R&D for ECAL VFE technology prototype -Gerard Bohner -Jacques Lecoq -Samuel Manen LPC Clermond-Ferrand, Fr -Christophe de La Taille -Julien Fleury -Gisèle.

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Presentation transcript:

R&D for ECAL VFE technology prototype -Gerard Bohner -Jacques Lecoq -Samuel Manen LPC Clermond-Ferrand, Fr -Christophe de La Taille -Julien Fleury -Gisèle Martin LAL Orsay, Fr Presented by Bernard Bouquet ECFA-DESY Workshop Amsterdam April, 2 nd

Specifications  Silicon-Tungsten calorimeter  40 layers  30 Millions channels General information  1 train every 200ms  3000 bunch crossing/train  1 bunch crossing every 154ns Timing information  Dynamic range : 15 bit  Auto-triggered front end electronic Signal information  Electronic in the detector : -Thin design for room saving -Low consumption design mechanic information General specifications Electrical specifications

Specifications  1 MIP  6.5fC  Linearity below 1% up to 2500 MIP  14 or 15 bit dynamic range Dynamic range  Depending on the silicium wafer size  Assuming 1 chip per wafer  36 diodes per wafer at this point  36 channels per chip Number of channels/chip  1 MIP  40,000 e -  Noise expected to be below 2000 e - Noise specification  Detector is active only 1ms per 200ms  Electronic enabled 2% of total inter-train time Consumption specification General specifications Electrical specifications

Schema Block Ch Ch.2 3 BCID 12 ADC Energy BCID Gain Channel selection Channel 6 Ch.36 First ideas on block schema Further ideas on system design

Schema Block First ideas on block schema Further ideas on system design  1 ADC/channel ?  Consumption of ADC have to be < 1 mW  Memorize after digitisation  Use of digital memory instead of analogue ADC  New technology  AMS 0.35µm BICMOS  Using standard filter is not possible anymore due to technological problem  high value resistance are not makable anymore  LPC solution :  A switchable integrator Shaper  LPC Will study digital memories +counter :  Static memory  Dynamic memory Bunch crossing counter

Preamplifier  Integration of the charge Due to a feedback capacitance  Low noise, high speed design Charge preamplifier Compensation capacitors Middle stage Input stage Feedback capacitor Feedback resistor Output stage OUT

Shaper OPA Standard CRRC structure Integration time (switch on) AMS 0.35µm BICMOS techno Does not allow us to choose this solution (R2 ~ 100k) Voltage to current converter Preamp output R1 R2 C1 C2 Standard bandpass filter optimized to minimize noise Structure tested at LPC

ADC Structure tested at LPC : PIPELINE ADC  If V IN > V ref  Bit N out =1 and V IN N+1 =(V IN -V ref )*2  If V IN < V ref  Bit N out =0 and V IN N+1 =V IN *2 Behaviour Comparator V ref V IN Amplifier Gain=2 V ref Gnd Bit N out To V IN stage N+1 Stage N of pipeline ADC block schema Chip should be sent to foundry in April 2003 V IN b0b0 b1b1 b2b2 b3b3 b4b4 b5b5 b6b6 b7b7 b8b8 b9b9 10 bit ADC  10 stages

Schedule Input transistor Preamplifier 1 analogue channel LAL Foundry of pipeline ADC V  I conversion Integrator shaper LPC This year (depending on funding)