Khandesh College Education Society's
COLLEGE OF ENGINEERING AND MANAGEMENT, JALGAON
Affiliated to Dr. Babasaheb Ambedkar Technological University, Maharashtra;
Kavayitri Bahinabai Chaudhari North Maharashtra University, Jalgaon; MSBTE, Mumbai;
Approved by AICTE, New Delhi & Govt. of Maharashtra; NAAC Accredited, UGC 2(F)
Department of Electronics and Computer
DBATU - Syllabus
NMU - Syllabus
Course Outcome
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SE - Semester I
BTBSC - 301 - Engineering Mathematics-III
| CO1 | Solve higher order linear differential equation using appropriate techniques for modeling and analyzing electrical circuits. |
| CO2 | Solve problems related to Fourier transform, Laplace transform and applications to Communication systems and Signal processing. |
| CO3 | Obtain Interpolating polynomials, numerically differentiate and integrate functions, numerical solutions of differential equations using single step and multi-step iterative methods used in modern scientific computing. |
| CO4 | Perform vector differentiation and integration, analyze the vector fields and apply to Electromagnetic fields. |
| CO5 | Analyze conformal mappings, transformations and perform contour integration of complex functions in the study of electrostatics and signal processing. |
BTEXC - 302 - Analog Circuits
| CO1 | Describe the characteristics of IC and Op-Amp and identify the internal structure. |
| CO2 | Summarize and identify various manufacturing techniques. |
| CO3 | Derive and determine various performances based parameters and their significance for Op-Amp. |
| CO4 | Compare and verify parameters after exciting IC by any stated method. |
| CO5 | Analyze and identify the closed loop stability considerations and I/O limitations. |
BTEXC - 303 - Electronic Devices & Circuits
| CO1 | Relate and verify parameters after exciting devices by any stated method. |
| CO2 | Implement circuit and test the performance. |
| CO3 | Analyze small signal model of FET and MOSFET. |
| CO4 | Explain behavior of FET at low frequency. |
| CO5 | Design an adjustable voltage regulator circuits |
BTEXC - 304 - Network Analysis
| CO1 | Apply knowledge of mathematics to solve numerical based on network simplification and it will be used to analyze the same. |
| CO2 | Design passive filters and attenuators theoretically and practically. To apply knowledge for design of active filters as well as digital filters and even extend this to advance adaptive filters. |
| CO3 | Identify issues related to transmission of signals, analyze different RLC networks. |
| CO4 | Find technology recognition for the benefit of the society. |
| CO5 | Synthesize two port network functions. |
BTEXC - 305 - Digital Logic Design
| CO1 | Use the basic logic gates and various reduction techniques of digital logic circuit in detail. |
| CO2 | Design combinational and sequential circuits. |
| CO3 | Design and implement hardware circuit to test performance and application. |
| CO4 | Describe the architecture and use of VHDL for basic operations and Simulate using simulation software. |
| CO5 | Classify different semiconductor memories. |
BTHM - 3401 - Basic Human Rights
| CO1 | Simply put, human rights education is all learning that develops the knowledge, skills, and values of human rights. |
| CO2 | Strengthen the respect for human rights and fundamental freedoms. |
| CO3 | Enable all persons to participate effectively in a free society. |
| CO4 | Learn about human rights principles, such as the universality, indivisibility, and interdependence of human rights. |
| CO5 | Learn about regional, national, state, and local law that reinforces international human rights law. |
SE E & TC - Semester IV
BTEXC - 401 - Electric Machine
| CO1 | Formulate and then analyze the working of any electrical machine using mathematical model under loaded and unloaded conditions. |
| CO2 | Analyze the response of any electrical machine. |
| CO3 | Troubleshoot the operation of an electrical machine. |
| CO4 | Select a suitable measuring instrument for a given application. |
| CO5 | Estimate and correct deviations in measurements due to the influence of the instrument and due to the accuracy of the instrument. |
BTEXC 402 - Analog Communication Engineering
| CO1 | Expalin and identify the fundamental concepts and various components of analog communication systems. |
| CO2 | Restate the concepts of modulation and demodulation techniques. |
| CO3 | Design circuits to generate modulated and demodulated wave. |
| CO4 | Predict with various issues related to analog communication such as modulation, demodulation, transmitters and receivers and noise performance. |
| CO5 | Interpret the concepts of modulation and demodulation techniques of angle modulation (frequency and phase). |
BTEXC - 403 - Microprocessor
| CO1 | Apply knowledge of engineering in designing different case studies. |
| CO2 | Interface devices to Microprocessor |
| CO3 | Use of hardware and software tools. |
| CO4 | Optimize the Program |
| CO5 | Develop interfacing to real world devices. |
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