The main objective of this lab is to provide the necessary basic knowledge and abilities that are required for the application and the design of analog electronic circuits. The emphasis is on the analysis of primary functional blocks. The student can understand the working principle of the most common analog basic components and building blocks, with a view to the practical use and to the integration of these basic components and building blocks into a larger circuit or network. The major equipment deployed in this lab include Cathode Ray Oscilloscope (CRO), Function Generators, Regulated Power Supply, Ammeters, Voltmeters and Digital Millimetres.
The lab is well equipped with Digital IC trainer kits & a good number of experiments-based IC sets & test equipment which enables the students to perform the necessary experiments designed as per VTU syllabus. The experiments are designed in such a way that the students become well aware of the concepts as they learn in the theory sessions. The experienced professors with indent knowledge handle the lab. The major Equipment used is Digital Lab Trainers and major ICs used are IC7400, IC7408, IC7402, IC7432, IC7486, IC7474, IC74136 and IC74159.
This lab will make the students understand the internal organisation of INTEL 8085, 8086 and 8051 Microprocessors and Microcontroller Assembly Language Programs using the instruction sets of processors and to study the interfacing of the processor with various peripheral devices. The goal of this laboratory exercises is to learn more about Microprocessor & Microcontrollers, using a development board based on the modern microprocessor device family. Individual students can do hands- on practice on the various kits available for Microprocessors & Microcontrollers.
This lab is useful for students to achieve practical knowledge, pertaining to analogue and digital communication, using the state-of-the-art Laboratory. The lab is equipped with Digital Oscilloscopes, trainer kits and modules to enable the study of components of an analog & digital communication system. The students perform experiments to study the characteristics of Analog Filters (LPF, HPF and BPF), analog modulation techniques (AM, FM, PM, PWM and PPM), Multi-vibrators (Astable and Monostable), and Digital modulation techniques (ASK, FSK, PSK), optical fibre communication link, and characteristics of microwave devices.
The study of Digital Signal Processing is a rapidly growing area of research. The DSP Lab provides the facility for the implementation of signal processing operations such as Discrete Fourier Transform (DFT), Inverse Discrete Fourier Transform (IDFT), Sampling Theorem, Convolution Theorem, Correlation, Infinite Impulse Response Filters (IIR) and Finite Impulse Response filters (FIR). The lab is equipped with 30 systems of latest configuration with high-speed internet, MAT LAB software, and TMS320C6713 DSP kits for hardware implementation.
The Power Electronics Lab has 24 bench top setups and can accommodate 30 students at a time. It contains setup for AC regulator using TRIAC and DIAC combination, contains setup for induction motor and IGBT Bridge Inverter. It also contains triggering kits, controller kits (single phase) inverter kits and motor kits. Talented faculties and instructors with good experience are present to guide the students.
The vision of the VLSI lab is to facilitate and encourage education and R & D under the same roof. In the present scenario, the field of VLSI design has endless possibilities. A perfect platform for those who want to acquire enough potential to go ahead and meet the challenges circuit designing in analog and digital. The research activities in the VLSI group mainly focus on Digital and Analog circuit design.
The VLSI lab is well-equipped with 30 systems, along with high-end software tools and packages for VLSI design and synthesis namely Menta Graphics, Xilinx ISE Foundation Software and XUP Spartan – 3E Starter Kits.
The Hardware Description Language is very useful for describing digital circuits at the algorithmic, register transfer and gate level. It enables event-driven simulation and provides concepts for describing circuit hierarchy, concurrency and time in addition to features known from programming languages.
The HDL Lab is equipped with 30 systems, loaded with the Xilinx 9.1i version software, required for the execution of programs. The Lab comprises 12 Hardware kits, equipped with Spartan 3 family FPGA daughter boards and on board LCD and Seven segment & keyboard matrix. The Lab also comprises of various interfacing boards such as Dual DAC, Elevator, Temperature Measurement, and Stepper Motor/Dc Motor for the conduction of experiments as prescribed by the Vishvesvarayya Technological University. Apart from the lab experiments, there are kits available for the students to perform their academic projects in Field Programmable Gate Array (FPGA).
