STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

1.AD7799介绍

AD7799结构图如下所示:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

其中REFIN参考电压建议为2.5V, REFIN电压低于0.1V时,则差分输入ad值就无法检测了,如下图所示:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

注意:

如果REG_CONFIG的REF_DET开启的话,那么输入AD值电压低于0.5V时,则差分输入ad值就无法检测了,如下图所示:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

2.AD7799差分信号的输入模式

如下图所示,差分输入电压有3种模式:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

注意:

单端输入电压(AIN-接地,只有正电压)则支持任意范围,比如In-Amp模式下,单端输入如果为10mv的话,也能检测到.

2.1 Unbuffered Mode非缓冲模式

该模式可测的AD值可以在 -30mV ~ (AVDD+30mv)范围之间,如果开了双极型模式(双极型模式通过将REG_CONFIG的U/B位设0实现),则也可以测-(AVDD+30mv)~30mV之间AD值.

也就是说假如我们要测的AD值位于-100mV~100mV之间,则用这个模式.

该模式优缺点:可测范围最大,但是精度误差不是很高

2.2 Buffered Mode缓冲模式

缓冲的作用就是减少测的AD误差,并且功耗相应地会增高点,该模式主要是测100mV~( AVDD-100mV)之间.

该模式优缺点:可测范围比Unbuffered小一点,并且精度误差高一点

2.3 In-Amp 高增益模式

需要将REG_CONFIG的Gain调到4及以上才是该模式,否则的话,就会根据REG_CONFIG的BUF位来自动判断是Buffered Mode还是Unbuffered Mode.

并且AD值必须位于300mv~(AVDD+1100mv)之间,否则的话该模式是无法检测AD值的,之前笔者就是测差分输入的正负20mV,却一直没有反应,后来才发现是处于这个模式的原因.

该模式优缺点:可测范围可以通过设置Gain来设置测试范围,比如VREF为3V,Gain=4,则可测量程为正负600mv.

注意:

当使用Buffered Mode或者In-Amp模式时,需要将REG_CONFIG的BO位开启,介绍如下图所示:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

3.代码效果

串口截图如下:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

通过电压发生器不停修改AD值时,可以看到万用表和串口打印的数据相差不大:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

PS:由于GIF录制的像素位数太低,所以不清晰

4.代码实现

支持硬件SPI1或者GPIO模拟方式

代码通过宏AD7799_INTERFACE_MODE判断,能够支持硬件SPI1或者GPIO模拟方式,如下图所示:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

通过宏定义VREF参考电压,以及GAIN增益值

如下图所示,只需修改下面宏,就可以实现转换电压数据自动转换:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

实现通道1和通道2来回切换

串口发送select 1,表示选择通道1:

STM32-24位AD7799驱动之手册代码详解,支持模拟SPI和硬件SPI

发送select 2,则表示选择通道2.

4.1初始化过程

     /*ad7799初始化*/

         AD7799_gpio_init();
while(!AD7799_Init())
{
LED0 = !LED0;
delay_ms(50);
}
LED0 = 1;
AD7799_Calibrate(); //通道校准 AD7799_SetGain(AD7799_CHIP_GAIN);
AD7799_SetBurnoutCurren(0); //关闭BO
AD7799_SetBufMode(0); //由于我们要测的电压低于100mV,所以设置为Unbuffered Mode
AD7799_SetChannel(ChannelBuf[0]); //通道设置.
AD7799_SetMode(AD7799_MODE_CONT,5); //默认双极性 频率为5
AD7799_SetReference(0); //关闭参考检测,因为我们的 AD7799_RefmV 参考电压低于0.5V

4.2 上面的函数如下所示:

void AD7799_gpio_init(void)
{
GPIO_InitTypeDef GPIO_InitStructure;
GPIO_InitStructure.GPIO_Pin = AD_CS_PIN;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_Init(AD_CS_GPIO, &GPIO_InitStructure); //CS片选 #if ( AD7799_INTERFACE_MODE == AD7799_INTERFACE_SPI1 )
//spi1 mode
SPI1_Init();
SPI1_SetSpeed(SPI_BaudRatePrescaler_2);
#else
//gpio模拟spi mode
GPIO_InitStructure.GPIO_Pin = AD_DI_PIN;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_Init(AD_DI_GPIO, &GPIO_InitStructure); GPIO_InitStructure.GPIO_Pin = AD_SCK_PIN;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
GPIO_Init(AD_SCK_GPIO, &GPIO_InitStructure); GPIO_InitStructure.GPIO_Pin = AD_DO_PIN;
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
GPIO_Init(AD_DO_GPIO, &GPIO_InitStructure);
spi_AD7799_init();
#endif
AD7799_Reset();
}
void AD7799_SetGain(unsigned long gain)
{
unsigned long command;
command = AD7799_GetRegisterValue(AD7799_REG_CONF,);
command &= ~AD7799_CONF_GAIN(0xFF);
command |= AD7799_CONF_GAIN(gain);
AD7799_SetRegisterValue(
AD7799_REG_CONF,
command, );
} void AD7799_SetBurnoutCurren(u8 enable)//设置BO
{
unsigned long command;
command = AD7799_GetRegisterValue(AD7799_REG_CONF,);
command &= ~0X2000;
if(enable)
command |= 0X2000;
AD7799_SetRegisterValue(
AD7799_REG_CONF,
command, ); } void AD7799_SetBufMode(u8 enable) //设置buf
{
unsigned long command;
command = AD7799_GetRegisterValue(AD7799_REG_CONF,);
command &= ~0X10;
if(enable)
command |= 0X10;
AD7799_SetRegisterValue(
AD7799_REG_CONF,
command, );
} void AD7799_SetChannel(unsigned long channel)
{
unsigned long command;
command = AD7799_GetRegisterValue(AD7799_REG_CONF,);
command &= ~AD7799_CONF_CHAN(0xFF);
command |= AD7799_CONF_CHAN(channel);
AD7799_SetRegisterValue(
AD7799_REG_CONF,
command, );
} void AD7799_SetMode(unsigned long mode,u8 rate)
{
unsigned long command;
command = AD7799_GetRegisterValue(AD7799_REG_MODE,);
command &= ~AD7799_MODE_SEL(0xFF);
command |= AD7799_MODE_SEL(mode);
command &= 0XFFF0;
command |= rate; //设置频率 AD7799_SetRegisterValue(
AD7799_REG_MODE,
command, );
}
void AD7799_SetReference(unsigned char state)
{
unsigned long command = ;
command = AD7799_GetRegisterValue(AD7799_REG_CONF,);
command &= ~AD7799_CONF_REFDET();
command |= AD7799_CONF_REFDET(state);
AD7799_SetRegisterValue(AD7799_REG_CONF, command, ); } void AD7799_SetRegisterValue(unsigned char regAddress,
unsigned long regValue,
unsigned char size)
{
unsigned char data[] = {0x03, 0x00, 0x00, 0x00, 0x00};
data[] = AD7799_COMM_WRITE | AD7799_COMM_ADDR(regAddress);
if(size == )
{
data[] = (unsigned char)regValue;
}
if(size == )
{
data[] = (unsigned char)((regValue & 0x0000FF) >> );
data[] = (unsigned char)((regValue & 0x00FF00) >> );
}
if(size == )
{
data[] = (unsigned char)((regValue & 0x0000FF) >> );
data[] = (unsigned char)((regValue & 0x00FF00) >> );
data[] = (unsigned char)((regValue & 0xFF0000) >> );
}
AD7799_CS_LOW;
SPI_Write(data,( + size));
AD7799_CS_HIGH;
} unsigned long AD7799_GetRegisterValue(unsigned char regAddress, unsigned char size)
{
unsigned char data[] = {0x00, 0x00, 0x00, 0x00, 0x00};
unsigned long receivedData = 0x00;
data[] = AD7799_COMM_READ | AD7799_COMM_ADDR(regAddress);
AD7799_CS_LOW;
SPI_Write(data,);
SPI_Read(data,size);
AD7799_CS_HIGH;
if(size == )
{
receivedData += (data[] << );
}
if(size == )
{
receivedData += (data[] << );
receivedData += (data[] << );
}
if(size == )
{
receivedData += (data[] << );
receivedData += (data[] << );
receivedData += (data[] << );
}
return receivedData;
}

4.3 获取通道电压代码如下所示:

      while()
{
if(Serial_Post_ChannelValue!=0XFF) //0:不选择 1~2:更改通道
{
CurrentChannelValue = Serial_Post_ChannelValue;
Serial_Post_ChannelValue =0XFF; if(CurrentChannelValue && CurrentChannelValue<=) //1~2
{
AD7799_SetChannel(ChannelBuf[CurrentChannelValue-]);//通道设置. 0~1
delay_ms();
AD7799_GetRegisterValue(AD7799_REG_DATA,);//清空之前的AD
}
else if(CurrentChannelValue == )
{
printf("%s value0 0 0 \r\n",Board_Name);
}
} if(CurrentChannelValue) //选择了通道?
{
for(i=;i<;i++) //获取每个通道数据
if(CurrentChannelValue == (i+))
{
while( !AD7799_Ready()) //1~2
{
delay_ms();
}
ADValues[i]= analyzeAD7799_Data(AD7799_GetRegisterValue(AD7799_REG_DATA,));
}
else
ADValues[i] = 0.0000; printf("%s 当前通道为:%d %.3fmV %.3fmV \r\n",Board_Name,CurrentChannelValue,ADValues[],ADValues[]);
}
LED0 =!LED0;
delay_ms();
}

具体下载地址:https://download.csdn.net/download/qq_37997682/11240699

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