Datasheet STPMIC1 (STMicroelectronics) - 8
| Manufacturer | STMicroelectronics |
| Description | Highly integrated power management IC for micro processor units |
| Pages / Page | 141 / 8 — STPMIC1. Consumption in typical application scenarios. 3.3. Table 6. … |
| File Format / Size | PDF / 8.7 Mb |
| Document Language | English |
STPMIC1. Consumption in typical application scenarios. 3.3. Table 6. Consumption in typical application scenarios. Application
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STPMIC1 Consumption in typical application scenarios 3.3 Consumption in typical application scenarios Table 6. Consumption in typical application scenarios Application Application description Conditions Min. Typ. Max. Unit mode STPMIC1 VIN input current consumption (all supply pins connected to VIN, VIN = 3.6 V, VIO = 1.8 V(from VOUT3), TA= +25 °C)
STPMIC1 in OFF-state Turn-on from PONKEYn, WAKEUP and Application is OFF, waiting OFF VBUSOTG/SWOUT active 50 µA for turn-on event to start No activity on I2C VIO=0 V (BUCK3 is OFF) STPMIC1 in POWER_ON state IRQ from PONKEYn, WAKEUP and VBUSOTG/ SWOUT Application is in BUCK3 active in LP mode, V STANDBY STANDBY,AP always ON OUT3=1.8 V 110 µA power domain is present All other regulators OFF All outputs without load No activity on I2C STPMIC1 in POWER_ON state IRQ from PONKEYn WAKEUP and VBUSOTG/ SWOUT BUCK1 active in LP mode, VOUT=1.2 V Application is in STOP BUCK2 active in LP mode, VOUT=1.2 V mode, AP core voltages STOP BUCK3 active in LP mode, VOUT=1.8 V 370 µA are supplied, and DDR memory in self refresh REF_DDR active LDO3 active All other regulators OFF All outputs without load No activity on I2C STPMIC1 in POWER_ON state IRQ from PONKEYn WAKEUP and VBUSOTG/ SWOUT BUCK1 active in HP mode, VOUT=1.2 V BUCK2 active in HP mode, VOUT=1.2 V RUN Application is running BUCK3 active in HP mode, VOUT=1.8 V 1.2 mA REF_DDR active LDO3 active, VOUT=1.8 V All other regulators OFF All outputs without load No activity on I2C
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Rev 2 page 8/141
Document Outline Features Applications Description 1 Device configuration table 2 Typical application schematic 2.1 Recommended external components 2.2 Pinout and pin description 3 Electrical and timing characteristics 3.1 Absolute maximum ratings 3.2 Thermal characteristics 3.3 Consumption in typical application scenarios 3.4 Electrical and timing parameters 3.5 Application board curves 4 Power regulators and switch description 4.1 Overview 4.2 LDO regulators 4.2.1 LDO regulators - common features 4.2.2 LDO regulators - special features 4.2.3 LDO output voltage settings 4.3 DDR memory sub-system examples 4.3.1 Powering lpDDR2/lpDDR3 memory 4.3.2 Powering DDR3/DDR3L memory 4.4 Buck converters 4.4.1 BUCK general description 4.4.2 BUCK output voltage settings 4.5 Boost converter and power switches 4.5.1 Boost converter 4.5.2 PWR_USB_SW and PWR_SW power switches 4.6 USB sub-system examples 5 Functional description 5.1 Overview 5.2 Functional state machine 5.2.1 Main state machine diagram 5.2.2 State explanations 5.3 POWER_UP, POWER_DOWN sequence 5.4 Feature description 5.4.1 VIN conditions and monitoring 5.4.2 Turn-ON conditions 5.4.3 Turn-OFF conditions and restart_request 5.4.4 Reset and mask_reset option 5.4.5 Power control modes (MAIN / ALTERNATE) 5.4.6 Thermal protection 5.4.7 Overcurrent protection (OCP) 5.4.8 BOOST overvoltage protection 5.4.9 Watchdog feature 5.5 Programming 5.5.1 I2C interface 5.5.2 Non-volatile memory (NVM) 6 Register description 6.1 User register map 6.2 Status registers 6.2.1 Turn-ON status register (TURN_ON_SR) 6.2.2 Turn-OFF status register (TURN_OFF_SR) 6.2.3 Overcurrent protection LDO turn-OFF status register (OCP_LDOS_SR) 6.2.4 Overcurrent protection buck turn-OFF status register (OCP_BUCKS_BSW_SR) 6.2.5 Restart status register (RESTART_SR) 6.2.6 Version status register (VERSION_SR) 6.3 Control registers 6.3.1 Main control register (MAIN_CR) 6.3.2 Pads pull control register (PADS_PULL_CR) 6.3.3 Bucks pull-down control register (BUCKS_PD_CR) 6.3.4 LDO1-4 pull-down control register (LDO14_PD_CR) 6.3.5 LDO5/6 pull-down control register (LDO56_VREF_PD_CR) 6.3.6 PWR_SWOUT and VIN control register (SW_VIN_CR) 6.3.7 PONKEYn turn-OFF control register (PKEY_TURNOFF_CR) 6.3.8 Mask reset Buck control register (BUCKS_MRST_CR) 6.3.9 Mask reset LDO control register (LDOS_MRST_CR) 6.3.10 Watchdog control register (WDG_CR) 6.3.11 Watchdog timer control register (WDG_TMR_CR) 6.3.12 Bucks OCP turn-OFF control register (BUCKS_OCPOFF_CR) 6.3.13 LDO OCP turn-OFF control register (LDOS_OCPOFF_CR) 6.4 Power supplies control registers 6.4.1 BUCKx MAIN mode control registers (BUCKx_MAIN_CR) (x=1…4) 6.4.2 REFDDR MAIN mode control register (REFDDR_MAIN_CR) 6.4.3 LDOx MAIN mode control registers (LDOx_MAIN_CR) (x=1, 2, 5, 6) 6.4.4 LDO3 MAIN mode control register (LDO3_MAIN_CR) 6.4.5 LDO4 MAIN mode control register (LDO4_MAIN_CR) 6.4.6 BUCKx ALTERNATE mode control registers (BUCKx_ALT_CR)(x=1..4) 6.4.7 REFDDR ALTERNATE mode control register (REFDDR_ALT_CR) 6.4.8 LDOx ALTERNATE mode control registers (LDOx_ALT_CR) (x=1, 2, 5, 6) 6.4.9 LDO3 ALTERNATE mode control register (LDO3_ALT_CR) 6.4.10 LDO4 ALTERNATE mode control register (LDO4_ALT_CR) 6.4.11 Boost/switch control register (BST_SW_CR) 6.5 Interrupt registers 6.5.1 Overall interrupt register behavior 6.5.2 Interrupt pending register 1 (INT_PENDING_R1) 6.5.3 Interrupt pending register 2 (INT_PENDING_R2) 6.5.4 Interrupt pending register 3 (INT_PENDING_R3) 6.5.5 Interrupt pending register 4 (INT_PENDING_R4) 6.5.6 Interrupt debug latch registers (INT_DBG_LATCH_Rx) 6.5.7 Interrupt clear registers (INT_CLEAR_Rx) 6.5.8 Interrupt mask registers (INT_MASK_Rx) 6.5.9 Interrupt set mask registers (INT_SET_MASK_Rx) 6.5.10 Interrupt clear mask registers (INT_CLEAR_MASK_Rx) 6.5.11 Interrupt source register 1 (INT_SRC_R1) 6.5.12 Interrupt source register 2 (INT_SRC_R2) 6.5.13 Interrupt source register 3 ( INT_SRC_R3) 6.5.14 Interrupt source register 4 ( INT_SRC_R4) 6.6 NVM registers 6.6.1 NVM status register (NVM_SR) 6.6.2 NVM control register (NVM_CR) 6.7 NVM shadow registers 6.7.1 NVM main control shadow register (NVM_MAIN_CTRL_SHR) 6.7.2 NVM BUCK rank shadow register (NVM_BUCKS_RANK_SHR) 6.7.3 NVM LDOs rank shadow register 1 (NVM_LDOS_RANK_SHR1) 6.7.4 NVM LDOs rank shadow register 2 (NVM_LDOS_RANK_SHR2) 6.7.5 NVM BUCKs voltage output shadow register (NVM_BUCKS_VOUT_SHR) 6.7.6 NVM LDOs voltage output shadow register 1 (NVM_LDOS_VOUT_SHR1 6.7.7 NVM LDOs voltage output shadow register 2 (NVM_LDOS_VOUT_SHR2) 6.7.8 NVM device address shadow register (I2C_ADDR_SHR) 7 Package information 7.1 WFQFN 44L (5X6X0.8) package information 8 Marking composition 9 Ordering information Revision history
STPMIC1 in OFF-state Turn-on from PONKEYn, WAKEUP and Application is OFF, waiting OFF VBUSOTG/SWOUT active 50 µA for turn-on event to start No activity on I2C VIO=0 V (BUCK3 is OFF) STPMIC1 in POWER_ON state IRQ from PONKEYn, WAKEUP and VBUSOTG/ SWOUT Application is in BUCK3 active in LP mode, V STANDBY STANDBY,AP always ON OUT3=1.8 V 110 µA power domain is present All other regulators OFF All outputs without load No activity on I2C STPMIC1 in POWER_ON state IRQ from PONKEYn WAKEUP and VBUSOTG/ SWOUT BUCK1 active in LP mode, VOUT=1.2 V Application is in STOP BUCK2 active in LP mode, VOUT=1.2 V mode, AP core voltages STOP BUCK3 active in LP mode, VOUT=1.8 V 370 µA are supplied, and DDR memory in self refresh REF_DDR active LDO3 active All other regulators OFF All outputs without load No activity on I2C STPMIC1 in POWER_ON state IRQ from PONKEYn WAKEUP and VBUSOTG/ SWOUT BUCK1 active in HP mode, VOUT=1.2 V BUCK2 active in HP mode, VOUT=1.2 V RUN Application is running BUCK3 active in HP mode, VOUT=1.8 V 1.2 mA REF_DDR active LDO3 active, VOUT=1.8 V All other regulators OFF All outputs without load No activity on I2C
DS12792
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Rev 2 page 8/141
Document Outline Features Applications Description 1 Device configuration table 2 Typical application schematic 2.1 Recommended external components 2.2 Pinout and pin description 3 Electrical and timing characteristics 3.1 Absolute maximum ratings 3.2 Thermal characteristics 3.3 Consumption in typical application scenarios 3.4 Electrical and timing parameters 3.5 Application board curves 4 Power regulators and switch description 4.1 Overview 4.2 LDO regulators 4.2.1 LDO regulators - common features 4.2.2 LDO regulators - special features 4.2.3 LDO output voltage settings 4.3 DDR memory sub-system examples 4.3.1 Powering lpDDR2/lpDDR3 memory 4.3.2 Powering DDR3/DDR3L memory 4.4 Buck converters 4.4.1 BUCK general description 4.4.2 BUCK output voltage settings 4.5 Boost converter and power switches 4.5.1 Boost converter 4.5.2 PWR_USB_SW and PWR_SW power switches 4.6 USB sub-system examples 5 Functional description 5.1 Overview 5.2 Functional state machine 5.2.1 Main state machine diagram 5.2.2 State explanations 5.3 POWER_UP, POWER_DOWN sequence 5.4 Feature description 5.4.1 VIN conditions and monitoring 5.4.2 Turn-ON conditions 5.4.3 Turn-OFF conditions and restart_request 5.4.4 Reset and mask_reset option 5.4.5 Power control modes (MAIN / ALTERNATE) 5.4.6 Thermal protection 5.4.7 Overcurrent protection (OCP) 5.4.8 BOOST overvoltage protection 5.4.9 Watchdog feature 5.5 Programming 5.5.1 I2C interface 5.5.2 Non-volatile memory (NVM) 6 Register description 6.1 User register map 6.2 Status registers 6.2.1 Turn-ON status register (TURN_ON_SR) 6.2.2 Turn-OFF status register (TURN_OFF_SR) 6.2.3 Overcurrent protection LDO turn-OFF status register (OCP_LDOS_SR) 6.2.4 Overcurrent protection buck turn-OFF status register (OCP_BUCKS_BSW_SR) 6.2.5 Restart status register (RESTART_SR) 6.2.6 Version status register (VERSION_SR) 6.3 Control registers 6.3.1 Main control register (MAIN_CR) 6.3.2 Pads pull control register (PADS_PULL_CR) 6.3.3 Bucks pull-down control register (BUCKS_PD_CR) 6.3.4 LDO1-4 pull-down control register (LDO14_PD_CR) 6.3.5 LDO5/6 pull-down control register (LDO56_VREF_PD_CR) 6.3.6 PWR_SWOUT and VIN control register (SW_VIN_CR) 6.3.7 PONKEYn turn-OFF control register (PKEY_TURNOFF_CR) 6.3.8 Mask reset Buck control register (BUCKS_MRST_CR) 6.3.9 Mask reset LDO control register (LDOS_MRST_CR) 6.3.10 Watchdog control register (WDG_CR) 6.3.11 Watchdog timer control register (WDG_TMR_CR) 6.3.12 Bucks OCP turn-OFF control register (BUCKS_OCPOFF_CR) 6.3.13 LDO OCP turn-OFF control register (LDOS_OCPOFF_CR) 6.4 Power supplies control registers 6.4.1 BUCKx MAIN mode control registers (BUCKx_MAIN_CR) (x=1…4) 6.4.2 REFDDR MAIN mode control register (REFDDR_MAIN_CR) 6.4.3 LDOx MAIN mode control registers (LDOx_MAIN_CR) (x=1, 2, 5, 6) 6.4.4 LDO3 MAIN mode control register (LDO3_MAIN_CR) 6.4.5 LDO4 MAIN mode control register (LDO4_MAIN_CR) 6.4.6 BUCKx ALTERNATE mode control registers (BUCKx_ALT_CR)(x=1..4) 6.4.7 REFDDR ALTERNATE mode control register (REFDDR_ALT_CR) 6.4.8 LDOx ALTERNATE mode control registers (LDOx_ALT_CR) (x=1, 2, 5, 6) 6.4.9 LDO3 ALTERNATE mode control register (LDO3_ALT_CR) 6.4.10 LDO4 ALTERNATE mode control register (LDO4_ALT_CR) 6.4.11 Boost/switch control register (BST_SW_CR) 6.5 Interrupt registers 6.5.1 Overall interrupt register behavior 6.5.2 Interrupt pending register 1 (INT_PENDING_R1) 6.5.3 Interrupt pending register 2 (INT_PENDING_R2) 6.5.4 Interrupt pending register 3 (INT_PENDING_R3) 6.5.5 Interrupt pending register 4 (INT_PENDING_R4) 6.5.6 Interrupt debug latch registers (INT_DBG_LATCH_Rx) 6.5.7 Interrupt clear registers (INT_CLEAR_Rx) 6.5.8 Interrupt mask registers (INT_MASK_Rx) 6.5.9 Interrupt set mask registers (INT_SET_MASK_Rx) 6.5.10 Interrupt clear mask registers (INT_CLEAR_MASK_Rx) 6.5.11 Interrupt source register 1 (INT_SRC_R1) 6.5.12 Interrupt source register 2 (INT_SRC_R2) 6.5.13 Interrupt source register 3 ( INT_SRC_R3) 6.5.14 Interrupt source register 4 ( INT_SRC_R4) 6.6 NVM registers 6.6.1 NVM status register (NVM_SR) 6.6.2 NVM control register (NVM_CR) 6.7 NVM shadow registers 6.7.1 NVM main control shadow register (NVM_MAIN_CTRL_SHR) 6.7.2 NVM BUCK rank shadow register (NVM_BUCKS_RANK_SHR) 6.7.3 NVM LDOs rank shadow register 1 (NVM_LDOS_RANK_SHR1) 6.7.4 NVM LDOs rank shadow register 2 (NVM_LDOS_RANK_SHR2) 6.7.5 NVM BUCKs voltage output shadow register (NVM_BUCKS_VOUT_SHR) 6.7.6 NVM LDOs voltage output shadow register 1 (NVM_LDOS_VOUT_SHR1 6.7.7 NVM LDOs voltage output shadow register 2 (NVM_LDOS_VOUT_SHR2) 6.7.8 NVM device address shadow register (I2C_ADDR_SHR) 7 Package information 7.1 WFQFN 44L (5X6X0.8) package information 8 Marking composition 9 Ordering information Revision history
