Erik Jonsson School of Engineering & Computer Science Redundant SAR ADC Architecture and Circuit Techniques for ATLAS LAr Phase-II Upgrade Ling Du 1, Hongda.

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Presentation transcript:

Erik Jonsson School of Engineering & Computer Science Redundant SAR ADC Architecture and Circuit Techniques for ATLAS LAr Phase-II Upgrade Ling Du 1, Hongda Xu 1, Yun Chiu 1 Datao Gong 2, Jingbo Ye 2 1 University of Texas at Dallas, Richardson, TX, USA 2 Southern Methodist University, Dallas, TX, USA

TWEPP Outline Introduction ADC Architecture and Redundancy Single-Event-Effect (SEE) Protection Layout and Simulation Results Summary

TWEPP Outline Introduction ADC Architecture and Redundancy Single-Event-Effect (SEE) Protection Layout and Simulation Results Summary

TWEPP ADC Specs for Phase-II LAr Readout High resolution: bits High speed: MS/s Low power, low area Radiation-tolerant Detector Output Signal Phase-II Upgrade FEB (On detector) MUX & Serializer MUX & Serializer Optical Links To Back-end Analog Shaper … ADC … Preamp … ADC 16-bit DR10 Gbps???

TWEPP Previous TID Results (TWEPP’14) 12-bit, 160-MS/s ADC on 40-nm CMOS Total radiation dose up to 1 Mrad No significant degradation on SNDR, SFDR

TWEPP Outline Introduction ADC Architecture and Redundancy Single Event Effect (SEE) Protection Layout and Simulation Results Summary

TWEPP LMS update: Architecture – Split ADC Split-ADC enables digital background calibration

TWEPP Fewer number of bits in first stage Amplifier removed from SAR Loop Fast Conversion Architecture – Pipelined SAR 9 bits7 bits

TWEPP Architectural Redundancies Sub-binary DAC RA gain reduction and inter-stage redundancy Intra-stage and inter-stage redundancies for dynamic error tolerance DAC incomplete settling, reference voltage bouncing, etc. Comparator hysteresis, noise crosstalk, etc.

TWEPP Outline Introduction ADC Architecture and Redundancy Single-Event-Effect (SEE) Protection Layout and Simulation Results Summary

TWEPP Split ADC for SEE Protection If ΔD o is large, chose the output of the ADC that is not hit A 3-dB SNR gain with normal operation (i.e., no hit)

TWEPP Modeling SEE Current Ref. Bonacini, “Redundancy methods in ASICs,” 2013 Ref. Mavis and Eaton, “SEU and SET Modeling and Mitigation in Deep Submicron Technologies,” 2007

TWEPP Summing-Node Hit Detection For Q SEE = 100 fC and C TOT = 2 pF, V err = 50 mV ! SEE detector is formed by a pair of resistors, a “substrate- current amplifier”, and some digital logic

TWEPP Summing-Node Hit Detection I SEE CLK_samp SEE_Amp SEE_Out The total charge collected due to SEE is ~5.5 fC, causing a 2.75-mV voltage error on a 2-pF DAC (~20 LSBs) The detector is reset at the beginning of each sample period 0.6V 0.97V

TWEPP st -Stage SAR Error Detection Out-of-range error can be detected by observing the code of the 2 nd stage: 11…11 (overshoot) or 00…00 (undershoot)

TWEPP nd -Stage SAR Error Detection

TWEPP Data-Latch Error Detection

TWEPP Data-Latch Error Detection Data latches hit during residue amplification may cause error

TWEPP Data-Latch Error Detection

TWEPP Outline Introduction ADC Architecture and Redundancy Single-Event-Effect (SEE) Protection Layout and Simulation Results Summary

TWEPP Layout Screenshot 65-nm CMOS

TWEPP Preliminary Simulation Results CornerMax. Fs [MS/s]SNDR [dB]SFDR [dB] TT (w/o noise) SS (w/o noise) FF (w/o noise) TT (w/ noise) , single 79.1, avg 93.3, single 95.3, avg TT w/o circuit noise

TWEPP Outline Introduction ADC Architecture and Redundancy Single-Event-Effect (SEE) Protection Layout and Simulation Results Summary

TWEPP Summary Redundant pipelined SAR ADC is a strong candidate to meet the stringent requirements for ATLAS LAr upgrade Split-ADC architecture with SEE detection techniques provides a potential (architecture + analog) solution to SEE Various SEE-protection techniques and proven TID-tolerance will result in a fully radiation-tolerant ADC in CMOS in the near future Stay tuned… Thank you for your attendance!

TWEPP Backup Slides

TWEPP Split-ADC Bit-Weight Calibration Offset injection to the SAR conversion curve to split the decision trajectory

TWEPP Behavioral Simulation Results Calibration converges within 1 million samples [MSamples] [dB]

TWEPP Comparator-RA Offset 150-mV 2 nd -stage full scale 2-bit inter-stage redundancy 16× inter-stage gain Maximum tolerable offset: Too small ! Observing the digital code of the 2 nd stage enables residue confinement

TWEPP Comparator-RA Offset Calibration Auxiliary DAC used to compensate the comparator-RA offset

TWEPP TMR Protection for Logic Gates TMR-protected shift registers are used in other parts, i.e., clock generation, parallel-to-serial conversion, etc.