/*! \file gd32f30x_pmu.c \brief PMU driver \version 2017-02-10, V1.0.0, firmware for GD32F30x \version 2018-10-10, V1.1.0, firmware for GD32F30x \version 2018-12-25, V2.0.0, firmware for GD32F30x \version 2020-09-30, V2.1.0, firmware for GD32F30x */ /* Copyright (c) 2020, GigaDevice Semiconductor Inc. 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. Neither the name of the copyright holder nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS 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. */ #include "gd32f30x_pmu.h" /*! \brief reset PMU register \param[in] none \param[out] none \retval none */ void pmu_deinit(void) { /* reset PMU */ rcu_periph_reset_enable(RCU_PMURST); rcu_periph_reset_disable(RCU_PMURST); } /*! \brief select low voltage detector threshold \param[in] lvdt_n: \arg PMU_LVDT_0: voltage threshold is 2.1V \arg PMU_LVDT_1: voltage threshold is 2.3V \arg PMU_LVDT_2: voltage threshold is 2.4V \arg PMU_LVDT_3: voltage threshold is 2.6V \arg PMU_LVDT_4: voltage threshold is 2.7V \arg PMU_LVDT_5: voltage threshold is 2.9V \arg PMU_LVDT_6: voltage threshold is 3.0V \arg PMU_LVDT_7: voltage threshold is 3.1V \param[out] none \retval none */ void pmu_lvd_select(uint32_t lvdt_n) { /* disable LVD */ PMU_CTL &= ~PMU_CTL_LVDEN; /* clear LVDT bits */ PMU_CTL &= ~PMU_CTL_LVDT; /* set LVDT bits according to lvdt_n */ PMU_CTL |= lvdt_n; /* enable LVD */ PMU_CTL |= PMU_CTL_LVDEN; } /*! \brief select LDO output voltage this bit set by software when the main PLL closed, before closing PLL, change the system clock to IRC16M or HXTAL \param[in] ldo_output: \arg PMU_LDOVS_LOW: LDO output voltage low mode \arg PMU_LDOVS_MID: LDO output voltage mid mode \arg PMU_LDOVS_HIGH: LDO output voltage high mode \param[out] none \retval none */ void pmu_ldo_output_select(uint32_t ldo_output) { PMU_CTL &= ~PMU_CTL_LDOVS; PMU_CTL |= ldo_output; } /*! \brief disable PMU lvd \param[in] none \param[out] none \retval none */ void pmu_lvd_disable(void) { /* disable LVD */ PMU_CTL &= ~PMU_CTL_LVDEN; } /*! \brief switch high-driver mode this bit set by software only when IRC16M or HXTAL used as system clock \param[in] highdr_switch: \arg PMU_HIGHDR_SWITCH_NONE: disable high-driver mode switch \arg PMU_HIGHDR_SWITCH_EN: enable high-driver mode switch \param[out] none \retval none */ void pmu_highdriver_switch_select(uint32_t highdr_switch) { /* wait for HDRF flag set */ while(SET != pmu_flag_get(PMU_FLAG_HDRF)) { } PMU_CTL &= ~PMU_CTL_HDS; PMU_CTL |= highdr_switch; } /*! \brief enable high-driver mode this bit set by software only when IRC16M or HXTAL used as system clock \param[in] none \param[out] none \retval none */ void pmu_highdriver_mode_enable(void) { PMU_CTL |= PMU_CTL_HDEN; } /*! \brief disable high-driver mode \param[in] none \param[out] none \retval none */ void pmu_highdriver_mode_disable(void) { PMU_CTL &= ~PMU_CTL_HDEN; } /*! \brief enable low-driver mode in deep-sleep mode \param[in] none \param[out] none \retval none */ void pmu_lowdriver_mode_enable(void) { PMU_CTL |= PMU_CTL_LDEN; } /*! \brief disable low-driver mode in deep-sleep mode \param[in] none \param[out] none \retval none */ void pmu_lowdriver_mode_disable(void) { PMU_CTL &= ~PMU_CTL_LDEN; } /*! \brief driver mode when use low power LDO \param[in] mode: \arg PMU_NORMALDR_LOWPWR: normal driver when use low power LDO \arg PMU_LOWDR_LOWPWR: low-driver mode enabled when LDEN is 11 and use low power LDO \param[out] none \retval none */ void pmu_lowpower_driver_config(uint32_t mode) { PMU_CTL &= ~PMU_CTL_LDLP; PMU_CTL |= mode; } /*! \brief driver mode when use normal power LDO \param[in] mode: \arg PMU_NORMALDR_NORMALPWR: normal driver when use normal power LDO \arg PMU_LOWDR_NORMALPWR: low-driver mode enabled when LDEN is 11 and use normal power LDO \param[out] none \retval none */ void pmu_normalpower_driver_config(uint32_t mode) { PMU_CTL &= ~PMU_CTL_LDNP; PMU_CTL |= mode; } /*! \brief PMU work in sleep mode \param[in] sleepmodecmd: \arg WFI_CMD: use WFI command \arg WFE_CMD: use WFE command \param[out] none \retval none */ void pmu_to_sleepmode(uint8_t sleepmodecmd) { /* clear sleepdeep bit of Cortex-M4 system control register */ SCB->SCR &= ~((uint32_t)SCB_SCR_SLEEPDEEP_Msk); /* select WFI or WFE command to enter sleep mode */ if(WFI_CMD == sleepmodecmd) { __WFI(); } else { __WFE(); } } /*! \brief PMU work in deepsleep mode \param[in] ldo: only one parameter can be selected which is shown as below: \arg PMU_LDO_NORMAL: LDO work in normal power mode when pmu enter deepsleep mode \arg PMU_LDO_LOWPOWER: LDO work in low power mode when pmu enter deepsleep mode \param[in] lowdrive: only one parameter can be selected which is shown as below: \arg PMU_LOWDRIVER_ENABLE: low-driver mode enable in deep-sleep mode \arg PMU_LOWDRIVER_DISABLE: low-driver mode disable in deep-sleep mode \param[in] deepsleepmodecmd: only one parameter can be selected which is shown as below: \arg WFI_CMD: use WFI command \arg WFE_CMD: use WFE command \param[out] none \retval none */ void pmu_to_deepsleepmode(uint32_t ldo, uint32_t lowdrive, uint8_t deepsleepmodecmd) { static uint32_t reg_snap[ 4 ]; /* clear stbmod and ldolp bits */ PMU_CTL &= ~((uint32_t)(PMU_CTL_STBMOD | PMU_CTL_LDOLP | PMU_CTL_LDEN | PMU_CTL_LDNP | PMU_CTL_LDLP)); /* set ldolp bit according to pmu_ldo */ PMU_CTL |= ldo; /* low drive mode config in deep-sleep mode */ if(PMU_LOWDRIVER_ENABLE == lowdrive) { if(PMU_LDO_NORMAL == ldo) { PMU_CTL |= (uint32_t)(PMU_CTL_LDEN | PMU_CTL_LDNP); } else { PMU_CTL |= (uint32_t)(PMU_CTL_LDEN | PMU_CTL_LDLP); } } /* set sleepdeep bit of Cortex-M4 system control register */ SCB->SCR |= SCB_SCR_SLEEPDEEP_Msk; reg_snap[ 0 ] = REG32(0xE000E010U); reg_snap[ 1 ] = REG32(0xE000E100U); reg_snap[ 2 ] = REG32(0xE000E104U); reg_snap[ 3 ] = REG32(0xE000E108U); REG32(0xE000E010U) &= 0x00010004U; REG32(0xE000E180U) = 0XFF7FF83DU; REG32(0xE000E184U) = 0XFFFFF8FFU; REG32(0xE000E188U) = 0xFFFFFFFFU; /* select WFI or WFE command to enter deepsleep mode */ if(WFI_CMD == deepsleepmodecmd) { __WFI(); } else { __SEV(); __WFE(); __WFE(); } REG32(0xE000E010U) = reg_snap[ 0 ] ; REG32(0xE000E100U) = reg_snap[ 1 ] ; REG32(0xE000E104U) = reg_snap[ 2 ] ; REG32(0xE000E108U) = reg_snap[ 3 ] ; /* reset sleepdeep bit of Cortex-M4 system control register */ SCB->SCR &= ~((uint32_t)SCB_SCR_SLEEPDEEP_Msk); } /*! \brief pmu work in standby mode \param[in] none \param[out] none \retval none */ void pmu_to_standbymode(void) { /* set stbmod bit */ PMU_CTL |= PMU_CTL_STBMOD; /* reset wakeup flag */ PMU_CTL |= PMU_CTL_WURST; /* set sleepdeep bit of Cortex-M4 system control register */ SCB->SCR |= SCB_SCR_SLEEPDEEP_Msk; REG32(0xE000E010U) &= 0x00010004U; REG32(0xE000E180U) = 0XFFFFFFF7U; REG32(0xE000E184U) = 0XFFFFFDFFU; REG32(0xE000E188U) = 0xFFFFFFFFU; /* select WFI or WFE command to enter standby mode */ __WFI(); } /*! \brief enable backup domain write \param[in] none \param[out] none \retval none */ void pmu_backup_write_enable(void) { PMU_CTL |= PMU_CTL_BKPWEN; } /*! \brief disable backup domain write \param[in] none \param[out] none \retval none */ void pmu_backup_write_disable(void) { PMU_CTL &= ~PMU_CTL_BKPWEN; } /*! \brief enable wakeup pin \param[in] none \param[out] none \retval none */ void pmu_wakeup_pin_enable(void) { PMU_CS |= PMU_CS_WUPEN; } /*! \brief disable wakeup pin \param[in] none \param[out] none \retval none */ void pmu_wakeup_pin_disable(void) { PMU_CS &= ~PMU_CS_WUPEN; } /*! \brief get flag state \param[in] flag: \arg PMU_FLAG_WAKEUP: wakeup flag \arg PMU_FLAG_STANDBY: standby flag \arg PMU_FLAG_LVD: lvd flag \arg PMU_FLAG_LDOVSRF: LDO voltage select ready flag \arg PMU_FLAG_HDRF: high-driver ready flag \arg PMU_FLAG_HDSRF: high-driver switch ready flag \arg PMU_FLAG_LDRF: low-driver mode ready flag \param[out] none \retval FlagStatus SET or RESET */ FlagStatus pmu_flag_get(uint32_t flag) { if(PMU_CS & flag) { return SET; } else { return RESET; } } /*! \brief clear flag bit \param[in] flag: \arg PMU_FLAG_RESET_WAKEUP: reset wakeup flag \arg PMU_FLAG_RESET_STANDBY: reset standby flag \param[out] none \retval none */ void pmu_flag_clear(uint32_t flag) { switch(flag) { case PMU_FLAG_RESET_WAKEUP: /* reset wakeup flag */ PMU_CTL |= PMU_CTL_WURST; break; case PMU_FLAG_RESET_STANDBY: /* reset standby flag */ PMU_CTL |= PMU_CTL_STBRST; break; default : break; } }