Added Test Wake-Up
[i3-mote/i3-mote.git] / Basic-Test-Package / CC2650 / board / CC2650_I3M.c
1 /*
2  */
4 /*
5  *  ====================== CC2650_I3MOTE.c ===================================
6  *  This file is responsible for setting up the board specific items for the
7  *  CC2650 LaunchPad.
8  */
11 /*
12  *  ====================== Includes ============================================
13  */
14 #include <xdc/std.h>
15 #include <xdc/runtime/System.h>
17 #include <ti/sysbios/family/arm/m3/Hwi.h>
18 #include <ti/drivers/PIN.h>
19 #include <ti/drivers/pin/PINCC26XX.h>
20 #include <ti/drivers/PWM.h>
21 #include <ti/drivers/pwm/PWMTimerCC26XX.h>
22 #include <ti/drivers/timer/GPTimerCC26XX.h>
23 #include <ti/drivers/Power.h>
24 #include <ti/drivers/power/PowerCC26XX.h>
26 #include <inc/hw_memmap.h>
27 #include <inc/hw_ints.h>
28 #include <driverlib/ioc.h>
29 #include <driverlib/udma.h>
31 #include <Board.h>
33 /*
34  *  ========================= IO driver initialization =========================
35  *  From main, PIN_init(BoardGpioInitTable) should be called to setup safe
36  *  settings for this board.
37  *  When a pin is allocated and then de-allocated, it will revert to the state
38  *  configured in this table.
39  */
40 /* Place into subsections to allow the TI linker to remove items properly */
41 #if defined(__TI_COMPILER_VERSION__)
42 #pragma DATA_SECTION(BoardGpioInitTable, ".const:BoardGpioInitTable")
43 #pragma DATA_SECTION(PINCC26XX_hwAttrs, ".const:PINCC26XX_hwAttrs")
44 #endif
46 const PIN_Config BoardGpioInitTable[] = {
48     Board_LEDR   | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL | PIN_DRVSTR_MAX,         /* LED initially off             */
49     Board_LEDG   | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL | PIN_DRVSTR_MAX,         /* LED initially off             */
50     Board_BTN1   | PIN_INPUT_EN | PIN_PULLUP | PIN_IRQ_BOTHEDGES | PIN_HYSTERESIS,            /* Button is active low          */
51     Board_UART_RX | PIN_INPUT_EN | PIN_PULLDOWN,                                              /* UART RX via debugger back channel */
52     Board_UART_TX | PIN_GPIO_OUTPUT_EN | PIN_GPIO_HIGH | PIN_PUSHPULL,                        /* UART TX via debugger back channel */
53     PIN_TERMINATE
54 };
56 const PINCC26XX_HWAttrs PINCC26XX_hwAttrs = {
57     .intPriority = ~0,
58     .swiPriority = 0
59 };
60 /*============================================================================*/
62 /*
63  *  ============================= Power begin ==================================
64  */
65 /* Place into subsections to allow the TI linker to remove items properly */
66 #if defined(__TI_COMPILER_VERSION__)
67 #pragma DATA_SECTION(PowerCC26XX_config, ".const:PowerCC26XX_config")
68 #endif
69 const PowerCC26XX_Config PowerCC26XX_config = {
70     .policyInitFxn      = NULL,
71     .policyFxn          = &PowerCC26XX_standbyPolicy,
72     .calibrateFxn       = &PowerCC26XX_calibrate,
73     .enablePolicy       = TRUE,
74     .calibrateRCOSC_LF  = TRUE,
75     .calibrateRCOSC_HF  = TRUE,
76 };
77 /*
78  *  ============================= Power end ====================================
79  */
81 /*
82  *  ============================= UART begin ===================================
83  */
84 /* Place into subsections to allow the TI linker to remove items properly */
85 #if defined(__TI_COMPILER_VERSION__)
86 #pragma DATA_SECTION(UART_config, ".const:UART_config")
87 #pragma DATA_SECTION(uartCC26XXHWAttrs, ".const:uartCC26XXHWAttrs")
88 #endif
90 /* Include drivers */
91 #include <ti/drivers/UART.h>
92 #include <ti/drivers/uart/UARTCC26XX.h>
94 /* UART objects */
95 UARTCC26XX_Object uartCC26XXObjects[CC2650_I3MOTE_UARTCOUNT];
97 /* UART hardware parameter structure, also used to assign UART pins */
98 const UARTCC26XX_HWAttrsV1 uartCC26XXHWAttrs[CC2650_I3MOTE_UARTCOUNT] = {
99     {
100         .baseAddr       = UART0_BASE,
101         .powerMngrId    = PowerCC26XX_PERIPH_UART0,
102         .intNum         = INT_UART0_COMB,
103         .intPriority    = ~0,
104         .swiPriority    = 0,
105         .txPin          = Board_UART_TX,
106         .rxPin          = Board_UART_RX,
107         .ctsPin         = PIN_UNASSIGNED,
108         .rtsPin         = PIN_UNASSIGNED
109     }
110 };
112 /* UART configuration structure */
113 const UART_Config UART_config[] = {
114     {
115         .fxnTablePtr = &UARTCC26XX_fxnTable,
116         .object      = &uartCC26XXObjects[0],
117         .hwAttrs     = &uartCC26XXHWAttrs[0]
118     },
119     {NULL, NULL, NULL}
120 };
121 /*
122  *  ============================= UART end =====================================
123  */
125 /*
126  *  ============================= UDMA begin ===================================
127  */
128 /* Place into subsections to allow the TI linker to remove items properly */
129 #if defined(__TI_COMPILER_VERSION__)
130 #pragma DATA_SECTION(UDMACC26XX_config, ".const:UDMACC26XX_config")
131 #pragma DATA_SECTION(udmaHWAttrs, ".const:udmaHWAttrs")
132 #endif
134 /* Include drivers */
135 #include <ti/drivers/dma/UDMACC26XX.h>
137 /* UDMA objects */
138 UDMACC26XX_Object udmaObjects[CC2650_I3MOTE_UDMACOUNT];
140 /* UDMA configuration structure */
141 const UDMACC26XX_HWAttrs udmaHWAttrs[CC2650_I3MOTE_UDMACOUNT] = {
142     {
143         .baseAddr    = UDMA0_BASE,
144         .powerMngrId = PowerCC26XX_PERIPH_UDMA,
145         .intNum      = INT_DMA_ERR,
146         .intPriority = ~0
147     }
148 };
150 /* UDMA configuration structure */
151 const UDMACC26XX_Config UDMACC26XX_config[] = {
152     {
153          .object  = &udmaObjects[0],
154          .hwAttrs = &udmaHWAttrs[0]
155     },
156     {NULL, NULL}
157 };
158 /*
159  *  ============================= UDMA end =====================================
160  */
162 /*
163  *  ========================== SPI DMA begin ===================================
164  */
165 /* Place into subsections to allow the TI linker to remove items properly */
166 #if defined(__TI_COMPILER_VERSION__)
167 #pragma DATA_SECTION(SPI_config, ".const:SPI_config")
168 #pragma DATA_SECTION(spiCC26XXDMAHWAttrs, ".const:spiCC26XXDMAHWAttrs")
169 #endif
171 /* Include drivers */
172 #include <ti/drivers/spi/SPICC26XXDMA.h>
174 /* SPI objects */
175 SPICC26XXDMA_Object spiCC26XXDMAObjects[CC2650_I3MOTE_SPICOUNT];
177 /* SPI configuration structure, describing which pins are to be used */
178 const SPICC26XXDMA_HWAttrsV1 spiCC26XXDMAHWAttrs[CC2650_I3MOTE_SPICOUNT] = {
179     {
180         .baseAddr           = SSI0_BASE,
181         .intNum             = INT_SSI0_COMB,
182         .intPriority        = ~0,
183         .swiPriority        = 0,
184         .powerMngrId        = PowerCC26XX_PERIPH_SSI0,
185         .defaultTxBufValue  = 0,
186         .rxChannelBitMask   = 1<<UDMA_CHAN_SSI0_RX,
187         .txChannelBitMask   = 1<<UDMA_CHAN_SSI0_TX,
188         .mosiPin            = Board_SPI0_MOSI,
189         .misoPin            = Board_SPI0_MISO,
190         .clkPin             = Board_SPI0_CLK,
191         .csnPin             = Board_SPI0_CSN
192     },
193     {
194         .baseAddr           = SSI1_BASE,
195         .intNum             = INT_SSI1_COMB,
196         .intPriority        = ~0,
197         .swiPriority        = 0,
198         .powerMngrId        = PowerCC26XX_PERIPH_SSI1,
199         .defaultTxBufValue  = 0,
200         .rxChannelBitMask   = 1<<UDMA_CHAN_SSI1_RX,
201         .txChannelBitMask   = 1<<UDMA_CHAN_SSI1_TX,
202         .mosiPin            = Board_SPI1_MOSI,
203         .misoPin            = Board_SPI1_MISO,
204         .clkPin             = Board_SPI1_CLK,
205         .csnPin             = Board_SPI1_CSN
206     }
207 };
209 /* SPI configuration structure */
210 const SPI_Config SPI_config[] = {
211     {
212          .fxnTablePtr = &SPICC26XXDMA_fxnTable,
213          .object      = &spiCC26XXDMAObjects[0],
214          .hwAttrs     = &spiCC26XXDMAHWAttrs[0]
215     },
216     {
217          .fxnTablePtr = &SPICC26XXDMA_fxnTable,
218          .object      = &spiCC26XXDMAObjects[1],
219          .hwAttrs     = &spiCC26XXDMAHWAttrs[1]
220     },
221     {NULL, NULL, NULL}
222 };
223 /*
224  *  ========================== SPI DMA end =====================================
225 */
228 /*
229  *  ============================= I2C Begin=====================================
230 */
231 /* Place into subsections to allow the TI linker to remove items properly */
232 #if defined(__TI_COMPILER_VERSION__)
233 #pragma DATA_SECTION(I2C_config, ".const:I2C_config")
234 #pragma DATA_SECTION(i2cCC26xxHWAttrs, ".const:i2cCC26xxHWAttrs")
235 #endif
237 /* Include drivers */
238 #include <ti/drivers/i2c/I2CCC26XX.h>
240 /* I2C objects */
241 I2CCC26XX_Object i2cCC26xxObjects[CC2650_I3MOTE_I2CCOUNT];
243 /* I2C configuration structure, describing which pins are to be used */
244 const I2CCC26XX_HWAttrsV1 i2cCC26xxHWAttrs[CC2650_I3MOTE_I2CCOUNT] = {
245     {
246         .baseAddr = I2C0_BASE,
247         .powerMngrId = PowerCC26XX_PERIPH_I2C0,
248         .intNum = INT_I2C_IRQ,
249         .intPriority = ~0,
250         .swiPriority = 0,
251         .sdaPin = Board_I2C0_SDA0,
252         .sclPin = Board_I2C0_SCL0,
253     }
254 };
256 /* I2C configuration structure */
257 const I2C_Config I2C_config[] = {
258     {
259         .fxnTablePtr = &I2CCC26XX_fxnTable,
260         .object = &i2cCC26xxObjects[0],
261         .hwAttrs = &i2cCC26xxHWAttrs[0]
262     },
263     {NULL, NULL, NULL}
264 };
265 /*
266  *  ========================== I2C end =========================================
267  */
269 /*
270  *  ========================== Crypto begin ====================================
271  *  NOTE: The Crypto implementation should be considered experimental
272  *        and not validated!
273  */
274 /* Place into subsections to allow the TI linker to remove items properly */
275 #if defined(__TI_COMPILER_VERSION__)
276 #pragma DATA_SECTION(CryptoCC26XX_config, ".const:CryptoCC26XX_config")
277 #pragma DATA_SECTION(cryptoCC26XXHWAttrs, ".const:cryptoCC26XXHWAttrs")
278 #endif
280 /* Include drivers */
281 #include <ti/drivers/crypto/CryptoCC26XX.h>
283 /* Crypto objects */
284 CryptoCC26XX_Object cryptoCC26XXObjects[CC2650_I3MOTE_CRYPTOCOUNT];
286 /* Crypto configuration structure, describing which pins are to be used */
287 const CryptoCC26XX_HWAttrs cryptoCC26XXHWAttrs[CC2650_I3MOTE_CRYPTOCOUNT] = {
288     {
289         .baseAddr       = CRYPTO_BASE,
290         .powerMngrId    = PowerCC26XX_PERIPH_CRYPTO,
291         .intNum         = INT_CRYPTO_RESULT_AVAIL_IRQ,
292         .intPriority    = ~0,
293     }
294 };
296 /* Crypto configuration structure */
297 const CryptoCC26XX_Config CryptoCC26XX_config[] = {
298     {
299          .object  = &cryptoCC26XXObjects[0],
300          .hwAttrs = &cryptoCC26XXHWAttrs[0]
301     },
302     {NULL, NULL}
303 };
304 /*
305  *  ========================== Crypto end ======================================
306  */
309 /*
310  *  ========================= RF driver begin ==================================
311  */
312 /* Place into subsections to allow the TI linker to remove items properly */
313 #if defined(__TI_COMPILER_VERSION__)
314 #pragma DATA_SECTION(RFCC26XX_hwAttrs, ".const:RFCC26XX_hwAttrs")
315 #endif
317 /* Include drivers */
318 #include <ti/drivers/rf/RF.h>
320 /* RF hwi and swi priority */
321 const RFCC26XX_HWAttrs RFCC26XX_hwAttrs = {
322     .hwiCpe0Priority = ~0,
323     .hwiHwPriority   = ~0,
324     .swiCpe0Priority =  0,
325     .swiHwPriority   =  0,
326 };
328 /*
329  *  ========================== RF driver end ===================================
330  */
332 /*
333  *  ========================= Display begin ====================================
334  */
336 /*
337  *  ========================= Display end ======================================
338  */
340 /*
341  *  ============================ GPTimer begin =================================
342  *  Remove unused entries to reduce flash usage both in Board.c and Board.h
343  */
344 /* Place into subsections to allow the TI linker to remove items properly */
345 #if defined(__TI_COMPILER_VERSION__)
346 #pragma DATA_SECTION(GPTimerCC26XX_config, ".const:GPTimerCC26XX_config")
347 #pragma DATA_SECTION(gptimerCC26xxHWAttrs, ".const:gptimerCC26xxHWAttrs")
348 #endif
350 /* GPTimer hardware attributes, one per timer part (Timer 0A, 0B, 1A, 1B..) */
351 const GPTimerCC26XX_HWAttrs gptimerCC26xxHWAttrs[CC2650_I3MOTE_GPTIMERPARTSCOUNT] = {
352     { .baseAddr = GPT0_BASE, .intNum = INT_GPT0A, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT0, .pinMux = GPT_PIN_0A, },
353     { .baseAddr = GPT0_BASE, .intNum = INT_GPT0B, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT0, .pinMux = GPT_PIN_0B, },
354     { .baseAddr = GPT1_BASE, .intNum = INT_GPT1A, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT1, .pinMux = GPT_PIN_1A, },
355     { .baseAddr = GPT1_BASE, .intNum = INT_GPT1B, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT1, .pinMux = GPT_PIN_1B, },
356     { .baseAddr = GPT2_BASE, .intNum = INT_GPT2A, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT2, .pinMux = GPT_PIN_2A, },
357     { .baseAddr = GPT2_BASE, .intNum = INT_GPT2B, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT2, .pinMux = GPT_PIN_2B, },
358     { .baseAddr = GPT3_BASE, .intNum = INT_GPT3A, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT3, .pinMux = GPT_PIN_3A, },
359     { .baseAddr = GPT3_BASE, .intNum = INT_GPT3B, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT3, .pinMux = GPT_PIN_3B, },
360 };
362 /*  GPTimer objects, one per full-width timer (A+B) (Timer 0, Timer 1..) */
363 GPTimerCC26XX_Object gptimerCC26XXObjects[CC2650_I3MOTE_GPTIMERCOUNT];
365 /* GPTimer configuration (used as GPTimer_Handle by driver and application) */
366 const GPTimerCC26XX_Config GPTimerCC26XX_config[CC2650_I3MOTE_GPTIMERPARTSCOUNT] = {
367     { &gptimerCC26XXObjects[0], &gptimerCC26xxHWAttrs[0], GPT_A },
368     { &gptimerCC26XXObjects[0], &gptimerCC26xxHWAttrs[1], GPT_B },
369     { &gptimerCC26XXObjects[1], &gptimerCC26xxHWAttrs[2], GPT_A },
370     { &gptimerCC26XXObjects[1], &gptimerCC26xxHWAttrs[3], GPT_B },
371     { &gptimerCC26XXObjects[2], &gptimerCC26xxHWAttrs[4], GPT_A },
372     { &gptimerCC26XXObjects[2], &gptimerCC26xxHWAttrs[5], GPT_B },
373     { &gptimerCC26XXObjects[3], &gptimerCC26xxHWAttrs[6], GPT_A },
374     { &gptimerCC26XXObjects[3], &gptimerCC26xxHWAttrs[7], GPT_B },
375 };
377 /*
378  *  ============================ GPTimer end ===================================
379  */
383 /*
384  *  ============================= PWM begin ====================================
385  *  Remove unused entries to reduce flash usage both in Board.c and Board.h
386  */
387 /* Place into subsections to allow the TI linker to remove items properly */
388 #if defined(__TI_COMPILER_VERSION__)
389 #pragma DATA_SECTION(PWM_config, ".const:PWM_config")
390 #pragma DATA_SECTION(pwmtimerCC26xxHWAttrs, ".const:pwmtimerCC26xxHWAttrs")
391 #endif
393 /* PWM configuration, one per PWM output.   */
394 PWMTimerCC26XX_HwAttrs pwmtimerCC26xxHWAttrs[CC2650_I3MOTE_PWMCOUNT] = {
395     { .pwmPin = Board_PWMPIN0, .gpTimerUnit = Board_GPTIMER0A },
396     { .pwmPin = Board_PWMPIN1, .gpTimerUnit = Board_GPTIMER0B },
397     { .pwmPin = Board_PWMPIN2, .gpTimerUnit = Board_GPTIMER1A },
398     { .pwmPin = Board_PWMPIN3, .gpTimerUnit = Board_GPTIMER1B },
399     { .pwmPin = Board_PWMPIN4, .gpTimerUnit = Board_GPTIMER2A },
400     { .pwmPin = Board_PWMPIN5, .gpTimerUnit = Board_GPTIMER2B },
401     { .pwmPin = Board_PWMPIN6, .gpTimerUnit = Board_GPTIMER3A },
402     { .pwmPin = Board_PWMPIN7, .gpTimerUnit = Board_GPTIMER3B },
403 };
405 /* PWM object, one per PWM output */
406 PWMTimerCC26XX_Object pwmtimerCC26xxObjects[CC2650_I3MOTE_PWMCOUNT];
408 extern const PWM_FxnTable PWMTimerCC26XX_fxnTable;
410 /* PWM configuration (used as PWM_Handle by driver and application) */
411 const PWM_Config PWM_config[CC2650_I3MOTE_PWMCOUNT + 1] = {
412     { &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[0], &pwmtimerCC26xxHWAttrs[0] },
413     { &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[1], &pwmtimerCC26xxHWAttrs[1] },
414     { &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[2], &pwmtimerCC26xxHWAttrs[2] },
415     { &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[3], &pwmtimerCC26xxHWAttrs[3] },
416     { &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[4], &pwmtimerCC26xxHWAttrs[4] },
417     { &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[5], &pwmtimerCC26xxHWAttrs[5] },
418     { &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[6], &pwmtimerCC26xxHWAttrs[6] },
419     { &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[7], &pwmtimerCC26xxHWAttrs[7] },
420     { NULL,                NULL,                 NULL                 }
421 };
424 /*
425  *  ============================= PWM end ======================================
426  */
428 /*
429  *  ========================== ADCBuf begin =========================================
430  */
431 /* Place into subsections to allow the TI linker to remove items properly */
432 #if defined(__TI_COMPILER_VERSION__)
433 #pragma DATA_SECTION(ADCBuf_config, ".const:ADCBuf_config")
434 #pragma DATA_SECTION(adcBufCC26xxHWAttrs, ".const:adcBufCC26xxHWAttrs")
435 #pragma DATA_SECTION(ADCBufCC26XX_adcChannelLut, ".const:ADCBufCC26XX_adcChannelLut")
436 #endif
438 /* Include drivers */
439 #include <ti/drivers/ADCBuf.h>
440 #include <ti/drivers/adcbuf/ADCBufCC26XX.h>
442 /* ADCBuf objects */
443 ADCBufCC26XX_Object adcBufCC26xxObjects[CC2650_I3MOTE_ADCBufCOUNT];
445 /*
446  *  This table converts a virtual adc channel into a dio and internal analogue input signal.
447  *  This table is necessary for the functioning of the adcBuf driver.
448  *  Comment out unused entries to save flash.
449  *  Dio and internal signal pairs are hardwired. Do not remap them in the table. You may reorder entire entries though.
450  *  The mapping of dio and internal signals is package dependent.
451  */
452 const ADCBufCC26XX_AdcChannelLutEntry ADCBufCC26XX_adcChannelLut[] = {
453     {PIN_UNASSIGNED, ADC_COMPB_IN_VDDS},
454     {PIN_UNASSIGNED, ADC_COMPB_IN_DCOUPL},
455     {PIN_UNASSIGNED, ADC_COMPB_IN_VSS},
456     //{Board_DIO23_ANALOG, ADC_COMPB_IN_AUXIO7},
457     //{Board_DIO24_ANALOG, ADC_COMPB_IN_AUXIO6},
458     //{Board_DIO25_ANALOG, ADC_COMPB_IN_AUXIO5},
459     //{Board_DIO26_ANALOG, ADC_COMPB_IN_AUXIO4},
460     //{Board_DIO27_ANALOG, ADC_COMPB_IN_AUXIO3},
461     //{Board_DIO28_ANALOG, ADC_COMPB_IN_AUXIO2},
462     //{Board_DIO29_ANALOG, ADC_COMPB_IN_AUXIO1},
463     //{Board_DIO30_ANALOG, ADC_COMPB_IN_AUXIO0},
464 };
466 const ADCBufCC26XX_HWAttrs adcBufCC26xxHWAttrs[CC2650_I3MOTE_ADCBufCOUNT] = {
467     {
468         .intPriority = ~0,
469         .swiPriority = 0,
470         .adcChannelLut = ADCBufCC26XX_adcChannelLut,
471         .gpTimerUnit = Board_GPTIMER0A,
472         .gptDMAChannelMask = 1 << UDMA_CHAN_TIMER0_A,
473     }
474 };
476 const ADCBuf_Config ADCBuf_config[] = {
477     {&ADCBufCC26XX_fxnTable, &adcBufCC26xxObjects[0], &adcBufCC26xxHWAttrs[0]},
478     {NULL, NULL, NULL},
479 };
480 /*
481  *  ========================== ADCBuf end =========================================
482  */
486 /*
487  *  ========================== ADC begin =========================================
488  */
489 /* Place into subsections to allow the TI linker to remove items properly */
490 #if defined(__TI_COMPILER_VERSION__)
491 #pragma DATA_SECTION(ADC_config, ".const:ADC_config")
492 #pragma DATA_SECTION(adcCC26xxHWAttrs, ".const:adcCC26xxHWAttrs")
493 #endif
495 /* Include drivers */
496 #include <ti/drivers/ADC.h>
497 #include <ti/drivers/adc/ADCCC26XX.h>
499 /* ADC objects */
500 ADCCC26XX_Object adcCC26xxObjects[CC2650_I3MOTE_ADCCOUNT];
503 const ADCCC26XX_HWAttrs adcCC26xxHWAttrs[CC2650_I3MOTE_ADCCOUNT] = {
504     {
505         .adcDIO = Board_DIO23_ANALOG,
506         .adcCompBInput = ADC_COMPB_IN_AUXIO7,
507         .refSource = ADCCC26XX_FIXED_REFERENCE,
508         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
509         .inputScalingEnabled = true,
510         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
511     },
512     {
513         .adcDIO = Board_DIO24_ANALOG,
514         .adcCompBInput = ADC_COMPB_IN_AUXIO6,
515         .refSource = ADCCC26XX_FIXED_REFERENCE,
516         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
517         .inputScalingEnabled = true,
518         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
519     },
520     {
521         .adcDIO = Board_DIO25_ANALOG,
522         .adcCompBInput = ADC_COMPB_IN_AUXIO5,
523         .refSource = ADCCC26XX_FIXED_REFERENCE,
524         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
525         .inputScalingEnabled = true,
526         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
527     },
528     {
529         .adcDIO = Board_DIO26_ANALOG,
530         .adcCompBInput = ADC_COMPB_IN_AUXIO4,
531         .refSource = ADCCC26XX_FIXED_REFERENCE,
532         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
533         .inputScalingEnabled = true,
534         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
535     },
536     {
537         .adcDIO = Board_DIO27_ANALOG,
538         .adcCompBInput = ADC_COMPB_IN_AUXIO3,
539         .refSource = ADCCC26XX_FIXED_REFERENCE,
540         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
541         .inputScalingEnabled = true,
542         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
543     },
544     {
545         .adcDIO = Board_DIO28_ANALOG,
546         .adcCompBInput = ADC_COMPB_IN_AUXIO2,
547         .refSource = ADCCC26XX_FIXED_REFERENCE,
548         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
549         .inputScalingEnabled = true,
550         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
551     },
552     {
553         .adcDIO = Board_DIO29_ANALOG,
554         .adcCompBInput = ADC_COMPB_IN_AUXIO1,
555         .refSource = ADCCC26XX_FIXED_REFERENCE,
556         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
557         .inputScalingEnabled = true,
558         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
559     },
560     {
561         .adcDIO = Board_DIO30_ANALOG,
562         .adcCompBInput = ADC_COMPB_IN_AUXIO0,
563         .refSource = ADCCC26XX_FIXED_REFERENCE,
564         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_10P9_MS,
565         .inputScalingEnabled = true,
566         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
567     },
568     {
569         .adcDIO = PIN_UNASSIGNED,
570         .adcCompBInput = ADC_COMPB_IN_DCOUPL,
571         .refSource = ADCCC26XX_FIXED_REFERENCE,
572         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
573         .inputScalingEnabled = true,
574         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
575     },
576     {
577         .adcDIO = PIN_UNASSIGNED,
578         .adcCompBInput = ADC_COMPB_IN_VSS,
579         .refSource = ADCCC26XX_FIXED_REFERENCE,
580         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
581         .inputScalingEnabled = true,
582         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
583     },
584     {
585         .adcDIO = PIN_UNASSIGNED,
586         .adcCompBInput = ADC_COMPB_IN_VDDS,
587         .refSource = ADCCC26XX_FIXED_REFERENCE,
588         .samplingDuration = ADCCC26XX_SAMPLING_DURATION_2P7_US,
589         .inputScalingEnabled = true,
590         .triggerSource = ADCCC26XX_TRIGGER_MANUAL
591     }
592 };
594 const ADC_Config ADC_config[] = {
595     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[0], &adcCC26xxHWAttrs[0]},
596     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[1], &adcCC26xxHWAttrs[1]},
597     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[2], &adcCC26xxHWAttrs[2]},
598     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[3], &adcCC26xxHWAttrs[3]},
599     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[4], &adcCC26xxHWAttrs[4]},
600     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[5], &adcCC26xxHWAttrs[5]},
601     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[6], &adcCC26xxHWAttrs[6]},
602     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[7], &adcCC26xxHWAttrs[7]},
603     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[8], &adcCC26xxHWAttrs[8]},
604     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[9], &adcCC26xxHWAttrs[9]},
605     {&ADCCC26XX_fxnTable, &adcCC26xxObjects[10], &adcCC26xxHWAttrs[10]},
606     {NULL, NULL, NULL},
607 };
609 /*
610  *  ========================== ADC end =========================================
611  */