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Juin 1st 2010 Christophe Beigbeder PID meeting1 PID meeting Electronics Integration.

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Presentation on theme: "Juin 1st 2010 Christophe Beigbeder PID meeting1 PID meeting Electronics Integration."— Presentation transcript:

1 Juin 1st 2010 Christophe Beigbeder PID meeting1 PID meeting Electronics Integration

2 Juin 1st 2010 Christophe Beigbeder PID meeting2 Electronics on the detector  Mechanical constraints: Fixing the module on the PM base. Dismounting issues.  Thermal constraints : Door closed gives problems of cooling.  Fans on the module as G Varner’s ?  Global heat extraction…. Electronics is split in two parts : - one directly mounted on the PM base receiving the PM signal and processing it with TDC/ADC - the other one concentrates and pack all the channels to send data to the DAQ

3 Juin 1st 2010 Christophe Beigbeder PID meeting3

4 Juin 1st 2010 Christophe Beigbeder PID meeting4 Other possible solutions … Long boards : 80 channels. Mechanical issues for a precise adjustment base to base. This granularity has a impact in case of failure. No long a Pm considered as a cell element but a row of 5 pms.

5 Juin 1st 2010 Christophe Beigbeder PID meeting5 Cooling issue A rough estimation gives : A rough estimation gives : Fe : 500 mW / 16 channels Fe : 500 mW / 16 channels Pga : 1 W / 16 channels Pga : 1 W / 16 channels TDC : 500 mW /16 channels TDC : 500 mW /16 channels `+ glue => Total 3 W / 16 channels `+ glue => Total 3 W / 16 channels => Sector ( ~3Kchannels ) = ~ 600 W => Sector ( ~3Kchannels ) = ~ 600 W => 7 KW in total => 7 KW in total

6 Juin 1st 2010 Christophe Beigbeder PID meeting6 Cooling issue From documentation From documentation Q = ( 3.1 P) / T Q = ( 3.1 P) / T Q= airflow in m3 / h Q= airflow in m3 / h P = Dissipated power ( W) P = Dissipated power ( W) T = Temperature change at given air flow T = Temperature change at given air flow -> 600 W power, a specified difference T = 10 degre requires a airflow of 190 m3 /h -> 600 W power, a specified difference T = 10 degre requires a airflow of 190 m3 /h

7 Juin 1st 2010 Christophe Beigbeder PID meeting7 Mechanical issues Boards/ Module insertion/desinsertion issues Boards/ Module insertion/desinsertion issues

8 Juin 1st 2010 Christophe Beigbeder PID meeting8 Mechanical constraints Pins issue : Male -> Female on the “backplane “ Pins issue : Male -> Female on the “backplane “

9 Juin 1st 2010 Christophe Beigbeder PID meeting9 FE board synopsis

10 Juin 1st 2010 Christophe Beigbeder PID meeting10 SNATS : new design Instantaneous Dead time Readout dead time Max speed 1Mhz Push the data

11 Juin 1st 2010 Christophe Beigbeder PID meeting11 Summary of the SNATS evolution : Redesign of the readout and a few improvements on the Front end part Programmable number of bits for the time counter. New derandomizing FIFOs : depth of 16/32 events ( each of 4 * 16-bit data word) Data push at the output Run end 2010. AMS.35 um technology. Chip delivered first quarter of 2011 We have to think of the way to run the chip together with the FE ASIC and to match the analog pulse converted by the ADC with the hit time -> Design and simulation in the FPGA Also have to interface the FPGA with the Proposal for the Electronics Trigger and DAQ architecture to get inside the front end buffer. The data are output with a latency depending on the rate per channel and the occupancy of the chip. 2 Clk cycles to output the data ( Derandomizer FIFO to PGA @ 84 MHz (56*1.5) ) followed by 2 Clk cycles for each other fired Channel. Latency from 2 Clk cycles to 32 Clk cycles ( 2.5 MHz per channel )

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