Experiment No: 6
Interpret
the Data Sheets of discrete components and IC’s
Aim:
a)Study of Resistor Data
Sheet and list out ratings of voltage, current, temperature, power etc..
b)Study of Capacitor Data
Sheet and list out ratings of voltage, current, temperature, power etc..
c) Study of Inductor Data
Sheet and list out ratings of voltage, current, temperature, power etc..
d)Study of 1N4001-1N4007
diode Data Sheet and list out ratings of voltage, current, temperature, power etc..
e)Study of Transistor Data
Sheet and list out ratings of voltage, current, temperature, power etc..
f)Study of the IC-741 Data
Sheet and list out the features, applications, packages, pin descriptions etc..
g)Study of the IC-555 Data
Sheet and list out the features, applications, packages, pin descriptions etc..
h)Study of the Voltage
Regulators IC-723 Data Sheet and list out the features, applications, packages,
pin descriptions etc.
i)Study of the IC-7805 Data
Sheet and list out the features, applications, packages, pin descriptions etc..
j)Study of the IC-7905 Data
Sheet and list out the features, applications, packages, pin descriptions etc..
Required of:
Required of:
1. Data Sheets of Resistors, Capacitors, Inductors,
Diodes, and Transistors.
2. Data Sheets of IC-741, IC-555, Voltage Regulators
IC-723, IC-7805, IC-7905
Procedure:
Part
1:
1. Study the Data Sheets of each discrete component.
2. Note down the maximum and minimum values of current, voltage,
resistance etc.
3. Observe and list out the ratings of temperature range, voltage
range, capacitance range etc.
4. Observe the graph between Inductance and Current
5. Study and observe the maximum ratings, thermal characteristics, electrical
characteristics and typical characteristics of each diode.
6. The ratings
of each discrete component are tabulated.
Part 2:
1. Study the Data Sheets of each IC.
2. Study and observe the electrical characteristics of each IC
3. Study and list out the
applications of each IC
Tabular forms:
Observations
from the Data Sheets:
Absolute
Maximum Ratings and Electrical Characteristics
S.No
|
Parameter
|
DIODE VALUE
|
||||||
4001
|
4002
|
4003
|
4004
|
4005
|
4006
|
4007
|
||
|
|
Peak Repetitive
Reverse Voltage
|
|||||||
|
|
Average Rectified Forward
Current, .375 " lead length @ TA = 75°C
|
|||||||
|
|
Non-repetitive Peak Forward
Surge
Current
8.3 ms Single
Half-Sine-Wave
|
|||||||
|
|
Storage
Temperature Range
|
|||||||
|
|
Operating
Junction Temperature
|
|||||||
|
|
Forward Voltage
@ 1.0 A
|
|||||||
|
|
Maximum Full Load Reverse
Current, Full
Cycle TA = 75°C
|
|||||||
|
|
Total Capacitance
VR = 4.0 V, f = 1.0 MHz
|
|||||||
Thermal
Characteristics:
S.No
|
Parameter
|
Value
|
Units
|
1
|
Power
Dissipation
|
||
2
|
Thermal
Resistance, Junction to Ambient
|
Inductors
S NO
|
Part Number
|
Inductance
(uH +/- 20%)
|
Rated DC component
|
DC Resistance
|
|||||
mOhm
|
mOhm
|
||||||||
I = 0
|
1/2(I max)
|
Imax
|
|||||||
Absolute
Maximum Ratings for Transistor:
S.No
|
Parameter
|
Transistor
name
|
Units
|
|||
BC107
|
BC108
|
BC109
|
||||
|
|
Collector-Base
Voltage VCBO
|
V
|
||||
|
|
Collector-Emitter
Voltage VCEO
|
V
|
||||
|
|
Emitter-Base
Voltage VEBO
|
V
|
||||
|
|
Continuous Collector
Current IC
|
mA
|
||||
|
|
Power
Dissipation PD
|
mW
|
||||
|
|
Operating and
Storage Junction Temperature TJ, Tstg
|
oC
|
||||
|
|
Thermal
Resistance JC
|
oC/w
|
||||
Absolute
Maximum Ratings for LM7905C:
S.No
|
Parameter
|
Value
|
Power
Dissipation
|
||
Operating
Junction Temperature Range
|
||
Storage
Temperature Range
|
||
Lead Temperature
(Soldering, 10 sec.)
|
||
Input Voltage
|
||
(Voe
b5V)
|
||
(Voe
b12V and b15V)
|
||
Input-Output
Differential
|
Absolute
Maximum Ratings for LM7805C
S.No
|
Parameter
|
LM 7805
|
|
|
Input voltage,
VI
|
|
|
|
High Power-Dissipation Capability
|
|
|
|
Output Current
|
|
|
|
Operating
virtual junction temperature, TJ
|
|
|
|
Lead temperature
1,6 mm (1/16 inch) from case for 10 seconds
|
Precautions:
Outcomes:
Results:
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