ACT8600
Part | Datasheet |
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ACT8600QJ162-T (pdf) |
Related Parts | Information |
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ACT8600QJ601-T |
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EA8600 |
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ACT8600 Advanced PMU for Ingenic JZ4760/60B/70 Processors • Optimized for Ingenic JZ4760, JZ4760B, and JZ4770 Processors • Three Step-Down DC/DC Converters • One Step-Up DC/DC Converter • USB OTG Switch with 600mA Current Limit • Four Low-Noise LDOs • Two Low IQ Keep-Alive LDOs • Backup Battery Charger • Single-Cell Li+ActivePathTM Battery Charger • I2CTM Serial Interface • Interrupt Controller • Power On Reset Interface and Sequencing Controller • Minimum External Components • 5x5mm TQFN55-40 Package Package Height and RoHS Compliant The ACT8600 is a complete, cost effective, highlyefficient ActivePMUTM power management solution, optimized for the unique power, voltagesequencing, and control requirements of the Ingenic JZ4760, JZ4760B and JZ4770 processors. This device features three highly efficient step-down DC/DC converters, one step-up DC/DC converter, four low-noise, low-dropout linear regulators, and two Low IQ always on Keep-Alive linear regulators, a current limit switch for USB OTG, along with a complete battery charging solution featuring the advanced ActivePathTM system-power selection function. The ACT8600 is available in a compact, Pb-Free and RoHS-compliant TQFN55-40 package. SYSTEM BLOCK DIAGRAM ActivePMU TM Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. Copyright 2014 Active-Semi, Inc. TABLE OF CONTENTS General Information 01 Functional Block 04 Ordering 05 Pin Configuration 05 Pin 06 Absolute Maximum Ratings 08 I2C Interface Electrical Characteristics 09 Global Register Map 10 Register and Bit Descriptions 11 System Control Electrical 16 Step-Down DC/DC Electrical Characteristics 17 Step-Up DC/DC Electrical 18 Low-Noise LDO Electrical Characteristics 19 Low-IQ LDO Electrical Characteristics 20 OTG Subsystem Electrical 20 ActivePathTM Charger Electrical 21 Typical Performance 23 System Control Information 34 Interfacing with the Ingenic JZ4770 Processor 34 Control Signals 34 Power Control 35 Functional Description 37 I2C Interface 37 Interrupt Service Routine 37 Housekeeping Functions 37 Thermal Protection 38 Step-Down DC/DC Regulators 39 General Description 39 Output Current Capability 39 100% Duty Cycle Operation 39 Operating Mode 39 Synchronous Rectification 39 Configuration Options 39 Configurable Step-Up 40 General Description 40 5V Applications 40 Compensation and 40 Configuration Options 40 Low-Dropout Linear 41 General Description 41 LDO Output Voltage 41 Enabling and Disabling the 41 Power-OK 41 Optional LDO Output 41 Output Capacitor 41 Backup Battery Charger 41 Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. Copyright 2014 Active-Semi, Inc. TABLE OF CONTENTS USB 44 General Description 44 TQFN55-40 Package Outline and Dimensions Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. Copyright 2014 Active-Semi, Inc. FUNCTIONAL BLOCK DIAGRAM Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. Copyright 2014 Active-Semi, Inc. ORDERING VOUT1 VOUT2 VOUT3 VOUT4 VOUT5 VOUT6 VOUT7 VOUT8 VOUT9 VOUT10 PACKAGE PINS TEMPERATUR E RANGE ACT8600QJ162-T 1.2V 3.3V 1.8V 5V 2.5V 3.3V 1.2V 1.8V 3.3V 1.2V TQFN55-40 -40°C to +85°C ACT8600QJ601-T 3.3V 1.8V 1.2V 5V 2.5V 3.3V 1.2V 1.8V 3.3V 1.2V TQFN55-40 -40°C to +85°C All Active-Semi components are RoHS Compliant and with Pb-free plating unless specified differently. The term Pb-free means semiconductor products that are in compliance with current RoHS Restriction of Hazardous Substances standards. Standard product options are identified in this table. Contact factory for custom options. Minimum order quantity is 12,000 units. ACT8600QJ162-T is dedicated to Ingenic’s application. ACT8600QJ601-T is dedicated to Bloomberg’s application. ACT8600QJ_ _ -T Active-Semi Product Number Package Code Pin Count Option Code Tape and Reel PIN CONFIGURATION TOP VIEW BAT VSYS CHGIN VBUS 5VIN OUT9 OUT10 nIRQ PWREN OUT8 OUT7 INL OUT6 OUT5 OUT3 VP3 GP3 SW3 GP4 Thin - QFN TQFN55-40 Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. Copyright 2014 Active-Semi, Inc. PIN DESCRIPTIONS PIN NAME 1, 40 BAT Battery charger output. Connect this pin directly to the battery anode + terminal . nSTAT Active-Low Open-Drain Charger Status Output. nSTAT has a 8mA typ. current limit, allowing it to directly drive an indicator LED without additional external components. nRSTO Active low open-drain Reset Output. REFBP Reference Bypass. Connect a 0.047uF ceramic capacitor from REFBP to GA. Ground. Temperature Sensing Input. ISET Charge Current Set. Program the maximum charge current by connecting a resistor RISET between ISET and GA. 8 CHGLEV Charge Current Selection Input. SDA Data Input for I2C Serial Interface. Data is read on the rising edge of SCL. Clock Input for I2C Serial Interface. OUT8 REG8 Output. Bypass it to ground with a 2.2µF capacitor. OUT7 REG7 Output. Bypass it to ground with a 2.2µF capacitor. Power Input for the LDOs. Bypass to GA with a high quality ceramic capacitor placed as close to the IC as possible. OUT6 REG6 Output. Bypass it to ground with a 2.2µF capacitor. OUT5 REG5 Output. Bypass it to ground with a 2.2µF capacitor. OUT3 Output voltage sense for REG3. Power input for REG3. Bypass to GP3 with a high quality ceramic capacitor placed as close to the IC as possible. VNOM refers to the nominal output voltage level for VOUT as defined by the Ordering Information section. IMAX Maximum Output Current. Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. - 17 - Copyright 2014 Active-Semi, Inc. STEP-UP DC/DC ELECTRICAL CHARACTERISTICS VVP1 = VVP2 = VVP3 = 3.6V, TA = 25°C, unless otherwise specified. PARAMETER Operating Voltage Range Operating Supply Current Standby Supply Current Shutdown Current Output Voltage Accuracy Line Regulation Load Regulation Power Good Threshold Power Good Hysteresis Switching Frequency Minimum On-Time Minimum Off-Time Maximum Output Current Limit Switch On-Resistance SW4 Leakage Current CONDITIONS No switching VVP = 5.5V, Regulator Disabled VOUT = 5V, IOUT = 10mA VOUT Rising VOUT Falling VOUT = 5V ISW4 = 100mA VBAT = 3.6V, VSW4 = 5V, REG4 disabled 80 93 80 40 VNOM refers to the nominal output voltage level for VOUT as defined by the Ordering Information section. MAX 6 150 1 3% UNIT V mA µA µA V %/V %/mA %VNOM %VNOM MHz ns A µA Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. - 18 - Copyright 2014 Active-Semi, Inc. LOW-NOISE LDO ELECTRICAL CHARACTERISTICS VINL = 3.6V, COUT5 = COUT6 = COUT7 = COUT8 = 2.2µF, TA = 25°C, unless otherwise specified. PARAMETER Operating Voltage Range TEST CONDITIONS Output Voltage Accuracy Line Regulation VOUT 1.2V, TA = 25°C, IOUT = 10mA VINL = Max VOUT + 0.5V, 3.6V to 5.5V, LOWIQ[ ] = [0] Load Regulation Power Supply Rejection Ratio Supply Current per Output Soft-Start Period Power Good Threshold Power Good Hysteresis Output Noise Discharge Resistance IOUT = 1mA to f = 1kHz, IOUT = 20mA, VOUT =1.2V f = 10kHz, IOUT = 20mA, VOUT =1.2V Regulator Enabled Regulator Disabled VOUT = 3.0V VOUT Rising VOUT Falling IOUT = 20mA, f = 10Hz to 100kHz, VOUT = 1.2V LDO Disabled, DIS[ ] = 1 REG5 Dropout Voltage IOUT = 160mA, VOUT > 3.1V Maximum Output Current Current Limit Stable COUT5 Range VOUT = 95% of regulation voltage REG6 Dropout Voltage IOUT = 160mA, VOUT > 3.1V Maximum Output Current Current Limit VOUT = 95% of regulation voltage Stable COUT6 Range REG7 Dropout Voltage Maximum Output Current IOUT = 160mA, VOUT > 3.1V Current Limit Stable COUT7 Range VOUT = 95% of regulation voltage REG8 Dropout Voltage Maximum Output Current IOUT = 160mA, VOUT > 3.1V Current Limit Stable COUT8 Range VOUT = 95% of regulation voltage 80 70 24 0 100 92 4 30 130 350 550 VNOM refers to the nominal output voltage level for VOUT as defined by the Ordering Information section. IMAX Maximum Output Current. Dropout Voltage is defined as the differential voltage between input and output when the output voltage drops 100mV below the regulation voltage for 3.1V output voltage or higher . LDO current limit is defined as the output current at which the output voltage drops to 95% of the respective regulation voltage. Under heavy overload conditions the output current limit folds back by 50% typ Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. - 19 - Copyright 2014 Active-Semi, Inc. LOW-IQ LDO ELECTRICAL CHARACTERISTICS VVSYS = 3.6V, COUT9 = COUT10 = 1µF, TA = 25°C, unless otherwise specified. PARAMETER TEST CONDITIONS REG9 VDDRTC18 VNOM = 3.3V Operating Voltage Range VOUT =1.8V Output Voltage Accuracy IOUT = 1mA Line Regulation Supply Current from VSYS VVSYS = VOUT + 1.2V to VVSYS = 5.5V VVSYS = VOUT + 1.2V VVSYS < VOUT + 0.7V Maximum Output current Stable COUT Range REG10 VDDRTC12 VNOM = 1.2V Operating Voltage Range Output Voltage Accuracy IOUT = 1mA Line Regulation VIN = VOUT + 0.5V to VIN = 5.5V Supply Current from VOUT9 Maximum Output current Stable COUT Range MIN TYP MAX UNIT % %/V % %/V OTG SUBSYSTEM ELECTRICAL CHARACTERISTICS VINL = 3.6V, TA = 25°C, unless otherwise specified. PARAMETER TEST CONDITIONS 5VIN to VBUS Q1 Switch on resistance 5VIN = 5V, ILOAD = 100mA Current Limit Threshold Current Limit Delay VNOM refers to the nominal output voltage level for VOUT as defined by the Ordering Information section. Innovative PowerTM ActivePMUTM and ActivePathTM are trademarks of Active-Semi. I2CTM is a trademark of NXP. - 20 - Copyright 2014 Active-Semi, Inc. ActivePathTM CHARGER ELECTRICAL CHARACTERISTICS VCHGIN = 5.0V, TA = 25°C, unless otherwise specified. PARAMETER TEST CONDITIONS ActivePath CHGIN Operating Voltage Range CHGIN UVLO Threshold CHGIN Voltage Rising CHGIN UVLO Hysteresis CHGIN Voltage Falling CHGIN OVP Threshold CHGIN Voltage Rising CHGIN OVP Hysteresis CHGIN Voltage Falling VBUS_UVLO Threshold VBUS Voltage Rising VBUS_UVLO Hysteresis VBUS Voltage Falling CHGIN Supply Current CHGIN to VSYS On-Resistance CHGIN to VSYS Current Limit VCHGIN < VUVLO VCHGIN < VBAT + 50mV, VCHGIN > VUVLO VCHGIN > VBAT + 150mV, VCHGIN > VUVLO Charger disabled, IVSYS = 0mA IVSYS = 100mA VBUS Input Current Limit CHGLEV = GA, VVSYS =3.6V CHGLEV = VVSYS, DBILIMQ3[ ] = 0, VVSYS =3.6V CHGLEV = VVSYS, DBILIMQ3[ ] = VSYS REGULATION CHGIN to VSYS Regulated Voltage IVSYS = 10mA nSTAT OUTPUT nSTAT Sink current nSTAT Leakage Current VnSTAT = 2V VnSTAT = 4.2V CHGLEV INPUTS CHGLEV Logic High Input Voltage CHGLEV Logic Low Input Voltage CHGLEV Leakage Current VCHGLEV = 4.2V TH INPUT TH Pull-Up Current VTH Upper Temperature Voltage Threshold VTHH VTH Lower Temperature Voltage Threshold VTHL VTH Hysteresis VCHGIN > VBAT + 100mV, Hysteresis = 50mV Hot Detect NTC Thermistor Cold Detect NTC Thermistor Upper and Lower Thresholds MIN TYP MAX UNIT 100 200 µA 400 450 500 mA 91 100 109 µA |
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