Complete Electronics Hardware Design Course - EsteemPCB
4.5 /5- Offered byUDEMY
Complete Electronics Hardware Design Course - EsteemPCB at UDEMY Overview
Duration | 23 hours |
Total fee | ₹2,599 |
Mode of learning | Online |
Credential | Certificate |
Complete Electronics Hardware Design Course - EsteemPCB at UDEMY Highlights
- Earn a certificate of completion from Udemy
- 30-Day Money-Back Guarantee
- Full Lifetime Access
- 23 hours on-demand video
- 12 downloadable resources
- Access on mobile and TV
Complete Electronics Hardware Design Course - EsteemPCB at UDEMY Course details
- For people who have no experience with Hardware design and want to learn it
- For people Who want to learn complex mixed signal board design
- For people who want to learn PCB designing
- For people who want to learn how to select components out of millions of chip available
- For people Who want to learn how to create a board on Altium Designer
- People who want to enhance their Electronic Hardware Designing Skills
- Pre-Schematic Design Blocks (Block Diagram and Power Budget)
- Layer Stack-up Selection and Rules for Defining any Stack-up
- Different Grounding Techniques( Signal Grounding, Earth Grounding, Chassis Grounding)
- How to Create a RIGID-FLEX PCB and its Stack-up
- How to do Pin-mapping using Cube-MX tool
- Power Distribution Network Analysis (PDN Analysis) of any PCB and many more things
- Ferrite Bead, ESD Diodes, and Magnetic Application and their selection
- How to do Placement and Layout Planning on Microsoft-Paint
- The course is divided into 4 Major Sections:
- 1st Section is Selection of Each Components whatever Going inside the Schematic
- 2nd Section is Schematic Designing by Reading Datasheets
- 3rd Stack-up 4L/6L/8L/12L, Components Placement Planning and Execution
- 4th Inter Block and Intra Block Layout Planning and Execution
- Learner will know how to extract components information from requirement sheet
- Learner will know how to draw a complex schematic block and its power budget diagrams
- Learner will know How to Create Design Rules decision for complex mixed signal board
Complete Electronics Hardware Design Course - EsteemPCB at UDEMY Curriculum
Course details and selection of major components for complex mixed signal board
Introduction of section 1 and important instruction
Requirement Sheet Discussion
Selection of microcontroller and debugger
Selection of Ethernet PHY
Selection of ADC and TTL Converter
Selection of Motor Driver
Selection of MOSFET
Selection of DAC MIC and I2S Interface
Block diagram of schematic design planning
Schematic block, Power budget and Pin mapping on STM Cube - MX
Introduction of section 2 and important instruction
Create Power Budget for Project
Pin Mapping of MCU using Cube-Mx
How to read Datasheet of STM 32F103
Schematic Design of STM32F103
Ferrite bead, ESD, Magnetics selection and schematic design of Ethernet PHY
Introduction of section 3 and important instruction
Selection of ESD and TVS diodes
Selection of Magnetics for PHY
Ferrite Bead Selection
Schematic Design for Ethernet PHY Subpart-1
Schematic Design for Ethernet PHY Subpart-2
Schematic Design for Ethernet PHY Subpart-3
IPC STD for Symbol and Footprint
Schematic design of debugger/programmer in detail
Introduction of section 4 and important instruction
Schematic Design of Motor Driver Subpart-1
Schematic Design of motor Driver Subpart-2
Bulk Capacitors and Power Supply Selections
UART to TTL Converter Schematic Design
ADC Schematic Design
DAC Schematic Design Subpart-1
Schematic design DAC/MIC with main controller and power supply for board
Introduction of section 5 and important instruction
Charge Pump DAC and Mems MIC Schematic Design
How to Read the Datasheet of STM32F407
Schematic Design of STM32F407 Subpart-1
Schematic Design of STM32F407 Subpart-2
Power Supplies LDOs Selection and Design
Board Define tools Rigid-Flex PCB and Schematic Templates
Components placement for mixed signal board course
Introduction of section 6 and important instruction
Schematic Notes and Footprint Manager before importing Components
Import Components from SCH to PCBDOC and Rooms Discussion
Components Placement Planning on Paints
Components Placement Iteration-1 Subpart-1
Components Placement Iteration-1 Subpart-2
Components Placement Iteration-1 Subpart-3
Layer stack up, Grounding and Earthing Discussion in detail
Introduction of section 7 and important instruction
Layer Stack-up Rules Discussion 4L,6L,8L,12L
Layer Stack-up 2D Field Solver Simulation
Signal GND, Earthing, Chassis GND Discussion
Layer Stack-up Implementation on CAD Tool
Layout of mixed signal board Part 1
Introduction of section 8 and important instruction
Ethernet PHY Block Layout
STM32F103 Block Layout
Regulators and Supply Block Layout
Motor Driver 1 Block Layout
Analog GND, Digital GND and Routing of ADC Block
Layout of mixed signal board Part 2
Introduction of section 9 and important instruction
Types of VIAs and DAC Block Routing
Layout of Motor Driver Block 2
Net-Classes, Colouring of Net, Annotation of Sensitive Nets
Layout of mixed signal board Part 3
Introduction of section 10 and important instruction
Intra-Block Routing Subpart-1
Intra-Block Routing Subpart-2
Intra-Block Routing Subpart-3
Intra-Block Routing Subpart-4
Bonus session - Step by Step PDN analysis of PCB design
Introduction of section 11 and important instruction
Complete PDN analysis of Complex mixed signal board
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