Manual

AN118

20 AN118REV2

case 0xEE: /* System-Gain Cal on Setup 14 */

case 0xF6: /* System-Gain Cal on Setup 15 */

case 0xFE: /* System-Gain Cal on Setup 16 */

COMM = 0x00; /* Turn on LED */

if(mode == 1) P1 = 0xF4; /*Clear CSb*/

transfer_byte(command);

do {/* Nothing*/} while (SDO !=0); /* Wait for cal to Complete */

if(mode == 1) P1 = 0xF5; /*Set CSb*/

COMM = 0x01; /* Turn off LED */

break;

/******************************/

/* Variable # of Normal Conversions */

/******************************/

case 0x1F:

COMM = 0x00; /* Turn on LED */

sample_index = RXSER(); /* How many Conversions? */

temp = RXSER(); /* What conversion channel? */

decode_sample_index();

/*Initiate Continuous Conversion*/

if(mode == 1) P1 = 0xF4; /* Clear CSb */

transfer_byte(temp); /* Initiate Single conversion */

for (j=0; j<sample_size; j++) {

do { /* Nothing*/} while (SDO !=0); /* Wait for SDO to fall */

transfer_byte(0x00); /* Send all zeros */

high_byte = receive_byte();/* Receive Bytes */

mid_byte = receive_byte();

low_byte = receive_byte();

TXSER(low_byte); /* Return bytes to PC */

TXSER(mid_byte);

TXSER(high_byte);

}

transfer_byte(0xFF); /* Send all zeros */

high_byte = receive_byte(); /* Receive last conversion */

mid_byte = receive_byte();

low_byte = receive_byte();

if(mode == 1) P1 = 0xF5; /* Set CSb */

COMM = 0x01; /* Turn off LED */

break;

/************************************/

/* Variable # of Offset or Gain Calibrations */

/************************************/

case 0x2F:

COMM = 0x00; /* Turn on LED */

sample_index = RXSER(); /* How many Cals? */

temp = RXSER(); /* What type of Cal? */