Sort of…I took a little artistic license with the picture above! The Liquidware Amber power supply and BeagleJuice, 2nd Gen were both built with advanced power management principles in mind.
(Edit: I got a few questions about this - the BeagleJuice, 2nd Gen comes with the standard 5V barrel jack cable to charge any 5V device that fits the jack, like the BeagleBone or PandaBoard. For the adventurous, it's not a huge stretch to wire your own cable to the 2-pin Molex connector...)
The 2nd Generation BeagleJuice is a modern, laptop-grade power supply that implements smart charging technology to manage multiple cells in series to deliver higher charge capacity, as well as high-power output. It’s optimized for 2-cell, 3-cell, and 6-cell configurations to deliver 2800, 4200, or 8400 mAh of capacity.
Onboard LEDs provide multiple status readouts as well as charge information. Advanced features can be accessed over I2C pins directly, or via a Zero Insertion Force (ZIF) ribbon connector. Here at the lab, I’ve used the 2nd Gen BeagleJuice as a primary power supply for several BeagleBoard units concurrently – which centralizes the power management system for remote installation clusters. The high-capacity BeagleJuice provides quad 5V outputs via discrete 2-pin Molex connectors.
I’ll cover some details on charging cycles in the next blog, but in addition to smart charging and power input management, the heavy-duty power supplies that the BeagleJuice is modeled after also focus on being fault tolerant and providing an added measure of battery preservation. This “safety” logic protects the battery from:
- over current charge/discharge
- over temperature charge/discharge
- over voltage charge/discharge
- cell charge/discharge imbalances
6 comments:
Very cool. The led fuel gauge could be lit up by a light pipe for external case viewing.
What voltage does the i²c bus operate on? Can this also be used in combination with a raspberry pi?
Great question, Andre. The I2C bus is configurable. Bring your own voltage into the Vext pin. The range is 1.8V to 3.3V.
Any I2C host board could work with the battery. Currently, we have the driver coded for Android/Linux/OMAP, but it could be hacked to anything that talks I2C.
In terms of simply power supply, the 2-pin molex connectors output 5V at up to 5A, and I'm splicing my own microUSB wires on, as you see in the video.
I tortured my BJ2 with some 5A spikes, and it is still working perfectly.
Looking at the documentation ( http://elinux.org/RPi_Low-level_peripherals ) the GPIO pins operate at 3.3 Volt. In Alternative Configuration 0, some of these pins are the I²C Bus. I assume the will also be operating at 3.3 Volt.
Andre, a few other people were asking the same thing, so I got a diagram together and posted it up here:
http://antipastohw.blogspot.com/2012/08/3-useful-things-to-know-about.html
Hope this helps!
Justin
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