Last updated 1/2025
Created by Aviral Mishra
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All | Genre: eLearning | Language: English + subtitle | Duration: 65 Lectures ( 21h 31m ) | Size: 16 GB
Complex Mixed Signal Board Design Course (Ethernet PHY, STM32F407, STM32F103, CH340C, DAC/MIC, 24Bit ADC, 36W Drivers)
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
I have divided this course into four major sections:Selection of Components: Choosing each component that will be used in the schematic.Schematic Design: Designing schematics based on datasheet information.Stack-up and Placement: Planning and executing 4-layer, 6-layer, 8-layer, and 12-layer stack-ups, along with component placement.Layout Planning: Inter-block and intra-block layout planning and execution.The major schematic blocks designed in this course include:Ethernet PHY (10/100 Mb/s)I2S DAC for headphones and speakersMEMS microphone24-bit ADC36W bi-directional brushed DC motor driversUART to USB TTL converterSTM32F103 controller as debugger and programmerSTM32F407 main controllerPower supply and protection circuitsAnd many more subparts listed in the curriculum.You will also learn basic blocks such as:Pre-schematic design: Block diagrams and power budgetingRules for stack-up selection and defining stack-upsGrounding techniques: Signal grounding, earth grounding, chassis groundingCreating rigid-flex PCBs and their stack-upsPin-mapping using Cube-MX toolPower distribution network (PDN) analysis for PCBsSelection and application of ferrite beads, ESD diodes, and magnetic componentsPlacement and layout planning using Microsoft PaintAfter completing this course, you will be able to design mixed-signal PCBs with microcontrollers available worldwide.The major controllers used in this course are:STM32F407XXSTM32F103XXEthernet PHYs, various sensors, ADCs, and DACs
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