samd21: Add support for ADC

Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
This commit is contained in:
Kevin O'Connor 2018-12-22 00:23:12 -05:00
parent d7b0a7e961
commit 2a74ffdb95
4 changed files with 131 additions and 0 deletions

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@ -6,6 +6,7 @@ config SAMD_SELECT
bool bool
default y default y
select HAVE_GPIO select HAVE_GPIO
select HAVE_GPIO_ADC
select HAVE_GPIO_I2C select HAVE_GPIO_I2C
select HAVE_GPIO_SPI select HAVE_GPIO_SPI
select HAVE_GPIO_HARD_PWM select HAVE_GPIO_HARD_PWM

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@ -20,6 +20,7 @@ src-y += generic/armcm_irq.c generic/timer_irq.c
src-y += ../lib/samd21/samd21a/gcc/gcc/startup_samd21.c src-y += ../lib/samd21/samd21a/gcc/gcc/startup_samd21.c
src-$(CONFIG_USBSERIAL) += samd21/usbserial.c generic/usb_cdc.c src-$(CONFIG_USBSERIAL) += samd21/usbserial.c generic/usb_cdc.c
src-$(CONFIG_SERIAL) += samd21/serial.c generic/serial_irq.c src-$(CONFIG_SERIAL) += samd21/serial.c generic/serial_irq.c
src-$(CONFIG_HAVE_GPIO_ADC) += samd21/adc.c
src-$(CONFIG_HAVE_GPIO_I2C) += samd21/i2c.c src-$(CONFIG_HAVE_GPIO_I2C) += samd21/i2c.c
src-$(CONFIG_HAVE_GPIO_SPI) += samd21/spi.c src-$(CONFIG_HAVE_GPIO_SPI) += samd21/spi.c
src-$(CONFIG_HAVE_GPIO_HARD_PWM) += samd21/hard_pwm.c src-$(CONFIG_HAVE_GPIO_HARD_PWM) += samd21/hard_pwm.c

121
src/samd21/adc.c Normal file
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@ -0,0 +1,121 @@
// Analog to Digital Converter support
//
// Copyright (C) 2018 Kevin O'Connor <kevin@koconnor.net>
//
// This file may be distributed under the terms of the GNU GPLv3 license.
#include "command.h" // shutdown
#include "gpio.h" // gpio_adc_read
#include "internal.h" // GPIO
#include "samd21.h" // ADC
#include "sched.h" // sched_shutdown
static const uint8_t adc_pins[] = {
GPIO('A', 2), GPIO('A', 3), GPIO('B', 8), GPIO('B', 9), GPIO('A', 4),
GPIO('A', 5), GPIO('A', 6), GPIO('A', 7), GPIO('B', 0), GPIO('B', 1),
GPIO('B', 2), GPIO('B', 3), GPIO('B', 4), GPIO('B', 5), GPIO('B', 6),
GPIO('B', 7), GPIO('A', 8), GPIO('A', 9), GPIO('A', 10), GPIO('A', 11)
};
DECL_CONSTANT(ADC_MAX, 4095);
static void
adc_init(void)
{
static uint8_t have_run_init;
if (have_run_init)
return;
have_run_init = 1;
// Enable adc clock
enable_pclock(ADC_GCLK_ID, PM_APBCMASK_ADC);
// Load calibraiton info
uint32_t v = *((uint32_t*)ADC_FUSES_BIASCAL_ADDR);
uint32_t bias = (v & ADC_FUSES_BIASCAL_Msk) >> ADC_FUSES_BIASCAL_Pos;
v = *((uint32_t*)ADC_FUSES_LINEARITY_0_ADDR);
uint32_t li0 = (v & ADC_FUSES_LINEARITY_0_Msk) >> ADC_FUSES_LINEARITY_0_Pos;
v = *((uint32_t*)ADC_FUSES_LINEARITY_1_ADDR);
uint32_t li5 = (v & ADC_FUSES_LINEARITY_1_Msk) >> ADC_FUSES_LINEARITY_1_Pos;
uint32_t lin = li0 | (li5 << 5);
ADC->CALIB.reg = ADC_CALIB_BIAS_CAL(bias) | ADC_CALIB_LINEARITY_CAL(lin);
// Setup and enable adc
ADC->REFCTRL.reg = ADC_REFCTRL_REFSEL_INTVCC1;
ADC->CTRLB.reg = ADC_CTRLB_PRESCALER_DIV128;
ADC->SAMPCTRL.reg = 63;
ADC->CTRLA.reg = ADC_CTRLA_ENABLE;
}
struct gpio_adc
gpio_adc_setup(uint8_t pin)
{
// Find pin in adc_pins table
uint8_t chan;
for (chan=0; ; chan++) {
if (chan >= ARRAY_SIZE(adc_pins))
shutdown("Not a valid ADC pin");
if (adc_pins[chan] == pin)
break;
}
// Enable ADC
adc_init();
// Set pin in ADC mode
gpio_peripheral(pin, 'B', 0);
return (struct gpio_adc){ chan };
}
enum { ADC_DUMMY=0xff };
static uint8_t last_analog_read = ADC_DUMMY;
// Try to sample a value. Returns zero if sample ready, otherwise
// returns the number of clock ticks the caller should wait before
// retrying this function.
uint32_t
gpio_adc_sample(struct gpio_adc g)
{
if (last_analog_read == g.chan) {
if (ADC->INTFLAG.reg & ADC_INTFLAG_RESRDY)
// Sample now ready
return 0;
// ADC is still busy
goto need_delay;
}
if (last_analog_read != ADC_DUMMY)
// Sample on another channel in progress
goto need_delay;
last_analog_read = g.chan;
// Set the channel to sample
ADC->INPUTCTRL.reg = (ADC_INPUTCTRL_MUXPOS(g.chan)
| ADC_INPUTCTRL_MUXNEG_GND | ADC_INPUTCTRL_GAIN_DIV2);
// Start the sample
ADC->SWTRIG.reg = ADC_SWTRIG_START;
// Schedule next attempt after sample is likely to be complete
need_delay:
return 42 * 128 + 200; // 42 == 1 + (63+1)/2 + 1 + 12/2 + 1.5
}
// Read a value; use only after gpio_adc_sample() returns zero
uint16_t
gpio_adc_read(struct gpio_adc g)
{
last_analog_read = ADC_DUMMY;
return ADC->RESULT.reg;
}
// Cancel a sample that may have been started with gpio_adc_sample()
void
gpio_adc_cancel_sample(struct gpio_adc g)
{
if (last_analog_read == g.chan) {
ADC->SWTRIG.reg = ADC_SWTRIG_FLUSH;
ADC->INTFLAG.reg = ADC_INTFLAG_RESRDY;
last_analog_read = ADC_DUMMY;
}
}

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@ -27,6 +27,14 @@ struct gpio_pwm {
struct gpio_pwm gpio_pwm_setup(uint8_t pin, uint32_t cycle_time, uint8_t val); struct gpio_pwm gpio_pwm_setup(uint8_t pin, uint32_t cycle_time, uint8_t val);
void gpio_pwm_write(struct gpio_pwm g, uint8_t val); void gpio_pwm_write(struct gpio_pwm g, uint8_t val);
struct gpio_adc {
uint32_t chan;
};
struct gpio_adc gpio_adc_setup(uint8_t pin);
uint32_t gpio_adc_sample(struct gpio_adc g);
uint16_t gpio_adc_read(struct gpio_adc g);
void gpio_adc_cancel_sample(struct gpio_adc g);
struct spi_config { struct spi_config {
uint32_t ctrla, baud; uint32_t ctrla, baud;
}; };