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rt-thread/bsp/hc32l136/Libraries/HC32L136_StdPeriph_Driver/inc/vc.h

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1.增加hc32l136 bsp工程文件
2021-08-21 14:10:33 +08:00
/******************************************************************************
* Copyright (C) 2017, Huada Semiconductor Co.,Ltd All rights reserved.
*
* This software is owned and published by:
* Huada Semiconductor Co.,Ltd ("HDSC").
*
* BY DOWNLOADING, INSTALLING OR USING THIS SOFTWARE, YOU AGREE TO BE BOUND
* BY ALL THE TERMS AND CONDITIONS OF THIS AGREEMENT.
*
* This software contains source code for use with HDSC
* components. This software is licensed by HDSC to be adapted only
* for use in systems utilizing HDSC components. HDSC shall not be
* responsible for misuse or illegal use of this software for devices not
* supported herein. HDSC is providing this software "AS IS" and will
* not be responsible for issues arising from incorrect user implementation
* of the software.
*
* Disclaimer:
* HDSC MAKES NO WARRANTY, EXPRESS OR IMPLIED, ARISING BY LAW OR OTHERWISE,
* REGARDING THE SOFTWARE (INCLUDING ANY ACOOMPANYING WRITTEN MATERIALS),
* ITS PERFORMANCE OR SUITABILITY FOR YOUR INTENDED USE, INCLUDING,
* WITHOUT LIMITATION, THE IMPLIED WARRANTY OF MERCHANTABILITY, THE IMPLIED
* WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE OR USE, AND THE IMPLIED
* WARRANTY OF NONINFRINGEMENT.
* HDSC SHALL HAVE NO LIABILITY (WHETHER IN CONTRACT, WARRANTY, TORT,
* NEGLIGENCE OR OTHERWISE) FOR ANY DAMAGES WHATSOEVER (INCLUDING, WITHOUT
* LIMITATION, DAMAGES FOR LOSS OF BUSINESS PROFITS, BUSINESS INTERRUPTION,
* LOSS OF BUSINESS INFORMATION, OR OTHER PECUNIARY LOSS) ARISING FROM USE OR
* INABILITY TO USE THE SOFTWARE, INCLUDING, WITHOUT LIMITATION, ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL OR CONSEQUENTIAL DAMAGES OR LOSS OF DATA,
* SAVINGS OR PROFITS,
* EVEN IF Disclaimer HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
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* INTENDED RESULTS, AND FOR THE INSTALLATION OF, USE OF, AND RESULTS OBTAINED
* FROM, THE SOFTWARE.
*
* This software may be replicated in part or whole for the licensed use,
* with the restriction that this Disclaimer and Copyright notice must be
* included with each copy of this software, whether used in part or whole,
* at all times.
*/
/******************************************************************************/
/** \file vc.h
**
** Headerfile for Voltage Comparator functions
** @link VC Group Some description @endlink
**
** - 2017-06-28 Alex First Version
**
******************************************************************************/
#ifndef __VC_H__
#define __VC_H__
/******************************************************************************
* Include files
******************************************************************************/
#include "ddl.h"
#include "interrupts_hc32l136.h"
/* C binding of definitions if building with C++ compiler */
#ifdef __cplusplus
extern "C"
{
#endif
/**
******************************************************************************
** \defgroup VcGroup Voltage Comparator (VC)
**
******************************************************************************/
//@{
/******************************************************************************
* Global type definitions
******************************************************************************/
/**
******************************************************************************
** \brief VC通道
*****************************************************************************/
typedef enum en_vc_channel
{
VcChannel0 = 0u, ///< 通道0
VcChannel1 = 1u, ///< 通道1
}en_vc_channel_t;
/**
******************************************************************************
** \brief VC迟滞
*****************************************************************************/
typedef enum en_vc_cmp_delay
{
VcDelayoff = 0u, ///< 迟滞关闭
VcDelay10mv = 1u, ///< 迟滞10mv
VcDelay20mv = 2u, ///< 迟滞20mv
VcDelay30mv = 3u, ///< 迟滞30mv
}en_vc_cmp_delay_t;
/**
******************************************************************************
** \brief VC偏置电流
*****************************************************************************/
typedef enum en_vc_bias_current
{
VcBias300na = 0u, ///< 偏置电流300na
VcBias1200na = 1u, ///< 偏置电流1.2ua
VcBias10ua = 2u, ///< 偏置电流10ua
VcBias20ua = 3u, ///< 偏置电流20ua
}en_vc_bias_current_t;
/**
******************************************************************************
** \brief VC输出滤波时间
*****************************************************************************/
typedef enum en_vc_resp_filter
{
VcFilter7us = 0u, ///< 输出滤波时间7us
VcFilter14us = 1u, ///< 输出滤波时间14us
VcFilter28us = 2u, ///< 输出滤波时间28us
VcFilter112us = 3u, ///< 输出滤波时间112us
VcFilter450us = 4u, ///< 输出滤波时间450us
VcFilter1800us = 5u, ///< 输出滤波时间1.8ms
VcFilter7200us = 6u, ///< 输出滤波时间7.2ms
VcFilter28800us = 7u, ///< 输出滤波时间28.8ms
}en_vc_resp_filter_t;
/**
******************************************************************************
** \brief VC P端输入
*****************************************************************************/
typedef enum en_vc_input_p_src
{
//VC0 //VC1
VcInPCh0 = 0u, ///< 输入通道0 PC0 输入通道0 PA0
VcInPCh1 = 1u, ///< 输入通道1 PC1 输入通道0 PA1
VcInPCh2 = 2u, ///< 输入通道2 PC2 输入通道0 PA2
VcInPCh3 = 3u, ///< 输入通道3 PC3 输入通道0 PA3
VcInPCh4 = 4u, ///< 输入通道4 PA0 输入通道0 PA4
VcInPCh5 = 5u, ///< 输入通道5 PA1 输入通道0 PA5
VcInPCh6 = 6u, ///< 输入通道6 PA2 输入通道0 PB1
VcInPCh7 = 7u, ///< 输入通道7 PA3 输入通道0 PB2
VcInPCh8 = 8u, ///< 输入通道7 PA4 输入通道0 PB10
VcInPCh9 = 9u, ///< 输入通道7 PA5 输入通道0 PB12
VcInPCh10 = 10u, ///< 输入通道7 PA6 输入通道0 PB13
VcInPCh11 = 11u, ///< 输入通道7 PA7 输入通道0 PB14
VcInPCh12 = 12u, ///< 输入通道7 PB4 输入通道0 PB4
VcInPCh13 = 13u, ///< 输入通道7 PB5 输入通道0 PB5
VcInPCh14 = 14u, ///< 输入通道7 PB6 输入通道0 PB6
VcInPCh15 = 15u, ///< 输入通道7 PB7 输入通道0 PB7
}en_vc_input_p_src_t;
/**
******************************************************************************
** \brief VC N端输入
*****************************************************************************/
typedef enum en_vc_input_n_src
{
//VC0 //VC1
VcInNCh0 = 0u, ///< 输入通道0 PA0 输入通道0 PC0
VcInNCh1 = 1u, ///< 输入通道1 PA1 输入通道0 PC1
VcInNCh2 = 2u, ///< 输入通道2 PA2 输入通道0 PC2
VcInNCh3 = 3u, ///< 输入通道3 PA3 输入通道0 PC3
VcInNCh4 = 4u, ///< 输入通道4 PA4 输入通道0 PA0
VcInNCh5 = 5u, ///< 输入通道5 PA5 输入通道0 PA1
VcInNCh6 = 6u, ///< 输入通道6 PA6 输入通道0 PB0
VcInNCh7 = 7u, ///< 输入通道7 PA7 输入通道0 PB1
VcInNCh8 = 8u, ///< 输入通道8 PC4 输入通道0 PB2
VcInNCh9 = 9u, ///< 输入通道9 PC5 输入通道0 PB3
VcInNCh10 = 10u, ///< 输入通道10 PB0 输入通道0 PB4
ResDivOut = 11u, ///< Vcc分压 Vcc分压
AiTs = 12u, ///< 温度传感器 温度传感器
AiBg1p2 = 13u, ///< BGR 1.2V BGR 1.2V
AiAdcVref = 14u, ///< ADCVREF ADCVREF
AiLdo = 15u, ///< LDO LDO
}en_vc_input_n_src_t;
/**
******************************************************************************
** \brief VC中断触发方式
*****************************************************************************/
typedef enum en_vc_irq_sel
{
VcIrqNone = 0u, ///< 无中断
VcIrqRise = 1u, ///< 上升沿触发
VcIrqFall = 2u, ///< 下降沿触发
VcIrqHigh = 3u, ///< 高电平触发
}en_vc_irq_sel_t;
/**
******************************************************************************
** \brief VC状态
*****************************************************************************/
typedef enum en_vc_stat
{
VcCmpResult = 0u, ///< VC比较输出结果
VcIntrResult = 1u, ///< VC中断状态
}en_vc_stat_t;
/**
******************************************************************************
** \brief VC输出配置
*****************************************************************************/
typedef enum en_vc_output_config
{
VcOutInvTimer = 0u, ///< 结果输出负向到各Timer0,1,2,3
VcOutTIM0RCLR = 1u, ///< 结果使能输出到TIM0 REFCLR
VcOutTIM1RCLR = 2u, ///< 结果使能输出到TIM1 REFCLR
VcOutTIM2RCLR = 3u, ///< 结果使能输出到TIM2 REFCLR
VcOutTIM3RCLR = 4u, ///< 结果使能输出到TIM3 REFCLR
VcOutTIMBK = 5u, ///< 结果使能输出到Timer0,1,2,3刹车
VcOutInvTIM4 = 9u, ///< 结果输出负向到Timer4
VcOutTIM4 = 10u, ///< 结果使能输出到Timer4
VcOutInvTIM5 = 11u, ///< 结果输出负向到Timer5
VcOutTIM5 = 12u, ///< 结果使能输出到Timer5
VcOutInvTIM6 = 13u, ///< 结果输出负向到Timer6
VcOutTIM6 = 14u, ///< 结果使能输出到Timer6
VcOutBrake = 15u, ///< 结果使能输出到Advanced Timer刹车
VcOutDisable = 16u, ///< 结果输出除能
}en_vc_output_config_t;
/**
******************************************************************************
** \brief VC DIV参考电压Vref选择
*****************************************************************************/
typedef enum en_vc_div_vref
{
VcDivVrefAvcc = 0u, ///< AVCC
VcDivVrefAdc = 1u, ///< ADC_CR0 SREF选择参考电压
}en_vc_div_vref_t;
/**
******************************************************************************
** \brief VC模块配置
*****************************************************************************/
typedef struct stc_vc_dac_config
{
boolean_t bDivEn; ///< 使能/除能 6-bit VCC divider
uint8_t u8DivVal; ///< 6-bit VCC divider设置值
en_vc_div_vref_t enDivVref; ///< 6-bit VCC divider输入参考电压选择
}stc_vc_dac_config_t;
/**
******************************************************************************
** \brief VC通道配置
*****************************************************************************/
typedef struct stc_vc_channel_config
{
en_vc_channel_t enVcChannel; ///< VC通道选择
en_vc_cmp_delay_t enVcCmpDly; ///< VC迟滞
en_vc_bias_current_t enVcBiasCurrent; ///< VC偏转电流
en_vc_resp_filter_t enVcFilterTime; ///< 输出滤波时间
en_vc_input_p_src_t enVcInPin_P; ///< P端输入
en_vc_input_n_src_t enVcInPin_N; ///< N端输入
en_vc_output_config_t enVcOutConfig; ///< 输出配置
en_vc_irq_sel_t enVcIrqSel; ///< 中断触发方式
func_ptr_t pfnAnalogCmpCb; ///< 中断回调函数
}stc_vc_channel_config_t;
/******************************************************************************
* Global definitions
******************************************************************************/
/******************************************************************************
* Local type definitions ('typedef')
******************************************************************************/
/******************************************************************************
* Global variable definitions ('extern')
******************************************************************************/
/******************************************************************************
* Global function prototypes (definition in C source)
******************************************************************************/
//VC init/deinit
en_result_t Vc_ChannelInit(en_vc_channel_t enChannel,
stc_vc_channel_config_t *pstcChannelConfig);
en_result_t Vc_ChannelDeInit(en_vc_channel_t enChannel);
en_result_t Vc_DACInit(stc_vc_dac_config_t *pstcDacConfig);
//VC function enable/disable
en_result_t Vc_EnableChannel(en_vc_channel_t enChannel);
en_result_t Vc_DisableChannel(en_vc_channel_t enChannel);
//VC filter enable/disable
en_result_t Vc_EnableFilter(en_vc_channel_t enChannel);
en_result_t Vc_DisableFilter(en_vc_channel_t enChannel);
//get stat
boolean_t Vc_GetStat(en_vc_channel_t enChannel, en_vc_stat_t enStat);
//clear stat
void Vc_ClearIrq(en_vc_channel_t enChannel);
//irq enable/disable
en_result_t Vc_EnableIrq(en_vc_channel_t enChannel);
en_result_t Vc_DisableIrq(en_vc_channel_t enChannel);
en_result_t Vc_ConfigIrq(en_vc_channel_t enChannel, en_vc_irq_sel_t enSel);
//@} // VcGroup
#ifdef __cplusplus
}
#endif
#endif /* __VC_H__ */
/******************************************************************************
* EOF (not truncated)
******************************************************************************/