High Speed PCB Design Engineer
Computer Aided Manufacturing is the software application and computer-controlled machinery to automate a manufacturing function. It creates toolpaths so machines can convert raw materials into a complete product. It is used to generate programs to be performed on computer numerical control equipment.
Description
High Speed PCB Design Engineer
Basic PCB Design
Allegro ORCAD 17.4 schematic capture & PCB editor
Orcad capture is one of the most powerful schematic design environments.
With capture, you can quickly, easily, and intuitively create complex schematic
designs. This series introduces you to orcad capture 16.6/17.2/17.4 and orcad PCB
editor provides engineers with a concept-to-production design environment. With
orcad PCB editor, you can complete your next project easily with powerful design
capabilities such as differential signal definition, interactive routing, high-speed
constraint management, and real-time design capabilities. This series introduces
you to orcad PCB editor 16.6/17.2/17.4.
Upon completion of this course, you will be able to work professionally.
Schematic Capture
Vertical 1:
- Open capture 16.6/17.2/17.4 and create a new project
- Edit design, template, and title block preferences
- Add a new library file to your project
- Copy library parts and paste them into a new design library
- Rename and edit a library part
- Create a new part and add it to your design library
- Add a library to your capture project
- Place a title block, components, ground and power on a schematic page
- Search for parts in the default capture libraries
- Place a part from the unified search (16.6/17.2 & new in 17.4)
Vertical 4:
- Connect components to wires
- Select and move groups of wired components
- Connect a bus to components and nets
- Place net aliases
- Add a new net alias to multiple nets and buses
- Edit component values and display information on the schematic
- Add PCB footprints to your design
- Edit reference designator text
- Automatically update schematic annotation
PCB Editor
Vertical 13:
- Setup and edit design parameters
- Add a layer to the board stack up
- Create a mounting hole
- Place mechanical symbols on your PCB
Vertical 15:
- Place components
- Review a report that identifies unplaced components
- Cross probe components between capture and PCB editor
- Set up a differential pair
- Specify electrical, physical and differential pair rules with constraint sets
High speed PCB Design
Module 1:
Electronics Board Design Basics
Evolution and classification of printed circuit boards, challenges in modern PCB, design and manufacturing, PCB fabrication, methodologies(ssb, dsb and multilayer board), PCB design considerations/ design rules for analog, digital and power applications, electromagnetic interference in electronic systems and its impact analysis of electronic circuit from noise emission point of view (both conducted and radiated emission) cross talk and reflection behavior of the circuit in time domain, thermal management of electronic devices and systems.
Module 2:
Multilayer PCB Design
Multilayer PCB design guidelines, design of multilayer PCB stack-up, differential pair routing, length matching, generation of different types of reports.
Module 3:
Introduction to High Speed Signaling
Introduction to high speed PCB design, signal integrity, power integrity and thermal analysis, power distribution and noise, signaling convention, termination, impedance matching & controlling, timing vision & length matching, fanout under cpu, planning layout, floor planning, ddr3 preliminary layout, crosstalk calculation & minimizing, impedances & stack-up, back-drilling of via, high speed design rules & routing, layer ordering & deciding, length matching, about memory routing, different types of topologies & interfaces and more in depth knowledge about hdi, High Speed Designs.
Module 4:
Semiconductor Packages
Single chip packages or modules. (SCM) commonly used packages and advanced packages; materials in packages, current trends in packaging, multichip modules (MCM) – types; system-in package (sip); packaging roadmaps; hybrid circuits. This course covers all the important subjects you need to know for advanced & high-speed design as well as HDI PCB layout:
Electronics Board Design Basics
Evolution and classification of printed circuit boards, challenges in modern PCB, design and manufacturing, PCB fabrication, methodologies(ssb, dsb and multilayer board), PCB design considerations/ design rules for analog, digital and power applications, electromagnetic interference in electronic systems and its impact analysis of electronic circuit from noise emission point of view (both conducted and radiated emission) cross talk and reflection behavior of the circuit in time domain, thermal management of electronic devices and systems.
Module 2:
Multilayer PCB Design
Multilayer PCB design guidelines, design of multilayer PCB stack-up, differential pair routing, length matching, generation of different types of reports.
Module 3:
Introduction to High Speed Signaling
Introduction to high speed PCB design, signal integrity, power integrity and thermal analysis, power distribution and noise, signaling convention, termination, impedance matching & controlling, timing vision & length matching, fanout under cpu, planning layout, floor planning, ddr3 preliminary layout, crosstalk calculation & minimizing, impedances & stack-up, back-drilling of via, high speed design rules & routing, layer ordering & deciding, length matching, about memory routing, different types of topologies & interfaces and more in depth knowledge about hdi, High Speed Designs.
Module 4:
Semiconductor Packages
Single chip packages or modules. (SCM) commonly used packages and advanced packages; materials in packages, current trends in packaging, multichip modules (MCM) – types; system-in package (sip); packaging roadmaps; hybrid circuits. This course covers all the important subjects you need to know for advanced & high-speed design as well as HDI PCB layout:
Advanced PCB Design
In a word, learning about high-speed PCB design is leaning about a different engineering filed. Although there are many factors, you need to take into consideration when working on a high-speed design. Luckily, your cad software for PCB design will give a hand to you, such as impedance calculators, trace length reporting options, differential pair routers, as well as other tools.
Learn all the necessary steps required to create a schematic using orcad capture. New users will learn the essentials needed to generate a design, how to navigate the tool, run DRC checks, prep the design for net listing, and generate BOMs.
Advanced Orcad Capture:
Lesson 1:
Getting started with orcad capture in this lesson design flow will be discussed along with how to launch capture; open an existing project; explore the user interface; understand project manager stricter; and select and edit objects.
Lesson 2:
Setting up your environment in this lesson, you will work with setting user preferences and developing a design template.
Lesson 3:
Creating part libraries, this covers the ability to re-characterize a circuit for a different set of performance goals. The optimizer is given a list of components to vary in a circuit to achieve a different set of measured goal responses, continually altering these component values until the new goal sets are achieved (if that is possible with the given circuit arrangement). It can also operate on a given set of curves to essentially manipulate device values/parameters for a curve-fit situation.
Learn all the necessary steps required to create a schematic using orcad capture. New users will learn the essentials needed to generate a design, how to navigate the tool, run DRC checks, prep the design for net listing, and generate BOMs.
Advanced Orcad Capture:
Lesson 1:
Getting started with orcad capture in this lesson design flow will be discussed along with how to launch capture; open an existing project; explore the user interface; understand project manager stricter; and select and edit objects.
Lesson 2:
Setting up your environment in this lesson, you will work with setting user preferences and developing a design template.
Lesson 3:
Creating part libraries, this covers the ability to re-characterize a circuit for a different set of performance goals. The optimizer is given a list of components to vary in a circuit to achieve a different set of measured goal responses, continually altering these component values until the new goal sets are achieved (if that is possible with the given circuit arrangement). It can also operate on a given set of curves to essentially manipulate device values/parameters for a curve-fit situation.
Free
- Duration
- Lessons0
- Skill levelAll Levels
- CategoryElectrical Courses
