Bike Light Housing

This entry is part 2 of 3 in the series Bike Light

With the battery assembly done, I turned to …

The Light Housing

cad_lightThe Endor Rebel LED generates some heat as we pump 0.7A through it at 9V. Therefore, it needs a heatsink, so that pretty much means the housing we design needs to be made out of Aluminum and needs good physical contact with the LED’s aluminum base. So, again we start with a 3D CAD model. The first thing we need to do is model the actual Rebel LED since everything else grows from there.

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Bike Light Battery Pack Adapter

This entry is part 1 of 3 in the series Bike Light

Design and build of a 540 lumen Luxeon Star Endor Rebel bike light powered by a Makita 18V Li-ion battery (note: I made this while an expat living in China and so was very limited in the materials, parts, and tools available.)

bike_sideThis project is a combination electronic/mechanical design. In fact, there’s a lot more time spent on the mechanical design and machining than in the simple Atmel AVR µController. I’ll be presenting this project in three major parts: The battery pack adapter; the light housing; and the AVR control circuit. In the project sources, I provide the full Continue reading

MultiTherm Logging and Demo Board

This entry is part 3 of 3 in the series MultiTherm

Logging

loggingThe logging mode is entered by pressing any button other than MODE while on the startup screen. Along the left-hand side of the screen are either one or two device numbers and temperature readings in °C. These readings are the result of the previous temperature scan. The time of the last scan is displayed in the upper right, and the time until the next reading is displayed in the lower right. While in logging mode, the UP Continue reading

MultiTherm Operation

This entry is part 2 of 3 in the series MultiTherm

The software for the MultiTherm logger is based on a state machine. There are multiple operating modes or “states” of which the logger will in one at any given time.

initUpon startup, the current version of the firmware will be displayed followed by the number of DS18x20 (either DS1820 [discontinued], DS18B20, or DS18S20) temperature sensors discovered on the 1-Wire bus. A few seconds later a message Continue reading

MultiTherm Development

This entry is part 1 of 3 in the series MultiTherm

Multi ple  Therm ometer – A small AVR µController based datalogger to display and record the output from multiple DS18x20 thermometers.

This began as a simple monitor for a friend to keep track of the temperature of his bicycle dynamometer. It was envisioned as a device to grab the temperature information from a couple of Dallas Semiconductor DS18x20 1-Wire® Thermometers and send the information to a serial port of a laptop computer for logging and subsequent graphing and analysis. It evolved into what is presented here.

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Design a Custom AC Timer

This entry is part 1 of 2 in the series IR AC Timer

A fun little project to turn the AC unit on in my office before I get to work in the morning.

Overview

installedHere in China there is no central air, so my office is heated/cooled by a room air conditioner. Because of this, it’s cold when I arrive at work in the winter, and hot in the summer, and it takes until about noon for the little room a/c unit to get the room to a remotely comfortable temperature. So an idea was born to create a small, battery powered, IR emitter Continue reading

Garage Door Opener Circuit Design

componentMy ’99 Miata didn’t include an integral garage door opener but there were aftermarket modification kits available that inspired me to add one, with a few modifications, of course! Here is the write up that I created back then:

Tom Madracki, of Yorba Linda Miata, has an interesting garage door opener modification on his website. His opener modification activates the garage door opener whenever the high-beam headlights are turned on.

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