MICROCONTROLLER(Core Course)
AS PER CHOICE BASED CREDIT SYSTEM (CBCS)
SEMESTER – V
Subject Code
15EE52
IA Marks 20
Number of
Lecture Hours/Week 04
Exam Hours
03
Total Number
of Lecture Hours 50
Exam Marks
80
Credits – 04
Course
objectives:
- To explain the internal organization and working of Computers, microcontrollers and embedded processors.
- Compare and contrast the various members of the 8051 family.
- To explain the registers of the 8051 microcontroller, manipulation of data using registers and MOV instructions.
- To explain in detail the execution of 8051 Assembly language instructions and data types
- To explain loop, conditional and unconditional jump and call, handling and manipulation of I/O instructions.
- To explain different addressing modes of 8051, arithmetic, logic instructions, and programs.
- To explain develop 8051C programsfor time delay, I/O operations, I/O bit manipulation ,logic, arithmetic operations and data conversion.
Module-1
8051
Microcontroller Basics: Inside the Computer, Microcontrollers and Embedded
Processors, Block Diagram of 8051, PSW and Flag Bits, 8051 Register Banks and
Stack, Internal Memory Organization of 8051, IO Port Usage in 8051, Typesof
Special Function Registers and their usesin 8051, Pins Of 8051. Memory Address
Decoding, 8031/51 Interfacing With External ROM And RAM.8051 Addressing Modes. 10
HOURS
Revised
Bloom’s Taxonomy Level
L1 –
Remembering, L2 – Understanding, L3 – Applying, L4 – Analysing.
Module-2
Assembly
programming and instruction of 8051: Introduction to 8051 assembly
programming, Assembling and running an 8051 program, Data types and Assembler
directives, Arithmetic, logic instructions and programs, Jump, loop and call
instructions, IO port programming. 10 HOURS
Revised
Bloom’s Taxonomy Level
L1 –
Remembering, L2 – Understanding, L3 – Applying, L4 – Analysing.
Module-3
8051 programming in C: Data types and time delay in 8051C, IO programming
in 8051C, Logic operations in 8051 C, Data conversion program in 8051 C,
Accessing code ROM space in 8051C, Data serialization using 8051C 8051 Timer
programming in Assembly and C: Programming 8051 timers, Counter programming,
Programming timers 0 and 1 in 8051 C. 10HOURS
Revised
Bloom’s Taxonomy Level
L2 –
Understanding, L3 – Applying,L4 – Analysing, L5 – Evaluating.
Module-4
8051
serial port programming in assembly and C: Basics of serial communication,
8051 connection to RS232, 8051 serial port programming in assembly, serial port
programming in 8051 C. 8051 Interrupt programming in assembly and C: 8051
interrupts, Programming timer, external hardware, serial communication
interrupt, Interrupt priority in 8051/52, Interrupt programming in C.
10 HOURS
Revised
Bloom’s Taxonomy Level
L1 –
Remembering, L2 – Understanding, L3 – Applying, L4 – Analysing.
Module-5
Interfacing:
LCD interfacing, Keyboard interfacing.
ADC, DAC
and sensor interfacing: ADC 0808 interfacing to 8051, Serial ADC Max1112
ADC interfacing to 8051, DAC interfacing, Sensor interfacing and signal
conditioning.
Motor
control: Relay, PWM, DC and stepper motor: Relays and opt isolators,
stepper motor interfacing, DC motor interfacing and PWM. 8051 interfacing with
8255: Programming the 8255, 8255 interfacing, C programming for 8255. 10 HOURS
Revised
Bloom’s Taxonomy Level L1 – Remembering, L2 –
Understanding, L3 – Applying, L4 – Analysing.
Course
outcomes:
- At the end of the course the student will be able to:
- Discuss the history of the 8051 and features of other 8051 family members andthe internal architecture of the 8051.
- Explains the use of an 8051 assembler, the stack and the flag register, loop, jump, and call instructions.
- Discuss 8051 addressing modes, accessing data and I/O port programming, arithmetic, logic instructions, and programs.
- Develop 8051C programs for time delay, I/O operations, I/O bit manipulation, logic and arithmetic operations, data conversion and data serialization
- Discuss the hardware connection of the 8051 chip, its timers, serial data communication and its interfacing of 8051to the RS232. Discuss in detail 8051 interrupts and writing interrupt handler programs.
- Interface 8051 with real-world devices such as LCDs and keyboards, ADC, DAC chips and sensors.
- Interface 8031/51 with external memories, 8255 chip to add ports and relays, optisolators and motors.
Graduate
Attributes (As per NBA)
Engineering
Knowledge, Problem analysis.
Question
paper pattern:
·
The question paper will have ten full questions
carrying equal marks.Each full question consisting of 16 marks.
·
There will be two full questions (with a maximum
of four sub questions) from each module. Each full question will have sub
question covering all the topics under a module.
·
The students will have to answer five full
questions, selecting one full question from each module.
Textbook
1 The 8051
Microcontroller and Embedded Systems Using Assembly and C
Muhammad Ali
Mazadi Pearson 2nd Edition, 2008.
ReferenceBooks
1 The 8051
Microcontroller Kenneth Ayala Cengage Learning
3rd Edition,
2005
2 The 8051 Microcontroller
and Embedded Systems
Manish K
Patel McGraw Hill 2014
3
Microcontrollers: Architecture, Programming, Interfacing and System Design
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