Presentation is loading. Please wait.

Presentation is loading. Please wait.

3D/Active edge sensors with FBK

Published bySherman Paul Modified over 6 years ago

Similar presentations

Presentation on theme: "3D/Active edge sensors with FBK"— Presentation transcript:

1 3D/Active edge sensors with FBK
SoI Wafer Procurement 3D/Active edge sensors with FBK 8 January 2015 G. Darbo – INFN / Genova Indico:

2 Questions to IceMos 1/2 Questions prepared by Gian-Franco and Maurizio, answers from Hugh Griffin from IceMOS contacted by Nanni. How much is the minimum thickness of the bonding oxide layer? We aim at having it as thin as possible) Minimum oxide thickness = 2000 A. Could the minimum oxide thickness be achieved by having only the sensor wafer oxidized, or would both wafers be oxidized anyway? The IceMOS standard process is to oxidise only one wafer – usually the handle. But we do have options to oxidise the handle or device wafer, or both! Depending on the full SOI specification. What buried oxide thickness do you require? Is the bonding oxide thermally grown? Yes, thermal oxide. Is the total thermal budget used for wafer bonding very high (in terms of temperature and/or time)? The wafer bonding thermal budget – 1200 ºC, 1 hour. Which is the minimum temperature that can be used? Minimum temperature under standard process conditions – 1150 ºC. What is the anneal temperate that you require?

3 Questions to IceMos 2/2 Can we have a low-dose (~1012 cm-2) boron layer (p-spray) implanted at the bottom of the sensor wafer? Buried implant layer (at bond interface) – yes, no problem. Can you secure a given doping concentration profile for this layer in the delivery configuration? Our stated process conditions (in terms of thermal budget) will not change. In this case, the doping profile will be stable – but this is not something that IceMOS can provide data on. Can you measure the resulting doping profile? We can outsource SRP measurement if necessary. What is the maximum doping concentration we can obtain for the p+ handle wafer? (we aim at having it as high as possible) ~ Ohm cm. Is this acceptable? Due to the low dose, the expected boron peak concentration is in the order of 10^16 cm^-3.Is the proposed SRP technique sensitive enough to yield an accurate profile at this concentration and below? Spreading resistance is sensitive to about 9 decades of resistivity / concentration. The resistivity range is from , so 1016 will be ok.

Download ppt "3D/Active edge sensors with FBK"

Similar presentations

Radiation damage in silicon sensors

Radiation damage in silicon sensors
FABRICATION PROCESSES

FABRICATION PROCESSES
CHAPTER 8: THERMAL PROCESS (continued). Diffusion Process The process of materials move from high concentration regions to low concentration regions,

CHAPTER 8: THERMAL PROCESS (continued). Diffusion Process The process of materials move from high concentration regions to low concentration regions,
Manchester 09/sept/2008A.Falou & P.Cornebise {LAL-Orsay}1 CALICE Meeting/ Manchester Sept 2008 SLAB Integration & Thermal Measurements.

Manchester 09/sept/2008A.Falou & P.Cornebise {LAL-Orsay}1 CALICE Meeting/ Manchester Sept 2008 SLAB Integration & Thermal Measurements.
TCAD simulations for pixel detectors Summary: 1)Geometry layout: doping profiles for 3D geometry; 2) Results: electrostatic potential, electric field distribution;

TCAD simulations for pixel detectors Summary: 1)Geometry layout: doping profiles for 3D geometry; 2) Results: electrostatic potential, electric field distribution;
EE213 VLSI DesignStephen Daniels 2003 VLSI Design Design Rules EE213 VLSI Design.

EE213 VLSI DesignStephen Daniels 2003 VLSI Design Design Rules EE213 VLSI Design.
Reviewer’s Mandate G. Darbo – INFN / Genova Sensor Review, 4 May 2011 o Sensor Review Slides for Jörn Talk IBL Sensor Review Kick-off Meeting CERN, May,

Reviewer’s Mandate G. Darbo – INFN / Genova Sensor Review, 4 May 2011 o Sensor Review Slides for Jörn Talk IBL Sensor Review Kick-off Meeting CERN, May,
1 Kimberly Manser 5.14.2008 Process Development for Double-Sided Fabrication of a Photodiode Process Development of a Double-Sided Photodiode (for application.

1 Kimberly Manser Process Development for Double-Sided Fabrication of a Photodiode Process Development of a Double-Sided Photodiode (for application.
Chapter 1 RESISTIVITY.

Chapter 1 RESISTIVITY.
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.
CMOS Process Integration ECE/ChE 4752: Microelectronics Processing Laboratory Gary S. May March 25, 2004.

CMOS Process Integration ECE/ChE 4752: Microelectronics Processing Laboratory Gary S. May March 25, 2004.
Katedra Experimentálnej Fyziky Bipolar technology - the size of bipolar transistors must be reduced to meet the high-density requirement Figure illustrates.

Katedra Experimentálnej Fyziky Bipolar technology - the size of bipolar transistors must be reduced to meet the high-density requirement Figure illustrates.
Chapter 8 Ion Implantation Instructor: Prof. Masoud Agah

Chapter 8 Ion Implantation Instructor: Prof. Masoud Agah
NA62 Gigatracker Working Group Meeting 2 February 2010 Massimiliano Fiorini CERN.

NA62 Gigatracker Working Group Meeting 2 February 2010 Massimiliano Fiorini CERN.
Design Rules EE213 VLSI Design.

Design Rules EE213 VLSI Design.
Silicon – On - Insulator (SOI). SOI is a very attractive technology for large volume integrated circuit production and is particularly good for low –

Silicon – On - Insulator (SOI). SOI is a very attractive technology for large volume integrated circuit production and is particularly good for low –
IC Process Integration

IC Process Integration
12004 MAPLD/138Bytkin Reduction of the Thermo stable Radiation Defects Probability Formation in Si and SiGe as a Physical Basis of the Bipolar npn Transistors.

12004 MAPLD/138Bytkin Reduction of the Thermo stable Radiation Defects Probability Formation in Si and SiGe as a Physical Basis of the Bipolar npn Transistors.
SILICON DETECTORS PART I Characteristics on semiconductors.

SILICON DETECTORS PART I Characteristics on semiconductors.
INTEGRATED CIRCUITS Dr. Esam Yosry Lec. #3. Diffusion  Introduction  Diffusion Process  Diffusion Mechanisms  Why Diffusion?  Diffusion Technology.

INTEGRATED CIRCUITS Dr. Esam Yosry Lec. #3. Diffusion  Introduction  Diffusion Process  Diffusion Mechanisms  Why Diffusion?  Diffusion Technology.

Similar presentations

Ads by Google