📄 si57x_freqprogfirmware_withf300.c
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// - Timer2 pre-loaded to overflow after RESET_DELAY_TIME
//
void Timer2_Init (void){
TMR2CN = 0x00; // Timer2 configured for 16-bit auto-
// reload, low-byte interrupt disabled
// Timer2 uses SYSCLK/12 (see CKCON)
TMR2RLL = 0x5f;
TMR2RLH = 0x88;
TMR2L = TMR2RLL;
TMR2H = TMR2RLH;
TF2LEN = 0;
TF2H = 0;
TF2L = 0;
ET2 = 1; // Timer2 interrupt enable
// timer 2 will be turned on after the reset in the frequency programming
}
//-----------------------------------------------------------------------------
// Port_Initializer
//-----------------------------------------------------------------------------
//
// Return Value : None
// Parameters : None
//
// Configure the Crossbar and GPIO ports.
//
// P0.0 digital open-drain SMBus SDA
// P0.1 digital open-drain SMBus SCL
// P0.2 digital push-pull LED if in DEBUG mode
// P0.3 digital push-pull alert for reset delay if in DEBUG mode
//
// all other port pins unused
//
// Note: If the SMBus is moved, the SCL and SDA sbit declarations must also
// be adjusted.
//
void Port_Initializer (void)
{
XBR1 = 0x04; // Enable SMBus
XBR2 = 0xC0; //C0 to disable weak pull-ups 0x40; // Enable crossbar and weak pull-ups
}
//-----------------------------------------------------------------------------
// SMBus Interrupt Service Routine (ISR)
//-----------------------------------------------------------------------------
//
// SMBus ISR state machine
// - Master only implementation - no slave or arbitration states defined
// - All incoming data is written starting at the global pointer <pSMB_DATA_IN>
// - All outgoing data is read from the global pointer <pSMB_DATA_OUT>
//
void SMBus_ISR (void) interrupt 6
{
bit FAIL = 0; // Used by the ISR to flag failed
// transfers
static char i; // Used by the ISR to count the
// number of data bytes sent or
// received
static bit SEND_START = 0; // Send a start
switch (SMB0CN & 0xF0) // Status vector
{
// Master Transmitter/Receiver: START condition transmitted.
case SMB_MTSTA:
SMB0DAT = TARGET; // Load address of the target slave
SMB0DAT &= 0xFE; // Clear the LSB of the address for the
// R/W bit
SMB0DAT |= SMB_RW; // Load R/W bit
STA = 0; // Manually clear START bit
i = 0; // Reset data byte counter
break;
// Master Transmitter: Data byte (or Slave Address) transmitted
case SMB_MTDB:
if (ACK) // Slave Address or Data Byte
{ // Acknowledged?
if (SEND_START)
{
STA = 1;
SEND_START = 0;
break;
}
if(SMB_SENDWORDADDR) // Are we sending the word address?
{
SMB_SENDWORDADDR = 0; // Clear flag
SMB0DAT = WORD_ADDR; // Send word address
if (SMB_RANDOMREAD)
{
SEND_START = 1; // Send a START after the next ACK cycle
SMB_RW = READ;
}
break;
}
if (SMB_RW==WRITE) // Is this transfer a WRITE?
{
if (i < SMB_DATA_LEN) // Is there data to send?
{
// send data byte
SMB0DAT = *pSMB_DATA_OUT;
// increment data out pointer
pSMB_DATA_OUT++;
// increment number of bytes sent
i++;
}
else
{
STO = 1; // Set STO to terminte transfer
SMB_BUSY = 0; // Clear software busy flag
}
}
else {} // If this transfer is a READ,
// then take no action. Slave
// address was transmitted. A
// separate 'case' is defined
// for data byte recieved.
}
else // If slave NACK,
{
if(SMB_ACKPOLL)
{
STA = 1; // Restart transfer
}
else
{
FAIL = 1; // Indicate failed transfer
} // and handle at end of ISR
}
break;
// Master Receiver: byte received
case SMB_MRDB:
if ( i < SMB_DATA_LEN ) // Is there any data remaining?
{
*pSMB_DATA_IN = SMB0DAT; // Store received byte
pSMB_DATA_IN++; // Increment data in pointer
i++; // Increment number of bytes received
ACK = 1; // Set ACK bit (may be cleared later
// in the code)
}
if (i == SMB_DATA_LEN) // This is the last byte
{
SMB_BUSY = 0; // Free SMBus interface
ACK = 0; // Send NACK to indicate last byte
// of this transfer
STO = 1; // Send STOP to terminate transfer
}
break;
default:
FAIL = 1; // Indicate failed transfer
// and handle at end of ISR
break;
}
if (FAIL) // If the transfer failed,
{
SMB0CF &= ~0x80; // Reset communication
SMB0CF |= 0x80;
STA = 0;
STO = 0;
ACK = 0;
SMB_BUSY = 0; // Free SMBus
FAIL = 0;
}
SI = 0; // Clear interrupt flag
}
//-----------------------------------------------------------------------------
// Support Functions
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------
// I2C_ByteWrite
//-----------------------------------------------------------------------------
//
// Return Value : None
// Parameters :
// 1) unsigned char addr - address to write in the device via I2C
// range is full range of character: 0 to 255
//
// 2) unsigned char dat - data to write to the address <addr> in the device
// range is full range of character: 0 to 255
//
// This function writes the value in <dat> to location <addr> in the device
// then polls the device until the write is complete.
//
void I2C_ByteWrite(unsigned char addr, unsigned char dat)
{
#ifdef USE_I2C
while (SMB_BUSY); // Wait for SMBus to be free.
SMB_BUSY = 1; // Claim SMBus (set to busy)
// Set SMBus ISR parameters
TARGET = DEVICE_ADDR; // Set target slave address
SMB_RW = WRITE; // Mark next transfer as a write
SMB_SENDWORDADDR = 1; // Send Word Address after Slave Address
SMB_RANDOMREAD = 0; // Do not send a START signal after
// the word address
SMB_ACKPOLL = 1; // Enable Acknowledge Polling (The ISR
// will automatically restart the
// transfer if the slave does not
// acknoledge its address.
// Specify the Outgoing Data
WORD_ADDR = addr; // Set the target address in the
// device's internal memory space
SMB_SINGLEBYTE_OUT = dat; // Store <dat> (local variable) in a
// global variable so the ISR can read
// it after this function exits
// The outgoing data pointer points to the <dat> variable
pSMB_DATA_OUT = &SMB_SINGLEBYTE_OUT;
SMB_DATA_LEN = 1; // Specify to ISR that the next transfer
// will contain one data byte
// Initiate SMBus Transfer
STA = 1;
#endif
}
//-----------------------------------------------------------------------------
// I2C_ByteRead
//-----------------------------------------------------------------------------
//
// Return Value :
// 1) unsigned char data - data read from address <addr> in the device
// range is full range of character: 0 to 255
//
// Parameters :
// 1) unsigned char addr - address to read data from the device
// range is full range of character: 0 to 255
//
// This function returns a single byte from location <addr> in the device then
// polls the <SMB_BUSY> flag until the read is complete.
//
unsigned char I2C_ByteRead(unsigned char addr)
{
unsigned char retval; // Holds the return value
retval = 0;
#ifdef USE_I2C
while (SMB_BUSY); // Wait for SMBus to be free.
SMB_BUSY = 1; // Claim SMBus (set to busy)
// Set SMBus ISR parameters
TARGET = DEVICE_ADDR; // Set target slave address
SMB_RW = WRITE; // A random read starts as a write
// then changes to a read after
// the repeated start is sent. The
// ISR handles this switchover if
// the <SMB_RANDOMREAD> bit is set.
SMB_SENDWORDADDR = 1; // Send Word Address after Slave Address
SMB_RANDOMREAD = 1; // Send a START after the word address
SMB_ACKPOLL = 1; // Enable Acknowledge Polling
// Specify the Incoming Data
WORD_ADDR = addr; // Set the target address in the
// devices's internal memory space
pSMB_DATA_IN = &retval; // The incoming data pointer points to
// the <retval> variable.
SMB_DATA_LEN = 1; // Specify to ISR that the next transfer
// will contain one data byte
// Initiate SMBus Transfer
STA = 1;
while(SMB_BUSY); // Wait until data is read
#endif
return retval;
}
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