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@@ -32,7 +32,7 @@
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/*
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* Device code
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*/
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-#define DTT_I2C_DEV_CODE 0x48 /* Dallas Semi's DS1621 */
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+#define DTT_I2C_DEV_CODE 0x48 /* Dallas Semi's DS1621 */
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#define DTT_READ_TEMP 0xAA
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#define DTT_READ_COUNTER 0xA8
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#define DTT_READ_SLOPE 0xA9
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@@ -47,8 +47,8 @@
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*/
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#define DTT_CONFIG_1SHOT 0x01
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#define DTT_CONFIG_POLARITY 0x02
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-#define DTT_CONFIG_R0 0x04 /* ds1631 only */
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-#define DTT_CONFIG_R1 0x08 /* ds1631 only */
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+#define DTT_CONFIG_R0 0x04 /* ds1631 only */
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+#define DTT_CONFIG_R1 0x08 /* ds1631 only */
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#define DTT_CONFIG_NVB 0x10
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#define DTT_CONFIG_TLF 0x20
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#define DTT_CONFIG_THF 0x40
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@@ -57,149 +57,132 @@
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int dtt_read(int sensor, int reg)
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{
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- int dlen;
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- uchar data[2];
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-
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- /*
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- * Calculate sensor address and command.
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- *
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- */
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- sensor = DTT_I2C_DEV_CODE + (sensor & 0x07); /* Calculate addr of ds1621*/
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-
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- /*
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- * Prepare to handle 2 byte result.
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- */
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- if ((reg == DTT_READ_TEMP) ||
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- (reg == DTT_TEMP_HIGH) || (reg == DTT_TEMP_LOW))
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- dlen = 2;
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- else
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- dlen = 1;
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-
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- /*
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- * Now try to read the register.
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- */
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- if (i2c_read(sensor, reg, 1, data, dlen) != 0)
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- return 1;
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-
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- /*
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- * Handle 2 byte result.
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- */
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- if (dlen == 2)
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- return ((int)((short)data[1] + (((short)data[0]) << 8)));
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-
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- return (int)data[0];
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-} /* dtt_read() */
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+ int dlen;
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+ uchar data[2];
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+
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+ /* Calculate sensor address and command */
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+ sensor = DTT_I2C_DEV_CODE + (sensor & 0x07); /* Calculate addr of ds1621*/
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+
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+ /* Prepare to handle 2 byte result */
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+ switch(reg) {
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+ case DTT_READ_TEMP:
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+ case DTT_TEMP_HIGH:
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+ case DTT_TEMP_LOW:
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+ dlen = 2;
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+ break;
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+ default:
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+ dlen = 1;
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+ }
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+
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+ /* Now try to read the register */
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+ if (i2c_read(sensor, reg, 1, data, dlen) != 0)
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+ return 1;
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+
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+ /* Handle 2 byte result */
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+ if (dlen == 2)
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+ return ((int)((short)data[1] + (((short)data[0]) << 8)));
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+
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+ return (int)data[0];
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+}
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int dtt_write(int sensor, int reg, int val)
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{
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- int dlen;
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- uchar data[2];
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-
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- /*
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- * Calculate sensor address and register.
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- *
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- */
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- sensor = DTT_I2C_DEV_CODE + (sensor & 0x07);
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-
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- /*
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- * Handle various data sizes.
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- */
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- if ((reg == DTT_READ_TEMP) ||
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- (reg == DTT_TEMP_HIGH) || (reg == DTT_TEMP_LOW)) {
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- dlen = 2;
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- data[0] = (char)((val >> 8) & 0xff); /* MSB first */
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- data[1] = (char)(val & 0xff);
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- }
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- else if ((reg == DTT_WRITE_START_CONV) || (reg == DTT_WRITE_STOP_CONV)) {
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- dlen = 0;
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- data[0] = (char)0;
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- data[1] = (char)0;
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- }
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- else {
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- dlen = 1;
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- data[0] = (char)(val & 0xff);
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- }
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-
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- /*
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- * Write value to device.
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- */
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- if (i2c_write(sensor, reg, 1, data, dlen) != 0)
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- return 1;
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-
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- /*
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- * Poll NV memory busy bit in case write was to register stored in EEPROM
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- */
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- while(i2c_reg_read(sensor, DTT_CONFIG) & DTT_CONFIG_NVB)
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- ;
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-
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- return 0;
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-} /* dtt_write() */
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+ int dlen;
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+ uchar data[2];
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+
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+ /* Calculate sensor address and register */
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+ sensor = DTT_I2C_DEV_CODE + (sensor & 0x07);
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+
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+ /* Handle various data sizes. */
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+ switch(reg) {
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+ case DTT_READ_TEMP:
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+ case DTT_TEMP_HIGH:
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+ case DTT_TEMP_LOW:
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+ dlen = 2;
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+ data[0] = (char)((val >> 8) & 0xff); /* MSB first */
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+ data[1] = (char)(val & 0xff);
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+ break;
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+ case DTT_WRITE_START_CONV:
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+ case DTT_WRITE_STOP_CONV:
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+ dlen = 0;
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+ data[0] = (char)0;
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+ data[1] = (char)0;
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+ break;
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+ default:
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+ dlen = 1;
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+ data[0] = (char)(val & 0xff);
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+ }
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+
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+ /* Write value to device */
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+ if (i2c_write(sensor, reg, 1, data, dlen) != 0)
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+ return 1;
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+
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+ /* Poll NV memory busy bit in case write was to register stored in EEPROM */
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+ while(i2c_reg_read(sensor, DTT_CONFIG) & DTT_CONFIG_NVB)
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+ ;
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+
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+ return 0;
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+}
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static int _dtt_init(int sensor)
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{
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- int val;
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-
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- /*
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- * Setup High Temp.
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- */
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- val = ((CONFIG_SYS_DTT_MAX_TEMP * 2) << 7) & 0xff80;
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- if (dtt_write(sensor, DTT_TEMP_HIGH, val) != 0)
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- return 1;
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-
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- /*
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- * Setup Low Temp - hysteresis.
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- */
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- val = (((CONFIG_SYS_DTT_MAX_TEMP - CONFIG_SYS_DTT_HYSTERESIS) * 2) << 7) & 0xff80;
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- if (dtt_write(sensor, DTT_TEMP_LOW, val) != 0)
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- return 1;
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-
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- /*
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- * Setup configuraton register
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- *
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- * Clear THF & TLF, Reserved = 1, Polarity = Active Low, One Shot = YES
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- *
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- * We run in polled mode, since there isn't any way to know if this
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- * lousy device is ready to provide temperature readings on power up.
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- */
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- val = 0x9;
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- if (dtt_write(sensor, DTT_CONFIG, val) != 0)
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- return 1;
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-
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- return 0;
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-} /* _dtt_init() */
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+ int val;
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+
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+ /* Setup High Temp */
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+ val = ((CONFIG_SYS_DTT_MAX_TEMP * 2) << 7) & 0xff80;
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+ if (dtt_write(sensor, DTT_TEMP_HIGH, val) != 0)
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+ return 1;
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+
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+ /* Setup Low Temp - hysteresis */
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+ val = (((CONFIG_SYS_DTT_MAX_TEMP - CONFIG_SYS_DTT_HYSTERESIS) * 2) << 7) & 0xff80;
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+ if (dtt_write(sensor, DTT_TEMP_LOW, val) != 0)
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+ return 1;
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+
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+ /*
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+ * Setup configuraton register
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+ *
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+ * Clear THF & TLF, Reserved = 1, Polarity = Active Low, One Shot = YES
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+ *
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+ * We run in polled mode, since there isn't any way to know if this
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+ * lousy device is ready to provide temperature readings on power up.
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+ */
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+ val = 0x9;
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+ if (dtt_write(sensor, DTT_CONFIG, val) != 0)
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+ return 1;
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+
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+ return 0;
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+}
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int dtt_init (void)
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{
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- int i;
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- unsigned char sensors[] = CONFIG_DTT_SENSORS;
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+ int i;
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+ unsigned char sensors[] = CONFIG_DTT_SENSORS;
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- for (i = 0; i < sizeof(sensors); i++) {
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- if (_dtt_init(sensors[i]) != 0)
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- printf("DTT%d: FAILED\n", i+1);
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- else
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- printf("DTT%d: %i C\n", i+1, dtt_get_temp(sensors[i]));
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- }
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+ for (i = 0; i < sizeof(sensors); i++) {
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+ if (_dtt_init(sensors[i]) != 0)
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+ printf("DTT%d: FAILED\n", i + 1);
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+ else
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+ printf("DTT%d: %i C\n", i + 1, dtt_get_temp(sensors[i]));
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+ }
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- return (0);
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-} /* dtt_init() */
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+ return (0);
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+}
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int dtt_get_temp(int sensor)
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{
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- int i;
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-
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- /*
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- * Start a conversion, may take up to 1 second.
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- */
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- dtt_write(sensor, DTT_WRITE_START_CONV, 0);
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- for (i = 0; i <= 10; i++) {
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- udelay(100000);
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- if (dtt_read(sensor, DTT_CONFIG) & DTT_CONFIG_DONE)
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- break;
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- }
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-
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- return (dtt_read(sensor, DTT_READ_TEMP) / 256);
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-} /* dtt_get_temp() */
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+ int i;
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+
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+ /* Start a conversion, may take up to 1 second. */
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+ dtt_write(sensor, DTT_WRITE_START_CONV, 0);
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+ for (i = 0; i <= 10; i++) {
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+ udelay(100000);
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+ if (dtt_read(sensor, DTT_CONFIG) & DTT_CONFIG_DONE)
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+ break;
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+ }
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+
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+ return (dtt_read(sensor, DTT_READ_TEMP) / 256);
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+}
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Peter Tyser