Michal Szelezniak – LBL-IPHC meeting – 3-5 October 2007 MimoStar2 Current test results at LBL Update on recent tests of MimoStar2 sensors performed at.

Slides:

Advertisements

Similar presentations

Controller Tests Stephen Kaye Controller Test Motivation Testing the controller before the next generation helps to shake out any remaining.

Advertisements

A “BTeV” Hybrid Pixel Telescope for MTest David Christian May 4, 2007.

STAR Pixel Detector Phase-1 testing. 22 Testing interrupted LBNL-IPHC 06/ LG Lena Weronika Szelezniak born on May 30, 2009 at 10:04 am weighing.

STAR Pixel Detector Latch-up in Phase-1, SUZE and Mimosa22 Tests and analysis by Michal Szelezniak.

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.

M. Szelezniak1PXL Sensor and RDO review – 06/23/2010 STAR PXL Sensors Overview.

Random Telegraph Signal (RTS) in CMOS Monolithic Active Pixel Sensors (MAPS) for charged particle tracking. Outline Reminder: The operation principle of.

CHARGE COUPLING TRUE CDS PIXEL PROCESSING True CDS CMOS pixel noise data 2.8 e- CMOS photon transfer.

1/8/04Lance Simms Thermal Testing of TOB/TEC Hybrids at UCSB.

The Effect of Temperature on the Dark Rate of the Silicon Photomultiplier By Jie Zhao Mentor: Dr. Richard Jones.

Status of Oxford Setup Matthew Chalk, Erik Devetak, Johan Fopma, Brian Hawes, Ben Jeffery, Nikhil Kundu, Andrei Nomerotski University of Oxford ( 18 August.

1D or 2D array of photosensors can record optical images projected onto it by lens system. Individual photosensor in an imaging array is called pixel.

Research and Development for the HFT at STAR Leo Greiner BNL DAC 03/15/2006.

Power Distribution Studies at Fermilab Aida Todri, FNAL ATLAS/CMS Power WG Meeting March 31 st, 2010.

NA62 Gigatracker Working Group Meeting 2 February 2010 Massimiliano Fiorini CERN.

L. Greiner 1HFT PXL BNL FTF– September 27, 2011 STAR HFT LBNL Leo Greiner, Eric Anderssen, Thorsten Stezelberger, Joe Silber, Xiangming Sun, Michal Szelezniak,

Mathieu Goffe EUDET JRA1 meeting, DESY Wednesday 30 January 2008 IPHC, 23 rue du Loess BP 28, 67037, Strasbourg Cedex 02, France.

STAR Microvertex Upgrade Meeting, Strasbourg, April Status of sensors from the engineering run AMS-035 OPTO Wojciech.

Leo Greiner schedule Evolution of Tasks and Schedule.

1. 2 Outline Contract Status  Q.A. plan  construction plan Preparations for construction  populating the construction space Microscope electronics.

Michal Szelezniak – LBL-IPHC meeting – May 2007 Cluster finder in the HFT readout Single-hit detection efficiency for a cluster-finder algorithm.

Jonathan Yitzchaki David Michaeli Instructor: Ina Rivkin Spring

Optical calibration system for EUDET AHCAL module Jaroslav Cvach IPASCR 1.Calibration system for SiPM photodetectors 2.QRLED driver photoelectron spectra.

Leo Greiner IPHC testing Sensor and infrastructure testing at LBL. Capabilities and Plan.

Leo Greiner IPHC meeting HFT PIXEL DAQ Prototype Testing.

VI th INTERNATIONAL MEETING ON FRONT END ELECTRONICS, Perugia, Italy A. Dorokhov, IPHC, Strasbourg, France 1 NMOS-based high gain amplifier for MAPS Andrei.

Phase-1 Design. i PHC Phase /04/2008 System Overview Clock, JTAG, sync marker and power supply connections Digital output.

Leo Greiner TC_Int1 Sensor and Readout Status of the PIXEL Detector.

Development of DC-DC converter ASICs S.Michelis 1,3, B.Allongue 1, G.Blanchot 1, F.Faccio 1, C.Fuentes 1,2, S.Orlandi 1, S.Saggini 4 1 CERN – PH-ESE 2.

Leo Greiner IPHC DAQ Readout for the PIXEL detector for the Heavy Flavor Tracker upgrade at STAR.

MDC Silicon meeting 24 July 03 1 Run IIb SiliconTemperature Monitoring  The basic philosophy is to build on Run IIa experience and make only minor changes.

PXL Cable Options LG 1HFT Hardware Meeting 02/11/2010.

IPHC-LBNL meeting 3-5 April 2008 Radiation damage in the STAR environment and performance of MAPS sensors Compilation of different test results mostly.

Michal Szelezniak – LBL-IPHC meeting – May 2007 Prototype HFT readout system Telescope prototype based on three Mimostar2 chips.

1 Activities in Wuhan TopMetal sensor & ALICE ITS upgade Xiangming Sun CCNU ALICE ITS Upgrade and O2 Asian Workshop 2014.

Recent developments on Monolithic Active Pixel Sensors (MAPS) for charged particle tracking. Outline The MAPS sensor (reminder) MIMOSA-22, a fast MAPS-sensor.

1 SiPM Gain Test SiPM Multiple APD pixels operating at Geiger mode. Output is the sum of the outputs from all APD pixels. Advantages Compact size High.

Leo Greiner PIXEL Hardware meeting HFT PIXEL detector LVDS Data Path Testing.

Xiangming Sun1PXL Sensor and RDO review – 06/23/2010 STAR XIANGMING SUN LAWRENCE BERKELEY NATIONAL LAB Firmware and Software Architecture for PIXEL L.

Test of the MAPS add-on board S. Amar-Youcef, M. Deveaux, D. Doering, C. Müntz, S. Seddiki, P. Scharrer, Ch. Schrader, J. Stroth, T. Tischler.

Sensor testing and validation plans for Phase-1 and Ultimate IPHC_HFT 06/15/ LG1.

Glow Experiment Outline Brandon Hanold. Outline 1.Glow Description 2.Experiment Design 3.Acquisition Loop Variables and Keywords 4.Reduction Results 5.Reduction.

On a eRHIC silicon detector: studies/ideas BNL EIC Task Force Meeting May 16 th 2013 Benedetto Di Ruzza.

1 Calorimeters LED control LHCb CALO meeting Anatoli Konoplyannikov /ITEP/ Status of the calorimeters LV power supply and ECS control Status of.

LC Power Distribution & Pulsing Workshop, May 2011 Super-ALTRO Demonstrator Test Results LC Power Distribution & Pulsing Workshop, May nd November.

Leo Greiner IPHC beam test Beam tests at the ALS and RHIC with a Mimostar-2 telescope.

CMS Pixels: Fermilab Farah Fahim, Gregory Deptuch, Jim Hoff, Alpana Shenai, Marcel Trimpl.

A. Dorokhov, IPHC, Strasbourg, France 1 Description of pixel designs in Mimosa22 Andrei Dorokhov Institut Pluridisciplinaire Hubert Curien (IPHC) Strasbourg,

MIMO  3 Preliminary Test Results. MIMOSTAR 2 16/05/2007 MimoStar3 Status Evaluation of MimoStar2 chip  Test in Laboratory.

Status of the PSD upgrade - Status of the PSD cooling and temperature stabilization system - MAPD gain monitoring system - PSD readout upgrade F.Guber,

IPHC-LBL-BNL video conference 19 Jan 2007 HFT development MimoStar2 based telescope.

Group #15 Matt Frank Russell Geschrey.  This project was chosen because of an interest in wireless communication systems, namely BAN's (body area networks)

1 FANGS for BEAST J. Dingfelder, A. Eyring, Laura Mari, C. Marinas, D. Pohl University of Bonn

NOISE MEASUREMENTS ON CLICPIX AND FUTURE DEVELOPMENTS Pierpaolo Valerio.

Fast Full Scale Sensors Development IPHC - IRFU collaboration MIMOSA-26, EUDET beam telescope Ultimate, STAR PIXEL detector Journées VLSI 2010 Isabelle.

3/06/06 CALOR 06Alexandre Zabi - Imperial College1 CMS ECAL Performance: Test Beam Results Alexandre Zabi on behalf of the CMS ECAL Group CMS ECAL.

Study of the Radiation Damage of Hamamatsu Silicon Photo Multipliers Wander Baldini Istituto Nazionale di Fisica Nucleare and Universita’ degli Studi di.

Karlsruhe probe equipment and QA proposals/expertise

Practical advices for using TCT (mostly for Particulars setups)

Isidre Mateu Suau (EP-DT-DD)

Radius disco Radius agujero Motor Controller Sensor Motor soporte.

96-channel, 10-bit, 20 MSPS ADC board with Gb Ethernet optical output

Detectors of JWST Near IR Instruments

Plans from last meeting

NI-sbRIO BASED PLATFORM FOR REAL TIME SPECTROSCOPY

FTIR multi-touch screen

Test Beam Measurements october – november, 2016

TCAD Simulation and test setup For CMOS Pixel Sensor based on a 0

Some simulations on reported issues

R&D of CMOS pixel Shandong University

Presentation transcript:

Michal Szelezniak – LBL-IPHC meeting – 3-5 October 2007 MimoStar2 Current test results at LBL Update on recent tests of MimoStar2 sensors performed at LBL

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Plans for testing MimoStar2 & MimoStar3 TESTING PLANS: – Preparations for testing of faulty pixels on MimoStar2 and MimoStar3 prototypes Possibility to stop on a pixel and test its sensitivity to external signals (LED light) – Currently no prototypes with faulty pixels are on hand – Test PCB for MimoStar3 has been submitted and is expected to arrive in 2 weeks – In the mean time we could bond MimoStar2 and re- verify if dead-pixels are related to handling (time constraints)

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Testing modes/patterns Static mode (stopping periodically on one selected pixel) Dynamic mode (continuous readout and with acquisition of samples for the selected pixel only)

Michal Szelezniak – LBL-IPHC meeting – 3-5 October First tests of discharge time No cooling in the system (no temperature control) Small protective box enclosing sensor and RDO board Pause on a pixel in the static mode limited to 3 frames RESULTS: – Very short discharge time is static mode (~0.3 ms time constant) – Short discharge time in dynamic mode STD~ 23.2 ms (average) RAD~ 11.0 ms (average) Discharge time on the order of 100 ms was expected based on measurements performed in Strasbourg in the STATIC mode

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Upgraded test system Chiller and a radiator blowing cold air on the DUT Large light-tight box containing the setup Infrared temperature sensor for continuous temperature monitoring No restrictions on the programmable test pattern – Duration of pause up to integral factors of 2×2 18

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Discharge time 30 °C – STD262 ms (average dynamic) 175 ms (static) – RAD132 ms (average dynamic) 100 ms (static) Consistent with results from Strasbourg Measured in Strasbourg: Time constant of 150 ms (increases up to 1.16 s at -10 °C )

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Scan of the pixel array Limitation of the system on continuous acquisition – in full frame mode data set is limited to 5-6 continuous frames (due to RORC interrupts) Only one pixel readout at a time – But it can be scripted and looped Room for improvement (more pixel per frame) Could be implemented when a need arises (time constraints) 14 hrs of data taking

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Pixel array uniformity Information on uniformity of discharge time uniformity on uniformity of leakage currents Somewhat uniform (except for the first two rows of pixel at the edge of the sensor – also visible with an oscilloscope)

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Additional studies of equilibrium T read /T frame ↑ V out ↑ frequency ↑ V out ↓ T read /T frame ↑ time constant ↓ During our recent phone conference (13Sep2007) Wojtek clarified that practically the same equilibrium should be expected in both modes – this explains all of the above observations If the readout phase “injects charge” (clock feed-through ?) and removes it at the end of the phase, we should be able to change the equilibrium in one pixel by stopping on it for an extended time not true when assuming different equilibria

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Conclusions on the self-biased structure Voltage drop at the sensor output due to readout is 1.5 V => 500mV at the diode level It’s the same equilibrium in all cases, especially in static and dynamic readout modes equilibrium Time constant 64 frames = 108 ms Time constant 220 frames = 374 ms

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Reference framePause on a selected pixel End pause and resume operationOne frame after resuming operation

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Final remarks Results prove that there is the same equilibrium in static and dynamic mode Questions to designers: Are there three columns active in each sub array at any given time (being prepared for readout)? (This is just for better understanding of the operation of the MimoStar2 sensor)

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Hot pixels (1/3)

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Hot pixels (2/3)

Michal Szelezniak – LBL-IPHC meeting – 3-5 October Hot pixels (3/3) hot pixelregular pixel