System Design Laboratory II
The laboratory will introduce the students to:
• Various concepts of embedded system design
• IDE’s. Simulation and development tools
• Implementing simple systems using ARM Cortex M devices
• Design and implement interfaces for various applications
• Design and realize application systems
Communication system
Course is related to the electronic communication system, explains different modulation techniques, introduction of noise, sampling theorem.
Foundation course in IC Layout Design
Foundation course on IC layout. Design constraints and layout methodologies followed in IC design.
Networked Embedded System and IoT
Syllabus
Networked Embedded Systems and their applications, Wireless Communication protocols like Bluetooth, Zigbee, Wi-Fi IEEE 802.11, Home RF, 6LoWPAN
Communication Protocols for In-Vehicle Networks CAN (Controller Area Network), LIN
(Local Interconnect Network), MOST (Media Oriented Systems Transport) and Flex Ray standards and protocols.
Introduction to the Internet of Things, Elements of an IoT system., Typical IoT applications,
Wireless technologies for IOT, quality of service, resource reservation and scheduling, and performance measurements.
Case studies: sensor -networks, smart homes, smart highways etc
EL- 104 Mathematical Methods in Electronics and Network Analysis
Syllabus :
♦ Differential equations and their solutions, Introduction to Signals and Systems, Bessel functions of first and second kind
♦ Introduction to statistics, Population and Sample and Types of Data, Measures of Central Tendency, Measures of Dispersion and Discrete Probability Distribution, Laplace transform and its applications, Analysis of LTI Continuous Time System using Laplace Transform, Z-Transform
♦ Network elements, Network Graphs, Nodal and Mesh analysis, Zero and Poles, Bode Plots, Laplace transforms, Two-port Network Parameters, Transfer functions, Signal representation. State variable method of circuit analysis. AC circuit analysis, Transient analysis