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I2C 数据发送

根据TI例程修改程序,实现将一个长数组的参数全部发送至EEPROM。但是当程序运行至if (I2cMsgOut1.MsgStatus == I2C_MSGSTAT_INACTIVE)后一直处于等待状态。下面是修改后的中断子程序已经For循环内的程序:

interrupt void i2c_int1a_isr(void)     // I2C-A
{
   Uint16 IntSource, i;

   // Read interrupt source
   IntSource = I2caRegs.I2CISRC.all;

   // Interrupt source = stop condition detected
   if(IntSource == I2C_SCD_ISRC)
   {
      // If completed message was writing data, reset msg to inactive state
      if (CurrentMsgPtr->MsgStatus == I2C_MSGSTAT_WRITE_BUSY)
      {
         CurrentMsgPtr->MsgStatus = I2C_MSGSTAT_INACTIVE;
      }
      else
      {
         // If a message receives a NACK during the address setup portion of the
         // EEPROM read, the code further below included in the register access ready
         // interrupt source code will generate a stop condition. After the stop
         // condition is received (here), set the message status to try again.
         // User may want to limit the number of retries before generating an error.
         if(CurrentMsgPtr->MsgStatus == I2C_MSGSTAT_SEND_NOSTOP_BUSY)
         {
            CurrentMsgPtr->MsgStatus = I2C_MSGSTAT_SEND_NOSTOP;
         }
         // If completed message was reading EEPROM data, reset msg to inactive state
         // and read data from FIFO.
         else if (CurrentMsgPtr->MsgStatus == I2C_MSGSTAT_READ_BUSY)
         {
            CurrentMsgPtr->MsgStatus = I2C_MSGSTAT_INACTIVE;
            for(i=0; i < I2C_NUMBYTES; i++)
            {
              CurrentMsgPtr->MsgBuffer[i] = I2caRegs.I2CDRR;
            }
         {
         // Check recieved data
         for(i=0; i < I2C_NUMBYTES; i++)
         {
            if(I2cMsgIn1.MsgBuffer[i] == I2cMsgOut1.MsgBuffer[i])
            {
                PassCount++;
            }
            else
            {
                FailCount++;
            }
         }
//         if(PassCount == I2C_NUMBYTES)
//         {
           // pass();
            a++;
             for (i=0;i<I2C_NUMBYTES;i++)
      {  b=i+14*a;
 //      if (b>3623) {break;}
       I2cMsgOut1.MsgBuffer[i]=sdata[b];
      }
            //I2caRegs.I2CMDR.all = 0x0020;
            I2cMsgOut1.MsgStatus=I2C_MSGSTAT_SEND_WITHSTOP;
            I2cMsgIn1.MsgStatus=I2C_MSGSTAT_SEND_NOSTOP;
            I2CA_Init();
  //          if (b>3623) {fail();}
           // I2caRegs.I2CISRC.all=5;
  //       }
 //        else
 //        {
  //          fail();
  //       }

      }

    }
      }
   }  // end of stop condition detected

   // Interrupt source = Register Access Ready
   // This interrupt is used to determine when the EEPROM address setup portion of the
   // read data communication is complete. Since no stop bit is commanded, this flag
   // tells us when the message has been sent instead of the SCD flag. If a NACK is
   // received, clear the NACK bit and command a stop. Otherwise, move on to the read
   // data portion of the communication.
   else if(IntSource == I2C_ARDY_ISRC)
   {
      if(I2caRegs.I2CSTR.bit.NACK == 1)
      {
         I2caRegs.I2CMDR.bit.STP = 1;
         I2caRegs.I2CSTR.all = I2C_CLR_NACK_BIT;
      }
      else if(CurrentMsgPtr->MsgStatus == I2C_MSGSTAT_SEND_NOSTOP_BUSY)
      {
         CurrentMsgPtr->MsgStatus = I2C_MSGSTAT_RESTART;
      }
   }  // end of register access ready

   else
   {
      // Generate some error due to invalid interrupt source
      asm("   ESTOP0");
   }

   // Enable future I2C (PIE Group 8) interrupts
   PieCtrlRegs.PIEACK.all = PIEACK_GROUP8;
  }

for(;;)
   {  //I2caRegs.I2CMDR.all = 0x0020;
      //////////////////////////////////
      // Write data to EEPROM section //
      //////////////////////////////////
//      for (i=0;i<I2C_NUMBYTES;i++)
//     {  b=i+16*a;
//       I2cMsgOut1.MsgBuffer[i]=sdata[b];
//      }
      // Check the outgoing message to see if it should be sent.
      // In this example it is initialized to send with a stop bit.
      if(I2cMsgOut1.MsgStatus == I2C_MSGSTAT_SEND_WITHSTOP)
      {
         Error = I2CA_WriteData(&I2cMsgOut1);
         // If communication is correctly initiated, set msg status to busy
         // and update CurrentMsgPtr for the interrupt service routine.
         // Otherwise, do nothing and try again next loop. Once message is
         // initiated, the I2C interrupts will handle the rest. Search for
         // ICINTR1A_ISR in the i2c_eeprom_isr.c file.
         if (Error == I2C_SUCCESS)
         {
            CurrentMsgPtr = &I2cMsgOut1;
            I2cMsgOut1.MsgStatus = I2C_MSGSTAT_WRITE_BUSY;
         }
      }  // end of write section

      ///////////////////////////////////
      // Read data from EEPROM section //
      ///////////////////////////////////

      // Check outgoing message status. Bypass read section if status is
      // not inactive.
      if (I2cMsgOut1.MsgStatus == I2C_MSGSTAT_INACTIVE)
      {
         // Check incoming message status.
         if(I2cMsgIn1.MsgStatus == I2C_MSGSTAT_SEND_NOSTOP)
         {
            // EEPROM address setup portion
            while(I2CA_ReadData(&I2cMsgIn1) != I2C_SUCCESS)
            {
               // Maybe setup an attempt counter to break an infinite while
               // loop. The EEPROM will send back a NACK while it is performing
               // a write operation. Even though the write communique is
               // complete at this point, the EEPROM could still be busy
               // programming the data. Therefore, multiple attempts are
               // necessary.
            }
            // Update current message pointer and message status
            CurrentMsgPtr = &I2cMsgIn1;
            I2cMsgIn1.MsgStatus = I2C_MSGSTAT_SEND_NOSTOP_BUSY;
         }

         // Once message has progressed past setting up the internal address
         // of the EEPROM, send a restart to read the data bytes from the
         // EEPROM. Complete the communique with a stop bit. MsgStatus is
         // updated in the interrupt service routine.
         else if(I2cMsgIn1.MsgStatus == I2C_MSGSTAT_RESTART)
         {
            // Read data portion
            while(I2CA_ReadData(&I2cMsgIn1) != I2C_SUCCESS)
            {
               // Maybe setup an attempt counter to break an infinite while
               // loop.
            }
            // Update current message pointer and message status
            CurrentMsgPtr = &I2cMsgIn1;
            I2cMsgIn1.MsgStatus = I2C_MSGSTAT_READ_BUSY;
         }
      }  // end of read section
    //I2caRegs.I2CMDR.all = 0x0020;
    //I2CA_Init();
   }

 

此外我想请问一下,如果是这样发送的话,后一次发送的数据是覆盖前一次的,还是在发送到新的数据空间?

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