* If you want 日本語 page, see http://sourceforge.jp/projects/fablib/wiki/RaspberryHabu * Support Forun → http://www.openairstar.com/forums/ * If you want how to assembly , see "assembling commentary" in this page. = about RaspberryHabu * Addon board for Raspberry Pi. * Stackable or connect by cable. * DIGITAL INx6, DIGITAL OUTx8, ANALOG INx8, Power Circit, RTC * Except RTC IC, It is composed by DIP parts. Even an amateur is easy to assemble it. * It is released in FABLIB. Anyone use it's blueprints in free. Anyone can manufacture from it. Anyone can sell it to anyone. Freedom! * The license is CC BY 0. You crib it and make it for one's product and change it and am OK. * FABLIB project in itself prepared as an original kit and am selling it. * The argument about the development reaches in Japanese Raspberry PI Users Group ML mainly now. https://groups.google.com/forum/?fromgroups#!forum/japanese-raspberry-pi-users-group == concept * Than a function inexpensiveness * Than performance solidity * Than gaudiness plainness == target * It is for education, but It not for the training of the professional engineer. * I aim at what It can be handled without electric knowledge. * For education of the software, handling motivates a physical device. * Therefore I make a working board if I tie it == daily necessity * Incentive to be able to make daily necessity with the smallest trouble * The premise that is usable only for the experiment such as the breadboard eliminates it. * I enter problems of Raspbery Pi in itself and raise general completeness, if necessary. * The connection layout that attached great importance to heat radiation of Raspberry Pi * Power supply supply via the AC adapter * The deployment of the real-time clock = The inexpensiveness is justice * Price setting not to chip learning will * 5x10cm size. A deep-discount board manufacturer is available. * Amount of money that a child can purchase by oneself * Parts cost price is 33%. * Hardware sale without the unreasonableness is possible. * When I purchase it, and only a board prepares parts by oneself, it is cheaper. == robustness * A buffer, the transistor array are implemented by DIP parts and an IC socket. When it was broken, I can change it by oneself. * Big voltage tolerance. I incorporate a buffer even if I do wrong wiring so that damage is inferior as possible to the main body of RaspberryPi. = For practical use * Reinforcement of the power supply * It receive supply of the electricity from Raspberry Pi, but RaspberryHabu can attach power supply circit and can usually do it with more stable movement with this * RTC * Battery backup is with it == plainness * I adopt a row in WiringPi. * I adopt a sauce-based signal. Logic 1-High-5V, 5V-High- logic 1. * The digital input of a wide voltage range. A direct signal can input 3.3V system, 5V system, 12V system of the car without an additional circuit. * The digital output with ability for big drive. It can drive high brightness LED and a relay without an additional circuit. In addition, ON/OFF of the 100V system is made by going through a relay. * An intuitive board layout. I place internal placement and connector sequence by intuition clearly. * I adopt an intelligible relay as a switch not a motor driver. = Function == digital IN * 6 ports * Input range 2V - 15V == digital OUT * 8 ports * Output 5V == analog IN * 8 ports * 5VMax, 3.3VMax choice == power supply circuit * 5V supply * I separate interconnection / with Raspberry Pi, and setting is possible * Capaciter for stable power at only RaspberryPi power. == RTC * Battery backup == serial connector * It is for serial adapter connection * RaspberryPi bus direct connection type (201305xx version) * 5V level conversion type (201306xx version ) * 5V/3.3V both connectable type (20130710~ ) = Bus wiring for function cutting apart, relocation * WiringPi sequence == and others * DC Jack for AC adapter connection * Jumper for VCC voltage setting * VCC monitor LED * DOUT bus monitor LED x 4 * DOUT connection small size relay x 4 * Switch-on board implementation for DIN experiments * Bus for ANALOG IN sensor power supply * Bus for DIN signal power supply * GND bus for DOUT load connection * Infrared LED array (a relay and exclusion use) = Version == 20130513 * 1st release * The version that put a regulator on a power supply section * I sell it by events === source * http://sourceforge.jp/projects/fablib/scm/git/RASPBERRYHABU/commits/d17f548d40c7025e207bf4f9516e25d13c45cad9 === connection diagram * http://sourceforge.jp/projects/fablib/wiki/RaspberryHabu/attach/RASPBERRYHABU_20130513.pdf === assembling commentary * How to build add-on board RaspberryHabu http://togetter.com/li/509049 for RaspberryPi * How to build add-on board RaspberryHabu - power supply section (Version20130513) - http://togetter.com/li/515126 for RaspberryPi * How to build add-on board RaspberryHabu - カレンダクロック part - http://togetter.com/li/515123 for RaspberryPi == 20130517 * 2nd release * The version that put DCDC converter on a power supply section experimentally * I distribute it in study sessions === source * http://sourceforge.jp/projects/fablib/scm/git/RASPBERRYHABU/commits/ccb0d27ccaa7f83d93609dc59637170883ca0e52 === connection diagram * http://sourceforge.jp/projects/fablib/wiki/RaspberryHabu/attach/RASPBERRYHABU_20130517.pdf === assembling commentary * Adding on board RaspberryHabu how to build (Version20130517) http://togetter.com/li/514348 for RaspberryPi * Figure of parts placement http://twitpic.com/cwh0a8 of the power supply section * How to build add-on board RaspberryHabu - カレンダクロック part - http://togetter.com/li/515123 for RaspberryPi == 20130610 * 3rd release * I improve the parts layout of the DCDC converter * I change the screw hole position * It is easy to watch silk * Deletion of the I2C bus pulling up resistance * I change FTDI connector so that FTDI serial number adapter (5V) made in SparkFan is connected * I distribute it in study sessions === source * http://sourceforge.jp/projects/fablib/scm/git/RASPBERRYHABU/commits/4411b5cac9866e38ce4c33036d4282ac48f2d252 === connection diagram * http://sourceforge.jp/projects/fablib/wiki/RaspberryHabu/attach/RASPBERRYHABU_20130610.pdf === assembling commentary * It is the same as 20130517 other than following four points ** Power supply circuit ** I stretch out a foot of resistance for AD converters in the backside, and a jacket does not have to do it ** The position of the screw hole deviates from a row of AIN ** Usage change of the FTDI connector * Adding on board RaspberryHabu for RaspberryPi how to build (Version20130517) http://togetter.com/li/514348 (Japanese) * Figure of parts placement http://twitpic.com/cyuuy9 of the power supply section * How to build add-on board RaspberryHabu for RaspberryPi - RTC part - http://togetter.com/li/515123 (Japanese) * How to build FTDI connectors will improve in future. == 20130710,20130827 * 4th release * I improve the parts layout of the DCDC converter * Screw Hole fix. * Sylk fix. * fix Jumper pad of reconfiguration bus. * Add to FTDI Power connect/disconnect jumper. * enable to use 3.3V version FTDI adapter. === source * http://sourceforge.jp/projects/fablib/scm/git/RASPBERRYHABU/commits/3fd5b9b50608bff706bad9ff5af41b601a0fe10d === connection diagram * http://sourceforge.jp/projects/fablib/wiki/RaspberryHabu/attach/RASPBERRYHABU_20130610.pdf === assembling commentary * First kit and Basic kit part ** http://togetter.com/li/550525 * Figure of parts placement http://twitpic.com/cyuuy9 of the power supply section (Japanese , This photo by old version but same assembly ) * How to build add-on board RaspberryHabu for RaspberryPi - RTC part - http://togetter.com/li/515123 (Japanese , This photo by old version but same assembly ) = Package constitution == Only as for RaspberryHabu board 300 yen( about USD3 ) == RaspberryHabu First kit * Digital OUT x 8 * LED for VCC monitors * LED x 4 for digital OUT monitors * Small relay x 1 * power stable capacitar * Interface for FTDI adapters * 1,000 yen ( about USD10 ) == RaspberryHabu Basic kit * In addition to a function of RaspberryHabu First * Digital IN x 6 * SW x 1 for digital IN tests * Analog IN x 8 * 2,000 yen ( about USD20 ) == RaspberryHabu Full kit * In addition to a function of RaspberryHabu First * RTC * Backup battery for RTC * Power supply circuit * Temperature sensor for experiments, optical sensor, Ir LED * Small relay x 3 * 4,500 yen ( about USD45 ) = Attached file http://sourceforge.jp/projects/fablib/wiki/RaspberryHabu/attach/index.php
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