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Plenary
Lecture
Analytical Synthesis Method---A New Mathematical Design
Method for the Analog Circuit Design
Professor Chun-Ming Chang
Dept. of Electrical Engineering
Chung Yuan Christian University
Chung-Li, Taiwan 32023, R. O. China
E-mail:
chunming@dec.ee.cycu.edu.tw
Abstract:
Analytical Synthesis Method (ASM) has been presented
in several papers published in the IEEE Transactions on
Circuits and Systems since 2003. It is one of the
powerful design methods in the field of analog circuit
design. It is the method using a succession of
innovative algebra manipulation operations to decompose
a complicated transfer function representing the
relationship between the output and the input signals of
a design project into many simple equations feasible by
using the corresponding simple sub-circuitries. The
simple sub-circuitries can be constructed by the desired
configuration of the element such as the
single-ended-input operational transconductance
amplifiers (OTAs) and the grounded capacitors, both of
which are used for absorbing and reducing the shunt
parasitic capacitance and lead to have more precise
output responses. In addition to this, the ASM can
control the number of the terms in the complicated
decomposition process such that the number of both
active and passive components used in the circuit is the
least compared to the previously reported ones. Then,
the ASM is the only one method which can simultaneously
achieve the three important criteria for the design of
OTA-C circuits without trade-off. Due to the flexibility
of the ASM, the simple sub-circuitries used in the
circuit design can be changed and chosen according to
different necessities for the target of the circuit
design. For example, if the reduction of the number of
the active and passive components used in the circuit is
more important than the type of the element
configurations like
single-ended-input/differential-input OTAs and
grounded/floating capacitors due to the consideration
about power consumption, chip area, noise, and total
parasitics..., etc., the minimum component OTA-C circuit
can also be investigated and developed successfully
using the ASMs. The fully flexible characteristic and
the real demonstration in the literature of the ASM may
make it be one of the most prospective methods in the
field of analog circuit design in the near future.
Brief Biography of the Speaker:
Chun-Ming Chang received the B.S.E.E. and M.S.E.E.
degrees from National Cheng Kung University, Tainan,
Taiwan, R. O. C. in 1975 and 1977, respectively, and the
Ph.D. degree from the University of Southampton,
Southampton, U.K., in 2004.
In 1979, he joined the Department of Electrical
Engineering, Taipei Institute of Technology, Taipei,
Taiwan, R. O. C., as a Lecturer. After one year, he
transferred to the Department of Electronic Engineering,
Fu Jen Catholic University, Taipei Hsien, Taiwan, R.O.C.
In 1982, he joined the Department of Electrical
Engineering, Chung Yuan Christian University, Chung-Li,
Taiwan, R.O.C., where he became an Associate Professor
and a Full Professor in 1985 and 1991, respectively. He
is currently a Professor of Electrical Engineering and
leader of the Electronic Circuits Group in the
Department of Electrical Engineering, Chung Yuan
Christian University. He is also a departmental teacher
promotion committee member and a college teacher
promotion committee member. He was the chairman of the
Department of Electrical Engineering of Chung Yuan
Christian University from 1995 to 1999. His research
interests are divided into two parts: network synthesis
and analog circuit design before and after 1991,
respectively. The improvement for the approach technique
to factorize a paramount matrix used in network
synthesis and proposed by Professor I. Cederbaum let him
be promoted to a Full Professor in 1991. He has
published over 70 SCI papers, in which the most famous
is the invention of a new analytical synthesis method
for the design of analog circuits which can, for the
first time, simultaneously achieve three important
criteria for the design of OTA-C filters without
trade-offs. Using a succession of innovative algebra
manipulation operations, a complicated nth-order
transfer function can be decomposed into a set of simple
equations feasible using the single-ended-input OTAs and
grounded capacitors. Several IEEE Transaction papers on
Circuits and Systems with analytical synthesis method
have been published in the literature since 2003.
Recently, he was invited as the Plenary Speaker of the
(i) 7th WSEAS International Conference on
Instrumentation, Measurement, Circuits and Systems
(IMCAS ’08), Hangzhou China, April 6-8, 2008; (ii) 8th
WSEAS International Conference on Electronics, Hardware,
Wireless and Optical Communications (EHAC’09),
University of Cambridge, UK, February 21-23, 2009; and
(iii) 11th WSEAS International Conference on
Mathematical and Computational Methods in Science and
Engineering (MACMESE’09), Baltimore USA, November 7-9,
2009. He was invited as a Visiting Professor by Peking
University and National Taiwan University in the summer
of 2008 and 2009, respectively. He is in the process of
writing his professional textbook: "Analog Circuit
Design---Analytical Synthesis Method". Prof. Chang is a
senior member of the IEEE Circuits and Systems Society.
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