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999999-1 XYZ 10/2/2016 MIT Lincoln Laboratory APS-2 Status Vyshi Suntharalingam, Tony Soares, Rich D’Onofrio May 30, 2008.

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Presentation on theme: "999999-1 XYZ 10/2/2016 MIT Lincoln Laboratory APS-2 Status Vyshi Suntharalingam, Tony Soares, Rich D’Onofrio May 30, 2008."— Presentation transcript:

1 999999-1 XYZ 10/2/2016 MIT Lincoln Laboratory APS-2 Status Vyshi Suntharalingam, Tony Soares, Rich D’Onofrio May 30, 2008

2 MIT Lincoln Laboratory 999999-2 XYZ 10/2/2016 Status Items Diode capacitance and leakage extraction Plan for SOI FET noise testing New test board for 3D APS-2 imager chip testing (Tony) –We will send a pdf of schematic separately Overview of MIT-LL APS-2 testing hardware and software (Rich) Deliver packaged Back Illuminated imagers (no quartz) –MB21B wafer 9 R5C6 –MB21B wafer 9 R4C3 –MB21A wafer 3 R2C3 –None of these were tested at MIT-LL

3 MIT Lincoln Laboratory 999999-3 XYZ 10/2/2016 Pixel Capacitance and Leakage Extraction Back Illuminated APS2 Imager New measurements with Keithley 4200-SCS (better software and hardware control) Imager tested after Back Illumination (thinned to 50µm) and pad sputter –Test Area=4160 pixels * (24  m) 2 –Substrate: n-type 3000 ohm-cm ~1.5e12 cm -3 Full depletion not detectable –Dominated by lateral capacitance to Channel Stops –At 10V: 11.5fF/pixel, 70fA/pixel Scupper Pixels (p+) (VSCP) 4 pixels wide Substrate Contact (n+) Ring (VPDBIAS) 4 pixels wide 256 x 256 pixel array (p+ side of each diode connected to Tier-2 SOI circuit) C-meter Current(pA/pix)

4 MIT Lincoln Laboratory 999999-4 XYZ 10/2/2016 Insight from Simulation (7/27/07) Pixel #3 (p+) n-CS n-3000 ohm-cm (3e12 /cm3) 50 um Depth n-substrate contact 5 x 24 um Width Doping Profiles

5 MIT Lincoln Laboratory 999999-5 XYZ 10/2/2016 Two-Dimensional Simulation of 5 Pixels Potential Contours Show Effect of Varying Substrate Bias Vsub=0V Vsub=2VVsub=5V Vsub=10V Vsub=14V 0V 2V 5V 10V Vsub=14V Potential (V) Potential profile at center of pixel-3 (vertical “cut-line”) Depth into Si “cut-line” (filename error) 50 10 50 10 For Vsub=10V, 15V: E-field is vertical from ~25 to 50 um depth into silicon. Nearer to the frontside we observe the lateral influence of the Channel Stops From 7/27/07

6 MIT Lincoln Laboratory 999999-6 XYZ 10/2/2016 Reverse Bias of 15V Vsub=15V (at backside) 15V 0V 8.5 um 18 Microns 0V From 7/27/07 C lateral C substrate

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