Posts Tagged i2c

Magnetometer VII: Word Compass Prototype

compass-headlineHere's another update in my long-running digital compass project. It's now sufficiently feature-complete to be a potentially useful end-user product. Major improvements including saving calibration data in EEPROM, improved display, error detection and temperature compensation.

Read on after the break.

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Magnetometer VI: Working AVR Example

SONY DSCFinally, some progress on my AVR compass project. I've got a program that runs on the Adafruit Trinket and shows real compass headings, all in 3712 bytes. While it's far from being a finished product, it's a big step in the direction of one.

Below, I'll give you the source code, talk about how recent compiler changes impact code size, tell you about a bug I fixed, and make a bunch of excuses for why this took so long.

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Magnetometer V: Fixed-Point Math

This is another article in my series about developing a magnetometer-based digital compass. Last time, I talked about estimating code size, and what I might do to fit the application in the roughly 5.25K program space available on an Adafruit Trinket.

In this article, I replace the floating-point math with fixed-point, and make various space-saving improvements to the calibration and rotation code. Read on for more.

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Magnetometer IV: Code Size

Last time, I presented a working proof-of-concept of a digital compass based on a three-axis magnetometer. That version was running in userland on a Raspberry Pi running Raspbian, which is a whole lot more computer than the Atmel ATtiny85 I eventually want to target. It was also coded for clarity rather than for speed or size.

In this post, I'll look at some quick-and-dirty ways to estimate program size for an AVR version (as well as some simple things we can do to save space). Read on for more.

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Magnetometer III: Working Prototype

In previous posts, I talked about a method of transforming magnetometer readings to compass headings, then experimented with using those transformations on real (but static) data. In this post, I'll present a working prototype of a vehicle compass using the methods I discussed earlier.
Read on for more details.
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Magnetometer Reading to Compass Heading

I'm working on building a digital vehicle compass, using the Honeywell HMC5883L three-axis magnetometer as a sensor. Answering the question "Which compass direction am I facing?" from the raw sensor output data is somewhat more complicated that you might expect. This is especially true when using a microcontroller like the ATTiny85 with extremely limited memory. Read on for a discussion of the problems involved and my solutions. Read the rest of this entry »

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I2C with ATTiny85 on Adafruit Trinket

SONY DSCThe Trinket microcontroller from Adafruit Industries is a tiny and inexpensive (US$8 for a single unit) way to control your electronics projects. One of the coolest things about it is that you can do I²C (and communicate to lots of inexpensive sensors and displays using only two pins) and still have plenty of room left over for your code in the ~5.5KB of flash on board.

Read on to see an example of how to do I²C communication on the Trinket (or anything with an Atmel ATTiny85)  while shaving every possible byte. Also included: driving the Adafruit Mini 8x8 LED Matrix with I2C Backpack. Read the rest of this entry »

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