2 * AD5755, AD5755-1, AD5757, AD5735, AD5737 Digital to analog converters driver
4 * Copyright 2012 Analog Devices Inc.
6 * Licensed under the GPL-2.
9 #include <linux/device.h>
10 #include <linux/err.h>
11 #include <linux/module.h>
12 #include <linux/kernel.h>
13 #include <linux/spi/spi.h>
14 #include <linux/slab.h>
15 #include <linux/sysfs.h>
16 #include <linux/delay.h>
18 #include <linux/iio/iio.h>
19 #include <linux/iio/sysfs.h>
20 #include <linux/platform_data/ad5755.h>
22 #define AD5755_NUM_CHANNELS 4
24 #define AD5755_ADDR(x) ((x) << 16)
26 #define AD5755_WRITE_REG_DATA(chan) (chan)
27 #define AD5755_WRITE_REG_GAIN(chan) (0x08 | (chan))
28 #define AD5755_WRITE_REG_OFFSET(chan) (0x10 | (chan))
29 #define AD5755_WRITE_REG_CTRL(chan) (0x1c | (chan))
31 #define AD5755_READ_REG_DATA(chan) (chan)
32 #define AD5755_READ_REG_CTRL(chan) (0x4 | (chan))
33 #define AD5755_READ_REG_GAIN(chan) (0x8 | (chan))
34 #define AD5755_READ_REG_OFFSET(chan) (0xc | (chan))
35 #define AD5755_READ_REG_CLEAR(chan) (0x10 | (chan))
36 #define AD5755_READ_REG_SLEW(chan) (0x14 | (chan))
37 #define AD5755_READ_REG_STATUS 0x18
38 #define AD5755_READ_REG_MAIN 0x19
39 #define AD5755_READ_REG_DC_DC 0x1a
41 #define AD5755_CTRL_REG_SLEW 0x0
42 #define AD5755_CTRL_REG_MAIN 0x1
43 #define AD5755_CTRL_REG_DAC 0x2
44 #define AD5755_CTRL_REG_DC_DC 0x3
45 #define AD5755_CTRL_REG_SW 0x4
47 #define AD5755_READ_FLAG 0x800000
49 #define AD5755_NOOP 0x1CE000
51 #define AD5755_DAC_INT_EN BIT(8)
52 #define AD5755_DAC_CLR_EN BIT(7)
53 #define AD5755_DAC_OUT_EN BIT(6)
54 #define AD5755_DAC_INT_CURRENT_SENSE_RESISTOR BIT(5)
55 #define AD5755_DAC_DC_DC_EN BIT(4)
56 #define AD5755_DAC_VOLTAGE_OVERRANGE_EN BIT(3)
58 #define AD5755_DC_DC_MAXV 0
59 #define AD5755_DC_DC_FREQ_SHIFT 2
60 #define AD5755_DC_DC_PHASE_SHIFT 4
61 #define AD5755_EXT_DC_DC_COMP_RES BIT(6)
63 #define AD5755_SLEW_STEP_SIZE_SHIFT 0
64 #define AD5755_SLEW_RATE_SHIFT 3
65 #define AD5755_SLEW_ENABLE BIT(12)
68 * struct ad5755_chip_info - chip specific information
69 * @channel_template: channel specification
70 * @calib_shift: shift for the calibration data registers
71 * @has_voltage_out: whether the chip has voltage outputs
73 struct ad5755_chip_info
{
74 const struct iio_chan_spec channel_template
;
75 unsigned int calib_shift
;
80 * struct ad5755_state - driver instance specific data
81 * @spi: spi device the driver is attached to
82 * @chip_info: chip model specific constants, available modes etc
83 * @pwr_down: bitmask which contains hether a channel is powered down or not
84 * @ctrl: software shadow of the channel ctrl registers
85 * @channels: iio channel spec for the device
86 * @data: spi transfer buffers
89 struct spi_device
*spi
;
90 const struct ad5755_chip_info
*chip_info
;
91 unsigned int pwr_down
;
92 unsigned int ctrl
[AD5755_NUM_CHANNELS
];
93 struct iio_chan_spec channels
[AD5755_NUM_CHANNELS
];
96 * DMA (thus cache coherency maintenance) requires the
97 * transfer buffers to live in their own cache lines.
103 } data
[2] ____cacheline_aligned
;
114 static const int ad5755_dcdc_freq_table
[][2] = {
115 { 250000, AD5755_DC_DC_FREQ_250kHZ
},
116 { 410000, AD5755_DC_DC_FREQ_410kHZ
},
117 { 650000, AD5755_DC_DC_FREQ_650kHZ
}
120 static const int ad5755_dcdc_maxv_table
[][2] = {
121 { 23000000, AD5755_DC_DC_MAXV_23V
},
122 { 24500000, AD5755_DC_DC_MAXV_24V5
},
123 { 27000000, AD5755_DC_DC_MAXV_27V
},
124 { 29500000, AD5755_DC_DC_MAXV_29V5
},
127 static const int ad5755_slew_rate_table
[][2] = {
128 { 64000, AD5755_SLEW_RATE_64k
},
129 { 32000, AD5755_SLEW_RATE_32k
},
130 { 16000, AD5755_SLEW_RATE_16k
},
131 { 8000, AD5755_SLEW_RATE_8k
},
132 { 4000, AD5755_SLEW_RATE_4k
},
133 { 2000, AD5755_SLEW_RATE_2k
},
134 { 1000, AD5755_SLEW_RATE_1k
},
135 { 500, AD5755_SLEW_RATE_500
},
136 { 250, AD5755_SLEW_RATE_250
},
137 { 125, AD5755_SLEW_RATE_125
},
138 { 64, AD5755_SLEW_RATE_64
},
139 { 32, AD5755_SLEW_RATE_32
},
140 { 16, AD5755_SLEW_RATE_16
},
141 { 8, AD5755_SLEW_RATE_8
},
142 { 4, AD5755_SLEW_RATE_4
},
143 { 0, AD5755_SLEW_RATE_0_5
},
146 static const int ad5755_slew_step_table
[][2] = {
147 { 256, AD5755_SLEW_STEP_SIZE_256
},
148 { 128, AD5755_SLEW_STEP_SIZE_128
},
149 { 64, AD5755_SLEW_STEP_SIZE_64
},
150 { 32, AD5755_SLEW_STEP_SIZE_32
},
151 { 16, AD5755_SLEW_STEP_SIZE_16
},
152 { 4, AD5755_SLEW_STEP_SIZE_4
},
153 { 2, AD5755_SLEW_STEP_SIZE_2
},
154 { 1, AD5755_SLEW_STEP_SIZE_1
},
158 static int ad5755_write_unlocked(struct iio_dev
*indio_dev
,
159 unsigned int reg
, unsigned int val
)
161 struct ad5755_state
*st
= iio_priv(indio_dev
);
163 st
->data
[0].d32
= cpu_to_be32((reg
<< 16) | val
);
165 return spi_write(st
->spi
, &st
->data
[0].d8
[1], 3);
168 static int ad5755_write_ctrl_unlocked(struct iio_dev
*indio_dev
,
169 unsigned int channel
, unsigned int reg
, unsigned int val
)
171 return ad5755_write_unlocked(indio_dev
,
172 AD5755_WRITE_REG_CTRL(channel
), (reg
<< 13) | val
);
175 static int ad5755_write(struct iio_dev
*indio_dev
, unsigned int reg
,
180 mutex_lock(&indio_dev
->mlock
);
181 ret
= ad5755_write_unlocked(indio_dev
, reg
, val
);
182 mutex_unlock(&indio_dev
->mlock
);
187 static int ad5755_write_ctrl(struct iio_dev
*indio_dev
, unsigned int channel
,
188 unsigned int reg
, unsigned int val
)
192 mutex_lock(&indio_dev
->mlock
);
193 ret
= ad5755_write_ctrl_unlocked(indio_dev
, channel
, reg
, val
);
194 mutex_unlock(&indio_dev
->mlock
);
199 static int ad5755_read(struct iio_dev
*indio_dev
, unsigned int addr
)
201 struct ad5755_state
*st
= iio_priv(indio_dev
);
203 struct spi_transfer t
[] = {
205 .tx_buf
= &st
->data
[0].d8
[1],
209 .tx_buf
= &st
->data
[1].d8
[1],
210 .rx_buf
= &st
->data
[1].d8
[1],
215 mutex_lock(&indio_dev
->mlock
);
217 st
->data
[0].d32
= cpu_to_be32(AD5755_READ_FLAG
| (addr
<< 16));
218 st
->data
[1].d32
= cpu_to_be32(AD5755_NOOP
);
220 ret
= spi_sync_transfer(st
->spi
, t
, ARRAY_SIZE(t
));
222 ret
= be32_to_cpu(st
->data
[1].d32
) & 0xffff;
224 mutex_unlock(&indio_dev
->mlock
);
229 static int ad5755_update_dac_ctrl(struct iio_dev
*indio_dev
,
230 unsigned int channel
, unsigned int set
, unsigned int clr
)
232 struct ad5755_state
*st
= iio_priv(indio_dev
);
235 st
->ctrl
[channel
] |= set
;
236 st
->ctrl
[channel
] &= ~clr
;
238 ret
= ad5755_write_ctrl_unlocked(indio_dev
, channel
,
239 AD5755_CTRL_REG_DAC
, st
->ctrl
[channel
]);
244 static int ad5755_set_channel_pwr_down(struct iio_dev
*indio_dev
,
245 unsigned int channel
, bool pwr_down
)
247 struct ad5755_state
*st
= iio_priv(indio_dev
);
248 unsigned int mask
= BIT(channel
);
250 mutex_lock(&indio_dev
->mlock
);
252 if ((bool)(st
->pwr_down
& mask
) == pwr_down
)
256 st
->pwr_down
&= ~mask
;
257 ad5755_update_dac_ctrl(indio_dev
, channel
,
258 AD5755_DAC_INT_EN
| AD5755_DAC_DC_DC_EN
, 0);
260 ad5755_update_dac_ctrl(indio_dev
, channel
,
261 AD5755_DAC_OUT_EN
, 0);
263 st
->pwr_down
|= mask
;
264 ad5755_update_dac_ctrl(indio_dev
, channel
,
265 0, AD5755_DAC_INT_EN
| AD5755_DAC_OUT_EN
|
266 AD5755_DAC_DC_DC_EN
);
270 mutex_unlock(&indio_dev
->mlock
);
275 static const int ad5755_min_max_table
[][2] = {
276 [AD5755_MODE_VOLTAGE_0V_5V
] = { 0, 5000 },
277 [AD5755_MODE_VOLTAGE_0V_10V
] = { 0, 10000 },
278 [AD5755_MODE_VOLTAGE_PLUSMINUS_5V
] = { -5000, 5000 },
279 [AD5755_MODE_VOLTAGE_PLUSMINUS_10V
] = { -10000, 10000 },
280 [AD5755_MODE_CURRENT_4mA_20mA
] = { 4, 20 },
281 [AD5755_MODE_CURRENT_0mA_20mA
] = { 0, 20 },
282 [AD5755_MODE_CURRENT_0mA_24mA
] = { 0, 24 },
285 static void ad5755_get_min_max(struct ad5755_state
*st
,
286 struct iio_chan_spec
const *chan
, int *min
, int *max
)
288 enum ad5755_mode mode
= st
->ctrl
[chan
->channel
] & 7;
289 *min
= ad5755_min_max_table
[mode
][0];
290 *max
= ad5755_min_max_table
[mode
][1];
293 static inline int ad5755_get_offset(struct ad5755_state
*st
,
294 struct iio_chan_spec
const *chan
)
298 ad5755_get_min_max(st
, chan
, &min
, &max
);
299 return (min
* (1 << chan
->scan_type
.realbits
)) / (max
- min
);
302 static int ad5755_chan_reg_info(struct ad5755_state
*st
,
303 struct iio_chan_spec
const *chan
, long info
, bool write
,
304 unsigned int *reg
, unsigned int *shift
, unsigned int *offset
)
307 case IIO_CHAN_INFO_RAW
:
309 *reg
= AD5755_WRITE_REG_DATA(chan
->address
);
311 *reg
= AD5755_READ_REG_DATA(chan
->address
);
312 *shift
= chan
->scan_type
.shift
;
315 case IIO_CHAN_INFO_CALIBBIAS
:
317 *reg
= AD5755_WRITE_REG_OFFSET(chan
->address
);
319 *reg
= AD5755_READ_REG_OFFSET(chan
->address
);
320 *shift
= st
->chip_info
->calib_shift
;
323 case IIO_CHAN_INFO_CALIBSCALE
:
325 *reg
= AD5755_WRITE_REG_GAIN(chan
->address
);
327 *reg
= AD5755_READ_REG_GAIN(chan
->address
);
328 *shift
= st
->chip_info
->calib_shift
;
338 static int ad5755_read_raw(struct iio_dev
*indio_dev
,
339 const struct iio_chan_spec
*chan
, int *val
, int *val2
, long info
)
341 struct ad5755_state
*st
= iio_priv(indio_dev
);
342 unsigned int reg
, shift
, offset
;
347 case IIO_CHAN_INFO_SCALE
:
348 ad5755_get_min_max(st
, chan
, &min
, &max
);
350 *val2
= chan
->scan_type
.realbits
;
351 return IIO_VAL_FRACTIONAL_LOG2
;
352 case IIO_CHAN_INFO_OFFSET
:
353 *val
= ad5755_get_offset(st
, chan
);
356 ret
= ad5755_chan_reg_info(st
, chan
, info
, false,
357 ®
, &shift
, &offset
);
361 ret
= ad5755_read(indio_dev
, reg
);
365 *val
= (ret
- offset
) >> shift
;
373 static int ad5755_write_raw(struct iio_dev
*indio_dev
,
374 const struct iio_chan_spec
*chan
, int val
, int val2
, long info
)
376 struct ad5755_state
*st
= iio_priv(indio_dev
);
377 unsigned int shift
, reg
, offset
;
380 ret
= ad5755_chan_reg_info(st
, chan
, info
, true,
381 ®
, &shift
, &offset
);
388 if (val
< 0 || val
> 0xffff)
391 return ad5755_write(indio_dev
, reg
, val
);
394 static ssize_t
ad5755_read_powerdown(struct iio_dev
*indio_dev
, uintptr_t priv
,
395 const struct iio_chan_spec
*chan
, char *buf
)
397 struct ad5755_state
*st
= iio_priv(indio_dev
);
399 return sprintf(buf
, "%d\n",
400 (bool)(st
->pwr_down
& (1 << chan
->channel
)));
403 static ssize_t
ad5755_write_powerdown(struct iio_dev
*indio_dev
, uintptr_t priv
,
404 struct iio_chan_spec
const *chan
, const char *buf
, size_t len
)
409 ret
= strtobool(buf
, &pwr_down
);
413 ret
= ad5755_set_channel_pwr_down(indio_dev
, chan
->channel
, pwr_down
);
414 return ret
? ret
: len
;
417 static const struct iio_info ad5755_info
= {
418 .read_raw
= ad5755_read_raw
,
419 .write_raw
= ad5755_write_raw
,
420 .driver_module
= THIS_MODULE
,
423 static const struct iio_chan_spec_ext_info ad5755_ext_info
[] = {
426 .read
= ad5755_read_powerdown
,
427 .write
= ad5755_write_powerdown
,
428 .shared
= IIO_SEPARATE
,
433 #define AD5755_CHANNEL(_bits) { \
436 .info_mask_separate = BIT(IIO_CHAN_INFO_RAW) | \
437 BIT(IIO_CHAN_INFO_SCALE) | \
438 BIT(IIO_CHAN_INFO_OFFSET) | \
439 BIT(IIO_CHAN_INFO_CALIBSCALE) | \
440 BIT(IIO_CHAN_INFO_CALIBBIAS), \
443 .realbits = (_bits), \
445 .shift = 16 - (_bits), \
447 .ext_info = ad5755_ext_info, \
450 static const struct ad5755_chip_info ad5755_chip_info_tbl
[] = {
452 .channel_template
= AD5755_CHANNEL(14),
453 .has_voltage_out
= true,
457 .channel_template
= AD5755_CHANNEL(14),
458 .has_voltage_out
= false,
462 .channel_template
= AD5755_CHANNEL(16),
463 .has_voltage_out
= true,
467 .channel_template
= AD5755_CHANNEL(16),
468 .has_voltage_out
= false,
473 static bool ad5755_is_valid_mode(struct ad5755_state
*st
, enum ad5755_mode mode
)
476 case AD5755_MODE_VOLTAGE_0V_5V
:
477 case AD5755_MODE_VOLTAGE_0V_10V
:
478 case AD5755_MODE_VOLTAGE_PLUSMINUS_5V
:
479 case AD5755_MODE_VOLTAGE_PLUSMINUS_10V
:
480 return st
->chip_info
->has_voltage_out
;
481 case AD5755_MODE_CURRENT_4mA_20mA
:
482 case AD5755_MODE_CURRENT_0mA_20mA
:
483 case AD5755_MODE_CURRENT_0mA_24mA
:
490 static int ad5755_setup_pdata(struct iio_dev
*indio_dev
,
491 const struct ad5755_platform_data
*pdata
)
493 struct ad5755_state
*st
= iio_priv(indio_dev
);
498 if (pdata
->dc_dc_phase
> AD5755_DC_DC_PHASE_90_DEGREE
||
499 pdata
->dc_dc_freq
> AD5755_DC_DC_FREQ_650kHZ
||
500 pdata
->dc_dc_maxv
> AD5755_DC_DC_MAXV_29V5
)
503 val
= pdata
->dc_dc_maxv
<< AD5755_DC_DC_MAXV
;
504 val
|= pdata
->dc_dc_freq
<< AD5755_DC_DC_FREQ_SHIFT
;
505 val
|= pdata
->dc_dc_phase
<< AD5755_DC_DC_PHASE_SHIFT
;
506 if (pdata
->ext_dc_dc_compenstation_resistor
)
507 val
|= AD5755_EXT_DC_DC_COMP_RES
;
509 ret
= ad5755_write_ctrl(indio_dev
, 0, AD5755_CTRL_REG_DC_DC
, val
);
513 for (i
= 0; i
< ARRAY_SIZE(pdata
->dac
); ++i
) {
514 val
= pdata
->dac
[i
].slew
.step_size
<<
515 AD5755_SLEW_STEP_SIZE_SHIFT
;
516 val
|= pdata
->dac
[i
].slew
.rate
<<
517 AD5755_SLEW_RATE_SHIFT
;
518 if (pdata
->dac
[i
].slew
.enable
)
519 val
|= AD5755_SLEW_ENABLE
;
521 ret
= ad5755_write_ctrl(indio_dev
, i
,
522 AD5755_CTRL_REG_SLEW
, val
);
527 for (i
= 0; i
< ARRAY_SIZE(pdata
->dac
); ++i
) {
528 if (!ad5755_is_valid_mode(st
, pdata
->dac
[i
].mode
))
532 if (!pdata
->dac
[i
].ext_current_sense_resistor
)
533 val
|= AD5755_DAC_INT_CURRENT_SENSE_RESISTOR
;
534 if (pdata
->dac
[i
].enable_voltage_overrange
)
535 val
|= AD5755_DAC_VOLTAGE_OVERRANGE_EN
;
536 val
|= pdata
->dac
[i
].mode
;
538 ret
= ad5755_update_dac_ctrl(indio_dev
, i
, val
, 0);
546 static bool ad5755_is_voltage_mode(enum ad5755_mode mode
)
549 case AD5755_MODE_VOLTAGE_0V_5V
:
550 case AD5755_MODE_VOLTAGE_0V_10V
:
551 case AD5755_MODE_VOLTAGE_PLUSMINUS_5V
:
552 case AD5755_MODE_VOLTAGE_PLUSMINUS_10V
:
559 static int ad5755_init_channels(struct iio_dev
*indio_dev
,
560 const struct ad5755_platform_data
*pdata
)
562 struct ad5755_state
*st
= iio_priv(indio_dev
);
563 struct iio_chan_spec
*channels
= st
->channels
;
566 for (i
= 0; i
< AD5755_NUM_CHANNELS
; ++i
) {
567 channels
[i
] = st
->chip_info
->channel_template
;
568 channels
[i
].channel
= i
;
569 channels
[i
].address
= i
;
570 if (pdata
&& ad5755_is_voltage_mode(pdata
->dac
[i
].mode
))
571 channels
[i
].type
= IIO_VOLTAGE
;
573 channels
[i
].type
= IIO_CURRENT
;
576 indio_dev
->channels
= channels
;
581 #define AD5755_DEFAULT_DAC_PDATA { \
582 .mode = AD5755_MODE_CURRENT_4mA_20mA, \
583 .ext_current_sense_resistor = true, \
584 .enable_voltage_overrange = false, \
587 .rate = AD5755_SLEW_RATE_64k, \
588 .step_size = AD5755_SLEW_STEP_SIZE_1, \
592 static const struct ad5755_platform_data ad5755_default_pdata
= {
593 .ext_dc_dc_compenstation_resistor
= false,
594 .dc_dc_phase
= AD5755_DC_DC_PHASE_ALL_SAME_EDGE
,
595 .dc_dc_freq
= AD5755_DC_DC_FREQ_410kHZ
,
596 .dc_dc_maxv
= AD5755_DC_DC_MAXV_23V
,
598 [0] = AD5755_DEFAULT_DAC_PDATA
,
599 [1] = AD5755_DEFAULT_DAC_PDATA
,
600 [2] = AD5755_DEFAULT_DAC_PDATA
,
601 [3] = AD5755_DEFAULT_DAC_PDATA
,
606 static struct ad5755_platform_data
*ad5755_parse_dt(struct device
*dev
)
608 struct device_node
*np
= dev
->of_node
;
609 struct device_node
*pp
;
610 struct ad5755_platform_data
*pdata
;
612 unsigned int tmparray
[3];
615 pdata
= devm_kzalloc(dev
, sizeof(*pdata
), GFP_KERNEL
);
619 pdata
->ext_dc_dc_compenstation_resistor
=
620 of_property_read_bool(np
, "adi,ext-dc-dc-compenstation-resistor");
622 if (!of_property_read_u32(np
, "adi,dc-dc-phase", &tmp
))
623 pdata
->dc_dc_phase
= tmp
;
625 pdata
->dc_dc_phase
= AD5755_DC_DC_PHASE_ALL_SAME_EDGE
;
627 pdata
->dc_dc_freq
= AD5755_DC_DC_FREQ_410kHZ
;
628 if (!of_property_read_u32(np
, "adi,dc-dc-freq-hz", &tmp
)) {
629 for (i
= 0; i
< ARRAY_SIZE(ad5755_dcdc_freq_table
); i
++) {
630 if (tmp
== ad5755_dcdc_freq_table
[i
][0]) {
631 pdata
->dc_dc_freq
= ad5755_dcdc_freq_table
[i
][1];
636 if (i
== ARRAY_SIZE(ad5755_dcdc_freq_table
)) {
638 "adi,dc-dc-freq out of range selecting 410kHz");
642 pdata
->dc_dc_maxv
= AD5755_DC_DC_MAXV_23V
;
643 if (!of_property_read_u32(np
, "adi,dc-dc-max-microvolt", &tmp
)) {
644 for (i
= 0; i
< ARRAY_SIZE(ad5755_dcdc_maxv_table
); i
++) {
645 if (tmp
== ad5755_dcdc_maxv_table
[i
][0]) {
646 pdata
->dc_dc_maxv
= ad5755_dcdc_maxv_table
[i
][1];
650 if (i
== ARRAY_SIZE(ad5755_dcdc_maxv_table
)) {
652 "adi,dc-dc-maxv out of range selecting 23V");
657 for_each_child_of_node(np
, pp
) {
658 if (devnr
>= AD5755_NUM_CHANNELS
) {
660 "There is to many channels defined in DT\n");
664 if (!of_property_read_u32(pp
, "adi,mode", &tmp
))
665 pdata
->dac
[devnr
].mode
= tmp
;
667 pdata
->dac
[devnr
].mode
= AD5755_MODE_CURRENT_4mA_20mA
;
669 pdata
->dac
[devnr
].ext_current_sense_resistor
=
670 of_property_read_bool(pp
, "adi,ext-current-sense-resistor");
672 pdata
->dac
[devnr
].enable_voltage_overrange
=
673 of_property_read_bool(pp
, "adi,enable-voltage-overrange");
675 if (!of_property_read_u32_array(pp
, "adi,slew", tmparray
, 3)) {
676 pdata
->dac
[devnr
].slew
.enable
= tmparray
[0];
678 pdata
->dac
[devnr
].slew
.rate
= AD5755_SLEW_RATE_64k
;
679 for (i
= 0; i
< ARRAY_SIZE(ad5755_slew_rate_table
); i
++) {
680 if (tmparray
[1] == ad5755_slew_rate_table
[i
][0]) {
681 pdata
->dac
[devnr
].slew
.rate
=
682 ad5755_slew_rate_table
[i
][1];
686 if (i
== ARRAY_SIZE(ad5755_slew_rate_table
)) {
688 "channel %d slew rate out of range selecting 64kHz",
692 pdata
->dac
[devnr
].slew
.step_size
= AD5755_SLEW_STEP_SIZE_1
;
693 for (i
= 0; i
< ARRAY_SIZE(ad5755_slew_step_table
); i
++) {
694 if (tmparray
[2] == ad5755_slew_step_table
[i
][0]) {
695 pdata
->dac
[devnr
].slew
.step_size
=
696 ad5755_slew_step_table
[i
][1];
700 if (i
== ARRAY_SIZE(ad5755_slew_step_table
)) {
702 "channel %d slew step size out of range selecting 1 LSB",
706 pdata
->dac
[devnr
].slew
.enable
= false;
707 pdata
->dac
[devnr
].slew
.rate
= AD5755_SLEW_RATE_64k
;
708 pdata
->dac
[devnr
].slew
.step_size
=
709 AD5755_SLEW_STEP_SIZE_1
;
717 devm_kfree(dev
, pdata
);
722 struct ad5755_platform_data
*ad5755_parse_dt(struct device
*dev
)
728 static int ad5755_probe(struct spi_device
*spi
)
730 enum ad5755_type type
= spi_get_device_id(spi
)->driver_data
;
731 const struct ad5755_platform_data
*pdata
= dev_get_platdata(&spi
->dev
);
732 struct iio_dev
*indio_dev
;
733 struct ad5755_state
*st
;
736 indio_dev
= devm_iio_device_alloc(&spi
->dev
, sizeof(*st
));
737 if (indio_dev
== NULL
) {
738 dev_err(&spi
->dev
, "Failed to allocate iio device\n");
742 st
= iio_priv(indio_dev
);
743 spi_set_drvdata(spi
, indio_dev
);
745 st
->chip_info
= &ad5755_chip_info_tbl
[type
];
749 indio_dev
->dev
.parent
= &spi
->dev
;
750 indio_dev
->name
= spi_get_device_id(spi
)->name
;
751 indio_dev
->info
= &ad5755_info
;
752 indio_dev
->modes
= INDIO_DIRECT_MODE
;
753 indio_dev
->num_channels
= AD5755_NUM_CHANNELS
;
755 if (spi
->dev
.of_node
)
756 pdata
= ad5755_parse_dt(&spi
->dev
);
758 pdata
= spi
->dev
.platform_data
;
761 dev_warn(&spi
->dev
, "no platform data? using default\n");
762 pdata
= &ad5755_default_pdata
;
765 ret
= ad5755_init_channels(indio_dev
, pdata
);
769 ret
= ad5755_setup_pdata(indio_dev
, pdata
);
773 return devm_iio_device_register(&spi
->dev
, indio_dev
);
776 static const struct spi_device_id ad5755_id
[] = {
777 { "ad5755", ID_AD5755
},
778 { "ad5755-1", ID_AD5755
},
779 { "ad5757", ID_AD5757
},
780 { "ad5735", ID_AD5735
},
781 { "ad5737", ID_AD5737
},
784 MODULE_DEVICE_TABLE(spi
, ad5755_id
);
786 static const struct of_device_id ad5755_of_match
[] = {
787 { .compatible
= "adi,ad5755" },
788 { .compatible
= "adi,ad5755-1" },
789 { .compatible
= "adi,ad5757" },
790 { .compatible
= "adi,ad5735" },
791 { .compatible
= "adi,ad5737" },
794 MODULE_DEVICE_TABLE(of
, ad5755_of_match
);
796 static struct spi_driver ad5755_driver
= {
800 .probe
= ad5755_probe
,
801 .id_table
= ad5755_id
,
803 module_spi_driver(ad5755_driver
);
805 MODULE_AUTHOR("Lars-Peter Clausen <lars@metafoo.de>");
806 MODULE_DESCRIPTION("Analog Devices AD5755/55-1/57/35/37 DAC");
807 MODULE_LICENSE("GPL v2");