PCB Design using OrCADAllegro from Basics to Expert level
What you’ll learn
You will learn Basic Electronics Theory, Circuit Design and Analysis, Basics of Printed Circuit Board, Electronic Components and Instruments. Study notes given.
You will work on Printed Circuit Board Layout Design such as Schematic creation, Library Creation: Electronic Symbol and Package (Footprint Creation) Designing.
Switching schematic to Board Design (Netlist Creation), Thorough knowledge on Constraint Management Settings, Board Shape Creation (DXF import included) & DRC.
Work on Single sided Board Design, Double sided Board Design, Via creation and application. Routing on Top and Bottom Layer includes enough practice modules.
Plan Creation of Power and Ground. Also Split Plan Creation. Design Rule Checking and DRC updates. Work on Artwork. Setting up all required film layer setups.
Gerber Generation and Gerber analysis and improvements. PCB Manufacturing overview. Latest topics will be updated on regular basis and will be informed about it
Requirements
Basic Electronics knowledge, BSc(Electronics), Diploma (Electronics or Electrical), BE (Electronics or Electrical), Master degree in Electronics and Electrical
If you are working in PCB Manufacturing and Assembly unit, PCB Design course will be an added skillset to your career profile.
If you own PCB printing, assembly and component soldering unit, you can learn PCB Design and can extend your business unit towards service sector.
If you have passion on Electronics subject, you can enroll this course and convert your passion into career.
Description
PCB Design and electronics circuit are basements for all type of electronics products. PCBs are derived from the analog and digital circuits which are prepared according to the application required. Printed circuit boards are the main pillars of the Electronics world. Every Electronics products has PCB inside it, from consumer gadgets like computers, smart phones and gaming consoles to industry and even high-tech products.Required eligibility:· Diploma in Electrical or Electronics & Communication.· BE/BTech. in Electrical or Electronics & Communication.· BSc/MSc in Electronics & Communication.· ME/MTech. (E&CE) in Communication.PCB Design Course Content is given below in brief:Schematic Design:· Basic Electronics theory.· Basics of Circuit designing.· Schematic design preparation.· Schematic part editing and creation.· Net list and Net class creation.· Bill Of Material generation (BOM).· Electrical Rule Checking.Footprint Creation:· Through hole footprint creation.· Surface Mount Device footprint creation.· BGA/PGA footprint creation.Board Designing:· Board size and shape creation.· Component placements.· PCB Routing: Multi-Layer routing.· Plane creation.· Design rule checking.· Gerber generation.Skills you gain after the course completion:· Basic Electronics and Electronic components expertise.· Circuit Designing (Power management circuit designing)· Circuit Simulation for best understanding of the subject.· Tools/Software Expertise.· Basic design module practice up to 2-Layers.· Advanced design module practice up to 6-Layers.· Design expertise: o Assignments consists single and double sided PCB. o Assignments consists 2-Layers to 6-Layers design.· Library Module: o Symbol and Footprint design for all types of packages.· Placements & Routing techniques.· Gerber Creating.Benefits of choosing PCB Design Course:· Strong hold in basic electronics.· Circuit Design capability.· Circuit analysis & ERC.· Components knowledge.· Power Supply designing.· PCB-CAD tool expertise.· Expert in library creation.· Multi-layer PCB designing.· Gerber Creation.
Overview
Section 1: Introducing OrCAD/Allegro of Cadence software
Lecture 1 Course Promotional Video
Lecture 2 Things We Learn Here…
Lecture 3 OrCAD Environment and Initialize new project
Lecture 4 OrCAD Capture – Schematic Page Property
Lecture 5 Working with Colors and Grid Display
Lecture 6 Pan and Zoom Settings in OrCAD
Lecture 7 Selection Area Pre-Settings
Lecture 8 Line and Shape Properties in OrCAD
Lecture 9 Design Templates in OrCAD
Lecture 10 Auto Back Ups in Capture
Lecture 11 Working with Windows Cascade Tiling and Session logs
Lecture 12 Accessories of Cadence Utilities
Section 2: Electronic Symbol Library Creation : IEEE Standard
Lecture 13 Introduction to Electronic Symbol Library
Lecture 14 How to Make IEEE Standard Electronic Symbols Part 1
Lecture 15 How to Make IEEE Standard Electronic Symbols Part 2
Lecture 16 How to Make IEEE Standard Electronic Symbols Part 3
Lecture 17 How to Make IEEE Standard Electronic Symbols Part 4
Lecture 18 How to Make IEEE Standard Electronic Symbols Part 5
Lecture 19 Symbol Creation of ICs using Spread Sheet and Regular Methods
Lecture 20 What are Heterogeneous Symbol Creation? How to Make it?
Section 3: An Introduction to Schematic Creation: OrCAD Capture
Lecture 21 Lets Begin New Project: Schematic Preparation
Lecture 22 Wiring Net Naming and Global Connections
Lecture 23 Multi-Page Schematic Preparation
Lecture 24 Learn Busses and Off-Page Connectors
Lecture 25 Electrical Rule Checking (ERC)
Lecture 26 Bill of Material (BOM) Preparation Part 1
Lecture 27 Bill of Material (BOM) Preparation Part 2
Section 4: Footprint Creation of Electronics Components
Lecture 28 An Introduction to Electronic Components Footprints
Lecture 29 What is Padstack Editor and Know Padstack Environment
Lecture 30 Decoding Imperial and Metric Codes and Unit Conversions
Lecture 31 An understanding of Solderpad Solderpaste and Soldermask
Lecture 32 Creating a Solderpad of Surface Mount Device using Padstack Editor
Lecture 33 Introduction to PCB Editor for Footprint creation and Default Setups
Lecture 34 Pad Positioning in Footprint Creation using PCB Editor
Lecture 35 Assembly Drawing Methods and Tips
Lecture 36 Silkscreen Drawing Methods and Tips
Lecture 37 Place Bound Drawing Methods and Assign Component Hight
Lecture 38 Know about Design For Assembly (DFA) and its rules
Lecture 39 Route Restriction on Footprint level
Lecture 40 SMD Footprint design complete process
Lecture 41 PTH Footprint design complete process
Lecture 42 SMD Footprint using Package Symbol Wizard
Lecture 43 PTH Footprint using Package Symbol Wizard
Lecture 44 Male Header Footprint Creation for Single Row
Lecture 45 Male Header Footprint Creation for Double Row
Lecture 46 Single In Line Package Footprint Creation using Wizard
Lecture 47 SOT-223 Footprint Creation
Lecture 48 SOIC Footprint Creation using Package Wizard
Lecture 49 PDIP Footprint Creation using Package Wizard
Lecture 50 Editing Pads on Footprint Level
Lecture 51 PLCC Footprint Creation using Wizard
Lecture 52 Ball Grid Array Full Matrix Footprint Creation
Lecture 53 Ball Grid Array Perimeter Matrix Footprint Creation
Lecture 54 Footprint Assignments
Section 5: Switching to Printed Circuit Board Design (PCB Design)
Lecture 55 Assigning Footprints to Schematic Circuit Part 1
Lecture 56 Assigning Footprints to Schematic Circuit Part 2
Lecture 57 Pins and Pads Mapping before switching
Lecture 58 Detailed explanation of Pins and Pads Mapping
Lecture 59 Switching from Schematics to Board Design
Section 6: Board Shapes and Board Restrictions
Lecture 60 Working with PCB Board Shape Part 1
Lecture 61 Working with PCB Board Shape Part 2
Lecture 62 Working with PCB Board Shape Part 3
Lecture 63 DXF Import and Export in Board Shapes
Lecture 64 Know about Package Keepin in Board Design
Lecture 65 Know about Route Keepin in Board Design
Lecture 66 Convert from Board outline to Design Outline
Lecture 67 Component Import on Board
Section 7: Placements on PCB
Lecture 68 Non Plated Thru Hole (NPTH) Creation
Lecture 69 How to import Non Plated Thru hole (NPTH) ?
Lecture 70 How to Place Components Manually?
Lecture 71 What are Rooms? How to Create Rooms?
Lecture 72 Create Room property in Schematic and Placement in Allegro – Part 1
Lecture 73 Create Room property in Schematic and Placement in Allegro – Part 2
Lecture 74 Place Replicate Creation and Apply
Section 8: PCB Layer Stack Up Setup and Calculations
Lecture 75 How to Set 2 Layer PCB Stack up?
Lecture 76 How to Set 4 Layer PCB Stack up
Lecture 77 Trace Width Calculation for Power Lines
Lecture 78 Trace Space Calculation
Lecture 79 Trace Width and Trace Space for Data Lines
Section 9: Constraint Manager Settings
Lecture 80 Physical Constraint Settings Part-1 Applying Line Width
Lecture 81 Physical Constraint Settings Part-2 Using Physical C Set
Lecture 82 Physical Constraint Settings Part-3 Adding VIAs
Lecture 83 Spacing Constraints Settings Part-1 Applying Trace Spacing
Lecture 84 Spacing Constraints Settings Part-2 Using Spacing C Set
Lecture 85 Clearing Constraints to Default value
Lecture 86 Net Class Creation in Constraint Manager
Lecture 87 Deleting Net Classes and Nets
Section 10: Introduction to Routing on PCB
Lecture 88 Pre-Route Setups
Lecture 89 Know about the Rats
Lecture 90 Colors in Allegro Part 1
Lecture 91 Colors in Allegro Part 2
Lecture 92 Colors in Allegro Part 3
Lecture 93 PCB Routing Tips Part 1
Lecture 94 PCB Routing Tips Part 2
Lecture 95 Uses of Done, Oops, Cancel and Next options while Routing
Lecture 96 Uses of Reject, Add Via and Swap Layers options while Routing
Lecture 97 How to use Neck Mode and Toggle options while Routing
Lecture 98 What is Enhanced Pad Entry while Routing?
Lecture 99 When to use Target option while Routing?
Lecture 100 How to use Finish option while Routing?
Lecture 101 What is Scribble mode option while Routing?
Lecture 102 Other options while Routing
Lecture 103 Will Do Auto Routing
Lecture 104 Assignment
Section 11: VIAs in Printed Circuit Board
Lecture 105 How to Create VIA…?
Lecture 106 How to assign VIA to netlist…?
Lecture 107 Types of VIAs
Lecture 108 Defining Blind and Berried VIAs
Lecture 109 How to use Blind and Berried VIAs
Section 12: 2 Layer Board Design Assignments
Lecture 110 First Assignment on 2 Layer Printed Circuit Board
Lecture 111 Second Assignment on 2 Layer Printed Circuit Board
Lecture 112 Third Assignment on 2 Layer Printed Circuit Board
Lecture 113 Fourth Assignment on 2 Layer Printed Circuit Board
Lecture 114 Fifth Assignment on 2 Layer Printed Circuit Board
Diploma in Electronics and Communication, Diploma in Electronics and Electrical and Diploma in Electrical.,Bachelor of Engineering in Electronics and Communication, Bachelor of Engineering in Electrical and Electronics.,BSc in Electronics, MSc in Electronics, MS in Electronics and Post graduate in Electronics and communication.,Hardware designers, PCB manufacturer, Electronic Components engineer, PCB design and developers.,Circuit designers, Embedded engineers and Beginners interested in development of PCB
Course Information:
Udemy | English | 25h 27m | 17.09 GB
Created by: Pradeep Raj
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