BND 31303 / BNE 35203 / BNE 33603
POWER ELECTRONICS / POWER
ELECTRONIC CONVERTERS :
CHAPTER 1 INTRODUCTION
DR. FARAHIYAH MUSTAFA
Doctor of Philosophy (Electrical Engineering)
ROOM NO. : 2.A1.1.146
Introduction, Power Electronics
By Dr. Farahiyah Mustafa
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Introduction : Power Electronic Tree
Introduction, Power Electronics
By Dr. Farahiyah Mustafa
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Introduction
What is Power Electronics?
• Power Electronics is a branch of electrical / electronics engineering that is
concerned with the conversion and control of electrical power for various
applications.
• Utility systems usually generate, transmit, and distribute power at a fixed
frequency (50 or 60 Hz), and a fixed voltage is maintained at the consumer
terminals.
• A consumer, however, may need power at DC or AC, at the same, higher or
lower or variable frequency. Frequently, the power is to be controlled with
precision.
• A power electronics system interfaces between the utility system and consumer
load to satisfy this need. Power electronics may be defined as the applications of
solid-state electronics for the control and conversion of state electronics for the
control and conversion of electrical power.
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Introduction
DEFINITION:
To convert, i.e to process and control the flow of electric power by supplying
voltage s and currents in a form that is optimally suited for user loads.
BASIC BLOCK DIAGRAM:
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PE System
• To convert electrical energy from one form to another, i.e. from the source to
load with:
• lowest cost
• highest efficiency
• smallest size
• highest availability
• least weight
• highest reliability
• Static applications
• involves non-rotating or moving mechanical components.
• Examples:
• DC Power supply, Power generation and transmission (HVDC), Electroplating,
Welding, Heating, Cooling, Electronic ballast
• Drive applications
• intimately contains moving or rotating components such as motors.
• Examples:
• Electric trains, Electric vehicles, Air-conditioning System, Pumps, Compressor,
Conveyer Belt (Factory automation).
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Application Example
Static Application: DC Power Supply
AC voltage
DIODE
RECTIFIER
FILTER
DC-DC
LOAD
CONVERTER
AC LINE
VOLTAGE
(1F or 3 F )
V
control
(derived from
feedback circuit)
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Application Example
Drive Application: Air-Conditioning System
Power Source
Power
Electronics
Converter
Desired
temperature
Desired
humidity
System
Controller
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Variable speed drive
Motor
Indoor temperature
and humidity
Air
conditioner
Temperature and
humidity
Building
Cooling
Indoor
sensors
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Power Conversion Concept
Vs (Volt)
• Supply from TNB: 50Hz, 240V RMS
(340V peak). Customer need DC
voltage for welding purpose, say.
time
• TNB sine-wave supply gives zero
DC component
• We can use simple half-wave
rectifier. A fixed DC voltage is now
obtained. This is a simple PE
system.
+
Vs
_
Vo
Vdc
time
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Power Conversion Concept
How if customer wants variable DC voltage?
More complex circuit using SCR is required.
vs
ig
ωt
ia
+
vs
_
+
vo
_
Average output voltage :
Vm
1 π
(
)
[1 + cos α ]
Vo =
V
t
d
t
=
sin
ω
ω
m
∫
2π α
2π
vo
ωt
ig
α
ωt
By controlling the firing angle, α, the output DC voltage (after conversion) can be
varied..
Obviously this needs a complicated electronic system to set the firing current
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PE SCR.
Converters
pulses
for
the
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Current Issues
1. Energy Scenario
• Need to reduce dependence on fossil fuel
• coal, natural gas, oil, and nuclear power resource Depletion of these sources is
expected.
• Tap renewable energy resources:
• solar, wind, fuel-cell, ocean-wave
• Energy saving by PE applications. Examples:
• Variable speed compressor air-conditioning system: 30% savings compared to
thermostat-controlled system.
• Lighting using electronics ballast boost efficiency of fluorescent lamp by 20%.
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Current Issues
2. Environment Issues
• Nuclear safety.
• Nuclear plants remain radioactive for thousands of years.
• Burning of fossil fuel
• emits gases such as CO2, CO (oil burning), SO2, NOX (coal burning) etc.
• Creates global warming (green house effect), acid rain and urban pollution from
smokes.
• Possible Solutions by application of PE. Examples:
• Renewable energy resources.
• Centralization of power stations to remote non-urban area. (mitigation).
• Electric vehicles.
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PE Growth
• PE rapid growth due to:
• Advances in power (semiconductor) switches
• Advances in microelectronics (DSP, VLSI, microprocessor/microcontroller,
ASIC)
• New ideas in control algorithms
• Demand for new applications
• PE is an interdisciplinary field:
•
•
•
•
Digital/analogue electronics
Power and energy
Microelectronics
Control system
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• Computer, simulation and software
• Solid-state physics and devices
• Packaging
• Heat transfer
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Types of Converters
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Power Electronic Devices
The Concept
• Power electronic devices:
are the electronic devices that can be directly used in the power
processing circuits to convert or control electric power.
• In broad sense
power electronic devices
• Very often:
Vacuum devices: Mercury arc
rectifier thyratron, etc. .
seldom in use today
Semiconductor devices:
major power electronic devices
since late 1950s
Power electronic devices = Power semiconductor devices
• Major material used in power semiconductor devices
— Silicon
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Power Electronic Devices
The Concept
• Also known as power switches: work-horses
of PE systems.
• Operates in two states:
• Fully on. i.e. switch closed.
• Conducting state
POWER SWITCH
I
Vswitch= 0
Vin
SWITCH ON (fully closed)
I=0
• Fully off , i.e. switch opened.
• Blocking state
Vswitch= Vin
Vin
SWITCH OFF (fully opened)
• Power switch never operates in linear mode.
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Power Electronic Devices
Features
• Need to be controlled
by information electronic circuits.
Very often, drive circuits are necessary to interface between information
circuits and power circuits.
• Dissipated
power
electronic
devices
are necessary.
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loss
usually
larger
special
packaging
than
and
information
heat
sink
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Power Electronic Devices
Power Losses
v
t
i
t
p
On-state
(conduction state)
turningoff
Off-state
(blocking state)
turning
-on
t
(usually very small
and can be neglected)
Total power loss on
= conduction loss + turn-off loss + off-state loss + turn-on loss
a power semiconductor
(on-state loss)
device
Switching loss
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Power Electronic Devices
Configuration of System
Electric isolation:
optical or magnetic
Control circuit (in a broad sense)
Control circuit
Detection
(measurement)
circuit
drive
circuit
Power circuit
(power stage,
main circuit)
Protection circuit is also very often used in power electronic system especially for the
expensive power semiconductors.
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Power Electronic Devices
Terminal
A power electronic
device usually has a
third terminal —
control terminal to
control the states of
the device.
C
A power electronic device must
have at least two terminals
allowing power circuit current
flow through.
G
Drive
Circuit
E
The control signal from drive circuit must be connected between the control
terminal and a fixed power circuit terminal (therefore called common terminal).
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Power Electronic Devices
Classification
Uncontrolled device: diode
(Uncontrollable device)
has only two terminals and can not be controlled by control signal.
The on and off states of the device are determined by the power
circuit.
Half-controlled device: thyristor
(Half-controllable device)
is turned-on by a control signal and turned-off by the power
circuit
Fully-controlled device: Power MOSFET, IGBT,GTO, IGCT (Fullycontrollable device)
The on and off states of the device are controlled by control signals.
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Power Electronic Devices
Introduction to Device Fabrication
1. Oxidation
2. Lithography & Etching
3. Ion Implantation
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4. Annealing & Diffusion
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Power Electronic Devices
Oxidation of Silicon
Quartz tube
Si Wafers
Flow
controller
O N
H O or TCE(trichloroethylene)
2
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Resistance-heated furnace
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Power Electronic Devices
Oxidation of Silicon
Dry Oxidation :
Si + O2 → SiO2
Wet Oxidation :
Si +2H2O → SiO2 + 2H2
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Power Electronic Devices
Lithography
Photo Mask
Water
Photoresist
Wafer
conventional dry lithography
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wet or immersion lithography
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Power Electronic Devices
Lithography
(c) Development
(a) Resist Coating
Positive resist
Photoresist
Si
Oxide
(b) Exposure
Si
Deep Ultraviolet Light
Optical
Lens system
Si
(d) Etching and Resist Strip
Photomask with
opaque and
clear patterns
Si
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Negative resist
Si
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Power Electronic Devices
Isotropic etching (wet)
Etching
Anisotropic etching (dry)
photoresist
SiO
SiO
photoresist
SiO
2
2
(1)
(1)
photoresist
photoresist
SiO
2
2
(2)
SiO
2
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(2)
SiO
2
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Power Electronic Devices
Etching
Scanning electron microscope view of a plasma-etched 0.16 mm
pattern in polycrystalline silicon film.
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Power Electronic Devices
Doping
Dopant ions
•
•
•
•
The dominant doping method
Excellent control of dose (cm-2)
Good control of implant depth with energy (KeV to MeV)
Repairing crystal damage and dopant activation requires annealing, which
can cause dopant diffusion and loss of depth control.
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Power Electronic Devices
Sputtering
Sputtering target
Atoms sputtered out of the target
Ion (Ar +)
YY
Y
YY
YYYYY YY
Y YY
YYYYYYYY
YYYYYYYY
YYYYYY YYYY YYYYYY
YYYYYYYY
YYYYYY YYYYYYYYYYYY
YYYYYY YY YYYYYY YYYYYYYYYYYY YY
Y
YYYY
YYYYY
YYYYYYY YYYYYYY
YY
YYY Y
YYYYYY YYYYYYY
YY
YYYY Y YYYYYYY
YYYYYYY YYYYY
YYY YYYYYY
Y
YY
Target material
deposited on wafer
Si Wafer
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Slide 3-30
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Power Electronic Devices
Summary – A Device Fabrication
Arsenic implantation
P-Si
(0)
Si Wafer
(4)
SiO2
P-Si
SiO2
(1)
P-Si
Oxidation
(5)
SiO2
UV
UV
(2)
(6)
M ask
Lithography
SiO 2
P-Si
N
Al
SiO2
SiO2
N+
Ion
Implantation
Annealing &
Diffusion
P
Al
Sputtering
P
Positive resist
SiO2
SiO2
SiO2
+
UVUV
P-Si
(3)
Etching
SiO2
M as k
SiO2
(7)
Res is t
Al
SiO2
N+
SiO2
Al
Lithography
P
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Slide 3-31
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Power Electronic Devices
Summary – A Device Fabrication
Metal
etching
(8)
S iO2
N+
S iO2
Al
Si3 N4
(12)
P
(9)
CVD nitride
deposition
(10)
Lithography
and etching
Si3 N4
SiO2
N
Al
SiO 2
N+
P
Al
SiO2
P
Si3 N4
SiO2
wire
Al
N+
SiO2
P
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SiO2
P
Al
N+
Al
SiO2
N
Photoresist
SiO2
Si3N 4
(13)
+
P
Si3 N4
Back side
metallization
Au
+
(11)
Back Side
milling
SiO2
SiO 2
Au
Plastic package
metal leads
Dicing, wire bonding,
and packaging
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