#1
14th April 2015, 02:01 PM
| |||
| |||
CSVTU diploma syllabus
My self Ankit, and I want to do diploma from Chhattisgarh Swami Vivekanand Technical University but firstly I want to know about its syllabus… so would you please provide me diploma syllabus of Chhattisgarh Swami Vivekanand Technical University???
|
#2
14th August 2018, 10:03 AM
| |||
| |||
Re: CSVTU diploma syllabus
Can you provide me the syllabus of Semester III of Diploma in Electrical Engineering offered by CSVTU (Chhattisgarh Swami Vivekanand Technical University)?
|
#3
14th August 2018, 10:04 AM
| |||
| |||
Re: CSVTU diploma syllabus
The syllabus of Semester III of Diploma in Electrical Engineering offered by CSVTU (Chhattisgarh Swami Vivekanand Technical University) is as follows: 1. SEMESTER : III 2. SUBJECT TITLE : ELEMENTS OF ELECTRICAL . 3. ENGINEERINGCODE : 224311 (24) 4.BRANCH DISCIPLINE : ELECTRICAL ENGINEERING Chapter 1 Basic Concepts of Electrical Engineering Concept of current (D.C./A.C.) Concept of voltage (D.C. /A.C.) - E.M.F. - Potential difference - Terminal voltage. Concept of Resistance. - Properties. - Classification of resistors based on ohmic value & material. - Practical application of above types of resistors. - Use of a rheostat in laboratory. Concept of conductor, insulator, semiconductor. Chapter 2 Electrical Materials Conducting materials & properties. Insulating materials & properties. Magnetic materials & properties. Semi Conduction materials & properties. Chapter 3 Capacitors Concept of capacitor formation, expression for capacitance. Energy stored in capacitor. Dielectric loss. Dielectric materials used in capacitors, types of capacitors. Effect of dielectric media on capacitance. - Electric field strength - Electric flux density. - Permittivity. Expression for capacitance of parallel plate capacitor. Series & parallel combination of capacitors. Charging and discharging of capacitors (no derivation, only numericals) Concept of inter-turn capacitance, line capacitance, capacitance in cables, overhead transmission & distribution lines A.C./D.C. capacitors and applications. Chapter 4 Inductors Different types of inductors Construction. Rise and decay of current in an inductor (No derivation, only numericals) Energy stored in inductor (No derivation, only numericals) Inductance in A.C. and D.C. circuits. Chapter 5 Magnetic Circuits Concept of magnetic flux. Concept of electromagnetism. - Magnetomotive force. - Magnetic field strength - Permeability. - Reluctance. Magnetic leakage, leakage coefficient. Magnetic circuits - Uniform magnetic circuits. - Series & parallel circuits. Comparison of electric & magnetic circuits. Chapter 6 Electromagnetic Induction Review of Faradays laws of electromagnetic induction. Induced E M.Fs. Flemings R.H. rule; direction of induced E.M.F. Concept of self and mutual inductances. Expression for self and mutual inductances. - Application of Faradays laws. Interaction between two or more magnetic field. Force on a current carrying conductor placed in a magnetic field. Flemings L.H. rule. Numericals on above. Syllabus Semester III Diploma in Electrical Engineering offered by CSVTU csvtu.ac.in/ew/diploma/electrical-syllabus/# |