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openblt/Target/Demo/ARMCM4_XMC4_XMC4700_Relax_K.../Boot/lib/xmclib/inc/xmc_acmp.h

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/**
* @file xmc_acmp.h
* @date 2015-09-02
*
* @cond
*********************************************************************************************************************
* XMClib v2.1.8 - XMC Peripheral Driver Library
*
* Copyright (c) 2015-2016, Infineon Technologies AG
* 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 the copyright holders 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 HOLDER 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.
*
* To improve the quality of the software, users are encouraged to share modifications, enhancements or bug fixes with
* Infineon Technologies AG dave@infineon.com).
*********************************************************************************************************************
*
* Change History
* --------------
*
* 2014-12-10:
* - Initial version
* 2015-02-20:
* - Removed unused declarations<br>
* 2015-05-08:
* - Fixed sequence problem of low power mode in XMC_ACMP_Init() API<br>
* - Fixed wrong register setting in XMC_ACMP_SetInput() API<br>
* - Removed return type variable and by default comparator enable from XMC_ACMP_Init() API. <br>
* Additional call to XMC_ACMP_EnableComparator() API needed to start Comparator after Init.<br>
* 2015-06-04:
* - Removed return type variable and by default comparator enable from XMC_ACMP_Init() API. <br>
* - Divided XMC_ACMP_SetInput into two 3 APIs to reduce the code size and complexity as stated below<br>
* (a)XMC_ACMP_EnableReferenceDivider <br>
* (b)XMC_ACMP_DisableReferenceDivider <br>
* (c)XMC_ACMP_SetInput <br>
* - Optimized enable and disable API's and moved to header file as static inline APIs.
* - XMC_ACMP_t typedef changed to structure which overrides the standard header file structure.
* 2015-06-20:
* - Removed version macros and declaration of GetDriverVersion API
* 2015-06-26:
* - API help documentation modified.
* 2015-09-02:
* - API help documentation modified for XMC1400 device support.
* @endcond
*
*/
#ifndef XMC_ACMP_H
#define XMC_ACMP_H
/**
* @addtogroup XMClib XMC Peripheral Library
* @{
*/
/**
* @addtogroup ACMP
* @brief Analog Comparator(ACMP) low level driver for XMC1 family of microcontrollers. <br>
*
* The ACMP module consists of minimum of 3 analog comparators. Each analog comparator has two inputs, INP and INN.
* Input INP is compared with input INN in the pad voltage domain.
* It generates a digital comparator output signal. The digital comparator output signal is shifted down from VDDP
* power supply voltage level to VDDC core voltage level. The ACMP module provides the following functionalities.\n
* -# Monitor external voltage level
* -# Operates in low power mode
* -# Provides Inverted ouput option\n
* \par The ACMP low level driver funtionalities
* <OL>
* <LI>Initializes an instance of analog comparator module with the @ref XMC_ACMP_CONFIG_t configuration structure
* using the API XMC_ACMP_Init().</LI>
* <LI>Programs the source of input(INP) specified by @ref XMC_ACMP_INP_SOURCE_t parameter using the API
* XMC_ACMP_SetInput(). </LI>
* <LI>Sets the low power mode of operation using XMC_ACMP_SetLowPowerMode() API.</LI>
* </OL>
* @{
*/
/*********************************************************************************************************************
* HEADER FILES
********************************************************************************************************************/
#include <xmc_common.h>
/*********************************************************************************************************************
* MACROS
********************************************************************************************************************/
/* If ACMP is available*/
#if defined (COMPARATOR)
#define XMC_ACMP0 (XMC_ACMP_t*)COMPARATOR /**< Comparator module base address defined*/
#if UC_SERIES == XMC14
#define XMC_ACMP_MAX_INSTANCES (4U) /* Maximum number of Analog Comparators available*/
#else
#define XMC_ACMP_MAX_INSTANCES (3U) /* Maximum number of Analog Comparators available*/
#endif
/* Checks if the pointer being passed is valid*/
#define XMC_ACMP_CHECK_MODULE_PTR(PTR) (((PTR)== (XMC_ACMP_t*)COMPARATOR))
/* Checks if the instance being addressed is valid*/
#define XMC_ACMP_CHECK_INSTANCE(INST) (((INST)< XMC_ACMP_MAX_INSTANCES))
/*********************************************************************************************************************
* ENUMS
********************************************************************************************************************/
/**
* Defines the return value of an API.
*/
typedef enum XMC_ACMP_STATUS
{
XMC_ACMP_STATUS_SUCCESS = 0U, /**< API completes the execution successfully */
XMC_ACMP_STATUS_ERROR , /**< API cannot fulfill the request */
} XMC_ACMP_STATUS_t;
/**
* Defines the hysteresis voltage levels to reduce noise sensitivity.
*/
typedef enum XMC_ACMP_HYSTERESIS
{
XMC_ACMP_HYSTERESIS_OFF = 0U, /**< No hysteresis */
XMC_ACMP_HYSTERESIS_10 , /**< Hysteresis = 10mv */
XMC_ACMP_HYSTERESIS_15 , /**< Hysteresis = 15mv */
XMC_ACMP_HYSTERESIS_20 /**< Hysteresis = 20mv */
} XMC_ACMP_HYSTERESIS_t;
/**
* Defines the comparator output status options.
*/
typedef enum XMC_ACMP_COMP_OUT
{
XMC_ACMP_COMP_OUT_NO_INVERSION = 0U, /**< ACMP output is HIGH when, Input Positive(INP) greater than Input
Negative(INN). Vplus > Vminus */
XMC_ACMP_COMP_OUT_INVERSION /**< ACMP output is HIGH when, Input Negative(INN) greater than Input
Positive(INP). Vminus > Vplus*/
} XMC_ACMP_COMP_OUT_t;
/**
* Defines the analog comparator input connection method.
*/
typedef enum XMC_ACMP_INP_SOURCE
{
XMC_ACMP_INP_SOURCE_STANDARD_PORT = 0U, /**< Input is connected to port */
XMC_ACMP_INP_SOURCE_ACMP1_INP_PORT = (uint16_t)(COMPARATOR_ANACMP0_ACMP0_SEL_Msk) /**< Input is connected to port
and ACMP1 INP */
} XMC_ACMP_INP_SOURCE_t;
/*********************************************************************************************************************
* DATA STRUCTURES
********************************************************************************************************************/
/*Anonymous structure/union guard start*/
#if defined(__CC_ARM)
#pragma push
#pragma anon_unions
#elif defined(__TASKING__)
#pragma warning 586
#endif
/**
* ACMP module
*/
typedef struct {
__IO uint32_t ORCCTRL;
__I uint32_t RESERVED[726];
__IO uint32_t ANACMP[XMC_ACMP_MAX_INSTANCES];
} XMC_ACMP_t;
/**
* Structure for initializing the ACMP module. It configures the ANACMP register of the respective input.
*/
typedef struct XMC_ACMP_CONFIG
{
union
{
struct
{
uint32_t : 1;
uint32_t filter_disable : 1; /**< Comparator filter option for removing glitches. By default this option
is selected in ANACMP register. Setting this option disables the filter */
uint32_t : 1;
uint32_t output_invert : 1; /**< Option to invert the comparator output. Use XMC_@ref XMC_ACMP_COMP_OUT_t type*/
uint32_t hysteresis : 2; /**< Hysteresis voltage to reduce noise sensitivity. Select the voltage levels
from the values defined in @ref XMC_ACMP_HYSTERESIS_t. */
uint32_t : 26;
};
uint32_t anacmp;
};
} XMC_ACMP_CONFIG_t;
/*Anonymous structure/union guard end*/
#if defined(__CC_ARM)
#pragma pop
#elif defined(__TASKING__)
#pragma warning restore
#endif
#ifdef __cplusplus
extern "C" {
#endif
/*********************************************************************************************************************
* API Prototypes
********************************************************************************************************************/
/**
* @param peripheral Constant pointer to analog comparator module, of @ref XMC_ACMP_t type. Use @ref XMC_ACMP0 macro.
* @param instance ACMP instance number. <BR>
* Range:<BR> 0 - ACMP0<BR>
* 1 - ACMP1<BR>
* 2 - ACMP2<BR>
* 3 - ACMP3 - Only applicable for XMC1400 devices <BR>
*
* @param config Pointer to configuration data. Refer data structure @ref XMC_ACMP_CONFIG_t for settings.
* @return
* None<BR>
*
* \par<b>Description:</b><br>
* Initializes an instance of analog comparator module.<BR>\n
* Configures the ANACMP resister with hysteresis, comparator filter and inverted comparator output.
*
* \par<b>Related APIs:</b><br>
* None.
*/
void XMC_ACMP_Init(XMC_ACMP_t *const peripheral, uint32_t instance, const XMC_ACMP_CONFIG_t *const config);
/**
* @param peripheral Constant pointer to analog comparator module, of @ref XMC_ACMP_t type. Use @ref XMC_ACMP0 macro.
* @param instance ACMP instance number. <BR>
* Range:<BR> 0 - ACMP0<BR>
* 1 - ACMP1<BR>
* 2 - ACMP2<BR>
* 3 - ACMP3 - Only applicable for XMC1400 devices <BR>
* @return
* None<BR>
*
* \par<b>Description:</b><br>
* Enables an instance of ACMP module.<BR>\n
* Starts the comparator by setting CMP_EN bit of respective ANACMP \a instance register. The \a instance number
* determines which analog comparator to be switched on. Call this API after the successful completion of the comparator
* initilization and input selection.
*
* \par<b>Related APIs:</b><br>
* XMC_ACMP_DisableComparator().<BR>
*/
__STATIC_INLINE void XMC_ACMP_EnableComparator(XMC_ACMP_t *const peripheral, uint32_t instance)
{
XMC_ASSERT("XMC_ACMP_EnableComparator:Wrong module pointer", XMC_ACMP_CHECK_MODULE_PTR(peripheral))
XMC_ASSERT("XMC_ACMP_EnableComparator:Wrong instance number", XMC_ACMP_CHECK_INSTANCE(instance) )
peripheral->ANACMP[instance] |= (uint16_t)COMPARATOR_ANACMP0_CMP_EN_Msk;
}
/**
* @param peripheral Constant pointer to analog comparator module, of @ref XMC_ACMP_t type. Use @ref XMC_ACMP0 macro.
* @param instance ACMP instance number. <BR>
* Range:<BR> 0 - ACMP0<BR>
* 1 - ACMP1<BR>
* 2 - ACMP2<BR>
* 3 - ACMP3 - Only applicable for XMC1400 devices <BR>
* @return
* None<BR>
* \par<b>Description:</b><br>
* Disables an instance of ACMP module.<BR>\n
* Stops the comparator by resetting CMP_EN bit of respective ANACMP \a instance register. The \a instance number
* determines which analog comparator to be switched off.
*
* \par<b>Related APIs:</b><br>
* XMC_ACMP_EnableComparator().
*/
__STATIC_INLINE void XMC_ACMP_DisableComparator(XMC_ACMP_t *const peripheral, uint32_t instance)
{
XMC_ASSERT("XMC_ACMP_DisableComparator:Wrong module pointer", XMC_ACMP_CHECK_MODULE_PTR(peripheral))
XMC_ASSERT("XMC_ACMP_DisableComparator:Wrong instance number", XMC_ACMP_CHECK_INSTANCE(instance) )
peripheral->ANACMP[instance] &= (uint16_t)(~((uint32_t)COMPARATOR_ANACMP0_CMP_EN_Msk));
}
/**
* @param None
* @return
* None<BR>
*
* \par<b>Description:</b><br>
* Enables the reference divider for analog comparator instance 1.<BR>\n
* ACMP1 input INP is driven by an internal reference voltage by setting DIV_EN bit of ANACMP1 register.
* Other comparator instances can also share this reference divider option by calling the XMC_ACMP_SetInput() API.
*
* \par<b>Related APIs:</b><br>
* XMC_ACMP_SetInput().
*/
__STATIC_INLINE void XMC_ACMP_EnableReferenceDivider(void)
{
/* Enable the divider switch and connect the divided reference to ACMP1.INP */
COMPARATOR->ANACMP1 |= (uint16_t)(COMPARATOR_ANACMP1_REF_DIV_EN_Msk);
}
/**
* @param None
* @return
* None<BR>
*
* \par<b>Description:</b><br>
* Disables the reference divider for analog comparator instance 1.<BR>\n
* ACMP1 input INP is disconnected from the reference divider. This is achieved by reseting DIV_EN bit of ANACMP1
* register.
*
* \par<b>Related APIs:</b><br>
* None.
*/
__STATIC_INLINE void XMC_ACMP_DisableReferenceDivider(void)
{
/* Disable the divider switch and use ACMP1.INP as standard port*/
COMPARATOR->ANACMP1 &= (uint16_t)(~(COMPARATOR_ANACMP1_REF_DIV_EN_Msk));
}
/**
* @param peripheral Constant pointer to analog comparator module, of @ref XMC_ACMP_t type. Use @ref XMC_ACMP0 macro.
* @param instance ACMP instance number. <BR>
* Range:<BR> 0 - ACMP0<BR>
* 2 - ACMP2<BR>
* 3 - ACMP3 - Only applicable for XMC1400 devices <BR>
* @param source ACMP input source selection options.<BR>
* Range:<BR> XMC_ACMP_INP_SOURCE_STANDARD_PORT - Input is connected to port<BR>
* XMC_ACMP_INP_SOURCE_ACMP1_INP_PORT - Input is connected to port and ACMP1 INP <BR>
* @return
* None<BR>
*
* \par<b>Description:</b><br>
* Sets the analog comparartor input selection for ACMP0, ACMP2 instances.<BR>\n
* Apart from ACMP1 instance, each ACMP instances can be connected to its own port and ACMP1 INP.
* Calling @ref XMC_ACMP_EnableReferenceDivider() API, after this API can share the reference divider to one of the
* comparartor input as explained in the following options.<br>
* The hardware options to set input are listed below.<br>
* <OL>
* <LI>The comparator inputs aren't connected to other ACMP1 comparator inputs.</LI>
* <LI>Can program the comparator-0 to connect ACMP0.INP to ACMP1.INP in XMC1200 AA or XMC1300 AA</LI>
* <LI>Can program the comparator-0 to connect ACMP0.INN to ACMP1.INP in XMC1200 AB or XMC1300 AB or XMC1400 AA</LI>
* <LI>Can program the comparator-2 to connect ACMP2.INP to ACMP1.INP</LI>
* </OL><br>
* Directly accessed registers are ANACMP0, ANACMP2 according to the availability of instance in the devices.
*
* \par<b>Related APIs:</b><br>
* @ref XMC_ACMP_EnableReferenceDivider.<BR>
* @ref XMC_ACMP_DisableReferenceDivider.
*/
void XMC_ACMP_SetInput(XMC_ACMP_t *const peripheral, uint32_t instance, const XMC_ACMP_INP_SOURCE_t source);
/**
* @param None
* @return
* None<BR>
*
* \par<b>Description:</b><br>
* Set the comparartors to operate in low power mode, by setting the LPWR bit of ANACMP0 register.<BR>\n
* The low power mode is controlled by ACMP0 instance. Low power mode is applicable for all instances of the
* comparator. In low power mode, blanking time will be introduced to ensure the stability of comparartor output. This
* will slow down the comparator operation.
*
* \par<b>Related APIs:</b><br>
* XMC_ACMP_ClearLowPowerMode().
*/
__STATIC_INLINE void XMC_ACMP_SetLowPowerMode(void)
{
COMPARATOR->ANACMP0 |= (uint16_t)COMPARATOR_ANACMP0_CMP_LPWR_Msk;
}
/**
* @param None
* @return
* None<BR>
*
* \par<b>Description:</b><br>
* Exits the low power mode by reseting LPWR bit of ANACMP0 register.<BR>\n
* The low power mode is controlled by ACMP0 module. Low power mode is applicable for all instances of the
* comparator. To re-enable the low power mode, call the related API @ref XMC_ACMP_SetLowPowerMode().
*
* \par<b>Related APIs:</b><br>
* XMC_ACMP_SetLowPowerMode().
*/
__STATIC_INLINE void XMC_ACMP_ClearLowPowerMode(void)
{
COMPARATOR->ANACMP0 &= (uint16_t)(~(uint16_t)COMPARATOR_ANACMP0_CMP_LPWR_Msk);
}
/**
* @}
*/
/**
* @}
*/
#ifdef __cplusplus
}
#endif
#endif /* If ACMP is available*/
#endif /* XMC_ACMP_H */
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