thermal: imx: update to new formula according to NXP AN5215

According to an application note from 03/2017 there is an updated formula to calculate the temperature that better matches reality. This is implemented here. While updating move the magic constants from cpp defines which are far above the explaining formula to constants in the code just under the explaining comment. Reviewed-by: Leonard Crestez <leonard.crestez@nxp.com> Signed-off-by: Uwe Kleine-König <u.kleine-koenig@pengutronix.de> Signed-off-by: Eduardo Valentin <edubezval@gmail.com>

thermal: imx: update to new formula according to NXP AN5215
According to an application note from 03/2017 there is an updated formula to calculate the temperature that better matches reality. This is implemented here. While updating move the magic constants from cpp defines which are far above the explaining formula to constants in the code just under the explaining comment. Reviewed-by: Leonard Crestez <leonard.crestez@nxp.com> Signed-off-by: Uwe Kleine-König <u.kleine-koenig@pengutronix.de> Signed-off-by: Eduardo Valentin <edubezval@gmail.com>
4e5f61ca · Uwe Kleine-König · Eduardo Valentin · 339d7492 · 4e5f61ca
Commit 4e5f61ca authored Nov 30, 2017 by Uwe Kleine-König Committed by Eduardo Valentin Jan 01, 2018
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drivers/thermal/imx_thermal.c drivers/thermal/imx_thermal.c +11 -15

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--- a/drivers/thermal/imx_thermal.c
+++ b/drivers/thermal/imx_thermal.c
@@ -70,10 +70,6 @@ enum imx_thermal_trip {
 #define IMX_POLLING_DELAY		2000 /* millisecond */
 #define IMX_PASSIVE_DELAY		1000

-#define FACTOR0				10000000
-#define FACTOR1				15976
-#define FACTOR2				4297157
-
 #define TEMPMON_IMX6Q			1
 #define TEMPMON_IMX6SX			2

@@ -350,7 +346,7 @@ static struct thermal_zone_device_ops imx_tz_ops = {
 static int imx_init_calib(struct platform_device *pdev, u32 ocotp_ana1)
 {
 	struct imx_thermal_data *data = platform_get_drvdata(pdev);
-	int t1, n1;
+	int n1;
 	u64 temp64;

 	if (ocotp_ana1 == 0 || ocotp_ana1 == ~0) {
@@ -365,25 +361,25 @@ static int imx_init_calib(struct platform_device *pdev, u32 ocotp_ana1)
 	 * To find the actual temperature T, the following formula has to be used
 	 * when reading value n from the sensor:
 	 *
-	 * T = T1 + (N - N1) / (0.4297157 - 0.0015976 * N1) °C
-	 *   = [T1 - N1 / (0.4297157 - 0.0015976 * N1) °C] + N / (0.4297157 - 0.0015976 * N1) °C
-	 *   = [T1 + N1 / (0.0015976 * N1 - 0.4297157) °C] - N / (0.0015976 * N1 - 0.4297157) °C
+	 * T = T1 + (N - N1) / (0.4148468 - 0.0015423 * N1) °C + 3.580661 °C
+	 *   = [T1' - N1 / (0.4148468 - 0.0015423 * N1) °C] + N / (0.4148468 - 0.0015423 * N1) °C
+	 *   = [T1' + N1 / (0.0015423 * N1 - 0.4148468) °C] - N / (0.0015423 * N1 - 0.4148468) °C
 	 *   = c2 - c1 * N
 	 *
 	 * with
 	 *
-	 *   c1 = 1 / (0.0015976 * N1 - 0.4297157) °C
-	 *   c2 = T1 + N1 / (0.0015976 * N1 - 0.4297157) °C
-	 *      = T1 + N1 * C1
+	 *  T1' = 28.580661 °C
+	 *   c1 = 1 / (0.0015423 * N1 - 0.4297157) °C
+	 *   c2 = T1' + N1 / (0.0015423 * N1 - 0.4148468) °C
+	 *      = T1' + N1 * c1
 	 */
 	n1 = ocotp_ana1 >> 20;
-	t1 = 25; /* °C */

-	temp64 = FACTOR0; /* 10^7 for FACTOR1 and FACTOR2 */
+	temp64 = 10000000; /* use 10^7 as fixed point constant for values in formula */
 	temp64 *= 1000; /* to get result in °mC */
-	do_div(temp64, FACTOR1 * n1 - FACTOR2);
+	do_div(temp64, 15423 * n1 - 4148468);
 	data->c1 = temp64;
-	data->c2 = n1 * data->c1 + 1000 * t1;
+	data->c2 = n1 * data->c1 + 28581;

 	return 0;
 }