{"id":25550,"date":"2020-07-23T16:28:03","date_gmt":"2020-07-23T16:28:03","guid":{"rendered":"https:\/\/www.inspirenignite.com\/jntuh\/18ec305c-network-analysis-syllabus-for-electronics-communication-engineering-3rd-sem-c18-curriculum-tssbtet\/"},"modified":"2020-07-23T16:28:03","modified_gmt":"2020-07-23T16:28:03","slug":"18ec305c-network-analysis-syllabus-for-electronics-communication-engineering-3rd-sem-c18-curriculum-tssbtet","status":"publish","type":"post","link":"https:\/\/www.inspirenignite.com\/jntuh\/18ec305c-network-analysis-syllabus-for-electronics-communication-engineering-3rd-sem-c18-curriculum-tssbtet\/","title":{"rendered":"18EC-305C: Network Analysis Syllabus for Electronics & Communication Engineering 3rd Sem C18 Curriculum TSSBTET"},"content":{"rendered":"

Network Analysis detailed Syllabus for Electronics & Communication Engineering (DECE), C18 curriculum has been taken from the TSSBTET<\/a> official website and presented for the diploma students. For Course Code, Course Name, Lectures, Tutorial, Practical\/Drawing, Internal Marks, Max Marks, Total Marks, Min Marks and other information, do visit full semester subjects post given below. <\/p>\n

For all other Diploma in Electronics & Communication Engineering (DECE) Syllabus for 3rd Sem C18 Curriculum TSSBTET, do visit Diploma in Electronics & Communication Engineering (DECE) Syllabus for 3rd Sem C18 Curriculum TSSBTET Subjects<\/a>. The detailed Syllabus for network analysis is as follows. <\/p>\n

Prerequisites:<\/h4>\n

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App<\/a>
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.<\/b>
\"Get<\/a>. <\/p>\n

Course Outcome:<\/h4>\n

After completion of the course the student should be able to<\/p>\n

    \n
  1. Solve simple problems related to Ohms law, KVL and KCL<\/li>\n
  2. Apply Mesh current and Node voltage methods to simplify and find solution to electrical circuits<\/li>\n
  3. Solve simple problems on DC transients<\/li>\n
  4. Design simple passive filters and attenuators for given specifications<\/li>\n
  5. Find various two port parameters of simple Two port networks<\/li>\n
  6. Apply various Network theorems to simplify and find solution to electrical circuits<\/li>\n<\/ol>\n

    Unit 1: Basics of Electrical Circuits and Kirchoffs Laws:<\/h4>\n

    Active and passive elements- resistance, capacitance and inductance parameters- Energy source and classify the energy sources- Ideal voltage source and Ideal current sourceIdeal voltage source to ideal current source and vice versa- Introduction to Alternating voltages and currents-Phasor representation of alternating quantities -Phasor relationships for circuit Elements-Impedance and Admittance of circuit elements-AC analysis of series RL,RC circuits.<\/p>\n

    Unit 2: Mesh Current and Node Voltage Analysis:<\/h4>\n

    For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App<\/a>
    It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.<\/b>
    \"Get<\/a>. <\/p>\n

    Unit 3: Transient Analysis:<\/h4>\n

    Initial conditions, steady state and transient- DC response for an RL circuit- Expression for current for an RL circuit- DC response for an RC circuit- Expression for current for an RC circuit- DC response for an RLC circuit-Solve simple problems on series RL,RC circuits of DC excitation- RC differentiator circuit – Input\/output waveforms for RC differentiator circuit- RC integrator circuit- Input\/output waveforms for RC integrator circuit<\/p>\n

    Unit 4: Filters and Attenuators<\/h4>\n

    Definition of neper, decibel, characteristic impedance, propagation constant, Attenuation- Definition of filter- LPF, HPF, BPF, BSF- Characteristic curves for the above- Expression for characteristic impedance for T and n network- Expression for fc for constant k-LPF, HPF-Design of a simple LPF and HPF for a given cut off frequency and given impedance- Design of a T-type attenuator for the given attenuation and characteristic impedance.- Design of a n-type attenuator for the given attenuation and characteristic impedance- Equalizer circuit-.- Applications of equalizer circuit.<\/p>\n

    Unit 5: Two Port Networks:<\/h4>\n

    For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App<\/a>
    It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.<\/b>
    \"Get<\/a>. <\/p>\n

    Unit 6: Network Theorems and Resonance:<\/h4>\n

    Thevenins, and Nortons theorems – Solve networks- Use of above theorems in electronic circuits- Superposition theorem – Maximum power transfer theorems-Solve simple problems using the above theorem- Importance of impedance matching for maximum power transfer- Reciprocity theorem- Importance of Reciprocity theorem -advantages and limitations of above theorems- Star and Delta configurations of resistances- Formulas from Star to Delta & Delta to Star (no derivation)-Solve simple problems on Star\/Delta and Delta\/Star transformation. Resonance in A.C. Circuits – Series and parallel resonance. – curves, effect of resistance on Q factor selectivity and bandwidth. Suggested Learning Outcomes: After completing the course student will be able to<\/p>\n

    Basics of Electrical Circuits and Kirchhoffs Laws<\/strong>\n <\/p>\n