AMICSA 2010 summary

1. AMICSA 2010 summary AMICSA 2010

2. AMICSA in numbers AMICSA 2010

3. AMICSA’06 - Applications CMOS Image sensors readout Video processing chain ADC/DAC/HSSL high speed low power telecom processors (mobile & broadband) CAN1553 transceivers TM acquisition & data handling IO control Magnetometer front end Slow sampling high resolution Power converters LASER interferometer AOCS Environmental monitoring X,Gamma ray spectroscopy GNSS receivers Front End AMICSA 2010

4. AMICSA’08 - Applications CMOS Image sensors readout Video processing chain ADC/DAC/HSSL high speed low power telecom processors (mobile & broadband) CAN1553 transceivers TM acquisition & data handling IO control Magnetometer front end Slow sampling high resolution Power converters LASER interferometer AOCS Environmental (T, wind, humidity) monitoring X,Gamma ray spectroscopy readout GNSS receivers Front End AMICSA 2010

5. AMICSA’10 - Applications CMOS Image sensors & CCD readout Video processing chain ADC/DAC/HSSL high speed low power telecom processors (mobile & broadband) & direct down/up conversion from/to RF or IF CAN1553 transceivers TM acquisition & data handling IO control Magnetometer front end Slow sampling high resolution Power converters LASER interferometer AOCS Environmental (T, wind, humidity) monitoring X,Gamma ray spectroscopy readout GNSS receivers Front End Rad hard libs and DLLs for SoCs Low speed regulated biasing low speed high resolution DAC for control and calibration High Power commands management ISM radar receivers Front ends Local oscillator MMIC for Ka-band down conversion in satcom AMICSA 2010

6. AMICSA – Technology (I/II) FOUNDRIES • AMS (AT) • ON Semi (B) • STMicroelectronics (F) • IHP (D) • Infineon (D) • XFab (UK,D) • UMC (Taiwan) DARE (Belgium) • TSMC (Taiwan) • TOWER (Israel) • Texas Instruments (D) • National Semiconductors (UK) PROCESSES • CMOS • Bipolar, HBT • BiCMOS • Si / SiGe / SiGeC • bulk / SOI • 1.0, 0.5, 0.35, 0.25, 0.18, 0.13 µm; • 90, 65nm AMICSA 2010

7. Foundries used forspacemixed-signal ASICs NS XFab IHP ON Infineon TI MHS AMS Taiwan LFoundry STM UMCTSMC Israel Tower AMICSA 2010

8. AMICSA – Technology (II/II) EDA tools, HDL & DK • Tanner • Cadence • Calibre (Mentor) • Pspice / Hspice • ADMS (Mentor) • VHDL-AMS / Verilog-A • proprietary simulators, optimizers: Astrium (UK), S3 (P) • ANSYS (for hot spots) • MOMENTUM (TL simulation) • DARE libs (IMEC, B + UMC, Taiwan) • RadSafe libs (Ramon + Tower, Israel) • CML full-diff libs (ADSANTEC, USA + Jazz/Tower) MPW programmes • Europractice • CMP • MOSIS • vendor specific… • Multi-Layer Mask AMICSA 2010

9. AMICSA – Radiation effects Mitigation Techniques (technology and function dependent) • enclosed/bigger transistors, H-shape, pseudo-enclosed • guardband rings / STI / LOCOS • avoid diffusion resistors in favour of oxide R • epi layer / hetero-epi • buried-layers, deep-N-well (NISO) • low gain artificially provoked parasitic transistors • DRC isolation rules + waving to allow ELT • SOI • thinner field oxide, thicker gate oxide • hardened libraries (re-size, cell-topology) • ADC offset auto-zeroing (analog and digital correction) • architecture hardening (open vs closed loop) • redundancy and voting/comparing • self-powering functions (reducing SEL options) • cyclic reset to prevent SEE accumulation • SET glitch filtering • Epitaxial N-pockets • Minimize use of NMOS transistors Rad Threats (TID, SEE) • leakage currents • Vth shifts • parasitic transistors/ latch up • gate rupture • data corruption (bit flips) • transient pulses AMICSA 2010

10. AMICSA – Future steps • Is the scope right? • Application domains, • Foundries, processes • Tools, • ATH, Qualification? • Is the size right? #days, length of presentations, number of contributors? More international?? • AMICSA 2012 venue and date TBD AMICSA 2010

11. AMICSA – THANKS ! all presenters and participants sponsors E2V, National Semiconductor organizers Boris Glass (ESTEC Microelectronics), organising committee, chairmen and ESA Conference Bureau AMICSA 2010