Silicon control rectifier
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Dec 05, 2014
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About This Presentation
silicon control rectifier
Slide Content
Welcome to our Presentation
12/05/14
12/05/14
Prepared by
1. Emran Hossain ID# 10105020
2. MD. Rimon Miha ID# 10105074
3. MD. Monimul Haque ID# 10305036
4. MD. Salauddin Babu ID# 12105057
5. Ruhul Amin ID# 12105114
IUBAT-International University of Business Agriculture
and Technology
Presentation on
Silicon Control Rectifier
(SCR)
12/05/14
1. Emran Hossain ID# 10105020
2. MD. Rimon Miha ID# 10105074
3. MD. Monimul Haque ID# 10305036
4. MD. Salauddin Babu ID# 12105057
5. Ruhul Amin ID# 12105114
IUBAT-International University of Business Agriculture
and Technology
Presentation on
Silicon Control Rectifier
(SCR)
12/05/14
Contents
Introduction
What is a SCR?
Basic SCR
How does SCR work?
Characteristics curve of SCR
Importance of SCR
Conclusion
12/05/14
Introduction
What is a SCR?
Basic SCR
How does SCR work?
Characteristics curve of SCR
Importance of SCR
Conclusion
12/05/14
Introduction
The silicon-controlled rectifier(SCR) which is a power
electronic device is unquestionable of the greatest
interest today. It was first introduced in 1956 by Bell
Telephone Laboratories. It can convert alternating
current into direct current and at the same time can
control the amount of power fed to the load. Thus it
combines the features of a rectifier and a transistor.
12/05/14
The silicon-controlled rectifier(SCR) which is a power
electronic device is unquestionable of the greatest
interest today. It was first introduced in 1956 by Bell
Telephone Laboratories. It can convert alternating
current into direct current and at the same time can
control the amount of power fed to the load. Thus it
combines the features of a rectifier and a transistor.
12/05/14
What is a silicon control rectifier?
A Silicon Controlled Rectifier (SCR) is a four layer solid
state device that controls current flow. SCR is a three terminal
device.
The terminals are:
Gate (G)
Anode (A)
Cathode (K)
Two main uses of SCR are:
Switching
Amplification
12/05/14
A Silicon Controlled Rectifier (SCR) is a four layer solid
state device that controls current flow. SCR is a three terminal
device.
The terminals are:
Gate (G)
Anode (A)
Cathode (K)
Two main uses of SCR are:
Switching
Amplification
12/05/14
Basic SCR structure
The SCR consists of a four layer p-n-p-n structure
with the outer layers are referred to as the anode (p-
type) and cathode (n-type). The control terminal of
the SCR is named the gate and it is connected to the
p-type layer located next to the cathode.
The three junctions are normally denoted as J
1
, J
2
,
and J
3. They are numbered serially with J
1 being
nearest to the anode.
12/05/14
The SCR consists of a four layer p-n-p-n structure
with the outer layers are referred to as the anode (p-
type) and cathode (n-type). The control terminal of
the SCR is named the gate and it is connected to the
p-type layer located next to the cathode.
The three junctions are normally denoted as J
1
, J
2
,
and J
3. They are numbered serially with J
1 being
nearest to the anode.
12/05/14
Basic SCR
Basic SCR connection 12/05/14
Basic SCR connection 12/05/14
How does SCR work?
Load is connected in series with anode.
The anode is always kept at a higher potential than
the cathode.
The working of SCR is to be studied under two different
conditions:
1.When Gate (G) is open
2.When Gate (G) is positive with respect to Cathode (K)
12/05/14
Load is connected in series with anode.
The anode is always kept at a higher potential than
the cathode.
The working of SCR is to be studied under two different
conditions:
1.When Gate (G) is open
2.When Gate (G) is positive with respect to Cathode (K)
12/05/14
-When Gate is Open
no voltage to the gate. J
2
is reverse biased while J
1
& J
3
are
forward biased. reverse bias, no current will flow through the
device => SCR is cut-off.
Fig: SCR with gate open
12/05/14
no voltage to the gate. J
2
is reverse biased while J
1
& J
3
are
forward biased. reverse bias, no current will flow through the
device => SCR is cut-off.
Fig: SCR with gate open
12/05/14
When Gate is positive with respect to cathode
•J3 is forward biased, J2 is reverse biased.
•Electrons from n-type material start moving across J3 towards left
•Similarly, holes move from p-type material towards the right.
•Eventually, the electrons that moved across J3 are now attracted
across J2. This initiates the Gate current and the J2 is now
conducting .
Fig: applying gate voltage 12/05/14
•J3 is forward biased, J2 is reverse biased.
•Electrons from n-type material start moving across J3 towards left
•Similarly, holes move from p-type material towards the right.
•Eventually, the electrons that moved across J3 are now attracted
across J2. This initiates the Gate current and the J2 is now
conducting .
Fig: applying gate voltage 12/05/14
Characteristics curve
12/05/14
12/05/14
The SCR has three basic states:
1. Forward blocking mode or off state: In this mode
or state the SCR operation is such that it blocks
forward current conduction that would normally be
carried by a forward biased diode.
2. Forward conduction mode or on state: In this
mode the SCR has reached into conduction.
3. Reverse blocking mode or off state: In this mode
or state the SCR blocks the current in the same way as
that of a reverse biased diode.
12/05/14
1. Forward blocking mode or off state: In this mode
or state the SCR operation is such that it blocks
forward current conduction that would normally be
carried by a forward biased diode.
2. Forward conduction mode or on state: In this
mode the SCR has reached into conduction.
3. Reverse blocking mode or off state: In this mode
or state the SCR blocks the current in the same way as
that of a reverse biased diode.
12/05/14
Importance of SCR
It has small size and gives trouble free
service
Reliable fast action and light weight
no mechanical part , noiseless operation
12/05/14
It has small size and gives trouble free
service
Reliable fast action and light weight
no mechanical part , noiseless operation
12/05/14
12/05/14
Application for SCRs:
1. Rectification ,
2. Regulated power suppliers,
3. Static switches ,
4. Motor speed controls and,
5. Battery charger and heater controls, etc.
Application for SCRs:
1. Rectification ,
2. Regulated power suppliers,
3. Static switches ,
4. Motor speed controls and,
5. Battery charger and heater controls, etc.
Conclusion
Finally , Silicon control rectifier (SCR) are widely used in
many areas of electronics. SCR circuits can be used for
many power applications as these electronics
components are able to switch high currents very easily.
In addition, these electronics components are very
cheap and they are widely available.
12/05/14
Finally , Silicon control rectifier (SCR) are widely used in
many areas of electronics. SCR circuits can be used for
many power applications as these electronics
components are able to switch high currents very easily.
In addition, these electronics components are very
cheap and they are widely available.
12/05/14
Thank You
Query ?
12/05/14
Query ?
12/05/14
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