资源说明:alternative controller and firmware for a cheap rc
=== Funkenschlag === the process of generating a spark, lit. "spark punch" ---- Stefan Tomanekhttps://github.com/wertarbyte/funkenschlag ---- == What is Funkenschlag? Funkenschlag is a simple firmware for use in RC model transmitters. It uses an ATMega microcontroller to query the controls present in such devices and generate the PPM signal fed to the radio transmitter module. == What is required to use Funkenschlag? An ATMega microcontroller (e.g. ATMega8, ATMega168 or ATMega328) is required to run the program itself; any radio module processing PPM input should be suitable to transmit the signal generated by the controller. Funkenschlag supports analog control sticks as well as digital switches and a few other control devices you can build your TX from. == What was the intention of developing Funkenschlag? I wrote the firmware to replace the puny electronics present in my cheap 6ch TX[1]. While the device itself was advertised as being able to process 6 channels, the transmitter module is capable of transmitting at least 8 channls if such a signal is fed to it. I also added several other inputs and sensors to the TX as well as implemented a serial data link nicknamed "Datenschlag". == What is "Datenschlag"? Datenschlag ("data punch") is a serial protocol that utilizes one servo channel to encode and transmit arbitrary binary data. This data stream can contain information about switch positions, magnetic bearing of the TX, additional servo commands for camera positioning or any other instruction for the vehicle. The receiver has to decode this data stream to obtain the instruction. My fork of the popular multirotor project Multiwii[2] contains such code so that e.g. up to 8 AUX switches can be operated without the need for additional servo channels. == What other hardware can be put into the transmitter? My transmitter employs a PCF8591 I²C ADC chip to query additional analog inputs as well as an HMC5883 magnetometer to constantly measure the bearing of TX and pilot; this bearing can then be transmitted to the quadcopter (using Datenschlag) to adjust control commands if in HEADFREE mode. For reliable compass measurements, an accelerometer is needed to provide tilt compensation. The TX status can be displayed on an alphanumeric I²C display; support for connecting a Wii nunchuk is also present, making it possible to control the system using the accelerometer and/or joystick. == Is it free? Yes, the entire source code is licenced under the conditions of the GPLv3. == So what hardware is supported right now? Microcontroller: * ATMega8 * ATMega168/ATMega328 External ADC (needed if more than 4 analog inputs and TWI are to be used): * PCF8591 (I²C) Display: * ST7032 alphanumeric 8x2 I²C display Magnetometer: * HMMC5883 (I²C) Accelerometer: * ADXL345 (I²C) Additional input devices: * Wii Nunchuk Accelerometer and joystick (I²C) == Is there a schematic? Sure, see the link[1]. ------ [1] http://stefans.datenbruch.de/avr/funkenschlag/funkenschlag-schematic.png [2] https://github.com/wertarbyte/multiwii-firmware/blob/master/Datenschlag.ino
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