void dfll_enable_config_defaults(unsigned int dfll_id) { struct dfll_config dfllcfg; if (dfll_is_fine_locked(dfll_id)) { return; // DFLL already running } switch (dfll_id) { #ifdef CONFIG_DFLL0_SOURCE case 0: dfll_enable_source(CONFIG_DFLL0_SOURCE); dfll_config_init_closed_loop_mode(&dfllcfg, CONFIG_DFLL0_SOURCE, CONFIG_DFLL0_DIV, CONFIG_DFLL0_MUL); break; #endif default: Assert(false); break; } dfll_enable_closed_loop(&dfllcfg, dfll_id); while (!dfll_is_fine_locked(dfll_id)); }
void dfll_enable_config_defaults(uint32_t dfll_id) { #ifdef CONFIG_DFLL0_SOURCE struct dfll_config dfllcfg; #endif static bool open_loop_done = false; if((SCIF->SCIF_DFLL0CONF & SCIF_DFLL0CONF_MODE) && (SCIF->SCIF_DFLL0CONF & SCIF_DFLL0CONF_EN)) { // Closed-loop mode if (dfll_is_fine_locked(dfll_id)) { return; // DFLL already running } } if (open_loop_done == true) { return; } switch (dfll_id) { #ifdef CONFIG_DFLL0_SOURCE case 0: dfll_enable_source(CONFIG_DFLL0_SOURCE); dfll_config_init_closed_loop_mode(&dfllcfg, CONFIG_DFLL0_SOURCE, CONFIG_DFLL0_DIV, CONFIG_DFLL0_MUL); dfll_enable_closed_loop(&dfllcfg, dfll_id); while (!dfll_is_fine_locked(dfll_id)); break; #endif default: Assert(false); break; } }
int main(void) { sysclk_init(); board_init(); /* Enable one wait state for flash access */ flashcalw_set_wait_state(1); /* * Configure systick for 200ms (CPU frequency / 5) at startup time. * * Note: CPU frequency will be changed with below clock switching. */ if (SysTick_Config(sysclk_get_cpu_hz() / 5)) { while (1) { /* Capture error */ } } while (1) { struct dfll_config dcfg; struct pll_config pcfg; /* avoid Cppcheck Warning */ UNUSED(pcfg); /* * Initial state: Running from RC80M with all * prescalers set to 2 (Divide frequency by 4). */ wait_for_switches(); /* * Divide CPU frequency by 8. This will make the LED * blink half as fast. */ sysclk_set_prescalers(3, 3, 3, 3, 3); wait_for_switches(); /* * Switch to the DFLL running at ~48 MHz in Open Loop * mode, with the CPU running at ~48 MHz. */ dfll_config_init_open_loop_mode(&dcfg); dfll_config_tune_for_target_hz(&dcfg, 48000000); dfll_enable_open_loop(&dcfg, 0); sysclk_set_prescalers(1, 1, 1, 1, 1); sysclk_set_source(SYSCLK_SRC_DFLL); osc_disable(OSC_ID_RC80M); wait_for_switches(); /* * Switch to the slow clock with all prescalers * disabled. */ sysclk_set_source(SYSCLK_SRC_RCSYS); sysclk_set_prescalers(0, 0, 0, 0, 0); dfll_disable_open_loop(0); wait_for_switches(); /* * Switch to the RCFAST clock with all prescalers * disabled. */ osc_enable(OSC_ID_RCFAST); sysclk_set_prescalers(0, 0, 0, 0, 0); osc_wait_ready(OSC_ID_RCFAST); sysclk_set_source(SYSCLK_SRC_RCFAST); wait_for_switches(); /* * Switch to the RC1M clock with all prescalers * disabled. */ osc_enable(OSC_ID_RC1M); sysclk_set_prescalers(0, 0, 0, 0, 0); osc_wait_ready(OSC_ID_RC1M); sysclk_set_source(SYSCLK_SRC_RC1M); osc_disable(OSC_ID_RCFAST); wait_for_switches(); /* * Switch to external OSC0, if available. */ #ifdef BOARD_OSC0_HZ osc_enable(OSC_ID_OSC0); osc_wait_ready(OSC_ID_OSC0); sysclk_set_source(SYSCLK_SRC_OSC0); osc_disable(OSC_ID_RC1M); wait_for_switches(); /* * Switch to PLL0 running at 96 MHz. Use OSC0 as the * source */ pll_config_init(&pcfg, PLL_SRC_OSC0, 1, 96000000 / BOARD_OSC0_HZ); pll_enable(&pcfg, 0); sysclk_set_prescalers(2, 2, 2, 2, 2); pll_wait_for_lock(0); sysclk_set_source(SYSCLK_SRC_PLL0); wait_for_switches(); #endif /* * Switch to the DFLL, using the 32 kHz oscillator as a * reference if available, or failing that, the 115 kHz * RCSYS oscillator. */ #ifdef BOARD_OSC32_HZ osc_enable(OSC_ID_OSC32); dfll_config_init_closed_loop_mode(&dcfg, GENCLK_SRC_OSC32K, 1, CONFIG_DFLL0_FREQ / BOARD_OSC32_HZ); osc_wait_ready(OSC_ID_OSC32); #else dfll_config_init_closed_loop_mode(&dcfg, GENCLK_SRC_RCSYS, 1, CONFIG_DFLL0_FREQ / OSC_RCSYS_NOMINAL_HZ); #endif dfll_enable_closed_loop(&dcfg, 0); sysclk_set_prescalers(1, 1, 1, 1, 1); dfll_wait_for_fine_lock(0); sysclk_set_source(SYSCLK_SRC_DFLL); #ifdef BOARD_OSC0_HZ osc_disable(OSC_ID_OSC0); #endif wait_for_switches(); /* * Go back to the initial state and start over. */ osc_enable(OSC_ID_RC80M); sysclk_set_prescalers(2, 2, 2, 2, 2); osc_wait_ready(OSC_ID_RC80M); sysclk_set_source(SYSCLK_SRC_RC80M); dfll_disable_closed_loop(0); #ifdef BOARD_OSC32_HZ osc_disable(OSC_ID_OSC32); #endif } }