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Search Results: James

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Load Cell Correction

Load Cell Correction

Squeezing every last bit of accuracy out of your load cells

Project
load cell
RTD
thermocouple
Long Range Wi-Fi

Long Range Wi-Fi

We tested how far you can push the range of Wi-Fi signals with commercially available components.

Project
phidget SBC
Dynamic Backlight with Phidgets

Dynamic Backlight with Phidgets

Making an adaptive backlight for your computer screen.

Project
relay
LED
infrared
Hex Walker First Steps

Hex Walker First Steps

Because who doesn't want a walking robot?

Project
servo motor
Addressing Many Phidgets

Addressing Many Phidgets

Getting your project running with many channels to deal with.

Project
programming principles
voltage input
light
Phidget Smoker Project #3: Bradley Smoker VINT Converison

Phidget Smoker Project #3: Bradley Smoker VINT Converison

Continuing the Phidget Smoker Project, we replaced the Raspberry PI with a PhidgetSBC4, and updated the control algorithm to provide a more consistent smoking temperature.

Project
phidget SBC
thermocouple
relay
DIN Rail Guide

DIN Rail Guide

Learn about the wide variety of components that will fit on DIN rail and how it can be used with Phidgets boards.

Project
mechanical
Using libcurl To Send Email from an SBC

Using libcurl To Send Email from an SBC

Setting up libcurl to send emails from an SBC

Project
phidget SBC
Current Sense Resistors

Current Sense Resistors

A guide to measuring small currents with use of current sense resistors and the VCP1002 Small Voltage Sensor.

Project
Encoder Velocity: A Common Miscalculation

Encoder Velocity: A Common Miscalculation

When working with Phidget Encoders, a tempting method to calculate their velocity is to simply divide the number of pulses (or edges) by the elapsed time given by an event. However, problems arise with this method when the encoder starts and stops, or moves slowly enough that it’s hard to tell the difference.

Project
encoder