Transcript Physics of Bipolar Junction Transistor Overview Structure and Circuit Symbol (collects charge carriers) (controls the carriers that make the journey from E to C) (emits charge.

Physics of Bipolar Junction
Transistor
Overview
Structure and Circuit Symbol
(collects charge carriers)
(controls the carriers
that make the journey
from E to C)
(emits charge carriers)
Two PN junctions (BE and BC)
C and E cannot be swapped.
A Bipolar Transistor in the
Active Region
VBE=0.8 V
VBC=-0.2 V
BE Junction: Forward Bias
BC Junction: Reverse Bias
Over Simplified View of BJT
In the Active Region
Review: Forward Bias Diode
Depletion region shrinks due to charges from the battery.
The electric field is weaker.
Majority carrier can cross via diffusion;
Greater diffusion current.
Current flows from P side to N side
Review: Forward Bias Diode
Equilibrium
Forward Biased Diode
Majority carriers cross the junction via diffusion.
Minority carriers increased on both sides of the junction.
Review: PN Junction under
Reverse Bias
Reverse: Connect
the + terminal to the
n side.
Depletion region widens.
Therefore, stronger E.
E
Minority carrier to cross
the PN junction easily
through diffusion.
Current is composed
mostly of drift current contributed
by minority carriers.
np to the left and pn to the right.
Current from n side to p side,
the current is negative.
Injection of Electrons into
Depletion Region
Into depletion region on the p side.
Outcome: The electron is swept
to the n side by E.
An Overview
Electrons are injected
into the B; holes to the E.
Electrons
are injected
into the BC junction
Electrons
are swept across
the reversed biased BC
Thin Base Region
The base region is made thin in order to reduce recombination
as electrons travel from BE junction to BC junction.
Highly Doped Emitter
In order to emphasize the current contribution
due to the electrons (which can cross the BC junction),
the emitter is heavily doped by N type materials.
Electrons in the Base
Electrons injected into
the base; high electron
density at x1.
Electrons are swept
Into the collector;
low electron density at x2
The electron gradient allows electrons to travel through diffusion.
BJT Current
Assumption:
BEJ: Forward Biased
BCJ: Reverse Biased
Emitter Area
Determine the Output
Voltage
Base Current
The proportional of hole current and electron current
is determined by dopants (ND and NA).
Even though the presence of holes are minimized, a small
number holes still must enter through the base.
Recombination
Recombination
Base must supply holes that will enter the emitter and
for recombination with the electrons.
KCL