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/* Copyright 2015 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* NCP15WB thermistor module for Chrome EC */
#include "common.h"
#include "temp_sensor/thermistor.h"
#include "util.h"
/*
* ADC-to-temp conversion assumes recommended thermistor / resistor
* configuration (NCP15WB* / 24.9K) with a 10-bit ADC.
* For 50C through 100C, use linear interpolation from discreet points
* in table below. For temps < 50C, use a simplified linear function.
*/
#define ADC_DISCREET_RANGE_START_TEMP 50
/* 10 bit ADC result corresponding to START_TEMP */
#define ADC_DISCREET_RANGE_START_RESULT 407
#define ADC_DISCREET_RANGE_LIMIT_TEMP 100
/* 10 bit ADC result corresponding to LIMIT_TEMP */
#define ADC_DISCREET_RANGE_LIMIT_RESULT 107
/* Table entries in steppings of 5C */
#define ADC_DISCREET_RANGE_STEP 5
/* Discreet range ADC results (9 bit) per temperature, in 5 degree steps */
static const uint8_t adc_result[] = {
203, /* 50 C */
178, /* 55 C */
157, /* 60 C */
138, /* 65 C */
121, /* 70 C */
106, /* 75 C */
93, /* 80 C */
81, /* 85 C */
70, /* 90 C */
61, /* 95 C */
53, /* 100 C */
};
/*
* From 20C (reasonable lower limit of temperatures we care about accuracy)
* to 50C, the temperature curve is roughly linear, so we don't need to include
* data points in our table.
*/
#define adc_to_temp(result) (ADC_DISCREET_RANGE_START_TEMP - \
(((result) - ADC_DISCREET_RANGE_START_RESULT) * 3 + 16) / 32)
/* Convert ADC result (10 bit) to temperature in celsius */
int ncp15wb_calculate_temp(uint16_t adc)
{
int temp;
int head, tail, mid;
uint8_t delta, step;
/* Is ADC result in linear range? */
if (adc >= ADC_DISCREET_RANGE_START_RESULT)
temp = adc_to_temp(adc);
/* Hotter than our discreet range limit? */
else if (adc <= ADC_DISCREET_RANGE_LIMIT_RESULT)
temp = ADC_DISCREET_RANGE_LIMIT_TEMP;
/* We're in the discreet range */
else {
/* Table uses 9 bit ADC values */
adc /= 2;
/* Binary search to find proper table entry */
head = 0;
tail = ARRAY_SIZE(adc_result) - 1;
while (head != tail) {
mid = (head + tail) / 2;
if (adc_result[mid] >= adc &&
adc_result[mid+1] < adc)
break;
if (adc_result[mid] > adc)
head = mid + 1;
else
tail = mid;
}
/* Now fit between table entries using linear interpolation. */
if (head != tail) {
delta = adc_result[mid] - adc_result[mid + 1];
step = ((adc_result[mid] - adc) *
ADC_DISCREET_RANGE_STEP + delta / 2) / delta;
} else {
/* Edge case where adc = max */
mid = head;
step = 0;
}
temp = ADC_DISCREET_RANGE_START_TEMP +
ADC_DISCREET_RANGE_STEP * mid + step;
}
return temp;
}
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