Lab Investment :- Rs. 44,26,036/- | Faculty In-charge :- Dr. S. Karthik, Dr. V. P. Kavitha | Programmer :- Mrs. M. Usha Rani |
About Department
The Electronics and Communication Engineering (ECE) department at SRMIST Vadapalani, stands at the forefront of technological innovation, providing students with a dynamic and comprehensive education in this rapidly advancing field. Interdisciplinary research, a system-level approach and close ties with industry combine to yield up-to-date research. Robust industry connections complement these top-notch research opportunities. Through research center industrial liaison programs and departmental advisory boards, faculty and students can work towards future technologies. Our faculty, comprised of seasoned experts and industry professionals, guides students through a diverse range of subjects, fostering creativity and critical thinking.
Our Vision
Our Mission
Infrastructure
Our Vision
Our vision at the Electronics and Communication Engineering (ECE) department, SRM Institute of Science and Technology, Vadapalani is to produce globally competitive and socially responsible engineering graduates. We aspire to cultivate a learning environment that goes beyond conventional boundaries, fostering creativity, critical thinking and ethical values. Our commitment extends to nurturing individuals who not only excel in their technical expertise but also understand their responsibility towards society.
Our Mission
Our mission at the Electronics and Communication Engineering (ECE) department, SRM Institute of Science and Technology, Vadapalani is to deliver quality education through a continually updated curriculum, state-of-the-art laboratory facilities and effective teaching and learning processes. We strive to foster collaboration with industries, providing students with real-world exposure and enhancing their practical skills. Our aim is to address the evolving needs of society, industry, government and the scientific community.
Infrastructure
The ECE Department has 11 laboratories. These include the Processor and VLSI Lab, Network Simulation Lab, Microwave Communication Lab, Embedded Systems Lab, Electron Devices and Circuits Lab, Basic Engineering Practices Lab, Electronics and Instrumentation Lab, Digital Systems Lab, Communication Lab, Basic Electronics Engineering and IoT Research and Innovation Lab.
Placements Records
Infrastructure
The ECE Department has 11 Laboratories. These include processor and VLSI Lab, Network simulation Lab, Microwave and Optical Communication Lab, Embedded Systems Lab, Electron Devices and Circuits Lab, Basic Engineering Practices Lab, Electronics And Instrumentation Lab, Digital Systems Lab, Communication Lab, Basic Electronics Engineering and IoT Research and Innovation Lab. The Labs offer Opportunities for students to work on a wide range of advanced software packages.
- Orcad – A Proprietary Software Tool Suite Used For Electronic Design Automation(EDA).
- Bench Mark Trainer Kit In Networks-Lan Trainer V1.4
- Routing Simulator V1.0 (Multi User License)—Benchmark Lan Trainer
- Wireless N 150 USB Adapter D-Link Dwa-123 V 1.0
- MATLAB R2011a
- Rasperry Pi
- NVIDIA Jetson Nano. Developer Kit: – Tool Boxes Available : Communication Tool Box, Image Processing Tool Box, Signal Processing Tool Box, DSP System Tool Box, EDA Simulator Link, Filter Design HDL Coder, Fixed Point Tool Box, Matlab Coder, Real Time Windows Target, Simulink, Simulink Coder, Simulink Fixed Point, Simulink HDL Coder.
- XILINX ISE DESIGN SUITE, Version 13
- CADENCE Tool (University Bundle Analog & Digital FE & BE)
Description
In this laboratory, the interfacing of microprocessors with various boards, such as A/D converters, stepper motors, DC motors and multi digit displays, are carried out.
List of Equipments
- 8085 Micro Processor Trainer Kit
- 8086 Microprocessor Trainer Kit
- Key Board & Display Interface Board (VBMB001)
- Printer Interface Board (VBMB005)
- Stepper Motor Controller with Motor (VBMB13A)
- Traffic Light Control System
- 8086 Micro Processor 2 Channel DAC Interface Board [VBMB002]
- 8086 Micro Processor 8 Channel ADC Interface Board [VBMB003]
- 8086 Micro Processor 8251 & 8253 Inter facing Board [VBMB004]
- DSP Starter Kit (DSK )TMS320C6713
- 8051 Based System Design
- FPGA Multifunction Evaluation System(Spartan 3E)
- Nuvoton Board ARM-Cortex NUC140
Software Available
- MATLAB R2011a Toolboxes available: Communication Tool Box, Image Processing Tool Box, Signal Processing Tool Box, DSP System Tool Box, EDA Simulator Link, Filter Design HDL Coder, Fixed Point Tool Box, Matlab Coder, Real Time Windows Target, Simulink, Simulink Coder, Simulink Fixed Point, Simulink HDL Coder.
- XILINX ISE DESIGN SUITE, Version 13
- CADENCE Tool (University Bundle Analog & Digital FE &BE)
- Synopsys TCAD
The Network and Simulation Laboratory in the Department is involved in research, education, and scholarly activities in the broad area of communication networks and systems, with an emphasis on theory, architecture, topology, performance analysis, mutli-access, mobility, routing and switching, link control, and protocols. The current areas of research focus include routing and path computation, optimal resource allocation in wired and wireless networks and high-performance computer networks and applications.
Description
The Network Simulation Laboratory is engaged in research and education in the area of wireless communication and networking protocols and algorithms to provide ubiquitous access to wired and wireless resources for mobile and multimedia users. The emphasis in our research has been on ad-hoc networking technology, self-reconfigurable systems, and power-limited communication protocols.
Lab Investment :- Rs. 10,28,160/- | Faculty In-charge :- Dr. D. Vaishali, Dr. Sanjay Kumar | Programmer :- Mrs. M. Usha Rani |
Number of LAN Trainer Kit :- 10 | Number of WLAN Kit :- 04 |
Kit Specfications
- LAN TRAINER KIT :- BENCHMARK LAN –T with (3 NETWORK INTERFACE UNITS AND 1 NETWORK EMULATOR UNIT)
- WLAN KIT :- BENCHMARK WLAN-T WITH (1 CENTRAL UNIT, 4 WLAN ADAPTORS, 1 POWER SUPPLY FOR CENTRAL UNIT)
Software Installed
- BENCH MARK TRAINING IN NETWORKS-LAN TRAINER V1.4
- ROUTING SIMULATOR V1.0 (MULTI USER LICENSE) – BENCHMARK LAN TRAINER
- WIRELESS N 150 USB ADAPTER D-LINK DWA-123 V 1.0
The mission of this lab is to design, analyze the characterization of microwave and optical communication devices. This lab is equipped to carry out basic microwave measurements, such as impedance, power, frequency, VSWR, etc., using waveguide technology, Many students undertake practical courses in this laboratory. In addition to supporting these courses, the lab also provides the necessary equipment for the students to perform their projects in both the microwave and optical communication domains.
Description
Microwave and optical communication laboratory is meant for experiments at the instructional level for undergraduate students. The laboratory is adequately equipped with microwave benches at C-band and X-band, which include Klystron tubes, Klystron power supplies, modulators, directional couplers, various power energy and VSWR meters, and microstrip antenna accessories. The experiments conducted include the radiation and terminal properties of horns, parabolic discs, reflectors, strips, and patch antennas, as well as the characteristics of active devices and passive components. In the optical communication lab, fiber optic trainer kits, LED, PD and LASER diode characteristics kits are used to measure various parameters of the optical fiber communication system. Also, the lab is equipped with optical communication devices to facilitate the students understanding of the basics and characteristics of optical communication systems.
Current Equipment
Lab Investment :- Rs. 13,60,825/- | Faculty In-charge :- Dr. Priti Rishi, Mr. A. Dinesh Babu | Programmer :- Mr. V. William Rajasingh |
Total Number of Equipments :- 28 |
Equipments
- Fiber-optic Trainer Kit
- LED Characteristics Kit
- LASER Diode Characteristics Kit
- Photo Diode Characteristics Kit
- Fiber optic Power meter
- Cooling fan for Microwave set up
- Micro-Strip Antenna and Accessories Set
- Microwave set up to study Directional Coupler, E&H Plane, & Magic Tee
- Microwave set up for Radiation pattern of the horn and paraboloids
- Microwave set up to study Reflex Klystron, VSWR, Impedance, Wavelength, & Freq. measurement
The Embedded System Laboratory was designed and developed with the major focus in making students aware with hardware designs. Our aim is to provide a research environment and offer intensive training in embedded system technology.
Description
This lab includes the various processors and controllers mostly used in embedded products. The embedded system lab has a product development board such as 8051-based Embedded Application Development System (EADS). 89C51 Micro-51 LCD trainer kit, ARM NXPLPC2148 EADS-LPC2148 Micon Board, ARM ATMEL AT91SAM7S256 EADS-LPC2148 Micon board. This lab also included higher end computers with software packages.
Lab Investment :- Rs. 2,50,000/- | Faculty In-charge :- Dr. P. Nagarajan, Dr. P. Kabilamani | Programmer :- Mrs. M. Usha Rani |
Kit Specifications
- 8051 Based Embedded Application Development System(EADS)
- ARM NXPLPC2148 Embedded Application Development System(EADS)-LPC2148 MICON BOARD
- ARM ATMEL AT91SAM7S256 Embedded Application Development System(EADS)-LPC2148 MICON BOARD
- 89C51 Micro-51 LC LCD TRAINER KIT
Number of Kits
- 8051 Based Embedded Application Development System(EADS) Kit – 3
- ARM NXPLPC2148 Embedded Application Development System(EADS) Kit – 10
- ARM ATMEL AT91SAM7S256 Embedded Application Development System(EADS) – 10
- 89C51 Micro-51 LC LCD TRAINER KIT – 5
This lab familiarizes the students with the fundamentals of analog electronics. This lab is equipped with a wide range of devices, which helps the students undergo intensive training and provides a deep insight into the world of electronics. The lab provides a skeleton of applied electronics.
Description
This lab is intended to explore the properties of analog circuits, CROs, power supplies, measuring meters, and linear ICs to study the operation principles of operational amplifiers and other linear ICs. All analog and digital IC-related experiments can be carried out. The testers for IC are available. To design and analyze various electronic circuits, such as multivibrators, applications of operational amplifiers, and oscillators, so that students are able to understand the practical aspects of basic electronic circuits.
Lab Investment :- Rs. 18,45,112/- | Faculty In-charges :- Dr. T. S. Balaji, Mrs. V. Bhuvaneswari | Programmer :- Mr. V. William Rajasingh |
Equipment Specifications
S. No. | Equipments | Range |
1. | AMMETER | (0 -5/10) mA |
(0 -30) mA | ||
(0 -100) micro A | ||
(0 -500) micro A | ||
(0 -500 )mA | ||
(0 -100)mA | ||
(0 -1 )mA | ||
(0 -250) micro A | ||
(0 – 10) mA | ||
(0 -5 )mA | ||
2. | VOLTMETER | (0 -15/30)V |
(0-1) V | ||
(0 – 5 )V | ||
(0 –10 )V | ||
(0 – 30 )V | ||
(0 – 3 )V | ||
3. | DECADE RESISTANCE BOX | (0-1) Mohm |
4. | DECADE CAPACITANCE BOX | (0-1) Farad |
5. | DECADE INDUCTANCE BOX | (0-1) MH |
6. | SINGLE POWER SUPPLY | (0-30)V,2A |
7. | DUAL POWER SUPPLY | (0-30)V,2A |
8. | DUAL POWER SUPPLY | (0-30)V,5A |
9. | FIXED POWER SUPPLY | (0+12,-12)V |
10. | CRO | (0-30)MHz |
11. | FUNCTION GENERATOR | (0-3)MHZ |
12. | FUNCTION GENERATOR | (0-10)MHZ |
13. | LCR METER | – |
14. | MULTIMETER | – |
Background
This lab introduces the students to the basic electrical measuring equipment, and they will deal with some of the frequently used instruments and equipments, like the digital multimeter, tester, etc. The students obtain basic knowledge about different types of wiring circuits, behaviour of current, voltage, power and energy under different conditions, and their determination. They can also gain knowledge about residential wiring, and troubleshooting various electrical equipment like ceiling fans, mixers, air conditioners, and other electrical gadgets. These experiments help provide them with the foundation they require practically.
Lab Investment :- Rs. 11,34,440/- | Faculty In-charge :- Dr. R. Sathiya, Mrs. V. Akila | Programmer :- Ms. N. Anisha |
Number of Experimental Boards :- 16 |
System Specifications
- COIL WINDING MACHINE SETUP – 1 NO.
- WIRING SETUP
- FLUORESCENT WIRING – 2 NOS
- GODOWN WIRING – 2 NOS
- RESIDENTIAL WIRING – 1 NO.
- STAIR CASE WIRING – 2 NOS
- PHOTO VOLTAIC CELL SETUP – 1 NO.
- LUX METER
- MEASUREMENT OF ELECTRICAL QUANTITIES – 2 NOS
- SINGLE PHASE AUTO TRANSFORMER
- SINGLE PHASE RESISTIVE LOAD
- SINGLE PHASE INDUCTIVE LOAD
- SINGLE PHASE CAPACITIVE LOAD
- MEASUREMENT OF ENERGY USING SINGLE PHASE ENERGY METER – 2 NOS
- SINGLE PHASE RESITI VE LOAD
- STOP WATCH
- SINGLE PHASE AUTO TRANSFORMER
- MEASUREMENT OF ENERGY USING THREE PHASE ENERGY METER – 2 NOS
- THREE PHASE LAMP LOAD
- THREE PHASE AUTO TRANSFORMER
- STOP WATCH
- STUDY OF EARTHING AND MEASUREMENT OF EARTH RESISTANCE – 1 NO
- EARTHING TOOL KIT
- SOLAR SYSTEM FOR SMALL HOUSES-1 No
- Control Panel Circuit for Jogging,Forward Reversing of 3-phase Induction Motor-1 No
- 3-Phase Induction Motor Lamp Load-1 No
Motivation
The Electronics and Instrumentation Lab in the ECE Department, SRM Institute of Science and Technology, Vadapalani is established to provide practical, elementary, as well as comprehensive knowledge about instrumentation for students.
Description
This lab focuses on studying the properties of analog circuits, such as CROs, power supplies, measuring meters, and linear ICs, to understand the principles of analog and other linear circuits. It emphasizes the role of semiconductor materials, like silicon, in forming pn junctions through doping, enabling diode functions such as rectification. BJTs and MOSFETs are explored for switching and amplification. Tools like PSPICE and Multisim aid in design experimentation and circuit analysis, enhancing familiarity with engineering applications.
- Thermistor module
- Thermocouple module
- RTD module
- Load cell trainer module
- Strain measurement trainer
Lab Investment :- Rs. 4,73,010.60/- | Faculty In-charge :- Mr. P. Rathina Kumar, Dr. Anju M I | Programmer :- Mrs. P. Vedha Priya |
Number of Experimental Boards :- 16 |
Background
A comprehensive undergraduate engineering program must provide opportunities for the application of theoretical concepts to the solution of realistic engineering problems. As digital systems and computer engineering concepts are integrated into the undergraduate engineering curriculum, we have included this lab, which will enable them to work with digital networks and mini-computers.
Description
The Digital System Lab is where our students gain practical experience in the use of basic hardware components. Through experiments, students become familiar with gates, multiplexers, decoders, flip-flops, counters, registers and displays. The syllabus focuses on Boolean logic functions, Descriptive TTL and CMOS logic, as well as IC logic devices. It describes the proper method for the detection and correction of common fault potentials.
Lab Investment :- Rs. 2,06,468/- | Faculty In-charges :- Mrs. A. Vasuki, Dr. R. Bhairavi | Programmer :- Ms. N. Anisha |
Number of Digital Trainer Kit :- 30 |
Background
We live in an age where various forms of electronic communication are rapidly expanding, and the need for new engineering graduates who are prepared to innovate, create, and work with these systems is evident. The communication lab presently serves to give the ECE students laboratory experience in basic electronic communication systems.
Description
The concepts of all types of modulation & demodulation can be studied. The recent communication techniques can be demonstrated with the available equipments. Students conduct experiments in a communication lab, where they become acquainted with oscilloscopes, signal generators, and spectrum analyzers. The measurement of common signals such as sinusoids and periodic square waves is conducted in both the time and frequency domains. The training and experience that ECE students gain in this laboratory enhances their understanding of analog and digital communication systems. This lab has highly advanced digital storage oscilloscopes and spectrum analyzers.
The Curriculum objectives are
- To understand basic theories of digital and analog communication.
- To design and implement analog/ digital modulators and demodulators.
- To understand the applications of balanced modulator circuits.
Lab Investment :- Rs. 11,23,894/- | Faculty In-charge :- Dr. P. Glaret Subin, Dr. S. Balaji | Programmer :- Mrs. P. Vedha Priya |
Number of System :- 30 |
S.NO | EQUIPMENTS – Name of the ITEM | RANGE |
1 | Analog Pulse Mod/Demod | – |
2 | Band pass modulation | – |
3 | Band pass Demodulation KIT | – |
4 | Delta Modulation | – |
5 | Pulse code Modulation | – |
6 | Pulse code Demodulation | – |
7 | QPSK Demodulation KIT | – |
8 | QPSK Modulation KIT | – |
9 | Time Division Multiplexing & Demultiplexing | – |
10 | PT/T10DSMO1060* “Scientific” Digital Storage Oscilloscope | 60 MHZ |
11 | PT/T10DSMO1100* “Scientific” Digital Storage Oscilloscope | 100 MHZ |
12 | PT/H1SAHMS1000E HAMEG HMS1000E 1 GHz SPECTRUM ANALZER | 1 GHz |
13 | ANALOG CRO 30HZ DUAL | 30HZ |
14 | FUNTION GENERATOR 1 MHZ | 1 MHZ |
15 | AM MODULATOR AND DE MODULATOR | |
16 | DSP –SC -MODULATOR AND DE MODULATOR | |
17 | FDM MULTIPLEXER AND DE -MULTIPLEXER | |
18 | FM MODULATOR AND DE MODULATOR | |
19 | PAM PPM PWM MODULATOR AND DE MODULATOR | |
20 | PRE EMPHASIS AND DE EMPHASIS | |
21 | SSB MODULALOR AND DE MODULATOR | |
22 | TDM MULTIPLEXER AND DE -MULTIPLEXER | |
23 | DATA -FOMATTING | |
24 | DELTA MODULATION AND DE MODULATION | |
25 | DIFFERENTIAL PULSE CODE MODULATION AND DE MODULATION | |
26 | DPSK MODULATION AND DE MODULATION |
System Specifications
- DELL OTPIPLEX 9020PC
- INTEL CORE I5 3.2 GHZ PROCESSOR
- 4 GB DDR3 RAM 500 GB HDD
- 18.5” LED MONITOR
Software Installed
- WINDOWS 7
- MS OFFICE 2007
- MATLAB R2011a
Background
This is our busiest set of laboratories, in terms of utilization. Its main benefit is versatility and generality, in view of the many basic course needs it serves. This is the main lab where basic experiments like device characteristics and basic analog circuits are conducted. This lab is general enough to hold a number of experiments suitable for giving students enough exposure to enable them to easily adapt to the experiments in more advanced laboratories in the department.
Description
All basic electronic devices, their characteristics and their applications can be studied. Using these devices, the fundamental electronic circuits can be constructed and checked. In order to introduce the students to the basic components of electronics, this lab is furnished with advanced CROs, function generators and digital multimeters. Students can perform practicals on P-N junction diodes, Zener diodes, rectifiers and filters,RC coupled amplifiers and FETs,transistor biasing and their characteristics in different modes.
Lab Investment :- Rs. 8,43,573/- | Faculty In-charge :- Dr. R. Sathiya, Mrs. V. Akila | Programmer :- Ms. N. Anisha |
Number of Experimental Boards :- 16 |
Kit Specification
- Digital IC Tester – 10 No’s
- Analog IC Tester – 10 No’s
- LCR Meter – 10 No’s
Software Installed
EDA SOFTWARE OrCAD Licensed – OrCAD is a proprietary software tool suite used for Electronic Design Automation(EDA).
- Windows XP[Version 3.1.2600] – 10 Users
Background
The IoT Research and Innovation Lab was established on 03rd April 2019. It is sponsored by the UK based professional body Organization Institution of Engineering and Technology’s Chennai Local Network (IET CLN) and it is technically supported by Nokia Solutions and Networks Ltd. This Innovation lab focusses on R & D activities in the areas of IoT, Smart Robotics, Artificial Intelligence etc. This lab collaborates with Nokia Solutions and Networks Ltd in developing State-of-the-art solutions related to environmental monitoring in industries, Augmented Reality, Data Visualization.
Description
The IoT Research and Innovation Lab has IoT SoC boards ranging from Raspberry Pi, NVIDIA Jetson Nano Developer Kit, various sensor and display modules. These components are used to develop IoT solutions for various IoT use-case scenarios related to the smart industry, which are implemented in the Oragadam factory of Nokia Solutions and Networks Ltd. As of September 2021, around 40 students have been provided the opportunity to do their internship at Nokia and be part of this R lab to design various solutions related to IoT, AR.
Lab Investment :- Rs. 1,35,053.72/- | Faculty In-charge :- Mr. P. Rathina Kumar, Dr. Anju M I | Programmer :- Mrs. P. Vedha Priya |
Components Description
- Raspberry Pi 4 Model-B with 4 GB RAM
- 2-inch e-Ink Paper Display Module with SPI Interface
- Raspberry Pi Camera V2
- Official Micro-HDMI (Male) to Standard HDMI (Male) Cable for Raspberry Pi
- Arducam IMX219 Wide Angle IR Sensitive (NoIR) Camera Module for Nvidia Jetson Nano
- HDMI to HDMI Cable 0.5 Meter Flat Pure Copper Black
- Official USB type-C 15.3W Power Supply for Raspberry Pi 4-Black
- 37 in 1 Sensors Kit compatible with Arduino
- ESP32 LoRa SX1278 0.96 Inch Blue OLED Display BT WiFi Module for Arduino
- SeeedStudio Grove 3 Axis Digital Accelerometer
- BMP180 Digital Barometric Sensor Module compatible with Arduino
- Raspberry Pi 4 Model B Touchscreen 7-inch Display Case -ABS, Red
- 96 Inch I2C/IIC 4pin OLED Display Module BLUE
- PIR Motion Sensor Detector Module HCSR501
- MAX30100 Pulse Oximeter Heart Rate Sensor Module
- Raspberry Pi Pico
- NVIDIA Jetson Nano Developer Kit
- SanDisk Micro SD/SDHC 32GB Class 10 Memory Card
- SeedStudio Grove GPS (Air530)
- 7″ Official Raspberry Pi Display with Capacitive Touchscreen
- Orange 5V 3A Power supply Adapter charger with Micro USB Plug
- MQ 2 Gas Sensor
- HC-SR501 (PIR Sensor)
- Node MCU
- IC Module IR Board
- PCB HCSR 04 (HE)
- DHT – 11 Sensor Module
- Relay Board
- Arduino Nano RP2040 Connect with Header
- CC2530F256 Zigbee UART Wireless Core Development Board with Serial Port
- M177 NRF24L01 2.4GHz Antenna Wireless Transceiver Module
- Adafruit SGP40 Air Quality Sensor Breakout – VOC Index – STEMMA QT/Qwiic
- MQ 135 Air Quality/Gas Detector Sensor Module For Arduino
- MQ-2 Smoke LPG Butane Hydrogen Gas Sensor Detector Module
- Waveshare MQ-7 Gas Sensor
- Waveshare MQ-5 Gas Sensor
- APDS9960 RGB Gesture Sensor Detection I2C Breakout Module for Arduino
- DFRobot Fermion BMX160 9-axis Sensor (Breakout)
- 5A range Current Sensor Module ACS712
- Voltage Detection Sensor Module 25V
- RFID Reader/Writer RC522 SPI S50 with RFID Card and Tag
- 56MHz RFID IC Key Tag
- Pressure Sensor,5kg+ HX711AD Module,+4P DuPont Wire + Shell, Weighing Electronic Weighing Sensor Kit
- HFS-DC06 5.8G DC5V Microwave Motion Sensor Module for LED Lighting Doppler Effect
- 5V 6 Channel Low Level Relay Module with Light Coupling
- I2C Bi-Directional logic Level Converter- 4 Channel
- LCD1602 Parallel LCD Display with IIC/I2C interface
- W5100 Ethernet Module Ethernet Network Module for Arduino
- IRF520 MOSFET Driver Module for Arduino ARM Raspberry pi
- 5-36v Switch Drive High-power MOSFET Trigger Module
- TowerPro MG995 Plastic Gear Servo Motor with CNC Aluminum Steering Servo Horn Arm
- 16-Channel 12-bit PWM/Servo Driver I2C interface PCA9685 for Arduino Raspberry Pi
- US-100 Ultrasonic Sensor Distance Measuring Module with Temperature Compensation
- Virtual Reality Kits
Placement Records
1.At SRMIST Vadapalani, our commitment to academic excellence is complemented by a strong focus on ensuring successful career outcomes for our Electronics and Communication Engineering, its specialization in Data Science and VLSI Design graduates. Our placement programmes are meticulously designed to connect students with leading industry players, offering them opportunities to apply their skills in real-world scenarios. Our dedicated placement cell collaborates closely with renowned companies, organizing recruitment drives, industry talks, and skill development sessions. With a track record of high placement percentages, our ECE graduates are sought after for their technical acumen, problem-solving skills, and adaptability to industry trends.