Electronics
B.Sc.I
v Course outcomes of Network Theorems &
Semi conductor Devices.
CO1. Explain the function of different active
and passive components & Derivation of
different electronics Theorems &
their equivalent circuits.
CO2. Explain the operation
of different types of diodes.
CO3. Describe
the working of Transistor, JFET & MOSFET. Explain the operation of different configurations & parameters of the transistor.
CO4.
Explain the working of different types of rectifiers and regulated power
supplies.
v Course outcomes of Digital Electronics- I
CO5. Explain Decimal number system, Binary
number system, Hexadecimal number system and their interconversions. Solve
Binary arithmetic examples. Explain different types of codes and their
interconversion with decimal number system.
CO6. Explain the working of
different logic gates.
CO7. Describe rules & laws of Boolean algebra
& different forms of Boolean
expressions. Simplifications of Boolean
expressions using K-map.
CO8. Explain working of different types of adders,
subtractors, encoder, decoder, Mux & DeMux
v Course outcomes of Digital Electronics-II
CO9. Explain the operation, Truth table & symbols
of different types of flip flops
CO10.
Describe the operation of different types of counters.
CO11.
Explain the working of different types of shift registers.
CO12.
Describe the working of different types of memories.
CO13.
Explain the operation of different types of D to A & A to D converters.
v Course outcomes of Amplifiers.
CO14.
Describe the methods of different types of biasing of transistor for amplifier.
CO15.
Explain the working of different types of BJT & FET Amplifiers.
CO16.
Explain different types of feedback amplifiers
CO17.
Describe the different types of multistage amplifiers.
·
Three theory
periods per paper per week per semester
·
Three practical
periods per batch per week per semester
B.Sc.II
v Course outcomes of 8086
Microprocessor.
CO1. Explain pin diagram, architecture & minimum
and maximum modes of 8086 system.
CO2. Describe different types of Instructions of
8086 microprocessor.
CO3. Write different types of assembly language
programs of 8086 system.
v Course outcomes of Linear
Integrated circuits.
CO4.Explain
basic operation of Op- Amp and define different Op-Amp Parameters.
CO5. Describe different amplifications of Op-Amp
CO6.Explain
pin function of timer I.C. & explain its applications as Astable and Monostable
multivibrater.
v Course outcomes of 8086 microprocessor Interfacing
CO7. Describe the different types of memory interfacing
with 8086 system.
CO8. Explain pin function, architecture of
programmable Input- output IC 8255. Explain its interfacing with 8086 systems.
CO9. Describe pin diagram of communication interface
IC 8251 and its interfacing with 8086 system.
CO10. Explain
the pin function and architedure of programmable internal timer IC 8253.
Explain its interfacing with 8086 system.
v Course outcomes of Communication Electronics.
CO11. Explain
different types of modulations in communication electronics.
CO12. Explain the process of modulation and
detection in communication
electronics.
CO12. Explain
different types of transmissions in Digital communication.
·
Three theory
periods per paper per week per semester
·
Six practical
periods per batch per week per semester
B.Sc.III
v Course outcomes of
microcontroller-I
CO1. It provides introduction of microcontroller,
difference between microprocessor & microcontrollers, selection criteria of
microcontrollers.
CO2. Describe addressing modes and Instruction set
of 8051 microcontroller.
CO3. Explain
different Interrupts and different modes of timers and serial communications
CO4. Describe basic functional 89C51 & 89C2051
microcontroller & the application of MCS. 51 microcontrollers.
v Course outcomes of power
Electronics
CO5. Explain
basic functions of SCR, UIT, DIAC, TRAIC & IGBT.
CO6. Describe the operation of proximity and optical
sensors.
CO7. Explain the internal electronic circuitry and
control parameters of DC variable speed drive.
CO8. Describe the converter, intermediate and
inverter circuitry of AC drive including control parameters & adjustments.
v Course outcomes of
microcontroller II
CO9. Write assembly language programs of timers operated
in different modes & ALP of counter
CO10. Describe
basis of serial communication & Assembly language program of serial port in
different modes.
CO11. Explain ALP of Timer Interrupt programming.
CO12. Explain Interfacing of 8051 microcontroller i.e. LCD interfacing, Key board interfacing, ADC
& DAC interfacing & sensor interfacing.
v Course outcomes
of Instrumentation
CO13: Describe
performance characteristics and types of errors.
CO14. Describe the
operations of different types of display, recorders & recordings.
CO15. Explain
different types of Transducers.
·
Three theory
periods per paper per week per semester
·
Six practical
periods per batch per week per semester
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