CENTURION UNIVERSITY OF TECHNOLOGY AND MANAGEMENT

CENTURION INSTITUTE OF TECHNOLOGYSCHOOL OF ENGINEERING & TECHNOLOGYDEPT. OF ECEELECTRONIC DEVICE LAB (Room No. 08)FACULTY IN-CHARGE: Manas Ranjan MantriLAB ASSISTANT: Mr. Smruti Ranjan nayakELECTRONIC DEVICE LABLEARNING OBJECTIVE:

Prepare students for successful careers in industry and utility organizations and meet the needs of the country.LEARNING OUTCOME:Demonstrate an ability to design electronic circuits and conduct experiments with electronic systems, analyze and interpret data.ELECTRONIC WORKSHOP PRACTICE LABLEARNING OBJECTIVE:

Understand principle, working and operation of various Electrical and electronic Circuit and learn techniques to identify the fault and repair various kinds of electronic gadgets and able to design Analog electronic circuits.

LEARNING OUTCOME:Demonstrate proficiency in fault finding and repairing of electronic appliance, exhibit knowledge of electrical materials, their properties, working principles and solder different components of a circuit

SIMULATION LAB I (Room No. 07)FACULTY IN-CHARGE: Sambita DalalLAB ASSISTANT: Nutan DasVLSI DESIGN LABLEARNING OBJECTIVE: Understand and Experience VLSI Design Flow and Learn Transistor-Level CMOS Logic DesignLEARNING OUTCOME: Apply CMOS technology-specific layout rules in the placement and routing of transistors and interconnect, and to verify the functionality, timing, power, and parasitic effects.EMBEDDED C LABLEARNING OBJECTIVE: Enable the students to program, simulate and test the 8051, 8052, PIC16 and ARM processor based circuits using KEIL,, MPLAB, PROTEUS, MULTISIM softwares and to give the students the opportunity to build and test the embedded systems.LEARNING OUTCOME: Have the knowledge through hands-on experimentation the keil, proteus, multisim tools for embedded systems as well as the basics of design, simulate and implement the embedded systems using C.

DESIGN AND SIMULATION LABLEARNING OBJECTIVE: Provide an overview of the principles, operation and application of the analog building blocks like diodes, BJT, FET, Op-amp etc for performing various functions.LEARNING OUTCOME: Design and simulate different biasing circuits and applications of BJT and FET and different configurations and applications of opamp.

COMMUNICATION LAB (Room No. 12)FACULTY IN-CHARGE: Harish Chandra MohantaLAB ASSISTANT: Bhabani DashANALOG COMMUNICATION LAB LEARNING OBJECTIVE:Acquire a mathematical understanding of Analog Communication Systems and design a practical communication system at the block diagram level under certain constraints and requirements.LEARNING OUTCOME: Develop the spectral properties of frequency modulation and analyze the demodulated frequency-modulated signals in the presence of noise and develop concept of designing hybrid modulators which caters the need of communication system.

DIGITAL COMMUNICATION LABLEARNING OBJECTIVE: Design Various Modulation Schemes using specific component and program different Signal, Coding Schemes and Modulation Schemes using MATLAB/SCILAB.

LEARNING OUTCOME: Compute the bandwidth and transmission power by analyzing time and frequency domain spectra of signal required under various modulation schemes and apply suitable modulation schemes and coding for various applications.FIBER OPTICS TECHNICIAN LABLEARNING OBJECTIVE: LEARNING OUTCOME: PROGRAMMABLE LOGIC CONTROL LAB (Room No. 11)

FACULTY IN-CHARGE: Udaya Kumar Sahoo CO-FACULTY IN-CHARGE: Manas Ranjan MantriLEARNING OBJECTIVE: LEARNING OUTCOME: ADVANCE SIMULATION LAB (Room No. 206)FACULTY IN-CHARGE: Shibashis PradhanLAB ASSISTANT: Smruti Ranjan NayakDIGITAL SIGNAL PROCESSING LAB

LEARNING OBJECTIVE: Provide practical experience of signal and image processing implementation in preparation for the project. The course will be composed of programming sessions and course assignments covering discrete time signal analysis, communications and image processing.

LEARNING OUTCOME:

Understand how to use MATAB to simulate and analyze signal and image processing algorithms and characterize sampled systems in time and frequency domain.

NETWORKS AND SYSTEMS LAB

LEARNING OBJECTIVE: Familiarize students with different electric network topology to solve circuit problems and their responses (steady-state and transient) and plotting/analysis of these signals.LEARNING OUTCOME:

Apply concepts of electric network topology: nodes, branches, and loops to solve circuit problems, including the use of computer simulation(MATLAB)and relate physical observations and measurements involving electrical circuits to theoretical principles.

MICROWAVE ENGIINERING LAB (Room No. 211)FACULTY IN-CHARGE: Deepak Kumar Barik LAB ASSISTANT: Bhabani DashLEARNING OBJECTIVE:

Introduce students to microwave systems, components and devices and develop an understanding of the microwave circuit analysis technique, LEARNING OUTCOME:

Describe common devices such as microwave vacuum tubes, high-speed transistors and ferrite devices- Handle microwave equipment and make measurements:CIRCUIT DESIGN LAB (Room No. 207)FACULTY IN-CHARGE: Debaraj RanaLAB ASSISTANT: Nutan DasANALOG ELECTRONICS CIRCUIT LABLEARNING OBJECTIVE:

Design electronic solutions to meet specified requirement and test the circuit designs using Laboratory Instruments.LEARNING OUTCOME:

Make basic connections to instrumentation such as power, input signal, voltage measurement, and time and frequency domain measurements and understand and apply characteristic equations for circuit components (transistors, resistors) to analyze and design circuits.

DIGITAL ELECTRONICS CIRCUIT LAB

LEARNING OBJECTIVE:

Introduce the concepts and techniques associated with the number systems, codes and VHDL programming. To minimize the logical expressions using Boolean postulates.LEARNING OUTCOME:Simplify the logic expressions using Boolean laws and postulates and design them by using logic gates.ANALOG AND DIGITAL ELECTRONICS CIRCUIT LABLEARNING OBJECTIVE:LEARNING OUTCOME:R&D and PROJECT LAB (Room No. 205)FACULTY IN-CHARGE: Prof. (Dr.) Satyasis Mishra

CO-FACULTY IN-CHARGE: Debendra Kumar SahooLAB ASSISTANT: Nimay Chandra GiriPROJECT LABLEARNING OBJECTIVE:LEARNING OUTCOME:MICROPROCESSOR & INTERFACE DEVICES LAB

LEARNING OBJECTIVE:

Understand the internal organization of INTEL 8085 and 8086 Microprocessors and familiarize with Assembly Language Programs using the instruction sets of processors. LEARNING OUTCOME:

Students should learn to execute 8 & 16-bits basic assembly level language program by using 8085/8086 MP kit.