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TARGET_SAMR21G18A/TOOLCHAIN_ARM_STD/clock_feature.h
- Committer:
- AnnaBridge
- Date:
- 2018-11-08
- Revision:
- 171:3a7713b1edbc
- Parent:
- TARGET_SAMD21G18A/TARGET_Atmel/TARGET_SAM_CortexM0P/drivers/system/clock/TARGET_SAMD21/clock_feature.h@ 111:4336505e4b1c
File content as of revision 171:3a7713b1edbc:
/**
* \file
*
* \brief SAM Clock Driver
*
* Copyright (C) 2012-2015 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
*
*/
/*
* Support and FAQ: visit <a href="http://www.atmel.com/design-support/">Atmel Support</a>
*/
#ifndef SYSTEM_CLOCK_FEATURE_H_INCLUDED
#define SYSTEM_CLOCK_FEATURE_H_INCLUDED
#ifdef __cplusplus
extern "C" {
#endif
/**
* \defgroup asfdoc_sam0_system_clock_group SAM System Clock Management Driver (SYSTEM CLOCK)
*
* This driver for Atmel® | SMART ARM®-based microcontrollers provides an interface for the configuration
* and management of the device's clocking related functions. This includes
* the various clock sources, bus clocks, and generic clocks within the device,
* with functions to manage the enabling, disabling, source selection, and
* prescaling of clocks to various internal peripherals.
*
* The following peripherals are used by this module:
*
* - GCLK (Generic Clock Management)
* - PM (Power Management)
* - SYSCTRL (Clock Source Control)
*
* The following devices can use this module:
* - Atmel | SMART SAM D20/D21
* - Atmel | SMART SAM R21
* - Atmel | SMART SAM D10/D11
* - Atmel | SMART SAM DA0/DA1
*
* The outline of this documentation is as follows:
* - \ref asfdoc_sam0_system_clock_prerequisites
* - \ref asfdoc_sam0_system_clock_module_overview
* - \ref asfdoc_sam0_system_clock_special_considerations
* - \ref asfdoc_sam0_system_clock_extra_info
* - \ref asfdoc_sam0_system_clock_examples
* - \ref asfdoc_sam0_system_clock_api_overview
*
*
* \section asfdoc_sam0_system_clock_prerequisites Prerequisites
*
* There are no prerequisites for this module.
*
*
* \section asfdoc_sam0_system_clock_module_overview Module Overview
* The SAM devices contain a sophisticated clocking system, which is designed
* to give the maximum flexibility to the user application. This system allows
* a system designer to tune the performance and power consumption of the device
* in a dynamic manner, to achieve the best trade-off between the two for a
* particular application.
*
* This driver provides a set of functions for the configuration and management
* of the various clock related functionality within the device.
*
* \subsection asfdoc_sam0_system_clock_module_features Driver Feature Macro Definition
* <table>
* <tr>
* <th>Driver Feature Macro</th>
* <th>Supported devices</th>
* </tr>
* <tr>
* <td>FEATURE_SYSTEM_CLOCK_DPLL</td>
* <td>SAMD21, SAMR21, SAMD10, SAMD11, SAMDAx</td>
* </tr>
* </table>
* \note The specific features are only available in the driver when the
* selected device supports those features.
*
* \subsection asfdoc_sam0_system_clock_module_overview_clock_sources Clock Sources
* The SAM devices have a number of master clock source modules, each of
* which being capable of producing a stabilized output frequency, which can then
* be fed into the various peripherals and modules within the device.
*
* Possible clock source modules include internal R/C oscillators, internal
* DFLL modules, as well as external crystal oscillators and/or clock inputs.
*
* \subsection asfdoc_sam0_system_clock_module_overview_cpu_clock CPU / Bus Clocks
* The CPU and AHB/APBx buses are clocked by the same physical clock source
* (referred in this module as the Main Clock), however the APBx buses may
* have additional prescaler division ratios set to give each peripheral bus a
* different clock speed.
*
* The general main clock tree for the CPU and associated buses is shown in
* \ref asfdoc_sam0_system_clock_module_clock_tree "the figure below".
*
* \anchor asfdoc_sam0_system_clock_module_clock_tree
* \dot
* digraph overview {
* rankdir=LR;
* clk_src [label="Clock Sources", shape=none, height=0];
* node [label="CPU Bus" shape=ellipse] cpu_bus;
* node [label="AHB Bus" shape=ellipse] ahb_bus;
* node [label="APBA Bus" shape=ellipse] apb_a_bus;
* node [label="APBB Bus" shape=ellipse] apb_b_bus;
* node [label="APBC Bus" shape=ellipse] apb_c_bus;
* node [label="Main Bus\nPrescaler" shape=square] main_prescaler;
* node [label="APBA Bus\nPrescaler" shape=square] apb_a_prescaler;
* node [label="APBB Bus\nPrescaler" shape=square] apb_b_prescaler;
* node [label="APBC Bus\nPrescaler" shape=square] apb_c_prescaler;
* node [label="", shape=polygon, sides=4, distortion=0.6, orientation=90, style=filled, fillcolor=black, height=0.9, width=0.2] main_clock_mux;
*
* clk_src -> main_clock_mux;
* main_clock_mux -> main_prescaler;
* main_prescaler -> cpu_bus;
* main_prescaler -> ahb_bus;
* main_prescaler -> apb_a_prescaler;
* main_prescaler -> apb_b_prescaler;
* main_prescaler -> apb_c_prescaler;
* apb_a_prescaler -> apb_a_bus;
* apb_b_prescaler -> apb_b_bus;
* apb_c_prescaler -> apb_c_bus;
* }
* \enddot
*
* \subsection asfdoc_sam0_system_clock_module_overview_clock_masking Clock Masking
* To save power, the input clock to one or more peripherals on the AHB and APBx
* buses can be masked away - when masked, no clock is passed into the module.
* Disabling of clocks of unused modules will prevent all access to the masked
* module, but will reduce the overall device power consumption.
*
* \subsection asfdoc_sam0_system_clock_module_overview_gclk Generic Clocks
* Within the SAM devices there are a number of Generic Clocks; these are used to
* provide clocks to the various peripheral clock domains in the device in a
* standardized manner. One or more master source clocks can be selected as the
* input clock to a Generic Clock Generator, which can prescale down the input
* frequency to a slower rate for use in a peripheral.
*
* Additionally, a number of individually selectable Generic Clock Channels are
* provided, which multiplex and gate the various generator outputs for one or
* more peripherals within the device. This setup allows for a single common
* generator to feed one or more channels, which can then be enabled or disabled
* individually as required.
*
* \anchor asfdoc_sam0_system_clock_module_chain_overview
* \dot
* digraph overview {
* rankdir=LR;
* node [label="Clock\nSource a" shape=square] system_clock_source;
* node [label="Generator 1" shape=square] clock_gen;
* node [label="Channel x" shape=square] clock_chan0;
* node [label="Channel y" shape=square] clock_chan1;
* node [label="Peripheral x" shape=ellipse style=filled fillcolor=lightgray] peripheral0;
* node [label="Peripheral y" shape=ellipse style=filled fillcolor=lightgray] peripheral1;
*
* system_clock_source -> clock_gen;
* clock_gen -> clock_chan0;
* clock_chan0 -> peripheral0;
* clock_gen -> clock_chan1;
* clock_chan1 -> peripheral1;
* }
* \enddot
*
* \subsubsection asfdoc_sam0_system_clock_module_chain_example Clock Chain Example
* An example setup of a complete clock chain within the device is shown in
* \ref asfdoc_sam0_system_clock_module_chain_example_fig "the figure below".
*
* \anchor asfdoc_sam0_system_clock_module_chain_example_fig
* \dot
* digraph overview {
* rankdir=LR;
* node [label="External\nOscillator" shape=square] system_clock_source0;
* node [label="Generator 0" shape=square] clock_gen0;
* node [label="Channel x" shape=square] clock_chan0;
* node [label="Core CPU" shape=ellipse style=filled fillcolor=lightgray] peripheral0;
*
* system_clock_source0 -> clock_gen0;
* clock_gen0 -> clock_chan0;
* clock_chan0 -> peripheral0;
* node [label="8MHz R/C\nOscillator (OSC8M)" shape=square fillcolor=white] system_clock_source1;
* node [label="Generator 1" shape=square] clock_gen1;
* node [label="Channel y" shape=square] clock_chan1;
* node [label="Channel z" shape=square] clock_chan2;
* node [label="SERCOM\nModule" shape=ellipse style=filled fillcolor=lightgray] peripheral1;
* node [label="Timer\nModule" shape=ellipse style=filled fillcolor=lightgray] peripheral2;
*
* system_clock_source1 -> clock_gen1;
* clock_gen1 -> clock_chan1;
* clock_gen1 -> clock_chan2;
* clock_chan1 -> peripheral1;
* clock_chan2 -> peripheral2;
* }
* \enddot
*
* \subsubsection asfdoc_sam0_system_clock_module_overview_gclk_generators Generic Clock Generators
* Each Generic Clock generator within the device can source its input clock
* from one of the provided Source Clocks, and prescale the output for one or
* more Generic Clock Channels in a one-to-many relationship. The generators
* thus allow for several clocks to be generated of different frequencies,
* power usages, and accuracies, which can be turned on and off individually to
* disable the clocks to multiple peripherals as a group.
*
* \subsubsection asfdoc_sam0_system_clock_module_overview_gclk_channels Generic Clock Channels
* To connect a Generic Clock Generator to a peripheral within the
* device, a Generic Clock Channel is used. Each peripheral or
* peripheral group has an associated Generic Clock Channel, which serves as the
* clock input for the peripheral(s). To supply a clock to the peripheral
* module(s), the associated channel must be connected to a running Generic
* Clock Generator and the channel enabled.
*
* \section asfdoc_sam0_system_clock_special_considerations Special Considerations
*
* There are no special considerations for this module.
*
*
* \section asfdoc_sam0_system_clock_extra_info Extra Information
*
* For extra information, see \ref asfdoc_sam0_system_clock_extra. This includes:
* - \ref asfdoc_sam0_system_clock_extra_acronyms
* - \ref asfdoc_sam0_system_clock_extra_dependencies
* - \ref asfdoc_sam0_system_clock_extra_errata
* - \ref asfdoc_sam0_system_clock_extra_history
*
*
* \section asfdoc_sam0_system_clock_examples Examples
*
* For a list of examples related to this driver, see
* \ref asfdoc_sam0_system_clock_exqsg.
*
*
* \section asfdoc_sam0_system_clock_api_overview API Overview
* @{
*/
#include <compiler.h>
#include <gclk.h>
/**
* \name Driver Feature Definition
* Define system clock features set according to different device family.
* @{
*/
#if (SAMD21) || (SAMR21) || (SAMD11) || (SAMD10) || (SAMDA1) || defined(__DOXYGEN__)
/** Digital Phase Locked Loop (DPLL) feature support. */
# define FEATURE_SYSTEM_CLOCK_DPLL
#endif
/*@}*/
/**
* \brief Available start-up times for the XOSC32K.
*
* Available external 32KHz oscillator start-up times, as a number of external
* clock cycles.
*/
enum system_xosc32k_startup {
/** Wait zero clock cycles until the clock source is considered stable. */
SYSTEM_XOSC32K_STARTUP_0,
/** Wait 32 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC32K_STARTUP_32,
/** Wait 2048 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC32K_STARTUP_2048,
/** Wait 4096 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC32K_STARTUP_4096,
/** Wait 16384 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC32K_STARTUP_16384,
/** Wait 32768 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC32K_STARTUP_32768,
/** Wait 65536 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC32K_STARTUP_65536,
/** Wait 131072 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC32K_STARTUP_131072,
};
/**
* \brief Available start-up times for the XOSC.
*
* Available external oscillator start-up times, as a number of external clock
* cycles.
*/
enum system_xosc_startup {
/** Wait one clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_1,
/** Wait two clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_2,
/** Wait four clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_4,
/** Wait eight clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_8,
/** Wait 16 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_16,
/** Wait 32 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_32,
/** Wait 64 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_64,
/** Wait 128 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_128,
/** Wait 256 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_256,
/** Wait 512 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_512,
/** Wait 1024 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_1024,
/** Wait 2048 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_2048,
/** Wait 4096 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_4096,
/** Wait 8192 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_8192,
/** Wait 16384 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_16384,
/** Wait 32768 clock cycles until the clock source is considered stable. */
SYSTEM_XOSC_STARTUP_32768,
};
/**
* \brief Available start-up times for the OSC32K.
*
* Available internal 32KHz oscillator start-up times, as a number of internal
* OSC32K clock cycles.
*/
enum system_osc32k_startup {
/** Wait three clock cycles until the clock source is considered stable. */
SYSTEM_OSC32K_STARTUP_3,
/** Wait four clock cycles until the clock source is considered stable. */
SYSTEM_OSC32K_STARTUP_4,
/** Wait six clock cycles until the clock source is considered stable. */
SYSTEM_OSC32K_STARTUP_6,
/** Wait ten clock cycles until the clock source is considered stable. */
SYSTEM_OSC32K_STARTUP_10,
/** Wait 18 clock cycles until the clock source is considered stable. */
SYSTEM_OSC32K_STARTUP_18,
/** Wait 34 clock cycles until the clock source is considered stable */
SYSTEM_OSC32K_STARTUP_34,
/** Wait 66 clock cycles until the clock source is considered stable. */
SYSTEM_OSC32K_STARTUP_66,
/** Wait 130 clock cycles until the clock source is considered stable. */
SYSTEM_OSC32K_STARTUP_130,
};
/**
* \brief Division prescalers for the internal 8MHz system clock.
*
* Available prescalers for the internal 8MHz (nominal) system clock.
*/
enum system_osc8m_div {
/** Do not divide the 8MHz RC oscillator output. */
SYSTEM_OSC8M_DIV_1,
/** Divide the 8MHz RC oscillator output by two. */
SYSTEM_OSC8M_DIV_2,
/** Divide the 8MHz RC oscillator output by four. */
SYSTEM_OSC8M_DIV_4,
/** Divide the 8MHz RC oscillator output by eight. */
SYSTEM_OSC8M_DIV_8,
};
/**
* \brief Frequency range for the internal 8MHz RC oscillator.
*
* Internal 8MHz RC oscillator frequency range setting
*/
enum system_osc8m_frequency_range {
/** Frequency range 4MHz to 6MHz. */
SYSTEM_OSC8M_FREQUENCY_RANGE_4_TO_6,
/** Frequency range 6MHz to 8MHz. */
SYSTEM_OSC8M_FREQUENCY_RANGE_6_TO_8,
/** Frequency range 8MHz to 11MHz. */
SYSTEM_OSC8M_FREQUENCY_RANGE_8_TO_11,
/** Frequency range 11MHz to 15MHz. */
SYSTEM_OSC8M_FREQUENCY_RANGE_11_TO_15,
};
/**
* \brief Main CPU and APB/AHB bus clock source prescaler values.
*
* Available division ratios for the CPU and APB/AHB bus clocks.
*/
enum system_main_clock_div {
/** Divide Main clock by one. */
SYSTEM_MAIN_CLOCK_DIV_1,
/** Divide Main clock by two. */
SYSTEM_MAIN_CLOCK_DIV_2,
/** Divide Main clock by four. */
SYSTEM_MAIN_CLOCK_DIV_4,
/** Divide Main clock by eight. */
SYSTEM_MAIN_CLOCK_DIV_8,
/** Divide Main clock by 16. */
SYSTEM_MAIN_CLOCK_DIV_16,
/** Divide Main clock by 32. */
SYSTEM_MAIN_CLOCK_DIV_32,
/** Divide Main clock by 64. */
SYSTEM_MAIN_CLOCK_DIV_64,
/** Divide Main clock by 128. */
SYSTEM_MAIN_CLOCK_DIV_128,
};
/**
* \brief External clock source types.
*
* Available external clock source types.
*/
enum system_clock_external {
/** The external clock source is a crystal oscillator. */
SYSTEM_CLOCK_EXTERNAL_CRYSTAL,
/** The connected clock source is an external logic level clock signal. */
SYSTEM_CLOCK_EXTERNAL_CLOCK,
};
/**
* \brief Operating modes of the DFLL clock source.
*
* Available operating modes of the DFLL clock source module.
*/
enum system_clock_dfll_loop_mode {
/** The DFLL is operating in open loop mode with no feedback. */
SYSTEM_CLOCK_DFLL_LOOP_MODE_OPEN,
/** The DFLL is operating in closed loop mode with frequency feedback from
* a low frequency reference clock.
*/
SYSTEM_CLOCK_DFLL_LOOP_MODE_CLOSED = SYSCTRL_DFLLCTRL_MODE,
#ifdef SYSCTRL_DFLLCTRL_USBCRM
/** The DFLL is operating in USB recovery mode with frequency feedback
* from USB SOF.
*/
SYSTEM_CLOCK_DFLL_LOOP_MODE_USB_RECOVERY = SYSCTRL_DFLLCTRL_USBCRM,
#endif
};
/**
* \brief Locking behavior for the DFLL during device wake-up.
*
* DFLL lock behavior modes on device wake-up from sleep.
*/
enum system_clock_dfll_wakeup_lock {
/** Keep DFLL lock when the device wakes from sleep. */
SYSTEM_CLOCK_DFLL_WAKEUP_LOCK_KEEP,
/** Lose DFLL lock when the devices wakes from sleep. */
SYSTEM_CLOCK_DFLL_WAKEUP_LOCK_LOSE = SYSCTRL_DFLLCTRL_LLAW,
};
/**
* \brief Fine tracking behavior for the DFLL once a lock has been acquired.
*
* DFLL fine tracking behavior modes after a lock has been acquired.
*/
enum system_clock_dfll_stable_tracking {
/** Keep tracking after the DFLL has gotten a fine lock. */
SYSTEM_CLOCK_DFLL_STABLE_TRACKING_TRACK_AFTER_LOCK,
/** Stop tracking after the DFLL has gotten a fine lock. */
SYSTEM_CLOCK_DFLL_STABLE_TRACKING_FIX_AFTER_LOCK = SYSCTRL_DFLLCTRL_STABLE,
};
/**
* \brief Chill-cycle behavior of the DFLL module.
*
* DFLL chill-cycle behavior modes of the DFLL module. A chill cycle is a period
* of time when the DFLL output frequency is not measured by the unit, to allow
* the output to stabilize after a change in the input clock source.
*/
enum system_clock_dfll_chill_cycle {
/** Enable a chill cycle, where the DFLL output frequency is not measured. */
SYSTEM_CLOCK_DFLL_CHILL_CYCLE_ENABLE,
/** Disable a chill cycle, where the DFLL output frequency is not measured. */
SYSTEM_CLOCK_DFLL_CHILL_CYCLE_DISABLE = SYSCTRL_DFLLCTRL_CCDIS,
};
/**
* \brief QuickLock settings for the DFLL module.
*
* DFLL QuickLock settings for the DFLL module, to allow for a faster lock of
* the DFLL output frequency at the expense of accuracy.
*/
enum system_clock_dfll_quick_lock {
/** Enable the QuickLock feature for looser lock requirements on the DFLL. */
SYSTEM_CLOCK_DFLL_QUICK_LOCK_ENABLE,
/** Disable the QuickLock feature for strict lock requirements on the DFLL. */
SYSTEM_CLOCK_DFLL_QUICK_LOCK_DISABLE = SYSCTRL_DFLLCTRL_QLDIS,
};
/**
* \brief Available clock sources in the system.
*
* Clock sources available to the GCLK generators.
*/
enum system_clock_source {
/** Internal 8MHz RC oscillator. */
SYSTEM_CLOCK_SOURCE_OSC8M = GCLK_SOURCE_OSC8M,
/** Internal 32KHz RC oscillator. */
SYSTEM_CLOCK_SOURCE_OSC32K = GCLK_SOURCE_OSC32K,
/** External oscillator. */
SYSTEM_CLOCK_SOURCE_XOSC = GCLK_SOURCE_XOSC ,
/** External 32KHz oscillator. */
SYSTEM_CLOCK_SOURCE_XOSC32K = GCLK_SOURCE_XOSC32K,
/** Digital Frequency Locked Loop (DFLL). */
SYSTEM_CLOCK_SOURCE_DFLL = GCLK_SOURCE_DFLL48M,
/** Internal Ultra Low Power 32KHz oscillator. */
SYSTEM_CLOCK_SOURCE_ULP32K = GCLK_SOURCE_OSCULP32K,
/** Generator input pad. */
SYSTEM_CLOCK_SOURCE_GCLKIN = GCLK_SOURCE_GCLKIN,
/** Generic clock generator one output. */
SYSTEM_CLOCK_SOURCE_GCLKGEN1 = GCLK_SOURCE_GCLKGEN1,
#ifdef FEATURE_SYSTEM_CLOCK_DPLL
/** Digital Phase Locked Loop (DPLL).
* Check \c FEATURE_SYSTEM_CLOCK_DPLL for which device support it.
*/
SYSTEM_CLOCK_SOURCE_DPLL = GCLK_SOURCE_FDPLL,
#endif
};
/**
* \brief List of APB peripheral buses.
*
* Available bus clock domains on the APB bus.
*/
enum system_clock_apb_bus {
/** Peripheral bus A on the APB bus. */
SYSTEM_CLOCK_APB_APBA,
/** Peripheral bus B on the APB bus. */
SYSTEM_CLOCK_APB_APBB,
/** Peripheral bus C on the APB bus. */
SYSTEM_CLOCK_APB_APBC,
};
/**
* \brief Configuration structure for XOSC.
*
* External oscillator clock configuration structure.
*/
struct system_clock_source_xosc_config {
/** External clock type. */
enum system_clock_external external_clock;
/** Crystal oscillator start-up time. */
enum system_xosc_startup startup_time;
/** Enable automatic amplitude gain control. */
bool auto_gain_control;
/** External clock/crystal frequency. */
uint32_t frequency;
/** Keep the XOSC enabled in standby sleep mode. */
bool run_in_standby;
/** Run On Demand. If this is set the XOSC won't run
* until requested by a peripheral. */
bool on_demand;
};
/**
* \brief Configuration structure for XOSC32K.
*
* External 32KHz oscillator clock configuration structure.
*/
struct system_clock_source_xosc32k_config {
/** External clock type. */
enum system_clock_external external_clock;
/** Crystal oscillator start-up time. */
enum system_xosc32k_startup startup_time;
/** Enable automatic amplitude control. */
bool auto_gain_control;
/** Enable 1KHz output. */
bool enable_1khz_output;
/** Enable 32KHz output. */
bool enable_32khz_output;
/** External clock/crystal frequency. */
uint32_t frequency;
/** Keep the XOSC32K enabled in standby sleep mode. */
bool run_in_standby;
/** Run On Demand. If this is set the XOSC32K won't run
* until requested by a peripheral. */
bool on_demand;
/** Lock configuration after it has been written,
* a device reset will release the lock. */
bool write_once;
};
/**
* \brief Configuration structure for OSC8M.
*
* Internal 8MHz (nominal) oscillator configuration structure.
*/
struct system_clock_source_osc8m_config {
/** Internal 8MHz RC oscillator prescaler. */
enum system_osc8m_div prescaler;
/** Keep the OSC8M enabled in standby sleep mode. */
bool run_in_standby;
/** Run On Demand. If this is set the OSC8M won't run
* until requested by a peripheral. */
bool on_demand;
};
/**
* \brief Configuration structure for OSC32K.
*
* Internal 32KHz (nominal) oscillator configuration structure.
*/
struct system_clock_source_osc32k_config {
/** Startup time. */
enum system_osc32k_startup startup_time;
/** Enable 1KHz output. */
bool enable_1khz_output;
/** Enable 32KHz output. */
bool enable_32khz_output;
/** Keep the OSC32K enabled in standby sleep mode. */
bool run_in_standby;
/** Run On Demand. If this is set the OSC32K won't run
* until requested by a peripheral. */
bool on_demand;
/** Lock configuration after it has been written,
* a device reset will release the lock. */
bool write_once;
};
/**
* \brief Configuration structure for DFLL.
*
* DFLL oscillator configuration structure.
*/
struct system_clock_source_dfll_config {
/** Loop mode. */
enum system_clock_dfll_loop_mode loop_mode;
/** Run On Demand. If this is set the DFLL won't run
* until requested by a peripheral. */
bool on_demand;
/** Enable Quick Lock. */
enum system_clock_dfll_quick_lock quick_lock;
/** Enable Chill Cycle. */
enum system_clock_dfll_chill_cycle chill_cycle;
/** DFLL lock state on wakeup. */
enum system_clock_dfll_wakeup_lock wakeup_lock;
/** DFLL tracking after fine lock. */
enum system_clock_dfll_stable_tracking stable_tracking;
/** Coarse calibration value (Open loop mode). */
uint8_t coarse_value;
/** Fine calibration value (Open loop mode). */
uint16_t fine_value;
/** Coarse adjustment maximum step size (Closed loop mode). */
uint8_t coarse_max_step;
/** Fine adjustment maximum step size (Closed loop mode). */
uint16_t fine_max_step;
/** DFLL multiply factor (Closed loop mode. */
uint16_t multiply_factor;
};
/**
* \name External Oscillator Management
* @{
*/
/**
* \brief Retrieve the default configuration for XOSC.
*
* Fills a configuration structure with the default configuration for an
* external oscillator module:
* - External Crystal
* - Start-up time of 16384 external clock cycles
* - Automatic crystal gain control mode enabled
* - Frequency of 12MHz
* - Don't run in STANDBY sleep mode
* - Run only when requested by peripheral (on demand)
*
* \param[out] config Configuration structure to fill with default values
*/
static inline void system_clock_source_xosc_get_config_defaults(
struct system_clock_source_xosc_config *const config)
{
Assert(config);
config->external_clock = SYSTEM_CLOCK_EXTERNAL_CRYSTAL;
config->startup_time = SYSTEM_XOSC_STARTUP_16384;
config->auto_gain_control = true;
config->frequency = 12000000UL;
config->run_in_standby = false;
config->on_demand = true;
}
void system_clock_source_xosc_set_config(
struct system_clock_source_xosc_config *const config);
/**
* @}
*/
/**
* \name External 32KHz Oscillator Management
* @{
*/
/**
* \brief Retrieve the default configuration for XOSC32K.
*
* Fills a configuration structure with the default configuration for an
* external 32KHz oscillator module:
* - External Crystal
* - Start-up time of 16384 external clock cycles
* - Automatic crystal gain control mode disabled
* - Frequency of 32.768KHz
* - 1KHz clock output disabled
* - 32KHz clock output enabled
* - Don't run in STANDBY sleep mode
* - Run only when requested by peripheral (on demand)
* - Don't lock registers after configuration has been written
*
* \param[out] config Configuration structure to fill with default values
*/
static inline void system_clock_source_xosc32k_get_config_defaults(
struct system_clock_source_xosc32k_config *const config)
{
Assert(config);
config->external_clock = SYSTEM_CLOCK_EXTERNAL_CRYSTAL;
config->startup_time = SYSTEM_XOSC32K_STARTUP_16384;
config->auto_gain_control = false;
config->frequency = 32768UL;
config->enable_1khz_output = false;
config->enable_32khz_output = true;
config->run_in_standby = false;
config->on_demand = true;
config->write_once = false;
}
void system_clock_source_xosc32k_set_config(
struct system_clock_source_xosc32k_config *const config);
/**
* @}
*/
/**
* \name Internal 32KHz Oscillator Management
* @{
*/
/**
* \brief Retrieve the default configuration for OSC32K.
*
* Fills a configuration structure with the default configuration for an
* internal 32KHz oscillator module:
* - 1KHz clock output enabled
* - 32KHz clock output enabled
* - Don't run in STANDBY sleep mode
* - Run only when requested by peripheral (on demand)
* - Set startup time to 130 cycles
* - Don't lock registers after configuration has been written
*
* \param[out] config Configuration structure to fill with default values
*/
static inline void system_clock_source_osc32k_get_config_defaults(
struct system_clock_source_osc32k_config *const config)
{
Assert(config);
config->enable_1khz_output = true;
config->enable_32khz_output = true;
config->run_in_standby = false;
config->on_demand = true;
config->startup_time = SYSTEM_OSC32K_STARTUP_130;
config->write_once = false;
}
void system_clock_source_osc32k_set_config(
struct system_clock_source_osc32k_config *const config);
/**
* @}
*/
/**
* \name Internal 8MHz Oscillator Management
* @{
*/
/**
* \brief Retrieve the default configuration for OSC8M.
*
* Fills a configuration structure with the default configuration for an
* internal 8MHz (nominal) oscillator module:
* - Clock output frequency divided by a factor of eight
* - Don't run in STANDBY sleep mode
* - Run only when requested by peripheral (on demand)
*
* \param[out] config Configuration structure to fill with default values
*/
static inline void system_clock_source_osc8m_get_config_defaults(
struct system_clock_source_osc8m_config *const config)
{
Assert(config);
config->prescaler = SYSTEM_OSC8M_DIV_8;
config->run_in_standby = false;
config->on_demand = true;
}
void system_clock_source_osc8m_set_config(
struct system_clock_source_osc8m_config *const config);
/**
* @}
*/
/**
* \name Internal DFLL Management
* @{
*/
/**
* \brief Retrieve the default configuration for DFLL.
*
* Fills a configuration structure with the default configuration for a
* DFLL oscillator module:
* - Open loop mode
* - QuickLock mode enabled
* - Chill cycle enabled
* - Output frequency lock maintained during device wake-up
* - Continuous tracking of the output frequency
* - Default tracking values at the mid-points for both coarse and fine
* tracking parameters
* - Don't run in STANDBY sleep mode
* - Run only when requested by peripheral (on demand)
*
* \param[out] config Configuration structure to fill with default values
*/
static inline void system_clock_source_dfll_get_config_defaults(
struct system_clock_source_dfll_config *const config)
{
Assert(config);
config->loop_mode = SYSTEM_CLOCK_DFLL_LOOP_MODE_OPEN;
config->quick_lock = SYSTEM_CLOCK_DFLL_QUICK_LOCK_ENABLE;
config->chill_cycle = SYSTEM_CLOCK_DFLL_CHILL_CYCLE_ENABLE;
config->wakeup_lock = SYSTEM_CLOCK_DFLL_WAKEUP_LOCK_KEEP;
config->stable_tracking = SYSTEM_CLOCK_DFLL_STABLE_TRACKING_TRACK_AFTER_LOCK;
config->on_demand = true;
/* Open loop mode calibration value */
config->coarse_value = 0x1f / 4; /* Midpoint */
config->fine_value = 0xff / 4; /* Midpoint */
/* Closed loop mode */
config->coarse_max_step = 1;
config->fine_max_step = 1;
config->multiply_factor = 6; /* Multiply 8MHz by 6 to get 48MHz */
}
void system_clock_source_dfll_set_config(
struct system_clock_source_dfll_config *const config);
/**
* @}
*/
/**
* \name Clock Source Management
* @{
*/
enum status_code system_clock_source_write_calibration(
const enum system_clock_source system_clock_source,
const uint16_t calibration_value,
const uint8_t freq_range);
enum status_code system_clock_source_enable(
const enum system_clock_source system_clock_source);
enum status_code system_clock_source_disable(
const enum system_clock_source clk_source);
bool system_clock_source_is_ready(
const enum system_clock_source clk_source);
uint32_t system_clock_source_get_hz(
const enum system_clock_source clk_source);
/**
* @}
*/
/**
* \name Main Clock Management
* @{
*/
/**
* \brief Set main CPU clock divider.
*
* Sets the clock divider used on the main clock to provide the CPU clock.
*
* \param[in] divider CPU clock divider to set
*/
static inline void system_cpu_clock_set_divider(
const enum system_main_clock_div divider)
{
Assert(((uint32_t)divider & PM_CPUSEL_CPUDIV_Msk) == divider);
PM->CPUSEL.reg = (uint32_t)divider;
}
/**
* \brief Retrieves the current frequency of the CPU core.
*
* Retrieves the operating frequency of the CPU core, obtained from the main
* generic clock and the set CPU bus divider.
*
* \return Current CPU frequency in Hz.
*/
static inline uint32_t system_cpu_clock_get_hz(void)
{
return (system_gclk_gen_get_hz(GCLK_GENERATOR_0) >> PM->CPUSEL.reg);
}
/**
* \brief Set APBx clock divider.
*
* Set the clock divider used on the main clock to provide the clock for the
* given APBx bus.
*
* \param[in] divider APBx bus divider to set
* \param[in] bus APBx bus to set divider
*
* \returns Status of the clock division change operation.
*
* \retval STATUS_ERR_INVALID_ARG Invalid bus ID was given
* \retval STATUS_OK The APBx clock was set successfully
*/
static inline enum status_code system_apb_clock_set_divider(
const enum system_clock_apb_bus bus,
const enum system_main_clock_div divider)
{
switch (bus) {
case SYSTEM_CLOCK_APB_APBA:
PM->APBASEL.reg = (uint32_t)divider;
break;
case SYSTEM_CLOCK_APB_APBB:
PM->APBBSEL.reg = (uint32_t)divider;
break;
case SYSTEM_CLOCK_APB_APBC:
PM->APBCSEL.reg = (uint32_t)divider;
break;
default:
Assert(false);
return STATUS_ERR_INVALID_ARG;
}
return STATUS_OK;
}
/**
* \brief Retrieves the current frequency of a ABPx.
*
* Retrieves the operating frequency of an APBx bus, obtained from the main
* generic clock and the set APBx bus divider.
*
* \return Current APBx bus frequency in Hz.
*/
static inline uint32_t system_apb_clock_get_hz(
const enum system_clock_apb_bus bus)
{
uint16_t bus_divider = 0;
switch (bus) {
case SYSTEM_CLOCK_APB_APBA:
bus_divider = PM->APBASEL.reg;
break;
case SYSTEM_CLOCK_APB_APBB:
bus_divider = PM->APBBSEL.reg;
break;
case SYSTEM_CLOCK_APB_APBC:
bus_divider = PM->APBCSEL.reg;
break;
default:
Assert(false);
return 0;
}
return (system_gclk_gen_get_hz(GCLK_GENERATOR_0) >> bus_divider);
}
/**
* @}
*/
/**
* \name Bus Clock Masking
* @{
*/
/**
* \brief Set bits in the clock mask for the AHB bus.
*
* This function will set bits in the clock mask for the AHB bus.
* Any bits set to 1 will enable that clock, 0 bits in the mask
* will be ignored.
*
* \param[in] ahb_mask AHB clock mask to enable
*/
static inline void system_ahb_clock_set_mask(
const uint32_t ahb_mask)
{
PM->AHBMASK.reg |= ahb_mask;
}
/**
* \brief Clear bits in the clock mask for the AHB bus.
*
* This function will clear bits in the clock mask for the AHB bus.
* Any bits set to 1 will disable that clock, 0 bits in the mask
* will be ignored.
*
* \param[in] ahb_mask AHB clock mask to disable
*/
static inline void system_ahb_clock_clear_mask(
const uint32_t ahb_mask)
{
PM->AHBMASK.reg &= ~ahb_mask;
}
/**
* \brief Set bits in the clock mask for an APBx bus.
*
* This function will set bits in the clock mask for an APBx bus.
* Any bits set to 1 will enable the corresponding module clock, zero bits in
* the mask will be ignored.
*
* \param[in] mask APBx clock mask, a \c SYSTEM_CLOCK_APB_APBx constant from
* the device header files
* \param[in] bus Bus to set clock mask bits for, a mask of \c PM_APBxMASK_*
* constants from the device header files
*
* \returns Status indicating the result of the clock mask change operation.
*
* \retval STATUS_ERR_INVALID_ARG Invalid bus given
* \retval STATUS_OK The clock mask was set successfully
*/
static inline enum status_code system_apb_clock_set_mask(
const enum system_clock_apb_bus bus,
const uint32_t mask)
{
switch (bus) {
case SYSTEM_CLOCK_APB_APBA:
PM->APBAMASK.reg |= mask;
break;
case SYSTEM_CLOCK_APB_APBB:
PM->APBBMASK.reg |= mask;
break;
case SYSTEM_CLOCK_APB_APBC:
PM->APBCMASK.reg |= mask;
break;
default:
Assert(false);
return STATUS_ERR_INVALID_ARG;
}
return STATUS_OK;
}
/**
* \brief Clear bits in the clock mask for an APBx bus.
*
* This function will clear bits in the clock mask for an APBx bus.
* Any bits set to 1 will disable the corresponding module clock, zero bits in
* the mask will be ignored.
*
* \param[in] mask APBx clock mask, a \c SYSTEM_CLOCK_APB_APBx constant from
* the device header files
* \param[in] bus Bus to clear clock mask bits
*
* \returns Status indicating the result of the clock mask change operation.
*
* \retval STATUS_ERR_INVALID_ARG Invalid bus ID was given
* \retval STATUS_OK The clock mask was changed successfully
*/
static inline enum status_code system_apb_clock_clear_mask(
const enum system_clock_apb_bus bus,
const uint32_t mask)
{
switch (bus) {
case SYSTEM_CLOCK_APB_APBA:
PM->APBAMASK.reg &= ~mask;
break;
case SYSTEM_CLOCK_APB_APBB:
PM->APBBMASK.reg &= ~mask;
break;
case SYSTEM_CLOCK_APB_APBC:
PM->APBCMASK.reg &= ~mask;
break;
default:
Assert(false);
return STATUS_ERR_INVALID_ARG;
}
return STATUS_OK;
}
/**
* @}
*/
#ifdef FEATURE_SYSTEM_CLOCK_DPLL
/**
* \brief Reference clock source of the DPLL module.
*/
enum system_clock_source_dpll_reference_clock {
/** Select XOSC32K as clock reference. */
SYSTEM_CLOCK_SOURCE_DPLL_REFERENCE_CLOCK_XOSC32K,
/** Select XOSC as clock reference. */
SYSTEM_CLOCK_SOURCE_DPLL_REFERENCE_CLOCK_XOSC,
/** Select GCLK as clock reference. */
SYSTEM_CLOCK_SOURCE_DPLL_REFERENCE_CLOCK_GCLK,
};
/**
* \brief Lock time-out value of the DPLL module.
*/
enum system_clock_source_dpll_lock_time {
/** Set no time-out as default. */
SYSTEM_CLOCK_SOURCE_DPLL_LOCK_TIME_DEFAULT,
/** Set time-out if no lock within 8ms. */
SYSTEM_CLOCK_SOURCE_DPLL_LOCK_TIME_8MS = 0x04,
/** Set time-out if no lock within 9ms. */
SYSTEM_CLOCK_SOURCE_DPLL_LOCK_TIME_9MS,
/** Set time-out if no lock within 10ms. */
SYSTEM_CLOCK_SOURCE_DPLL_LOCK_TIME_10MS,
/** Set time-out if no lock within 11ms. */
SYSTEM_CLOCK_SOURCE_DPLL_LOCK_TIME_11MS,
};
/**
* \brief Filter type of the DPLL module.
*/
enum system_clock_source_dpll_filter {
/** Default filter mode. */
SYSTEM_CLOCK_SOURCE_DPLL_FILTER_DEFAULT,
/** Low bandwidth filter. */
SYSTEM_CLOCK_SOURCE_DPLL_FILTER_LOW_BANDWIDTH_FILTER,
/** High bandwidth filter. */
SYSTEM_CLOCK_SOURCE_DPLL_FILTER_HIGH_BANDWIDTH_FILTER,
/** High damping filter. */
SYSTEM_CLOCK_SOURCE_DPLL_FILTER_HIGH_DAMPING_FILTER,
};
/**
* \brief Configuration structure for DPLL.
*
* DPLL oscillator configuration structure.
*/
struct system_clock_source_dpll_config {
/** Run On Demand. If this is set the DPLL won't run
* until requested by a peripheral. */
bool on_demand;
/** Keep the DPLL enabled in standby sleep mode. */
bool run_in_standby;
/** Bypass lock signal. */
bool lock_bypass;
/** Wake up fast. If this is set DPLL output clock is enabled after
* the startup time. */
bool wake_up_fast;
/** Enable low power mode. */
bool low_power_enable;
/** Output frequency of the clock. */
uint32_t output_frequency;
/** Reference frequency of the clock. */
uint32_t reference_frequency;
/** Devider of reference clock. */
uint16_t reference_divider;
/** Filter type of the DPLL module. */
enum system_clock_source_dpll_filter filter;
/** Lock time-out value of the DPLL module. */
enum system_clock_source_dpll_lock_time lock_time;
/** Reference clock source of the DPLL module. */
enum system_clock_source_dpll_reference_clock reference_clock;
};
/**
* \name Internal DPLL Management
* @{
*/
/**
* \brief Retrieve the default configuration for DPLL.
*
* Fills a configuration structure with the default configuration for a
* DPLL oscillator module:
* - Run only when requested by peripheral (on demand)
* - Don't run in STANDBY sleep mode
* - Lock bypass disabled
* - Fast wake up disabled
* - Low power mode disabled
* - Output frequency is 48MHz
* - Reference clock frequency is 32768Hz
* - Not divide reference clock
* - Select REF0 as reference clock
* - Set lock time to default mode
* - Use default filter
*
* \param[out] config Configuration structure to fill with default values
*/
static inline void system_clock_source_dpll_get_config_defaults(
struct system_clock_source_dpll_config *const config)
{
config->on_demand = true;
config->run_in_standby = false;
config->lock_bypass = false;
config->wake_up_fast = false;
config->low_power_enable = false;
config->output_frequency = 48000000;
config->reference_frequency = 32768;
config->reference_divider = 1;
config->reference_clock = SYSTEM_CLOCK_SOURCE_DPLL_REFERENCE_CLOCK_XOSC32K;
config->lock_time = SYSTEM_CLOCK_SOURCE_DPLL_LOCK_TIME_DEFAULT;
config->filter = SYSTEM_CLOCK_SOURCE_DPLL_FILTER_DEFAULT;
};
void system_clock_source_dpll_set_config(
struct system_clock_source_dpll_config *const config);
/* @} */
#endif
/**
* \name System Clock Initialization
* @{
*/
void system_clock_init(void);
/**
* @}
*/
/**
* \name System Flash Wait States
* @{
*/
/**
* \brief Set flash controller wait states.
*
* Will set the number of wait states that are used by the onboard
* flash memory. The number of wait states depend on both device
* supply voltage and CPU speed. The required number of wait states
* can be found in the electrical characteristics of the device.
*
* \param[in] wait_states Number of wait states to use for internal flash
*/
static inline void system_flash_set_waitstates(uint8_t wait_states)
{
Assert(NVMCTRL_CTRLB_RWS((uint32_t)wait_states) ==
((uint32_t)wait_states << NVMCTRL_CTRLB_RWS_Pos));
NVMCTRL->CTRLB.bit.RWS = wait_states;
}
/**
* @}
*/
/**
* @}
*/
/**
* \page asfdoc_sam0_system_clock_extra Extra Information for SYSTEM CLOCK Driver
*
* \section asfdoc_sam0_system_clock_extra_acronyms Acronyms
* Below is a table listing the acronyms used in this module, along with their
* intended meanings.
*
* <table>
* <tr>
* <th>Acronym</th>
* <th>Description</th>
* </tr>
* <tr>
* <td>DFLL</td>
* <td>Digital Frequency Locked Loop</td>
* </tr>
* <tr>
* <td>MUX</td>
* <td>Multiplexer</td>
* </tr>
* <tr>
* <td>OSC32K</td>
* <td>Internal 32KHz Oscillator</td>
* </tr>
* <tr>
* <td>OSC8M</td>
* <td>Internal 8MHz Oscillator</td>
* </tr>
* <tr>
* <td>PLL</td>
* <td>Phase Locked Loop</td>
* </tr>
* <tr>
* <td>OSC</td>
* <td>Oscillator</td>
* </tr>
* <tr>
* <td>XOSC</td>
* <td>External Oscillator</td>
* </tr>
* <tr>
* <td>XOSC32K</td>
* <td>External 32KHz Oscillator</td>
* </tr>
* <tr>
* <td>AHB</td>
* <td>Advanced High-performance Bus</td>
* </tr>
* <tr>
* <td>APB</td>
* <td>Advanced Peripheral Bus</td>
* </tr>
* <tr>
* <td>DPLL</td>
* <td>Digital Phase Locked Loop</td>
* </tr>
* </table>
*
*
* \section asfdoc_sam0_system_clock_extra_dependencies Dependencies
* This driver has the following dependencies:
*
* - None
*
*
* \section asfdoc_sam0_system_clock_extra_errata Errata
*
* - This driver implements experimental workaround for errata 9905
*
* "The DFLL clock must be requested before being configured otherwise a
* write access to a DFLL register can freeze the device."
* This driver will enable and configure the DFLL before the ONDEMAND bit is set.
*
*
* \section asfdoc_sam0_system_clock_extra_history Module History
* An overview of the module history is presented in the table below, with
* details on the enhancements and fixes made to the module since its first
* release. The current version of this corresponds to the newest version in
* the table.
*
* <table>
* <tr>
* <th>Changelog</th>
* </tr>
* <tr>
* <td>
* \li Corrected OSC32K startup time definitions
* \li Support locking of OSC32K and XOSC32K config register (default: false)
* \li Added DPLL support, functions added:
* \c system_clock_source_dpll_get_config_defaults() and
* \c system_clock_source_dpll_set_config()
* \li Moved gclk channel locking feature out of the config struct
* functions added:
* \c system_gclk_chan_lock(),
* \c system_gclk_chan_is_locked()
* \c system_gclk_chan_is_enabled() and
* \c system_gclk_gen_is_enabled()
* </td>
* </tr>
* <tr>
* <td>Fixed \c system_gclk_chan_disable() deadlocking if a channel is enabled
* and configured to a failed/not running clock generator</td>
* </tr>
* <tr>
* <td>
* \li Changed default value for CONF_CLOCK_DFLL_ON_DEMAND from \c true to \c false
* \li Fixed system_flash_set_waitstates() failing with an assertion
* if an odd number of wait states provided
* </td>
* </tr>
* <tr>
* <td>
* \li Updated dfll configuration function to implement workaround for
* errata 9905 in the DFLL module
* \li Updated \c system_clock_init() to reset interrupt flags before
* they are used
* \li Fixed \c system_clock_source_get_hz() to return correcy DFLL
* frequency number
* </td>
* </tr>
* <tr>
* <td>\li Fixed \c system_clock_source_is_ready not returning the correct
* state for \c SYSTEM_CLOCK_SOURCE_OSC8M
* \li Renamed the various \c system_clock_source_*_get_default_config()
* functions to \c system_clock_source_*_get_config_defaults() to
* match the remainder of ASF
* \li Added OSC8M calibration constant loading from the device signature
* row when the oscillator is initialized
* \li Updated default configuration of the XOSC32 to disable Automatic
* Gain Control due to silicon errata
* </td>
* </tr>
* <tr>
* <td>Initial Release</td>
* </tr>
* </table>
*/
/**
* \page asfdoc_sam0_system_clock_exqsg Examples for System Clock Driver
*
* This is a list of the available Quick Start guides (QSGs) and example
* applications for \ref asfdoc_sam0_system_clock_group. QSGs are simple
* examples with step-by-step instructions to configure and use this driver in
* a selection of use cases. Note that QSGs can be compiled as a standalone
* application or be added to the user application.
*
* - \subpage asfdoc_sam0_system_clock_basic_use_case
* - \subpage asfdoc_sam0_system_gclk_basic_use_case
*
* \page asfdoc_sam0_system_clock_document_revision_history Document Revision History
*
* <table>
* <tr>
* <th>Doc. Rev.</td>
* <th>Date</td>
* <th>Comments</td>
* </tr>
* <tr>
* <td>E</td>
* <td>04/2015</td>
* <td>Added support for SAMDAx.</td>
* </tr>
* <tr>
* <td>D</td>
* <td>12/2014</td>
* <td>Added support for SAMR21 and SAMD10/D11.</td>
* </tr>
* <tr>
* <td>C</td>
* <td>01/2014</td>
* <td>Added support for SAMD21.</td>
* </tr>
* <tr>
* <td>B</td>
* <td>06/2013</td>
* <td>Corrected documentation typos. Fixed missing steps in the Basic
* Use Case Quick Start Guide.</td>
* </tr>
* <tr>
* <td>A</td>
* <td>06/2013</td>
* <td>Initial release</td>
* </tr>
* </table>
*/
#ifdef __cplusplus
}
#endif
#endif /* SYSTEM_CLOCK_FEATURE_H_INCLUDED */
