ **GTS** -> BTF 1 shot\\ **BSM** -> Go Forever and number of impulses = 1\\ **ODO** -> DAFNE + BTF\\ Press RUN BTF button and it fires at 1 Hz (two pulses per second in DAFNE injection)\\ \\ ** Maximun shot rate**\\ **GTS** -> BTF\\ **BSM** -> Go forever and number of impluses = 49\\ **ODO** -> DAFNE + BTF\\ \\ ==== BTF Signals ==== **Q4 signal || BTF word signal** => Syncro word (~8usec before gun pulse) Cable panel n.11(inside) SlowControl rack's hall in the BTF Control Room -> output from trg board send to 11(inside)-1 \\ **BTFTG1**//(user)// signal => Delayed signal (~8usec as before + 6usec delivering time + user delta time) to match the bunch arrival time in btf hall Cable panel n.11 in BTF Control Room (near BTF Hall concrete wall) -> output from 11-1, delayed by Stanford C && !D, send to 11-3, from 11(inside)-3 send to a cable TG1BTF in BTF Hall \\ **BTFTG2**//(user)// signal => Delayed signal (~8usec as before + 6usec delivering time + user delta time) to match the bunch arrival time in btf hall Cable panel n.11 in BTF Control Room (near BTF Hall concrete wall) -> output from 11-1, delayed by Stanford A && !B, send to 11-2, from 11(inside)-2 send to a cable TG2BTF in BTF Hall \\ **BTFTG0 A/B**//(btf staff)// signal => output from trg board, delayed by Stanford C && !D, send to a cable TG0BTF in BTF Hall **BTFTG0 C/D**//(btf staff)// signal => output from trg board, delayed by Stanford C && !D, send to a cable TG0BTF in BTF Hall \\ ==Stanford BTF Setup== ** TRG EXT Setup **\\ THreshold = -0.5V\\ Slope = Negative\\ Trigger Term = 50Ohm\\ \\ ** GPIB addr **\\ User = 14\\ \\ \\ \\ A = 15.79 usec\\ B = A + 200 nsec (as gate)\\ C = 15.79 usec\\ D = C + 200 nsec (as gate)\\ \\ **BTFDAQ Timing Unit**\\ DAQ Delay ~200nsec\\ \\ ==== Additional Triggers ==== There are additional triggers available for the users: ** BTF && LINAC state **\\ it is possible to select an electron/positron only TTL trigger signal (see the purple signal on the scope screen). This trigger starts 60 ns after the LINAC trigger.\\ {{:strutture:lnf:da:btf:dispositivi:tempi_btf_stato.png?400|}} ** BTF && Calorimeter **\\ it generates a TTL trigger signal only if there is a LINAC trigger AND a signal in the calorimeter (see the purple signal on the scope screen). This Trigger starts 450 ns after the LINAC trigger.\\ {{:strutture:lnf:da:btf:dispositivi:tempi_btfandcalo.png?400|}}