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PCB DESIGN TRAINING.
Training Details
SCHEMATIC
Getting started with
Tools
The Capture work environment
Starting a
project
Setting up your project
Design structure
Placing,
editing, and connecting parts and electrical symbols
Adding and editing
graphics and text
Changing your view of a schematic page
About
libraries and parts
Creating and editing parts
About the
processing tools
Preparing to create a net list
Creating a net
list
Creating reports
Exporting and importing schematic
data
PCB DESIGN
What is a PCB and why
do we use them
Physical PCB construction
PCB
Workflow
Footprint generation
Importing
Parts
placement
Mechanically defined components
Routing guidelines
setting
PCB Construction (Power and Ground Plane)
Routing
guidelines
Routing
Copper Pour
DRC Checking
From
Layout to production
LAB
Schematic capture
From
schematic to PCB
Parts placement and routing
Making
footprints
Post Process
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For those of working professionals Keeping your design
skills up to date requires continually learning and exploring the latest tools,
techniques, and methodologies. Our training course program keep you learning
& updated.
Schematic capture or schematic entry is done through an EDA
tool
Card dimensions and template are decided based on required circuitry
and case of the PCB. Determine the fixed components and heat sinks if
required.
Deciding stack layers of the PCB. Multi layers depending
on design complexity. Ground plane and Power plane are decided. Signal
planes where signals are routed are in top layer as well as internal
layers
Line impedance determination using dielectric layer
thickness, routing copper thickness and trace-width. Trace separation also
taken into account in case of differential signals. Microstrip, stripline
or dual stripline can be used to route signals.
Placement of the components. Thermal considerations and
geometry are taken into account. Vias and lands are marked
Routing the signal trace. For optimal EMI performance
high frequency signals are routed in internal layers between power or
ground planes as power plane behaves as ground for AC.
Gerber File generation for
manufacturing.
Embedded technologies
Domains
Advanced Diploma in Embedded
Systems
Embedded Testing
Avionics Testing
Linux Kernel
RTOS, Vxworks, Kernel Programming
Device Drivers
System Programming/Sockets
ARM,Pic,8051
PCB Designing
Automotive / Robotics Testing
WINCE
C,C++,ADA
TCP/IP
CAN/SPI/LIN/I2C
Do-178B
Independent Verification &
Validation(IV&V)
ARINC,AFDX
J1939,CCP,KWP
GSM,GPS,CDMA
1G-2G-3G
GPRS
Bluetooth
Wimax / Zigbee
WhiteBox testing
BlackBox testing
Static Code Analysis
Quality assurance
Protocol Implementation
Cross Development IDE
RFID
Telecom
Avionics and Aerospace
Automotive
Network Infrastructure
Robotics
Medical Electronics
Industrial automation
DSP
Wireless
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Trainer with more than 17 years of industry
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