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SOI Detector

SOI Detector. (1) Mateusz Baszczyk, Piotr Dorosz, Sebastian Głąb , Wojciech Kucewicz, Łukasz Mik, Maria Sapor (2) Imran Ahmed, Tomasz Fiutowski, Marek Idzik, Jakub Moroń (3) Piotr Kapusta. (1) Department of Electronics, (2) Department of Particle Interaction and Detection Techniques

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SOI Detector

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  1. SOI Detector (1) Mateusz Baszczyk, Piotr Dorosz, Sebastian Głąb,Wojciech Kucewicz, Łukasz Mik, Maria Sapor (2) Imran Ahmed, Tomasz Fiutowski, Marek Idzik, Jakub Moroń (3) Piotr Kapusta (1) Department of Electronics, (2) Department of Particle Interaction and Detection Techniques AGH – University of Science and Technology, Al. Mickiewicza 30, 30-059 Krakow, Poland (3) Institute of Nuclear Physics Polish Academy of Science Radzikowskiego 152, 31-342 Krakow, Poland

  2. Agenda • Chip topology • Pixel circuit; • Band Gap voltage source; • Analogue to digital converter; • Digital library; • Summary; • Future work.

  3. Assumptions • Detector has to work but it’s parameters are not so important. • Pixels with CDS and rolling shutter readout scheme. • Possibility to measure wafer temperature. • Functional 10 bit ADC with parallel data output (LVDS). • We will take part in July submission.

  4. Chip layout • Detector has 32 pix x 32 pix; • Two slightly different layouts of pixel; • Two Band Gaps; • Two 10 bit SAR ADCs; • Differential voltage signal.

  5. Chip

  6. Pixel Designed by Piotr Kapusta

  7. Pixel layout (30 um x 30 um) Designed by Piotr Kapusta

  8. Negative temperature coefficient Forward voltage of p-n junction VBE has negative TC. Temperature exponent of mobility: Thermal voltage: Bandgap energy of silicon: With VBE = 750 mV, T = 300 K:

  9. Positive temperature coefficient It was recognized in 1964 that if two bipolar transistors operate at unequal current densities, then the difference between their base-emitter voltages is directly proportional to the absolute temperature.

  10. Band Gap

  11. Band Gap (280 um x 425 um)

  12. Band Gap („cold” diode model)

  13. Band Gap („hot” diode model)

  14. ADC (theory) VIN + - 111 110 101 100 011 010 001 000 VDA Vin DAC SAR SAR register: 100 110 111 110 Bn-1 Bn-2 B0 Shift register

  15. ADC Designed by Marek Idzik and Tomasz Fiutowski

  16. ADC (100 um x 400 um) Designed by Marek Idzik and Tomasz Fiutowski

  17. Sampling circuit with bootstrap Designed by Marek Idzik and Tomasz Fiutowski

  18. Sampling circuit with bootstrap M. Dessouky, A. Kaiser, Input switch configuration suitable for rail-to-rail operation of switched opamp circuits; Elect. Lett., vol. 35, no. 1, pp. 8-10, Jan. 1999.

  19. Sampling circuit with bootstrap M. Dessouky, A. Kaiser, Input switch configuration suitable for rail-to-rail operation of switched opamp circuits; Elect. Lett., vol. 35, no. 1, pp. 8-10, Jan. 1999.

  20. Sampling circuit with bootstrap Designed by Marek Idzik and Tomasz Fiutowski

  21. 9 bit DAC (segmented) Designed by Marek Idzik and Tomasz Fiutowski

  22. Dynamic comparator Designed by Marek Idzik and Tomasz Fiutowski

  23. Dynamic comparator Designed by Marek Idzik and Tomasz Fiutowski

  24. Delay based on thyristor Designed by Marek Idzik and Tomasz Fiutowski

  25. Delay based on thyristor Designed by Marek Idzik and Tomasz Fiutowski

  26. Digital library 94 Cells (81 completed, 13 missing layout). Adders, AND, AndOrInvert, Buffer, Buffer with Enable, Tristate Buffer, D Flip-Flops,D Latches, INV, JK Flip-Flops, Multiplexers, NAND, NOR, OR, T Flip-Flops, XNOR, XOR.

  27. DigitalLib • Two libraries: Gates and DigitalLib.Gates contains parameterized symbols and is used to draw schematics of DigitalLib. • HDF_DYNAMIC and DF_DYNAMIC were drawn by Tomasz Fiutowski. These cells have different layout constraints.MESH is a template for layout drawing. • These cells do not have layout: D Flip-Flops with Enable,all JK Flip-Flops, most of T Flip-Flops. • All cells have passed simulation, DRC and LVS test. But I do not give any guarantee for correct operation of digital circuit – you must test it by yourself!!!

  28. Conclusions • We have designed first SOI detector in Lapis technology. It is starting point for further improvements; • Simulation results have shown correct operation of ADC and Bandgap voltage source; • Digital library containing low height cells was made;(not tested yet)

  29. Future work • IC will be measured immediately after shipment.It is possible to use SeaBoard as acquisition system. • We plan to use column ADC to increase readout speed. Due to large amount of digital data we will design serializer and phased locked loop. • We would like to take part in January MPW run.

  30. Thank you for your attention

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