ELECTRONICS ARIZONA STATE UNIVERSITY ELECTRICAL ENGINEERING DEPARTMENT

Integrated Circuits and Systems

Dr. Hongyu Yu

AREAS

Analog Circuit Design Digital & VLSI Circuits MicroElectroMechanical System (MEMS) RF and Microwave IC’s

APPLICATIONS

Bio-Technologies

Wireless

Security

Aerospace & Automotive

Si-CMOS front-end

MEMS

COURSES EEE 333 – VHDL

EEE 334 – Circuits I EE E335 Circuits II

EEE 425 Digital Circuits

EEE 523 Analog CMOS

EEE 525 VLSI

EEE 433 Analog Circuits

EEE 598 Switch Cap

Digital Courses Analog Courses

EEE 598 Σ∆

Converters

EEE 625 Adv. VLSI

CSE/EEE 518

Synthesis

EEE 598 Modeling

EEE 524 RFIC

EEE 527 A/D

EEE 526 VLSI

Architecture

EEE 538 MEMS

EEE 598 Adv. MEMS

EEE 598 Bioelectronics

DR. DAVID ALLEE

Research: Flexible Electronics Courses:

EEE 425, 525 Digital Circuits & VLSI Design

EEE 523, 527 Advanced Analog & A/D Design

Design Flow:

Thin Film Transistor Characterization - Semiconductor Parameter Analyzer - Automatic and Manual Probing

Flexible Display Center at ASU http://flexdisplay.asu.edu

Thin Film Transistor Model Parameter Extraction - Transistor Model Parameters Extracted from Device Data

Improved Thin Film Transistor Models - Better Modeling of Parasitics - Incorporation of Threshold Voltage Shift - Advanced Models Enable Accurate Prediction of Circuit Performance Before Fabrication

Circuit Design & Simulation - Professional CAD Suite - Tanner Tools

Circuit Layout & Verification - FDC Developing Design Rules for High Manufacturing Yield

Fabrication & Test

0.0 5.0 10.0 15.0 20.0Drain-source voltage [V]

0.0

0.5

1.0

1.5

2.0

2.5

Dra

in c

urr

ent

[uA

]

Measured Modeled

Modeled data Measurement data

0.0 5.0 10.0 15.0 20.0Drain-source voltage [V]

0.0

0.5

1.0

1.5

2.0

2.5

Dra

in c

urr

ent

[uA

]

Measured Modeled

Modeled data Measurement data

'v(10)''v(4)''v(8)'

0.0m 10.0m 20.0m 30.0mtime [sec]

-10.0

0.0

10.0

20.0

30.0

40.0

Y A

xis

Title

[V

]

Designs in Collaboration with UDC, Honeywell, Kent Displays, and E ink.

DR. BAKKALOGLU - RESEARCH

Integrated Supply Regulators for RF Applications RF Frequency Synthesizers Low Power RF Transceiver Design Low Power A/D & D/A Converters for RF

Applications Funding

Semiconductor Research Corporation NSF Texas Instruments BAE

DR. BAKKALOGLU - COURSES

EEE 523 Advanced Analog IC Design

EEE 598 Oversampling Data Converter Design

DR. HUGH BARNABY - RESEARCH

Space Electronics and Radiation Effects Space Electronics Testbed

Reliability and Radiation Effects Modeling Radiation Sensors

Extreme Environment Effects in Devices and ICs

Combined Temperature and Radiation for Moon/Mars Low Dose Rate Effects

NASA Carrier

RadHARD PCB

Design

U1

OPAMP_3T_VIRTUAL

D1

1N4371AR110M

V1

5 V R21.0M

R3100k

R4200k

U2

COMPARATOR_VIRTUAL

Q1

2N2222A0

R6

620

9

3

U4A

74LS08J

U5A74LS04D

U6

COMPARATOR_VIRTUAL

R7100k

R8100k

R9100k

R10

1.2R17110k

0

11

VCC5VVCC

R11

1.0k

C1

1.0uF

CRS2

3612

8

1721

S1

10

7

14

51

35

0

0

0

15

2 Q22N2222A

0 6

R31620

16

U9A

74LS04D

18

4

0

0

DR. HUGH BARNABY - COURSES

EEE 334 (Circuits II) EEE 335 (Analog and Digital Circuits) EEE 433 (Analog Integrated Circuits) EEE 598 Technology Computer Aided

Design

DR. YU (KEVIN) CAO - RESEARCH

Nanoscale Integration and Modeling Modeling and design for sub-45nm CMOS Reliable design under process variations Ultra-low power VLSI design Related CAD tools

Funding MARCO, SRC, Connection One

DR. YU (KEVIN) CAO - COURSES

EEE 425 Digital circuit design

EEE 525 VLSI system design

EEE 598 Modeling and design for nanometer

technology

Bio-MEMS (Micro-Electro-Mechanical-Systems) Cell-on-a-Chip: Integrating living cells / bacteria on a chip Pathological detection, Miniaturized bio-reactor

Bio-Nano-Micro-Interfaces Controlling Microdevices by Nanostructures Multi-domain Transducers

System Integration using MEMS Hybrid Integration: A multi-chip module which can

accommodate any material / size / shape of chips Implantable chipsets, Wireless environment monitoring

Funding NSF (National Science Foundation) NIH (National Institute of Health)

DR. JUNSEOK CHAE – RESEARCH

DR. JUNSEOK CHAE - COURSES

EEE 334 Electronic Circuits II EEE 538 Introduction to MEMS EEE 598 MEMS - Electronic Interfaces

DR. JENNIFER BLAIN CHRISTEN – RESEARCH

Waste Incubator

Culture Flask

Life Sciences

Cellular Molecular

Physiological

Engineering

MEMS Control Systems

Circuits

DR. JENNIFER BLAIN CHRISTEN - COURSES

EEE 202 Electronic Circuits I

EEE 435 Fundamentals of CMOS and MEMS

EEE 538 Introduction to MEMS

EEE 598 Low Power Bioelectronics

DR. CLARK RESEARCH

Radiation hardened VLSI circuits Low power/high performance

microprocessor circuits and architectures

Ultra low power and harsh environment VLSI systems

High Security Digital Systems Research Opportunities:

Radiation hardened, high performance, low power, microprocessor design

Security circuits (smart cards, ultra-secure ICs)

Low power cache, MMU design Multicore microprocessor circuits and

programming

Students hired by: AMD, Intel, Qualcomm, Microchip, FreeScale, MRDC, TI

DR. CLARK RESEARCH

DR. CLARK - COURSES

EEE 333 VHDL and design with FPGAs

EEE 525 VLSI Design

EEE 625 Advanced VLSI Design

DR. SAYFE KIAEI

Director of the Connection One Center Research: RFIC Design Courses

EEE 334 / 335 Electronics I, II EEE 433 EEE 524 RFIC Design

DR. JENNIFER KITCHEN - RESEARCH

RF/Microwave Integrated Circuit Design (Satcom/Wireless Comm) Integration on Gallium Nitride for High-Efficiency and High-Frequency

www.jennifernkitchen.com

Replace discrete electronics with low-cost transceiver RFIC. Challenges:

• >>25GHz Circuit Designs • Low-cost Packaging • Tx Output Power Requirements

5 m

m

5 mm GaN Circuits/Novel Topologies

DR. KITCHEN - COURSES

Courses EEE 433 – Analog Integrated Circuits EEE 524 RF Integrated Circuit Design

DR. HONGYU YU - RESEARCH Hongyu Yu School of Earth and Space Exploration School of Electrical, Computer, Energy Engineering hongyuyu@asu.edu Courses: EEE598 MEMS for Earth and Space Exploration

Passive wireless telemetry sensor system for high energy radiation detection

Research Highlights: Sensor system and platforms:

Wireless telemetry system Flexible, stretchable, and networked

Sensing functions: Radiation detection, UV, IR and gas sensing Microfluidic physical and chemical

parameters Micro energy harvesting devices and others

Collaborating with wireless engineers, harsh environmental electronics and nuclear scientist

Wireless telemetry system. Passive, micro size, sensitive devices 2 patens filed, a few proposals are pending: DTRA,

NIH, DoD, NSF Applications: space weather, radio-medical, nuclear

detection.

Sensor and Sensor System

Micro system on soft substrate (Parylene, PDMS, Polyimide):

Flexible, stretchable and networked 3D surface manufacture

Biomedical and geology applications

Fluidic parameters measurement: Sensors: thermal anemometer, electrodes Functions: shear stress, temperature,

conductivity, dissolved oxygen….. Networked sensor meshes Geochemistry and astrobiology

applications

Miniature seismometers for harsh environments • Goal: provide light and robust seismometer for space exploration. Testing current devices for harsh environments: high/low temperature, temperature cycles, vacuum and radiation (NASA). • Based on Molecular Electric Transducer with liquid electrolyte, using microfabrication improve size and performance. • Applications: space exploration, gas or oil detection

DR. HONGYU YU - COURSES

EEE 334 / 335 Electronics I, II EEE 538

Introduction to MEMS

NEW FACULTY

Umit Ogras (Digital Design)