rtt-f030/bsp/lpc824/Libraries/common/chip/clock_8xx.h

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2017-07-28 21:34:18 +08:00
/*
* @brief LPC8xx clock driver
*
* @note
* Copyright(C) NXP Semiconductors, 2012
* All rights reserved.
*
* @par
* Software that is described herein is for illustrative purposes only
* which provides customers with programming information regarding the
* LPC products. This software is supplied "AS IS" without any warranties of
* any kind, and NXP Semiconductors and its licenser disclaim any and
* all warranties, express or implied, including all implied warranties of
* merchantability, fitness for a particular purpose and non-infringement of
* intellectual property rights. NXP Semiconductors assumes no responsibility
* or liability for the use of the software, conveys no license or rights under any
* patent, copyright, mask work right, or any other intellectual property rights in
* or to any products. NXP Semiconductors reserves the right to make changes
* in the software without notification. NXP Semiconductors also makes no
* representation or warranty that such application will be suitable for the
* specified use without further testing or modification.
*
* @par
* Permission to use, copy, modify, and distribute this software and its
* documentation is hereby granted, under NXP Semiconductors' and its
* licensor's relevant copyrights in the software, without fee, provided that it
* is used in conjunction with NXP Semiconductors microcontrollers. This
* copyright, permission, and disclaimer notice must appear in all copies of
* this code.
*/
#ifndef __CLOCK_8XX_H_
#define __CLOCK_8XX_H_
#ifdef __cplusplus
extern "C" {
#endif
/** @defgroup CLOCK_8XX CHIP: LPC8xx Clock Driver
* @ingroup CHIP_8XX_Drivers
* @{
*/
/* Internal oscillator frequency */
#define SYSCTL_IRC_FREQ (12000000)
#ifndef MAX_CLOCK_FREQ
#define MAX_CLOCK_FREQ (30000000)
#endif
/**
* Clock sources for system and USB PLLs
*/
typedef enum CHIP_SYSCTL_PLLCLKSRC {
SYSCTL_PLLCLKSRC_IRC = 0, /*!< Internal oscillator */
SYSCTL_PLLCLKSRC_SYSOSC, /*!< Crystal (system) oscillator */
SYSCTL_PLLCLKSRC_RESERVED,
SYSCTL_PLLCLKSRC_EXT_CLKIN, /*!< External clock input */
} CHIP_SYSCTL_PLLCLKSRC_T;
/**
* Watchdog oscillator analog output frequency selection
* values enum (plus or minus 40%)
*/
typedef enum CHIP_WDTLFO_OSC {
WDTLFO_OSC_ILLEGAL,
WDTLFO_OSC_0_60, /*!< 0.6 MHz watchdog/LFO rate */
WDTLFO_OSC_1_05, /*!< 1.05 MHz watchdog/LFO rate */
WDTLFO_OSC_1_40, /*!< 1.4 MHz watchdog/LFO rate */
WDTLFO_OSC_1_75, /*!< 1.75 MHz watchdog/LFO rate */
WDTLFO_OSC_2_10, /*!< 2.1 MHz watchdog/LFO rate */
WDTLFO_OSC_2_40, /*!< 2.4 MHz watchdog/LFO rate */
WDTLFO_OSC_2_70, /*!< 2.7 MHz watchdog/LFO rate */
WDTLFO_OSC_3_00, /*!< 3.0 MHz watchdog/LFO rate */
WDTLFO_OSC_3_25, /*!< 3.25 MHz watchdog/LFO rate */
WDTLFO_OSC_3_50, /*!< 3.5 MHz watchdog/LFO rate */
WDTLFO_OSC_3_75, /*!< 3.75 MHz watchdog/LFO rate */
WDTLFO_OSC_4_00, /*!< 4.0 MHz watchdog/LFO rate */
WDTLFO_OSC_4_20, /*!< 4.2 MHz watchdog/LFO rate */
WDTLFO_OSC_4_40, /*!< 4.4 MHz watchdog/LFO rate */
WDTLFO_OSC_4_60 /*!< 4.6 MHz watchdog/LFO rate */
} CHIP_WDTLFO_OSC_T;
/**
* Clock sources for main system clock
*/
typedef enum CHIP_SYSCTL_MAINCLKSRC {
SYSCTL_MAINCLKSRC_IRC = 0, /*!< Internal oscillator */
SYSCTL_MAINCLKSRC_PLLIN, /*!< System PLL input */
SYSCTL_MAINCLKSRC_WDTOSC, /*!< Watchdog oscillator rate */
SYSCTL_MAINCLKSRC_PLLOUT, /*!< System PLL output */
} CHIP_SYSCTL_MAINCLKSRC_T;
/**
* System and peripheral clocks enum
*/
typedef enum CHIP_SYSCTL_CLOCK {
SYSCTL_CLOCK_SYS = 0, /*!< System clock */
SYSCTL_CLOCK_ROM, /*!< ROM clock */
SYSCTL_CLOCK_RAM, /*!< RAM clock */
SYSCTL_CLOCK_FLASHREG, /*!< FLASH register interface clock */
SYSCTL_CLOCK_FLASH, /*!< FLASH array access clock */
SYSCTL_CLOCK_I2C0, /*!< I2C0 clock */
SYSCTL_CLOCK_GPIO, /*!< GPIO clock */
SYSCTL_CLOCK_SWM, /*!< Switch matrix clock */
SYSCTL_CLOCK_SCT, /*!< State configurable timer clock */
SYSCTL_CLOCK_WKT, /*!< Self wake-up timer clock */
SYSCTL_CLOCK_MRT, /*!< Multi-rate timer clock */
SYSCTL_CLOCK_SPI0, /*!< SPI0 clock */
SYSCTL_CLOCK_SPI1, /*!< SPI01 clock */
SYSCTL_CLOCK_CRC, /*!< CRC clock */
SYSCTL_CLOCK_UART0, /*!< UART0 clock */
SYSCTL_CLOCK_UART1, /*!< UART1 clock */
SYSCTL_CLOCK_UART2, /*!< UART2 clock */
SYSCTL_CLOCK_WWDT, /*!< Watchdog clock */
SYSCTL_CLOCK_IOCON, /*!< IOCON clock */
SYSCTL_CLOCK_ACOMP, /*!< Analog comparator clock */
/* LPC82x Specific Clocks */
SYSCTL_CLOCK_I2C1 = 21, /*!< I2C1 Clock */
SYSCTL_CLOCK_I2C2, /*!< I2C2 Clock */
SYSCTL_CLOCK_I2C3, /*!< I2C3 Clock */
SYSCTL_CLOCK_ADC, /*!< 12-Bit ADC Clock */
SYSCTL_CLOCK_MTB = 26, /*!< Macro Trace Buffer [USED FOR DEBUGGING] */
SYSCTL_CLOCK_DMA = 29, /*!< DMA Clock */
} CHIP_SYSCTL_CLOCK_T;
/* Clock name alias */
#define SYSCTL_CLOCK_I2C SYSCTL_CLOCK_I2C0
#define SYSCTL_CLOCK_ACMP SYSCTL_CLOCK_ACOMP
/**
* Clock sources for CLKOUT
*/
typedef enum CHIP_SYSCTL_CLKOUTSRC {
SYSCTL_CLKOUTSRC_IRC = 0, /*!< Internal oscillator for CLKOUT */
SYSCTL_CLKOUTSRC_SYSOSC, /*!< System oscillator for CLKOUT */
SYSCTL_CLKOUTSRC_WDTOSC, /*!< Watchdog oscillator for CLKOUT */
SYSCTL_CLKOUTSRC_MAINSYSCLK, /*!< Main system clock for CLKOUT */
} CHIP_SYSCTL_CLKOUTSRC_T;
/**
* @brief Set System PLL divider values
* @param msel : PLL feedback divider value
* @param psel : PLL post divider value
* @return Nothing
* @note See the user manual for how to setup the PLL
*/
STATIC INLINE void Chip_Clock_SetupSystemPLL(uint8_t msel, uint8_t psel)
{
LPC_SYSCTL->SYSPLLCTRL = (msel & 0x1F) | ((psel & 0x3) << 5);
}
/**
* @brief Read System PLL status
* @return true if the PLL is locked, false if not locked
*/
STATIC INLINE bool Chip_Clock_IsSystemPLLLocked(void)
{
return (bool) ((LPC_SYSCTL->SYSPLLSTAT & 1) != 0);
}
/**
* @brief Setup Watchdog oscillator rate and divider
* @param wdtclk : Selected watchdog clock rate
* @param div : Watchdog divider value, even value between 2 and 64
* @return Nothing
* @note Watchdog rate = selected rate divided by divider rate
*/
STATIC INLINE void Chip_Clock_SetWDTOSC(CHIP_WDTLFO_OSC_T wdtclk, uint8_t div)
{
LPC_SYSCTL->WDTOSCCTRL = (((uint32_t) wdtclk) << 5) | ((div >> 1) - 1);
}
/**
* @brief Returns the main clock source
* @return Main clock source
*/
STATIC INLINE CHIP_SYSCTL_MAINCLKSRC_T Chip_Clock_GetMainClockSource(void)
{
return (CHIP_SYSCTL_MAINCLKSRC_T) (LPC_SYSCTL->MAINCLKSEL & ~SYSCTL_MAINCLKSEL_RESERVED);
}
/**
* @brief Set system clock divider
* @param div : divider for system clock
* @return Nothing
* @note Use 0 to disable, or a divider value of 1 to 255. The system clock
* rate is the main system clock divided by this value.
*/
STATIC INLINE void Chip_Clock_SetSysClockDiv(uint32_t div)
{
LPC_SYSCTL->SYSAHBCLKDIV = div;
}
/**
* @brief Enable system or peripheral clock
* @param clk : Clock to enable
* @return Nothing
*/
STATIC INLINE void Chip_Clock_EnablePeriphClock(CHIP_SYSCTL_CLOCK_T clk)
{
LPC_SYSCTL->SYSAHBCLKCTRL = (1 << clk) | (LPC_SYSCTL->SYSAHBCLKCTRL & ~SYSCTL_SYSAHBCLKCTRL_RESERVED);
}
/**
* @brief Disable system or peripheral clock
* @param clk : Clock to disable
* @return Nothing
*/
STATIC INLINE void Chip_Clock_DisablePeriphClock(CHIP_SYSCTL_CLOCK_T clk)
{
LPC_SYSCTL->SYSAHBCLKCTRL &= ~((1 << clk) | SYSCTL_SYSAHBCLKCTRL_RESERVED);
}
/**
* @brief Set UART divider clock
* @param div : divider for UART clock
* @return Nothing
* @note Use 0 to disable, or a divider value of 1 to 255. The UART clock
* rate is the main system clock divided by this value.
*/
STATIC INLINE void Chip_Clock_SetUARTClockDiv(uint32_t div)
{
LPC_SYSCTL->UARTCLKDIV = div;
}
/**
* @brief Return UART divider
* @return divider for UART clock
* @note A value of 0 means the clock is disabled.
*/
STATIC INLINE uint32_t Chip_Clock_GetUARTClockDiv(void)
{
return LPC_SYSCTL->UARTCLKDIV & ~SYSCTL_UARTCLKDIV_RESERVED;
}
/**
* @brief Set The USART Fractional Generator Divider
* @param div : Fractional Generator Divider value, should be 0xFF
* @return Nothing
*/
STATIC INLINE void Chip_SYSCTL_SetUSARTFRGDivider(uint8_t div)
{
LPC_SYSCTL->UARTFRGDIV = (uint32_t) div;
}
/**
* @brief Get The USART Fractional Generator Divider
* @return Value of USART Fractional Generator Divider
*/
STATIC INLINE uint32_t Chip_SYSCTL_GetUSARTFRGDivider(void)
{
return LPC_SYSCTL->UARTFRGDIV & ~SYSCTL_UARTFRGDIV_RESERVED;
}
/**
* @brief Set The USART Fractional Generator Multiplier
* @param mult : An 8-bit value (0-255) U_PCLK = UARTCLKDIV/(1 + MULT/256)
* @return Nothing
*/
STATIC INLINE void Chip_SYSCTL_SetUSARTFRGMultiplier(uint8_t mult)
{
LPC_SYSCTL->UARTFRGMULT = (uint32_t) mult;
}
/**
* @brief Get The USART Fractional Generator Multiplier
* @return Value of USART Fractional Generator Multiplier
*/
STATIC INLINE uint32_t Chip_SYSCTL_GetUSARTFRGMultiplier(void)
{
return LPC_SYSCTL->UARTFRGMULT & ~SYSCTL_UARTFRGMULT_RESERVED;
}
/**
* @brief Set USART 0/1/2 UART base rate (up to main clock rate)
* @param rate : Desired rate for fractional divider/multipler output
* @param fEnable : true to use fractional clocking, false for integer clocking
* @return Actual rate generated
* @note USARTs 0 - 2 use the same base clock for their baud rate
* basis. This function is used to generate that clock, while the
* UART driver's SetBaud functions will attempt to get the closest
* baud rate from this base clock without altering it. This needs
* to be setup prior to individual UART setup.<br>
* UARTs need a base clock 16x faster than the baud rate, so if you
* need a 115.2Kbps baud rate, you will need a clock rate of at
* least (115.2K * 16). The UART base clock is generated from the
* main system clock, so fractional clocking may be the only
* possible choice when using a low main system clock frequency.
* Do not alter the FRGCLKDIV register after this call.
*/
uint32_t Chip_Clock_SetUSARTNBaseClockRate(uint32_t rate, bool fEnable);
/**
* @brief Get USART 0/1/2 UART base rate
* @return USART 0/1/2 UART base rate
*/
uint32_t Chip_Clock_GetUSARTNBaseClockRate(void);
/**
* @brief Returns the main oscillator clock rate
* @return main oscillator clock rate
*/
STATIC INLINE uint32_t Chip_Clock_GetMainOscRate(void)
{
return OscRateIn;
}
/**
* @brief Returns the internal oscillator (IRC) clock rate
* @return internal oscillator (IRC) clock rate
*/
STATIC INLINE uint32_t Chip_Clock_GetIntOscRate(void)
{
return SYSCTL_IRC_FREQ;
}
/**
* @brief Returns the external clock input rate
* @return External clock input rate
*/
STATIC INLINE uint32_t Chip_Clock_GetExtClockInRate(void)
{
return ExtRateIn;
}
/**
* @brief Set System PLL clock source
* @param src : Clock source for system PLL
* @return Nothing
* @note This function will also toggle the clock source update register
* to update the clock source
*/
void Chip_Clock_SetSystemPLLSource(CHIP_SYSCTL_PLLCLKSRC_T src);
/**
* @brief Bypass System Oscillator and set oscillator frequency range
* @param bypass : Flag to bypass oscillator
* @param highfr : Flag to set oscillator range from 15-25 MHz
* @return Nothing
* @note Sets the PLL input to bypass the oscillator. This would be
* used if an external clock that is not an oscillator is attached
* to the XTALIN pin.
*/
void Chip_Clock_SetPLLBypass(bool bypass, bool highfr);
/**
* @brief Set main system clock source
* @param src : Clock source for main system
* @return Nothing
* @note This function will also toggle the clock source update register
* to update the clock source
*/
void Chip_Clock_SetMainClockSource(CHIP_SYSCTL_MAINCLKSRC_T src);
/**
* @brief Set CLKOUT clock source and divider
* @param src : Clock source for CLKOUT
* @param div : divider for CLKOUT clock
* @return Nothing
* @note Use 0 to disable, or a divider value of 1 to 255. The CLKOUT clock
* rate is the clock source divided by the divider. This function will
* also toggle the clock source update register to update the clock
* source.
*/
void Chip_Clock_SetCLKOUTSource(CHIP_SYSCTL_CLKOUTSRC_T src, uint32_t div);
/**
* @brief Return estimated watchdog oscillator rate
* @return Estimated watchdog oscillator rate
* @note This rate is accurate to plus or minus 40%.
*/
uint32_t Chip_Clock_GetWDTOSCRate(void);
/**
* @brief Return System PLL input clock rate
* @return System PLL input clock rate
*/
uint32_t Chip_Clock_GetSystemPLLInClockRate(void);
/**
* @brief Return System PLL output clock rate
* @return System PLL output clock rate
*/
uint32_t Chip_Clock_GetSystemPLLOutClockRate(void);
/**
* @brief Return main clock rate
* @return main clock rate
*/
uint32_t Chip_Clock_GetMainClockRate(void);
/**
* @brief Return system clock rate
* @return system clock rate
*/
uint32_t Chip_Clock_GetSystemClockRate(void);
/**
* @brief Get IOCONCLKDIV clock rate
* @param reg : Divider register to get
* @return The clock rate going to the IOCON glitch filter
* @note Use 0 to disable, or a divider value of 1 to 255.
*/
uint32_t Chip_Clock_GetIOCONCLKDIVClockRate(CHIP_PIN_CLKDIV_T reg);
/**
* @brief Set IOCONCLKDIV divider
* @param reg : divider register to set
* @param div : divider value for IOCONCLKDIV[reg] clock
* @return Nothing
* @note Use 0 to disable, or a divider value of 1 to 255.
*/
void Chip_Clock_SetIOCONCLKDIV(CHIP_PIN_CLKDIV_T reg, uint8_t div);
/**
* @}
*/
/** @defgroup IRC_8XX CHIP: LPC8xx IRC Configuration
* @ingroup CHIP_8XX_Drivers
* @{
*/
/**
* @brief set main / system clock using IRC and PLL
* @param main: main clock frequency (in MHz)
* @param sys : system clock frequency (in MHz)
* @return bool: Success = true / fail = false
* @note This is a table based function. The table uses both the
* main frequency and the system frequency to set the PLL.
* All useful main / system clock combinations are in the table.
* See irc_8xx.c for details.
*/
bool Chip_IRC_SetFreq(uint32_t main, uint32_t sys);
/**
* @brief Set main / system clock using IRC and PLL
* @param sys : system clock frequency (in MHz)
* @return Nothing
* @note This function uses the ROM set_pll() function.
*/
void Chip_IRC_SetFreq_ROM(uint32_t sys);
/**
* @}
*/
#ifdef __cplusplus
}
#endif
#endif /* __CLOCK_8XX_H_ */