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420bd135afbddfd604d30b40683340d4c70debd8
chopstx/example-fs-bb48/adc_kl27z.c
NIIBE Yutaka 420bd135af Adding ADC example for FS-BB48
2016-05-11 12:34:17 +09:00

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/*
* adc_kl27z.c - ADC driver for KL27Z
* In this ADC driver, there are NeuG specific parts.
* You need to modify to use this as generic ADC driver.
*
* Copyright (C) 2016 Flying Stone Technology
* Author: NIIBE Yutaka <gniibe@fsij.org>
*
* This file is a part of Chopstx, a thread library for embedded.
*
* Chopstx is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Chopstx is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* As additional permission under GNU GPL version 3 section 7, you may
* distribute non-source form of the Program without the copy of the
* GNU GPL normally required by section 4, provided you inform the
* receipents of GNU GPL by a written offer.
*
*/
#include <stdint.h>
#include <stdlib.h>
#include <chopstx.h>
#include "kl_sim.h"
#define INTR_REQ_ADC 15
struct ADC {
volatile uint32_t SC1[2];/* Status and Control Registers 1 */
volatile uint32_t CFG1; /* Configuration Register 1 */
volatile uint32_t CFG2; /* Configuration Register 2 */
volatile uint32_t R[2]; /* Data Result Register */
/* Compare Value Registers 1, 2 */
volatile uint32_t CV1;
volatile uint32_t CV2;
volatile uint32_t SC2; /* Status and Control Register 2 */
volatile uint32_t SC3; /* Status and Control Register 3 */
volatile uint32_t OFS; /* Offset Correction Register */
volatile uint32_t PG; /* Plus-Side Gain Register */
volatile uint32_t MG; /* Minus-Side Gain Register */
/* Plus-Side General Calibration Value Registers */
volatile uint32_t CLPD;
volatile uint32_t CLPS;
volatile uint32_t CLP4;
volatile uint32_t CLP3;
volatile uint32_t CLP2;
volatile uint32_t CLP1;
volatile uint32_t CLP0;
uint32_t rsvd0;
/* Minus-Side General Calibration Value Registers */
volatile uint32_t CLMD;
volatile uint32_t CLMS;
volatile uint32_t CLM4;
volatile uint32_t CLM3;
volatile uint32_t CLM2;
volatile uint32_t CLM1;
volatile uint32_t CLM0;
};
static struct ADC *const ADC = (struct ADC *const)0x4003B000;
/* SC1 */
#define ADC_SC1_DIFF (1 << 5)
#define ADC_SC1_AIEN (1 << 6)
#define ADC_SC1_COCO (1 << 7)
#define ADC_SC1_TEMPSENSOR 26
#define ADC_SC1_BANDGAP 27
#define ADC_SC1_ADCSTOP 31
/* CFG1 */
#define ADC_CLOCK_SOURCE_ASYNCH 3
#define ADC_RESOLUTION_16BIT 3
#define ADC_ADLSMP_SHORT 0
#define ADC_ADLSMP_LONG 1
#define ADC_ADIV_1 0
#define ADC_ADIV_8 3
#define ADC_ADLPC_NORMAL 1
/**/
#define ADC_CLOCK_SOURCE ADC_CLOCK_SOURCE_ASYNCH
#define ADC_MODE (ADC_RESOLUTION_16BIT << 2)
#define ADC_ADLSMP (ADC_ADLSMP_SHORT << 4)
#define ADC_ADIV (ADC_ADIV_8 << 5)
#define ADC_ADLPC (ADC_ADLPC_NORMAL << 7)
/* CFG2 */
#define ADC_ADLSTS_DEFAULT 0 /* 24 cycles if CFG1.ADLSMP=1, 4 if not. */
#define ADC_ADHSC_NORMAL 0
#define ADC_ADHSC_HIGHSPEED 1
#define ADC_ADACK_ENABLE 1
#define ADC_ADACK_DISABLE 0
#define ADC_MUXSEL_A 0
#define ADC_MUXSEL_B 1
/**/
#define ADC_ADLSTS ADC_ADLSTS_DEFAULT
#define ADC_ADHSC (ADC_ADHSC_NORMAL << 2)
#define ADC_ADACKEN (ADC_ADACK_ENABLE << 3)
#define ADC_MUXSEL (ADC_MUXSEL_A << 4)
/* SC2 */
#define ADC_SC2_ADTRG (1 << 6) /* For hardware trigger */
#define ADC_SC2_ACFE (1 << 5)
#define ADC_SC2_ACFGT (1 << 4)
#define ADC_SC2_ACREN (1 << 3)
#define ADC_SC2_DMAEN (1 << 2)
#define ADC_SC2_REFSEL_DEFAULT 0
/* SC3 */
#define ADC_SC3_CAL (1 << 7)
#define ADC_SC3_CALF (1 << 6)
#define ADC_SC3_ADCO (1 << 3)
#define ADC_SC3_AVGE (1 << 2)
#define ADC_SC3_AVGS11 0x03
/*
* Initialize ADC module, do calibration.
* This is called by MAIN, only once, before creating any other threads.
*/
int
adc_init (void)
{
uint32_t v;
/* Enable ADC0 clock. */
SIM->SCGC6 |= (1 << 27);
ADC->CFG1 = ADC_CLOCK_SOURCE | ADC_MODE | ADC_ADLSMP | ADC_ADIV | ADC_ADLPC;
ADC->CFG2 = ADC_ADLSTS | ADC_ADHSC | ADC_ADACKEN | ADC_MUXSEL;
ADC->SC2 = 0;
ADC->SC3 = ADC_SC3_CAL | ADC_SC3_CALF | ADC_SC3_AVGE | ADC_SC3_AVGS11;
ADC->SC1[0] = ADC_SC1_TEMPSENSOR;
/* Wait ADC completion */
while ((ADC->SC1[0] & ADC_SC1_COCO) == 0)
if ((ADC->SC3 & ADC_SC3_CALF) != 0)
/* Calibration failure */
return -1;
if ((ADC->SC3 & ADC_SC3_CALF) != 0)
/* Calibration failure */
return -1;
/* Configure PG by the calibration values. */
v = ADC->CLP0 + ADC->CLP1 + ADC->CLP2 + ADC->CLP3 + ADC->CLP4 + ADC->CLPS;
ADC->PG = 0x8000 | (v >> 1);
/* Configure MG by the calibration values. */
v = ADC->CLM0 + ADC->CLM1 + ADC->CLM2 + ADC->CLM3 + ADC->CLM4 + ADC->CLMS;
ADC->MG = 0x8000 | (v >> 1);
return 0;
}
/*
* Start using ADC.
*/
void
adc_start (void)
{
ADC->CFG1 = ADC_CLOCK_SOURCE | ADC_MODE | ADC_ADLSMP | ADC_ADIV | ADC_ADLPC;
ADC->CFG2 = ADC_ADLSTS | ADC_ADHSC | ADC_ADACKEN | ADC_MUXSEL;
ADC->SC2 = 0;
ADC->SC3 = 0;
}
/*
* Buffer to save ADC data.
*/
uint32_t adc_buf[64];
/*
* Kick getting data for COUNT times.
* Data will be saved in ADC_BUF starting at OFFSET.
*/
void
adc_start_conversion (int offset, int count)
{
ADC->SC1[0] = /*ADC_SC1_AIEN*/0 | ADC_SC1_TEMPSENSOR;
}
static void
adc_stop_conversion (void)
{
ADC->SC1[0] = ADC_SC1_ADCSTOP;
}
/*
* Stop using ADC.
*/
void
adc_stop (void)
{
SIM->SCGC6 &= ~(1 << 27);
}
/*
* Return 0 on success.
* Return 1 on error.
*/
int
adc_wait_completion (chopstx_intr_t *intr)
{
/* Wait ADC completion */
while ((ADC->SC1[0] & ADC_SC1_COCO) == 0)
;
adc_buf[0] = ADC->R[0];
adc_stop_conversion ();
return 0;
}
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