FreeRTOS/Demo/CORTEX_M4_ATSAM4L_Atmel_Studio/src/asf/common/services/clock/dfll.h - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /**
  * \file
  *
  * \brief DFLL management
  *
  * Copyright (c) 2010-2012 Atmel Corporation. All rights reserved.
  *
  * \asf_license_start
  *
  * \page License
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are met:
  *
  * 1. Redistributions of source code must retain the above copyright notice,
  *    this list of conditions and the following disclaimer.
  *
  * 2. 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.
  *
  * 3. The name of Atmel may not be used to endorse or promote products derived
  *    from this software without specific prior written permission.
  *
  * 4. This software may only be redistributed and used in connection with an
  *    Atmel microcontroller product.
  *
  * THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED
  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
  * EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL 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.
  *
  * \asf_license_stop
  *
  */
 #ifndef CLK_DFLL_H_INCLUDED
 #define CLK_DFLL_H_INCLUDED

 #include <parts.h>
 #include "conf_clock.h"

 #if UC3L
 # include "uc3l/dfll.h"
 #elif SAM4L
 # include "sam4l/dfll.h"
 #else
 # error Unsupported chip type
 #endif

 /**
  * \ingroup clk_group
  * \defgroup dfll_group DFLL Management
  *
  * A Digital Frequency Locked Loop can be used to generate a highly
  * accurate frequency from a slower-running reference clock, in much the
  * same way as a PLL. DFLLs typically have shorter startup times and
  * less jitter. They can also be used in open-loop mode to generate a
  * less accurate frequency without the use of a reference clock.
  *
  * There may be significant variations between platforms in the support
  * for certain features.
  *
  * \par Example: Setting up DFLL0 with default parameters and dithering enabled
  *
  * The following example shows how to configure and enable DFLL0 in
  * closed-loop mode using the default parameters specified through
  * configuration symbols.
  * \code
 	dfll_enable_config_defaults(0); \endcode
  *
  * To configure and enable DFLL0 in closed-loop mode using the default
  * parameters and to enable specific feature like dithering for better accuracy,
  * you can use this initialization process.
  * \code
 	struct dfll_config dfllcfg;

 	dfll_enable_source(CONFIG_DFLL0_SOURCE);
 	dfll_config_defaults(&dfllcfg, 0);
 	dfll_config_enable_dithering(&dfllcfg);
 	dfll_enable(&dfllcfg, 0);
 	dfll_wait_for_accurate_lock(0); \endcode
  *
  * When the last function call returns, DFLL0 is running at a frequency
  * which matches the default configuration as accurately as possible.
  * Any additional alterations to the default configuration can be added
  * at the same place as the call to dfll_config_enable_dithering(), but
  * note that the DFLL will never achieve "accurate" lock if dithering is
  * disabled.
  *
  * @{
  */

 //! \name Chip-specific DFLL characteristics
 //@{
 /**
  * \def NR_DFLLS
  * \brief Number of on-chip DFLLs.
  */
 /**
  * \def DFLL_MIN_HZ
  * \brief Minimum frequency that the DFLL can generate.
  */
 /**
  * \def DFLL_MAX_HZ
  * \brief Maximum frequency that the DFLL can generate.
  */
 //@}

 /**
  * \typedef dfll_refclk_t
  * \brief Type used for identifying a reference clock source for the DFLL.
  */

 //! \name DFLL Configuration
 //@{

 /**
  * \struct dfll_config
  * \brief Hardware-specific representation of DFLL configuration.
  *
  * This structure contains one or more device-specific values
  * representing the current DFLL configuration. The contents of this
  * structure is typically different from platform to platform, and the
  * user should not access any fields except through the DFLL
  * configuration API.
  */

 /**
  * \fn void dfll_config_init_open_loop_mode(struct dfll_config *cfg)
  * \brief Configure the DFLL configuration \a cfg for open-loop mode.
  *
  * \param cfg The DFLL configuration to be initialized.
  */
 /**
  * \fn void dfll_config_init_closed_loop_mode(struct dfll_config *cfg,
  *              dfll_refclk_t refclk, uint16_t div, uint16_t mul)
  * \brief Configure the DFLL configuration \a cfg for closed-loop mode.
  *
  * \param cfg The DFLL configuration to be initialized.
  * \param refclk The reference clock source.
  * \param div Reference clock divider.
  * \param mul Multiplier (integer part only).
  */
 /**
  * \def dfll_config_defaults(cfg, dfll_id)
  * \brief Initialize DFLL configuration using default parameters.
  *
  * After this function returns, \a cfg will contain a configuration
  * which will make the DFLL run at (CONFIG_DFLLx_MUL / CONFIG_DFLLx_DIV)
  * times the frequency of CONFIG_DFLLx_SOURCE. The default configuration
  * will always use closed-loop mode with no fractional multiplier.
  *
  * \param cfg The DFLL configuration to be initialized.
  * \param dfll_id Use defaults for this DFLL.
  */
 /**
  * \def dfll_get_default_rate(dfll_id)
  * \brief Return the default rate in Hz of \a dfll_id.
  */

 /**
  * \fn void dfll_config_set_fractional_multiplier(struct dfll_config *cfg,
  *              uint16_t mul_i, uint16_t mul_f)
  * \brief Set a fractional multiplier.
  *
  * This function has no effect in open-loop mode, and is only available
  * on devices which support fractional multipliers.
  *
  * The fractional part of the multiplier is assumed to be 16 bits. The
  * low-level driver will make sure to shift this value to match the
  * hardware if necessary.
  *
  * \param cfg The DFLL configuration to be modified.
  * \param mul_i Integer part of multiplier.
  * \param mul_f Fractional part of multiplier.
  */
 /**
  * \fn void dfll_config_enable_dithering(struct dfll_config *cfg)
  * \brief Enable dithering for more accurate frequency generation.
  *
  * The fine LSB input to the VCO is dithered to achieve fractional
  * approximation to the correct multiplication ratio.
  *
  * \param cfg The DFLL configuration to be modified.
  */
 /**
  * \fn void dfll_config_disable_dithering(struct dfll_config *cfg)
  * \brief Disable dithering.
  *
  * \see dfll_config_enable_dithering()
  *
  * \param cfg The DFLL configuration to be modified.
  */
 /**
  * \fn void dfll_config_set_initial_tuning(struct dfll_config *cfg,
  *              uint16_t coarse, uint16_t fine)
  * \brief Set initial VCO tuning.
  *
  * In open loop mode, this will determine the frequency of the output.
  *
  * In closed loop mode, this will provide an initial estimate of the VCO
  * tuning. While the DFLL will automatically adjust these values to
  * match the desired output frequency, careful selection of initial
  * values might reduce the time to achieve coarse and fine lock.
  *
  * \param cfg The DFLL configuration to be modified.
  * \param coarse Coarse tuning of the frequency generator.
  * \param fine Fine tuning of the frequency generator.
  */
 /**
  * \fn void dfll_config_set_max_step(struct dfll_config *cfg,
  *              uint16_t coarse, uint16_t fine)
  * \brief Set the maximum VCO tuning step size.
  *
  * This function has no effect in open-loop mode.
  *
  * By default, both of these values are set to 50% of their respective
  * maximums.  It is not recommended to set the values any higher than
  * this, but setting them lower might reduce the frequency overshoot at
  * the expense of longer time to achieve coarse and/or fine lock.
  *
  * \param cfg The DFLL configuration to be modified
  * \param coarse The maximum step size of the coarse VCO tuning.
  * \param fine The maximum step size of the fine VCO tuning.
  */
 /**
  * \fn void dfll_config_enable_ssg(struct dfll_config *cfg,
  *              uint16_t amplitude, uint16_t step_size)
  * \brief Enable Spread Spectrum Generator.
  *
  * \param cfg The DFLL configuration to be modified.
  * \param amplitude The amplitude of the spread spectrum.
  * \param step_size The step size of the spread spectrum.
  */
 /**
  * \fn void dfll_config_disable_ssg(struct dfll_config *cfg)
  * \brief Disable Spread Spectrum Generator.
  *
  * \param cfg The DFLL configuration to be modified.
  */
 //@}

 //! \name Interaction with the DFLL hardware
 //@{
 /**
  * \fn void dfll_enable_open_loop(const struct dfll_config *cfg,
  *              unsigned int dfll_id)
  * \brief Activate the configuration \a cfg and enable DFLL \a dfll_id
  * in open-loop mode.
  *
  * \pre The configuration in \a cfg must represent an open-loop
  * configuration.
  *
  * \param cfg The configuration to be activated.
  * \param dfll_id The ID of the DFLL to be enabled.
  */
 /**
  * \fn void dfll_enable_closed_loop(const struct dfll_config *cfg,
  *              unsigned int dfll_id)
  * \brief Activate the configuration \a cfg and enable DFLL \a dfll_id
  * in closed-loop mode.
  *
  * \pre The configuration in \a cfg must represent a closed-loop
  * configuration.
  *
  * \param cfg The configuration to be activated.
  * \param dfll_id The ID of the DFLL to be enabled.
  */
 /**
  * \fn void dfll_disable_open_loop(unsigned int dfll_id)
  * \brief Disable the DFLL identified by \a dfll_id.
  *
  * \pre The DFLL must have been enabled in open loop mode.
  *
  * \param dfll_id The ID of the DFLL to be disabled.
  */
 /**
  * \fn void dfll_disable_closed_loop(unsigned int dfll_id)
  * \brief Disable the DFLL identified by \a dfll_id.
  *
  * \pre The DFLL must have been enabled in closed loop mode.
  *
  * \param dfll_id The ID of the DFLL to be disabled.
  */
 /**
  * \fn bool dfll_is_coarse_locked(unsigned int dfll_id)
  * \brief Determine whether or not a DFLL has achieved coarse lock.
  *
  * \param dfll_id The ID of the DFLL to check.
  *
  * \retval true The DFLL has determined the final value of the coarse
  * VCO tuning value.
  * \retval false The DFLL has not yet determined the coarse VCO tuning
  * value, or has not been enabled.
  */
 /**
  * \fn bool dfll_is_fine_locked(unsigned int dfll_id)
  * \brief Determine whether or not a DFLL has achieved fine lock.
  *
  * \param dfll_id The ID of the DFLL to check.
  *
  * \retval true The DFLL has determined the final value of the fine VCO
  * tuning value.
  * \retval false The DFLL has not yet determined the fine VCO tuning
  * value, or has not been enabled.
  */
 /**
  * \fn bool dfll_is_accurate_locked(unsigned int dfll_id)
  * \brief Determine whether or not a DFLL has achieved accurate lock.
  *
  * \param dfll_id The ID of the DFLL to check.
  *
  * \retval true The DFLL has determined the final dithering duty cycle.
  * \retval false The DFLL has not yet determined the dithering duty
  * cycle, or has not been enabled with dithering enabled.
  */
 /**
  * \fn void dfll_enable_source(enum dfll_refclk_t src)
  * \brief Enable the source of the dfll.
  * The source is enabled, if the source is not already running.
  *
  * \param dfll_source src The ID of the DFLL source to enable.
  */
 /**
  * \fn void dfll_enable_config_defaults(unsigned int dfll_id)
  * \brief Enable the dfll with the default configuration.
  * DFLL is enabled, if the DFLL is not already locked.
  *
  * \param dfll_id The ID of the DFLL to enable.
  */

 /**
  * \brief Wait for the DFLL identified by \a dfll_id to achieve coarse
  * lock.
  *
  * \param dfll_id The ID of the DFLL to wait for.
  *
  * \retval STATUS_OK The DFLL has achieved coarse lock.
  * \retval ERR_TIMEOUT Timed out waiting for lock.
  */
 static inline int dfll_wait_for_coarse_lock(unsigned int dfll_id)
 {
 	/* TODO: Add timeout mechanism */
 	while (!dfll_is_coarse_locked(dfll_id)) {
 		/* Do nothing */
 	}

 	return 0;
 }

 /**
  * \brief Wait for the DFLL identified by \a dfll_id to achieve fine
  * lock.
  *
  * \param dfll_id The ID of the DFLL to wait for.
  *
  * \retval STATUS_OK The DFLL has achieved fine lock.
  * \retval ERR_TIMEOUT Timed out waiting for lock.
  */
 static inline int dfll_wait_for_fine_lock(unsigned int dfll_id)
 {
 	/* TODO: Add timeout mechanism */
 	while (!dfll_is_fine_locked(dfll_id)) {
 		/* Do nothing */
 	}

 	return 0;
 }

 /**
  * \brief Wait for the DFLL identified by \a dfll_id to achieve accurate
  * lock.
  *
  * \param dfll_id The ID of the DFLL to wait for.
  *
  * \retval STATUS_OK The DFLL has achieved accurate lock.
  * \retval ERR_TIMEOUT Timed out waiting for lock.
  */
 static inline int dfll_wait_for_accurate_lock(unsigned int dfll_id)
 {
 	/* TODO: Add timeout mechanism */
 	while (!dfll_is_accurate_locked(dfll_id)) {
 		/* Do nothing */
 	}

 	return 0;
 }

 //@}
 //! @}

 #endif /* CLK_DFLL_H_INCLUDED */
	/**
	* \file
	*
	* \brief DFLL management
	*
	* Copyright (c) 2010-2012 Atmel Corporation. All rights reserved.
	*
	* \asf_license_start
	*
	* \page License
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice,
	* this list of conditions and the following disclaimer.
	*
	* 2. 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.
	*
	* 3. The name of Atmel may not be used to endorse or promote products derived
	* from this software without specific prior written permission.
	*
	* 4. This software may only be redistributed and used in connection with an
	* Atmel microcontroller product.
	*
	* THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED
	* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
	* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
	* EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL 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.
	*
	* \asf_license_stop
	*
	*/
	#ifndef CLK_DFLL_H_INCLUDED
	#define CLK_DFLL_H_INCLUDED

	#include <parts.h>
	#include "conf_clock.h"

	#if UC3L
	# include "uc3l/dfll.h"
	#elif SAM4L
	# include "sam4l/dfll.h"
	#else
	# error Unsupported chip type
	#endif

	/**
	* \ingroup clk_group
	* \defgroup dfll_group DFLL Management
	*
	* A Digital Frequency Locked Loop can be used to generate a highly
	* accurate frequency from a slower-running reference clock, in much the
	* same way as a PLL. DFLLs typically have shorter startup times and
	* less jitter. They can also be used in open-loop mode to generate a
	* less accurate frequency without the use of a reference clock.
	*
	* There may be significant variations between platforms in the support
	* for certain features.
	*
	* \par Example: Setting up DFLL0 with default parameters and dithering enabled
	*
	* The following example shows how to configure and enable DFLL0 in
	* closed-loop mode using the default parameters specified through
	* configuration symbols.
	* \code
	dfll_enable_config_defaults(0); \endcode
	*
	* To configure and enable DFLL0 in closed-loop mode using the default
	* parameters and to enable specific feature like dithering for better accuracy,
	* you can use this initialization process.
	* \code
	struct dfll_config dfllcfg;

	dfll_enable_source(CONFIG_DFLL0_SOURCE);
	dfll_config_defaults(&dfllcfg, 0);
	dfll_config_enable_dithering(&dfllcfg);
	dfll_enable(&dfllcfg, 0);
	dfll_wait_for_accurate_lock(0); \endcode
	*
	* When the last function call returns, DFLL0 is running at a frequency
	* which matches the default configuration as accurately as possible.
	* Any additional alterations to the default configuration can be added
	* at the same place as the call to dfll_config_enable_dithering(), but
	* note that the DFLL will never achieve "accurate" lock if dithering is
	* disabled.
	*
	* @{
	*/

	//! \name Chip-specific DFLL characteristics
	//@{
	/**
	* \def NR_DFLLS
	* \brief Number of on-chip DFLLs.
	*/
	/**
	* \def DFLL_MIN_HZ
	* \brief Minimum frequency that the DFLL can generate.
	*/
	/**
	* \def DFLL_MAX_HZ
	* \brief Maximum frequency that the DFLL can generate.
	*/
	//@}

	/**
	* \typedef dfll_refclk_t
	* \brief Type used for identifying a reference clock source for the DFLL.
	*/

	//! \name DFLL Configuration
	//@{

	/**
	* \struct dfll_config
	* \brief Hardware-specific representation of DFLL configuration.
	*
	* This structure contains one or more device-specific values
	* representing the current DFLL configuration. The contents of this
	* structure is typically different from platform to platform, and the
	* user should not access any fields except through the DFLL
	* configuration API.
	*/

	/**
	* \fn void dfll_config_init_open_loop_mode(struct dfll_config *cfg)
	* \brief Configure the DFLL configuration \a cfg for open-loop mode.
	*
	* \param cfg The DFLL configuration to be initialized.
	*/
	/**
	* \fn void dfll_config_init_closed_loop_mode(struct dfll_config *cfg,
	* dfll_refclk_t refclk, uint16_t div, uint16_t mul)
	* \brief Configure the DFLL configuration \a cfg for closed-loop mode.
	*
	* \param cfg The DFLL configuration to be initialized.
	* \param refclk The reference clock source.
	* \param div Reference clock divider.
	* \param mul Multiplier (integer part only).
	*/
	/**
	* \def dfll_config_defaults(cfg, dfll_id)
	* \brief Initialize DFLL configuration using default parameters.
	*
	* After this function returns, \a cfg will contain a configuration
	* which will make the DFLL run at (CONFIG_DFLLx_MUL / CONFIG_DFLLx_DIV)
	* times the frequency of CONFIG_DFLLx_SOURCE. The default configuration
	* will always use closed-loop mode with no fractional multiplier.
	*
	* \param cfg The DFLL configuration to be initialized.
	* \param dfll_id Use defaults for this DFLL.
	*/
	/**
	* \def dfll_get_default_rate(dfll_id)
	* \brief Return the default rate in Hz of \a dfll_id.
	*/

	/**
	* \fn void dfll_config_set_fractional_multiplier(struct dfll_config *cfg,
	* uint16_t mul_i, uint16_t mul_f)
	* \brief Set a fractional multiplier.
	*
	* This function has no effect in open-loop mode, and is only available
	* on devices which support fractional multipliers.
	*
	* The fractional part of the multiplier is assumed to be 16 bits. The
	* low-level driver will make sure to shift this value to match the
	* hardware if necessary.
	*
	* \param cfg The DFLL configuration to be modified.
	* \param mul_i Integer part of multiplier.
	* \param mul_f Fractional part of multiplier.
	*/
	/**
	* \fn void dfll_config_enable_dithering(struct dfll_config *cfg)
	* \brief Enable dithering for more accurate frequency generation.
	*
	* The fine LSB input to the VCO is dithered to achieve fractional
	* approximation to the correct multiplication ratio.
	*
	* \param cfg The DFLL configuration to be modified.
	*/
	/**
	* \fn void dfll_config_disable_dithering(struct dfll_config *cfg)
	* \brief Disable dithering.
	*
	* \see dfll_config_enable_dithering()
	*
	* \param cfg The DFLL configuration to be modified.
	*/
	/**
	* \fn void dfll_config_set_initial_tuning(struct dfll_config *cfg,
	* uint16_t coarse, uint16_t fine)
	* \brief Set initial VCO tuning.
	*
	* In open loop mode, this will determine the frequency of the output.
	*
	* In closed loop mode, this will provide an initial estimate of the VCO
	* tuning. While the DFLL will automatically adjust these values to
	* match the desired output frequency, careful selection of initial
	* values might reduce the time to achieve coarse and fine lock.
	*
	* \param cfg The DFLL configuration to be modified.
	* \param coarse Coarse tuning of the frequency generator.
	* \param fine Fine tuning of the frequency generator.
	*/
	/**
	* \fn void dfll_config_set_max_step(struct dfll_config *cfg,
	* uint16_t coarse, uint16_t fine)
	* \brief Set the maximum VCO tuning step size.
	*
	* This function has no effect in open-loop mode.
	*
	* By default, both of these values are set to 50% of their respective
	* maximums. It is not recommended to set the values any higher than
	* this, but setting them lower might reduce the frequency overshoot at
	* the expense of longer time to achieve coarse and/or fine lock.
	*
	* \param cfg The DFLL configuration to be modified
	* \param coarse The maximum step size of the coarse VCO tuning.
	* \param fine The maximum step size of the fine VCO tuning.
	*/
	/**
	* \fn void dfll_config_enable_ssg(struct dfll_config *cfg,
	* uint16_t amplitude, uint16_t step_size)
	* \brief Enable Spread Spectrum Generator.
	*
	* \param cfg The DFLL configuration to be modified.
	* \param amplitude The amplitude of the spread spectrum.
	* \param step_size The step size of the spread spectrum.
	*/
	/**
	* \fn void dfll_config_disable_ssg(struct dfll_config *cfg)
	* \brief Disable Spread Spectrum Generator.
	*
	* \param cfg The DFLL configuration to be modified.
	*/
	//@}

	//! \name Interaction with the DFLL hardware
	//@{
	/**
	* \fn void dfll_enable_open_loop(const struct dfll_config *cfg,
	* unsigned int dfll_id)
	* \brief Activate the configuration \a cfg and enable DFLL \a dfll_id
	* in open-loop mode.
	*
	* \pre The configuration in \a cfg must represent an open-loop
	* configuration.
	*
	* \param cfg The configuration to be activated.
	* \param dfll_id The ID of the DFLL to be enabled.
	*/
	/**
	* \fn void dfll_enable_closed_loop(const struct dfll_config *cfg,
	* unsigned int dfll_id)
	* \brief Activate the configuration \a cfg and enable DFLL \a dfll_id
	* in closed-loop mode.
	*
	* \pre The configuration in \a cfg must represent a closed-loop
	* configuration.
	*
	* \param cfg The configuration to be activated.
	* \param dfll_id The ID of the DFLL to be enabled.
	*/
	/**
	* \fn void dfll_disable_open_loop(unsigned int dfll_id)
	* \brief Disable the DFLL identified by \a dfll_id.
	*
	* \pre The DFLL must have been enabled in open loop mode.
	*
	* \param dfll_id The ID of the DFLL to be disabled.
	*/
	/**
	* \fn void dfll_disable_closed_loop(unsigned int dfll_id)
	* \brief Disable the DFLL identified by \a dfll_id.
	*
	* \pre The DFLL must have been enabled in closed loop mode.
	*
	* \param dfll_id The ID of the DFLL to be disabled.
	*/
	/**
	* \fn bool dfll_is_coarse_locked(unsigned int dfll_id)
	* \brief Determine whether or not a DFLL has achieved coarse lock.
	*
	* \param dfll_id The ID of the DFLL to check.
	*
	* \retval true The DFLL has determined the final value of the coarse
	* VCO tuning value.
	* \retval false The DFLL has not yet determined the coarse VCO tuning
	* value, or has not been enabled.
	*/
	/**
	* \fn bool dfll_is_fine_locked(unsigned int dfll_id)
	* \brief Determine whether or not a DFLL has achieved fine lock.
	*
	* \param dfll_id The ID of the DFLL to check.
	*
	* \retval true The DFLL has determined the final value of the fine VCO
	* tuning value.
	* \retval false The DFLL has not yet determined the fine VCO tuning
	* value, or has not been enabled.
	*/
	/**
	* \fn bool dfll_is_accurate_locked(unsigned int dfll_id)
	* \brief Determine whether or not a DFLL has achieved accurate lock.
	*
	* \param dfll_id The ID of the DFLL to check.
	*
	* \retval true The DFLL has determined the final dithering duty cycle.
	* \retval false The DFLL has not yet determined the dithering duty
	* cycle, or has not been enabled with dithering enabled.
	*/
	/**
	* \fn void dfll_enable_source(enum dfll_refclk_t src)
	* \brief Enable the source of the dfll.
	* The source is enabled, if the source is not already running.
	*
	* \param dfll_source src The ID of the DFLL source to enable.
	*/
	/**
	* \fn void dfll_enable_config_defaults(unsigned int dfll_id)
	* \brief Enable the dfll with the default configuration.
	* DFLL is enabled, if the DFLL is not already locked.
	*
	* \param dfll_id The ID of the DFLL to enable.
	*/

	/**
	* \brief Wait for the DFLL identified by \a dfll_id to achieve coarse
	* lock.
	*
	* \param dfll_id The ID of the DFLL to wait for.
	*
	* \retval STATUS_OK The DFLL has achieved coarse lock.
	* \retval ERR_TIMEOUT Timed out waiting for lock.
	*/
	static inline int dfll_wait_for_coarse_lock(unsigned int dfll_id)
	{
	/* TODO: Add timeout mechanism */
	while (!dfll_is_coarse_locked(dfll_id)) {
	/* Do nothing */
	}

	return 0;
	}

	/**
	* \brief Wait for the DFLL identified by \a dfll_id to achieve fine
	* lock.
	*
	* \param dfll_id The ID of the DFLL to wait for.
	*
	* \retval STATUS_OK The DFLL has achieved fine lock.
	* \retval ERR_TIMEOUT Timed out waiting for lock.
	*/
	static inline int dfll_wait_for_fine_lock(unsigned int dfll_id)
	{
	/* TODO: Add timeout mechanism */
	while (!dfll_is_fine_locked(dfll_id)) {
	/* Do nothing */
	}

	return 0;
	}

	/**
	* \brief Wait for the DFLL identified by \a dfll_id to achieve accurate
	* lock.
	*
	* \param dfll_id The ID of the DFLL to wait for.
	*
	* \retval STATUS_OK The DFLL has achieved accurate lock.
	* \retval ERR_TIMEOUT Timed out waiting for lock.
	*/
	static inline int dfll_wait_for_accurate_lock(unsigned int dfll_id)
	{
	/* TODO: Add timeout mechanism */
	while (!dfll_is_accurate_locked(dfll_id)) {
	/* Do nothing */
	}

	return 0;
	}

	//@}
	//! @}

	#endif /* CLK_DFLL_H_INCLUDED */