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MX-10: Pixel Particle Detector V.Viswanathan, S.Martinek, M.Honig, P.Hubner Dr.Vijayaragavan VISWANATHAN 27/10/2013 IEEE-NSS: New Detector.

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Presentation on theme: "MX-10: Pixel Particle Detector V.Viswanathan, S.Martinek, M.Honig, P.Hubner Dr.Vijayaragavan VISWANATHAN 27/10/2013 IEEE-NSS: New Detector."— Presentation transcript:

1 MX-10: Pixel Particle Detector V.Viswanathan, S.Martinek, M.Honig, P.Hubner Dr.Vijayaragavan VISWANATHAN vijay@jablotron.cz 27/10/2013 IEEE-NSS: New Detector Technologies in Radiation Dosimetry and its Applications Workshop

2 Contents Introduction Challenges Design Educational kit setup Conclusion New Detector Technologies in Radiation Dosimetry and its Applications Workshop 2

3 Introduction Medipix/Timepix technology Successful initiative by CERN Hybrid silicon pixel detector Outcome of more than 10 years of research Technology High energy physics to other fields Collaboration with Universities, research centers and private companies Radiation detecting device Source: CERN knowledge transfer 3 New Detector Technologies in Radiation Dosimetry and its Applications Workshop

4 Principle 4 N+N+ P+P+ Si Counter : Particle count + Amplifier Compa rator 000001 Bias Voltage Common back-side electrode Pixelated front-side electrode Pixel electronics Threshold level Source: Tracking and radiation field measurement, Dr.Zdenek Vykydal, ARDENT workshop, Vienna, November2012 New Detector Technologies in Radiation Dosimetry and its Applications Workshop

5 Challenges Goal: Take research outcome to society JABLOTRON ALARMS a.s Acquired the license from CERN To develop and deploy Educational and homeland security products Market needs Better accessibility Portability Flexibility Ease of use 5 New Detector Technologies in Radiation Dosimetry and its Applications Workshop

6 Application Unique educational aid for students Developed at JABLOTRON ALARMS a.s Collaboration: CERN/IEAP/Medipix/ARDENT Recently product launched in the market Chip features 256 x 256 pixels Pixel size: 55 x 55 µm 2 Active area 14 x 14 mm 2 Recognition of particles (α,β,γ,MIP) Real time display using Pixelman Portable 6 New Detector Technologies in Radiation Dosimetry and its Applications Workshop Source: Medipix website

7 Chipboard Composed of Timepix detector Readout interface Detector 256 x 256 pixels Each pixel connected to lower layer Amplifier, comparator and counter Bump bonding technology Earlier version namely FITPIX @ IEAP Redesigned chipboard ~28% reduction in area Elimination of wide-connector coaxial cable Adjustable voltage settings Any chipboard can be connected to any baseboard Portability, manufacturability and reliability Parallel readout to baseboard improving overall readout speed 6 layer PCB 7 New Detector Technologies in Radiation Dosimetry and its Applications Workshop

8 Baseboard Composed of Altera FPGA Power supply circuitry USB 2.0 hi-speed interface Improvements 150fps compared to 80fps Dedicated FTDI channel for EEPROM updates Firmware upgrades in the field Better power management Flexibility in bias voltage configuration using software Capability to measure currents from power rails Better testing possibility Increased usability 8 layer PCB Powered by Mini-USB connector 8 New Detector Technologies in Radiation Dosimetry and its Applications Workshop

9 Mechanical design Safety of sensor and electronics Durability, accessibility Portability Early design decision Placement of Mini-USB Placement of LED Green – Ready Red – Busy Sliding flip Safety of sensor Experiments without alpha Mount Standard tripod screw Device weight – 160g Certified with EN 61000-6-1 and EN 61000-6-3 standards Test bench for experiments 9 New Detector Technologies in Radiation Dosimetry and its Applications Workshop

10 Educational kit setup Pixelman software output MX-10 – digital particle camera Test bench with source Pixelman software 10 New Detector Technologies in Radiation Dosimetry and its Applications Workshop

11 Conclusion Key accomplishments Improved performance Area Speed Design modification to Bring research to market Meet the market requirement Future Improving the speed Timepix technology for Homeland security Industrial applications 11 New Detector Technologies in Radiation Dosimetry and its Applications Workshop

12 Acknowledgment Colleagues at Jablotron Alarms CEO Mr.Dalibor Dedek Pavel Hubner, Stepan Martinek, Martin Honig Vladimir Stanislav, Stefan Vanco IEAP ARDENT Medipix CERN 12 New Detector Technologies in Radiation Dosimetry and its Applications Workshop To play with MX-10 Please visit us at Industrial exhibition: Booth no: 18

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