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Embedded Platforms– Brands and Series– Development Tools
Sensors– More than one way to solve a problem
Software– E-CAD for PCB Design
Lab Equipment Tools
The Main Point…
We have a LOT of stuff– Way more than we could fit into a presentation
Talk to your TA, If we don’t have exactly what you’re looking for, we probably have something very similar
There’s no one “right” way to do something
Computing OptionsAdvantages Disadvantages Examples
Microcontroller• Very low power• “All-in-one”• Integrated peripherals• Cheap
• Limited RAM and Flash
• 8 or 16 bit processor• Limited performance
TI MSP430Atmel AVRArduinoCypress PSoC
DSP• Specialized ISA• MAC instructions• Buffers designed for
streams of data
• Not well suited for general problems
Microchip dsPICTI C5000 / C6000
EmbeddedProcessor
• Moderate power• Full scale performance• Can run Linux or
Windows
• Complex, usually involving multiple support chips
• Difficult toolchains
High-end ARM variantsIntel Galileo
Development Tools
Dev Boards – MSP430 LaunchPad, Arduino dev, PSoC devkit– ARM eXpress
Software IDE– Energia + CCS for MSP430 (and DSPs)– MPLAB for PICs– PSoC Designer for Cypress PSoC
Microcontroller Selection
MYTH: “I need an Atmel AVR to do this” or “I need an FPGA to do this”
TRUTH: All microcontroller brands are very similar and offer a rich feature set
TRUTH: Although a problem may be more suited to an FPGA or DSP, that doesn’t mean you CAN’T do it on a microcontroller
Microcontroller Selection
Don’t pick your part based on what “some guy said online”– Or because “your friend used this one”
Research what is available and make an informed decision– Power– GPIO– Processor speed
No preference or background?– Consider which series your TA is most familiar with
Sensors
Don’t reinvent the wheel, unless that’s the title of your project– Don’t spend a lot of time trying to design a sensor that exists if
that isn’t the main point of your project Lots of commonly available sensors can be found in the
lab and are frequently used in projectsFlexure Sensor
Rotary Encoder
Ambient Light Sensor
Thermopile
Ultrasonic Distance Sensor
Example: Distance
Questions– What range?– Through what medium?– What accuracy?– What repetition rate?
Options– Ultrasonic Time-of-flight– Laser Time-of-flight– Interferometry– Parallax
Sensor List
IR Sensors RFID + Tags Camera FLiR Camera GPS Accelerometer/Gyroscope Fingerprint Scanner Compass LIDAR Module SD Card Reader Peltier Devices
Liquid Sensor Body Pulse (heartbeat) Pressure Temperature Altitude Flow Meter Microphones UV/IR/Visible Light
Electronic CAD Software
Schematic entry and PCB design We have licenses for EAGLE and Cadence OSS like KiCAD is an option
Lab Equipment
Digital Multi-meters Oscilloscopes Power Supplies
LCR Meters Logic Analyzers Network Analyzers
Lab Equipment
If you are not confident sure on how to use a piece of equipment =>
R T F M– Good manuals for pretty much all the equipment in the lab
can be found searching the manufacturer website
“There are no stupid questions” when it comes to lab equipment, don’t be afraid to ask for a refresher on how a particular piece of equipment works
All else fails? Ask your TA
Lab Equipment
Respect the lab equipment– Lab equipment is extremely expensive– Some lab equipment can easily be broken and require expensive repairs– Read warning labels, know equipment capabilities and limitations– Bad measurement? Is it the equipment or your test setup or project?
Pay Attention to Warnings
Tools
It is highly recommended that you purchase some basic tools for yourself and keep them in your lab kit or backpack– Solder + flux– Wire cutters– Needle-nosed pliers– Screwdriver set
Tools are available for reasonable prices:– ECE shop– Local hardware stores– Online