Let’s take a look at what it takes to read sensor data from an I2C interface (aka I2C, IIC, TwoWire, TWI). In particular, we’ll be reading data from the NXP MPL3115A2 Altimeter/Barometer/Temperature sensor. The principles found in this guide can also be applied generically, even to your ambifacient lunar waneshaft positioning sensor of your turboencabulator. Home
Imagine this: You have a five-year-old son who has grown tall enough, and smart enough to open the door to your home office, packed with all your super fun gizmos and trinkets. It has a lock, but being the lackadaisical creature you are, you forget to lock it. You’ll only be gone for a minute or two, after all! Well, that was just enough time for your son to sneak in, rip up all the jumper wires from your breadboard, find a permanent marker, and well, you know how this ends.
In this (oddly specific) example project we’re going to be coming up with a solution to avoid such a disaster by building a wireless, internet connected, SMS door alert system using:
- 2x XBee Pro S1 Radios (OP-XBEERADIO)
- Sparkfun XBee Explorer USB
- TS-7553-V2 Single Board Computer
- Magnetic Door/Window Switch
- 3.7 VDC 1 Ah Lithium Polymer Battery
- Jumper wires and breadboard for prototyping
- PCB Etching
- 3D Printing
This way, we’ll receive a text message every time the door is opened and be able to rush to the scene of the future crime.
Continue reading “Example XBee Project: Opened Door Alert via Email/SMS”
BACnet is a data communication protocol for Building Automation and Control Networks. Developed by the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), BACnet is a national standard in more than 30 countries around the world, and an ISO global standard. It was created to have a unified communication system for different devices across different manufacturers. Manufacturers of BACnet devices create a wide range of monitor and control modules, from basic IO, to analog, to specialized devices such as gas monitors. Home
TS-4100 System on Module powered by NXP i.MX6 UL Processor.
Feb 15, 2018 — Technologic Systems announced their latest System-on-Module, the TS-4100, has entered in to their engineering sampling program (see below for details). The TS-4100 is the first Technologic Systems System-on-Module to feature the NXP i.MX 6 UltraLite processor, featuring a single ARM Cortex A7 core, operating at speeds up to 695MHz. The NXP i.MX 6UL processors offer scalable performance and multimedia support, along with low power consumption. Technologic Systems allows you to take full advantage of the integrated power management module to optimize power sequencing throughout the board design to achieve 300 mW typical power usage, making this SoM perfect for embedded applications with strict power requirements. The TS-4100 is perfect for industrial embedded applications for medical, automotive, industrial automation, smart energy and many more applications.
Digi XBee radios sure are handy for wireless communication in embedded systems, so let’s take a look from a newbie perspective at how to get two of ’em talking to each other quickly. Home
This tutorial can be applied generically to any setup with any two XBee radios, so long as you have them plugged in and ready to work with a serial port. That being said, this is a list of parts used in this tutorial:
- 2x Digi XBee Pro (XBP24-AWI-001) Radios
- Technologic Systems’ Part Number OP-XBEERADIO
- 1x SparkFun XBee Explorer USB
- 1x TS-7553-V2
- 1x USB Mini-B Cable