Choose a Suitable Course Module

01

Basic PCB Design

LEVEL : 2 LAYER DESIGN
DURATION : 40 HOURS( 30 HOURS + 10 TASK HOURS)
2 HOURS/DAY : 40 HOURS( 30 HOURS CLASS +TASK HOURS)
PROJECT TASK COUNT : 15 TASK PROJECTS

02

Advanced PCB Design

LEVEL : 6 LAYER DESIGN
DURATION : 40 HOURS( 30 HOURS + 10 TASK HOURS)
2 HOURS/DAY : 40 HOURS( 30 HOURS CLASS + TASK HOURS)
PROJECT TASK COUNT : 3 TASK PROJECTS

03

HighSpeed PCB Design

LEVEL : 10 LAYER DESIGN
DURATION : 40 HOURS(30 HOURS + 10TASK HOURS)
2 HOURS/DAY : 40 HOURS( HOURS CLASS + TASK HOURS)
PROJECT TASK COUNT : 3 TASK PROJECTS

Course Modules are decided based on the current skill and understanding level of the candidate

01

Basic PCB Design

LEVEL : 2 LAYER DESIGN
DURATION : 40 HOURS( 30 HOURS + 10 TASK HOURS)
2 HOURS/DAY : 40 HOURS( 30 HOURS CLASS +TASK HOURS)
PROJECT TASK COUNT : 15 TASK PROJECTS

Schematic:

  • Symbol Library Creation (Homogenous &Heterogenous).
  • Schematic Preparation.
  • Design Rule Checking.
  • Bill of Material (BOM).

Footprints:

  • Surface Mount Device Packages.
  • Through Hole Device Packages.
  • Ball Grid Array Packages.
  • All Interface Connector Packages. Make sure every footprint is attached with the 3D model.

Board Design:

  • Board Shape Creation (DXF).
  • Layer Stack Up Preparation.
  • Constraint Manager Settings.
  • PCB Placements.
  • PCB Routing.
  • VIAs Creation & Application.
  • Multi-Layer Design Support.
  • Plane Creation & Understanding.
  • Artwork or Gerber Generation.
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02

Advanced PCB Design

LEVEL : 6 LAYER DESIGN
DURATION : 40 HOURS( 30 HOURS + 10 TASK HOURS)
2 HOURS/DAY : 40 HOURS( 30 HOURS CLASS + TASK HOURS)
PROJECT TASK COUNT : 3 TASK PROJECTS

  • Construct design libraries
  • Import logic design data
  • Define design rules
  • Pin Swapping
  • Route interactively
  • Interactive placement features
  • Create copper areas
  • Generate manufacturing output and documentation
  • Customizing the OrCAD and Allegro PCB Editor Environment
  • Setting Electrical Constraints
  • Differential pairs
  • Interactive etch editing
  • Test Point Generation
  • Placement Replication
  • DFF- Design for Fabrication Constraints
Enroll Today
03

High-Speed PCB Design

LEVEL : 10 LAYER DESIGN
DURATION : 40 HOURS(30 HOURS + 10TASK HOURS)
2 HOURS/DAY : 40 HOURS( HOURS CLASS + TASK HOURS)
PROJECT TASK COUNT : 3 TASK PROJECTS

Course Details:

  • Placement (how to place CPU, RAM, USB, PCIe, HDMI, DCaps, ByCaps, Pull-ups, memories, power supplies, connectors, protection, etc.)
  • Basic Rules & Basic Stack-up (initial rules and stack-up settings to start your layout)
  • DDR3 preliminary layout (deciding on how to use layers, pin & bank swapping, … )
  • Board fanout (how to do fanout, good practice and recommendations)
  • Crosstalk (how to calculate and minimize crosstalk)
  • Impedances & Stack-up (how to calculate impedance and decide on stack-up)
  • High Speed Design Rules & Routing (recommendations & examples for high speed design layout)
  • Layer ordering (how to decide on layer ordering)
  • Number of layers (how to decide on number of layers)
  • Length matching (DDR2/3, PCIE, HMDI, LVDS, GbE, USB, SATA, CAN BUS, ETHERNET ETC..)
  • About memory routing (T-branch vs Fly-by topology, calibration)
  • Polygons & Power Planes (how to work with polygons & planes, what is important, useful rules…)
  • Checking PCB (recommendations for checking your PCB)
  • Length tuning (differential pair length tuning, finishing memory layout, … )
  • Finishing PCB (adding useful information e.g. manufacturing notes, mechanical drawing layer)
  • Generating & Checking Gerber files (how to generate Gerber files, tips about how to check them)

 

 

What will you learn?

  • This course covers all the important subjects you need to know for Advanced PCB Layout:
  • Placement (how to place CPU, memories, power supplies, connectors, protection, etc.
  • Basic Rules & Basic Stack-up (initial rules and stack-up settings to start your layout)
  • Fanout under CPU (how to do placement and fanout in Hight-density areas)
  • DDR3 preliminary layout (deciding on how to use layers, pin & bank swapping,
  • Board fanout (how to do fanout, good practice and recommendations)
  • Planning Layout (how to plan layout for high-speed interfaces, wide buses, power distribution,
  • Crosstalk (how to calculate and minimize crosstalk)
  • Impedances & Stackup (how to calculate impedance and decide on stackup)
  • High Speed Design Rules & Routing (recommendations & examples for high speed design layout)
  • Layer ordering (how to decide on layer ordering)
  • Number of layers (how to decide on the number of layers)
  • Layout (recommendations on routing different peripherals & buses, Powers,
  • Length matching (DDR2/3, PCIE, HMDI, LVDS, GbE,
  • About memory routing (T-branch vs Fly-by topology, calibration,
  • Polygons & Power Planes (how to work with polygons & planes, what is important, useful rules,
  • Checking PCB (recommendations to check your PCB)
  • Length tuning (differential pair length tuning, finishing memory layout,
  • Finishing PCB (adding useful information e.g. manufacturing notes, mechanical drawing layer
  • Generating & Checking Gerber files (how to generate Gerber files, tips about how to check them
Enroll Today
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Who Should Join for our course?

Embrace the future of electronics with confidence, armed with the skills and knowledge gained from our Advanced High-Speed PCB Design training.

  • Job Winning Course
  • Outstanding Trainers
  • Flexible & Affordable
Know More About Our Courses
BE, B Tech & Diploma

In Electronics & Communications Engineering

BE, B Tech & Diploma

Electronics & Telecommunication Engineering

BE, B Tech & Diploma

In Electrical & Electronics Engineering

ITI & Degree

In the Electronics Stream

Your journey to mastering PCB design starts here.

Embrace the future of electronics with confidence, armed with the skills and knowledge gained from our Advanced High-Speed PCB Design training.

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