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Extend explanation for MDC clock
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@ -2,10 +2,12 @@
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#if MG_ENABLE_MIP && defined(__arm__)
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// define to your own clock if using external clocking
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#if !defined(MG_STM32_CLK_HSE)
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#define MG_STM32_CLK_HSE 8000000UL
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#endif
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// define to your chip internal clock if different
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#if !defined(MG_STM32_CLK_HSI)
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#define MG_STM32_CLK_HSI 16000000UL
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#endif
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@ -188,8 +190,14 @@ static uint32_t hclk_get(void) {
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return ((uint32_t) clk) >> ahbptab[hpre - 8];
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}
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/* Guess CR from HCLK, set to IEEE802.3 max -5% clock drift;
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valid for STM32F74xxx/75xxx (38.8.1) and STM32F42xxx/43xxx (33.8.1) */
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/* Guess CR from HCLK:
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MDC clock is generated from HCLK (AHB); as per 802.3, it must not exceed 2.5MHz
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As the AHB clock can be (and usually is) derived from the HSI (internal RC),
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and it can go above specs, the datasheets specify a range of frequencies and
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activate one of a series of dividers to keep the MDC clock safely below 2.5MHz.
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We guess a divider setting based on HCLK with a +5% drift.
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If the user uses a different clock from our defaults, needs to set the macros on top
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Valid for STM32F74xxx/75xxx (38.8.1) and STM32F42xxx/43xxx (33.8.1) (both 4.5% worst case drift) */
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#define CRDTAB_LEN 6
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static const uint8_t crdtab[CRDTAB_LEN][2] = {
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// [{setting, div ratio},...]
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12
mongoose.c
12
mongoose.c
@ -5973,10 +5973,12 @@ struct mip_driver mip_driver_enc28j60 = {.init = mip_driver_enc28j60_init,
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#if MG_ENABLE_MIP && defined(__arm__)
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// define to your own clock if using external clocking
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#if !defined(MG_STM32_CLK_HSE)
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#define MG_STM32_CLK_HSE 8000000UL
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#endif
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// define to your chip internal clock if different
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#if !defined(MG_STM32_CLK_HSI)
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#define MG_STM32_CLK_HSI 16000000UL
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#endif
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@ -6159,8 +6161,14 @@ static uint32_t hclk_get(void) {
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return ((uint32_t) clk) >> ahbptab[hpre - 8];
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}
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/* Guess CR from HCLK, set to IEEE802.3 max -5% clock drift;
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valid for STM32F74xxx/75xxx (38.8.1) and STM32F42xxx/43xxx (33.8.1) */
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/* Guess CR from HCLK:
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MDC clock is generated from HCLK (AHB); as per 802.3, it must not exceed 2.5MHz
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As the AHB clock can be (and usually is) derived from the HSI (internal RC),
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and it can go above specs, the datasheets specify a range of frequencies and
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activate one of a series of dividers to keep the MDC clock safely below 2.5MHz.
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We guess a divider setting based on HCLK with a +5% drift.
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If the user uses a different clock from our defaults, needs to set the macros on top
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Valid for STM32F74xxx/75xxx (38.8.1) and STM32F42xxx/43xxx (33.8.1) (both 4.5% worst case drift) */
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#define CRDTAB_LEN 6
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static const uint8_t crdtab[CRDTAB_LEN][2] = {
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// [{setting, div ratio},...]
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