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Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
Key Trends Shaping the Future of Infrastructure.pdf
7 trans
1. JUNCTION TRANSISTOR : COMMON EMITTER
CHARACTERISTICS
RAVITEJ UPPU
1. Aim
1. Connect NPN common emitter transistor circuit to determine experimentally
and plot the family of collector( VCE (potential between the collector and emitter
ends of transistor) vs Ic (collector current)) characteristic curves for the Common
Emitter configuration.
2. To measure the effects on IC on varying IB(base current).
3. To determine beta (β)(current gain in common emitter).
2. Theory
First, let try to describe a Junction Transistor. It is a three-terminal device con-
structed of doped semiconductor material.Junction transistor’s operation involves
both electrons and holes.Although a small part of the transistor current is due
to the flow of majority carriers, most of the transistor current is due to the flow
of minority carriers and so Junction Transistors are classified as ’minority-carrier’
devices.
An NPN transistor can be considered as two diodes with a shared anode region.
In typical operation, the emitterbase junction is forward biased and the basecollec-
tor junction is reverse biased. The electrons in the base are called minority carriers
because the base is doped p-type which would make holes the majority carrier in
the base.The base region of the transistor must be made thin, so that carriers can
diffuse across it in much less time than the semiconductor’s minority carrier life-
time, to minimize the percentage of carriers that recombine before reaching the
collectorbase junction.
The grounded emitter or common emitter configuration is pretty frequently
used.In the case of the common emitter, the input signal is applied between base
and emitter the output taken from the collector to emitter i.e the emitter is com-
mon to both input and output circuits. The current gain in common emitter is
defined as the change in collector current effected by a change in base current with
collector voltage maintained at a constant value i.e β = ∆IC
∆IB
.
1
2. 2 RAVITEJ UPPU
3. Procedure
We connect the circuit as follows :
In the experiment, VBB is 1.5V and VCC is a variable DC supply which we vary
from 0 to 6V Now, we vary VCC and measure IC for a fixed value of IB. Tabulate
VCE and IC. Now vary IB and repeat the same steps. Take such readings for
about 5 values of IB. From this, we can plot the VCE versus IC curves and we can
also calculate the β, the current gain, by finding the difference between the base
current and Collector current for a fixed VCE.These can also be tabulated/
4. Observations and Results
VC Collector Voltage (V ) Ic Collector Current (µA) VC (V ) IC (µA)
IB = 0µA IB = 30µA
0 0 0 0
0.95 1 0.03 538
2.05 2 0.05 872
2.88 3 0.11 2037
3.81 4 0.21 2343
4.88 5 0.46 2464
5.81 6 1.02 2513
6.43 7 2.88 2669
3.81 2751
5.81 2942
6.00 2999
IB = 10µA IB = 40µA
0 0 0 0
0.02 98
0.03 133
0.05 196 0.05 1455
0.11 267 0.11 3200
0.21 280 0.21 4800
0.46 282 0.46 4900
1.02 285 1.02 5100
2.23 290 2.88 5500
3.81 296 3.81 5800
5.81 302 5.81 6500
6.00 304 6.00 6600
3. JUNCTION TRANSISTOR : COMMON EMITTER CHARACTERISTICS 3
IB = 20µA IB = 50µA
0 0 0 0
0.01 30 0.03 958
0.05 551 0.05 2086
0.11 1024 0.11 5300
0.21 1160 0.21 7000
0.46 1176 0.46 7200
1.02 1188 1.02 7400
2.88 1244 2.88 8200
3.81 1267 3.81 8700
5.81 1321 5.81 9900
6.00 1333 6.00 10400
The graph of the above data with VC versus Ic looks like
The curves rises very steeply to a higher value of IC for higher IB.
Now, let us try to find β, the current gain at VC = 3.81V .
S.No ∆IB(reference IB = 10µA) ∆IC µA β
1 10 971 97.1
2 20 2455 122.75
3 30 5504 183.47
4 40 8404 210.10
4. 4 RAVITEJ UPPU
The plot looks like this for the base current versus collector current at V = 3.81V
So the range of β for this voltage is as given in the previous table and is depicted
in the graph below