//遍历所有I2C地址(仅限7bit寻址!) for(Uint8_t i = 0x01; i <0x7f; i ++) { //Set next slave address i2c_init(i);
send_i2c_command(0x00&0x3ff);//在总线上传输地址 等待_while_i2c_fifo_is_full();//Wait if I2C Tx FIFO is full send_i2c_command(0x0100&0x3ff);//Send read register 0x00 wait_until_i2c_fifo_is_empty();//等到TX FIFO是空的 wait_until_no_master_actity();//确保大师已完成
//Did we receive any data? if(GetWord16(I2C_RXFLR_REG) != 0) { //读取收到的数据(device_id) uint8_t device_id = 0xff&getword16(i2c_data_cmd_reg); //如果这是扩展扫描,则报告设备ID以及地址 如果(扩展) //扩展扫描。报告地址和注册0x00(device_id) Sprintf(Temp_str,“0x%02x => 0x%02x,”,i,device_id); else //正常扫描=>报告地址 Sprintf(Temp_str,“0x%02x,”i); memcpy(&response_str[response_idx],temp_str,strlen(temp_str)); //Warning: will fail if more than 50 I2C devices available on bus response_idx + = strlen(temp_str); }
I don't know why don't you add this in the documentation and libraries of the SDK !!, many people in this forum will be happy. There are so many I2C devices on the market, each with own structure and protocol.
The IC_TAR register contains the address of the slave device, in the i2c driver the device will first write the register address of the module, that it wants to read/write to the DATA_CMD, and then, place in the DATA_CMD register the data to be transmitted. The I2C_TAR is the address of the device itself the setting of your device address is set during the i2c initialization.
I2C_tar包含DA14580将写入的I2C设备的地址。 The DATA_CMD_REG contains the data to communicate to the DEVICE.
When I write to the DATA_CMD_REG any data , on the i2c bus you have first the I2C_TAR_REG followed by the I2C_DATA_REG content.
If I write the slave address to the DATA_CMD_REG , you will have the address TWO times on the bus !!
If there is single i2c DEVICE on the bus , one needs to load the TAR_REG once and then writes data to DATA_CMD_REG then I get address-->Data sent to the device,
//检查是否已收到ACK for (uint32_t i = 0; i < I2C_MAX_RETRIES; i++) { SEND_I2C_COMMAND(0x08); // Make a dummy access wait_until_i2c_fifo_is_empty();//等到TX FIFO是空的 wait_until_no_master_actity();//等到没有主活动 tx_abrt_source = getword16(i2c_tx_abrt_source_reg);//读取i2c_tx_abrt_source_reg寄存器 getword16(i2c_clr_tx_abrt_reg);//清除i2c_tx_abrt_source寄存器 if((tx_abrt_source&abrt_7b_addr_noack)== 0) { 返回i2c_no_error; } } 返回i2c_7b_addr_noack_error; }
note: if i loaded the bond data in sysram, it is working fine. i.e, #undef USER_CFG_APP_BOND_DB_USE_SPI_FLASH #undef user_cfg_app_bond_db_use_i2c_eeprom.
please give a valuable suggesssition to avoid this problem.advance thanks.
嗨sjabir2004,
请查看外围示例应用程序部分(7)的文档UM-B-050,也可以查看外围驱动程序部分(10)中的Doc UM-B-051,以获取外围设备的驱动程序雷竞技安卓下载。
谢谢mt_dialog.
你好,
I have already seen these documents.
没有描述外围设备的硬件结构以及如何设置。这些示例无法涵盖所有可能的组合和功能。
请确认缺少此文档。
嗨sjabir2004,
没有关于DA外围设备和开发的API的其他文档,有关任何其他功能的更多信息,可以在DA的数据表中找到。此外,您可能希望查看文档UM-B-005和UM-B-004以检查这些文档是否涵盖了任何其他功能。
谢谢mt_dialog.
示例:我想使用i2c命令传感器。我需要发送命令写入然后最终读取。读取可以是max n字节。
我不知道如何在I2C寄存器中设置位和字节以发送和接收,因为它不是写在任何地方!。
在这种情况下,I2C_EEPROM示例的功能是可用的?
Thank you !
Hi,
我不认为I2C_EEPROM示例的I2C功能是传感器驱动程序的一个很好的起点。我一直在使用下面的例子,更好地解释了如何攻击I2C:
/ ****************************************************************************************
*宏
*****************************************************************************************
// i2c Helper宏
#define SEND_I2C_COMMAND(X) SetWord16(I2C_DATA_CMD_REG, (X))
#define wait_whille_i2c_fifo_is_full()while(!(getword16(i2c_status_reg)&tfnf))
#define wait_until_i2c_fifo_is_empty(!(getword16(i2c_status_reg)&tfe))
#define WAIT_UNTIL_NO_MASTER_ACTIVITY() while(GetWord16(I2C_STATUS_REG) & MST_ACTIVITY)
#define wait_for_received_byte()while(!getword16(i2c_rxflr_reg))
/*---------------------------------------------------------------------------------------
|@brieie初始化提供从地址的I2C接口
|
|@param[in] slave_address, The I2C slave address to communicate with
|
|@return void
------------------------------------------------------------------------------------------------- * /
void i2c_init(uint8_t slave_address)
{
//使用作为参数提供的地址初始化I2C
//TODO: Support 10bit addressing
SetBits16(CLK_PER_REG, I2C_ENABLE, 1); // Enable clock for I2C
setword16(i2c_enable_reg,0x0);//禁用I2C控制器
setword16(i2c_con_reg,i2c_master_mode | i2c_slave_disable | i2c_restart_en);//从站被禁用
SetBits16(I2C_CON_REG, I2C_SPEED, 1); // Set speed. Standard speed = 1, fast = 2
setbits16(i2c_con_reg,i2c_10bitaddr_master,0);//设置寻址模式。7bit = 0,10bit = 1
SetWord16(I2C_TAR_REG, slave_address & 0xFF); // Set Slave device address
setword16(i2c_enable_reg,0x1);//启用I2C控制器
while(GetWord16(I2C_STATUS_REG) & 0x20); // Wait for I2C master FSM to be IDLE
}
//
/*---------------------------------------------------------------------------------------
|@brief Scans the I2C bus for slave devices
|
|@param [in]扩展,如果为true:响应将包括潜在的i2c从设备ID
|@param [in]远程,扫描命令的始发者
|
|@return void
------------------------------------------------------------------------------------------------- * /
void i2c_scan(bool extended,bool remote)
{
char temp_str [255] = {0};
char response_str[255] = {0};
uint8_t response_idx=0;
//遍历所有I2C地址(仅限7bit寻址!)
for(Uint8_t i = 0x01; i <0x7f; i ++)
{
//Set next slave address
i2c_init(i);
send_i2c_command(0x00&0x3ff);//在总线上传输地址
等待_while_i2c_fifo_is_full();//Wait if I2C Tx FIFO is full
send_i2c_command(0x0100&0x3ff);//Send read register 0x00
wait_until_i2c_fifo_is_empty();//等到TX FIFO是空的
wait_until_no_master_actity();//确保大师已完成
//Did we receive any data?
if(GetWord16(I2C_RXFLR_REG) != 0)
{
//读取收到的数据(device_id)
uint8_t device_id = 0xff&getword16(i2c_data_cmd_reg);
//如果这是扩展扫描,则报告设备ID以及地址
如果(扩展)
//扩展扫描。报告地址和注册0x00(device_id)
Sprintf(Temp_str,“0x%02x => 0x%02x,”,i,device_id);
else
//正常扫描=>报告地址
Sprintf(Temp_str,“0x%02x,”i);
memcpy(&response_str[response_idx],temp_str,strlen(temp_str));
//Warning: will fail if more than 50 I2C devices available on bus
response_idx + = strlen(temp_str);
}
}
//附加回车返回,LineFeed和“确定”回复
sprintf(temp_str,"\n\rOK");
memcpy(&response_str [response_idx-1],temp_str,strlen(temp_str));
//显示响应(远程或本地)
响应(response_str,strlen(response_str),远程);
//Disable I2C
setword16(i2c_enable_reg,0x0);//禁用I2C控制器
setBits16(CLK_PER_REG,I2C_ENABLE,0);//禁用I2C的时钟
}
//
/*---------------------------------------------------------------------------------------
|@brief发送i2c从存储器地址
|
|@param [in] I2C从存储器的地址
------------------------------------------------------------------------------------------------- * /
void i2c_send_address(uint8_t address_to_send)
{
SEND_I2C_COMMAND(address_to_send & 0xFF); // Set address LSB, write access
}
//
/*---------------------------------------------------------------------------------------
|@brief从i2c从站读取单个字节。
|
|@param [in]地址,存储地址读取字节。
|
|@return读字节。
------------------------------------------------------------------------------------------------- * /
INT8_T I2C_READ_BYTE(UINT8_T地址)
{
i2c_send_address(地址和0x3FF);
等待_while_i2c_fifo_is_full();//等待TX FIFO已满
send_i2c_command(0x0100&0x3ff);//将R / W位设置为1(读取访问)
wait_until_i2c_fifo_is_empty();//等到I2C TX FIFO空
wait_until_no_master_actity();//Make sure master has finished
return (0xFF & GetWord16(I2C_DATA_CMD_REG)); // Get received byte
}
//
/*---------------------------------------------------------------------------------------
|@brief Writes single byte to I2C slave.
|
|@param [in]地址,存储字节写入的内存地址。
|@param[in] wr_data, Data to write.
|
|@return void.
------------------------------------------------------------------------------------------------- * /
void i2c_write_byte(uint16_t地址,uint8_t wr_data)
{
i2c_send_address(地址);
等待_while_i2c_fifo_is_full();//Wait if I2C Tx FIFO is full
send_i2c_command(wr_data&0xff);//发送写入数据
wait_until_i2c_fifo_is_empty();//等到TX FIFO是空的
wait_until_no_master_actity();//等到没有主活动
}
//
/*---------------------------------------------------------------------------------------{
|@brief Reads data from an I2C slave
|
|@param [in] hw_address,i2c从设备的HW地址
|@param [in] reg_address,要读取的注册地址
|@param[in] num_bytes, Number of bytes to read
|@param[in] remote, originator of the read command
|
|@return void
------------------------------------------------------------------------------------------------- * /
void i2c_read(uint16_t hw_address,uint16_t reg_address,uint8_t num_bytes,bool远程)
{
char temp_str [255] = {0};
i2c_init(hw_address);
for(Uint8_t i = 0; i
uint8_t data = i2c_read_byte(reg_address+i);
char str [10];
如果(i == 0)
Sprintf(str,“0x%02x”,数据);
else
sprintf(str,",0x%02X",data);
sprintf(temp_str,"%s%s",temp_str,str);
}
Sprintf(Temp_str,“%s \ n \ rok”,temp_str);
响应(temp_str,strlen(temp_str),远程);
}
//
/*---------------------------------------------------------------------------------------
|@brief将数据写入I2C从站的寄存器地址
|
|@param [in] hw_address,i2c从设备的HW地址
|@param [in] reg_address,注册地址写入
|@param[in] data, Data to write
|@param[in] remote, originator of the read command
|
|@return void
------------------------------------------------------------------------------------------------- * /
void i2c_write(uint16_t hw_address,uint16_t reg_address,uint16_t wr_data,bool远程)
{
i2c_init(hw_address);
I2C_WRITE_BYTE(REG_ADDRESS,WR_DATA);
respons_ok(远程);
}
//
我希望这有帮助。
好的,这似乎是我的looking for. I will give it a try.
I don't know why don't you add this in the documentation and libraries of the SDK !!, many people in this forum will be happy. There are so many I2C devices on the market, each with own structure and protocol.
谢谢你!
您好,我在哪里找到了这些功能
Sprintf(Temp_str,“%s \ n \ rok”,temp_str);
响应(temp_str,strlen(temp_str),远程);
对不起,我的意思是回复()和respond_ok()
Hi,
SprIntf来自STDLIB库(只是#include“stdlib.h”) - 当您想要将数据转储到用户或调试期间,真正有用。
这两个响应函数只是我已经实现的一组函数,以将数据转储到串行端口。您可以使用UART2和ARCH_PRINTF在代码中执行此操作。
I agree that this should be added to the documentation - useful material for a quick tutorial.
你好,好的,这很清楚。
In your code above ,
。。。。。。。。。。。。。。。。。。。。..
void i2c_write_byte(uint16_t地址,uint8_t wr_data)
{
i2c_send_address(地址);
等待_while_i2c_fifo_is_full();//Wait if I2C Tx FIFO is full
send_i2c_command(wr_data&0xff);//发送写入数据
wait_until_i2c_fifo_is_empty();//等到TX FIFO是空的
wait_until_no_master_actity();//等到没有主活动
}
Tar寄存器包含从站的地址,DATA_CMD寄存器包含要发送的数据。I2C_SEND_ADDRESS(地址)会将地址写入DATA_CMD寄存器,然后send_i2c_command(wr_data ..)会这样做!。
Is this a mistake or I am missing something?
都应该通过data_cmd_reg?即,要发送目标和数据的地址?
If yes , what is the scope of TAR_REG bits 0:7?
什么是以下机制:
1 - 向奴隶发送一个命令?
可以读取,写入,重置命令。
2-从从设备读取N.字节?
All without interrupts , just to get it easy.
Thank you !
嗨sjabir2004,
The IC_TAR register contains the address of the slave device, in the i2c driver the device will first write the register address of the module, that it wants to read/write to the DATA_CMD, and then, place in the DATA_CMD register the data to be transmitted. The I2C_TAR is the address of the device itself the setting of your device address is set during the i2c initialization.
谢谢mt_dialog.
你好
I2C_tar包含DA14580将写入的I2C设备的地址。
The DATA_CMD_REG contains the data to communicate to the DEVICE.
When I write to the DATA_CMD_REG any data , on the i2c bus you have first the I2C_TAR_REG followed by the I2C_DATA_REG content.
If I write the slave address to the DATA_CMD_REG , you will have the address TWO times on the bus !!
If there is single i2c DEVICE on the bus , one needs to load the TAR_REG once and then writes data to DATA_CMD_REG then I get address-->Data sent to the device,
This is what I see on the memory oscilloscope.
我在这里错过了什么?
嗨sjabir2004,
你什么意思 ?如果在data_cmd_reg中编写设备的从站地址,则模块将发送I2C_TAR_REG(这是模块的地址),然后将在DATA_CMD_REG中发送数据,该数据再次成为模块的地址。您只需要使用要通信的设备初始化I2C,然后每次在data_cmd_reg中写入内容时,设备的地址将在总线上遵循操作(读/写),然后是数据在data_cmd_reg中。停止或重新启动条件后,I2C将启动新事务时,设备的地址将再次在总线上。
谢谢mt_dialog.
你好,
我正在使用SDK 5.0.4。在DA14580设备中检查安全功能,我必须在EEPROM中存储绑定数据。在向EEPROM写入字节时,我面临i2c_wait_until_eeprom_ready()函数的问题。它会影响调试。
if ((GetWord16(SYS_STAT_REG) & DBG_IS_UP) == DBG_IS_UP)
__asm("BKPT #0\n");
我的代码如下所示,
************************************************************************************
/ ************************************************************
*Select memory medium for bond data storage:
*
*- SPI FLASH (#define USER_CFG_APP_BOND_DB_USE_SPI_FLASH)
* - I2C EEPROM(#define user_cfg_app_bond_db_use_i2c_eeprom)
* - 仅缓存(定义任何内容)
*
*仅选择一个选项。
************************************************************
*/
#undef USER_CFG_APP_BOND_DB_USE_SPI_FLASH
#define user_cfg_app_bond_db_use_i2c_eeprom.
static inline void bond_db_load_ext(void)
{
#if defined (USER_CFG_APP_BOND_DB_USE_SPI_FLASH)
bond_db_load_flash();
# elif (USER_CFG_APP_BOND_DB_USE_I2C_EEPROM定义)
bond_db_load_eeprom();
#万一
}
# elif (USER_CFG_APP_BOND_DB_USE_I2C_EEPROM定义)
static void bond_db_load_eeprom(void)
{
uint32_t bytes_read;
i2c_eeprom_init(I2C_SLAVE_ADDRESS, I2C_SPEED_MODE, I2C_ADDRESS_MODE, I2C_ADDRESS_SIZE);
i2c_eeprom_read_data((uint8_t *)&bdb,app_bond_db_data_offset,sizeof(struct bond_db),&bytes_read);
assert_error(bytes_read == sizeof(struct bond_db));
i2c_eeprom_release();
}
I2C_ERROR_CODE I2C_EEPROM_READ_DATA(UINT8_T * RD_DATA_PTR,UINT32_T地址,UINT32_T大小,UINT32_T * BYTES_READ)
{
uint32_t tmp_size;
if(size == 0)
{
* bytes_read = 0;
返回i2c_no_error;
}
//Check for max bytes to be read from a (MAX_SIZE x 8) I2C EEPROM
if(size> i2c_eeprom_size - 地址)
{
tmp_size = i2c_eeprom_size - 地址;
* bytes_read = tmp_size;
}
else
{
tmp_size = size;
* bytes_read = size;
}
if(i2c_wait_until_eeprom_ready()!= i2c_no_error)
{
返回i2c_7b_addr_noack_error;
}
//Read 32 bytes at a time
而(tmp_size> = 32)
{
read_data_single(&rd_data_ptr, address, 32);
地址+ = 32;//更新读取的基本地址
tmp_size - = 32;//更新TMP_SIZE以进行剩余的字节读取
}
if (tmp_size)
{
read_data_single(&rd_data_ptr,地址,tmp_size);
}
返回i2c_no_error;
}
i2c_error_code i2c_wait_until_eeprom_ready(void)
{
uint16_t tx_abrt_source;
//检查是否已收到ACK
for (uint32_t i = 0; i < I2C_MAX_RETRIES; i++)
{
SEND_I2C_COMMAND(0x08); // Make a dummy access
wait_until_i2c_fifo_is_empty();//等到TX FIFO是空的
wait_until_no_master_actity();//等到没有主活动
tx_abrt_source = getword16(i2c_tx_abrt_source_reg);//读取i2c_tx_abrt_source_reg寄存器
getword16(i2c_clr_tx_abrt_reg);//清除i2c_tx_abrt_source寄存器
if((tx_abrt_source&abrt_7b_addr_noack)== 0)
{
返回i2c_no_error;
}
}
返回i2c_7b_addr_noack_error;
}
note: if i loaded the bond data in sysram, it is working fine. i.e,
#undef USER_CFG_APP_BOND_DB_USE_SPI_FLASH
#undef user_cfg_app_bond_db_use_i2c_eeprom.
please give a valuable suggesssition to avoid this problem.advance thanks.
嗨ajay98,
i2c_wait_until_eeprom_ready()通过发送0x08字节来轮询设备,直到设备用ACK响应。你能在调试模式下运行代码,并指示在哪个点I2c_wait_until_eeprom_ready()代码被困?此外,您使用的是SDK的哪个示例?这是一个定制的实施吗?是否可以在SDK的BLE_APP_SECURY示例中复制它?
我还建议您使用问题创建一个新的论坛线程,因为这是非常旧的。
谢谢,PM_DIALOG.