Dept of EEE, REC

               On completion of the course, students will be able to
                         realize  the  nature  of  the  modern  power  system,  including  the  behavior  of  the  constituent
                          components and sub-systems
                         analyze  a  network  under  both  balanced  and  unbalanced  fault  conditions  and  interpret  the
                          results
                         analyze load flow of an electrical power network and interpret the results of the analysis.
                         realize the transient stability of a single machine/infinite bus system using both analytical and
                          time simulation methods
                         evaluate the individual parts of an electrical power system.

               TEXT BOOKS:
                   1.  Nagrath  I.J.  and  Kothari  D.P.,  ‘Modern  Power  System  Analysis’,  Tata  McGraw-Hill,  Fourth
                       Edition, 2011.
                   2.  John J. Grainger and  W.D. Stevenson Jr., ‘Power System  Analysis’, Tata McGraw-Hill, Sixth
                       reprint, 2010.
                   3.  P.  Venkatesh,  B.V.  Manikandan,  S.  Charles  Raja,  A.  Srinivasan,  ‘  Electrical  Power  Systems-
                       Analysis, Security and Deregulation’, PHI Learning Private Limited, New Delhi, 2012.

               REFERENCES:
                                                                                                            st
                   1.  HadiSaadat, ‘Power System Analysis’, Tata McGraw Hill Education Pvt. Ltd., New Delhi, 21
                       reprint, 2010.
                                                                                                            th
                   2.  C.L.Wadhwa,  ‘Electric  Power  Systems’,  New  Age  International  Publishers,  New  Delhi,  6
                       Edition reprint, 2010.
                   3.  http://ieice.org/proceedings/NOLTA2005/HTMLS/paper/5035.pdf
                   4.  https://www.electrocorder.com

               EE17502         MICROPROCESSORS, MICROCONTROLLER                                          L  T  P  C
                                             AND APPLICATIONS                                            3   0  0   3

               OBJECTIVES:
                     To apply knowledge of the architecture for programming of 8085 & 8086 microprocessor.
                     To develop skills in interfacing of peripheral devices with 8085 microprocessor.
                     To apply knowledge of the architecture for programming of 8051 microcontroller.
                     To impart the knowledge about the instruction set
                     To understand the basic idea about the data transfer schemes and its applications


               UNIT I  8085 and 8086 PROCESSOR                                                                   9
               Hardware Architecture, pinouts – Functional Building Blocks of Processor – Memory organization – I/O
               ports and data transfer concepts– Timing Diagram – Interrupts- 8086 Architecture.

               UNIT II  PROGRAMMING OF 8085 PROCESSOR                                                                  9
               Instruction -format and addressing modes – Assembly language format – Data transfer, data Manipulation
               &  control  instructions  –  Programming:  Loop  structure  with  counting  &  Indexing  –  Look  up  table  -
               Subroutine instructions - stack.

               UNIT III  8051 MICRO CONTROLLER                                                                   9

               Curriculum and Syllabus | B.E. Electrical and Electronics Engineering | R2017           Page 57