ET4009 Embedded Networking and Automation of Electrical System Syllabus:

ET4009 Embedded Networking and Automation of Electrical System Syllabus – Anna University PG Syllabus Regulation 2021

COURSE OBJECTIVES:

1. To discuss the fundamentals building blocks of a digital instrument.
2. Introduce wired, WSN for configuring metering network
3. Discuss requirements for grid automation using meters.
4. To discuss networking configuration to develop PAN.
5. To discuss the functions of digital instrument Power quality monitoring

UNIT I BUILDING SYSTEM AUTOMATION

Sensor Types & Characteristics: Sensing Voltage, Current, flux, Torque, Position, Proximity, Accelerometer – Data acquisition system- Signal conditioning circuit design- Uc Based & PC based data acquisition – uC for automation and protection of electrical appliances –processor based digital controllers for switching Actuators: Stepper motors, Relays –System automation with multi channel Instrumentation and interface .

UNIT II EMBEDDED NETWORKING OF INSTRUMENT CLUSTER

Embedded Networking: Introduction – Cluster of Instruments in System- Comparison of bus protocols – RS 232C- embedded ethernet – MOD bus and CAN bus, LIN BUS- Introduction to WSN-– Commercially available sensor nodes-Zigbee protocol -Network Topology Energy efficient MAC protocols –SMAC –Data Centric routing Applications of sensor networks- Database perspective on sensor networks- IoT Applications .

UNIT III AUTOMATION OF SUBSTATION

Substation automation- Distribution SCADA system principles -role of PMU,RTU, IEDs, BUS for smart Substation automation- Introduction to Role of IEC 61850,IEEEC37.118 std- Interoperability and IEC 61850-challenges of Substations in Smart Grid – challenges of Energy Storage and Distribution Systems monitoring – Communication Challenges in monitoring electric utility asset .

UNIT IV METERING OF SMART GRID

Characteristics of Smart Grid- Generation by Renewable Energy Sources based on solar grid Challenges in Smart Grid and Microgrids- electrical measurements with AMI -Smart meters for EV plug in electric vehicles power management -Home Area Net metering and Demand side Energy Management applications.

UNIT V SMART METERS FOR PQ MONITORING

Power Quality issues of Grid connected Renewable Energy Sources -Smart meters for Power Quality monitoring and Control – Power Quality issues -Surges – Flicker – Inter harmonics – Transients – Power Quality Benchmarking – Power Quality Meters- Meter data management In Smart Grid-, communication enabled Power Quality metering

TOTAL: 45 PERIODS

COURSE OUTCOMES:

At the end of this course, the students will have the ability to
CO1: Demonstrate criteria of choice of sensors, components to build meters.
CO2: Illustrate the demand for BUS communication protocols are introduced
CO3: Analyse the need and standards in Substation automation
CO4: Deployment of PAN for metering networked commercial applications
CO5: Improved Employability and entrepreneurship capacity due to knowledge up gradation on recent trends in embedded networked communications.

REFERRENCES:

1. Control and automation of electrical power distribution systems, James Northcote-Green, Robert Wilson, CRC, Taylor and Francis, 2006
2. Krzysztof Iniewski,”Smart Grid ,Infrastructure& Networking”,TMcGH,2012
3. Robert Faludi,”Building Wireless Sensor Networks,O’Reilly,2011
4. Mohammad Ilyas And ImadMahgoub, ‘Handbook of sensor Networks: Compact wireless and wired sensing systems’, CRC Press,2005
5. Shih-Lin Wu,Yu-Chee Tseng,{“Wireless Ad Hoc Networking, PAN, LAN, SAN, Aurebach Pub,2012
6. Sanjay Gupta, “Virtual Instrumentation, LABVIEW”, TMH, New Delhi, 2003
7. Ernest O. Doeblin and Dhanesh N Manik, “ Measrement Systems – Application and Design”, 5th Edn, TMH, 2007.
8. Bhaskar Krishnamachari, ‘Networking wireless sensors’, Cambridge press 2005