|
|
(未显示2个用户的18个中间版本) |
第46行: |
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| |- | | |- |
| |同样是因为中心对称的缘故,滚转运动与俯仰运动的原理一样。维持电机1和2的转速不变,改变电机3和4的转速,产生不平衡的力矩,使得机身绕着X轴做出滚转的运动。 | | |同样是因为中心对称的缘故,滚转运动与俯仰运动的原理一样。维持电机1和2的转速不变,改变电机3和4的转速,产生不平衡的力矩,使得机身绕着X轴做出滚转的运动。 |
− | {| style="width: 800px;" | colspan="2" |
| |
− | |-
| |
− | | style="width:300px" align="left"|
| |
− | <br>
| |
− | [[File:headback-sport.jpg|enter|300px]]
| |
| | | |
− | | style="width:500px" align="left"| | + | [[File:headback-sport.jpg|center|400px]] |
− | <br>
| + | |
− | [[File:turn over-sport.jpg|center|300px]] | + | |
− | |-
| + | [[File:turn over-sport.jpg|center|400px]] |
− | |
| |
− | |}
| |
− | <br>
| |
− | <br>
| |
| | | |
| ===控制流程=== | | ===控制流程=== |
第85行: |
第76行: |
| |模块||数量||功能 | | |模块||数量||功能 |
| |- | | |- |
− | |Microduino-CoreRF||1||核心板 | + | |[[Microduino-CoreRF/zh]]||1||核心板 |
| |- | | |- |
− | |Microduino-USBTTL ||1||下载程序 | + | |[[Microduino-USBTTL]] ||1||下载程序 |
| |- | | |- |
− | |Microduino-10DOF ||1||姿态稳定 | + | |[[Microduino-10DOF]] ||1||姿态稳定 |
| |- | | |- |
− | |Microduino-QuadCopter||1||加长无线传输距离 | + | |[[Microduino-QuadCopter]]||1||四轴驱动底板 |
| |- | | |- |
− | |2.4G天线||1||四轴驱动 | + | |[[2.4G天线]]||1||加长无线传输距离 |
| |} | | |} |
| | | |
第115行: |
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| *'''Step 1''':将四个螺旋翼按照如图所示方向插入到机架的对应机口上。 | | *'''Step 1''':将四个螺旋翼按照如图所示方向插入到机架的对应机口上。 |
| [[File:Quostep1.jpg|center|600px]] | | [[File:Quostep1.jpg|center|600px]] |
− |
| |
| *'''Step 2''':将电池放到机架底部的对应位置. | | *'''Step 2''':将电池放到机架底部的对应位置. |
| [[File:Quostep2.jpg|center|600px]] | | [[File:Quostep2.jpg|center|600px]] |
− |
| |
| *'''Step 3''':将模块底板放入机架顶部位置,再将旋翼的接线插入模块底板对应的接口位置。 | | *'''Step 3''':将模块底板放入机架顶部位置,再将旋翼的接线插入模块底板对应的接口位置。 |
| [[File:Quostep3.jpg|center|600px]] | | [[File:Quostep3.jpg|center|600px]] |
− | *'''Step 4''':将天线接在CoreRF上,之后与10DOF上下叠加在一起,加在底板上。 | + | *'''Step 4''':将天线接在CoreRF上,之后与10DOF上下叠加在一起,加在底板上,Upin方向朝两个橙色桨安装(如图所示)。 |
| [[File:Quostep4.jpg|center|600px]] | | [[File:Quostep4.jpg|center|600px]] |
| *'''Step 5''':将底板模块的接线头和电池的连线进行连接。 | | *'''Step 5''':将底板模块的接线头和电池的连线进行连接。 |
第129行: |
第118行: |
| **两根先正负极不要反了,红色线连红色线,黑色线连黑色线。 | | **两根先正负极不要反了,红色线连红色线,黑色线连黑色线。 |
| **电池线从电极臂下方连接,防止螺旋桨转动时与电池线碰撞。 | | **电池线从电极臂下方连接,防止螺旋桨转动时与电池线碰撞。 |
− |
| |
| | | |
| ===程序下载调试=== | | ===程序下载调试=== |
| *确认你搭建了Microduino的开发环境,否则参考:[[Microduino Getting started/zh]] | | *确认你搭建了Microduino的开发环境,否则参考:[[Microduino Getting started/zh]] |
− | *代码:[https://github.com/wasdpkj/MultiWii_for_Microduino/ MultiWii_for_Microduino] | + | *百度盘地址: |
| + | **Joypad代码:http://pan.baidu.com/s/1o6zVh3O 提取码:z6k2 |
| + | **飞行器代码:http://pan.baidu.com/s/1mgrRN7q 提取码:un3x |
| + | |
| + | *Github 地址 |
| + | **Joypad代码:[https://github.com/wasdpkj/Joypad_RC/tree/master/Joypad_RC Joypad_RC] |
| + | **飞行器代码: [https://github.com/Microduino/MultiWii_for_Microduino/tree/master/MultiWii_for_CoreRF] |
| *将Microduino-CoreRF、Microduino-USBTTL叠堆到一起,并用MicroUSB数据线将Microduino-USBTTL和电脑连接起来。 | | *将Microduino-CoreRF、Microduino-USBTTL叠堆到一起,并用MicroUSB数据线将Microduino-USBTTL和电脑连接起来。 |
| *打开Arduino IDE编程软件,点击 【文件】->【打开】,打开MultiWii_CoreRF中的【MultiWii_RF】程序,在菜单栏的Tools下的Board选择板卡Microduino-Core RF | | *打开Arduino IDE编程软件,点击 【文件】->【打开】,打开MultiWii_CoreRF中的【MultiWii_RF】程序,在菜单栏的Tools下的Board选择板卡Microduino-Core RF |
第226行: |
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| ====Joypad搭建==== | | ====Joypad搭建==== |
| 给Joypad的Microduino-CorRF下载程序。 | | 给Joypad的Microduino-CorRF下载程序。 |
− | **打开MultiWii_CoreRF中的【Joypad_RC】程序,在编译结束后,选择好板卡和端口进行直接下载
| + | *打开MultiWii_CoreRF中的【Joypad_RC】程序,在编译结束后,选择好板卡和端口进行直接下载 |
| | | |
| *'''Step 1''':将Microduino-TFT从Microduino-Joypad面板后面卡进Microduino-Joypad面板上,用尼龙螺丝固定,注意Microduino-TFT安装方向 | | *'''Step 1''':将Microduino-TFT从Microduino-Joypad面板后面卡进Microduino-Joypad面板上,用尼龙螺丝固定,注意Microduino-TFT安装方向 |
| [[File:Joypadstep1.jpg|center|600px]] | | [[File:Joypadstep1.jpg|center|600px]] |
| + | '''注意:接不同的电池需要拨动中间的开关,在图中已有标志。需要先拨开关再接入电池,否则会影响使用。''' |
| + | [[File:Joypadstep1_1.jpg|center|800px]] |
| *'''Step 2''':将传感器接线插在Microduino-TFT的接口上 | | *'''Step 2''':将传感器接线插在Microduino-TFT的接口上 |
| [[File:Joypadstep2.jpg|center|600px]] | | [[File:Joypadstep2.jpg|center|600px]] |
第303行: |
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| [[File:Qua_app-ok.png|center|600px]] | | [[File:Qua_app-ok.png|center|600px]] |
| | | |
− | ==代码及注释==
| |
| ==程序说明== | | ==程序说明== |
− |
| |
− | ==Joypad程序及说明==
| |
− | Joypad_RC.ino
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− | #include "def.h"
| |
− | #include "time.h"
| |
− | #include "bat.h"
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | #include "mpu.h"
| |
− | #endif
| |
− | #include "joy.h"
| |
− | #include "key.h"
| |
− | #include "data.h"
| |
− | #include "nrf.h"
| |
− | #include "mwc.h"
| |
− | #include "tft.h"
| |
− | #include "eep.h"
| |
− |
| |
− | #if defined(__AVR_ATmega128RFA1__)
| |
− | #include <ZigduinoRadio.h>
| |
− | #endif
| |
− |
| |
− | //joypad================================
| |
− | #include <Joypad.h>
| |
− | //eeprom================================
| |
− | #include <EEPROM.h>
| |
− | //TFT===================================
| |
− | #include <Adafruit_GFX.h> // Core graphics library
| |
− | #include <Adafruit_ST7735.h> // Hardware-specific
| |
− | #include <SPI.h>
| |
− | //rf====================================
| |
− | #include <RF24Network.h>
| |
− | #include <RF24.h>
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | //MPU===================================
| |
− | #include "Wire.h"
| |
− | #include "I2Cdev.h"
| |
− | #include "MPU6050_6Axis_MotionApps20.h"
| |
− | #endif
| |
− |
| |
− | //spi===================================
| |
− | #include <SPI.h>
| |
− |
| |
− | void setup()
| |
− | {
| |
− | // initialize serial communication at 115200 bits per second:
| |
− |
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.begin(115200);
| |
− | delay(100);
| |
− | Serial.println("========hello========");
| |
− | #endif
| |
− |
| |
− | //---------------
| |
− | key_init();
| |
− |
| |
− | //---------------
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\r EEPROM READ...");
| |
− | #endif
| |
− | eeprom_read();
| |
− |
| |
− | //---------------
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\r TFT INIT...");
| |
− | #endif
| |
− | TFT_init(true, tft_rotation);
| |
− |
| |
− | //---------------
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\r TFT BEGIN...");
| |
− | #endif
| |
− | TIME1 = millis();
| |
− | while (millis() - TIME1 < interval_TIME1)
| |
− | {
| |
− | TFT_begin();
| |
− |
| |
− | if (!Joypad.readButton(CH_SWITCH_1))
| |
− | {
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\rCorrect IN...");
| |
− | #endif
| |
− |
| |
− | //---------------
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\r TFT INIT...");
| |
− | #endif
| |
− | TFT_init(false, tft_rotation);
| |
− |
| |
− | while (1)
| |
− | {
| |
− | if (!TFT_config())
| |
− | break;
| |
− | }
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\rCorrect OUT...");
| |
− | #endif
| |
− |
| |
− | //---------------
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\r EEPROM WRITE...");
| |
− | #endif
| |
− | eeprom_write();
| |
− | }
| |
− | }
| |
− |
| |
− | //---------------
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\r TFT CLEAR...");
| |
− | #endif
| |
− | TFT_clear();
| |
− |
| |
− | //---------------
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("\n\r TFT READY...");
| |
− | #endif
| |
− | TFT_ready();
| |
− |
| |
− | //---------------.l
| |
− | if (mode_protocol) //Robot
| |
− | {
| |
− | SPI.begin(); //初始化SPI总线
| |
− | radio.begin();
| |
− | network.begin(/*channel*/ nrf_channal, /*node address*/ this_node);
| |
− | }
| |
− | else //QuadCopter
| |
− | {
| |
− | unsigned long _channel;
| |
− | #if !defined(__AVR_ATmega128RFA1__)
| |
− | switch (mwc_channal)
| |
− | {
| |
− | case 0:
| |
− | _channel = 9600;
| |
− | break;
| |
− | case 1:
| |
− | _channel = 19200;
| |
− | break;
| |
− | case 2:
| |
− | _channel = 38400;
| |
− | break;
| |
− | case 3:
| |
− | _channel = 57600;
| |
− | break;
| |
− | case 4:
| |
− | _channel = 115200;
| |
− | break;
| |
− | }
| |
− | #else if
| |
− | _channel = mwc_channal;
| |
− | #endif
| |
− | mwc_port.begin(_channel);
| |
− | }
| |
− |
| |
− | //---------------
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("===========start===========");
| |
− | #endif
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | if (mode_mpu) initMPU(); //initialize device
| |
− | #endif
| |
− | }
| |
− |
| |
− | void loop()
| |
− | {
| |
− | // unsigned long time = millis();
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | //MPU--------------------------------
| |
− | if (mode_mpu)
| |
− | getMPU();
| |
− | #endif
| |
− |
| |
− | //DATA_begin------------------------------
| |
− | data_begin();
| |
− |
| |
− | //DATA_send-------------------------------
| |
− | if (millis() < time2) time2 = millis();
| |
− | if (millis() - time2 > interval_time2)
| |
− | {
| |
− | if (mode_protocol) nrf_send(); //Robot
| |
− | else data_send(); //QuadCopter
| |
− |
| |
− | time2 = millis();
| |
− | }
| |
− |
| |
− | //节点查错-------------------------------
| |
− | vodebug();
| |
− |
| |
− | //BAT--------------------------------
| |
− | if (time3 > millis()) time3 = millis();
| |
− | if (millis() - time3 > interval_time3)
| |
− | {
| |
− | vobat();
| |
− | time3 = millis();
| |
− | }
| |
− |
| |
− | //TFT------------------------------------
| |
− | TFT_run();
| |
− |
| |
− | //===================================
| |
− | // time = millis() - time;
| |
− |
| |
− | // Serial.println(time, DEC); //loop time
| |
− | }
| |
− | </cpp>
| |
− | BAT.h
| |
− | <source lang="cpp">
| |
− | int8_t _V_bat = _V_min;
| |
− |
| |
− | boolean mcu_voltage = true; // 5.0 or 3.3
| |
− | #define _V_fix 0.2 //fix battery voltage
| |
− | #define _V_math(Y) (_V_fix+((Y*analogRead(PIN_bat)/1023.0f)/(33.0f/(51.0f+33.0f))))
| |
− |
| |
− | void vobat()
| |
− | {
| |
− | //_V_bat=10*((voltage*analogRead(PIN_bat)/1023.0f)/(33.0f/(51.0f+33.0f)));
| |
− | _V_bat = _V_math(mcu_voltage ? 50 : 33);
| |
− | _V_bat = constrain(_V_bat, _V_min, _V_max);
| |
− |
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.print("_V_bat: ");
| |
− | Serial.println(_V_bat);
| |
− | #endif
| |
− | }
| |
− | </source>
| |
− | data.h
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− |
| |
− | byte inBuf[16];
| |
− |
| |
− | int16_t outBuf[8] =
| |
− | {
| |
− | Joy_MID, Joy_MID, Joy_MID, Joy_MID, Joy_MID, Joy_MID, Joy_MID, Joy_MID
| |
− | };
| |
− |
| |
− | boolean AUX[4] = {0, 0, 0, 0};
| |
− | //======================================
| |
− | void data_begin()
| |
− | {
| |
− | Joy();
| |
− |
| |
− | if (mode_protocol) //Robot
| |
− | {
| |
− | if (!sw_l)
| |
− | {
| |
− | Joy_x = Joy_MID;
| |
− | Joy_y = Joy_MID;
| |
− | Joy1_x = Joy_MID;
| |
− | Joy1_y = Joy_MID;
| |
− | }
| |
− | }
| |
− | else //QuadCopter
| |
− | {
| |
− | if (!sw_l)
| |
− | Joy_y = Joy_MID - Joy_maximum;
| |
− | }
| |
− |
| |
− | //but---------------------------------
| |
− | for (uint8_t a = 0; a < 4; a++)
| |
− | {
| |
− | if (key_get(a, 1)) AUX[a] = !AUX[a];
| |
− | }
| |
− |
| |
− | outBuf[0] = Joy1_x;
| |
− | outBuf[1] = Joy1_y;
| |
− | outBuf[2] = Joy_x;
| |
− | outBuf[3] = Joy_y;
| |
− | outBuf[4] = map(AUX[0], 0, 1, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | outBuf[5] = map(AUX[1], 0, 1, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | outBuf[6] = map(AUX[2], 0, 1, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | outBuf[7] = map(AUX[3], 0, 1, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | }
| |
− |
| |
− | </source>
| |
− | def.h
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− |
| |
− | //DEBUG-----------
| |
− | #define Serial_DEBUG
| |
− |
| |
− | //MWC-------------
| |
− | uint8_t mwc_channal = 11; //RF channel
| |
− |
| |
− | #if defined(__AVR_ATmega32U4__)
| |
− | #define mwc_port Serial1 //Serial1 is D0 D1
| |
− | #elif defined(__AVR_ATmega128RFA1__)
| |
− | #define mwc_port ZigduinoRadio //RF
| |
− | #else
| |
− | #define mwc_port Serial //Serial is D0 D1
| |
− | #endif
| |
− |
| |
− | //nRF-------------
| |
− | #define interval_debug 2000 //节点查错间隔
| |
− | uint8_t nrf_channal = 70; //0~125
| |
− |
| |
− | //Battery---------
| |
− | #define PIN_bat A7 //BAT
| |
− |
| |
− | #define _V_max 41 //锂电池满电电压4.2V
| |
− | #define _V_min 36 //锂电池没电电压3.7V
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | //MPU-------------
| |
− | #define MPU_maximum 70
| |
− | #endif
| |
− |
| |
− |
| |
− | //Time------------
| |
− | #define interval_TIME1 2000 //setup delay
| |
− | #define interval_time2 40 //send interval
| |
− | #define interval_time3 1000 //battery interval
| |
− | </source>
| |
− | eep.h
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− |
| |
− | #include <EEPROM.h>
| |
− |
| |
− | #define EEPROM_write(address, p) {int i = 0; byte *pp = (byte*)&(p);for(; i < sizeof(p); i++) EEPROM.write(address+i, pp[i]);}
| |
− | #define EEPROM_read(address, p) {int i = 0; byte *pp = (byte*)&(p);for(; i < sizeof(p); i++) pp[i]=EEPROM.read(address+i);}
| |
− |
| |
− | struct config_type
| |
− | {
| |
− | int16_t eeprom_correct_min[4];
| |
− | int16_t eeprom_correct_max[4];
| |
− | uint8_t eeprom_Joy_deadzone_val;
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | boolean eeprom_mode_mpu;
| |
− | #endif
| |
− | boolean eeprom_mode_protocol;
| |
− | uint8_t eeprom_mwc_channal;
| |
− | uint8_t eeprom_nrf_channal;
| |
− | boolean eeprom_tft_theme;
| |
− | boolean eeprom_tft_rotation;
| |
− | boolean eeprom_mcu_voltage;
| |
− | };
| |
− |
| |
− | //======================================
| |
− | void eeprom_read()
| |
− | {
| |
− | //EEPROM读取赋值
| |
− | config_type config_readback;
| |
− | EEPROM_read(0, config_readback);
| |
− |
| |
− | for (uint8_t a = 0; a < 4; a++)
| |
− | {
| |
− | joy_correct_min[a] = config_readback.eeprom_correct_min[a];
| |
− | joy_correct_max[a] = config_readback.eeprom_correct_max[a];
| |
− | }
| |
− | Joy_deadzone_val = config_readback.eeprom_Joy_deadzone_val;
| |
− |
| |
− | mode_protocol = config_readback.eeprom_mode_protocol;
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | mode_mpu = config_readback.eeprom_mode_mpu;
| |
− | #endif
| |
− |
| |
− | mwc_channal = config_readback.eeprom_mwc_channal;
| |
− | nrf_channal = config_readback.eeprom_nrf_channal;
| |
− | tft_theme = config_readback.eeprom_tft_theme;
| |
− | tft_rotation = config_readback.eeprom_tft_rotation;
| |
− | mcu_voltage = config_readback.eeprom_mcu_voltage;
| |
− | }
| |
− |
| |
− | void eeprom_write()
| |
− | {
| |
− | // 定义结构变量config,并定义config的内容
| |
− | config_type config;
| |
− |
| |
− | for (uint8_t a = 0; a < 4; a++)
| |
− | {
| |
− | config.eeprom_correct_min[a] = joy_correct_min[a];
| |
− | config.eeprom_correct_max[a] = joy_correct_max[a];
| |
− | }
| |
− | config.eeprom_Joy_deadzone_val = Joy_deadzone_val;
| |
− |
| |
− | config.eeprom_mode_protocol = mode_protocol;
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | config.eeprom_mode_mpu = mode_mpu;
| |
− | #endif
| |
− |
| |
− | config.eeprom_mwc_channal = mwc_channal;
| |
− | config.eeprom_nrf_channal = nrf_channal;
| |
− | config.eeprom_tft_theme = tft_theme;
| |
− | config.eeprom_tft_rotation = tft_rotation;
| |
− | config.eeprom_mcu_voltage = mcu_voltage;
| |
− |
| |
− | // 变量config存储到EEPROM,地址0写入
| |
− | EEPROM_write(0, config);
| |
− | }
| |
− | </source>
| |
− | joy.h
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− |
| |
− | #include <Joypad.h>
| |
− |
| |
− | //Joy-------------
| |
− | //1000~2000
| |
− | uint8_t Joy_deadzone_val = 10;
| |
− | #define Joy_s_maximum 200 //MAX 300
| |
− | #define Joy_maximum 450 //MAX 500
| |
− | #define Joy_MID 1500 //1500
| |
− |
| |
− | boolean mode_mpu, mode_protocol; //{(0: 0 is mwc, 1 is nrf),(1: 0 is mpu, 1 is no mpu)}
| |
− |
| |
− | int16_t joy_correct_max[4], joy_correct_min[4];
| |
− | int16_t Joy_x, Joy_y, Joy1_x, Joy1_y;
| |
− |
| |
− | int16_t s_lig, s_mic;
| |
− |
| |
− | boolean Joy_sw, Joy1_sw;
| |
− |
| |
− | boolean but1, but2, but3, but4;
| |
− |
| |
− | boolean sw_l, sw_r;
| |
− |
| |
− | //======================================
| |
− | int16_t Joy_dead_zone(int16_t _Joy_vol)
| |
− | {
| |
− | if (abs(_Joy_vol) > Joy_deadzone_val)
| |
− | return ((_Joy_vol > 0) ? (_Joy_vol - Joy_deadzone_val) : (_Joy_vol + Joy_deadzone_val));
| |
− | else
| |
− | return 0;
| |
− | }
| |
− |
| |
− | int16_t Joy_i(int16_t _Joy_i, boolean _Joy_b, int16_t _Joy_MIN, int16_t _Joy_MAX)
| |
− | {
| |
− | int16_t _Joy_a;
| |
− | switch (_Joy_i)
| |
− | {
| |
− | case 0:
| |
− | _Joy_a = Joy_dead_zone(Joypad.readJoystickX());
| |
− | break;
| |
− | case 1:
| |
− | _Joy_a = Joypad.readJoystickY(); //throt
| |
− | break;
| |
− | case 2:
| |
− | _Joy_a = Joy_dead_zone(Joypad.readJoystick1X());
| |
− | break;
| |
− | case 3:
| |
− | _Joy_a = Joy_dead_zone(Joypad.readJoystick1Y());
| |
− | break;
| |
− | }
| |
− |
| |
− | if (_Joy_b)
| |
− | {
| |
− | if (_Joy_a < 0)
| |
− | _Joy_a = map(_Joy_a, joy_correct_min[_Joy_i], 0, _Joy_MAX, Joy_MID);
| |
− | else
| |
− | _Joy_a = map(_Joy_a, 0, joy_correct_max[_Joy_i], Joy_MID, _Joy_MIN);
| |
− |
| |
− | if (_Joy_a < _Joy_MIN) _Joy_a = _Joy_MIN;
| |
− | if (_Joy_a > _Joy_MAX) _Joy_a = _Joy_MAX;
| |
− | }
| |
− | return _Joy_a;
| |
− | }
| |
− |
| |
− | void Joy()
| |
− | {
| |
− | sw_l = Joypad.readButton(CH_SWITCH_L);
| |
− | sw_r = Joypad.readButton(CH_SWITCH_R);
| |
− |
| |
− | //------------------------------------
| |
− | //s_lig=Joypad.readLightSensor();
| |
− | //s_mic=Joypad.readMicrophone();
| |
− |
| |
− | //------------------------------------
| |
− | Joy_sw = Joypad.readButton(CH_JOYSTICK_SW);
| |
− | Joy1_sw = Joypad.readButton(CH_JOYSTICK1_SW);
| |
− |
| |
− | //------------------------------------
| |
− | but1 = Joypad.readButton(CH_SWITCH_1);
| |
− | but2 = Joypad.readButton(CH_SWITCH_2);
| |
− | but3 = Joypad.readButton(CH_SWITCH_3);
| |
− | but4 = Joypad.readButton(CH_SWITCH_4);
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | //====================================
| |
− | int16_t y[3]; //MPU---------------------------------
| |
− | if (mode_mpu) //MPU---------------------------------
| |
− | {
| |
− | for (uint8_t a = 0; a < 3; a++)
| |
− | {
| |
− | y[a] = ypr[a] * 180 / M_PI;
| |
− | if (y[a] > MPU_maximum) y[a] = MPU_maximum;
| |
− | if (y[a] < -MPU_maximum) y[a] = -MPU_maximum;
| |
− | }
| |
− | }
| |
− | #endif
| |
− |
| |
− | if (Joypad.readButton(CH_SWITCH_R))
| |
− | {
| |
− | Joy_x = Joy_i(0, true, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | Joy_y = Joy_i(1, true, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | if (mode_mpu) //MPU---------------------------------
| |
− | {
| |
− | Joy1_x = map(y[2], -MPU_maximum, MPU_maximum, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | Joy1_y = map(y[1], -MPU_maximum, MPU_maximum, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | }
| |
− | else
| |
− | #endif
| |
− | {
| |
− | Joy1_x = Joy_i(2, true, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | Joy1_y = Joy_i(3, true, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | }
| |
− | }
| |
− | else
| |
− | {
| |
− | Joy_x = Joy_i(0, true, Joy_MID - Joy_s_maximum, Joy_MID + Joy_s_maximum);
| |
− | Joy_y = Joy_i(1, true, mode_protocol ? Joy_MID - Joy_s_maximum : Joy_MID - Joy_maximum,
| |
− | mode_protocol ? Joy_MID + Joy_s_maximum : Joy_MID + Joy_maximum); // Robot,QuadCopter
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | if (mode_mpu) //MPU---------------------------------
| |
− | {
| |
− | Joy1_x = map(y[2], -MPU_maximum, MPU_maximum, Joy_MID - Joy_s_maximum, Joy_MID + Joy_s_maximum);
| |
− | Joy1_y = map(y[1], -MPU_maximum, MPU_maximum, Joy_MID - Joy_s_maximum, Joy_MID + Joy_s_maximum);
| |
− | }
| |
− | else
| |
− | #endif
| |
− | {
| |
− | Joy1_x = Joy_i(2, true, Joy_MID - Joy_s_maximum, Joy_MID + Joy_s_maximum);
| |
− | Joy1_y = Joy_i(3, true, Joy_MID - Joy_s_maximum, Joy_MID + Joy_s_maximum);
| |
− | }
| |
− | }
| |
− | }
| |
− |
| |
− | </source>
| |
− | key.h
| |
− | <source lang="cpp">
| |
− | #include "arduino.h"
| |
− |
| |
− | uint8_t key_pin[4] = {CH_SWITCH_1, CH_SWITCH_2, CH_SWITCH_3, CH_SWITCH_4}; //按键1 2 3 4
| |
− |
| |
− | boolean key_status[4]; //按键
| |
− | boolean key_cache[4]; //检测按键松开缓存
| |
− |
| |
− | void key_init()
| |
− | {
| |
− | for (uint8_t a = 0; a < 4; a++)
| |
− | {
| |
− | key_status[a] = LOW;
| |
− | key_cache[a] = HIGH;
| |
− | }
| |
− | }
| |
− |
| |
− | boolean key_get(uint8_t _key_num, boolean _key_type)
| |
− | {
| |
− | key_cache[_key_num] = key_status[_key_num]; //缓存作判断用
| |
− |
| |
− | key_status[_key_num] = !Joypad.readButton(key_pin[_key_num]); //触发时
| |
− |
| |
− | switch (_key_type)
| |
− | {
| |
− | case 0:
| |
− | if (!key_status[_key_num] && key_cache[_key_num]) //按下松开后
| |
− | return true;
| |
− | else
| |
− | return false;
| |
− | break;
| |
− | case 1:
| |
− | if (key_status[_key_num] && !key_cache[_key_num]) //按下松开后
| |
− | return true;
| |
− | else
| |
− | return false;
| |
− | break;
| |
− | }
| |
− | }
| |
− | </source>
| |
− | mpu.h
| |
− | <source lang="cpp">
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | #include "Wire.h"
| |
− | #include "I2Cdev.h"
| |
− | #include "MPU6050_6Axis_MotionApps20.h"
| |
− |
| |
− | MPU6050 mpu;
| |
− |
| |
− | //MPU-------------
| |
− | #define MPU_maximum 70
| |
− |
| |
− | // MPU control/status vars
| |
− | boolean dmpReady = false; // set true if DMP init was successful
| |
− | uint8_t mpuIntStatus; // holds actual interrupt status byte from MPU
| |
− | uint8_t devStatus; // return status after each device operation (0 = success, !0 = error)
| |
− | uint16_t packetSize; // expected DMP packet size (default is 42 bytes)
| |
− | uint16_t fifoCount; // count of all bytes currently in FIFO
| |
− | uint8_t fifoBuffer[64]; // FIFO storage buffer
| |
− |
| |
− | // orientation/motion vars
| |
− | Quaternion q; // [w, x, y, z] quaternion container
| |
− | VectorInt16 aa; // [x, y, z] accel sensor measurements
| |
− | VectorFloat gravity; // [x, y, z] gravity vector
| |
− | float ypr[3]; // [yaw, pitch, roll] yaw/pitch/roll container and gravity vector
| |
− |
| |
− | void initMPU()
| |
− | {
| |
− | Wire.begin();
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println(F("Initializing I2C devices..."));
| |
− | #endif
| |
− | mpu.initialize();
| |
− | // verify connection
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println(F("Testing device connections..."));
| |
− | #endif
| |
− | if (mpu.testConnection())
| |
− | {
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println("MPU6050 connection successful");
| |
− | #endif
| |
− | }
| |
− | #ifdef Serial_DEBUG
| |
− | else
| |
− | Serial.println(F("MPU6050 connection failed"));
| |
− | #endif
| |
− |
| |
− | // load and configure the DMP
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println(F("Initializing DMP..."));
| |
− | #endif
| |
− | devStatus = mpu.dmpInitialize();
| |
− |
| |
− | // make sure it worked (returns 0 if so)
| |
− | if (devStatus == 0) {
| |
− | // turn on the DMP, now that it's ready
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println(F("Enabling DMP..."));
| |
− | #endif
| |
− | mpu.setDMPEnabled(true);
| |
− |
| |
− | mpuIntStatus = mpu.getIntStatus();
| |
− |
| |
− | // set our DMP Ready flag so the main loop() function knows it's okay to use it
| |
− | // Serial.println(F("DMP ready! Waiting for first interrupt..."));
| |
− | dmpReady = true;
| |
− |
| |
− | // get expected DMP packet size for later comparison
| |
− | packetSize = mpu.dmpGetFIFOPacketSize();
| |
− | }
| |
− | else {
| |
− | // ERROR!
| |
− | // 1 = initial memory load failed
| |
− | // 2 = DMP configuration updates failed
| |
− | // (if it's going to break, usually the code will be 1)
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.print(F("DMP Initialization failed (code "));
| |
− | Serial.print(devStatus);
| |
− | Serial.println(F(")"));
| |
− | #endif
| |
− | }
| |
− | }
| |
− |
| |
− | void getMPU()
| |
− | {
| |
− | if (!dmpReady) return;
| |
− | {
| |
− | // reset interrupt flag and get INT_STATUS byte
| |
− | mpuIntStatus = mpu.getIntStatus();
| |
− |
| |
− | // get current FIFO count
| |
− | fifoCount = mpu.getFIFOCount();
| |
− |
| |
− | // check for overflow (this should never happen unless our code is too inefficient)
| |
− | if ((mpuIntStatus & 0x10) || fifoCount == 1024)
| |
− | {
| |
− | // reset so we can continue cleanly
| |
− | mpu.resetFIFO();
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.println(F("FIFO overflow!"));
| |
− | #endif
| |
− | // otherwise, check for DMP data ready interrupt (this should happen frequently)
| |
− | }
| |
− | else if (mpuIntStatus & 0x02)
| |
− | {
| |
− | // wait for correct available data length, should be a VERY short wait
| |
− | while (fifoCount < packetSize) fifoCount = mpu.getFIFOCount();
| |
− |
| |
− | // read a packet from FIFO
| |
− | mpu.getFIFOBytes(fifoBuffer, packetSize);
| |
− |
| |
− | // track FIFO count here in case there is > 1 packet available
| |
− | // (this lets us immediately read more without waiting for an interrupt)
| |
− | fifoCount -= packetSize;
| |
− |
| |
− | // display ypr angles in degrees
| |
− | mpu.dmpGetQuaternion(&q, fifoBuffer);
| |
− | mpu.dmpGetGravity(&gravity, &q);
| |
− | mpu.dmpGetYawPitchRoll(ypr, &q, &gravity);
| |
− |
| |
− | //Serial.print("ypr\t");
| |
− | //Serial.print(ypr[0] * 180/M_PI);
| |
− | //Serial.print("\t");
| |
− | //Serial.print(ypr[1] * 180/M_PI);
| |
− | //Serial.print("\t");
| |
− | // Serial.println(ypr[2] * 180/M_PI);
| |
− | }
| |
− | }
| |
− | }
| |
− |
| |
− | #endif
| |
− | </source>
| |
− | mwc.h
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− |
| |
− | #if defined(__AVR_ATmega128RFA1__)
| |
− | #include <ZigduinoRadio.h>
| |
− | #endif
| |
− |
| |
− | int16_t RCin[8], RCoutA[8], RCoutB[8];
| |
− |
| |
− | int16_t p;
| |
− | uint16_t read16()
| |
− | {
| |
− | uint16_t r = (inBuf[p++] & 0xFF);
| |
− | r += (inBuf[p++] & 0xFF) << 8;
| |
− | return r;
| |
− | }
| |
− |
| |
− | uint16_t t, t1, t2;
| |
− | uint16_t write16(boolean a)
| |
− | {
| |
− | if (a)
| |
− | {
| |
− | t1 = outBuf[p++] >> 8;
| |
− | t2 = outBuf[p - 1] - (t1 << 8);
| |
− | t = t1;
| |
− | }
| |
− | else
| |
− | t = t2;
| |
− | return t;
| |
− | }
| |
− |
| |
− | typedef unsigned char byte;
| |
− | byte getChecksum(byte length, byte cmd, byte mydata[])
| |
− | {
| |
− | //三个参数分别为: 数据长度 , 指令代码 , 实际数据数组
| |
− | byte checksum = 0;
| |
− | checksum ^= (length & 0xFF);
| |
− | checksum ^= (cmd & 0xFF);
| |
− | for (uint8_t i = 0; i < length; i++)
| |
− | {
| |
− | checksum ^= (mydata[i] & 0xFF);
| |
− | }
| |
− | return checksum;
| |
− | }
| |
− |
| |
− | void data_rx()
| |
− | {
| |
− | // s_struct_w((int*)&inBuf,16);
| |
− | p = 0;
| |
− | for (uint8_t i = 0; i < 8; i++)
| |
− | {
| |
− | RCin[i] = read16();
| |
− | /*
| |
− | Serial.print("RC[");
| |
− | Serial.print(i+1);
| |
− | Serial.print("]:");
| |
− |
| |
− | Serial.print(inBuf[2*i],DEC);
| |
− | Serial.print(",");
| |
− | Serial.print(inBuf[2*i+1],DEC);
| |
− |
| |
− | Serial.print("---");
| |
− | Serial.println(RCin[i]);
| |
− | */
| |
− | // delay(50); // delay in between reads for stability
| |
− | }
| |
− | }
| |
− |
| |
− | void data_tx()
| |
− | {
| |
− | p = 0;
| |
− | for (uint8_t i = 0; i < 8; i++)
| |
− | {
| |
− | RCoutA[i] = write16(1);
| |
− | RCoutB[i] = write16(0);
| |
− |
| |
− | /*
| |
− | Serial.print("RC[");
| |
− | Serial.print(i+1);
| |
− | Serial.print("]:");
| |
− |
| |
− | Serial.print(RCout[i]);
| |
− |
| |
− | Serial.print("---");
| |
− |
| |
− | Serial.print(RCoutA[i],DEC);
| |
− | Serial.print(",");
| |
− | Serial.print(RCoutB[i],DEC);
| |
− |
| |
− | Serial.println("");
| |
− | */
| |
− | // delay(50); // delay in between reads for stability
| |
− | }
| |
− | }
| |
− |
| |
− | /*
| |
− | if Core RF
| |
− | [head,2byte,0xAA 0xBB] [type,1byte,0xCC] [data,16byte] [body,1byte(from getChecksum())]
| |
− | Example:
| |
− | AA BB CC 1A 01 1A 01 1A 01 2A 01 3A 01 4A 01 5A 01 6A 01 0D **
| |
− | */
| |
− | void data_send()
| |
− | {
| |
− | data_tx();
| |
− |
| |
− | #if !defined(__AVR_ATmega128RFA1__)
| |
− | static byte buf_head[3];
| |
− | buf_head[0] = 0x24;
| |
− | buf_head[1] = 0x4D;
| |
− | buf_head[2] = 0x3C;
| |
− | #endif
| |
− |
| |
− | #define buf_length 0x10 //16
| |
− | #define buf_code 0xC8 //200
| |
− |
| |
− | static byte buf_data[buf_length];
| |
− | for (uint8_t a = 0; a < (buf_length / 2); a++)
| |
− | {
| |
− | buf_data[2 * a] = RCoutB[a];
| |
− | buf_data[2 * a + 1] = RCoutA[a];
| |
− | }
| |
− |
| |
− | static byte buf_body;
| |
− | buf_body = getChecksum(buf_length, buf_code, buf_data);
| |
− |
| |
− | //----------------------
| |
− | #if defined(__AVR_ATmega128RFA1__)
| |
− | mwc_port.beginTransmission();
| |
− | mwc_port.write(0xaa);
| |
− | mwc_port.write(0xbb);
| |
− | mwc_port.write(0xcc);
| |
− | #else
| |
− | for (uint8_t a = 0; a < 3; a++) {
| |
− | mwc_port.write(buf_head[a]);
| |
− | }
| |
− | mwc_port.write(buf_length);
| |
− | mwc_port.write(buf_code);
| |
− | #endif
| |
− | for (uint8_t a = 0; a < buf_length; a++) {
| |
− | mwc_port.write(buf_data[a]);
| |
− | }
| |
− | mwc_port.write(buf_body);
| |
− | #if defined(__AVR_ATmega128RFA1__)
| |
− | mwc_port.endTransmission();
| |
− | #endif
| |
− | }
| |
− | </source>
| |
− | nrf.h
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− |
| |
− | #include <RF24Network.h>
| |
− | #include <RF24.h>
| |
− | #include <SPI.h>
| |
− |
| |
− | // nRF24L01(+) radio attached using Getting Started board
| |
− | RF24 radio(9, 10); //ce,cs
| |
− | RF24Network network(radio);
| |
− |
| |
− | #define this_node 0 //设置本机ID
| |
− | #define other_node 1
| |
− |
| |
− | //--------------------------------
| |
− | struct send_a //发送
| |
− | {
| |
− | uint32_t ms;
| |
− | uint16_t rf_CH0;
| |
− | uint16_t rf_CH1;
| |
− | uint16_t rf_CH2;
| |
− | uint16_t rf_CH3;
| |
− | uint16_t rf_CH4;
| |
− | uint16_t rf_CH5;
| |
− | uint16_t rf_CH6;
| |
− | uint16_t rf_CH7;
| |
− | };
| |
− |
| |
− | struct receive_a //接收
| |
− | {
| |
− | uint32_t node_ms;
| |
− | };
| |
− |
| |
− | //--------------------------------
| |
− | unsigned long node_clock, node_clock_debug, node_clock_cache = 0; //节点运行时间、节点响应检查时间、节点时间缓存
| |
− |
| |
− | //debug--------------------------
| |
− | boolean node_clock_error = false; //节点响应状态
| |
− | unsigned long time_debug = 0; //定时器
| |
− |
| |
− |
| |
− | //======================================
| |
− | void vodebug()
| |
− | {
| |
− | if (millis() - time_debug > interval_debug)
| |
− | {
| |
− | node_clock_error = boolean(node_clock == node_clock_debug); //一定时间内,节点返回的运行时间若不变则有问题
| |
− |
| |
− | node_clock_debug = node_clock;
| |
− |
| |
− | time_debug = millis();
| |
− | }
| |
− | }
| |
− |
| |
− |
| |
− | void nrf_send()
| |
− | {
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.print("Sending...");
| |
− | #endif
| |
− |
| |
− | send_a sen = {
| |
− | millis(), outBuf[0], outBuf[1], outBuf[2], outBuf[3], outBuf[4], outBuf[5], outBuf[6], outBuf[7]
| |
− | }; //把这些数据发送出去,对应前面的发送数组
| |
− | RF24NetworkHeader header(other_node);
| |
− | if (network.write(header, &sen, sizeof(sen)))
| |
− | {
| |
− | #ifdef Serial_DEBUG
| |
− | Serial.print("Is ok.");
| |
− | #endif
| |
− |
| |
− | delay(50);
| |
− | network.update();
| |
− | // If it's time to send a message, send it!
| |
− | while ( network.available() )
| |
− | {
| |
− | // If so, grab it and print it out
| |
− | RF24NetworkHeader header;
| |
− | receive_a rec;
| |
− | network.read(header, &rec, sizeof(rec));
| |
− |
| |
− | node_clock = rec.node_ms; //运行时间赋值
| |
− | }
| |
− | }
| |
− | #ifdef Serial_DEBUG
| |
− | else
| |
− | Serial.print("Is failed.");
| |
− |
| |
− | Serial.println("");
| |
− | #endif
| |
− | }
| |
− | </source>
| |
− | tft.h
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− |
| |
− | #include <Adafruit_GFX.h> // Core graphics library
| |
− | #include <Adafruit_ST7735.h> // Hardware-specific library
| |
− | #include <SPI.h>
| |
− |
| |
− | Adafruit_ST7735 tft = Adafruit_ST7735(5, 4, -1); //cs,dc,rst
| |
− | //-------字体设置,大、中、小
| |
− | #define setFont_M tft.setTextSize(2)
| |
− | #define setFont_S tft.setTextSize(0)
| |
− |
| |
− | #define tft_width 128
| |
− | #define tft_height 160
| |
− |
| |
− | boolean tft_theme = false; //0 is white,1 is black
| |
− | boolean tft_rotation = 1;
| |
− |
| |
− | #define TFT_TOP ST7735_BLACK
| |
− | #define TFT_BUT ST7735_WHITE
| |
− |
| |
− | uint16_t tft_colorA = TFT_BUT;
| |
− | uint16_t tft_colorB = TFT_TOP;
| |
− | uint16_t tft_colorC = 0x06FF;
| |
− | uint16_t tft_colorD = 0xEABF;
| |
− |
| |
− | #define tft_bat_x 24
| |
− | #define tft_bat_y 12
| |
− | #define tft_bat_x_s 2
| |
− | #define tft_bat_y_s 6
| |
− |
| |
− | #define tft_font_s_height 8
| |
− | #define tft_font_m_height 16
| |
− | #define tft_font_l_height 24
| |
− |
| |
− | #define _Q_x 33
| |
− | #define _Q_y 36
| |
− | #define _W_x 93
| |
− | #define _W_y 5
| |
− |
| |
− | #define _Q_font_x 2
| |
− | #define _Q_font_y (_Q_y - 1)
| |
− |
| |
− | int8_t tft_cache = 1;
| |
− |
| |
− | //======================================
| |
− | void TFT_clear()
| |
− | {
| |
− | tft.fillScreen(tft_colorB);
| |
− | }
| |
− |
| |
− | void TFT_init(boolean _init, boolean _rot)
| |
− | {
| |
− | tft_colorB = tft_theme ? TFT_TOP : TFT_BUT;
| |
− | tft_colorA = tft_theme ? TFT_BUT : TFT_TOP;
| |
− |
| |
− | if (_init) {
| |
− | tft.initR(INITR_BLACKTAB); // initialize a ST7735S chip, black tab
| |
− | // Serial.println("init");
| |
− | tft.fillScreen(tft_colorB);
| |
− |
| |
− | if (_rot)
| |
− | tft.setRotation(2);
| |
− | }
| |
− |
| |
− | tft.fillRect(0, 0, tft_width, 40, tft_colorA);
| |
− | tft.setTextColor(tft_colorB);
| |
− | setFont_M;
| |
− | tft.setCursor(26, 6);
| |
− | tft.print("Joypad");
| |
− | setFont_S;
| |
− | tft.setCursor(32, 24);
| |
− | tft.print("Microduino");
| |
− | tft.fillRect(0, 40, tft_width, 120, tft_colorB);
| |
− | }
| |
− |
| |
− | void TFT_begin()
| |
− | {
| |
− | setFont_S;
| |
− |
| |
− | tft.setTextColor(tft_colorA);
| |
− | tft.setCursor(_Q_font_x, 44);
| |
− | tft.println("[key1] enter config");
| |
− |
| |
− | setFont_M;
| |
− | tft.setCursor(4, 150);
| |
− | for (uint8_t a = 0; a < (millis() - TIME1) / (interval_TIME1 / 10); a++) {
| |
− | tft.print("-");
| |
− | }
| |
− | }
| |
− |
| |
− | int8_t menu_num_A = 0;
| |
− | int8_t menu_num_B = 0;
| |
− | int8_t menu_sta = 0;
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | char *menu_str_a[5] = {
| |
− | "Joystick Config", "Protocol Config", "System Config", "Gyroscope Config", "Exit"
| |
− | };
| |
− | #else
| |
− | char *menu_str_a[4] = {
| |
− | "Joystick Config", "Protocol Config", "System Config", "Exit"
| |
− | };
| |
− | #endif
| |
− |
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | char *menu_str_b[4][3] = {
| |
− | {"Joystick Correct.", "Dead Zone config"},
| |
− | {"Mode", "Quadrotor Channel", "nRF24 Channel"},
| |
− | {"TFT Theme", "TFT Rotation", "MCU Voltage"},
| |
− | {"Gyroscope OFF", "Gyroscope ON"}
| |
− | };
| |
− | #else
| |
− | char *menu_str_b[3][3] = {
| |
− | {"Joystick Correct.", "Dead Zone config"},
| |
− | {"Mode", "Quadrotor Channel", "nRF24 Channel"},
| |
− | {"TFT Theme", "TFT Rotation", "MCU Voltage"},
| |
− | };
| |
− | #endif
| |
− |
| |
− | void TFT_menu(int8_t _num, char *_data)
| |
− | {
| |
− | tft.drawRect(7, 49 + 15 * _num, 114, 16, tft_colorA);
| |
− | tft.setCursor(10, 54 + 15 * _num);
| |
− | tft.print(_data);
| |
− | }
| |
− |
| |
− | void TFT_menu(int8_t _num, int16_t _data)
| |
− | {
| |
− | tft.drawRect(7, 49 + 15 * _num, 114, 16, tft_colorA);
| |
− | tft.setCursor(10, 54 + 15 * _num);
| |
− | tft.print(_data);
| |
− | }
| |
− |
| |
− | void TFT_cursor(int8_t _num)
| |
− | {
| |
− | tft.drawLine(1, 51 + 15 * _num, 4, 56 + 15 * _num, tft_colorA);
| |
− | tft.drawLine(4, 57 + 15 * _num, 1, 62 + 15 * _num, tft_colorA);
| |
− | tft.drawLine(1, 51 + 15 * _num, 1, 62 + 15 * _num, tft_colorA);
| |
− | }
| |
− |
| |
− | boolean return_menu = false;
| |
− |
| |
− | boolean TFT_config()
| |
− | {
| |
− | tft.setTextColor( tft_colorA);
| |
− |
| |
− | if (key_get(0, 1)) {
| |
− | menu_sta --;
| |
− | tft_cache = 1;
| |
− |
| |
− | if (menu_sta <= 0)
| |
− | menu_num_B = 0; //zero
| |
− | }
| |
− | if (key_get(1, 1)) {
| |
− | if (return_menu)
| |
− | menu_sta --;
| |
− | else
| |
− | menu_sta ++;
| |
− | tft_cache = 1;
| |
− | }
| |
− |
| |
− | if (menu_sta > 2)
| |
− | menu_sta = 2;
| |
− | if (menu_sta < 0)
| |
− | menu_sta = 0;
| |
− |
| |
− | return_menu = false;
| |
− | //-------------------------------
| |
− | if (tft_cache)
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− |
| |
− | if (menu_sta == 2) {
| |
− | switch (menu_num_A) {
| |
− | case 0: {
| |
− | switch (menu_num_B) {
| |
− | case 0: {
| |
− | if (tft_cache)
| |
− | {
| |
− | for (uint8_t a = 0; a < 4; a++)
| |
− | {
| |
− | joy_correct_min[a] = 0;
| |
− | joy_correct_max[a] = 0;
| |
− | }
| |
− | }
| |
− | for (uint8_t a = 0; a < 4; a++) {
| |
− | tft.setCursor(2, 120);
| |
− | tft.print("Move Joystick MaxGear");
| |
− | int16_t _c = Joy_i(a, false, Joy_MID - Joy_maximum, Joy_MID + Joy_maximum);
| |
− | if (_c > joy_correct_max[a]) {
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | joy_correct_max[a] = _c;
| |
− | }
| |
− | // joy_correct_max[a] = constrain(joy_correct_max[a], 0, Joy_maximum);
| |
− | if (_c < joy_correct_min[a]) {
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | joy_correct_min[a] = _c;
| |
− | }
| |
− | // joy_correct_min[a] = constrain(joy_correct_min[a], -Joy_maximum, 0);
| |
− | }
| |
− |
| |
− | for (uint8_t d = 0; d < 2; d++) {
| |
− | tft.drawFastHLine(12 + 70 * d, 80, 33, tft_colorA);
| |
− | tft.drawFastVLine(28 + 70 * d, 64, 33, tft_colorA);
| |
− | // tft.fillRect(2, 90-4, 20, 12, tft_colorB);
| |
− | tft.drawCircle(44 + 70 * d, 80, map(joy_correct_min[0 + 2 * d], 0, -512, 1, 10), tft_colorA);
| |
− | tft.drawCircle(12 + 70 * d, 80, map(joy_correct_max[0 + 2 * d], 0, 512, 1, 10), tft_colorA);
| |
− | tft.drawCircle(28 + 70 * d, 64, map(joy_correct_min[1 + 2 * d], 0, -512, 1, 10), tft_colorA);
| |
− | tft.drawCircle(28 + 70 * d, 96, map(joy_correct_max[1 + 2 * d], 0, 512, 1, 10), tft_colorA);
| |
− | }
| |
− | return_menu = true;
| |
− | }
| |
− | break;
| |
− | case 1: {
| |
− | if (key_get(2, 1)) {
| |
− | Joy_deadzone_val--;
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | }
| |
− | if (key_get(3, 1)) {
| |
− | Joy_deadzone_val++;
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | }
| |
− | Joy_deadzone_val = constrain(Joy_deadzone_val, 0, 25);
| |
− |
| |
− | TFT_menu(0, Joy_deadzone_val);
| |
− | TFT_cursor(0);
| |
− | return_menu = true;
| |
− | }
| |
− | break;
| |
− | }
| |
− | }
| |
− | break;
| |
− |
| |
− | case 1: {
| |
− | switch (menu_num_B) {
| |
− | case 0: {
| |
− | char *menu_str_c[2] = { "Quadro.", "nRF24"};
| |
− | if (key_get(2, 1) || key_get(3, 1)) {
| |
− | mode_protocol = !mode_protocol;
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | }
| |
− | for (uint8_t c = 0; c < 2; c++) {
| |
− | TFT_menu(c, menu_str_c[c]);
| |
− | }
| |
− |
| |
− | TFT_cursor(mode_protocol);
| |
− | return_menu = true;
| |
− | }
| |
− | break;
| |
− | case 1: {
| |
− | #if !defined(__AVR_ATmega128RFA1__)
| |
− | char *menu_str_c[5] = {"9600", "19200", "38400", "57600", "115200"};
| |
− | #endif
| |
− | if (key_get(2, 1)) {
| |
− | mwc_channal--;
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | }
| |
− | if (key_get(3, 1)) {
| |
− | mwc_channal++;
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | }
| |
− |
| |
− | #if !defined(__AVR_ATmega128RFA1__)
| |
− | mwc_channal = constrain(mwc_channal, 0, 4);
| |
− | TFT_menu(0, menu_str_c[mwc_channal]);
| |
− | #else
| |
− | mwc_channal = constrain(mwc_channal, 11, 26);
| |
− | TFT_menu(0, mwc_channal);
| |
− | #endif
| |
− | TFT_cursor(0);
| |
− | return_menu = true;
| |
− | }
| |
− | break;
| |
− |
| |
− | case 2: {
| |
− | if (key_get(2, 1)) {
| |
− | nrf_channal--;
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | }
| |
− | if (key_get(3, 1)) {
| |
− | nrf_channal++;
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | }
| |
− | nrf_channal = constrain(nrf_channal, 0, 125);
| |
− |
| |
− | TFT_menu(0, nrf_channal);
| |
− | TFT_cursor(0);
| |
− | return_menu = true;
| |
− | }
| |
− | break;
| |
− | }
| |
− | }
| |
− | break;
| |
− | case 2: {
| |
− | switch (menu_num_B) {
| |
− | case 0: {
| |
− | tft_theme = !tft_theme;
| |
− | TFT_init(true, tft_rotation);
| |
− | tft_cache = 1;
| |
− | tft.setTextColor(tft_colorA);
| |
− | menu_sta --;
| |
− | }
| |
− | break;
| |
− | case 1: {
| |
− | tft_rotation = !tft_rotation;
| |
− | TFT_init(true, tft_rotation);
| |
− | tft_cache = 1;
| |
− | tft.setTextColor(tft_colorA);
| |
− | menu_sta --;
| |
− | }
| |
− | break;
| |
− | case 2: {
| |
− | char *menu_str_c[2] = { "3.3V", "5.0V"};
| |
− | return_menu = true;
| |
− |
| |
− | if (key_get(2, 1) || key_get(3, 1)) {
| |
− | mcu_voltage = !mcu_voltage;
| |
− | tft.fillRect(0, 40, tft_width, 100, tft_colorB);
| |
− | }
| |
− |
| |
− | TFT_cursor(mcu_voltage);
| |
− |
| |
− | for (uint8_t c = 0; c < 2; c++) {
| |
− | TFT_menu(c, menu_str_c[c]);
| |
− | }
| |
− | // tft.fillRect(0, 40, tft_width, 100,tft_colorB);
| |
− | }
| |
− | break;
| |
− | }
| |
− |
| |
− | }
| |
− | break;
| |
− |
| |
− | #if !(defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__))
| |
− | case 3: { //mpu
| |
− | mode_mpu = menu_num_B;
| |
− | tft_cache = 1;
| |
− | menu_sta = 0; //back main menu
| |
− | menu_num_B = 0; //zero
| |
− | }
| |
− | break;
| |
− | #endif
| |
− | }
| |
− | }
| |
− |
| |
− | /*
| |
− | Serial.print(menu_sta);
| |
− | Serial.print(",");
| |
− | Serial.print(menu_num_A);
| |
− | Serial.print(",");
| |
− | Serial.println(menu_num_B);
| |
− | */
| |
− | //----------------------------
| |
− | if (menu_sta == 1) {
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | int8_t meun_b_max[5] = {1, 2, 2, 1, 0};
| |
− | #else
| |
− | int8_t meun_b_max[4] = {1, 2, 2, 0};
| |
− | #endif
| |
− | if (!meun_b_max[menu_num_A])
| |
− | return false;
| |
− | else {
| |
− | if (key_get(2, 1)) {
| |
− | tft.fillRect(0, 40, 5, 100, tft_colorB);
| |
− | menu_num_B--;
| |
− | }
| |
− | if (key_get(3, 1)) {
| |
− | tft.fillRect(0, 40, 5, 100, tft_colorB);
| |
− | menu_num_B++;
| |
− | }
| |
− | menu_num_B = constrain(menu_num_B, 0, meun_b_max[menu_num_A]);
| |
− |
| |
− | TFT_cursor(menu_num_B);
| |
− |
| |
− | if (tft_cache) {
| |
− | for (uint8_t b = 0; b < (meun_b_max[menu_num_A] + 1); b++) {
| |
− | TFT_menu(b, menu_str_b[menu_num_A][b]);
| |
− | }
| |
− | }
| |
− | }
| |
− | }
| |
− |
| |
− | //main menu
| |
− | if (menu_sta == 0) {
| |
− | //custer
| |
− | if (key_get(2, 1)) {
| |
− | tft.fillRect(0, 40, 5, 100, tft_colorB);
| |
− | menu_num_A--;
| |
− | }
| |
− | if (key_get(3, 1)) {
| |
− | tft.fillRect(0, 40, 5, 100, tft_colorB);
| |
− | menu_num_A++;
| |
− | }
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | menu_num_A = constrain(menu_num_A, 0, 4);
| |
− | #else
| |
− | menu_num_A = constrain(menu_num_A, 0, 3);
| |
− | #endif
| |
− |
| |
− | TFT_cursor(menu_num_A);
| |
− |
| |
− | if (tft_cache) {
| |
− | #if defined(__AVR_ATmega1284P__) || defined(__AVR_ATmega644P__) || defined(__AVR_ATmega128RFA1__)
| |
− | for (uint8_t a = 0; a < 5; a++) {
| |
− | #else
| |
− | for (uint8_t a = 0; a < 4; a++) {
| |
− | #endif
| |
− | TFT_menu(a, menu_str_a[a]);
| |
− | }
| |
− | }
| |
− | }
| |
− |
| |
− | if (tft_cache) {
| |
− | //BACK
| |
− | tft.fillCircle(12, 149, 8, tft_colorA);
| |
− | tft.drawLine(11, 145, 7, 149, tft_colorB);
| |
− | tft.drawLine(7, 149, 11, 153, tft_colorB);
| |
− | tft.drawLine(7, 149, 17, 149, tft_colorB);
| |
− | //ENTER
| |
− | tft.fillCircle(12 + 20, 149, 8, tft_colorA);
| |
− | tft.drawLine(10 + 20, 146, 7 + 20, 149, tft_colorB);
| |
− | tft.drawLine(7 + 20, 149, 10 + 20, 152, tft_colorB);
| |
− | tft.drawLine(7 + 20, 149, 15 + 20, 149, tft_colorB);
| |
− | tft.drawLine(15 + 20, 146, 15 + 20, 149, tft_colorB);
| |
− | //PREV
| |
− | tft.fillCircle(127 - 12, 149, 8, tft_colorA);
| |
− | tft.drawLine(127 - 12, 153, 127 - 8, 149, tft_colorB);
| |
− | tft.drawLine(127 - 12, 153, 127 - 16, 149, tft_colorB);
| |
− | tft.drawLine(127 - 12, 153, 127 - 12, 145, tft_colorB);
| |
− | //NEXT
| |
− | tft.fillCircle(127 - 32, 149, 8, tft_colorA);
| |
− | tft.drawLine(127 - 32, 145, 127 - 28, 149, tft_colorB);
| |
− | tft.drawLine(127 - 32, 145, 127 - 36, 149, tft_colorB);
| |
− | tft.drawLine(127 - 32, 145, 127 - 32, 153, tft_colorB);
| |
− | }
| |
− | tft_cache --;
| |
− | if (tft_cache < 0) tft_cache = 0;
| |
− |
| |
− | return true;
| |
− | }
| |
− |
| |
− | //------------------
| |
− | #define _C_x_S (_Q_x + 1)
| |
− | #define _C_x_M (_Q_x + ((_W_x + 1) / 2))
| |
− | #define _C_x_E (_Q_x + _W_x - 1)
| |
− |
| |
− | char *NAME[8] = {
| |
− | "ROLL", "PITCH", "YAW", "THROT", "AUX1", "AUX2", "AUX3", "AUX4"
| |
− | };
| |
− |
| |
− | void TFT_ready()
| |
− | {
| |
− | tft.fillRect(0, 0, 128, 26, tft_colorA);
| |
− |
| |
− | tft.drawRect(tft_width - tft_bat_x - tft_bat_x_s - 2, 2, tft_bat_x, tft_bat_y, tft_colorB);
| |
− | tft.drawRect(tft_width - tft_bat_x_s - 2, 2 + (tft_bat_y - tft_bat_y_s) / 2, tft_bat_x_s, tft_bat_y_s, tft_colorB);
| |
− |
| |
− | tft.setTextColor(tft_colorB);
| |
− | setFont_S;
| |
− |
| |
− | tft.setCursor(_Q_font_x, 3);
| |
− | tft.print(mode_protocol ? "nRF24" : "Quadr");
| |
− | tft.print(" CHAN.");
| |
− | tft.print(mode_protocol ? nrf_channal : mwc_channal);
| |
− | tft.setCursor(_Q_font_x, 16);
| |
− | tft.print("Time:");
| |
− |
| |
− | tft.setTextColor(tft_colorA);
| |
− | for (uint8_t a = 0; a < 8; a++) {
| |
− | tft.setCursor(_Q_font_x, _Q_font_y + a * 15);
| |
− | tft.print(NAME[a]);
| |
− | //------------------------------------------
| |
− | tft.drawRect(_Q_x, _Q_y + a * 15, _W_x, _W_y, tft_colorA);
| |
− | }
| |
− | }
| |
− |
| |
− | boolean _a = false, _b = false;
| |
− | void TFT_run()
| |
− | {
| |
− | if (outBuf[3] > (Joy_MID - Joy_maximum)) {
| |
− | if (_a) {
| |
− | Joy_time[0] = millis() - Joy_time[1];
| |
− | _a = false;
| |
− | }
| |
− | Joy_time[1] = millis() - Joy_time[0];
| |
− | }
| |
− | else
| |
− | _a = true;
| |
− |
| |
− | if (!_b && ((Joy_time[1] / 1000) % 2)) {
| |
− | _b = !_b;
| |
− | tft.fillRect(_Q_font_x + 30, 16, 50, 7, tft_colorA);
| |
− | tft.setTextColor(tft_colorB);
| |
− | tft.setCursor(_Q_font_x + 30, 16);
| |
− | tft.print((Joy_time[1] / 1000) / 60);
| |
− | tft.print("m");
| |
− | tft.print((Joy_time[1] / 1000) % 60);
| |
− | tft.print("s");
| |
− | }
| |
− | _b = boolean((Joy_time[1] / 1000) % 2);
| |
− |
| |
− | //battery------------------
| |
− | tft.fillRect(tft_width - tft_bat_x - 3, 3, map(_V_bat, _V_min, _V_max, 0, tft_bat_x - 2) , tft_bat_y - 2, tft_colorB);
| |
− | tft.fillRect(tft_width - tft_bat_x - 3 + map(_V_bat, _V_min, _V_max, 0, tft_bat_x - 2), 3,
| |
− | map(_V_bat, _V_min, _V_max, tft_bat_x - 2, 0) , tft_bat_y - 2,tft_colorA);
| |
− |
| |
− | for (uint8_t a = 0; a < 8; a++) {
| |
− | int8_t _C_x_A0, _C_x_B0, _C_x_A, _C_x_B, _C_x_A1, _C_x_B1;
| |
− | int8_t _C_x;
| |
− |
| |
− | if (outBuf[a] < Joy_MID) {
| |
− | _C_x = map(outBuf[a], Joy_MID - Joy_maximum, Joy_MID, _C_x_S, _C_x_M);
| |
− |
| |
− | _C_x_A0 = _C_x_S;
| |
− | _C_x_B0 = _C_x - _C_x_S;
| |
− |
| |
− | _C_x_A = _C_x;
| |
− | _C_x_B = _C_x_M - _C_x;
| |
− |
| |
− | _C_x_A1 = _C_x_M;
| |
− | _C_x_B1 = _C_x_E - _C_x_M;
| |
− | } else if (outBuf[a] > Joy_MID) {
| |
− | _C_x = map(outBuf[a], Joy_MID, Joy_MID + Joy_maximum, _C_x_M, _C_x_E);
| |
− |
| |
− | _C_x_A0 = _C_x_S;
| |
− | _C_x_B0 = _C_x_M - _C_x_S;
| |
− |
| |
− | _C_x_A = _C_x_M;
| |
− | _C_x_B = _C_x - _C_x_M;
| |
− |
| |
− | _C_x_A1 = _C_x;
| |
− | _C_x_B1 = _C_x_E - _C_x;
| |
− | } else {
| |
− | _C_x_A0 = _C_x_S;
| |
− | _C_x_B0 = _C_x_M - _C_x_S;
| |
− |
| |
− | _C_x_A = _C_x_M;
| |
− | _C_x_B = 0;
| |
− |
| |
− | _C_x_A1 = _C_x_M;
| |
− | _C_x_B1 = _C_x_E - _C_x_M;
| |
− | }
| |
− | tft.fillRect(_C_x_A0, _Q_y + a * 15 + 1, _C_x_B0, _W_y - 2, tft_colorB);
| |
− | tft.fillRect(_C_x_A, _Q_y + a * 15 + 1, _C_x_B, _W_y - 2, tft_colorC);
| |
− | tft.fillRect(_C_x_A1, _Q_y + a * 15 + 1, _C_x_B1, _W_y - 2, tft_colorB);
| |
− |
| |
− | tft.fillRect(_C_x_M, _Q_y + a * 15 - 1, 1, _W_y + 2, tft_colorD);
| |
− | }
| |
− | //netsta------------------
| |
− | tft.fillRect(0, 158, 128, 2, node_clock_error ? tft_colorD : tft_colorC);
| |
− | }
| |
− | </source>
| |
− | time.h
| |
− | <source lang="cpp">
| |
− | #include "Arduino.h"
| |
− |
| |
− | //unsigned long time;
| |
− | unsigned long TIME1; //setup delay
| |
− | unsigned long time2; //send data
| |
− | unsigned long time3; //battery
| |
− | unsigned long Joy_time[2] = {0, 0}; //joy
| |
− | </source>
| |
| | | |
| ==注意问题== | | ==注意问题== |