Copyright 2015 Google Inc. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. Summary ===================================== Mechanical design, circuit diagram and firmware of Google Japanese Input piropiro version. Files ===================================== * stl/* -- 3D shape data of mechanical parts * README.txt -- this file * circuit.png -- Circuit diagram * assembly.png -- Mechanical assembly instruction * arduino/piropiro/piropiro.ino -- Firmware source code (Arduino sketch) Building your device ===================================== ## Mechanical parts Output all mechanical parts under stl/ directory with a 3D printer. Additionally, you need these parts. * M2x4 scerws x7 * M2 washer (inside diameter=2.2mm, outside diameter=5.8mm) x1 * A party horn x1 ## Electronic parts * Arduino Nano Some other models of Arduino (e.g. Arduino Uno) can be used if required function is available. * RN-42-EK or a compatible evaluation kit RN-42 can be used instead if wired appropriately. * GP2Y0E02A distance sensor * 1/8W Resistors * 1k * 470 * Breadboard and jump wires ## Assembly See the circuit diagram and mechanical assembly instruction images. ## RN42 module configuration This step is required for the first time, or when changing the device's name. Note that you should not connect Arduino Nano when you configure RN-42-EK via USB, because signal from Arduino Nano overrides the TxD signal on RN-42-EK. See Microchip's documents for detail. 1. Connect RN-42-EK to your PC by USB. 2. Run a terminal emulator and open the serial port for RN-42-EK. 3. Type '$$$'. Make sure 'CMD' is returned from RN-42-EK and the green LED on RN-42-EK blinks fast. 4. Configure the module by these commands: * * * * * * SU,115k SM,6 SA,2 S~,6 SH,0000 SN,MY_PIROPIRO_KEYBOARD R,1 * * * * * * MY\_PIROPIRO\_KEYBOARD is a device name that will appear when you scan Bluetooth devices, and can be replaced by your preferred name. The commands will configure the module as follows: * 115200bps * Pairing mode * SSP "just works" mode * SPP profile * HID flag register = 0 (keyboard) ## Electronic Circuit Assembly See the circuit diagram for detail. When operating the device, supply power by USB cables to both RN-42-EK and Arduino Nano. You can alternatively supply 3.3V power to RN-42-EK from Arduino's 3.3V pin, but this requires a modification on RN-42-EK to disconnect the regulator's output pin on it from the circuit. Using piropiro input ===================================== ## Sensor adjustment 1. Attach the device to your party horn. The sensor should be positioned about 40mm apart from the rolled paper tube. 2. Turn on Arduino Nano and adjust the optical axis of the sensor. The LED on Arduino board is lit while the sensor is collectly sensing the tip of the paper tube between 50mm -- 350mm. ## Bluetooth pairing Using your device (e.g. Android phone), scan Bluetooth devices and you will find MY\_PIROPIRO\_KEYBOARD (or the name you set up) in the available device list. ## How to input Switch the Japanese IME on the paired device to romaji input mode. Characters will be input as you blow the horn. The length of the horn chooses the vowel. In order to switch to the next column (consonant), quickly shrink the horn and blow it again.