Basics of Electrical & Electronics Engineering
Previous year question paper with solutions for Basics of Electrical & Electronics Engineering from 2011 to 2013
Our website provides solved previous year question paper for Basics of Electrical & Electronics Engineering from 2011 to 2013. Doing preparation from the previous year question paper helps you to get good marks in exams. From our BEEE question paper bank, students can download solved previous year question paper. The solutions to these previous year question paper are very easy to understand.
1 Application and Advantages of Electricity: (4hrs)
1.1 Difference between AC and DC
1.2 Various applications of electricity.
1.3 Advantages of electrical energy over other types of energy.
2 Quantities of Electricity and Power factor: (8hrs)
2.1 Concept of voltage, current, power (True, Apparent and Reactive
Power), electrical energy and power factor and their units.
2.2 Instruments used for the measurements of voltage, current, power
energy and power factor in an electric circuit and their connections
to measure these electrical quantities.
2.3 Power factor ( unity,laggingand and leading),its practical importance
and improvement.
3 Introduction to Generation, Transmission and Distribution of Electrical
Power. (10hrs)
3.1 Basic idea of single phase and three phase voltage generation.
3.2 Single line representation for primary and secondary transmission
and distribution system showing its practical working voltage.
3.3 Three phase star- delta connection, voltage and current relationship
(no derivation) (Simple Problems)
3.4 Identification of three phase wires, neutral and the earth wire of low
voltage distribution system.
3.5 Practical line voltage and phase voltage used in low voltage
distribution system. ( Voltage between any two phases and any
phase to neutral).
3.6 Arrangement of supply system from pole to the distribution board.
3.7 Function of service line, fuses or MCB ,energy meter, main
switch, distribution board and sub-distribution board.
44
4 Electric Installation (10hrs)
4.1 Distinction between circuits and sub circuit.
4.2 Distinction between light points and power points (light, fan circuits
and power circuit.)
4.3 Method of wiring (loop in system) universally employed for lighting
circuit. Simple circuit exercise
4.4 Method of counting light and power points of domestic installation.
4.5 Calculation of load current for single phase and three phase load.
(Simple Problems)
4.6 Introduction of different wiring systems and various accessories
used.
4.7 Purpose of earthing.
5. Batteries (6hrs)
5.1 Basic idea about primary and secondary cells.
5.2 Charging methods used for lead acid accumulator.
5.3 Testing of battery under charging and discharging condition.
5.4 Maintenance of the battery.
5.5 Rating of the battery.
6. Introduction to Semiconductor (6 hrs)
6.1 Atomic structure, Energy band theory , classification based on
energy band i.e. Insulator, semiconductor and conductor, concept of
electron hole pairs. Crystal structure of Silicon and Germanium.
6.2 Concept of Doping, intrinsic and extrinsic semiconductors, Effect of
temperature on intrinsic and extrinsic semiconductors.
7. Semiconductor Diodes (12 hrs)
7.1 PN Junction, drift and diffusion currents, depletion layer, potential
barrier, effect of forward and reverse biasing in a PN junction.
Concept of junction capacitance in forward and reverse biased
conditions. Breakdown mechanism, Diode ratings/specifications.
7.2 Ideal diode, Semiconductor diode characteristics, static and dynamic
resistance.
7.3 Use of diode as half wave and full wave rectifiers (centre tap and
bridge type), relation between DC output and AC input voltage,
rectifier efficiency (No derivation).
7.4 Applications of Rectifiers.
7.5 Introduction to filter circuits in rectifier.
7.6 Special purpose diodes such as zener diode, light emitting diode,
their working, characteristics and applications
8. Bi-polar Transistors (8 hrs)
8.1 Concept of junction transistor, PNP and NPN transistors, their symbols
and mechanism of current flow.
8.2 Transistor configurations: common base (CB), common emitter (CE)
and common collector (CC),current relation and their input/output
characteristics; comparison of the three configurations
PTU
PU
- BCOM |
- BA/BSC |
- BCA |
- MA |
- PGDCA |
- MCOM |
- MSC-Math |
- Addon |
- BBA |
- B-ARCH |
- B-LIB |
- B-EDU |
- B-PHAR |
- BA-HONS-ECON |
- BA-HONS-SS |
- BE |
- MA-Punjabi |
- MA-English |
- MA-History |
- MCA |
- MBA |
- MBA-CIT |
- MBA-Executive |
- MCOM-AF |
- MCOM-BE |
- MCOM-BI |
- MCOM-MEFB |
- BSC-Agri |
- BSC-FD |
- BSC-HS |
- ME-CSE |
- ME-IT |
- ME-ME |
- ME-ECE |
- MSC-Chemistry |
- MSC-Physics |
- MSC-Botany |
- MSC-Zoology |
- MA-Economics |
- MA-Hindi |
- LLB |
- BPED |
- LLM |
- BFA |
- B. Voc |
- BHM |
- BTM |
- M. Arch |
- M. Pharm |
- MFA |
- MTM |
- MHM |
- M.ED |
- M-Lib |
- MPED |
- MFDM |
- MGL |
- Shastri |
- M.TECH |
- ME-CHEMICAL |
- ME-FT |
- ME-ELECTRIC |
- M.TECH-ME |
- M.TECH-NN |
- M.E-BIO |
PU-PATIALA
- BCA |
- BBA |
- MBA |
- MCOM |
- BCOM |
- BCOM-HONS |
- BSC-NM |
- BA |
- B.EDU |
- BSC-AGRI |
- BA-B.EDU |
- BLIB |
- MSC-IT |
- PGDCA |
- MSC-MB |
- MSC-physics |
- BA-ENGLISH |
- MA-Punjabi |
- MSC-chemistry |
- MSC-maths |
- BSC-Medical |
- MSC-FDT |
- MSC-FN |
- MSC-BT |
- BSC-Hons-BT |
- BSC-CS |
- BSC-Hons-Math |
- BSC-CSM |
- BSC-FT |
HPTSB
- Diploma |