Transcript CTDMM Road Map and Vision - Universiti Sains Malaysia

CTDMM
Circuit Technique, Design
Methodology and Modeling
Road Map & Vision
Vision & Mission
Circuit Technique, Design
Methodology and Modeling
CTDMM
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 To excel in circuit technique, design
methodology and modeling in Analog, RF and
Mixed-Signal IC by year 2014.
 To employ knowledge and expertise from
Universities and Industries.
Circuit Technique, Design
Methodology and Modeling
CTDMM
Knowledge
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Application
Circuit Technique, Design
Methodology and Modeling
CTDMM
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IEEE wireless
Sensor
Design Tool
Knowledge
Telecommunication
Wireline IC
IC
Robust Device Model
Projects
Circuit Technique, Design
Methodology and Modeling
CTDMM
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In order to acquire the knowledge, below are projects which will be
undertaken.
 Analog, RF and millimeter-wave circuit design beyond 45 nm
CMOS.
 Multiband RFID Reader IC.
 Visible Light Filter and Photodiode for Optical Sensor
Application.
 CPW MWMICs.
 Readout IC for Radiation Sensor.
 Development of remotely-control medical equipment with
reporting features.
Project #1-Analog, RF and millimeterwave circuit design beyond 45 nm CMOS
Circuit Technique, Design
Methodology and Modeling
CTDMM
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 The investigation starts from device-level simulation
results that are imported into a simulation
environment for analog circuits to evaluate the
performance of classical topologies of circuits that
typically occur in the radio front-ends of
telecommunication IC.
Project #2-Multiband RFID Reader IC
Circuit Technique, Design
Methodology and Modeling
CTDMM
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 To develop commercial ready Multiband Reader IC (
Microwave and UHF ) using current state of the art
technology.
Project #3-Visible Light Filter and
Photodiode for Optical Sensor Application
Circuit Technique, Design
Methodology and Modeling
CTDMM
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 The use of patterned metal layers as integrating light
filters offer numerous benefit compare to colour filter
array. One of them is to reduce colour cross talk, this
is because it offers shorter distance from pixel
surface and pixel photodiode. The patterned metal
layer offer robust application such as for high
temperature usage application.
 The proposed research work is also focusing on
development of photodiode models, high speed
operational amplifier and low power data converters.
This deliverables will ensure the outcome of the
research can be commercialized in the future.
Project #4-CPW MWMICs
Circuit Technique, Design
Methodology and Modeling
CTDMM
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 The develop MWMICS ( > 30 GHz )
 The proposed research work is also focusing on
LNA, PA and T/R switch. The investigation on CPW
structure is the main focus in the research.
Project #5-Readout IC for Radiation
Sensor
Circuit Technique, Design
Methodology and Modeling
CTDMM
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 The IC provides preamplifier and shaping amplifier
functions and its output stage is capable of driving
conventional Analogue to Digital Converter modules.
Project #6-Development of remotelycontrol medical equipment with reporting
features
Circuit Technique, Design
Methodology and Modeling
CTDMM
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 The development of commercial medical device
such as blood pressure/heart beat meter which
could report wirelessly.
Contact
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Arjuna Marzuki
Lecturer,
Circuit Technique, Design
Methodology and Modeling
CTDMM
School of Electrical and Electronic Engineering,
USM, 14300, Nibong Tebal.
Tel:604-5996021
Email: [email protected], [email protected],
[email protected]
http://tech.groups.yahoo.com/group/CTDMM/
http://ee.eng.usm.my/eeacad/arjuna/