2015-06-11 04:09:36 +08:00
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STMicroelectronics STM32 Reset and Clock Controller
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===================================================
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2016-07-22 17:37:48 +08:00
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The RCC IP is both a reset and a clock controller.
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2015-06-11 04:09:36 +08:00
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2016-07-22 17:37:48 +08:00
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Please refer to clock-bindings.txt for common clock controller binding usage.
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Please also refer to reset.txt for common reset controller binding usage.
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2015-06-11 04:09:36 +08:00
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Required properties:
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2016-10-21 17:23:30 +08:00
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- compatible: Should be:
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"st,stm32f42xx-rcc"
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"st,stm32f469-rcc"
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2017-01-06 21:59:22 +08:00
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"st,stm32f746-rcc"
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2015-06-11 04:09:36 +08:00
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- reg: should be register base and length as documented in the
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datasheet
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2016-07-22 17:37:48 +08:00
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- #reset-cells: 1, see below
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2015-06-11 04:09:36 +08:00
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- #clock-cells: 2, device nodes should specify the clock in their "clocks"
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property, containing a phandle to the clock device node, an index selecting
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between gated clocks and other clocks and an index specifying the clock to
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use.
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2016-12-13 22:20:12 +08:00
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- clocks: External oscillator clock phandle
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- high speed external clock signal (HSE)
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- external I2S clock (I2S_CKIN)
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2015-06-11 04:09:36 +08:00
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Example:
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rcc: rcc@40023800 {
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2016-07-22 17:37:48 +08:00
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#reset-cells = <1>;
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2015-06-11 04:09:36 +08:00
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#clock-cells = <2>
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compatible = "st,stm32f42xx-rcc", "st,stm32-rcc";
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reg = <0x40023800 0x400>;
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2016-12-13 22:20:12 +08:00
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clocks = <&clk_hse>, <&clk_i2s_ckin>;
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2015-06-11 04:09:36 +08:00
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};
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Specifying gated clocks
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=======================
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The primary index must be set to 0.
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The secondary index is the bit number within the RCC register bank, starting
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from the first RCC clock enable register (RCC_AHB1ENR, address offset 0x30).
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It is calculated as: index = register_offset / 4 * 32 + bit_offset.
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Where bit_offset is the bit offset within the register (LSB is 0, MSB is 31).
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2016-07-22 17:37:48 +08:00
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To simplify the usage and to share bit definition with the reset and clock
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drivers of the RCC IP, macros are available to generate the index in
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human-readble format.
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For STM32F4 series, the macro are available here:
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- include/dt-bindings/mfd/stm32f4-rcc.h
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2015-06-11 04:09:36 +08:00
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Example:
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/* Gated clock, AHB1 bit 0 (GPIOA) */
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... {
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2016-07-22 17:37:48 +08:00
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clocks = <&rcc 0 STM32F4_AHB1_CLOCK(GPIOA)>
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2015-06-11 04:09:36 +08:00
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};
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/* Gated clock, AHB2 bit 4 (CRYP) */
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... {
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2016-07-22 17:37:48 +08:00
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clocks = <&rcc 0 STM32F4_AHB2_CLOCK(CRYP)>
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2015-06-11 04:09:36 +08:00
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};
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Specifying other clocks
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=======================
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The primary index must be set to 1.
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The secondary index is bound with the following magic numbers:
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0 SYSTICK
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1 FCLK
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2016-12-13 22:20:12 +08:00
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2 CLK_LSI (low-power clock source)
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3 CLK_LSE (generated from a 32.768 kHz low-speed external
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crystal or ceramic resonator)
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4 CLK_HSE_RTC (HSE division factor for RTC clock)
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5 CLK_RTC (real-time clock)
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6 PLL_VCO_I2S (vco frequency of I2S pll)
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7 PLL_VCO_SAI (vco frequency of SAI pll)
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8 CLK_LCD (LCD-TFT)
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9 CLK_I2S (I2S clocks)
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10 CLK_SAI1 (audio clocks)
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11 CLK_SAI2
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12 CLK_I2SQ_PDIV (post divisor of pll i2s q divisor)
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13 CLK_SAIQ_PDIV (post divisor of pll sai q divisor)
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2015-06-11 04:09:36 +08:00
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2017-01-06 21:59:22 +08:00
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14 CLK_HSI (Internal ocscillator clock)
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15 CLK_SYSCLK (System Clock)
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16 CLK_HDMI_CEC (HDMI-CEC clock)
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17 CLK_SPDIF (SPDIF-Rx clock)
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18 CLK_USART1 (U(s)arts clocks)
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19 CLK_USART2
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20 CLK_USART3
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21 CLK_UART4
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22 CLK_UART5
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23 CLK_USART6
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24 CLK_UART7
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25 CLK_UART8
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26 CLK_I2C1 (I2S clocks)
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27 CLK_I2C2
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28 CLK_I2C3
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29 CLK_I2C4
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30 CLK_LPTIMER (LPTimer1 clock)
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)
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2015-06-11 04:09:36 +08:00
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Example:
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/* Misc clock, FCLK */
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... {
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2016-07-22 17:37:48 +08:00
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clocks = <&rcc 1 STM32F4_APB1_CLOCK(TIM2)>
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};
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Specifying softreset control of devices
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=======================================
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Device nodes should specify the reset channel required in their "resets"
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property, containing a phandle to the reset device node and an index specifying
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which channel to use.
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The index is the bit number within the RCC registers bank, starting from RCC
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base address.
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It is calculated as: index = register_offset / 4 * 32 + bit_offset.
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Where bit_offset is the bit offset within the register.
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For example, for CRC reset:
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crc = AHB1RSTR_offset / 4 * 32 + CRCRST_bit_offset = 0x10 / 4 * 32 + 12 = 140
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example:
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timer2 {
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resets = <&rcc STM32F4_APB1_RESET(TIM2)>;
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2015-06-11 04:09:36 +08:00
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};
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