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TOF Electronics
Qi An
Fast Electronics Lab, USTCSept. 16~17, 2002
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Two Functions
• To provide a precision time measurement for Particles Identification
• To provide an event timing signal used by trigger system
• Time Resolution
Total of TOF system: 80ps (RMS)
Uncertainty from Electronics: 25ps (RMS)
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TOF Readout Electronics
• Time Measurement
• Charge Measurement
• Mean Timer
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TOF Signal Processing
TOF Signal Processing. For simplicity, only a signal sector is shown
1: 3 spl i t 1: 3 spl i t
Leadi ng EdgeDi scri m. wi thl ow threshol d
Leadi ng EdgeDi scri m. wi th
hi gh threshol d
Leadi ng EdgeDi scri m. wi thl ow threshol d
Leadi ng EdgeDi scri m. wi th
hi gh threshol d
ADCADCHPTDC HPTDCMean Ti mer
PMT2PMT1 176 × Barrel TOF
L1 Tri gger L1 Tri gger
To Tri gger Modul e
gate gate
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Time Measurement
• Multi-Hit Capability• Time Resolution: 25 ps (RMS)• Dynamic Range: 60 ns• Discriminate with Double Threshold (Low & High)• HPTDC
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HPTDC
– High Precision General Purpose TDC (HPTDC) (J. Christiansen et al.)
– 32-channel TDC• Bin 100, 200, 400 or 800 ps
• Dynamic range about 100 s
– 8-channel TDC (Very High Resolution Mode)• Bin 25 ps
• Same dynamic range
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Architecture
• The Timing Unit Based On A 40MHz Clock
PLL
DLL
Coarse Counter
RC-Delay Line
• Data Processing Unit Trigger Match
L1 Buffer
Read FIFO
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Performance Of HPTDC
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Two Options for Time Measurement
• HPTDC Without Time Stretcher (TS)
- It will be our first choice • HPTDC With Time Stretcher (TS) - KEK’s TS Daughter - Monolithic Integrated Time Stretcher (MTS1)
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KEK’s Clocked Time Stretcher
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HPTDC With Time Stretcher
• Principle of KEK’s Time Stretcher • Feasibility of HPTDC with TS Scheme ▪ HPTDC Time resolution: 100ps
▪ Time Stretch: f = 4
▪ 4 Time Tags (T1, T2, T3 & T4) for One TOF Hit
▪ Simultaneous Measure Leading and Trailing Edge of
Signal with one channel of HPTDC
▪ Dead Time
- TS Daughter board: 400ns (included a recovery time)
- MTS1: No Dead Time with Ping Pang Mode
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The Input & Output Signal of TS
• Input: TOF Hit Signal and Reformance Clock
• Output: Time Tag: T1, T2, T3 and T4
Δt = T2-T1; fΔt = T3-T2
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Monolithic Time Stretcher (MTS1)
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Technical Parameters of MTS1
• Process: Agilent 0.5 mm CMOS, 3 metal, single poly, linear Capacitor• 8 Channels: 8 LVDS inputs & 16 LVDS outputs
(2x 8 channels)• Programmable Stretch factor: 1:1 to 1:20 (1:4 will be used in BESIII)• Ping-Pong Mode• RF clock: LVDS pair (up to 100MHz)• Package: 84-pin TQFP Functions
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Evaluation of HPTDC
• Three ways of testing - HPTDC channel with KEK’s TS Daughter board - HPTDC channel with Monolithic TS chip - HPTDC channel without TS
• Test Board- VME 6U- A32, D32 Mode- LVDS Inputs
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Charge Measurement
• Functions- To correct the Effect of Time Walk
• Two Options:- Amplitude Measurement- Waveform Digitization
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Amplitude Measurement
12 Bits FADC FIFO
Peak Detect
Events Buffers
VM
EB
usPMT Signal
~3.2µs pipeline
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Option 2: Waveform Digitizer
• Analog Transient Waveform Digitizer (ATWD)
(Designed by LBNL)
- Four Independent Channels
- Sample Rate : 0.3~2 GSPS
- Resolution: 10 Bit
- 128 Analog Memories
- 128 Wilkinson Type ADC with 40 MHz counter clock
• Ping Pang Mode to Reduce the Dead Time
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Ping Pang Mode
4 2:1 MUX
Trig. Logic Control Logic
AWTD A
AWTD B
Output
Buffer4 PMT signals
4 Disc. Outputs
L1 Trigger
ADC Output Data
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40MHz Reference Clock
• Using RF Clock as t0 instead of “Pick Up” signal for the beam collision time
• Getting a 40MHz clock from RF signal as a reference clock for HPTDC & others
• The Jitters should be less than 20ps RMS
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Design Strategies for 40MHz Clock
• Using PLL technique to generate 40MHz clock and clean up the input clock.
• Using an optical transfer system with 80m Phase Stabilized Optical Fiber (PSOF) .
• Using low skew & low jitter clock driver for clock distribution.
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Block diagram of reference clock system
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PLL: SY89421V
SY89421V Precision PLL (Micrel Semiconductor)
– Input Range: • 12MHz-560MHz with internal VCO operation• 2GHz with HF Inputs and External VCO
– Output Range: • >1GHz with Internal VCO• 2.0GHz with External VCO
– Two Output Pairs:• HF Outputs (VCO Output)• F Outputs (post dividers)
– External Loop Filter– Jitter: 10ps RMS (Typ), 15ps RMS (Max)– Internal programmable dividers offer 1-40 range.
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40MHz clock Circuit
RF Signal Input
500MHz
Phase
DetectorVCO
N-Divider
1,2,4,8,10,12,16,2040MHz
Clock Out
HFout
Fout
SY89421V
P-Div
1, 2
N Divider = 12
P-Divider = 1
Fout = Fin /12 =40MHz
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NB100LVEP221
• 85 ps Typical Device–to–Device Skew
• 20 ps Typical Output–to–Output Skew
• Jitter Less than 1 ps RMS
• Maximum Frequency > 1.0 GHz Typical
• Thermally Enhanced 52–Lead LQFP
• VBB Output
• 540 ps Typical Propagation Delay
• LVPECL & HSTL Mode
• LVECL Mode
Clock Fanout: 1:20
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Test Board for PLL & Fannout
Crystal
PLL
SY89421
MUX
NB100LVEP221 X2
PLL
SY89421
O1O2O3
O40
1
0
Control Logic
On Board 500MHz Clock
Clock Fanout
500MHz 40MHz
Input RF
500MHz Clock
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Total Electronics Requirements
• FEE Boards (16 ch/board): 28
• Leading Edge Discriminators : 896 (HL & LL)
• Trigger Outputs : 272
• TDC Channels : 448
• ADC Channels : 448
• Pre_Amplifiers: 176 ( If CTTs are used )
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Thanks