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NA62 front end architecture and performance Jan Kaplon/Pierre Jarron.

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Presentation on theme: "NA62 front end architecture and performance Jan Kaplon/Pierre Jarron."— Presentation transcript:

1 NA62 front end architecture and performance Jan Kaplon/Pierre Jarron

2 Architecture Preamp; buffered cascode (NMOS input transistor), resistive feedback (200k) Gain;65mV/fC (25mV/fC at preamp output) Preamplifier AC coupled to shaper and discriminator stages Consumption; 120uA/pixel Feedback ; Cf=15 fF Rf= 200k Input transistor; NMOS 9.6/0.3um

3 Noise 5ns peaking time CR-RC 1 Input transistor bias; 40uA, Feedback resistor 200k Ω Detector leakage; 20nA

4 Open loop gain simulation Gain Bandwidth Product 900MHz (simulation for compensated cascode)

5 Input impedance simulation Input impedance 1 – 2k Ω

6 Phase margin simulation Phase margin for Cinput 250fF ; 90 ⁰

7 Phase margin simulation Phase margin for Cinput 500fF ; 87 ⁰

8 Transient simulation Peaking time; 4.5ns at preamp, 5.5ns at discriminator input 1st differential stage output Preamp output Discriminator output

9 Transient simulation Good linearity and no degradation of peaking time up to 4fC (1,1.2, 3, & 4fC signals) Differential signal as seen by comparator input threshold

10 Transient simulation Double pulse resolution; 2 signals 3fC in 20ns distance at 0.7fC threshold 1st differential stage output Preamp output Discriminator output

11 Transient simulation Walk; 1.5ns for 1.2 and 4fC (0.7fC threshold) Walk; 2ns for 1 and 4fC (0.7fC threshold) Pulse width; 8 to 14ns (1 to 4fC) Discriminator output

12 Power Supply Rejection Ratio (discriminator differential input) Low and medium frequencies; 48dB, degrading after 1MHz Worst case; 5dB at 100MHz

13 PSRR 200ps edge, 5mV on analogue and 50mV on digital Discriminator input, (differential) 1fC signal (65mV) 2.5mV pick-up from analog supply 1st differential stage output (discriminator input ) no pick-up from digital supply

14 Mismatch (without TRIM DACs) 3fC signal, mismatch 6mV RMS (0.1fC RMS)  minimum threshold without trimming 0.7fC Assuming 5-bit TRIM DAC with 50mV range the mismatch can be minimized down to 1.5mV pk-pk (0.25mV RMS) Discriminator input (differential,) 3fC signal

15 Mismatch (without TRIM DACs) 3fC signal, mismatch 6mV RMS, 300ps RMS (1.7ns pk-pk) Discriminator output

16 Noise & Jitter (transient noise simulation) 3fC signal, noise ~2mV RMS,  ~200e- RMS Discriminator input (differential,) 3fC signal with noise

17 Noise & Jitter (transient noise simulation) 3fC signal, noise ~200e- RMS  jitter 30ps RMS (160ps pk-pk) Discriminator output (with output jitter)

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