Mixed Signal Esteempcb
Tags: Electronics
Complex Mixed Signal Board Design Course (Ethernet PHY, STM32F407, STM32F103, CH340C, DAC/MIC, 24Bit ADC, 36W Drivers)
Last updated 2022-01-10 | 4.4
- How to Extract Components information from Requirement Sheet- Selection of Component for Example: Ethernet PHY
- Micro-Controller
- Motor Driver
- Mosfets
- ADC
- ADC/DAC
- MIC etc.
- How to Draw a Complex Schematic Block and Its Power Budget Diagrams
What you'll learn
How to Extract Components information from Requirement Sheet
Selection of Component for Example: Ethernet PHY
Micro-Controller
Motor Driver
Mosfets
ADC
ADC/DAC
MIC etc.
How to Draw a Complex Schematic Block and Its Power Budget Diagrams
What are Differential pairs
USB2.0
I2Cs
UART/USART
CAN
MII/RMII
I2S and many more interfaces
EMI & EMC decisions for a Complex Mixed Signal Schematic Design
How to Create Design Rules Decision for Complex Mixed Signal Board
Layer Stack-Up Design (4L/6L/8L/12L) and Field Solver Simulation
How to Define Board shape and Rigid-Flex PCB Board
Components Placement planning for a Complex Board and its Execution
How to Layout a Complex Board with more than 10
000 interconnects
and Layout Optimization
Power Distribution Network (PDN Analysis) and How to read its Report + Resolve Issues
* Requirements
* For this course Student should have "Altium Designer" Installed on their PC / Laptop* Student Should have knowledge of Basic Electronics.
* You do not need any prior knowledge of "Altium Designer" because we'll going to do everything from scratch.
Description
- How to Extract Components information from Requirement Sheet
- Selection of Component for Example: Ethernet PHY, Micro-Controller, Motor Driver, Mosfets, ADC, ADC/DAC, MIC etc.
- How to Draw a Complex Schematic Block and Its Power Budget Diagrams
- What are Differential pairs, USB2.0, I2Cs, UART/USART, CAN, MII/RMII, I2S and many more interfaces
- EMI & EMC decisions for a Complex Mixed Signal Schematic Design
- How to Create Design Rules Decision for Complex Mixed Signal Board
- Layer Stack-Up Design (4L/6L/8L/12L) and Field Solver Simulation
- How to Define Board shape and Rigid-Flex PCB Board
- Components Placement planning for a Complex Board and its Execution
- How to Layout a Complex Board with more than 10,000 interconnects, and Layout Optimization
- Power Distribution Network (PDN Analysis) and How to read its Report + Resolve Issues
Course content
11 sections • 65 lectures