Hardware Design Development Training
Introduction to Hardware Design
Gain a foundational understanding of hardware design, including the principles and methodologies used in developing electronic systems. Learn about the lifecycle of hardware design from concept to production.
Basic Electronic Components
Explore the fundamental electronic components used in hardware design. Learn about resistors, capacitors, inductors, diodes, transistors, and integrated circuits, and understand their roles in circuit design.
Circuit Design and Simulation
Learn how to design and simulate electronic circuits. Understand schematic capture, circuit analysis, and the use of simulation tools to validate circuit performance before physical implementation.
PCB Design and Layout
Discover the process of designing printed circuit boards (PCBs). Learn about PCB layout, routing, component placement, and the use of CAD tools for creating and optimizing PCB designs.
Hardware Description Languages (HDL)
Explore hardware description languages such as VHDL and Verilog. Learn how to use HDLs for designing and modeling digital systems, and understand how to implement and verify hardware designs.
Embedded Systems Design
Understand the principles of embedded systems design. Learn about microcontrollers, system-on-chips (SoCs), and the integration of hardware and software for developing embedded applications.
Testing and Debugging Hardware
Learn techniques for testing and debugging hardware designs. Understand how to use oscilloscopes, logic analyzers, and other diagnostic tools to troubleshoot and validate hardware functionality.
Power Management and Signal Integrity
Discover best practices for power management and signal integrity in hardware design. Learn about power supply considerations, noise reduction, and ensuring reliable signal transmission in high-speed circuits.
Prototyping and Manufacturing
Explore the stages of hardware prototyping and manufacturing. Understand the processes involved in creating prototypes, testing them, and transitioning to full-scale production.
Design for Testability (DFT)
Learn about design for testability (DFT) techniques. Understand how to incorporate test features into your hardware design to facilitate easier and more effective testing and validation.
Hands-On Labs and Projects
Engage in hands-on labs and projects to apply your hardware design skills. Work on real-world scenarios to develop practical experience in designing, prototyping, and testing hardware systems.
Hardware Design Development Syllabus
1. Introduction
- Introduction to Hardware Design & Development Process
- Introduction to Analog and Digital Design World
- Active Elements
- Passive Elements
- Voltage Source
- Current Source
- Amplifiers
- Operational Amplifiers (Opamps)
- Logic Gates
- Flip Flops
- Counters
2. Power Supply Design
- Primary Supplies
- Secondary Supplies
- Static Supplies (Without Feedback)
- Dynamic Supplies (With Feedback)
- Linear Supplies
- Switching Supplies
- Current Controlled Supplies
- Voltage Controlled Supplies
- Over Voltage Protection
- Under Voltage Protection
- Over Current Protection
- Current Control Methods
- Surge Protection Circuits
- EMI/EMC Protections
- Mini Project: Power Supply Design
3. Microcontroller & Peripherals
- Different Types of IC Packages
- Identification of Controllers
- Reset Circuit
- Debugger Circuit
- Push-Pull Design of Port Pins
- Open Drain Design of Port Pins
- Memory Technologies (RAM, ROM, EPROM, EEPROM, FLASH) Interfacing
- I/O Interface Technologies
4. Communication Modules & User Interfaces
- Different Types of Communication Modules and Interfaces
- RS232, RS485, RS422 (Full Duplex and Half Duplex)
- DMA, ADC, DAC
- External Temperature Sensors
- External Watchdog Timer
- External Modules: C, TCP/IP, SPI, SSP, I2C, Wi-Fi, Bluetooth, USB, Zigbee, GPS, GPRS Module, EDGE Module
5. Microcontroller Interfacing
- Interfacing LEDs, Switches, Relays, DC Motor, Stepper Motor, ADC, DAC, Temperature Sensor, LCD, Touch Screen, Seven Segment Display, etc.
- Load Calculations
- Power Requirement Calculation Methods
- PCB Mechanical Fixing
- PCB Dimensions
- PCB External Interface Connectors
- Mini Project: PCB Design and Interfacing
6. PCB Design and Manufacturing
- Types of PCB/Base Material
- Overview of PCB Technologies
- CAD System Selection
- Design Rules & Design Factors
- Component Selection and Identification
- Design Laminates/Thermal Management
- Reliability Tooling Holes/Stiffeners (IPCLessons)
- SMT, Wave and Reflow Soldering
- Layout Rules & Parameters
- Library & Its Components
- Cross Probing
- Conductor Routing
- Mid-Term Interaction
Training
Basic Level Training
Duration : 1 Month
Advanced Level Training
Duration : 1 Month
Project Level Training
Duration : 1 Month
Total Training Period
Duration : 3 Months
Course Mode :
Available Online / Offline
Course Fees :
Please contact the office for details