/*! \file servo.h \brief Interrupt-driven RC Servo function library. */ //***************************************************************************** // // File Name : 'servo.h' // Title : Interrupt-driven RC Servo function library // Author : Pascal Stang - Copyright (C) 2002 // Created : 7/31/2002 // Revised : 8/02/2002 // Version : 1.0 // Target MCU : Atmel AVR Series // Editor Tabs : 4 // // NOTE: you need the latest version (3.2+) of the AVR-GCC compiler to use this // function library. Download it from http://www.avrfreaks.net/AVRGCC // // Description : This code allows you to drive up to 8 RC servos from any // combination of ports and pins on the AVR processor. Using interrupts, // this code continuously sends control signals to the servo to maintain // position even while your code is doing other work. // // The servoInit and servoOff effectively turn on and turn off servo // control. When you run ServoInit, it automatically assigns each // "channel" of servo control to be output on the SERVO_DEFAULT_PORT. // One "channel" of servo control can control one servo and must be // assigned single I/O pin for output. // // If you're using all eight channels (SERVO_NUM_CHANNELS = 8), then // then by default the code will use SERVO_DEFAULT_PORT pins 0-7. // If you're only using four channels, then pins 0-3 will be used by // default. // // The command servoSetChannelIO(channel, port, pin) allows you to // reassign the output of any channel to any port and I/O pin you // choose. For exampe, if you have an RC servo connected to PORTC, pin 6, // and you wish to use channel 2 to control it, use: // // servoSerChannelIO( 2, _SFR_IO_ADDR(PORTC), 6) // // (NOTE: you must include the "_SRF_IO_ADDR()" part around your port) // // The servoSetPostion and servoGetPosition commands allow you to command // a given servo to your desired position. The position you request must // lie between the SERVO_MIN and SERVO_MAX limit you defined. // // This code is distributed under the GNU Public License // which can be found at http://www.gnu.org/licenses/gpl.txt // //***************************************************************************** #ifndef SERVO_H #define SERVO_H #include "global.h" #include "timer.h" // include configuration #include "servoconf.h" typedef struct struct_ServoChannel { // hardware I/O port and pin for this channel u08 port; u08 pin; // PWM duty setting which corresponds to servo position u16 duty; } ServoChannelType; // functions // initializes servo system // You must run this to begin servo control void servoInit(void); // turns off servo system // This stops controlling the servos and // returns control of the SERVOPORT to your code void servoOff(void); // set the port and I/O pin you wish to use for a given channel // If you do not assign a port and I/O pin for a channel (ie. you don't // use this command) then all output will be done through the // SERVO_DEFAULT_PORT. See above definition of SERVO_DEFAULT_PORT. void servoSetChannelIO(u08 channel, u08 port, u08 pin); // set and get servo position on a given channel // servoSetPosition() commands the servo on to the position you // desire. The position input must lie between 0 and POSITION_MAX and // will be automatically scaled to raw positions between SERVO_MIN and // SERVO_MAX // servoGetPosition() returns the most recently set postition of the // servo on . The return value will be scaled 0->POSITION_MAX void servoSetPosition(u08 channel, u08 position); u08 servoGetPosition(u08 channel); // set and get raw servo position on a given channel // Works like non-raw commands but position is not scaled. Position must // be between SERVO_MIN and SERVO_MAX void servoSetPositionRaw(u08 channel, u16 position); u16 servoGetPositionRaw(u08 channel); // servo interrupt service routine void servoService(void); #endif