St.Hua Private School
Tel: 65-65613877 Email:
[email protected] Web:
St.Hua Private School Singapore
Electronics Design Course Promotion
1. Advanced Diploma in Industrial Electronics
Introduction:
You have the opportunity to apply electronic principles to solve many practical problems and make life better and easier for humans. Apply for this course and learn how to install, maintain and troubleshoot faults in electronics systems and equipment and perform simple electronics design work. Acquire knowledge and skills gained which are highly relevant to the industry.
Modules:
01 Power System
02 PCB Design
03 Computing
04 Computer Networks
05 Digital Electronics
06 Analog Electronics
07 Microcontroller
08 PLC Programming
09 High Speed Digital Design
10 Project Embedded System
2. Printed Circuit Board (PCB) Design
Introduction:
This course teaches the necessary skills for designing industrial standard printed circuit board (PCB) using commercial available PCB design software. The whole process from drawing single component to producing manufacturing output will be covered. The design rules and error checking method will be introduced.
Course Content:
Introduction to PCB components;
Common electronics components characteristic
Design schematic
Install PCB and schematic libraries
Build up your own component library;
Link Models, Parameters, Library Package and Updates
Single Sheet and Multi Sheet Design;
PCB layer set up;
PCB layout consideration;
Design rules and validation;
Auto-Routing and Manually Routing;
Export for manufacturing;
Output assembly drawing;
Simulation Using SPICE;
3. Microchip PIC Microcontroller Application Development with C
Introduction:
The objective of this course is to teach students design and interfacing of microcontroller-based embedded systems. C programming language is used to interface the microcontrollers to various applications. There are extensive hands-on labs/projects. Embedded system for display and sensor applications will be introduced.
Course content
Introduction of PIC microprocessor;
The development environment, project set up, compiling and debugging;
PIC I/O Port Programming;
PIC Hardware Connection and
ROM loaders;
PIC Timers Programming;
Interrupt Programming;
LCD and Keypad Interface;
External EEPROM and I2C;
ADC & DAC;
Temperature sensor application
Introduction to IIC and UART protocal;
4. 8051 Microcontroller Application Development with C
Introduction:
This course is designed to teach students in the structure of 8051 microcontroller (STC89C52) and how to develop applications using C programming language.
Upon completion of the course, students will be able to design real applications such timer, high precise clock, electronics thermometer and etc.
Course content
Development environment;
I/O operation;
How to light up a LED, enable buzzer and control of relay;
Interrupt;
LCD display control
Serial communication;
ADC control;
Interrupt;
EEPROM
5. Embedded System Design Based on ARM9 Processor
Introduction
This course covers the hardware and software aspects of ARM 9 system and equips students with practical techniques for application development on real ARM microprocessor hardware. Upon completion, students will understand the ARM architecture development, and will be familiar with popular embedded Linux system application development process.
Course content
Introduction to embedded system
ARM processor fundamentals
Introduction to ARM/Thumb instruction set
Exception and interrupt handling
Embedded Operating System
Memory management: caches, MPU, MMU
ARM 9 development kit MINI2240 introduction
MINI2440 development kit peripherals
Linux introduction
File programming
Kernel programming
Linux driver programming
6. CPLD/FPGA System Design with Verilog
Introduction
This course is targeted for those who begin to learn complex programmable logic device (CPLD) or Field Programmable Gate Array (FPGA). The course is based on Verilog language. Students will learn how to use Verilog library, how to build entities and architectures and how to debug after completing a program. This course combines both theoretical lecture and hand-on practices on study board (based on Altera MAXII EPM240T100C5 chip).
Course content
Concept of CPLD and FPGA.
Verilog HDL guide.
Use Quartus II software developing platform
Timing Analyzer
Simulation
Introduction to ModelSim
Peripheral circuit design analysis
Experiment and design project
St.Hua Private School
Sophia Song Hp: (65) 9837 9189
Main Office: 131 Jurong Gateway Road St 13 #04-241 S(600131)
Tel: (65) 6561 3877 Fax: (65) 6561 9679 Email:
[email protected]
St.Hua Private School Singapore