Admission in B.Tech(Electronics & Comm. Engineering) at MIT Meerut (Meerut Institute of Technology): Department of Electronics & Comm. Engineering

MIT(Meerut Institute of Technology) Meerut is one of the best and top ranked college for B.Tech(Electronics & Comm. Engineering).MIT Meerut is NAAC "A" accredited collge for its Courses, Faculty of B.Tech(Electronics & Comm. Engineering), Facilities and Infrastructure. Any enquiry about the Course B.Tech(Electronics & Comm. Engineering) in MIT Meerut(Meerut Institute of Technology) can be asked on phone numbers given below:

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Vision

To develop well rounded confident, aware and responsible engineers who aspire to achieve their full potential in their chosen field and contribute to sustainable development of society.

Mission

To educate students through interactive teaching mode, practical classes and collaborative project work.
To imbibe scholarly inquiry, cultivate creative thoughts and generate knowledge through research.
To cultivate sense of professional ethics and make them socially responsible citizen.
To prepare students for challenges in professional career through mentorship.

PROGRAM EDUCATIONAL OBJECTIVES (PEOs)

PEO 1: To develop ability in students to understand, analyse and implement engineering concepts.

PEO 2: To develop oral and written communication skills so as to present ideas and work in a team as cohesive member.

PEO 3: To sensitize students towards professional ethics and good engineering practices.

PEO 4: To motivate students towards higher education and research.

S. No.	Sub. Code	Subject Name	Course Outcome
1	KEC 603	Antenna and wave Propagation	CO-1	To understand the basics of antenna and their parameters.
			CO-2	To classify different types of antenna and their parameters.
			CO-3	To analyze basic propagation models and propagation mechanism for EM waves.
			CO-4	To evaluate performance of antennas.
			CO-5	To assess designed antenna w.r.t existing criteria.
2	KEC 076	Wireless & Mobile Communication	CO-1	To understand the basic concepts of wireless & mobile communication and related terminologies.
			CO-2	To examine different models of channels and equalizers used in WMC.
			CO-3	To explain & differentiate the concepts of spread spectrum modulation
			CO-4	To apprise the concepts of different multiplexing and accessing Techniques used in WMC.
			CO-5	To develop the different concepts of WMC systems for solving related problems.
3	ROE 088	Values relationship & ethical human conduct- for happy & harmonious society	CO-1	To understand the importance and types of relationship.
			CO-2	To examine the right expressions with respect of relationship.
			CO-3	To assess the competence to think about the conceptual framework of undivided society.
			CO-4	To explain conceptual framework of universal human order
			CO-5	To develop the exposure for transition from current state to the undivided society and universal human order.
4	ROE 074	Understanding the human being Comprehensively Human Aspiration audits fulfillment	CO-1	To describe the basic human aspirations and their fulfillment in the light of resolution.
			CO-2	To analyze the competence of the students to understand the harmony of the human being in nature or existence.
			CO-3	To examine the activities and potentialities of the self and reasons for harmony or contradiction in the self itself.
			CO-4	To define the process of inner evolution, specifically awakening to activities of the self realization, understanding and contemplation in the self.
			CO-5	To describe different aspects of all encompassing Resolution, leading to harmony at all levels from self to nature and entire existence.
5	ROE 073	Cloud computing	CO-1	To understand the main concepts, definition, key technologies, advantages and limitations of cloud computing.
			CO-2	To identify the technologies that help in the development of cloud like virtualization, Web services etc.
			CO-3	To analyze the architecture of cloud to build the ability to use services of storage and compute.
			CO-4	Summarize the core issues of cloud computing such as resource management and security.
			CO-5	To design various solutions on cloud with the various emerging technologies.
6	KEC 058	Optical Communication	CO-1	To understand the fundamentals of optical fiber communication system and related terminologies.
			CO-2	To calculate various parameters related to optical fiber communication.
			CO-3	To classify the various sources of optical fiber communication.
			CO-4	To apply concepts related to optical sources in solving problems.
			CO-5	To assess the various detectors of optical fiber communication.
7	REC 072	Digital Image Processing	CO-1	To understand the basic concepts of digital image processing and related terminologies.
			CO-2	To apply image enhancement techniques for digital images.
			CO-3	To apply image restoration techniques for digital images.
			CO-4	To apply image compression techniques for digital images.
			CO-5	To design image segmentation techniques for digital images.
8	REC 071	Information Theory & Coding	CO-1	To understand the basic concepts and terminologies of information theory and coding.
			CO-2	To determine different parameters of information theory.
			CO-3	To apply various source coding schemes in communication systems.
			CO-4	To apply various channel coding schemes in error detection and correction of digital communication system.
			CO-5	To evaluate various coding schemes.
9	KEC 072	VLSI Design	CO-1	To understand the basics of VLSI design and related terminologies.
			CO-2	To identify the design constraints related to efficient design CMOS circuit.
			CO-3	To formulate different concepts for VLSI design.
			CO-4	To identify different designing constraints related to CMOS circuit design.
			CO-5	To explain the basic concepts of testing techniques used in VLSI circuits.
10	REC 065	Radar Engineering	CO-1	To understand the basic concepts of RADAR and related terminologies.
			CO-2	To describe the basic concepts of MTI and Pulse Doppler RADAR and related parameters.
			CO-3	To examine the concepts of RADAR tracking and related parameters.
			CO-4	To formulate different equations representing various properties of RADAR.
			CO-5	To apply fundamentals of RADAR for calculating different parameters.
11	REC 064	Advance digital design using Verilog	CO-1	To understand the concept of digital system using Mixed logic.
			CO-2	To apply the concept of programmable logic devices in designing digital circuits
			CO-3	To design basic building block of digital circuits using VERILOG
			CO-4	To apply the concept of digital electronics in designing digital system.
			CO-5	To analyze different techniques of digital electronics in designing digital system.
12	KEC 601	Digital Communication	CO-1	To understand basic concepts and terminologies of digital communication systems
			CO-2	To apply concepts of baseband, pass band digital modulation schemes in finding different parameters and performances
			CO-3	To apply fundamentals of probability theory and random process in solving different problems related to digital communications
			CO-4	To analyze baseband, pass band digital modulation schemes and corresponding performances
			CO-5	To evaluate the performances of baseband, pass band digital communication systems in noisy environment

13	REC 601	Microwave Engineering	CO-1	To understand the concept of rectangular and circular waveguide and to determine its field components and their application in microwave circuits
			CO-2	To evaluate scattering parameter of various microwave components.
			CO-3	To analyze the limitation of conventional active devices and to design and analysis of various microwave tubes.
			CO-3	including reflex klystron, Magnetron, Travelling wave tube, BWO and their application.
			CO-4	To design and analysis of solid state amplifier and oscillators.
			CO-5	To measure and analyze microwave power using test benches, frequency meter and VSWR meter.
14	KEC 602	Control System	CO-1	To understand basic concepts of a control system.
			CO-2	To develop the mathematical model of various physical systems.
			CO-3	To carry out the time domain analysis of first and higher order systems.
			CO-4	To evaluate the stability of linear control systems using Routh Hurwitz Criteria and Root Locus Technique.
			CO-5	To evaluate the stability of linear control systems using different frequency domain techniques like Nyquist criteria and Bode plots.
15	KEC 051	Computer Architecture and Organization	CO-1	To devise a structure from given components that exhibits a specified behavior and performs operations at minimum cost using either of combinational or sequential circuits.
			CO-2	To figure out the basic layout for designing a processor based on different formats.
			CO-3	To design data path at register level considering the speed up data processing.
			CO-4	To design a control unit for pipelined processors.
			CO-5	To design computer’s memory system.
16	KEC 503	Digital Signal Processing	CO-1	To understand the basic concepts and terminologies of digital signal processing and filter design.
			CO-2	To apply different transformation tools for the analysis of discrete time signals and systems.
			CO-3	To apply concepts of digital signal processing for finding various parameters and design of different circuits/systems.
			CO-4	To analyze different filters for digital signal processing.
			CO-5	To design different filter structures on the basic of different realization methods.
17	REC 502	Principle of communication	CO-1	To understand basic concepts and terminologies of communication systems.
			CO-2	To apply the principles of communication in determination of various parameters.
			CO-3	To analyze modulation, demodulation schemes and noise characteristics for analog communication systems.
			CO-4	To examine different coding and decoding techniques.
			CO-5	To evaluate performance of different analog communication systems in noisy environment.
18	KEC 501	Integrated circuit	CO-1	To understand the basic concepts of analog ICs and related circuits.
			CO-2	To understand the basic concepts of digital ICs and related circuits.
			CO-3	To analyze analog and digital circuits.
			CO-4	To design OP-AMP based analog linear integrated circuits.
			CO-5	To design OP-AMP based analog non-linear integrated circuits.
19	RAS 501	Managerial economics	CO-1	To understand the concept of managerial economics, difference between micro and macro economics.
			CO-2	To evaluate demand of product and kind of elastic will effect to demand.
			CO-3	To judge what kind of elasticity of supply and kinds of cost
			CO-4	To analyze attain equilibrium in monopoly in long run.
			CO-5	To evaluate various conditions of phases of Business Cycle.
20	RCS 406	Data Structure & Algorithms	CO-1	To understand and formulate the concepts of arrays and linked list.
			CO-2	To apply the concepts of Stack, Queue and formulate the solution using recursion in solving various problems.
			CO-3	To design and apply tree concepts for solving computational problems.
			CO-4	To analyze and compare the various path searching algorithms using the concepts of graph.
			CO-5	To summarize and evaluate searching, sorting and Hashing techniques using array.
21	REC 403	Electronic Measurement & Instrumentation	CO-1	To understand the fundamentals, derived units, and various standards, different types of errors, construction and working of different measuring instruments.
			CO-2	To describe the working principles of Digital equipments like transistor voltmeter circuit, ac electronic voltmeter, digital voltmeter circuit, working principle of Digital multimeter (DMM), digital frequency meter (DFM).
			CO-3	To apply the concepts to measure parameters passive components using bridges like Ammeter & voltmeter methods of resistance measurements, construction and working of different AC and DC bridges and its applications.
			CO-4	To understand the working of various types of oscilloscope like dual trace oscilloscope, CRO Probes, delay time based oscilloscope, Sampling oscilloscope, digital storage oscilloscope (DSO) & study its applications.
			CO-5	To calibrate the instruments by different methods & to study recorder & plotters.
22	REC 402	Electromagnetic Field Theory	CO-1	To apply vector calculus to static electric-magnetic fields in different engineering situations.
			CO-2	To analyze Maxwell’s equation in different forms (differential and integral) and apply them to diverse engineering problems.
			CO-3	To examine the phenomena of wave propagation in different media and its interfaces and in applications of microwave engineering.
			CO-4	To analyze the nature of electromagnetic wave propagation in transmission line which are used in communication.
			CO-5	To design impedance matching network to overcome signal reflection using graphical tool like Smith Chart.
23	REC 401	Microprocessors & Microcontrollers	CO-1	To understand the architecture of 8085 microprocessor and related terminologies
			CO-2	To understand the architecture of MSP430, basics of interfacing, serial communication and related terminologies
			CO-3	To understand the ALP of 8085.
			CO-4	To understand the ALP of MSP 4305.
			CO-5	To apply the knowledge of ALP for solving different problems using 8085.
24	KVE 301	Universal Human Values & Professional Ethic	CO-1	To understand about the need of value education and harmony in self, family, society and nature.
			CO-2	To apply the understanding of value education to ensure harmony at all the four levels of living.
			CO-3	To analyze about self, feelings in relationship, society and relevance of nature.
			CO-4	To evaluate their participation at all the four levels of living.
			CO-5	To improve their emotional, social and professional competence.
25	ROE 041	Introduction to Soft Computing	CO-1	To understand the basic concept of ANN.
			CO-2	To understand different ANN architectures and their algorithm.
			CO-3	To analyze various neural network models for the determination of various parameters.
			CO-4	To apply the concept of ANN for solving different problems.
			CO-5	To understand the concept of Fuzzy logic and its terminologies.
26	KEC 403	Signals System	CO-1	To understand the concept of continuous time and discrete time signals / Systems.
			CO-2	To understand the behavior of continuous time and discrete time signals / systems.
			CO-3	To analyze the behavior of continuous time and discrete time systems.
			CO-4	To analyze signals in complex frequency domain.
			CO-5	To understand Sampling theorem and its implications.
27	KEC 301	Electronic Devices	CO-1	To understand the phenomenon of charge carriers and energy bands in semiconductors and solid state devices.
			CO-2	To describe the characteristics of the p-n junction diode and some optoelectronic devices and their application in electronic circuits.
			CO-3	To explain the structure and characteristics of MOSFETs and to analyze the DC bias circuits, small-signal AC circuits with emphasis on single stage MOSFET amplifiers.
			CO-4	To examine the structure and characteristics of BJT and to analyze the DC bias circuits, small-signal AC circuits with emphasis on single stage BJT amplifiers.
			CO-5	To understand the various feedback topologies in electronic circuits and basic principle of oscillation in various sinusoidal oscillators.
28	REC 301	Digital Logic Design	CO-1	To convert different type of codes and number systems which are used in digital communication and computer systems.
			CO-2	To understand, analyze, and design combinational logic circuits and their various applications also.
			CO-3	To understand, analyze, and design Synchronous Sequential logic circuits and their various applications also.
			CO-4	To understand, analyze, and design Synchronous Sequential logic circuits and their various applications also.
			CO-5	To understand different types of Memory System and Logic families.
29	KEC 303	Network Analysis and Synthesis	CO-1	To apply mesh & nodal analysis to complex circuits and express them using Thevenin’s and Norton’s equivalent forms.
			CO-2	To evaluate the performance of RL, RC, and RLC circuits by the application of Laplace transform.
			CO-3	to apply use graph theory in solving networks.
			CO-4	To analyze the given network using different two port network parameters.
			CO-5	To determine the response of a network using network functions & synthesize network functions.
30	RAS 302	Environment & Ecology	CO-1	To understand and discuss the basics aspects associated with structure and function of ecological systems existing around us.
			CO-2	To identify and evaluate attitudes, skill, participation and services needed to contribute to a healthful national and global environment.
			CO-3	To analyze the impact of human an ever increasing human population and pollution on the biosphere, social, economic, use and conservation of natural resources.
			CO-4	To write and communicate effectively about environmental issues and can create environmental awareness among society.
31	RAS 301	Mathematics-III	CO-1	To explain the fundamentals of computer, number system & make use of algorithm, flowchart to solve complex problems.
			CO-2	To apply basic concept of c language to develop simple programs & identify type of error while compilation & execution.
			CO-3	To classify the use of different control statements & divide larger program in to modules while writing complex C programs.
			CO-4	To select the appropriate derived data type & determine the role of pointer, preprocessor & various string handling library functions.
			CO-5	To build small software project using files handling & solve problem using dynamic memory allocation technique.
32	REC 752	Electronics Circuit Design Lab	CO-1	To apply knowledge for selection of topics and explanation of overall circuit components/ functionalities.
			CO-2	To use modern it tools for simulation of circuits
			CO-3	Analyze the output of circuit obtained from simulated and hardware design.
			CO-4	To communicate effectively the circuit and its functionality.
			CO-5	To write effectively a technical contents of the circuit and corresponding description.
33	REC 075	Optical Communication Lab	CO-1	To understand and set up fiber optic analog link.
			CO-2	To understand and set up fiber optic digital link.
			CO-3	To understand and measure numerical aperture of optical fiber.
			CO-4	To understand and carry out Time Division Multiplexing of signals using optical fiber.
			CO-5	To understand and perform Manchester coding/decoding technique
34	RIC-651	Microcontrollers For Embedded Systems Lab	CO-1	To understand features of 8051 related to GPIO, ADC, DAC and Interrupts.
			CO-2	To implement features of MSP 430 related to GPIO, ADC, PWM, Timers and Interrupts.
			CO-3	To implement GPIO, ADC and Interrupts features with KEIL on 8051 micro computer kits.
			CO-4	To implement GPIO, ADC, PWM, Timer and Interrupts on MSP 430 for controlling peripherals.
			CO-5	To apply serial communication protocols on MSP 430
35	KEC 652	Control System Lab	CO-1	To understand control Tool box in MATLAB.
			CO-2	To determine various mathematical operations using MATLAB.
			CO-3	To analyze a system in time domain using MATLAB.
			CO-4	To analyze a system in frequency domain using MATLAB
			CO-5	To determine the State Space representation of the given transfer function.
36	REC 652	Communication lab -II	CO-1	To plot a triangular and square wave using Fundamental frequency and its harmonics.
			CO-2	To understand various baseband digital modulation and demodulation techniques such as PCM and Delta Modulation.
			CO-3	To understand the line coding fundamentals i.e. coding and decoding of NRZ and Manchester formats.
			CO-4	To understand various pass band digital modulation and demodulation techniques such as ASK, FSK & PSK.
			CO-5	To understand and perform QPSK, DPSK, 8PSK and 16PSK Techniques and convolutional coding using MATLAB.
37	REC 651	Microwave Engineering Lab	CO-1	To understand the characteristics Klystron tube as microwave source.
			CO-2	To determine the frequency and wave length of rectangular waveguide.
			CO-3	To measure the reflection coefficient and VSWR of microwave signal.
			CO-4	To analyze V-I characteristics of Gunn diode.
			CO-5	To analyze microwave components such as Circulator/Isolator.
38	REC 554	Cad of Electronics -I	CO-1	To learn about Orcad/ P-spice software and analysis Transient and DC parameters of BJT inverter and NMOS inverter using step input and pulse input.
			CO-2	To acquire knowledge about CMOS technology and analysis of Transient and DC parameters of CMOS inverter using step input and pulse input and NOR gate inverter.
			CO-3	To learn about design and Simulation of NAND gate and Differential Amplifier (with Resistive Load, Current Source Biasing).
			CO-4	To analyze frequency response of Common Source amplifiers and source Follower amplifiers.
			CO-5	To analyze frequency response of Cascade amplifiers and Differential amplifiers.
39	KEC 553	Digital Signal Processing Lab	CO-1	To study about DSP Processors and architecture of TMS320C6713 DSP processor and Code Composer Studio.
			CO-2	To plot basic signals using MATLAB.
			CO-3	To apply CCS in matrix manipulations.
			CO-4	To calculate 4 point discrete Fourier analysis using MATLAB.
			CO-5	To implement 8 point FFT algorithm using MATLAB.
40	REC 552	Communication Lab – I	CO-1	To understand amplitude modulation techniques and the process of demodulation.
			CO-2	To understand the different types of Pulse modulation and their reconstruction.
			CO-3	To understand communication between transmitter and receiver and validate/ study different the receiver parameters.
			CO-4	To understand frequency modulation techniques, PAM, PWM, PPM, PCM and the process of modulation and demodulation.
			CO-5	To design and implement an FM radio receiver in 88-108 MHz.

41	KEC 551	Integrated Circuits Lab	CO-1	To study wave shaping circuits to generate different types of waveforms and to perform voltage to current, current to voltage conversion.
			CO-2	To analyze and design different non-linear applications of operational amplifiers such as filters and oscillator etc.
			CO-3	To design astable and monostable multivibrator using 555 timer IC.
			CO-4	To study operational amplifier analog IC-741and to analyze and design different linear applications of operational amplifiers such as integrator, log, antilog amplifiers and voltage comparators.
			CO-5	To determine capture range, lock in range and free running frequency of PLL and will be able to understand and design voltage regulation methods.
42	KEC 653A	"Electronic Measurement & Instrumentation Lab"	CO-1	To understand practical performance of the operational features of various analog and digital test and measurement equipments.
			CO-2	To analysis various standard bridges for measurement of unknown resistance, inductance and capacitance, Q factor.
			CO-3	To measure true RMS value using analog meter using digital Multimeters.
			CO--4	To study of characteristics of different types of transducers, generation of waveforms and calibration procedures.
			CO-5	To use Resistance temperature detector (RTD) for measurement of temperature.
43	KEC 552	Microprocessors & Microcontrollers Lab	CO-1	To determine the flow of data/code throughout the system using basic instructions of 8085.
			CO-2	To Implement simple programs in CCS and differentiate the features of MSP430 G series with 8085.
			CO-3	To evaluate the performance of external devices on CCS, Energia or any other software.
			CO-4	To analyze the performance of the previous setup Using MSP430 F series.
			CO-5	To create PWM applications in projects with help of UART, SPI and I2C modules.
44	REC 354	Electronics Workshop & PCB Design Lab	CO-1
			CO-2	To design a transformer for the given specification that could be used for various applications where low voltage power supply required. To assemble a DC unregulated power supply.
			CO-3	To examine ideas and concepts of different types of PCB and their applications. Use information to implement any circuit on PCB.
			CO-4	To sketch PCB layout of full wave rectifier circuit and translate it on the board. To execute etching of extra copper from PCB layout, to develop tracks and drill suitable sized holes for fixing of components. To organize power supply with meter in cabinet.
			CO-5	To demonstrate fabricated power supply and judge for fluctuations. Use information to demonstrate transfer of art work for a particular circuit on copper clad board.
45	KEC 453	Signal System Lab	CO-1	To understand plotting of basic signals using various operations like amplitude-scaling, time-scaling,etc.
			CO-2	To understand knowledge about Convolution, auto-correlation, cross-correlation of signals
			CO-3	To analyze and plot Fourier series, Fourier transform and z-transform of a given signal.
			CO-4	To acquire and understand knowledge about impulse response and step response using MATLAB
			CO-5	To analyze plot of pole-zero diagram & bode diagram using MATLAB.
46	KEC 351	Electronic Devices Lab	CO-1	To understand and verify the working of different diodes, transistor amplifiers (BJT & FET), Operational amplifier, Sinusoidal Oscillators, CRO probes and measuring instruments.
			CO-2	To design the circuits with semiconductor devices (Diodes, BJT, and FET etc.), passive components, measuring instruments and power supplies that serve many practical purposes.
			CO-3	To construct, analyze and troubleshoot the designed circuit.
			CO-4	To measure and record the experimental data and analyze the results.
			CO-5	To simulate the electronic circuits using PSPICE simulator software and verify the results physically on bread-boards.
47	REC 351	Digital logic Design LAB	CO-1	To understand various digital ICs and their datasheet.
			CO-2	To implement Boolean function using logic gates on bread Board.
			CO-3	To implement various combinational circuits on bread board using different Logic gates ICs
			CO-4	To Verify of state tables of various flip-flops using NAND & NOR gates
			CO-5	To design the 4-bit synchronous and Asynchronous counter
48	NEC 601	Microwave Engineering	CO-1	To understand the concept of rectangular and circular wave guide and to determine its Field components their application in microwave circuits. To understand working of micro strip transmission line and its application.
			CO-2	To determine scattering parameter of Various microwave components.
			CO-3	To understand the limitation of conventional active devices and study of various microwave tubes. Including Reflex Klystron, Magnetron, Travelling Wave Tube, BWO, their operation and application.
			CO-4	To understand the solid state amplifiers and Oscillators. And also to study the microwave transistors.
			CO-5	To Measure analyze and various types of microwave measuring equipment. To Estimate and analyze microwave circuits on microwave test bench using frequency meter and VSWR.
49	KEC 601	Digital Communication	CO-1	To understand basic Concept of digital modulation techniques like ASK, FSK, PSK, DPSK, QPSK and MSK.
			CO-2	To compute probability of error and inter symbol interference from eye diagram in data transmission
			CO-3	To understand various theoretical concepts like probability, power spectral density, random variable and random process.
			CO-4	To analyze the performance of digital communication system.
			CO-5	To analyze and design a digital communication system using different error control techniques to meet desired needs within realistic constraints.
50	NEC 603	Integrated Circuit Technology	CO-1	To acquire knowledge of Crystal Growth and Wafer Preparation and Epitaxy IC fabrication Process.
			CO-2	To acquire knowledge of Oxidation, Photolithography, Etching and Dielectric, Polysilicon Film Deposition IC fabrication Process.
			CO-3	To understand Diffusion and Ion-Implantation IC fabrication Process.
			CO-4	To understand Metallization and Packaging of VLSI devices IC fabrication Process.
			CO-5	To understand fabrication Processing steps of MOS, CMOS BJT.
51	NEC 011	Digital Signal Processing	CO-1	To analyze different types of structures of digital systems (IIR and FIR).
			CO-2	To make use of methods like IIM/BLT in the designing of analog/digital IIR filters (Butterworth and Chebyshev filters)
			CO-3	To make use of methods like IIM/BLT in the designing of analog/digital IIR filters (Butterworth and Chebyshev filters)
			CO-4	To carry out frequency domain analysis using Fourier transform (DFT & FFT).
			CO-5	To carry out analysis of the digital systems using multi rate signal processing
52	NEC 022	Microcontroller and its Applications	CO-1	To utilize the programming skills for attainment of optimized solutions using 8051, memory and peripheral devices.
			CO-2	To build programs by utilizing GPIOs, power consumption concepts.
			CO-3	To compare various analog interfacing terminologies like PWM, Watchdog timer etc and examine their results.
			CO-4	To recommend communication modules like I2C, SPI and UART based on their areas of applications.
			CO-5	To create IoT networks using suitable platforms available like AWS, Bolt etc.
53	NEC 501	Integrated Circuits	CO-1	To understand analog IC design and a complete analysis of 741-IC Op-Amp.
			CO-2	To design & implement of Op-Amp based circuits and basic components of ICs such as various types of filters.
			CO-3	To describe CMOS digital integrated circuits and digital memory circuits.
			CO-4	To understand concept of Op-Amp based non-linear and wave-shaping circuits.
			CO-5	To describe working principle of data converters along with application (designing & implementation) specific ICs such as 555 timer and PLL.
54	NEC 502	Principles of Communication	CO-1	To understand the concept of communication system and the need for linear modulation techniques and its types.
			CO-2	To demonstrate the theoretical background of angle modulation schemes, both modulation and demodulation
			CO-3	To learn about important techniques like PAM, sampling theorem and various multiplexing schemes involved in any communication system.
			CO-4	To learn about various digital modulation techniques like PCM, delta modulation alongside with the basic concepts regarding the linear filtering of noise.
			CO-5	To learn the concept of signal to noise ratio, FOM and basic building of PLL.

55	NEC 503	Microprocessors	CO-1	To recall the digital design logic and be able to relate the basics with Microprocessor architecture like 8085.
			CO-2	To understand the basic terminologies like data flow, instruction cycle, pipelining, interrupt redundancy etc.
			CO-3	To write programs in Assembly language and will be able to design software module in assembly for small projects.
			CO-4	To debug and analyze the advantages in programming with assembler directives.
			CO-5	To acquire knowledge on various peripheral devices and will be able to create projects of interfacing with Microprocessors.
56	NEC 504	Antenna and Wave Propagation	CO-1	To understand the various properties of antenna systems such as gain directivity.
			CO-2	To understand the concept of point source antenna array and pattern multiplication.
			CO-3	To understand the working of Loop antenna, LPDA , Yagi Uda and all practical antenna.
			CO-4	To understand dipole antenna, field of short dipole, radiation resistance of wave have dipole and array of half wave dipole.
			CO-5	To understand and analyze the modes of propagation.
57	NHU 601	Industrial Management	CO-1

PROGRAM SPECIFIC OUTCOMES (PSOs)

PSO 1: Students will develop firm foundation in math, science, electronics and communication engineering so as to design methodologies helpful in solving real-time problems in the field.

PSO 2: Use appropriate methods to interpret and analyze data related to various aspects of electronics and communication engineering to arrive at useful valid conclusions.

PSO 3: Use appropriate methods to interpret and analyze data related to various aspects of electronics and communication engineering to arrive at useful valid conclusions.

PROGRAM OUTCOMES (POs)

PO 1 Engineering Knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.

PO 2 Problem Analysis: Identify, formulate, review research literature and, analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences.

PO 3 Design/Development of Solutions: Design solutions for complex engineering problems and design system components and processes that meet the specified needs with the appropriate considerations for the public health and safety, and the cultural, societal, and environmental considerations.

PO 4 Conduct Investigations of Complex Problems: Use research based knowledge and research methods including design of experiments, analysis and interpretation of data and synthesis of the information to provide valid conclusions.

PO 5 Modern Tool Usage: Create, select and apply appropriate techniques, resources and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.

PO 6 The Engineer and Society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.

PO 7 Environment and Sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.

PO 8 Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.

PO 9 Individual and Team Work: Function effectively as an individual, and as a team member or leader in diverse teams, and in multidisciplinary settings.

PO 10 Communication: Communicate effectively on complex engineering activities with the engineering communities and with society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.

PO 11 Project Management and Finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work as member and leader in a team, to manage projects and in multidisciplinary environment.

PO 12 Life Long Learning: Recognize the need for and have the preparation and ability to engage in independent and lifelong learning in the broadest context of technological change.

B.Tech. Ist Year Common AICTE Model Curriculum 2020-21

B.Tech. 2nd Year EC&EI AICTE Model Curriculum 2019-20

B.Tech EC Syllabus 4 Aril 2021

B.Tech EC Final Year

B Voc

S. No.	Name of the Full-time teacher	Designation	Name of the Department
1	Mr. TUSHAR SHIVAM PATHAK	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
2	Mr. ARUN KUMAR	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
3	Dr. TANMOY DEB	Professor	ELECTRONICS & COMMUNICATION ENGG
4	Mr. KISHORE YADAV	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
5	Mr. DHEERAJ KUMAR MISHRA	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
6	Mr. SATYAWAN MISHRA	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
7	Mr. NAVEEN KAUSHIK	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
8	Mr. SANDESH KUMAR	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
9	Mr. VIPIN SHARMA	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
10	Mr. MOHD RIZWAN UDDIN SHAIKH	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG
11	Ms. NEHA AGARWA	Assistant Professor	ELECTRONICS & COMMUNICATION ENGG

Affiliation Letter

AICTE Approval

S.No	Name	Designation
1	Dr. Neeraj Pratap	Chief Proctor
2.	Dr. Ashish Kumar	Additional Chief Proctor
3.	Ms. Sonam Tomar	Member
4.	Mr. Akhilesh Pandey	Member
5.	Ms. Sakshi Goyal	Member
6.	Mr. Ankit Galiyan	Member
7.	Dr. Digvijay Singh	Member
8.	Ms. Nidhi Parashar	Member
9.	Mr. Sanjay Kumar	Member
10.	Mr. Ankit Gupta	Member
11.	Mr. Jonee Panwar	Member
12.	Ms. Sultana Zakiya	Member
13.	Dr. Mohd. Sadim (Warden, Boys Hostel)	Ex officio Member
14.	Ms. Ritima (Warden, Girls Hostel)	Ex officio Member
15.	Mr. K.N. Tripathi	(Special Invitee)

S. No.	Name of Faculty	Designation
1	Mr. Kailash Nath Tripathi	Asstt. Professor
2	C A Swati Gupta	Controller of Account & Finance
3	Mr. Ravi Ranjan Kumar	Asstt. Professor
4	Dr. Mohd. Sadim	Asstt. Professor
5	Dr. Jay Prakash Kannaujia	Asstt. Professor
6	Mr. Ankit Gupta	Asstt. Professor
7	Mr. Lalit Kumar	Asstt. Professor
8	Mr. Ayush Goel	Student
9	Ms. Shivangi Garg	Student

S. No.	Faculty Name	Designation
1	Mrs. Nidhi Parashar	Asstt. Professor
2	Mrs. Himani Mishra	Asstt. Professor
3	Ms. Ritima	Hostel Warden
4	Ms. Ruchi Mittal	Asstt. Professor
5	Ms. Sheetal	Asstt. Professor
6	Ms. Sonam Tomar	Asstt. Professor
7	Ms. Ayushi Raj	Student
8	Ms. Aasma Siddiqui	Student

MEERUT INSTITUTE OF TECHNOLOGY

Meerut Institute of Technology
A unit of Vishnu Education Foundation

Department Of Electronics & Comm. Engg

Department of Electronics & Comm. Engg

* For any Query please Contact : +91-7631874023 / 9334455661

Vision

Mission

MEERUT INSTITUTE OF TECHNOLOGY

Meerut Institute of TechnologyA unit of Vishnu Education Foundation

Department Of Electronics & Comm. Engg

Department of Electronics & Comm. Engg

* For any Query please Contact : +91-7631874023 / 9334455661

Vision

Mission

Meerut Institute of Technology
A unit of Vishnu Education Foundation