Presentation is loading. Please wait.

Presentation is loading. Please wait.

ACTFEL Device Modeling via SPICE

Published byHugh Matthews Modified over 6 years ago

Similar presentations

Presentation on theme: "ACTFEL Device Modeling via SPICE"— Presentation transcript:

1 ACTFEL Device Modeling via SPICE
J. P. Bender and J. F. Wager Department of Electrical and Computer Engineering Center for Advanced Materials Research Oregon State University Corvallis, Oregon

2 Organization: Fowler-Nordheim Diode Model Double-sheet Charge Model

3 Fowler-Nordheim Diode Model

4 Fowler-Nordheim Diode model: Q-V

5 Fowler-Nordheim Diode model: C-V

6 Fowler-Nordheim model: Transient response

7 Fowler-Nordheim model: Transferred Charge Curve
Experimental Data

8 FN Model Scaling with Varying Vmax

9 Modified Fowler-Nordheim Diode Model

10 Double-sheet Charge Model
Space charge formation is allowed at two discrete locations within the phosphor layer Each sheet can emit and capture electrons

11 Two-sheet Charge Model Band Diagram

12 Two-sheet Charge Model Equivalent Circuit

13 Two-sheet Charge Model
1. Emission Mechanisms Field emission (pure tunneling) Thermal emission Trap-to-band impact ionization 2. Charge Capture The probability that an electron crossing a sheet of charge is captured depends on: Electric field at the sheet Occupancy of the sheet

14 Two-sheet Charge Model
Space Charge Creation via Field Emission

15 Two-sheet Charge Model
Space Charge Creation via Trap-band Impact Ionization

16 Two-sheet Charge Model: Static Space Charge
Ionized traps are not allowed to refill FB= 1.5 V (experimental value) Bulk trap depth = 1.38 V

17 Transferred Charge Capacitance Overshoot (Two-sheet charge model)
Experimental Data Fowler-Nordheim Diode model

18 Conclusions Fowler-Norheim Diode Two-sheet Charge Model
Simple yet accurate SPICE model for devices without space charge Two-sheet Charge Model Demonstrates mapping of device physics to SPICE Large amounts of C-V overshoot in SPICE

Download ppt "ACTFEL Device Modeling via SPICE"

Similar presentations

Molecular Bonds Molecular Spectra Molecules and Solids CHAPTER 10 Molecules and Solids Johannes Diderik van der Waals (1837 – 1923) “You little molecule!”

Molecular Bonds Molecular Spectra Molecules and Solids CHAPTER 10 Molecules and Solids Johannes Diderik van der Waals (1837 – 1923) “You little molecule!”
Polaronic transport and current blockades in epitaxial silicide nanowires and nanowire arrays CNMS Staff Science Highlight Scientific Achievement Significance.

Polaronic transport and current blockades in epitaxial silicide nanowires and nanowire arrays CNMS Staff Science Highlight Scientific Achievement Significance.
Charge carriers must move to accommodate the bias-dependent depletion layer edge in a diode. Meanwhile, the capacitance depends on the position of the.

Charge carriers must move to accommodate the bias-dependent depletion layer edge in a diode. Meanwhile, the capacitance depends on the position of the.
New approach to simulate radiation damage to single-crystal diamonds with SILVACO TCAD Florian Kassel, Moritz Guthoff, Anne Dabrowski, Wim de Boer.

New approach to simulate radiation damage to single-crystal diamonds with SILVACO TCAD Florian Kassel, Moritz Guthoff, Anne Dabrowski, Wim de Boer.
Scott Starks, PhD, PE Department of Electrical & Computer Engineering UTEP.

Scott Starks, PhD, PE Department of Electrical & Computer Engineering UTEP.
Latent Noise in Schottky Barrier MOSFET

Latent Noise in Schottky Barrier MOSFET
Electrical Techniques MSN506 notes. Electrical characterization Electronic properties of materials are closely related to the structure of the material.

Electrical Techniques MSN506 notes. Electrical characterization Electronic properties of materials are closely related to the structure of the material.
Field Emission Measurements From Cesiated Titanium and Stainless Steel Electrodes K.Surles-law, P.Adderley, J.Brittian, D.Charles, J.Clark, J.Grames, J.Hansknecht,

Field Emission Measurements From Cesiated Titanium and Stainless Steel Electrodes K.Surles-law, P.Adderley, J.Brittian, D.Charles, J.Clark, J.Grames, J.Hansknecht,
5.1 Introduction 5.2 Equilibrium condition 5.2.1 Contact potential

5.1 Introduction 5.2 Equilibrium condition Contact potential
Department of Aeronautics and Astronautics NCKU Nano and MEMS Technology LAB. 1 Chapter IV June 14, 2015June 14, 2015June 14, 2015 P-n Junction.

Department of Aeronautics and Astronautics NCKU Nano and MEMS Technology LAB. 1 Chapter IV June 14, 2015June 14, 2015June 14, 2015 P-n Junction.
Physics 121: Electricity & Magnetism – Lecture 6 Carsten Denker NJIT Physics Department Center for Solar–Terrestrial Research.

Physics 121: Electricity & Magnetism – Lecture 6 Carsten Denker NJIT Physics Department Center for Solar–Terrestrial Research.
CHAPTER 5 DEFECTS.

CHAPTER 5 DEFECTS.
Lecture #8 OUTLINE Generation and recombination Excess carrier concentrations Minority carrier lifetime Read: Section 3.3.

Lecture #8 OUTLINE Generation and recombination Excess carrier concentrations Minority carrier lifetime Read: Section 3.3.
Photonic Crystal Fiber for Radiation Sensors Feng Wu Khalid Ikram Sacharia Albin Feng Wu Khalid Ikram Sacharia Albin Photonic Laboratory Old Dominion University.

Photonic Crystal Fiber for Radiation Sensors Feng Wu Khalid Ikram Sacharia Albin Feng Wu Khalid Ikram Sacharia Albin Photonic Laboratory Old Dominion University.
Design, Development, and Testing of a Transient Capacitance Spectroscopy System Presented by: Kiril Simov Special thanks to: Dr. Tim Gfroerer Department.

Design, Development, and Testing of a Transient Capacitance Spectroscopy System Presented by: Kiril Simov Special thanks to: Dr. Tim Gfroerer Department.
Temperature-Dependent Transient Capacitance in InGaAs/InP-based Diodes Kiril Simov and Tim Gfroerer Davidson College Mark Wanlass NREL Supported by the.

Temperature-Dependent Transient Capacitance in InGaAs/InP-based Diodes Kiril Simov and Tim Gfroerer Davidson College Mark Wanlass NREL Supported by the.
EE415 VLSI Design The Devices: Diode [Adapted from Rabaey’s Digital Integrated Circuits, ©2002, J. Rabaey et al.]

EE415 VLSI Design The Devices: Diode [Adapted from Rabaey’s Digital Integrated Circuits, ©2002, J. Rabaey et al.]
Chapter 4 Photonic Sources.

Chapter 4 Photonic Sources.
MOS Capacitors MOS capacitors are the basic building blocks of CMOS transistors MOS capacitors distill the basic physics of MOS transistors MOS capacitors.

MOS Capacitors MOS capacitors are the basic building blocks of CMOS transistors MOS capacitors distill the basic physics of MOS transistors MOS capacitors.
Example 5-3 Find an expression for the electron current in the n-type material of a forward-biased p-n junction.

Example 5-3 Find an expression for the electron current in the n-type material of a forward-biased p-n junction.

Similar presentations

Ads by Google