Datasheet MAX77659 (Maxim) - 9
| 制造商 | Maxim |
| 描述 | SIMO PMIC with 300mA Switching Charger |
| 页数 / 页 | 106 / 9 — Absolute Maximum Ratings. Note 1:. Note 2:. Note 3:. Package Information. … |
| 文件格式/大小 | PDF / 1.4 Mb |
| 文件语言 | 英语 |
Absolute Maximum Ratings. Note 1:. Note 2:. Note 3:. Package Information. WLP. Thermal Resistance, Four-Layer Board:
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link to page 33 link to page 33 MAX77659 SIMO PMIC with 300mA Switching Charger
Absolute Maximum Ratings
nIRQ, nRST to GND .. -0.3V to VAVL + 0.3V VIO to GND .. -0.3V to VAVL + 6V nEN to GND (Note 1) .. -0.3V to VCCINT + 0.3V IN_SBB to PGND ... -0.3V to +6.0V SCL, SDA, GPIO to GND ...-0.3V to VIO + 0.3V LXA Continuous Current (Note 3) .. 1.2ARMS CHGIN to PGND .. -0.3V to +6.0V LXB Continuous Current (Note 3) .. 1.2ARMS SYS, BATT to GND ... -0.3V to +6.0V SBB0, SBB1, SBB2 to PGND .. -0.3V to +6.0V SYS to IN_SBB ... -0.3V to +0.3V BST to PVL .. -0.3V to +6.0V AVL to GND ... -0.3V to +6.0V BST to LXB .. -0.3V to +6.0V PVL to PGND .. -0.3V to +6.0V SBB0, SBB1, SBB2, SBB3 Short-Circuit Duration ..Continuous AMUX, THM, TBIAS to GND ... -0.3V to VAVL + 0.3V PGND to GND .. -0.3V to +0.3V nIRQ, nRST, SDA, AMUX, GPIO Continous Current .. ±20mA Operating Temperature Range ...-40°C to +85°C CHGIN Continuous Current .. 1.2ARMS Junction Temperature ... +150°C SYS Continuous Current .. 1.2ARMS Storage Temperature Range ..-65°C to +150°C BATT Continuous Current (Note 2) .. 1.2ARMS Soldering Temperature (reflow) ..+260°C IN_LDO to GND ... -0.3V to 6V Continuous Power Dissipation (Multilayer Board, TA = +70°C, LDO to GND .. -0.3V to VIN_LDO + 0.3V derate 20.4mW/°C above +70°C) ...1632mW
Note 1:
VCCINT is internally connected to either BATT or CHGIN. See the nEN Internal Pullup Resistors to VCCINT section for more details.
Note 2:
Do not repeatedly hot-plug a source to the BATT terminal at a rate greater than 10Hz. Hot plugging low impedance sources results in an ~8A momentary (~2μs) current spike.
Note 3:
Do not externally bias LXA or LXB. LXA has internal clamping diodes to PGND and IN_SBB. LXB has an internal low-side clamping diode to PGND and an internal high-side clamping diode that dynamically connects to a selected SIMO output. It is normal for these diodes to briefly conduct during switching events. When the SIMO regulator is disabled, the LXB to PGND absolute maximum voltage is -0.3V to VSBB0 + 0.3V. Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
Package Information WLP
Package Code N302D2+1 Outline Number 21-100509 Land Pattern Number Refer to Application Note 1891
Thermal Resistance, Four-Layer Board:
Junction to Ambient (θJA) 49ºC/W (2s2p board) www.maximintegrated.com Maxim Integrated | 9 Document Outline General Description Applications Benefits and Features Simplified Block Diagram Absolute Maximum Ratings Package Information WLP Electrical Characteristics Electrical Characteristics—Global Resources Electrical Characteristics—Global Resources (continued) Electrical Characteristics—SIMO Buck-Boost Electrical Characteristics—SIMO Buck-Boost (continued) Electrical Characteristics—Smart Power Selector Charger Electrical Characteristics—Smart Power Selector Charger (continued) Electrical Characteristics—Adjustable Thermistor Temperature Monitors Electrical Characteristics—Adjustable Thermistor Temperature Monitors (continued) Electrical Characteristics—Analog Multiplexer Electrical Characteristics—Analog Multiplexer (continued) Electrical Characteristics—Low-Dropout Linear Regulator (LDO)/Load Switch (LSW) Electrical Characteristics—Low-Dropout Linear Regulator (LDO)/Load Switch (LSW) (continued) Electrical Characteristics—I2C Serial Communication Electrical Characteristics—I2C Serial Communication (continued) Typical Operating Characteristics Typical Operating Characteristics (continued) Pin Configuration MAX77659xENV Pin Description Pin Description (continued) Detailed Description Part Number Decoding Support Material Top-Level Interconnect Simplified Diagram Detailed Description—Global Resources Features and Benefits Voltage Monitors AVL POR Comparator AVL Undervoltage-Lockout Comparator SYS Overvoltage-Lockout Comparator Chip Identification nEN Enable Input nEN Manual Reset nEN Dual-Functionality: Push-Button vs. Slide-Switch nEN Internal Pullup Resistors to VCCINT Interrupts (nIRQ) Reset Output (nRST) General-Purpose Input Output (GPIO) Alternate Mode On/Off Controller Top Level On/Off Controller On/Off Controller Transition Table Internal Wake-Up Flags Reset and Off Sequences Power-Up/Down Sequence Flexible Power Sequencer (FPS) Startup Timing Diagram Due to nEN Startup Timing Diagram Due to Charge Source Insertion Force Enabled/Disabled Channels Factory-Ship Mode State Debounced Inputs (nEN, GPI, CHGIN) Watchdog Timer (WDT) Detailed Description—SIMO Buck-Boost SIMO Features and Benefits SIMO Detailed Block Diagram SIMO Control Scheme Drive Strength SIMO Soft-Start SIMO Registers SIMO Active Discharge Resistance SIMO Buck Mode Applications Information SIMO Available Output Current Inductor Selection Input Capacitor Selection Boost Capacitor Selection Output Capacitor Selection Example Component Selection Inductor, Peak Current Limit, and Input Capacitor Output Capacitors Summary SIMO Switching Frequency Unused Outputs PCB Layout Guide Capacitors Input Capacitor at IN_SBB Output Capacitors at SBBx Inductor Ground Connections Detailed Description—Smart Power Selector Charger Switching Charger Implementation with SIMO Architecture Charger Symbol Reference Guide Smart Power Selector Die Temperature Regulation Charger State Machine Charger-Off State Prequalification State Fast-Charge States Headroom Control Top-Off State Done State Prequalification Timer Fault State Fast-Charge Timer Fault State Battery Temperature Fault State JEITA-Modified States Typical Charge Profile Charger Applications Information CHGIN/SYS/BATT Capacitor Selection Detailed Description—Adjustable Thermistor Temperature Monitors Thermistor Bias Configurable Temperature Thresholds Applications Information Using Different Thermistor β NTC Thermistor Selection Detailed Description—Analog Multiplexer Measuring Battery Current Method for Measuring Discharge Current Method for Measuring Charge Current Detailed Description—Low-Dropout Linear Regulator (LDO)/Load Switch (LSW) Features and Benefits LDO/LSW Simplified Block Diagram LDO/LSW Active-Discharge Resistor LDO/LSW Soft-Start Load Switch Configuration Applications Information Input Capacitor Selection Output Capacitor Selection Detailed Description—I2C Serial Communication General Description Features I2C Simplified Block Diagram I2C System Configuration I2C Interface Power I2C Data Transfer I2C Start and Stop Conditions I2C Acknowledge Bit I2C Slave Address I2C Clock Stretching I2C General Call Address I2C Device ID I2C Communication Speed I2C Communication Protocols Writing to a Single Register Writing Multiple Bytes to Sequential Registers Reading from a Single Register Reading from Sequential Registers Engaging HS-Mode for Operation up to 3.4MHz Register Map MAX77659 Register Details INT_GLBL0 (0x00) INT_GLBL1 (0x04) ERCFLAG (0x05) STAT_GLBL (0x06) INTM_GLBL1 (0x08) INTM_GLBL0 (0x09) CNFG_GLBL (0x10) CNFG_GPIO0 (0x11) CNFG_GPIO1 (0x12) CID (0x14) CNFG_WDT (0x17) INT_CHG (0x01) STAT_CHG_A (0x02) STAT_CHG_B (0x03) INT_M_CHG (0x07) CNFG_CHG_A (0x20) CNFG_CHG_B (0x21) CNFG_CHG_C (0x22) CNFG_CHG_D (0x23) CNFG_CHG_E (0x24) CNFG_CHG_F (0x25) CNFG_CHG_G (0x26) CNFG_CHG_H (0x27) CNFG_CHG_I (0x28) CNFG_SBB0_A (0x29) CNFG_SBB0_B (0x2A) CNFG_SBB1_A (0x2B) CNFG_SBB1_B (0x2C) CNFG_SBB2_A (0x2D) CNFG_SBB2_B (0x2E) CNFG_SBB_TOP (0x2F) CNFG_SBB_TOP_B (0x30) CNFG_LDO0_A (0x38) CNFG_LDO0_B (0x39) Typical Application Circuits Typical Applications Circuit Ordering Information Revision History
Absolute Maximum Ratings
nIRQ, nRST to GND .. -0.3V to VAVL + 0.3V VIO to GND .. -0.3V to VAVL + 6V nEN to GND (Note 1) .. -0.3V to VCCINT + 0.3V IN_SBB to PGND ... -0.3V to +6.0V SCL, SDA, GPIO to GND ...-0.3V to VIO + 0.3V LXA Continuous Current (Note 3) .. 1.2ARMS CHGIN to PGND .. -0.3V to +6.0V LXB Continuous Current (Note 3) .. 1.2ARMS SYS, BATT to GND ... -0.3V to +6.0V SBB0, SBB1, SBB2 to PGND .. -0.3V to +6.0V SYS to IN_SBB ... -0.3V to +0.3V BST to PVL .. -0.3V to +6.0V AVL to GND ... -0.3V to +6.0V BST to LXB .. -0.3V to +6.0V PVL to PGND .. -0.3V to +6.0V SBB0, SBB1, SBB2, SBB3 Short-Circuit Duration ..Continuous AMUX, THM, TBIAS to GND ... -0.3V to VAVL + 0.3V PGND to GND .. -0.3V to +0.3V nIRQ, nRST, SDA, AMUX, GPIO Continous Current .. ±20mA Operating Temperature Range ...-40°C to +85°C CHGIN Continuous Current .. 1.2ARMS Junction Temperature ... +150°C SYS Continuous Current .. 1.2ARMS Storage Temperature Range ..-65°C to +150°C BATT Continuous Current (Note 2) .. 1.2ARMS Soldering Temperature (reflow) ..+260°C IN_LDO to GND ... -0.3V to 6V Continuous Power Dissipation (Multilayer Board, TA = +70°C, LDO to GND .. -0.3V to VIN_LDO + 0.3V derate 20.4mW/°C above +70°C) ...1632mW
Note 1:
VCCINT is internally connected to either BATT or CHGIN. See the nEN Internal Pullup Resistors to VCCINT section for more details.
Note 2:
Do not repeatedly hot-plug a source to the BATT terminal at a rate greater than 10Hz. Hot plugging low impedance sources results in an ~8A momentary (~2μs) current spike.
Note 3:
Do not externally bias LXA or LXB. LXA has internal clamping diodes to PGND and IN_SBB. LXB has an internal low-side clamping diode to PGND and an internal high-side clamping diode that dynamically connects to a selected SIMO output. It is normal for these diodes to briefly conduct during switching events. When the SIMO regulator is disabled, the LXB to PGND absolute maximum voltage is -0.3V to VSBB0 + 0.3V. Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
Package Information WLP
Package Code N302D2+1 Outline Number 21-100509 Land Pattern Number Refer to Application Note 1891
Thermal Resistance, Four-Layer Board:
Junction to Ambient (θJA) 49ºC/W (2s2p board) www.maximintegrated.com Maxim Integrated | 9 Document Outline General Description Applications Benefits and Features Simplified Block Diagram Absolute Maximum Ratings Package Information WLP Electrical Characteristics Electrical Characteristics—Global Resources Electrical Characteristics—Global Resources (continued) Electrical Characteristics—SIMO Buck-Boost Electrical Characteristics—SIMO Buck-Boost (continued) Electrical Characteristics—Smart Power Selector Charger Electrical Characteristics—Smart Power Selector Charger (continued) Electrical Characteristics—Adjustable Thermistor Temperature Monitors Electrical Characteristics—Adjustable Thermistor Temperature Monitors (continued) Electrical Characteristics—Analog Multiplexer Electrical Characteristics—Analog Multiplexer (continued) Electrical Characteristics—Low-Dropout Linear Regulator (LDO)/Load Switch (LSW) Electrical Characteristics—Low-Dropout Linear Regulator (LDO)/Load Switch (LSW) (continued) Electrical Characteristics—I2C Serial Communication Electrical Characteristics—I2C Serial Communication (continued) Typical Operating Characteristics Typical Operating Characteristics (continued) Pin Configuration MAX77659xENV Pin Description Pin Description (continued) Detailed Description Part Number Decoding Support Material Top-Level Interconnect Simplified Diagram Detailed Description—Global Resources Features and Benefits Voltage Monitors AVL POR Comparator AVL Undervoltage-Lockout Comparator SYS Overvoltage-Lockout Comparator Chip Identification nEN Enable Input nEN Manual Reset nEN Dual-Functionality: Push-Button vs. Slide-Switch nEN Internal Pullup Resistors to VCCINT Interrupts (nIRQ) Reset Output (nRST) General-Purpose Input Output (GPIO) Alternate Mode On/Off Controller Top Level On/Off Controller On/Off Controller Transition Table Internal Wake-Up Flags Reset and Off Sequences Power-Up/Down Sequence Flexible Power Sequencer (FPS) Startup Timing Diagram Due to nEN Startup Timing Diagram Due to Charge Source Insertion Force Enabled/Disabled Channels Factory-Ship Mode State Debounced Inputs (nEN, GPI, CHGIN) Watchdog Timer (WDT) Detailed Description—SIMO Buck-Boost SIMO Features and Benefits SIMO Detailed Block Diagram SIMO Control Scheme Drive Strength SIMO Soft-Start SIMO Registers SIMO Active Discharge Resistance SIMO Buck Mode Applications Information SIMO Available Output Current Inductor Selection Input Capacitor Selection Boost Capacitor Selection Output Capacitor Selection Example Component Selection Inductor, Peak Current Limit, and Input Capacitor Output Capacitors Summary SIMO Switching Frequency Unused Outputs PCB Layout Guide Capacitors Input Capacitor at IN_SBB Output Capacitors at SBBx Inductor Ground Connections Detailed Description—Smart Power Selector Charger Switching Charger Implementation with SIMO Architecture Charger Symbol Reference Guide Smart Power Selector Die Temperature Regulation Charger State Machine Charger-Off State Prequalification State Fast-Charge States Headroom Control Top-Off State Done State Prequalification Timer Fault State Fast-Charge Timer Fault State Battery Temperature Fault State JEITA-Modified States Typical Charge Profile Charger Applications Information CHGIN/SYS/BATT Capacitor Selection Detailed Description—Adjustable Thermistor Temperature Monitors Thermistor Bias Configurable Temperature Thresholds Applications Information Using Different Thermistor β NTC Thermistor Selection Detailed Description—Analog Multiplexer Measuring Battery Current Method for Measuring Discharge Current Method for Measuring Charge Current Detailed Description—Low-Dropout Linear Regulator (LDO)/Load Switch (LSW) Features and Benefits LDO/LSW Simplified Block Diagram LDO/LSW Active-Discharge Resistor LDO/LSW Soft-Start Load Switch Configuration Applications Information Input Capacitor Selection Output Capacitor Selection Detailed Description—I2C Serial Communication General Description Features I2C Simplified Block Diagram I2C System Configuration I2C Interface Power I2C Data Transfer I2C Start and Stop Conditions I2C Acknowledge Bit I2C Slave Address I2C Clock Stretching I2C General Call Address I2C Device ID I2C Communication Speed I2C Communication Protocols Writing to a Single Register Writing Multiple Bytes to Sequential Registers Reading from a Single Register Reading from Sequential Registers Engaging HS-Mode for Operation up to 3.4MHz Register Map MAX77659 Register Details INT_GLBL0 (0x00) INT_GLBL1 (0x04) ERCFLAG (0x05) STAT_GLBL (0x06) INTM_GLBL1 (0x08) INTM_GLBL0 (0x09) CNFG_GLBL (0x10) CNFG_GPIO0 (0x11) CNFG_GPIO1 (0x12) CID (0x14) CNFG_WDT (0x17) INT_CHG (0x01) STAT_CHG_A (0x02) STAT_CHG_B (0x03) INT_M_CHG (0x07) CNFG_CHG_A (0x20) CNFG_CHG_B (0x21) CNFG_CHG_C (0x22) CNFG_CHG_D (0x23) CNFG_CHG_E (0x24) CNFG_CHG_F (0x25) CNFG_CHG_G (0x26) CNFG_CHG_H (0x27) CNFG_CHG_I (0x28) CNFG_SBB0_A (0x29) CNFG_SBB0_B (0x2A) CNFG_SBB1_A (0x2B) CNFG_SBB1_B (0x2C) CNFG_SBB2_A (0x2D) CNFG_SBB2_B (0x2E) CNFG_SBB_TOP (0x2F) CNFG_SBB_TOP_B (0x30) CNFG_LDO0_A (0x38) CNFG_LDO0_B (0x39) Typical Application Circuits Typical Applications Circuit Ordering Information Revision History