Presentation is loading. Please wait.

Presentation is loading. Please wait.

TCAD Simulation for SOI Pixel Detector

Published byNicholas Hoover Modified over 8 years ago

Similar presentations

Presentation on theme: "TCAD Simulation for SOI Pixel Detector"— Presentation transcript:

1 TCAD Simulation for SOI Pixel Detector
October 31, 2007 IEEE-NSS, Honolulu, Hawaii, USA Hirokazu Hayashi, Hirotaka Komatsubara (Oki Elec. Ind. Co.), Yasuo Arai, Masashi Hazumi (KEK), Yuji Saegusa (TIT) for the SOIPIX group

2 SOIPIX collaborators KEK Detector Technology Project : [SOIPIX Group] Y. Arai*, M. Hazumi, Y. Ikegami, T. Kohriki, O. Tajima, S. Terada, T. Tsuboyama, Y. Unno, H. Ushiroda, H. IkedaA, K. HaraB, H. MiyakeB, H. IshinoC, Y. SaegusaC, T. KawasakiD, E. MartinE, G. VarnerE, H. TajimaF, K. FukudaG, H. HayashiG, H. KomatsubaraG, J. IdaG , M. OhnoG KEK、JAXAA, U. TsukubaB, TITC, Niigata U.D, U. HawaiiE, SLACF, OKI Elec. Ind. Co.G (*)—contact person 2006/10/31 M. Hazumi (KEK)

3 Overview TCAD ENEXSS (Environment for NExt Simulation System)
TCAD = Technology CAD ENEXSS (Environment for NExt Simulation System) Developed by Selete (Semiconductor Leading Edge Technologies) ( ) Full 3D process/device simulation ! Commercially available from TCAD-International ( ) Real LSI Manufacturing Specifications Virtual Fast  Deeper understanding  Function design TCAD Process simulation Device Back gate effect Circuit-sensor crosstalk Implantation parameters Guard ring design Pixel layout Topics covered in this talk Logic design Process data Circuit design Device data Layout design ~3mon.  Characterization Mask fabrication Prototyping Device production 2006/10/31 M. Hazumi (KEK)

4 Back gate effect ENEXSS
Substrate voltage acts as Back Gate, and changes transistor threshold. TCAD VB (V) Threshold voltage (V) Back bias (V) ENEXSS TCAD ENEXSS Measurement 2006/10/31 M. Hazumi (KEK)

5 Back gate effect: mitigation with p+ implants
MPW06 NMOS distance (D) (40 – 2 mm) BOX (200nm) Bulk: N- (~700ohm cm, 6 x 1012 cm-3) (5 mm wide P+, 1 x 1020 cm-3) 350mm p+ implant (0V) for I/O buffer ENEXSS D Measurement (10MHz clock) Back bias = 40V Out In 2006/10/31 M. Hazumi (KEK) Back bias Much improved !

6 Circuit-sensor crosstalk
Signals in the circuitry very close to the sensor may inject noise to the sensor. ENEXSS Input OK for charge-integrated device. Need some care for other cases 2006/10/31 M. Hazumi (KEK)

7 Implantation parameters
Find the best ion and beam energy to achieve the highest breakdown voltage (vital important for full depletion) Example 1) Ion #1 Ion #2 2mm Vbreak = +88.5V = V Example 2) “Deeper” implantation mitigates impact ionization (II) and results in a higher breakdown voltage. ~20% improvement expected by doing both. ENEXSS 2006/10/31 M. Hazumi (KEK)

8 Test structure (strip sensor)
MPW06 Standard New Measurement ~20% improvement observed 2006/10/31 M. Hazumi (KEK)

9 Guard ring design ENEXSS ...
Better guard ring design also helpful to improve breakdown voltage. ENEXSS Pixels I/O VSS Ring Bias Ring Guard Ring SOI pixel detector ... MPW06 1 guard + 1bias MPW06 2 guards + 1bias 20V at the back side E [V/cm] 1 guard ring (MPW06) 2 guard rings (next submission) 40000 20000 d [um] 40 30 10 20 Bias Ring edge Bias Guard 60000 80000 100000 An additional guard ring is effective to reduce the electric field concentration. 2006/10/31 M. Hazumi (KEK)

10 Pixel layout B A For digital readout, charge sharing curve at the cell boundary should be as steep as possible. cell A cell B Note that in our design there are 4 p+ implants in one cell connected in the readout. MIP-like charge injection with TCAD for the 3 layouts shown below ENEXSS +:① +:②   +:③ x [mm] 15 5 20 10 4 3 17 16 Narrower gap b/w two cells (③) slightly better. x 2 2006/10/31 M. Hazumi (KEK)

11 Summary Back gate effect largely mitigated with additional p+ implants near the circuitry. Circuit-sensor crosstalk is not an issue for digital pixel readout with charge integration. Higher breakdown voltage with improved implantation parameters (~20% achieved) Additional guard ring can reduce the electric field by factor ~2. Implantation gap b/w two cells should be minimized (present design seems close to the best) Good prospects for thinned fully-depleted SOI pixel ! 2006/10/31 M. Hazumi (KEK)

Download ppt "TCAD Simulation for SOI Pixel Detector"

Similar presentations

Study of Behaviour of Silicon Sensor Structures, Before and After Irradiation Y. Unno, S. Mitusi, Y. Ikegami, S. Terada (KEK) O. Jinnouchi, R. Nagai (Tokyo.

Study of Behaviour of Silicon Sensor Structures, Before and After Irradiation Y. Unno, S. Mitusi, Y. Ikegami, S. Terada (KEK) O. Jinnouchi, R. Nagai (Tokyo.
1 Research & Development on SOI Pixel Detector H. Niemiec, T. Klatka, M. Koziel, W. Kucewicz, S. Kuta, W. Machowski, M. Sapor, M. Szelezniak AGH – University.

1 Research & Development on SOI Pixel Detector H. Niemiec, T. Klatka, M. Koziel, W. Kucewicz, S. Kuta, W. Machowski, M. Sapor, M. Szelezniak AGH – University.
Study of Photon Sensors using the Laser System 05/7/12 Niigata University, Japan Sayaka Iba, Editha P. Jacosalem, Hiroaki Ono, Noriko.

Study of Photon Sensors using the Laser System 05/7/12 Niigata University, Japan Sayaka Iba, Editha P. Jacosalem, Hiroaki Ono, Noriko.
20 th June 2006LCFI Collaboration Meeting, Bristol – Brian Hawes 1 Low-capacitance CCD Chris Damerell (R.A.L.), Brian Hawes (Oxford Univ)  An idea to.

20 th June 2006LCFI Collaboration Meeting, Bristol – Brian Hawes 1 Low-capacitance CCD Chris Damerell (R.A.L.), Brian Hawes (Oxford Univ)  An idea to.
Department of Physics VERTEX 2002 – Hawaii, 3-7 Nov. 2002 Outline: Introduction ISE simulation of non-irradiated and irradiated devices Non-homogeneous.

Department of Physics VERTEX 2002 – Hawaii, 3-7 Nov Outline: Introduction ISE simulation of non-irradiated and irradiated devices Non-homogeneous.
Active Pixel Sensor Circuit Simple version: 3 transistors (pixel reset, source follower, access), one photodiode Not shown: Row read circuitry, a timed.

Active Pixel Sensor Circuit Simple version: 3 transistors (pixel reset, source follower, access), one photodiode Not shown: Row read circuitry, a timed.
Snowmass 2005 SOI detector R&D Massimo Caccia, Antonio Bulgheroni Univ. dell’Insubria / INFN Milano (Italy) M. Jastrzab, M. Koziel, W. Kucewicz, H. Niemiec.

Snowmass 2005 SOI detector R&D Massimo Caccia, Antonio Bulgheroni Univ. dell’Insubria / INFN Milano (Italy) M. Jastrzab, M. Koziel, W. Kucewicz, H. Niemiec.
For the exclusive use of adopters of the book Introduction to Microelectronic Fabrication, Second Edition by Richard C. Jaeger. ISBN0-201- 44494-1. © 2002.

For the exclusive use of adopters of the book Introduction to Microelectronic Fabrication, Second Edition by Richard C. Jaeger. ISBN © 2002.
TCAD Simulations of Silicon Strip and Pixel Sensor Optimization

TCAD Simulations of Silicon Strip and Pixel Sensor Optimization
Progress of SOI Pixel Detectors Sep. 9, Yasuo Arai, KEK 1.

Progress of SOI Pixel Detectors Sep. 9, Yasuo Arai, KEK 1.
20th RD50 Workshop (Bari)1 G. PellegriniInstituto de Microelectrónica de Barcelona G. Pellegrini, C. Fleta, M. Lozano, D. Quirion, Ivan Vila, F. Muñoz.

20th RD50 Workshop (Bari)1 G. PellegriniInstituto de Microelectrónica de Barcelona G. Pellegrini, C. Fleta, M. Lozano, D. Quirion, Ivan Vila, F. Muñoz.
SOIPD 2009 SOIPD KEK-LBNL-Padova collaboration. SOIPD 2009 Silicon On Insulator (SOI) detectors SOI-2 (2008) 0.20um OKI FD-SOI technology 128  172 digital.

SOIPD 2009 SOIPD KEK-LBNL-Padova collaboration. SOIPD 2009 Silicon On Insulator (SOI) detectors SOI-2 (2008) 0.20um OKI FD-SOI technology 128  172 digital.
KIT – Universität des Landes Baden-Württemberg und nationales Forschungszentrum in der Helmholtz-Gemeinschaft KIT, Institut für Prozessdatenverarbeitung.

KIT – Universität des Landes Baden-Württemberg und nationales Forschungszentrum in der Helmholtz-Gemeinschaft KIT, Institut für Prozessdatenverarbeitung.
TRAPPISTE Tracking Particles for Physics Instrumentation in SOI Technology Prof. Eduardo Cortina, Lawrence Soung Yee Institut de recherche en mathématique.

TRAPPISTE Tracking Particles for Physics Instrumentation in SOI Technology Prof. Eduardo Cortina, Lawrence Soung Yee Institut de recherche en mathématique.
SOI Pixel Detector : Present Status & Future Plans Super Belle Collb. Mtg Dec. 11, 2008 Yasuo Arai (KEK)

SOI Pixel Detector : Present Status & Future Plans Super Belle Collb. Mtg Dec. 11, 2008 Yasuo Arai (KEK)
2002.8.29 LCWS2002G/H Joint Session Fabrication of a Silicon Pixel/Pad for dE/dx Measurement H. Park (Kyungpook National U.) I.H. Park (Ewha Womans U.)

LCWS2002G/H Joint Session Fabrication of a Silicon Pixel/Pad for dE/dx Measurement H. Park (Kyungpook National U.) I.H. Park (Ewha Womans U.)
1 Semiconductor Detectors  It may be that when this class is taught 10 years on, we may only study semiconductor detectors  In general, silicon provides.

1 Semiconductor Detectors  It may be that when this class is taught 10 years on, we may only study semiconductor detectors  In general, silicon provides.
8/22/01Marina Artuso - Pixel Sensor Meeting - Aug 2001 1 Sensor R&D at Syracuse University Marina Artuso Chaouki Boulahouache Brian Gantz Paul Gelling.

8/22/01Marina Artuso - Pixel Sensor Meeting - Aug Sensor R&D at Syracuse University Marina Artuso Chaouki Boulahouache Brian Gantz Paul Gelling.
Study of FPCCD Vertex Detector 12 Jul. th ACFA WS Y. Sugimoto KEK.

Study of FPCCD Vertex Detector 12 Jul. th ACFA WS Y. Sugimoto KEK.
1 Nick Sinev LCWS08, University of Illinois at Chicago November 18, 2008 Status of the Chronopixel project J. E. Brau, N. B. Sinev, D. M. Strom University.

1 Nick Sinev LCWS08, University of Illinois at Chicago November 18, 2008 Status of the Chronopixel project J. E. Brau, N. B. Sinev, D. M. Strom University.

Similar presentations

Ads by Google