基于STM32的自动跟踪小车

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STMCU小助手发布时间：2021-8-5 11:01

文章
文章封面:
文章简介:	利用摄像头识别前车尾部的AprilTag，得到前车位置，传回stm32主控板处理，使两车在行驶时保持恒定距离，实现自动跟车。

概述
小车外形：

功能简介
利用摄像头识别前车尾部的AprilTag，得到前车位置，传回stm32主控板处理，使两车在行驶时保持恒定距离，实现自动跟车。

openMV4摄像头
1.1 Apriltag识别与串口传输

AprilTag是一个视觉基准库，在AR，机器人，相机校准领域广泛使用。通过特定的标志（与二维码相似，但是降低了复杂度以满足实时性要求），可以快速地检测标志，并计算相对位置。

Apriltag示例：

通过识别Apriltag，可以得到x,y,z三个方向的距离以及偏移角度。这里只需要三维的距离即可，通过串口传回stm32.

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import sensor, image, time, math,pyb
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from pyb import UART
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sensor.reset()
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sensor.set_pixformat(sensor.RGB565)
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sensor.set_framesize(sensor.QQVGA) # we run out of memory if the resolution is much bigger...
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sensor.skip_frames(time = 2000). j4 }) v$ `6 t9 T: _% V' C
sensor.set_auto_gain(False) # must turn this off to prevent image washout...0 _" T" h; V: m5 ?! k
sensor.set_auto_whitebal(False) # must turn this off to prevent image washout...# ~4 J+ a8 D% ~5 K& p$ ]
clock = time.clock()
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uart = UART(3, 115200)#串口波特率/ P T. j, w: N; r- H& h: w# ~
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f_x = (2.8 / 3.984) * 160 # find_apriltags defaults to this if not set; {# X4 M, x; \
f_y = (2.8 / 2.952) * 120 # find_apriltags defaults to this if not set
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c_x = 160 * 0.5 # find_apriltags defaults to this if not set (the image.w * 0.5)3 s* G! E+ L' ?9 ]3 |
c_y = 120 * 0.5 # find_apriltags defaults to this if not set (the image.h * 0.5)6 N [% J1 g" h6 T. U2 v
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def degrees(radians):
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return (180 * radians) / math.pi
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while(True):/ ^8 y& D* O& K. K) }7 P
clock.tick()
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img = sensor.snapshot()" G1 z: ? @+ F Z* N" K* O# x
for tag in img.find_apriltags(fx=f_x, fy=f_y, cx=c_x, cy=c_y): # defaults to TAG36H11+ |" s; Q x* O5 N
img.draw_rectangle(tag.rect(), color = (255, 0, 0))
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img.draw_cross(tag.cx(), tag.cy(), color = (0, 255, 0)); F2 B: Q# a! M. X0 k# `4 z/ f
print_args = (tag.x_translation(), tag.y_translation(), tag.z_translation())
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#degrees(tag.x_rotation()), degrees(tag.y_rotation()), degrees(tag.z_rotation()))0 J* j9 {' \8 }: X7 t1 _2 H2 L
# Translation units are unknown. Rotation units are in degrees.
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# print("Tx %f, Ty %f, Tz %f" % print_args)
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uart.write("A%.2f,B%.2f,C%.2f," % print_args+'\r\n')#设置特定格式，以便于stm32分割取得数据
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#pyb.delay(500)
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# print(clock.fps())

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STM32主控板（型号为F407）

2.1 时钟与中断配置

附上stm32时钟示意图：

定时器示意图：

定时器分配：

所有时钟初始化的函数：（每个函数的详细内容在后面）

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TIM8_PWM_Init(400-1,20-1); //用于控制电机，168M/20=8.4Mhz的计数频率,重装载值400，所以PWM频率为 8.4M/400=21Khz. - z! d; t$ A' }# q/ \
TIM3_PWM_Init(200-1,8400-1);//用于控制舵机，50HZ
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TIM2_Int_Init(400-1,20-1);//定时中断，21KHZ ]& T& F* k# b& Z5 B1 [; v$ `9 h
TIM7_Int_Init(500-1,8400-1);//用于编码器计数，20HZ，50ms中断一次
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uart_init(115200); //初始化串口1波特率为115200
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Encoder_Init_TIM4();//编码器接口初始化

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2.2 串口收发与数据处理

串口中断：USART1，USART2
串口初始化函数（以USART1为例）：

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void uart_init(u32 bound){
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//GPIO端口设置7 L9 h4 T0 ? C F$ m6 `1 H
GPIO_InitTypeDef GPIO_InitStructure;' J e8 `* ~4 r: r' Y3 L7 J1 U2 R
USART_InitTypeDef USART_InitStructure;" s# O+ y7 w. f' p5 Q# T! R
NVIC_InitTypeDef NVIC_InitStructure;- y5 ]$ E; [" l' r9 T
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RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA,ENABLE); //使能GPIOA时钟: p, M8 ^* p$ I4 ^" @& Z7 k/ O Q' I
RCC_APB2PeriphClockCmd(RCC_APB2Periph_USART1,ENABLE);//使能USART1时钟
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//串口1对应引脚复用映射: a0 {7 z7 s# s6 F1 K5 t) H- r
GPIO_PinAFConfig(GPIOA,GPIO_PinSource9,GPIO_AF_USART1); //GPIOA9复用为USART1' Z- I( X2 L' @+ Q7 _/ P4 G1 D
GPIO_PinAFConfig(GPIOA,GPIO_PinSource10,GPIO_AF_USART1); //GPIOA10复用为USART1
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//USART1端口配置
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GPIO_InitStructure.GPIO_Pin = GPIO_Pin_9 | GPIO_Pin_10; //GPIOA9与GPIOA10
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GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF;//复用功能
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GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; //速度50MHz. W: j; Q% u, H
GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; //推挽复用输出 E- h+ R9 }+ h( ?$ B- h( v
GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP; //上拉; R3 _. Q/ i& w! t8 c
GPIO_Init(GPIOA,&GPIO_InitStructure); //初始化PA9，PA10
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//USART1 初始化设置9 u7 [. e) a! L3 X+ M
USART_InitStructure.USART_BaudRate = bound;//波特率设置5 ~; j L. c5 H* K
USART_InitStructure.USART_WordLength = USART_WordLength_8b;//字长为8位数据格式! r9 ~5 F9 z( J7 }9 R3 Z, {
USART_InitStructure.USART_StopBits = USART_StopBits_1;//一个停止位
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USART_InitStructure.USART_Parity = USART_Parity_No;//无奇偶校验位
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USART_InitStructure.USART_HardwareFlowControl = USART_HardwareFlowControl_None;//无硬件数据流控制7 }4 ~1 v/ l) i y! B
USART_InitStructure.USART_Mode = USART_Mode_Rx | USART_Mode_Tx; //收发模式+ W+ G; Z1 t! H5 r& z: x
USART_Init(USART1, &USART_InitStructure); //初始化串口1
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USART_Cmd(USART1, ENABLE); //使能串口1 2 i a5 ?% E$ ]; k0 {
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USART_ClearFlag(USART1, USART_FLAG_TC);
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#if EN_USART1_RX
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USART_ITConfig(USART1, USART_IT_RXNE, ENABLE);//开启相关中断
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//Usart1 NVIC 配置( ?$ p k5 Y# b
NVIC_InitStructure.NVIC_IRQChannel = USART1_IRQn;//串口1中断通道8 R4 u7 m# T. j* w& i/ ]
NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority=3;//抢占优先级3" W4 D. [ |3 S, |+ J, a& t7 R
NVIC_InitStructure.NVIC_IRQChannelSubPriority =3; //子优先级3
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NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE; //IRQ通道使能
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NVIC_Init(&NVIC_InitStructure); //根据指定的参数初始化VIC寄存器、
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#endif
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}

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串口中断处理函数：

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void USART1_IRQHandler(void) //串口1中断服务程序
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{
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u8 Res;
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#ifdef OS_TICKS_PER_SEC //如果时钟节拍数定义了,说明要使用ucosII了.$ R! X# K0 K& K
OSIntEnter();
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#endif
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if(USART_GetITStatus(USART1, USART_IT_RXNE) != RESET) //接收中断(接收到的数据必须是0x0d 0x0a结尾)
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{
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Res =USART_ReceiveData(USART1);//(USART1->DR); //读取接收到的数据
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if((USART_RX_STA&0x8000)==0)//接收未完成" `, o( @, g9 v0 l
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if(USART_RX_STA&0x4000)//接收到了0x0d. X+ }2 {0 ?* u0 B
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if(Res!=0x0a)USART_RX_STA=0;//接收错误,重新开始- l3 c6 J1 @1 V% J8 \. J3 u; V" ~
else USART_RX_STA|=0x8000; //接收完成了 + m# R8 W" d6 P K
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else //还没收到0X0D q$ J) P! p* L
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if(Res==0x0d)USART_RX_STA|=0x4000;& c& ^. e8 _5 E& f* k
else
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USART_RX_BUF[USART_RX_STA&0X3FFF]=Res ;0 |* N2 Y& I# m v6 m5 d# A; Q
USART_RX_STA++;
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if(USART_RX_STA>(USART_REC_LEN-1))USART_RX_STA=0;//接收数据错误,重新开始接收 6 j* y: `; I _3 M: i
}
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}
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#ifdef OS_TICKS_PER_SEC //如果时钟节拍数定义了,说明要使用ucosII了.
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OSIntExit(); ' b7 r! ^' K7 c
#endif
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#endif

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字符串接收与处理（从openMV接收到的数据）：

/*涉及到的全局变量
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float data[3];//x,y,z方向的距离，浮点数形式0 I- `0 n: y* |' u @$ e% r4 b5 z
unsigned char data_string[3][7];//x,y,z方向的距离，字符串形式$ F3 I- M v7 R2 G' z+ f
*/
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if(USART_RX_STA&0x8000)
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//清空字符串
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for(i=0;i<2;i++)- C+ R; T7 I1 \0 F, I8 S- T2 J
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for(j=0;j<6;j++)8 F6 ?- F& z6 r3 E
{
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data_string[i][j]=' ';2 p; P3 ~/ h- W' A
}
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len=USART_RX_STA&0x3fff;//得到此次接收到的数据长度
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for(t=0,j=0;t<len;t++)9 X) F& c/ U: [$ K# X; u) f
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j=0;
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if(USART_RX_BUF[t]=='A')
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{
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t++;//去掉首字母
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while(USART_RX_BUF[t]!=',')
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{
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data_string[0][j]=USART_RX_BUF[t];
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t++;
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j++;( N: ?9 y3 m }
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if(USART_RX_BUF[t]=='B')
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{
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t++;//去掉首字母
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while(USART_RX_BUF[t]!=',')
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data_string[1][j]=USART_RX_BUF[t];
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t++;
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j++;0 U5 |: Q$ t: c( \0 ?7 x' p7 S
}
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if(USART_RX_BUF[t]=='C')
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t++;//去掉首字母
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while(USART_RX_BUF[t]!=','): M7 C t: g7 Q A
{
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data_string[2][j]=USART_RX_BUF[t];
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t++;
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j++;
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}
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//把字符串转化为浮点数; Z$ T$ t0 ^$ `5 S, i s
data[0]=myatof(data_string[0])/100.0;//x3 J5 z/ g! J+ q( L( _. \
data[1]=myatof(data_string[1])/100.0;//y
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data[2]=myatof(data_string[2])*(-1)/100.0;//z，输入是负数，转换为正
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//USART2发送数据
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// Usart_SendString( RS232_USART, (uint8_t *)USART_RX_BUF );4 _5 Y' g8 F" d3 U; n
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//LCD更新显示
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//显示xyz: s. }7 l1 U* s/ k/ H" R# F
// CLEAR(10);
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// Gui_DrawFont_GBK16(30,0,BLACK,WHITE,clear); |+ R9 b- e8 c) `1 g. y8 }8 D
// Gui_DrawFont_GBK16(30,0,BLACK,WHITE,data_string[0]);
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// Gui_DrawFont_GBK16(30,20,BLACK,WHITE,clear);
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// Gui_DrawFont_GBK16(30,20,BLACK,WHITE,data_string[1]);1 x( ~8 a _. N
// Gui_DrawFont_GBK16(30,40,BLACK,WHITE,clear);. f m! T' |6 {
// Gui_DrawFont_GBK16(30,40,BLACK,WHITE,data_string[2]);
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USART_RX_STA=0;//清除标志位. B# R3 ]1 k" g1 D/ L) A
}
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字符串转化为两位小数浮点数（用于后续PID控制）:

int myatof(const char *str)//此函数仅适用于两位小数的浮点数，返回的是乘100后的int值，因float返回有错误! g* r: O9 R6 Z: Z6 x8 y( P0 O, U
{
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int flag = 1;//表示正数 S3 x! K) H5 T- z
int res =0;
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u8 i=1; //小数点后两位6 q1 d/ n- S, B5 K1 [
while(*str != '\0')
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if( !(*str >= '0' && *str <= '9'))//找到字符串中的第一个数字( x0 E9 D: P. s5 E8 x8 w! f! n. T6 h* J
{- |# H% M9 a! k* m) [% s
str++;6 r7 p! y5 s6 H* z/ I U# M; g8 d
continue;* u; B7 S: s: g& O* p
}
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if(*(str-1) == '-')5 \; X3 \' Z8 L' [$ `, Y1 a2 }
{
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flag=-1;//表示是一个负数2 K! g. H! f8 g, V% C( _! ?( ?
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while(*str >= '0' && *str <= '9')
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res = res *10 + (*str - '0');
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str++;
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if(*str == '.')
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{
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str++;% W8 n1 m! O) z, ?& o$ \- `) a1 h
res = res *10 + (*str - '0');
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str++;4 a+ c# {) v: u1 _4 V* [
res = res *10 + (*str - '0');//保留两位，故加两次
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return res*flag;
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}
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2.3 LCD显示模块
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LCD模块用于调试时观察数据，调试完成可以删去，因为显示屏很耗时，使处理速度变慢
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驱动函数总览：2 g1 Z2 p5 [( u2 z, h* P* j/ V
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void LCD_GPIO_Init(void);
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void Lcd_WriteIndex(u8 Index);* l8 n& K$ D- [: S( l' i
void Lcd_WriteData(u8 Data);
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void Lcd_WriteReg(u8 Index,u8 Data);
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u16 Lcd_ReadReg(u8 LCD_Reg);
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void Lcd_Reset(void);
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void Lcd_Init(void);' U3 b2 X+ a' @: w5 @- C
void Lcd_Clear(u16 Color);
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void Lcd_SetXY(u16 x,u16 y);: o! l5 e6 k+ f+ L6 ]" _: T
void Gui_DrawPoint(u16 x,u16 y,u16 Data);
( M p. {" Z- ]! t
unsigned int Lcd_ReadPoint(u16 x,u16 y);5 w, X) y1 ?9 j2 F
void Lcd_SetRegion(u16 x_start,u16 y_start,u16 x_end,u16 y_end);
& o- f5 O' Z: B2 T' |' x; W& m
void LCD_WriteData_16Bit(u16 Data);

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TFT屏幕初始化：

void TFT_Init_Show(void)
# ^) k& G- J8 F: Z2 I! |0 h
{
( U7 [( g/ N+ W5 I; E6 r
Lcd_Clear(WHITE);" j% d9 A4 b$ T% c C
Gui_DrawFont_GBK16(16,70,BLACK,WHITE,"by WILL CHAN");
, k1 L0 B) y. H
delay_ms(1000);3 @4 z1 b+ y, M
Lcd_Clear(WHITE);
, @# s; z! K! B4 _
Gui_DrawFont_GBK16(3,0,RED,WHITE,"X:");$ u& L; M1 ~. o8 U+ V/ L# B0 E" e
Gui_DrawFont_GBK16(3,20,RED,WHITE,"Y:");% e( H0 b6 f- @/ j! ^
Gui_DrawFont_GBK16(3,40,RED,WHITE,"Z:");, Z) w: v* i" \) x l+ t
Gui_DrawFont_GBK16(3,60,RED,WHITE,"speed:");: y0 n6 ]! s, u8 e( K3 x0 Z& t. c5 |
}

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字符串显示函数;

3 m& k; O, F- _8 I# V7 N& t
void Gui_DrawFont_GBK16(u16 x, u16 y, u16 fc, u16 bc, u8 *s)* V+ @$ `( @3 y2 A1 j v* V
{% V! j9 g& c0 a k' p0 N' P
unsigned char i,j;, a: w3 Q) _$ |- G' ]' C; P& C& X
unsigned short k,x0;
: W! j) d, f# u0 ~
x0=x;
- p% B! y. j& j# H( l& M+ H
8 q1 Q5 H5 v) g2 S8 `* `0 B
while(*s) 7 d9 M9 w# i | ]" n
{ # X( {) I; w. H8 g, S
if((*s) < 128) 5 w- @) X) C1 {: C) V6 Z, q
{- a, s! V" H) v& Z: y K
k=*s;
3 a& o/ Y- M% \3 b; l4 P& ~2 `# K
if (k==13) 0 ~7 Y+ P5 @9 C( |, t
{, n4 d; F, N. c6 C+ g+ x
x=x0;* ]9 f+ F! J. Y! K1 k! C
y+=16;& T, ?- N6 G! n6 g- T
} i* ?# r! D0 J/ Z5 l. a$ o
else - k5 B2 D5 H0 ^
{
& Z* ]5 x+ C* n" b
if (k>32) k-=32; else k=0;
( b" x3 G+ j3 t6 O9 S+ n9 ^
$ c. ?* }7 l1 |
for(i=0;i<16;i++)9 x$ A8 X p3 ~9 n
for(j=0;j<8;j++) 4 ~: W- N, {$ A5 @3 {) y
{
' u' P( q2 v. J
if(asc16[k*16+i]&(0x80>>j)) Gui_DrawPoint(x+j,y+i,fc);
4 e. ]! L7 @7 n- p3 p4 t' {
else
' B/ j( p" ~+ x
{# M" B% D) E+ n; ^! ^& C
if (fc!=bc) Gui_DrawPoint(x+j,y+i,bc);6 F/ b7 N: x7 Y4 ~5 ^7 U3 b
}3 j% D$ `) L! `& t
}
( @, J( A' E* z4 {& Q* ]
x+=8;
! I6 s; S+ v9 y+ c& j1 [
}
# I- j& g, x1 | R! |7 B
s++;
- @4 u/ V6 ~* o6 R* f( u1 h
}7 g8 e! ]/ e# K+ \; C
1 O J1 m, E7 F% ]: ~2 U+ n
else
" m$ v0 i- U/ }' e+ P9 f
{
( F9 g$ c% N+ E) g! L9 l$ K0 P
9 @7 O3 x& E( ^& G4 d
3 R% f; I, z6 m& Q9 L$ A- A
for (k=0;k<hz16_num;k++)
# N* ~6 o# F" h+ r: c0 J2 q
{" e6 h) p# a. q6 F3 i% G0 {( G( h
if ((hz16[k].Index[0]==*(s))&&(hz16[k].Index[1]==*(s+1))); A0 D. [0 M) o! Z
{
0 D. ~; W' M4 d+ \
for(i=0;i<16;i++)% _+ Y5 ^' i( ]) H7 l& I
{+ [& _/ c; f7 G6 ]
for(j=0;j<8;j++)
6 j8 N/ q. V3 ]
{ d, U$ W1 m4 {
if(hz16[k].Msk[i*2]&(0x80>>j)) Gui_DrawPoint(x+j,y+i,fc);3 m: o+ v! l8 l, A$ w2 l+ D2 p; b
else {7 z( E; E# Y" w9 B! N9 F
if (fc!=bc) Gui_DrawPoint(x+j,y+i,bc);
2 o. O2 g# D4 g% {2 V& b R; C9 Z
}# | T: u6 z- j) o
}( n( T( x. O2 h5 K- N* O
for(j=0;j<8;j++) 0 M/ Y; H6 |) h& e* O& p8 L
{% G/ Q0 K9 z5 K# g1 q! t. M
if(hz16[k].Msk[i*2+1]&(0x80>>j)) Gui_DrawPoint(x+j+8,y+i,fc);
' A# ]1 N6 j, j( v6 l/ [
else 7 V I4 r4 F4 f4 M( q
{
+ k* H0 h: Q: `
if (fc!=bc) Gui_DrawPoint(x+j+8,y+i,bc);6 d7 F1 [3 M3 E% \( L% r
}. Q r. o3 K& M
} j# F2 G$ X0 z6 o! J6 S- W
}
1 z; T9 j7 }, z C8 j
}$ }$ S4 q7 G) ~2 O" p' m% b
}* k Z* p, m; z. {# F* q1 R) g
s+=2;x+=16;
2 M4 a3 r! b% y4 L7 G' e
} 1 y) ~% k. w) }! L* R4 S+ s; x
4 l9 q; l8 H" k' ~5 |, ]% I
}
% P% ^5 f7 F% N2 h e
}
" h9 b# N+ v3 o' U1 G/ A& U

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2.4 电机、舵机与编码器

定时中断：TIM2，用于修改电机和舵机的PWM占空比
初始化函数：

s# T9 r% q7 k; M. C; w o
//通用定时器2中断初始化
+ |+ D) c" e; ]" x
//arr：自动重装值。
; Z5 F, ]. r8 {" x1 H' c5 y# K f3 m
//psc：时钟预分频数
$ V& I# n" ^0 u/ b
//定时器溢出时间计算方法:Tout=((arr+1)*(psc+1))/Ft us.
h, c- \7 z9 l) F" I
//Ft=定时器工作频率,单位:Mhz
) j! E, p8 m0 |6 u# {5 X/ F$ d; X) Y
//这里使用的是定时器2!2 z) g$ N8 D+ Y( ?3 l% x A) ^! A
void TIM2_Int_Init(u16 arr,u16 psc)
`8 y8 \7 ]9 x* A5 |
{
7 c. @1 s& m( T
TIM_TimeBaseInitTypeDef TIM_TimeBaseInitStructure;$ s0 x$ L+ n- U: t; J- F' W
NVIC_InitTypeDef NVIC_InitStructure;3 o. M# V. B" I
$ |0 Y% N+ _* X- l
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM2,ENABLE); ///使能TIM2时钟
6 `. n, V" Z1 }5 w
+ V$ H& l5 d# `' d: e- l% n
TIM_TimeBaseInitStructure.TIM_Period = arr; //自动重装载值" q/ O; L, c" f* @
TIM_TimeBaseInitStructure.TIM_Prescaler=psc; //定时器分频+ \- n; I" l( r: |* g1 i
TIM_TimeBaseInitStructure.TIM_CounterMode=TIM_CounterMode_Up; //向上计数模式
2 {0 s' r" B) Z* D9 q
TIM_TimeBaseInitStructure.TIM_ClockDivision=TIM_CKD_DIV1; + k" {' `! H( K8 r. e# V3 \7 B
+ K, x- w# m# ^$ v. F4 {0 B& P
TIM_TimeBaseInit(TIM2,&TIM_TimeBaseInitStructure);//初始化TIM3 \0 U2 |. d/ O& i. a0 y( G
) |* n t) r2 Z8 n- h m8 u
TIM_ITConfig(TIM2,TIM_IT_Update,ENABLE); //允许定时器2更新中断8 v2 K) e3 `: [6 K% s5 S+ m4 `
TIM_Cmd(TIM2,ENABLE); //使能定时器2
. a* S' o# `9 b( q: \
8 C5 e5 t5 _7 ]- b1 H
NVIC_InitStructure.NVIC_IRQChannel=TIM2_IRQn; //定时器2中断
, _/ O# G) ?9 C9 [0 A1 P
NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority=0; //抢占优先级1- Z- m8 d6 w; _! l
NVIC_InitStructure.NVIC_IRQChannelSubPriority=2; //子优先级3
7 N; S, ]6 x/ @4 K7 \0 K) T* W
NVIC_InitStructure.NVIC_IRQChannelCmd=ENABLE;5 t( Z2 g3 \2 ]( H( b; k
NVIC_Init(&NVIC_InitStructure);) L F1 }8 z. A/ Z: v
3 i; I7 X C: k
}

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TIM2中断处理函数：

+ }" I, u' M B" {
void TIM2_IRQHandler(void)! ^( x5 }; I* y2 ~$ v; |
{
; B- o9 Y- E! l: C
if(TIM_GetITStatus(TIM2,TIM_IT_Update)==SET)//溢出中断, f3 o- s% g" v$ L5 A
{: |% l" O, ]0 K' S/ `9 B1 \5 A+ A
if(motor_flag==1)//反转; f* }7 N' t3 Z
{' |" w( e) N2 |+ r/ G$ k7 n! g
TIM_SetCompare1(TIM8,motor_duty*PID_val_motor*400.0);//和定时器的自动重装载值进行比较，来设置占空比,引脚：PC6
: c/ V: l8 M3 [) A3 }
TIM_SetCompare2(TIM8,0);
1 H; s. X& _* _% \9 O: G- q$ G
}
1 B, D( M) Q3 X7 I. W/ w8 D0 H- d" s
if(motor_flag==0)//正转
" k0 \- [3 C+ o
{/ G/ Y" s9 y# ?( E9 s0 U
TIM_SetCompare1(TIM8,0);6 h; i7 Y$ d' e+ _, q# x
TIM_SetCompare2(TIM8,motor_duty*PID_val_motor*400.0);//和定时器的自动重装载值进行比较，来设置占空比，引脚：PC7
' X( n8 T9 ?3 ]( \, y
}: O/ t- Y5 L# Y$ o+ D. J6 w
TIM_SetCompare1(TIM3,200-(servo_angle/45.0+1)*5);//设置舵机角度，引脚：PA6
% j6 J, x6 g6 s* i
}
0 y# E. l* O7 q& f" G; x
TIM_ClearITPendingBit(TIM2,TIM_IT_Update); //清除中断标志位9 P- Y; i" q8 h! q% e$ y) g* t
}2 S6 b8 B3 s% [& m

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PWM输出：TIM3（舵机），TIM8（电机）
初始化函数（以TIM8为例）：

2 J/ B6 n x* {" H1 l
void TIM8_PWM_Init(u32 arr,u32 psc)
$ _& k' R4 X- [8 ~; i
{
: y$ t. B _3 |. o! J P1 [
//此部分需手动修改IO口设置
$ F& p7 q$ I/ V
0 t2 P9 Z w K/ Z% k; p: E
GPIO_InitTypeDef GPIO_InitStructure;% f; `2 ^6 S1 n" s) E& B: y
TIM_TimeBaseInitTypeDef TIM_TimeBaseStructure;5 t- {8 ]0 J' I6 b& F% P$ S/ Q1 c
TIM_OCInitTypeDef TIM_OCInitStructure;
* O+ O* V( V- T- }8 g
TIM_BDTRInitTypeDef TIM_BDTRInitStructure;& Y, ]8 H+ R# W. [3 m' G7 Y
1 D3 q3 I1 }6 z3 `
RCC_APB2PeriphClockCmd(RCC_APB2Periph_TIM8,ENABLE); //TIM8时钟使能 1 R9 e9 |3 l L U2 b- ?
RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA|RCC_AHB1Periph_GPIOB|RCC_AHB1Periph_GPIOC, ENABLE); //使能PORTA时钟
3 j6 q; y" \' e# h3 Z9 X: U
& ?! o. M4 B# V3 s4 ` J
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_7; //GPIOFA9 H( F+ O% w: N/ [+ [
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF; //复用功能
$ E& J u& u8 D. d' {; s+ |7 U9 }
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz; //速度100MHz
: B! d/ e. P) m v
GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; //推挽复用输出
* B; Z6 x2 ^6 }
GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP; //上拉, U& G! N8 X- ]0 M, } U1 I
GPIO_Init(GPIOA,&GPIO_InitStructure); //初始化PA7
; l0 N. _: @8 @ _3 E
& f) g- N% O3 ~9 D
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_0|GPIO_Pin_1;
; q% e6 A! @3 z
GPIO_Init(GPIOB,&GPIO_InitStructure);
2 U0 P! D2 C/ \/ M) W" t1 V8 w
0 U( c9 X" a! I' y
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_6|GPIO_Pin_7|GPIO_Pin_8;6 Q/ v+ X A' ^$ C7 F; I
GPIO_Init(GPIOC,&GPIO_InitStructure);' H+ T% p# Z" H: j8 w/ m
; |, w& }* v6 y0 Y
GPIO_PinAFConfig(GPIOC,GPIO_PinSource6,GPIO_AF_TIM8); //GPIOA8复用为定时器1$ ?* _: u( n f; [
GPIO_PinAFConfig(GPIOC,GPIO_PinSource7,GPIO_AF_TIM8); //GPIOA9复用为定时器1
$ E+ b3 C, e' D) B) h- [) m" q
GPIO_PinAFConfig(GPIOC,GPIO_PinSource8,GPIO_AF_TIM8); //GPIOA10复用为定时器1) e5 s1 I; c4 x* F; C2 i
GPIO_PinAFConfig(GPIOA,GPIO_PinSource7,GPIO_AF_TIM8); //GPIOB13复用为定时器19 G$ x4 u4 A, X# ^! ~4 I$ p
GPIO_PinAFConfig(GPIOB,GPIO_PinSource0,GPIO_AF_TIM8); //GPIOB14复用为定时器1
GPIO_PinAFConfig(GPIOB,GPIO_PinSource1,GPIO_AF_TIM8); //GPIOB15复用为定时器1
3 I. F9 b& }' D2 s
' z& O+ @ [! L4 x9 y
TIM_TimeBaseStructure.TIM_Prescaler=psc; //定时器分频4 v7 f! U% L( c% ]5 c, f( J
TIM_TimeBaseStructure.TIM_CounterMode=TIM_CounterMode_Up; //向上计数模式0 T W: z0 ` t8 F" j- f
TIM_TimeBaseStructure.TIM_Period=arr; //自动重装载值
5 v3 `* m6 U3 P' X l( N9 I
TIM_TimeBaseStructure.TIM_ClockDivision=TIM_CKD_DIV1;
8 g/ {' R" R# k4 r& B- a" s. O
! m5 j" f- ?6 Z) a
TIM_TimeBaseInit(TIM8,&TIM_TimeBaseStructure);//初始化定时器1
3 }0 s) Y4 D9 |4 G6 I3 i5 r- F
5 b0 V+ G7 z" e( y; x$ o$ O x& _2 b
//初始化PWM模式
. o+ N+ W+ N# {5 o: x8 T: ]. ~
TIM_OCInitStructure.TIM_OCMode = TIM_OCMode_PWM1;6 y0 ^% q1 n9 } B8 q. c8 T
TIM_OCInitStructure.TIM_OutputState = TIM_OutputState_Enable;
2 j% y. @+ G' f& `1 ]7 B/ d8 }: [
TIM_OCInitStructure.TIM_OutputNState = TIM_OutputNState_Enable;
, I6 {/ t. G% B% k0 x4 A
TIM_OCInitStructure.TIM_Pulse = 0;% R& ~* a8 ~% {7 d
TIM_OCInitStructure.TIM_OCPolarity = TIM_OCPolarity_High;+ M a9 r( b) C7 m# \% K" M
TIM_OCInitStructure.TIM_OCNPolarity = TIM_OCNPolarity_High;
) |8 @3 _! [3 F
TIM_OCInitStructure.TIM_OCIdleState = TIM_OCIdleState_Reset; 1 J/ z3 x3 o- \" i1 ~6 `
TIM_OCInitStructure.TIM_OCNIdleState = TIM_OCIdleState_Reset;3 r0 r. Y3 g8 D( ?& Y" U
! I2 b' S4 T1 f* [( T6 f1 S
TIM_OC1Init(TIM8, &TIM_OCInitStructure);
9 [; ?" G' A5 [' ^% f' x+ R# ^& ]) t
TIM_OC2Init(TIM8, &TIM_OCInitStructure);7 a+ F' I" \# O, ^
TIM_OC3Init(TIM8, &TIM_OCInitStructure);& F4 j# q; U& O& M. x3 X2 x# l' h/ I
$ s5 l+ x) l& _1 z- W* B! J+ R: j8 p% u
TIM_OC1PreloadConfig(TIM8,TIM_OCPreload_Enable);
: F3 ]' P$ Y r" Y
TIM_OC2PreloadConfig(TIM8,TIM_OCPreload_Enable);
: l5 k" W* Z0 S2 g3 }
TIM_OC3PreloadConfig(TIM8,TIM_OCPreload_Enable);% N" n# {9 K4 b+ _4 d
; |9 ?/ j5 n1 Q8 B" ^" Q
TIM_BDTRInitStructure.TIM_OSSRState = TIM_OSSRState_Enable;
9 G' G9 f ^4 C$ e2 Y
TIM_BDTRInitStructure.TIM_OSSIState = TIM_OSSIState_Enable;# J8 V7 p+ b- E5 f9 g
TIM_BDTRInitStructure.TIM_LOCKLevel = TIM_LOCKLevel_OFF;
! s4 D6 l1 d( v9 ?* E' f( V3 c8 x
TIM_BDTRInitStructure.TIM_DeadTime = 0;9 a. K4 k* s! ^! [
TIM_BDTRInitStructure.TIM_Break = TIM_Break_Disable; , p" k* W, y8 C" c6 u* }8 T7 }
TIM_BDTRInitStructure.TIM_BreakPolarity = TIM_BreakPolarity_Low;
) |# i' e6 u, z# D5 Q
TIM_BDTRInitStructure.TIM_AutomaticOutput = TIM_AutomaticOutput_Disable;- W$ ?, d. R: Q9 E$ d9 P) F3 V% d
TIM_BDTRConfig(TIM8,&TIM_BDTRInitStructure);' D% G0 w. p+ }$ l" p( t: p. f8 P& Y+ ~
4 f1 P$ N8 G9 ~8 y7 v, I; j6 ?
TIM_Cmd(TIM8,ENABLE);
/ @( B `8 P: `2 A- B- I: S
TIM_CCPreloadControl(TIM8,ENABLE);$ m- N9 U* N3 \/ s, e
TIM_CtrlPWMOutputs(TIM8,ENABLE);$ b# R" ?2 \& C' n7 J3 o2 Q
- g2 H, x0 u1 W9 }. o0 u
}

复制代码

编码器初始化函数：

) g, `5 L! F% a) R: J
void Encoder_Init_TIM4(void)
9 x6 m0 f2 p3 k7 }) Y1 ^" B
{% g; F9 [: E7 f+ k4 n
GPIO_InitTypeDef GPIO_InitStructure;
* l, L# G- l5 ^7 x
TIM_TimeBaseInitTypeDef TIM_TimeBaseStructure;
& V" m9 {, U! q. U
TIM_ICInitTypeDef TIM_ICInitStructure;
2 E- U* |, I! R, f! g
NVIC_InitTypeDef NVIC_InitStructure;. o* L+ _# n2 \9 j# b
( v1 o; N- A+ e; Y d3 [3 N+ ]
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM4,ENABLE);//开启TIM4时钟/ e: g2 |$ O8 d$ ~
RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOB,ENABLE);//开启GPIOB时钟& V/ \3 c, X2 y6 m9 r4 P
: ]; {4 Y n' W/ g$ p) G# w
GPIO_PinAFConfig(GPIOB,GPIO_PinSource6,GPIO_AF_TIM4);//PB6引脚复用& Q# R# e; [2 ?8 m& |0 b+ L5 `: E* j
GPIO_PinAFConfig(GPIOB,GPIO_PinSource7,GPIO_AF_TIM4);//PB7引脚服用
& [3 J6 v5 C$ N
9 U2 a( X$ V- T$ q* x) u% e
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_6|GPIO_Pin_7; //GPIOB6,GPIOB7/ g6 c$ b+ h# J" n- h1 a/ \$ c% t
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_AF;
$ c4 Y! S1 X- n
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
( G2 C3 T% [9 }: k7 ^- P" k
GPIO_InitStructure.GPIO_OType = GPIO_OType_OD;& u/ u& m8 E5 |! A
//GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_NOPULL ;* i% J" `8 P% g* v
GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP;) Q3 r8 _7 p" o/ H9 e
GPIO_Init(GPIOB,&GPIO_InitStructure); , z9 @: y2 [# S) i8 x
" D7 S5 m- R+ T U1 L
NVIC_InitStructure.NVIC_IRQChannel = TIM4_IRQn;
NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 1; /*它的抢占优先级可以尽量设置低点*/7 X! d6 l1 Y% s2 q
NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;6 C1 _; L d, ], _3 f' l
NVIC_InitStructure.NVIC_IRQChannelCmd = DISABLE;//禁用中断，防止计数溢出而没有相应函数，造成卡死( ~# ?/ Y2 @! O
NVIC_Init(&NVIC_InitStructure);) k. f8 ]0 V% H' r3 y
1 @7 X9 Z$ l% ], u, D0 w/ a$ ^
) y2 A; b; U4 |( b0 A. Z! F
1 ~- A1 F; A4 ~( U0 T( e4 z( H
TIM_TimeBaseStructure.TIM_Period = 4095; //设置下一个更新事件装入活动的自动重装载寄存器周期的值
# R4 M9 L- g1 ~* D5 g4 x5 Z2 @+ I, B
TIM_TimeBaseStructure.TIM_Prescaler = 0; //设置用来作为TIMx时钟频率除数的预分频值不分频& U+ A* r- X$ ~6 u3 O3 d- A
TIM_TimeBaseStructure.TIM_ClockDivision = 0; //设置时钟分割:TDTS = Tck_tim
8 x1 |' T9 x! f; s. r
TIM_TimeBaseStructure.TIM_CounterMode = TIM_CounterMode_Up; //TIM向上计数模式8 |1 n5 ~7 Z M3 u0 k% g
TIM_TimeBaseInit(TIM4, &TIM_TimeBaseStructure);
" ?7 R$ K- ~4 z. q/ |! ^4 i3 ]
! ^) o5 H0 `6 A
TIM_EncoderInterfaceConfig(TIM4, TIM_EncoderMode_TI12,TIM_ICPolarity_Rising,TIM_ICPolarity_Falling);# B7 A/ H# `8 m" I2 \
TIM_ICStructInit(&TIM_ICInitStructure);* ~# @5 W$ t1 g0 X6 K+ g3 l# [) F1 ^
TIM_ICInitStructure.TIM_ICFilter = 10; //输入滤波器
; W) ]( E; h0 {
TIM_ICInit(TIM4, &TIM_ICInitStructure);: X2 j! B' P! h* d" d
TIM_ClearFlag(TIM4, TIM_FLAG_Update); //清除所有标志位+ u6 n, l" B+ {4 x/ l
TIM_ITConfig(TIM4, TIM_IT_Update, DISABLE); //允许中断更新
- G9 e* Y: H7 j+ ]: a1 g
TIM4->CNT = 0;
/ ^; a. H$ f* u0 a' V
TIM_Cmd(TIM4, ENABLE); //使能TIM4
! ?4 Y7 c9 ]4 w
}7 W) ?) N: w8 a. f4 d

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编码器返回速度值：

/**************************************************************************
3 m: o) \- _0 A
函数功能：单位时间读取编码器计数
& l; ~5 w, o; A. g
入口参数：定时器
1 c: m+ b4 R i2 `% Q
返回值：速度值
6 L" k$ }1 V+ g9 _7 r: e' h, H6 K
**************************************************************************/
& Y$ ~, X j% P8 G7 z
float Read_Encoder_Speed(uint8_t TIMX)
8 d5 B, J @3 m. n' h3 u; E
{$ ~; }0 E% U- D4 i% H
int32_t Encoder_TIM;) M3 R1 W& X7 G% @- X3 {
float res = 0;
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switch (TIMX)
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case 5:
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Encoder_TIM = TIM_GetCounter(TIM5);
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TIM5->CNT = ENCODER_BASE_COUNT; & L: V) @& ?+ R# q6 k) L/ V1 m
res = (int32_t)Encoder_TIM - ENCODER_BASE_COUNT;
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break;
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case 4:
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Encoder_TIM = TIM_GetCounter(TIM4);
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TIM4->CNT = ENCODER_BASE_COUNT;
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res = (int32_t)Encoder_TIM - ENCODER_BASE_COUNT;
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break;
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default:- x6 T6 Q Z* M3 N6 D
Encoder_TIM = 0;
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res = 0;# ^9 C1 [9 H* ]* _) V) x
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if(res>2048.0f)- ^* K' O9 L9 f5 T; T. ]' k5 h
res-=4096.0f;
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return res*360.0f/4096.0f;
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}
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定时从编码器取数，注意，时间不一样，取回的数值也不一样，取决于实际速度以及编码器线数。这里50ms取一次：

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void TIM7_IRQHandler(void)//频率20HZ，用于编码器计数
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{
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if(TIM_GetITStatus(TIM7,TIM_IT_Update)==SET)//溢出中断
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speed=Read_Encoder_Speed(4);; d3 B( g& c4 {1 r
}
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TIM_ClearITPendingBit(TIM7,TIM_IT_Update); //清除中断标志位
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}

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2.5 PID控制

PID库函数：

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#define N 2 //需要对多少变量进行pid调节
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const float KP[N]={1.3,1.0};//这里只用了比例调节$ {0 C& Y3 F1 ^5 P6 c9 ]: M6 @
const float KI[N]={0,0};7 M- d$ [9 a% P+ U$ s! K8 O
const float KD[N]={0,0};
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struct _pid{
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float SetVol; //定义设定值
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float ActVol; //定义实际值
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float Err; //定义误差
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float Err_Next; //定义上一个误差
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float Err_Last; //定义上上一个误差
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float Kp,Ki,Kd; //定义比例、积分、微分系数2 v: a' f6 V0 s( u! Z* r( y
float integral; //定义积分值
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float actuator; //定义控制器执行变量, b' E- H4 J# p9 h0 U
}pid[N];* v' @& F: Y, a x; N% J! R: A
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void PID_Init(void)" C4 A* w" J# t" Z% c1 a
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for(int i=0;i<N;i++)
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{: g6 `4 P% E0 \
pid[i].SetVol=0.0;3 H4 H- T, B$ y! Q0 x8 Z0 z
pid[i].ActVol=0.0;, G1 W4 Q) Z3 U$ L8 i4 l
pid[i].Err=0.0;' [- R9 v0 Y0 ^" R
pid[i].Err_Next=0.0;
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pid[i].Err_Last=0.0;
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pid[i].integral=0.0;. [, U: b4 n. B: ~, h9 a
pid[i].actuator=0.0;, r, y% V5 n+ j; S. \
pid[i].Kp=KP[i];
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pid[i].Ki=KI[i];
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pid[i].Kd=KD[i];
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}
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float PID_realize(float set_val,float get_val,int i) //位置型PID算法实现
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{
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pid[i].SetVol=set_val;
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pid[i].ActVol=get_val;) \+ U, F! b1 Q+ Y
pid[i].Err=pid[i].SetVol-pid[i].ActVol;
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float IncVol; //定义增量
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pid[i].integral+=pid[i].Err;/ i) S' R- u8 {. S2 ~
// IncVol=pid[i].Kp*(pid[i].Err-pid[i].Err_Next)+pid[i].Ki*pid[i].Err+pid[i].Kd*(pid[i].Err-2*pid[i].Err_Next+pid[i].Err_Last);8 v0 o3 x0 s) e: h
pid[i].actuator=pid[i].Kp* pid[i].Err+pid[i].Ki*pid[i].integral+pid[i].Kd*(pid[i].Err-pid[i].Err_Next);
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// pid[i].actuator=adc_val+IncVol;! u' T9 C6 x+ K) \4 Y% y1 ^
pid[i].ActVol=pid[i].actuator;- }! f' y6 {4 X: c
pid[i].Err_Last=pid[i].Err_Next;
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pid[i].Err_Next=pid[i].Err;: J, d1 j% d B) x
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return pid[i].actuator;
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}

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主函数中的PID调节：

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z_get=data[2];
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x_get=data[0];
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if(z_get-z_set>0.5||z_get-z_set<-0.5)//电机PID
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LED1=0; //调节时灯亮
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PID_val_motor=PID_realize(z_set,z_get,0);
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PID_val_motor=PID_val_motor/10.0;
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if(PID_val_motor<=0)
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motor_flag=0;//motor_flag控制电机正反转，PID_val_motor用于改变占空比，范围0~1
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if(PID_val_motor>0)
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motor_flag=1;
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PID_val_motor=abs_float(PID_val_motor);# W3 I; q3 c9 W. n
if(PID_val_motor>2)PID_val_motor=0;//标志太远，让车停止1 W- s; y: [0 r2 d1 T# F4 Y5 @& S. z
if(PID_val_motor>1&&PID_val_motor<=2)PID_val_motor=1;' E- w$ {6 h0 a% ~- t
if(PID_val_motor<0.2)PID_val_motor=0;. c9 w6 i$ D8 ]) y& L d0 O& Q
}
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if(x_get-x_set>0.1||x_get-x_set<-0.1)//舵机PID
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LED1=0;
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PID_val_servo=PID_realize(x_set,x_get,1);
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servo_angle=((140-35)/6)*PID_val_servo+35;//线性映射，把PID的值转化为角度35~140的舵机转角8 x5 N/ S8 H! Q7 A8 V4 S
if(servo_angle<35)servo_angle=35;( q' y9 H# O& A' W4 T! y
if(servo_angle>140)servo_angle=140;
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LED1=1;

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定时器TIM2中断里改变占空比：

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void TIM2_IRQHandler(void), W9 D- w3 s- k
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if(TIM_GetITStatus(TIM2,TIM_IT_Update)==SET)//溢出中断* X9 B$ F0 k* t) X' R
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if(motor_flag==1)//反转3 k; e6 I% h6 ~: ~
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TIM_SetCompare1(TIM8,motor_duty*PID_val_motor*400.0);//和定时器的自动重装载值进行比较，来设置占空比,引脚：PC6; U; V+ b8 ]) n, X# q9 V
TIM_SetCompare2(TIM8,0);
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}
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if(motor_flag==0)//正转6 V3 ^2 m' H/ ` Z
{
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TIM_SetCompare1(TIM8,0);3 d" g$ V o; q/ r' O
TIM_SetCompare2(TIM8,motor_duty*PID_val_motor*400.0);//和定时器的自动重装载值进行比较，来设置占空比，引脚：PC7. b; D" L \7 |) n+ k
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TIM_SetCompare1(TIM3,200-(servo_angle/45.0+1)*5);//设置舵机角度，根据舵机手册得到占空比与转角的关系，引脚：PA6
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}
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TIM_ClearITPendingBit(TIM2,TIM_IT_Update); //清除中断标志位2 Q5 M" r% h" ~6 O- e
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