MI MICRO-CONTROLLER APPLICATION IN MEDICAL TECHNOLOGY (3350301)  

6
Credit
4 + 0 + 2
Lect + Tuto + Pract
Teaching Scheme
70 + 30 + 0
ESE + PA + ALA
Theory Marks
20 + 0 + 30
ESE + OEP + PA
Practical Marks
ESE - End Semester Examination, PA - Progress Assessment, ALA - Active Learning Assignments, OEP -Open Ended Problem


Rationale
Microcontrollers are being excessively used in the field of automation in medical equipments. The controller is the brain of medical instrumentation system. Most of medical instruments are dependent on microcontrollers and hence for a biomedical engineering student, it is important to know the architecture of typical microcontroller and general idea of automation provided by microcontroller. Therefore, this course on microcontrollers is designed to develop the requisite skills to program and interface microcontrollers and debug/troubleshoot microcontroller-based systems.
Course Outcome
The theory should be taught and practical should be carried out in such a manner that students are able to acquire different learning out comes in cognitive, psychomotor and affective domain to demonstrate following course outcomes.

i. Compare the different blocks of microcontroller with microprocessor.
ii. Use hardware concepts of microcontroller 8051 in bio medical applications.
iii. Develop logic for data transfer operations.
iv. Develop logic for arithmetic, logical, branching and looping operations.
v. Interface various peripheral devices and systems with microcontroller 8051.

Active Learning
i. http://www.electronics-tutorials.com/
ii. http://www.efymag.com/
iii. Microcontroller Simulators like Keil C51 software, EdSim51DITM Simulator, MCU 8051 IDE ,etc.
iv. seminarprojects.net/c/application-of-microcontroller-in...
v. www.ijareeie.com/upload/2014/january/10_Biometric.pdf
vi. www.datasheetarchive.com/biomedical%20using%20microcontroller-dat.
vii. www.ti.com/lit/ml/slyp161/slyp161.pdf
viii. grietinfo.in/.../6-DOC-MICROCONTROLLER%20BASED%20PATIENT.