1 RF GaN 20 Volts & 0.1 amp  8 pieces: Nitronex NPT 25015: GaN on Silicon Done Gamma, Proton & Neutrons 65 volts Oct 2009  2 pieces: CREE CGH40010F:

Slides:



Advertisements
Similar presentations
Goals Investigate circuits that bias transistors into different operating regions. Two Supplies Biasing Four Resistor Biasing Two Resistor Biasing Biasing.
Advertisements

Homework solutions EE3143.
ENTC 3320 Absolute Value.
JUNCTION FIELD EFFECT TRANSISTOR(JFET)
1 Progress on DC-DC converters for SiTracker for SLHC Yale University, New Haven, CT USA Brookhaven National Laboratory, Upton, NY USA Rutherford Appleton.
ATLAS MDT Electronics Mezzanine PCB Radiation Hardness Assurance Eric Hazen – Boston University.
Field Effect Transistors Circuit Analysis EE314 HP PA8000 Fujitsu Fairchild Clipper C100.
1 Sachs et. al. IEEE Trans. Nuclear Science NS-31, 1249 (1984) Threshold Shift vs Gate Oxide Thickness Hole removal process by tunneling in thin-oxide.
1 Commercial-off-the-Shelf DC-DC Converters for High Energy Physics Detectors for the sLHC Upgrade Yale University, New Haven, CT USA Brookhaven National.
MDT-ASD PRR C. Posch30-Aug-01 1 Radiation Hardness Assurance   Total Ionizing Dose (TID) Change of device (transistor) properties, permanent   Single.
V Input V Output Kelvin Monitor Points Input power +12 volts Output / Test Load Carrier Board Plug In Card ASIC Chips Load Keep Short Leads Cable Yale.
1 Sachs et. al. IEEE Trans. Nuclear Science NS-31, 1249 (1984) Threshold Shift vs Gate Oxide Thickness Hole removal process by tunneling in thin-oxide.
Measurement at -5 and -10 C Leakage current and depletion voltage of the irradiated chips were measured at -5 C and -10 C.
Control & Monitoring of DC-DC Buck Converters Satish Dhawan Yale University Power Distribution Working Group Meeting- Tuesday 24 February 2009 ATLAS Upgrade.
Progress on Powering Options Satish Dhawan, Adrian Au Yale University Richard Sumner, CMCAMAC LLC SiD workshop, SLAC Jan ,
COMPONENT TEST H4IRRAD 15 TH NOVEMBER 2011 G. Spiezia, P. Peronnard, G. Foucard, S. Danzeca, P. Gander, E. Fadakis (EN/STI/ECE)
FET ( Field Effect Transistor)
Technologies for a DC-DC ASIC B.Allongue 1, G.Blanchot 1, F.Faccio 1, C.Fuentes 1,2, S.Michelis 1, S.Orlandi 1 1 CERN – PH-ESE 2 UTFSM, Valparaiso, Chile.
Wide Bandgap Semiconductor Detectors for Harsh Radiation Environments
DC-DC Buck Converter in Inner Detector Environment
Black Box Electronics An Introduction to Applied Electronics for Physicists 2. Analog Electronics: BJTs to opamps University of Toronto Quantum Optics.
High Voltage MUX for ATLAS Tracker Upgrade EG Villani STFC RAL on behalf of the ATLAS HVMUX group TWEPP-14, 22 – 26 Sept
High Voltage Multiplexing for ATLAS Tracker Upgrade EG Villani on behalf of the ATLAS HV group STFC Rutherford Appleton Laboratory.
1 Integrating Radiation Monitoring System for the ATLAS Detector at the Large Hadron Collider Igor Mandić 1, Vladimir Cindro 1, Gregor Kramberger 1 and.
4 Amp Load.500 Hard Line Cable SPSM 2 P/S Setup Configuration RF Signal Supplied by RG-6 RF Signal To TV via RG-6 Remove Central Fuse Move 20A fuse from.
Status of the PiN diodes irradiation tests B. Abi( OSU), R. Boyd (OU), P. Skubic (OU), F. Rizatdinova (OSU), K.K. Gan (Ohio State U.)
Microwave Engineering, 3rd Edition by David M. Pozar
Chapter 5: Field Effect Transistor
Meter Accuracy DC Volts ±(0.1% of the reading + 1 digit) DC Amps
IBM Foundry Oxide Thickness LithographyProcessOperatingOxide NameVoltageThickness nm 0.25 µm6SF µm8RF1.2 & & Satish Dhawan,
Radiation Concerns in Power Supplies
ECE 340 ELECTRONICS I MOS APPLICATIONS AND BIASING.
Electrical power. Objectives Use the equation for electrical power to solve circuit problems. Understand basic concepts for home electricity usage and.
Radiation Test Facilities G. Spiezia. Engineering Department ENEN Radiation tests facilities  Radiation test in the accelerator sector  External facilities.
Radiation Tests on IHP’s SiGe Technologies for the Front-End Detector Readout in the S-LHC M. Ullán, S. Díez, F. Campabadal, G. Pellegrini, M. Lozano CNM.
Electronic Circuits Laboratory EE462G Lab #5 Biasing MOSFET devices.
7/2/2003Ivan Hruska,Francisca Calheiros1 Radiation test of components for LV power supply design  Test done in PSI verification and selection.
S.Hou, Academia Sinica Taiwan. 2Outline Optical links for ATLAS Laser-driver  fiber  PIN-driver LHC modules in service Rad-hard requirement for LHC/SLHC.
American Detector Irradiation Facilities Erik Ramberg FNAL 22 March, 2011 ALCPG11.
P. Denes Page 1 FPPA-Rad1 UHF1x and FPPA Radiation Hardness Radiation studies performed at OPTIS (PSI) with 72 MeV p and at 88” (LBL) with 55 MeV.
Half wave rectification By:Engr.Irshad Raheem Memon.
Exploitation of Space Ionizing Radiation Monitoring System in Russian Federal Space Agency STRUCTURE OF THE MONITORING SYSTEM The Monitoring System includes.
CHAP3: MOS Field-Effect Transistors (MOSFETs)
Variable Frequency Induction Motor Drives Simplest Control – set frequency for steady state operation only Use digital control.
1/14 Characterization of P-type Silicon Detectors Irradiated with Neutrons M.Miñano 1, J.P.Balbuena 2, C. García 1, S.González 1, C.Lacasta 1, V.Lacuesta.
Hydrogen Studying the Effect of Molecular Hydrogen on Silicon Device Radiation Response Using Gated Bipolar Transistors Jie Chen, David Wright, and.
Field Effect Transistors (2)
Production Readiness Review of L0/L1 sensors for DØ Run IIb R. Demina, August, 2003 Irradiation studies of L1 sensors for DØ 2b Regina Demina University.
1 DMT 121 – ELECTRONIC DEVICES CHAPTER 5: FIELD-EFFECT TRANSISTOR (FET)
Performance of Silicon Pixels at -5 & -10 C after Radiation Daniela Bortoletto Gino Bolla Amitava Roy Carsten Rott.
COTS Regulator Studies Derek Donley*, Mitch Newcomer, Mike Reilly *Hospital of the University of Pennsylvania, Radiation Oncology.
1 Single event upset test of the voltage limiter for the ATLAS Semiconductor tracker TSL Experiment Number: F151 distance between power supplies and modules.
CMS/SLHC irradiation tests of current optical link components in March 06 K Gill
Esperimento APOLLO Sezione di Roma Sezione di Roma Università degli studi di Cassino e del Lazio meridionale 1 ENEA centro ricerche «Casaccia» 2 Sezione.
VI. HIGH-EFFICIENCY SWITCHMODE HYBRID AND MMIC POWER AMPLIFIERS:
Radiation Tests Performed on GaNs
Study of the Radiation Damage of Hamamatsu Silicon Photo Multipliers Wander Baldini Istituto Nazionale di Fisica Nucleare and Universita’ degli Studi di.
Radiation performance of new semiconductor power devices for the LHC experiment upgrades C. Abbate, M. Alderighi, S. Baccaro, G. Busatto, M. Citterio,
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. MALVINO & BATES SEVENTH EDITION Electronic PRINCIPLES.
Chapter 6 Ohm’s Law, Work, Energy and Power. ResistanceCurrentVoltage 4Ω4Ω4A 16V.
Qualification of components (Electronics)
Electrical Tests on GaN devices
THEVENIN’S & NORTON’S THEOREM AND MAXIMUM POWER TRANSFER THEOREM
Michael Steffens, Fraunhofer INT
Absolute Value.
High Voltage MUX for ATLAS Tracker Upgrade EG Villani STFC RAL on behalf of the ATLAS HVMUX group IPRD16 Siena, Oct
Semiconductors Principles
Introduction to the pn-junction Diode
SUPERPOSITION THEOREM
THE RESISTOR Forward characteristic Reverse characteristic Circuit.
Presentation transcript:

1 RF GaN 20 Volts & 0.1 amp  8 pieces: Nitronex NPT 25015: GaN on Silicon Done Gamma, Proton & Neutrons 65 volts Oct 2009  2 pieces: CREE CGH40010F: GaN on siC  6 pieces: Eudyna EGNB010MK: GaN on siC Done Neutrons Switch GaN  International Rectifier GaN on Silicon Under NDA BNL Lansce U of Mass Lowell Gallium Nitride RF Devices Tested in 2009 Plan to Expose same device to Gamma, Protons & Neutrons Online Monitoring

2 Source FET Satish Dhawan, Yale University Pulse Generator 0.1 – 2 MHz 50 % Duty Cycle July FET Setup for Proton Radiation Exposure. ~ Amps Power Supply V out = 20 Volts Drain Gate to - 5 V Powered FET DMM DC mV Watts1 Ω GND 50 Ω Terminator 2 Shorted FETs Rad vs wo Bias G D S Pomona Box Reading = ~ % Duty Cycle 30 m Bias during Radiation Max operating V & I Limit Power by duty cycle

3 Fig. 7 Nitronex irradiated with 60 Co gamma irradiation to select doses. Little change is observed in the response. Fig. 8 Ntironex HEMT irradiate with 5 x neutrons (1 MeV equivalent). Little change is observed in the response..

4 Fig. 9 Eudyna EGNB010 GaN HEMT, V GS versus I D at V DS = 10 volts and selected doses of 60 Co gamma radiation. Little change is apparent even after 43 Mrad of ionizing radiation Fig. 10 Eudyna EGNB010 GaN HEMT V GS versus I D at V DS = 2 volts, 20 volts and with 5 x neutrons (1 MeV equivalent).Like the other figures little change is observed in the response

5 200 Mrads of Protons had no effect – switching 20 V 0.1 Amp Parts still activated after 7 months Vds= 65V Gammas

6 Proton Test Proton Fluence =1 x 1015p/cm2 over a period of about 24 hours. Biased = 65 volts 1MHz Average current = 65 mA limited by Load resistor. No change in current. Our next IEEE TNS Paper shall summarize work to date

7

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.