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Pnpn DEVICES

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Time-delay circuits, regulated power suppliers, static switches,motor controls ... Failure to dissipate this energy is perhaps one of the main sources of SCR failure. ... – PowerPoint PPT presentation

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Title: Pnpn DEVICES


1
Pnpn DEVICES
  • silicon-controlled rectifier
  • By
  • Franco A. Catajoy

2
Introduction
  • The two- layer semiconductor diode has to three,
    four, and even five-layer devices. A family of
    four layer pnpn devices will first be
    considered.
  • SCR (Silicon-controlled rectifier)
  • SCS (Silicon-controlled switch )
  • GTO (Gate turn-off switch)
  • LASCR (Light-activated SCR)
  • UJT (Unijunction transistor)

3
Silicon-controlled rectifier
Within the pnpn devices, the silicon-controlled
rectifier(SCR) is unquestionable of the greatest
interest today. It was first introduced in 1956
by Bell Telephone Laboratories.
  • Common areas of application for SCRs
  • Time-delay circuits, regulated power
    suppliers, static switches,motor controls
    choppers, battery charger and heater controls.
    Etch..

4
In recent years, SCRs have been designed to
control powers high as 10 Mw with individual
ratings as high as 2000 A AT 1800 V.
  • Basically, an SCR power controller consists of
    the following
  • semiconductor power devices (SCR's and Diodes)
  • a control circuit normally referred to as the
    firing circuit
  • a means to dissipate the heat generated from the
    semiconductor devices
  • protective circuits (fuses and transient
    suppressors).

5
The SCRs
  •    The heart of the SCR power controller is the
    SCR (silicon controlled rectifier, also sometimes
    referred to as a thyristor).    The SCR has two
    states, ON or OFF, and it allows current to flow
    in only one direction.
  • Is constructed of silicon material with third
    terminal for control

Why Silicon?
  • high temperature
  • high power capabilities

6
basic scr operation
- is different from the fundamental two-layer
semiconductor diode in that terminal, called a
gate, determines when the rectifier switches from
the open circuit state. it is not enough to
simply forward-bias the anode to cathode region
of the device.
-In the conducting region, the dynamic resistance
of the SCR is 0.01 to 0.1ohms and the reverse
resistance is 100 kohms or more.
7
Graphic symbol of SCR
Anode must be positive with respect to the
cathode.
I gt
Gate
I A
A pulse of sufficient magnitude must be also be
applied to the gate to establish a turn-on gate
current, represented symbol by I gt
anode
cathode
FIG. 21.1 A
anode

p
n
n
p
Basic operation of an SCR
gate
cathode
FIG.21.1B
8
Splitting is the best operation for the
four-layer pnpn structure FIG.21.1B into
three-layer transistor structure as shown in this
figure 21.2a then considering the resultant
circuit of FIG.21.2B
anode
pnp
I gt
anode
gate
npn

p
n
n
p
- cathode
cathode
gate
FIG.21.2A
9
In FIG.21.2 is an npn devices while the other is
an pnp transistor.
  • SCR has two states
  • off states
  • - SCR's can remain in the off state
    even though the applied potential may be several
    thousand volts.
  • on states
  • - they can pass several thousand
    amperes. When a small signal is applied between
    the gate and cathode terminals, the SCR will
    begin conducting within 3 microseconds. Once
    turned on, it will remain on until the current
    through it is reduced to a very low value, called
    the holding current.

10
Because the SCR allows current to flow in only
one direction, two SCR's are connected in an
inverse parallel configuration to control AC
current.
AC 'BACK TO BACK' SWITCH
11
  • If we ground both the cathode and the gate, and
    apply a positive voltage to the anode, no current
    will flow through this device. This is in keeping
    with the basic four-layer diode. In this case,
    however, we will not allow the applied anode
    voltage to exceed the SCR breakover voltage.
    Thus, if nothing happens, the SCR will remain
    turned off indefinitely.
  • However, if we now apply a small positive
    voltage to the gate lead sufficiently to forward
    bias the cathode junction, the device will
    immediately turn fully on. Again, this is in
    keeping with the behavior of the basic four-layer
    diode. The difference is that we can accurately
    control the timing and the applied gate voltage,
    if necessary. Thus, we can determine the
    conditions under which the SCR will fire more
    accurately than we can for the basic four-layer
    diode.

12
  • Three SCR construction styles are available
  • the disc (a.k.a. hockey puck)
  • - The hockey puck style is an assembly that has
    essentially the same physical shape as a hockey
    puck. The construction provides excellent cooling
    of the semiconductor material and is generally
    used in higher current applications.
  • the module
  • - SCR modules are assemblies in which the SCR's
    are contained in a plastic enclosure with an
    electrically isolated mounting plate. SCR modules
    are becoming increasingly popular and modules
    containing a variety of SCR configurations are
    available. They are easy and inexpensive to mount
    to a heat sink, they typically have large surge
    current ratings and they provide electrical
    isolation, allowing multiple modules to be
    mounted on a common heat sink.

13
  • stud mount
  • Modern SCR controllers generally use hockey puck
    or module construction. HEATSINK
    REQUIREMENTSSCR's emit about 1.5 watts of
    energy in the form of heat, per ampere conducted.
    Failure to dissipate this energy is perhaps one
    of the main sources of SCR failure. The
    reliability of SCR's decreases about 50 for
    every 10C increase of semiconductor temperature.
    Other critical parameters such as the dv/dt (See
    glossary) rating and the blocking voltage rating
    also decrease rapidly with temperature.  

14
  • The heat generated by the SCR must be dissipated,
    thus, all controllers have some means to cool the
    SCR's. Typically an aluminum heatsink, with fins
    to increase the surface area, is used to
    dissipate this energy to air. Controllers with
    relatively small current capacities rely on
    natural convection. Higher current capacity
    controllers use a fan to force air past the fins
    in order to increase heat dissipation.
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