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NA62 front end Layout in DM option

NA62 front end Layout in DM option. Jan Kaplon/Pierre Jarron. Architecture. Preamp; buffered cascode (NMOS input transistor), resistive feedback (200k) Gain;70mV/ fC (25mV/ fC at preamp output) Preamplifier AC coupled to shaper and discriminator stages

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NA62 front end Layout in DM option

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  1. NA62 front end Layout in DM option Jan Kaplon/Pierre Jarron

  2. Architecture Preamp; buffered cascode (NMOS input transistor), resistive feedback (200k) Gain;70mV/fC (25mV/fC at preamp output) Preamplifier AC coupled to shaper and discriminator stages Consumption; 190uA/pixel (70uA in analog section, 40uA digital part of comparator, 80uA line driver ) Feedback ; Cf=15 fF Rf= 200k Input transistor; NMOS 9.6/0.3um 2 DFF added per cell for calibration input and masking of the output

  3. DM 3-2 metallization option

  4. DM 3-2 metallization option DM 3-2-3 resistance/sq min width/distance M1,M2,M3 ~60mOhm/sq 0.2um/0.2um MQ,MG ~35mOhm/sq 0.4um/0.4um LY (Al, MIM) ~89mOhm/sq 0.6um/0.8um E1 ~6mOhm/sq 1.5um/2um MA (Al, pad) ~7mOhm/sq 4um/5um

  5. Pixel layout Input pad with MA; 26um metal/20um opening (identical to MEDIPIX) Power distributed with MA (35um bars for analog, 5um for digital), biases distributed with E1

  6. Advantages of DM option Low resistances for column supply bars; 3 mOhm for analog supplies (3.6mA consumption), 20 mOhm for digital (5.4mA consumption) Small and simple layout of input pad (MA layer 4um thick Al) Availability of MIM capacitors (coupling capacitor smaller by 30% comparing to vertical capacitors)

  7. Noise 5ns peaking time CR-RC1 Input transistor bias; 40uA, Feedback resistor 200kΩ Detector leakage; 20nA

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

  9. Input impedance simulation Input impedance 1 – 2kΩ

  10. Phase margin simulation Phase margin for Cinput 250fF ; 90⁰

  11. Phase margin simulation Phase margin for Cinput 500fF ; 87⁰

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

  13. 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

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

  15. Transient simulation Discriminator output • 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)

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

  17. 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

  18. 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

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

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

  21. 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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