Electronics & Communication Engineering (SLICE)

Electronics & Communication engineering (SLICE)

Sanskrthi lion of innovative communication engineering deals with electrical circuits that involve active electrical components such as vacuum tubes, transistors, diodes, integrated circuits, optoelectronics, sensors etc. associated passive electrical components, and interconnection technologies. Commonly, electronic devices contain circuitry consisting primarily or exclusively of active semiconductors supplemented with passive elements; such a circuit is described as an electronic circuit.

Electronics & communications engineering is the utilization of science and math applied to practical problems in the field of communications. Electronics & communications engineers engage in research, design, development and testing of the electronic equipment used in various communications systems.

ECE focuses also on the design of the underlying hardware systems. Our curriculum is directed to applications in major areas such as telecommunications, energy and electronics sectors, while encouraging development of necessary skills for integration of hardware and software components.

All the laboratories are furnished with state-of-the-art equipment, licensed software and PCs. The Department is consistently achieving good results over the years.

  •   Workshop Lab
  •   Computer Aided Machine Drawaing Lab
  •   Machine shop Lab
  •   Design laboratory PG-Machine Design Lab
  •   Mechanical measurements and metrology Lab

ADMISSION OPEN

How to Apply?

Contact for Admissions
Behind Sri Sathya Sai Super Speciality Hospital, Beedupalli Road, Prasanthigram, Puttaparthi – 515134
+91-9100064545/9100974518/9100974519
enquiry@sseptp.org

We are now living in a world where the technology  is continuously making rapid strides. New technologies  evolve quickly making the current ones outdated. Unless the budding engineers are prepared to meet this challenge head on they would find it hard to survive. We at SSE provide a set of carefully tailored value added courses which will immerensely help them to be  quickly employable. These courses are designed in a way that will help bridge the gap between the  academic syllabus and the current industry practices. The value added courses offered are

CCNA Routing and Switching

  • The CCNA Routing and Switching certification is an entry-level certification for Network Support Engineers, Network Specialists and Network Administrators.
  • CCNA Routing and switching training course provides the fundamental networking knowledge to enable you to improve and manage today’s modern networks.
  • The CCNA Routing and Switching certification validates your ability to install, configure, operate and troubleshoot medium-sized routed and switched networks.

COURSE LAYOUT
(i) NETWORK FUNDAMENTALS

  • Exploring the Network
  • Configuring a Network Operating System
  • Network Protocols and Communications
  • Network Access
  • Ethernet
  • Network Layer
  • Transport Layer
  • IP Addressing
  • Subnetting IP Networks
  • Application Layer
  • It’s a Networ
    (ii)ROUTING & SWICHING ESSENTIALS
  • Introduction to Switched Networks
  • Basic Switching Configuration
  • VLANs, Routing Consepts
  • Inter-VLAN Routing
  • Static Routing, Static Routing
  • Routing Dynamically
  • Single-Area OSPF
  • Access Control Lists
  • DHCP, Network Address Translation for IPv4
    (iii)SCALING NETWORKS  
  • Building a Small to Medium-Sized Network
  • DHCP
  • The Spanning Tree Protocol
  • Link Aggregation
  • Troubleshooting Layer 2 Issues
  • Implementing EIGRP
  • Implementing Multi-Area OSPF
  • IOS File Management
    (IV) CONNECTING NETWORKS
  • Connecting to the WAN
  • Configuring Serial Connections
  • Broadband Solutions
  • Securing Site-to-Site Connectivity
  • Monitoring the Network
  • Troubleshooting the Network

Network Architecture

Embedded Systems

This course is conducted by the Electrical & Electronics and Electronics & Communication engineering departments. An Embedded system is a computer system with a dedicated function within a larger mechanical or electrical system, often with real-time computing constraints. It is embedded as part of a complete device often including hardware and mechanical parts. Embedded systems control many devices in common use today. Ninety-eight percent of all microprocessors are manufactured as components of embedded systems.

VLSI Design Verification and Test

Digital VLSI Design flow comprises three basic phases:

(i)VLSI Design,

(ii) Verification

(iii)Test

The  course would cover theoretical, implementation and of these three phases. Although there can be individual full courses for each of these phases, the present course aims at covering the important problems/algorithms/tools so that students get a comprehensive idea of the whole digital VLSI design flow.
VLSI Design: High level Synthesis, Verilog RTL Design, Combinational and Sequential Synthesis Logic Synthesis (for large circuits).
Verification Techniques: Introduction to Hardware Verification and methodologies, Binary Decision Diagrams(BDDs) and algorithms over BDDs, Combinational equivalence checking, Temporal Logics, Modeling sequential systems and model checking, Symbolic model checking.
VLSI Testing: Introduction, Fault models, Fault Simulation, Test generation for combinational circuits, Test generation algorithms for sequential circuits and Built in Self test.
COURSE LAYOUT
(i)Design
Module I: Introduction
Lecture I: Introduction to Digital VLSI Design Flow (week 1)
Lecture II:  High Level Design Representation. (week 2)
Module II: Logic Optimization and Synthesis
Lecture III:  Two level Boolean Logic Synthesis (week 3)
Lecture IV: Heuristic Minimization of Two-Level Circuits (week 4)
Lecture V: Finite State Machine Synthesis (week5)
Lecture VI: Multilevel Implementation (week 6)
(ii)Verification
Module – III: Binary Decision Diagram
Lecture-VII: Binary Decision Diagram: Introduction and construction (week 7)
Lecture-VIII: Introduction and Basic Operations on Temporal Logic (week 8)
Lecture-IX: Syntax and Semantics of CLT (week 9)
Lecture-X: Verification Techniques (week 10)
(iii)Test
Module  IV: Introduction to Digital Testing
Lecture-XI: Introduction to Digital VLSI Testing (week 11)
Lecture-XII:  Functional and Structural Testing (week 12)
Module  V: Fault Simulation and Testability Measures
Lecture-XIII : Fault Simulation (week 13)
Lecture-XIV: Testability Measures (week 14)
Module VI: Combinational Circuit Test Pattern Generation
Lecture-XV: Introduction to Automatic Test Pattern Generation (ATPG) (week 15).

Lecture-XVI: D-Algorithm(week 16)
Module  VII : Sequential Circuit Testing and Scan Chains
Lecture-XVII:  ATPG for Synchronous Sequential Circuits (week 17)
Lecture-XVIII : Scan Chain based Sequential Circuit Testing (week 18)
Module VIII : Built in Self test (BIST)
Lecture XIX : Built in Self Test    (week 19)
Lecture XX:  Memory Testing  (week 20)

Internship Programs

The Institute keeps keen objective to help understudies by supporting them to get internships throughout each semesters in well reputed companies that adds to their career growth by giving them practical experience in corporate environments along with live projects. Knowing the fact that Internships in companies contribute to vital part for career growth of individual students the programs are continuously conducted and students are motivated to take part for scaling up their skills and knowledge.

Mr.Hari Krishnan  HOD      Qualification:Ph.D Experience:8 Years

Mr.V.Prasannanjaneya Assistant Professor Qualification: Ph.D. Experience:8 Years.

Mr.V.Shavali Assistant Professor Qualification:Ph.D   Experience: 12Years

Mrs.K.Kanthamma Assistant Professor Qualification:Ph.D  Experience: 14 Years

Dr.G.Ravindranath Assistant Professor Qualification:Ph.D. pursuing  Experience:21 years

Ms.Rajini     Assistant Professor Qualification:M.Tech Experience:5 years

Ms.K.Bharathi      Asst Professor Qualification:M.Tech

Ms.Pavani              Asst Professor Qualification:M.Tech

Mrs.Hemavathi     Asst Professor Qualification:M.Tech Experience :3 years