Part Number:CC1310
芯片用的是RHB (5-mm × 5-mm) Pinout 封装,ADC的引脚是接到DIO_10
ADC 初始化如下:
// Define name for ADC channel index
#define BATTERY_ADC 3
static ADC_Params params;
static ADC_Handle adcHandle;
void battery_init(void)
{
ADC_init();
ADC_Params_init(¶ms);
params.isProtected = true;
adcHandle = ADC_open(BATTERY_ADC, ¶ms);
}
uint32_t battery_capacity(void)
{
ADC_convert(adcHandle, &result);
MicroVolts = ADC_convertToMicroVolts(adcHandle, result);
return MicroVolts ;
}
测试ADC的读取是错误的,把BATTERY_ADC 改为2反而能正确读取,从表格上可知,DIO_7~DIO_14 都有ADC功能。
CC1310_LAUNCHXL.h 上ADC的管脚配置已经修改如下:
/* Analog capable DIOs */
#define CC1310_LAUNCHXL_DIO23_ANALOG IOID_7
#define CC1310_LAUNCHXL_DIO24_ANALOG IOID_8
#define CC1310_LAUNCHXL_DIO25_ANALOG IOID_9
#define CC1310_LAUNCHXL_DIO26_ANALOG IOID_10
#define CC1310_LAUNCHXL_DIO27_ANALOG IOID_11
#define CC1310_LAUNCHXL_DIO28_ANALOG IOID_12
#define CC1310_LAUNCHXL_DIO29_ANALOG IOID_13
#define CC1310_LAUNCHXL_DIO30_ANALOG IOID_14
我的问题是:
1. 将宏定义BATTERY_ADC改成2 ADC似乎是正确的,从手册上宏定义BATTERY_ADC改为2读取应该是DIO_9管脚的ADC才对!又或者是我理解错误?
2. 将宏定义BATTERY_ADC改成3 ADC数值读取的值错误,是能读取,但数值不正确。
Alex Zhang:
您好,已经跟进您的问题,谢谢。
,
genyi liu:
好的,现在有进展了吗?
,
Alex Zhang:
有更新会立即回复您
,
genyi liu:
ADC问题有进展了吗
,
Alex Zhang:
将宏定义battery_ADC改为2 ADC似乎是正确的,从手册中宏定义battery_ADC改为2读取ADC应该是DIO_9引脚是正确的!还是我理解错误?
请问你能重新表述一下吗?您到底希望看到什么设备行为?我不完全理解这一点。
,
genyi liu:
板子上的引脚是DIO10,宏定义battery_ADC改为2,ADC能正确读取
,
genyi liu:
#define CC1310_LAUNCHXL_DIO23_ANALOG IOID_7#define CC1310_LAUNCHXL_DIO24_ANALOG IOID_8#define CC1310_LAUNCHXL_DIO25_ANALOG IOID_9#define CC1310_LAUNCHXL_DIO26_ANALOG IOID_10#define CC1310_LAUNCHXL_DIO27_ANALOG IOID_11#define CC1310_LAUNCHXL_DIO28_ANALOG IOID_12#define CC1310_LAUNCHXL_DIO29_ANALOG IOID_13#define CC1310_LAUNCHXL_DIO30_ANALOG IOID_14
从上面的宏定义来看,宏定义battery_ADC改为3才是合理的,不过修改成3,读取的ADC值是错误的
,
Alex Zhang:
已经跟进您的问题,有更新会立即回复您
,
Galaxy Yue:
当你说读数不正确时,
adcHandle = ADC_open(BATTERY_ADC, ¶ms);
我发现你没有检查handle。 请先做检查。 我们会知道输出是否只是随机返回值,或者它是否实际上采用了一些 adc 值。
adc = ADC_open(0, ¶ms); if (adc == NULL) { // ADC_open() failed while (1) {} }
,
genyi liu:
已经加上,然后呢,实测还是一样,
,
genyi liu:
adcHandle 检查是返回正确的
,
genyi liu:
重新复述下我的问题,我是对ADC的管脚对应关系有点疑问,从手册上理解 要读取DIO_10上的ADC,#define BATTERY_ADC 3 才是正确,但实际读取DIO_10上的ADC要把宏定义BATTERY_ADC 设置为2才行,为此向你们求证,是我的理解错误还是手册有错误?
,
Galaxy Yue:
您好,
我在 RGZ 封装上测试了 ADC。 这是我们在 SDK 中提供的。 将 ADC 通道更改为 3 有效。
就您而言,我同意 IOID_10 应该是您将值更改为 3 时的通道。它应该是通道。
我看到您共享了 CC1310_LAUNCHXL.h 中的定义
#define CC1310_LAUNCHXL_DIO23_ANALOG IOID_7 #define CC1310_LAUNCHXL_DIO24_ANALOG IOID_8 #define CC1310_LAUNCHXL_DIO25_ANALOG IOID_9 #define CC1310_LAUNCHXL_DIO26_ANALOG IOID_10 #define CC1310_LAUNCHXL_DIO27_ANALOG IOID_11 #define CC1310_LAUNCHXL_DIO28_ANALOG IOID_12 #define CC1310_LAUNCHXL_DIO29_ANALOG IOID_13 #define CC1310_LAUNCHXL_DIO30_ANALOG IOID_14请检查一下 CC1310_LAUNCHXL.c 的结构是否未更改。 以下结构是实际映射发生的地方。
const ADCCC26XX_HWAttrs adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADCCOUNT] = {{.adcDIO= CC1310_LAUNCHXL_DIO23_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO7,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO24_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO6,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO25_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO5,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO26_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO4,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO27_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO3,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO28_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO2,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO29_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO1,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO30_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO0,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_10P9_MS,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= PIN_UNASSIGNED,.adcCompBInput= ADC_COMPB_IN_DCOUPL,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= PIN_UNASSIGNED,.adcCompBInput= ADC_COMPB_IN_VSS,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= PIN_UNASSIGNED,.adcCompBInput= ADC_COMPB_IN_VDDS,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false} };const ADC_Config ADC_config[CC1310_LAUNCHXL_ADCCOUNT] = {{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC0], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC0]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC1], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC1]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC2], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC2]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC3], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC3]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC4], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC4]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC5], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC5]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC6], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC6]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC7], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC7]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADCDCOUPL], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADCDCOUPL]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADCVSS], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADCVSS]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADCVDDS], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADCVDDS]}, };
,
genyi liu:
/** Copyright (c) 2015-2019, Texas Instruments Incorporated* All rights reserved.** Redistribution and use in source and binary forms, with or without* modification, are permitted provided that the following conditions* are met:** *Redistributions of source code must retain the above copyright*notice, this list of conditions and the following disclaimer.** *Redistributions in binary form must reproduce the above copyright*notice, this list of conditions and the following disclaimer in the*documentation and/or other materials provided with the distribution.** *Neither the name of Texas Instruments Incorporated nor the names of*its contributors may be used to endorse or promote products derived*from this software without specific prior written permission.** THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.*//**====================== CC1310_LAUNCHXL.c ===================================*This file is responsible for setting up the board specific items for the*CC1310_LAUNCHXL board.*/#include <stdbool.h> #include <stddef.h> #include <stdint.h>#include <ti/devices/cc13x0/driverlib/ioc.h> #include <ti/devices/cc13x0/driverlib/udma.h> #include <ti/devices/cc13x0/inc/hw_ints.h> #include <ti/devices/cc13x0/inc/hw_memmap.h>#include "CC1310_LAUNCHXL.h"/**=============================== ADCBuf ===============================*/ #include <ti/drivers/ADCBuf.h> #include <ti/drivers/adcbuf/ADCBufCC26XX.h>ADCBufCC26XX_Object adcBufCC26xxObjects[CC1310_LAUNCHXL_ADCBUFCOUNT];/**This table converts a virtual adc channel into a dio and internal analogue*input signal. This table is necessary for the functioning of the adcBuf*driver. Comment out unused entries to save flash. Dio and internal signal*pairs are hardwired. Do not remap them in the table. You may reorder entire*entries. The mapping of dio and internal signals is package dependent.*/ const ADCBufCC26XX_AdcChannelLutEntry ADCBufCC26XX_adcChannelLut[CC1310_LAUNCHXL_ADCBUF0CHANNELCOUNT] = {{CC1310_LAUNCHXL_DIO23_ANALOG, ADC_COMPB_IN_AUXIO7},{CC1310_LAUNCHXL_DIO24_ANALOG, ADC_COMPB_IN_AUXIO6},{CC1310_LAUNCHXL_DIO25_ANALOG, ADC_COMPB_IN_AUXIO5},{CC1310_LAUNCHXL_DIO26_ANALOG, ADC_COMPB_IN_AUXIO4},{CC1310_LAUNCHXL_DIO27_ANALOG, ADC_COMPB_IN_AUXIO3},{CC1310_LAUNCHXL_DIO28_ANALOG, ADC_COMPB_IN_AUXIO2},{CC1310_LAUNCHXL_DIO29_ANALOG, ADC_COMPB_IN_AUXIO1},{CC1310_LAUNCHXL_DIO30_ANALOG, ADC_COMPB_IN_AUXIO0},{PIN_UNASSIGNED, ADC_COMPB_IN_VDDS},{PIN_UNASSIGNED, ADC_COMPB_IN_DCOUPL},{PIN_UNASSIGNED, ADC_COMPB_IN_VSS}, };const ADCBufCC26XX_HWAttrs adcBufCC26xxHWAttrs[CC1310_LAUNCHXL_ADCBUFCOUNT] = {{.intPriority= ~0,.swiPriority= 0,.adcChannelLut= ADCBufCC26XX_adcChannelLut,} };const ADCBuf_Config ADCBuf_config[CC1310_LAUNCHXL_ADCBUFCOUNT] = {{&ADCBufCC26XX_fxnTable,&adcBufCC26xxObjects[CC1310_LAUNCHXL_ADCBUF0],&adcBufCC26xxHWAttrs[CC1310_LAUNCHXL_ADCBUF0]}, };const uint_least8_t ADCBuf_count = CC1310_LAUNCHXL_ADCBUFCOUNT;/**=============================== ADC ===============================*/ #include <ti/drivers/ADC.h> #include <ti/drivers/adc/ADCCC26XX.h>ADCCC26XX_Object adcCC26xxObjects[CC1310_LAUNCHXL_ADCCOUNT];const ADCCC26XX_HWAttrs adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADCCOUNT] = {{.adcDIO= CC1310_LAUNCHXL_DIO23_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO7,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO24_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO6,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO25_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO5,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO26_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO4,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO27_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO3,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO28_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO2,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO29_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO1,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= CC1310_LAUNCHXL_DIO30_ANALOG,.adcCompBInput= ADC_COMPB_IN_AUXIO0,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_10P9_MS,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= PIN_UNASSIGNED,.adcCompBInput= ADC_COMPB_IN_DCOUPL,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= PIN_UNASSIGNED,.adcCompBInput= ADC_COMPB_IN_VSS,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false},{.adcDIO= PIN_UNASSIGNED,.adcCompBInput= ADC_COMPB_IN_VDDS,.refSource= ADCCC26XX_FIXED_REFERENCE,.samplingDuration= ADCCC26XX_SAMPLING_DURATION_2P7_US,.inputScalingEnabled = true,.triggerSource= ADCCC26XX_TRIGGER_MANUAL,.returnAdjustedVal= false} };const ADC_Config ADC_config[CC1310_LAUNCHXL_ADCCOUNT] = {{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC0], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC0]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC1], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC1]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC2], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC2]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC3], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC3]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC4], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC4]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC5], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC5]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC6], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC6]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADC7], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADC7]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADCDCOUPL], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADCDCOUPL]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADCVSS], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADCVSS]},{&ADCCC26XX_fxnTable, &adcCC26xxObjects[CC1310_LAUNCHXL_ADCVDDS], &adcCC26xxHWAttrs[CC1310_LAUNCHXL_ADCVDDS]}, };const uint_least8_t ADC_count = CC1310_LAUNCHXL_ADCCOUNT;/**=============================== Crypto ===============================*/ #include <ti/drivers/crypto/CryptoCC26XX.h>CryptoCC26XX_Object cryptoCC26XXObjects[CC1310_LAUNCHXL_CRYPTOCOUNT];const CryptoCC26XX_HWAttrs cryptoCC26XXHWAttrs[CC1310_LAUNCHXL_CRYPTOCOUNT] = {{.baseAddr= CRYPTO_BASE,.powerMngrId= PowerCC26XX_PERIPH_CRYPTO,.intNum= INT_CRYPTO_RESULT_AVAIL_IRQ,.intPriority= ~0,} };const CryptoCC26XX_Config CryptoCC26XX_config[CC1310_LAUNCHXL_CRYPTOCOUNT] = {{.object= &cryptoCC26XXObjects[CC1310_LAUNCHXL_CRYPTO0],.hwAttrs = &cryptoCC26XXHWAttrs[CC1310_LAUNCHXL_CRYPTO0]} };/**=============================== AESCCM ===============================*/ #include <ti/drivers/AESCCM.h> #include <ti/drivers/aesccm/AESCCMCC26XX.h>AESCCMCC26XX_Object aesccmCC26XXObjects[CC1310_LAUNCHXL_AESCCMCOUNT];const AESCCMCC26XX_HWAttrs aesccmCC26XXHWAttrs[CC1310_LAUNCHXL_AESCCMCOUNT] = {{.intPriority= ~0,} };const AESCCM_Config AESCCM_config[CC1310_LAUNCHXL_AESCCMCOUNT] = {{.object= &aesccmCC26XXObjects[CC1310_LAUNCHXL_AESCCM0],.hwAttrs = &aesccmCC26XXHWAttrs[CC1310_LAUNCHXL_AESCCM0]}, };const uint_least8_t AESCCM_count = CC1310_LAUNCHXL_AESCCMCOUNT;/**=============================== AESGCM ===============================*/ #include <ti/drivers/AESGCM.h> #include <ti/drivers/aesgcm/AESGCMCC26XX.h>AESGCMCC26XX_Object aesgcmCC26XXObjects[CC1310_LAUNCHXL_AESGCMCOUNT];const AESGCMCC26XX_HWAttrs aesgcmCC26XXHWAttrs[CC1310_LAUNCHXL_AESGCMCOUNT] = {{.intPriority= ~0,} };const AESGCM_Config AESGCM_config[CC1310_LAUNCHXL_AESGCMCOUNT] = {{.object= &aesgcmCC26XXObjects[CC1310_LAUNCHXL_AESGCM0],.hwAttrs = &aesgcmCC26XXHWAttrs[CC1310_LAUNCHXL_AESGCM0]}, };const uint_least8_t AESGCM_count = CC1310_LAUNCHXL_AESGCMCOUNT;/**=============================== AESCBC ===============================*/ #include <ti/drivers/AESCBC.h> #include <ti/drivers/aescbc/AESCBCCC26XX.h>AESCBCCC26XX_Object aescbcCC26XXObjects[CC1310_LAUNCHXL_AESCBCCOUNT];const AESCBCCC26XX_HWAttrs aescbcCC26XXHWAttrs[CC1310_LAUNCHXL_AESCBCCOUNT] = {{.intPriority= ~0,} };const AESCBC_Config AESCBC_config[CC1310_LAUNCHXL_AESCBCCOUNT] = {{.object= &aescbcCC26XXObjects[CC1310_LAUNCHXL_AESCBC0],.hwAttrs = &aescbcCC26XXHWAttrs[CC1310_LAUNCHXL_AESCBC0]}, };const uint_least8_t AESCBC_count = CC1310_LAUNCHXL_AESCBCCOUNT;/**=============================== AESCTR ===============================*/ #include <ti/drivers/AESCTR.h> #include <ti/drivers/aesctr/AESCTRCC26XX.h>AESCTRCC26XX_Object aesctrCC26XXObjects[CC1310_LAUNCHXL_AESCTRCOUNT];const AESCTRCC26XX_HWAttrs aesctrCC26XXHWAttrs[CC1310_LAUNCHXL_AESCTRCOUNT] = {{.intPriority= ~0,} };const AESCTR_Config AESCTR_config[CC1310_LAUNCHXL_AESCTRCOUNT] = {{.object= &aesctrCC26XXObjects[CC1310_LAUNCHXL_AESCTR0],.hwAttrs = &aesctrCC26XXHWAttrs[CC1310_LAUNCHXL_AESCTR0]}, };const uint_least8_t AESCTR_count = CC1310_LAUNCHXL_AESCTRCOUNT;/**=============================== AESECB ===============================*/ #include <ti/drivers/AESECB.h> #include <ti/drivers/aesecb/AESECBCC26XX.h>AESECBCC26XX_Object aesecbCC26XXObjects[CC1310_LAUNCHXL_AESECBCOUNT];const AESECBCC26XX_HWAttrs aesecbCC26XXHWAttrs[CC1310_LAUNCHXL_AESECBCOUNT] = {{.intPriority= ~0,} };const AESECB_Config AESECB_config[CC1310_LAUNCHXL_AESECBCOUNT] = {{.object= &aesecbCC26XXObjects[CC1310_LAUNCHXL_AESECB0],.hwAttrs = &aesecbCC26XXHWAttrs[CC1310_LAUNCHXL_AESECB0]}, };const uint_least8_t AESECB_count = CC1310_LAUNCHXL_AESECBCOUNT;/**=============================== AESCTRDRBG ===============================*/ #include <ti/drivers/AESCTRDRBG.h> #include <ti/drivers/aesctrdrbg/AESCTRDRBGXX.h>AESCTRDRBGXX_Object aesctrdrbgXXObjects[CC1310_LAUNCHXL_AESCTRDRBGCOUNT];const AESCTRDRBGXX_HWAttrs aesctrdrbgXXHWAttrs[CC1310_LAUNCHXL_AESCTRDRBGCOUNT] = {{.aesctrIndex= CC1310_LAUNCHXL_AESCTR0,} };const AESCTRDRBG_Config AESCTRDRBG_config[CC1310_LAUNCHXL_AESCTRDRBGCOUNT] = {{.object= &aesctrdrbgXXObjects[CC1310_LAUNCHXL_AESCTRDRBG0],.hwAttrs = &aesctrdrbgXXHWAttrs[CC1310_LAUNCHXL_AESCTRDRBG0]}, };const uint_least8_t AESCTRDRBG_count = CC1310_LAUNCHXL_AESCTRDRBGCOUNT;/**=============================== TRNG ===============================*/ #include <ti/drivers/TRNG.h> #include <ti/drivers/trng/TRNGCC26XX.h>TRNGCC26XX_Object trngCC26XXObjects[CC1310_LAUNCHXL_TRNGCOUNT];const TRNGCC26XX_HWAttrs trngCC26X2HWAttrs[CC1310_LAUNCHXL_TRNGCOUNT] = {{.intPriority= ~0,.swiPriority= 0,.samplesPerCycle= 240000,} };const TRNG_Config TRNG_config[CC1310_LAUNCHXL_TRNGCOUNT] = {{.object= &trngCC26XXObjects[CC1310_LAUNCHXL_TRNG0],.hwAttrs = &trngCC26X2HWAttrs[CC1310_LAUNCHXL_TRNG0]}, };const uint_least8_t TRNG_count = CC1310_LAUNCHXL_TRNGCOUNT;/**=============================== Display ===============================*/ #include <ti/display/Display.h> #include <ti/display/DisplayUart.h> #include <ti/display/DisplaySharp.h>#ifndef BOARD_DISPLAY_UART_STRBUF_SIZE #define BOARD_DISPLAY_UART_STRBUF_SIZE128 #endif/* This value can be changed to 96 for use with the 430BOOST-SHARP96 BoosterPack. */ #define BOARD_DISPLAY_SHARP_SIZE128DisplayUart_ObjectdisplayUartObject; DisplaySharp_ObjectdisplaySharpObject;static char uartStringBuf[BOARD_DISPLAY_UART_STRBUF_SIZE]; static uint_least8_t sharpDisplayBuf[BOARD_DISPLAY_SHARP_SIZE * BOARD_DISPLAY_SHARP_SIZE / 8];const DisplayUart_HWAttrs displayUartHWAttrs = {.uartIdx= CC1310_LAUNCHXL_UART0,.baudRate= 115200,.mutexTimeout = (unsigned int)(-1),.strBuf= uartStringBuf,.strBufLen= BOARD_DISPLAY_UART_STRBUF_SIZE, };const DisplaySharp_HWAttrsV1 displaySharpHWattrs = {.spiIndex= CC1310_LAUNCHXL_SPI0,.csPin= CC1310_LAUNCHXL_GPIO_LCD_CS,.powerPin= CC1310_LAUNCHXL_GPIO_LCD_POWER,.enablePin= CC1310_LAUNCHXL_GPIO_LCD_ENABLE,.pixelWidth= BOARD_DISPLAY_SHARP_SIZE,.pixelHeight = BOARD_DISPLAY_SHARP_SIZE,.displayBuf= sharpDisplayBuf, };#ifndef BOARD_DISPLAY_USE_UART #define BOARD_DISPLAY_USE_UART 1 #endif #ifndef BOARD_DISPLAY_USE_UART_ANSI #define BOARD_DISPLAY_USE_UART_ANSI 0 #endif #ifndef BOARD_DISPLAY_USE_LCD #define BOARD_DISPLAY_USE_LCD 0 #endif/** This #if/#else is needed to workaround a problem with the* IAR compiler. The IAR compiler doesn't like the empty array* initialization. (IAR Error[Pe1345])*/ #if (BOARD_DISPLAY_USE_UART || BOARD_DISPLAY_USE_LCD)const Display_Config Display_config[] = { #if (BOARD_DISPLAY_USE_UART){ #if (BOARD_DISPLAY_USE_UART_ANSI).fxnTablePtr = &DisplayUartAnsi_fxnTable, #else /* Default to minimal UART with no cursor placement */.fxnTablePtr = &DisplayUartMin_fxnTable, #endif.object= &displayUartObject,.hwAttrs= &displayUartHWAttrs,}, #endif #if (BOARD_DISPLAY_USE_LCD){.fxnTablePtr = &DisplaySharp_fxnTable,.object= &displaySharpObject,.hwAttrs= &displaySharpHWattrs}, #endif };const uint_least8_t Display_count = sizeof(Display_config) / sizeof(Display_Config);#elseconst Display_Config *Display_config = NULL; const uint_least8_t Display_count = 0;#endif /* (BOARD_DISPLAY_USE_UART || BOARD_DISPLAY_USE_LCD) *//**=============================== GPIO ===============================*/ #include <ti/drivers/GPIO.h> #include <ti/drivers/gpio/GPIOCC26XX.h>/** Array of Pin configurations* NOTE: The order of the pin configurations must coincide with what was*defined in CC1310_LAUNCHXL.h* NOTE: Pins not used for interrupts should be placed at the end of the*array. Callback entries can be omitted from callbacks array to*reduce memory usage.*/ GPIO_PinConfig gpioPinConfigs[] = {/* Input pins */GPIOCC26XX_DIO_13 | GPIO_DO_NOT_CONFIG,/* Button 0 */GPIOCC26XX_DIO_14 | GPIO_DO_NOT_CONFIG,/* Button 1 */GPIOCC26XX_DIO_15 | GPIO_DO_NOT_CONFIG,/* CC1310_LAUNCHXL_SPI_MASTER_READY */GPIOCC26XX_DIO_21 | GPIO_DO_NOT_CONFIG,/* CC1310_LAUNCHXL_SPI_SLAVE_READY *//* Output pins */GPIOCC26XX_DIO_07 | GPIO_DO_NOT_CONFIG,/* Green LED */GPIOCC26XX_DIO_06 | GPIO_DO_NOT_CONFIG,/* Red LED */GPIOCC26XX_DIO_30 | GPIO_DO_NOT_CONFIG,/* TMP116_EN *//* SPI Flash CSN */GPIOCC26XX_DIO_20 | GPIO_DO_NOT_CONFIG,/* SD CS */GPIOCC26XX_DIO_21 | GPIO_DO_NOT_CONFIG,/* Sharp Display - GPIO configurations will be done in the Display files */GPIOCC26XX_DIO_24 | GPIO_DO_NOT_CONFIG, /* SPI chip select */GPIOCC26XX_DIO_22 | GPIO_DO_NOT_CONFIG, /* LCD power control */GPIOCC26XX_DIO_23 | GPIO_DO_NOT_CONFIG, /*LCD enable */};/** Array of callback function pointers* NOTE: The order of the pin configurations must coincide with what was*defined in CC1310_LAUNCH.h* NOTE: Pins not used for interrupts can be omitted from callbacks array to*reduce memory usage (if placed at end of gpioPinConfigs array).*/ GPIO_CallbackFxn gpioCallbackFunctions[] = {NULL,/* Button 0 */NULL,/* Button 1 */NULL,/* CC1310_LAUNCHXL_SPI_MASTER_READY */NULL,/* CC1310_LAUNCHXL_SPI_SLAVE_READY */ };const GPIOCC26XX_Config GPIOCC26XX_config = {.pinConfigs = (GPIO_PinConfig *)gpioPinConfigs,.callbacks = (GPIO_CallbackFxn *)gpioCallbackFunctions,.numberOfPinConfigs = CC1310_LAUNCHXL_GPIOCOUNT,.numberOfCallbacks= sizeof(gpioCallbackFunctions)/sizeof(GPIO_CallbackFxn),.intPriority = (~0) };/**=============================== GPTimer ===============================*Remove unused entries to reduce flash usage both in Board.c and Board.h*/ #include <ti/drivers/timer/GPTimerCC26XX.h>GPTimerCC26XX_Object gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMERCOUNT];const GPTimerCC26XX_HWAttrs gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMERPARTSCOUNT] = {{ .baseAddr = GPT0_BASE, .intNum = INT_GPT0A, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT0, .pinMux = GPT_PIN_0A, },{ .baseAddr = GPT0_BASE, .intNum = INT_GPT0B, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT0, .pinMux = GPT_PIN_0B, },{ .baseAddr = GPT1_BASE, .intNum = INT_GPT1A, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT1, .pinMux = GPT_PIN_1A, },{ .baseAddr = GPT1_BASE, .intNum = INT_GPT1B, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT1, .pinMux = GPT_PIN_1B, },{ .baseAddr = GPT2_BASE, .intNum = INT_GPT2A, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT2, .pinMux = GPT_PIN_2A, },{ .baseAddr = GPT2_BASE, .intNum = INT_GPT2B, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT2, .pinMux = GPT_PIN_2B, },{ .baseAddr = GPT3_BASE, .intNum = INT_GPT3A, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT3, .pinMux = GPT_PIN_3A, },{ .baseAddr = GPT3_BASE, .intNum = INT_GPT3B, .intPriority = (~0), .powerMngrId = PowerCC26XX_PERIPH_GPT3, .pinMux = GPT_PIN_3B, }, };const GPTimerCC26XX_Config GPTimerCC26XX_config[CC1310_LAUNCHXL_GPTIMERPARTSCOUNT] = {{ &gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMER0], &gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMER0A], GPT_A },{ &gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMER0], &gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMER0B], GPT_B },{ &gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMER1], &gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMER1A], GPT_A },{ &gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMER1], &gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMER1B], GPT_B },{ &gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMER2], &gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMER2A], GPT_A },{ &gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMER2], &gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMER2B], GPT_B },{ &gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMER3], &gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMER3A], GPT_A },{ &gptimerCC26XXObjects[CC1310_LAUNCHXL_GPTIMER3], &gptimerCC26xxHWAttrs[CC1310_LAUNCHXL_GPTIMER3B], GPT_B }, };/**=============================== I2C =============================== */ #include <ti/drivers/I2C.h> #include <ti/drivers/i2c/I2CCC26XX.h>I2CCC26XX_Object i2cCC26xxObjects[CC1310_LAUNCHXL_I2CCOUNT];const I2CCC26XX_HWAttrsV1 i2cCC26xxHWAttrs[CC1310_LAUNCHXL_I2CCOUNT] = {{.baseAddr= I2C0_BASE,.powerMngrId = PowerCC26XX_PERIPH_I2C0,.intNum= INT_I2C_IRQ,.intPriority = ~0,.swiPriority = 0,.sdaPin= CC1310_LAUNCHXL_I2C0_SDA0,.sclPin= CC1310_LAUNCHXL_I2C0_SCL0,} };const I2C_Config I2C_config[CC1310_LAUNCHXL_I2CCOUNT] = {{.fxnTablePtr = &I2CCC26XX_fxnTable,.object= &i2cCC26xxObjects[CC1310_LAUNCHXL_I2C0],.hwAttrs= &i2cCC26xxHWAttrs[CC1310_LAUNCHXL_I2C0]} };const uint_least8_t I2C_count = CC1310_LAUNCHXL_I2CCOUNT;/**=============================== I2S =============================== */ #include <ti/drivers/I2S.h> #include <ti/drivers/i2s/I2SCC26XX.h>I2SCC26XX_Object i2sCC26XXObjects[CC1310_LAUNCHXL_I2SCOUNT];const I2SCC26XX_HWAttrs i2sCC26XXHWAttrs[CC1310_LAUNCHXL_I2SCOUNT] = {{.pinSD1=CC1310_LAUNCHXL_I2S_ADI,.pinSD0=CC1310_LAUNCHXL_I2S_ADO,.pinSCK=CC1310_LAUNCHXL_I2S_BCLK,.pinMCLK=CC1310_LAUNCHXL_I2S_MCLK,.pinWS=CC1310_LAUNCHXL_I2S_WCLK,.intPriority = ~0,} };const I2S_Config I2S_config[CC1310_LAUNCHXL_I2SCOUNT] = {{.object= &i2sCC26XXObjects[CC1310_LAUNCHXL_I2S0],.hwAttrs= &i2sCC26XXHWAttrs[CC1310_LAUNCHXL_I2S0]}, };const uint_least8_t I2S_count = CC1310_LAUNCHXL_I2SCOUNT;/**=============================== NVS ===============================*/ #include <ti/drivers/NVS.h> #include <ti/drivers/nvs/NVSSPI25X.h> #include <ti/drivers/nvs/NVSCC26XX.h>#define NVS_REGIONS_BASE 0x1A000 #define SECTORSIZE0x1000 #define REGIONSIZE(SECTORSIZE * 4)#ifndef Board_EXCLUDE_NVS_INTERNAL_FLASH/** Reserve flash sectors for NVS driver use by placing an uninitialized byte* array at the desired flash address.*/ #if defined(__TI_COMPILER_VERSION__)/** Place uninitialized array at NVS_REGIONS_BASE*/ #pragma LOCATION(flashBuf, NVS_REGIONS_BASE); #pragma NOINIT(flashBuf); static char flashBuf[REGIONSIZE];#elif defined(__IAR_SYSTEMS_ICC__)/** Place uninitialized array at NVS_REGIONS_BASE*/ static __no_init char flashBuf[REGIONSIZE] @ NVS_REGIONS_BASE;#elif defined(__GNUC__)/** Place the flash buffers in the .nvs section created in the gcc linker file.* The .nvs section enforces alignment on a sector boundary but may* be placed anywhere in flash memory.If desired the .nvs section can be set* to a fixed address by changing the following in the gcc linker file:** .nvs (FIXED_FLASH_ADDR) (NOLOAD) : AT (FIXED_FLASH_ADDR) {**(.nvs)* } > REGION_TEXT*/ __attribute__ ((section (".nvs"))) static char flashBuf[REGIONSIZE];#endif/* Allocate objects for NVS Internal Regions */ NVSCC26XX_Object nvsCC26xxObjects[1];/* Hardware attributes for NVS Internal Regions */ const NVSCC26XX_HWAttrs nvsCC26xxHWAttrs[1] = {{.regionBase = (void *)flashBuf,.regionSize = REGIONSIZE,}, };#endif /* Board_EXCLUDE_NVS_INTERNAL_FLASH */#ifndef Board_EXCLUDE_NVS_EXTERNAL_FLASH#define SPISECTORSIZE0x1000 #define SPIREGIONSIZE(SPISECTORSIZE * 32) #define VERIFYBUFSIZE64static uint8_t verifyBuf[VERIFYBUFSIZE];/* Allocate objects for NVS External Regions */ NVSSPI25X_Object nvsSPI25XObjects[1];/* Hardware attributes for NVS External Regions */ const NVSSPI25X_HWAttrs nvsSPI25XHWAttrs[1] = {{.regionBaseOffset = 0,.regionSize = SPIREGIONSIZE,.sectorSize = SPISECTORSIZE,.verifyBuf = verifyBuf,.verifyBufSize = VERIFYBUFSIZE,.spiHandle = NULL,.spiIndex = 0,.spiBitRate = 4000000,.spiCsnGpioIndex = CC1310_LAUNCHXL_GPIO_SPI_FLASH_CS,.statusPollDelayUs = 100,}, };#endif /* Board_EXCLUDE_NVS_EXTERNAL_FLASH *//* NVS Region index 0 and 1 refer to NVS and NVS SPI respectively */ const NVS_Config NVS_config[CC1310_LAUNCHXL_NVSCOUNT] = { #ifndef Board_EXCLUDE_NVS_INTERNAL_FLASH{.fxnTablePtr = &NVSCC26XX_fxnTable,.object = &nvsCC26xxObjects[0],.hwAttrs = &nvsCC26xxHWAttrs[0],}, #endif #ifndef Board_EXCLUDE_NVS_EXTERNAL_FLASH{.fxnTablePtr = &NVSSPI25X_fxnTable,.object = &nvsSPI25XObjects[0],.hwAttrs = &nvsSPI25XHWAttrs[0],}, #endif };const uint_least8_t NVS_count = CC1310_LAUNCHXL_NVSCOUNT;/**=============================== PIN ===============================*/ #include <ti/drivers/PIN.h> #include <ti/drivers/pin/PINCC26XX.h>const PIN_Config BoardGpioInitTable[] = {IOID_3| PIN_INPUT_EN| PIN_PULLUP ,IOID_4| PIN_INPUT_EN| PIN_PULLDOWN ,CC1310_LAUNCHXL_I2C0_SCL0 | PIN_INPUT_EN| PIN_PULLDOWN ,CC1310_LAUNCHXL_I2C0_SDA0 | PIN_INPUT_EN| PIN_PULLDOWN ,CC1310_LAUNCHXL_PIN_VOL_UP| PIN_INPUT_EN| PIN_PULLUP,/* Button is active low*/CC1310_LAUNCHXL_PIN_VOL_DN| PIN_INPUT_EN| PIN_PULLUP,/* Button is active low*/CC1310_LAUNCHXL_PIN_MUTE| PIN_INPUT_EN| PIN_PULLUP,/* Button is active low*/CC1310_LAUNCHXL_PIN_C_F| PIN_INPUT_EN,//| PIN_PULLUP,/* Button is active low*/CC1310_LAUNCHXL_UART_RX | PIN_INPUT_EN | PIN_PULLDOWN,/* UART RX via debugger back channel */CC1310_LAUNCHXL_UART_TX | PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL,/* UART TX via debugger back channel */CC1310_LAUNCHXL_PIN_HALL| PIN_INPUT_EN|PIN_PULLUP,/* 体温贴入盒检测低入盒*/CC1310_LAUNCHXL_PIN_USB| PIN_INPUT_EN|PIN_PULLUP,CC1310_LAUNCHXL_PIN_CHG_DONE| PIN_INPUT_EN|PIN_PULLUP,CC1310_LAUNCHXL_PIN_CHG_EN| PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL | PIN_DRVSTR_MAX,/* 体温贴充电控制管脚*/CC1310_LAUNCHXL_PWMPIN2| PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL | PIN_DRVSTR_MAX,/* 蜂鸣器*/IOID_7| PIN_INPUT_EN| PIN_PULLUP ,//IOID_10| PIN_INPUT_EN| PIN_PULLUP ,//IOID_9| PIN_GPIO_OUTPUT_EN | PIN_GPIO_HIGH | PIN_PUSHPULL | PIN_DRVSTR_MAX,//IOID_10| PIN_GPIO_OUTPUT_EN | PIN_GPIO_LOW | PIN_PUSHPULL | PIN_DRVSTR_MAX,PIN_TERMINATE };const PINCC26XX_HWAttrs PINCC26XX_hwAttrs = {.intPriority = ~0,.swiPriority = 0 };/**=============================== Power ===============================*/ #include <ti/drivers/Power.h> #include <ti/drivers/power/PowerCC26XX.h>const PowerCC26XX_Config PowerCC26XX_config = {.policyInitFxn= NULL,.policyFxn= &PowerCC26XX_standbyPolicy,.calibrateFxn= &PowerCC26XX_calibrate,.enablePolicy= true,.calibrateRCOSC_LF= true,.calibrateRCOSC_HF= true, };/**=============================== PWM ===============================*Remove unused entries to reduce flash usage both in Board.c and Board.h*/ #include <ti/drivers/PWM.h> #include <ti/drivers/pwm/PWMTimerCC26XX.h>PWMTimerCC26XX_Object pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWMCOUNT];const PWMTimerCC26XX_HwAttrs pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWMCOUNT] = {{ .pwmPin = CC1310_LAUNCHXL_PWMPIN0, .gpTimerUnit = CC1310_LAUNCHXL_GPTIMER0A },{ .pwmPin = CC1310_LAUNCHXL_PWMPIN1, .gpTimerUnit = CC1310_LAUNCHXL_GPTIMER0B },{ .pwmPin = CC1310_LAUNCHXL_PWMPIN2, .gpTimerUnit = CC1310_LAUNCHXL_GPTIMER1A },{ .pwmPin = CC1310_LAUNCHXL_PWMPIN3, .gpTimerUnit = CC1310_LAUNCHXL_GPTIMER1B },{ .pwmPin = CC1310_LAUNCHXL_PWMPIN4, .gpTimerUnit = CC1310_LAUNCHXL_GPTIMER2A },{ .pwmPin = CC1310_LAUNCHXL_PWMPIN5, .gpTimerUnit = CC1310_LAUNCHXL_GPTIMER2B },{ .pwmPin = CC1310_LAUNCHXL_PWMPIN6, .gpTimerUnit = CC1310_LAUNCHXL_GPTIMER3A },{ .pwmPin = CC1310_LAUNCHXL_PWMPIN7, .gpTimerUnit = CC1310_LAUNCHXL_GPTIMER3B }, };const PWM_Config PWM_config[CC1310_LAUNCHXL_PWMCOUNT] = {{ &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWM0], &pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWM0] },{ &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWM1], &pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWM1] },{ &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWM2], &pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWM2] },{ &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWM3], &pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWM3] },{ &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWM4], &pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWM4] },{ &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWM5], &pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWM5] },{ &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWM6], &pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWM6] },{ &PWMTimerCC26XX_fxnTable, &pwmtimerCC26xxObjects[CC1310_LAUNCHXL_PWM7], &pwmtimerCC26xxHWAttrs[CC1310_LAUNCHXL_PWM7] }, };const uint_least8_t PWM_count = CC1310_LAUNCHXL_PWMCOUNT;/**=============================== RF Driver ===============================*/ #include <ti/drivers/rf/RF.h>const RFCC26XX_HWAttrsV2 RFCC26XX_hwAttrs = {.hwiPriority= ~0,/* Lowest HWI priority */.swiPriority= 0,/* Lowest SWI priority */.xoscHfAlwaysNeeded = true,/* Keep XOSC dependency while in standby */.globalCallback= NULL,/* No board specific callback */.globalEventMask= 0/* No events subscribed to */ };/**=============================== SD ===============================*/ #include <ti/drivers/SD.h> #include <ti/drivers/sd/SDSPI.h>SDSPI_Object sdspiObjects[CC1310_LAUNCHXL_SDCOUNT];const SDSPI_HWAttrs sdspiHWAttrs[CC1310_LAUNCHXL_SDCOUNT] = {{.spiIndex = CC1310_LAUNCHXL_SPI0,.spiCsGpioIndex = CC1310_LAUNCHXL_SDSPI_CS} };const SD_Config SD_config[CC1310_LAUNCHXL_SDCOUNT] = {{.fxnTablePtr = &SDSPI_fxnTable,.object = &sdspiObjects[CC1310_LAUNCHXL_SDSPI0],.hwAttrs = &sdspiHWAttrs[CC1310_LAUNCHXL_SDSPI0]}, };const uint_least8_t SD_count = CC1310_LAUNCHXL_SDCOUNT;/**=============================== SPI DMA ===============================*/ #include <ti/drivers/SPI.h> #include <ti/drivers/spi/SPICC26XXDMA.h>SPICC26XXDMA_Object spiCC26XXDMAObjects[CC1310_LAUNCHXL_SPICOUNT];/** NOTE: The SPI instances below can be used by the SD driver to communicate* with a SD card via SPI.The 'defaultTxBufValue' fields below are set to 0xFF* to satisfy the SDSPI driver requirement.*/ const SPICC26XXDMA_HWAttrsV1 spiCC26XXDMAHWAttrs[CC1310_LAUNCHXL_SPICOUNT] = {{.baseAddr= SSI0_BASE,.intNum= INT_SSI0_COMB,.intPriority= ~0,.swiPriority= 0,.powerMngrId= PowerCC26XX_PERIPH_SSI0,.defaultTxBufValue= 0xFF,.rxChannelBitMask= 1<<UDMA_CHAN_SSI0_RX,.txChannelBitMask= 1<<UDMA_CHAN_SSI0_TX,.mosiPin= CC1310_LAUNCHXL_SPI0_MOSI,.misoPin= CC1310_LAUNCHXL_SPI0_MISO,.clkPin= CC1310_LAUNCHXL_SPI0_CLK,.csnPin= CC1310_LAUNCHXL_SPI0_CSN,.minDmaTransferSize = 10},{.baseAddr= SSI1_BASE,.intNum= INT_SSI1_COMB,.intPriority= ~0,.swiPriority= 0,.powerMngrId= PowerCC26XX_PERIPH_SSI1,.defaultTxBufValue= 0xFF,.rxChannelBitMask= 1<<UDMA_CHAN_SSI1_RX,.txChannelBitMask= 1<<UDMA_CHAN_SSI1_TX,.mosiPin= CC1310_LAUNCHXL_SPI1_MOSI,.misoPin= CC1310_LAUNCHXL_SPI1_MISO,.clkPin= CC1310_LAUNCHXL_SPI1_CLK,.csnPin= CC1310_LAUNCHXL_SPI1_CSN,.minDmaTransferSize = 10} };const SPI_Config SPI_config[CC1310_LAUNCHXL_SPICOUNT] = {{.fxnTablePtr = &SPICC26XXDMA_fxnTable,.object= &spiCC26XXDMAObjects[CC1310_LAUNCHXL_SPI0],.hwAttrs= &spiCC26XXDMAHWAttrs[CC1310_LAUNCHXL_SPI0]},{.fxnTablePtr = &SPICC26XXDMA_fxnTable,.object= &spiCC26XXDMAObjects[CC1310_LAUNCHXL_SPI1],.hwAttrs= &spiCC26XXDMAHWAttrs[CC1310_LAUNCHXL_SPI1]}, };const uint_least8_t SPI_count = CC1310_LAUNCHXL_SPICOUNT;/**=============================== UART ===============================*/ #include <ti/drivers/UART.h> #include <ti/drivers/uart/UARTCC26XX.h>UARTCC26XX_Object uartCC26XXObjects[CC1310_LAUNCHXL_UARTCOUNT];uint8_t uartCC26XXRingBuffer[CC1310_LAUNCHXL_UARTCOUNT][32];const UARTCC26XX_HWAttrsV2 uartCC26XXHWAttrs[CC1310_LAUNCHXL_UARTCOUNT] = {{.baseAddr= UART0_BASE,.powerMngrId= PowerCC26XX_PERIPH_UART0,.intNum= INT_UART0_COMB,.intPriority= ~0,.swiPriority= 0,.txPin= CC1310_LAUNCHXL_UART_TX,.rxPin= CC1310_LAUNCHXL_UART_RX,.ctsPin= PIN_UNASSIGNED,.rtsPin= PIN_UNASSIGNED,.ringBufPtr= uartCC26XXRingBuffer[CC1310_LAUNCHXL_UART0],.ringBufSize= sizeof(uartCC26XXRingBuffer[CC1310_LAUNCHXL_UART0]),.txIntFifoThr= UARTCC26XX_FIFO_THRESHOLD_1_8,.rxIntFifoThr= UARTCC26XX_FIFO_THRESHOLD_4_8,.errorFxn= NULL} };const UART_Config UART_config[CC1310_LAUNCHXL_UARTCOUNT] = {{.fxnTablePtr = &UARTCC26XX_fxnTable,.object= &uartCC26XXObjects[CC1310_LAUNCHXL_UART0],.hwAttrs= &uartCC26XXHWAttrs[CC1310_LAUNCHXL_UART0]}, };const uint_least8_t UART_count = CC1310_LAUNCHXL_UARTCOUNT;/**=============================== UDMA ===============================*/ #include <ti/drivers/dma/UDMACC26XX.h>UDMACC26XX_Object udmaObjects[CC1310_LAUNCHXL_UDMACOUNT];const UDMACC26XX_HWAttrs udmaHWAttrs[CC1310_LAUNCHXL_UDMACOUNT] = {{.baseAddr= UDMA0_BASE,.powerMngrId = PowerCC26XX_PERIPH_UDMA,.intNum= INT_DMA_ERR,.intPriority = ~0} };const UDMACC26XX_Config UDMACC26XX_config[CC1310_LAUNCHXL_UDMACOUNT] = {{.object= &udmaObjects[CC1310_LAUNCHXL_UDMA0],.hwAttrs = &udmaHWAttrs[CC1310_LAUNCHXL_UDMA0]}, };/**=============================== Watchdog ===============================*/ #include <ti/drivers/Watchdog.h> #include <ti/drivers/watchdog/WatchdogCC26XX.h>WatchdogCC26XX_Object watchdogCC26XXObjects[CC1310_LAUNCHXL_WATCHDOGCOUNT];const WatchdogCC26XX_HWAttrs watchdogCC26XXHWAttrs[CC1310_LAUNCHXL_WATCHDOGCOUNT] = {{.baseAddr= WDT_BASE,.reloadValue = 1000 /* Reload value in milliseconds */}, };const Watchdog_Config Watchdog_config[CC1310_LAUNCHXL_WATCHDOGCOUNT] = {{.fxnTablePtr = &WatchdogCC26XX_fxnTable,.object= &watchdogCC26XXObjects[CC1310_LAUNCHXL_WATCHDOG0],.hwAttrs= &watchdogCC26XXHWAttrs[CC1310_LAUNCHXL_WATCHDOG0]}, };const uint_least8_t Watchdog_count = CC1310_LAUNCHXL_WATCHDOGCOUNT;/**Board-specific initialization function to disable external flash.*This function is defined in the file CC1310_LAUNCHXL_fxns.c*/ //extern void Board_initHook(void);/**======== CC1310_LAUNCHXL_initGeneral ========*/ void CC1310_LAUNCHXL_initGeneral(void) {Power_init();if (PIN_init(BoardGpioInitTable) != PIN_SUCCESS) {/* Error with PIN_init */while (1);}/* Perform board-specific initialization *///Board_initHook(); }/**======== Board_init ========*/ void Board_init(void) {CC1310_LAUNCHXL_initGeneral(); }
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genyi liu:
CC1310_LAUNCHXL.c 的结构是没更改,你可以对比下代码
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Galaxy Yue:
我没有发现我们系统中的 DIO 映射有任何报告的问题/勘误表。
请您发送完整的 CC1310_LAUNCHXL.c 和 CC1310_LAUNCHXL.h 以及您的设计原理图。 我们需要知道 DIO 如何与您正在测量的对象连接。