Moduli hii itamwezesha kila mwanafunzi kutumia msamiati wa Kiswahili katika maandishi na mazungumzo kimsingi, kutumia sarufi ya Kiswahili kimsingi na kutumia istilahi mahususi katika mawasiliano ya kikazi.
Microcontroller Lab Experiments
Experiment 1: Lighting LEDs
Experiment 2: Actuate buzzer, DC motor and servo-motor
Experiment 3: Measuring temperature and Humidity and actuate motor (applied in irrigation)
Experiment 4: Measuring motion or movement and actuate alarm (applied in security)
Experiment 5: Measuring distance or proximity and ( applied in robotics, automation, manufacturing…)
Experiment 6: Measuring gas or smoke or flame(applied in security, weather monitoring…)
Experiment 7: Measuring heart bit rate or blood pressure (applied in health monitoring)
Course Summary: Microprocessor and Microcontroller (ETTMM601)
This course provides an in-depth understanding of microprocessors and microcontrollers, with a focus on their architecture, programming, and applications. The module is structured into multiple units covering key aspects of the Intel 8085 microprocessor, Intel 8051 microcontroller, and Arduino-based microcontroller programming.
Unit I: Architecture of 8085 Microprocessor
Introduction to microprocessors and microcontrollers
Differences between microprocessors and microcontrollers
Internal architecture of 8085 (Control Unit, ALU, Registers, Bus Systems)
Pin description, machine cycles, and timing diagrams
Unit II: Programming of 8085
Addressing modes, instruction sets, and instruction classifications
Assembly language programming and development
Execution of arithmetic, logical, branching, and machine-control operations
Unit III: 8085 Interfacing
Memory and I/O mapped interfacing
Buffering of buses and interface requirements
Programmable peripheral interface (8255) and its operational modes
Unit IV: Interrupts
Definition, characteristics, and need for interrupts
Types of interrupts: maskable, non-maskable, software, and hardware interrupts
Interrupt handling and priority interrupt structures
Part II: Microcontrollers
Introduction to microcontrollers and classification
Embedded systems and types of microcontrollers (Intel 8051, PIC, ARM, etc.)
Applications in various fields such as automotive, communication, and industrial automation
Unit V: Intel 8051 Microcontroller
Architecture, pin diagram, and addressing modes
Internal RAM organization and peripheral interfacing
Timer/counter, interrupts, and serial communication
Unit VI: Arduino Microcontroller Programming
Structure, functions, and variable declarations
Serial communication and comparison operators
Practical experiments: LED blinking, push button control, motor driving, LCD interfacing
This course equips students with the fundamental knowledge and practical skills required for programming and interfacing microprocessors and microcontrollers in real-world applications.
This module will help learners to identify and address potential issues with hardware and software to ensure optimal system performance, prevent data loss, maintain security, and minimize disruptions by regularly updating, cleaning, and checking system components; essentially keeping your computer running smoothly and reliably by taking preventative measures against potential problems.
Advanced
Engineering Mathematics is
a comprehensive and highly structured area of study that incorporates a variety
of mathematical techniques essential for solving complex engineering problems.
This field typically involves concepts and tools from linear algebra, calculus,
differential equations, complex analysis, numerical methods, and more
This module describes the skills and knowledge required for a trainee to be able to prepare for Radio Access Network installation, mount, configure and apply transmission for Radio Access Network based on trend technology. At the end of this module, the students will be able to install, upgrade and maintain the RAN system afterwarward elaborate the work report. It is an obligation for each trainee to gain the skills on installation of the Radio Access Network. This module is developed for the students pursuing advanced diploma in Electronics and Telecommunication Technology.
As we discussed earlier, Sequences and Series play an important role in various aspects of our lives. They help us predict, evaluate and monitor the outcome of a situation or event and help us a lot in decision making
Advanced
Engineering Mathematics is
a comprehensive and highly structured area of study that incorporates a variety
of mathematical techniques essential for solving complex engineering problems.
This field typically involves concepts and tools from linear algebra, calculus,
differential equations, complex analysis, numerical methods, and more
TVET DIPLOMA IN ELECTRICAL TECHNOLOGY
DEPARTMENT:EEE
OPTION :ETT
LEVEL OF STUDY:6
MODULE NAME: ADVANCED ENGINEERING MATHEMATICS
MODULE CODE: GENAM 601
NUMBER OF CREDITS:9
SEMESTER:II
ACADEMIC YEAR :2024-2025
This module is designed for students pursuing Diploma courses in Electronics and Telecommunication Technology. It describes the skills, knowledge, and attitudes required to apply technical drawing. At the end of this course, the learner will be able to use drawing instruments, materials and equipment; apply lines and symbols used in drawing and perform 2 & 3-dimensional drawing.
This
module is designed for students pursuing Diploma courses in Electronics and
Telecommunication Technology. It describes the skills, knowledge, and attitudes
required to apply technical drawing. At the end of this course, the learner
will be able to use drawing instruments, materials and equipment; apply lines
and symbols used in drawing and perform 2 & 3-dimensional drawing.
KNOWLEDGE AND UNDERSTANDING
Having successfully completed the module should be able to: Differentiate types of drawing, Use drawing instruments, materials and Equipment, To interpret and draw different types of lines, Identify different types of symbols used in technical drawing, To recognize scales, 2D and 3D figures, Performing 2&3-dimension drawings, To know principal planes of projections, To identify types of projection method, To know four quadrants, To interpret types of isometric plane, To know isometric and non-isometric lines.
This module describes the skills, knowledge and attitudes required to monitor hygiene
and sanitation best practices at workplace, describe communicable and non
communicable diseases, prevent gender based violence and sustain individual health
and safety at workplace.
Iyi
mbumbanyigisho irasobanura ubumenyi n’ubushobozi bukenewe kugira ngo uwigishwa
abashe gukoresha neza Ikinyarwanda mu bukangurambaga butandukanye. Nyuma y’iri
somo, uwiga azaba ashobora: Gukoresha ubuvanganzo bw’abana atanga uburere
bukwiye ku bana, gukoresha Ikinyarwanda cy’Umukangurambaga mu bugeni
bw’iyamamaza no gukoresha Ikinyarwanda kiboneye akora ubukangurambaga ku ngingo
zitandukanye.
In electronics and telecommunication engineering, physics fundamentals such as basic mechanics, fluid mechanics, and thermodynamics are crucial. Mechanics principles support hardware stability and vibration control, fluid mechanics aids in cooling and thermal management, and thermodynamics ensures efficient heat transfer. Mastering these concepts equips students to design reliable devices and systems, making physics a foundational part of their education.