|Package | PIN:||WQFN (RSN) | 32|
|Temp:||I (-40 to 85)|
- Pin-to-Pin And Software Compatible to BQ25703A
- Charge 1s to 4s Battery From Wide Range of Input Source
- 3.5-V to 24-V Input Operating Voltage
- Supports USB2.0, USB 3.0, USB 3.1 (Type C), and USB Power Delivery (USB-PD)Input Current Settings
- Seamless Transition Among Buck, Buck-Boost and Boost Operations
- Input Current and Voltage Regulation (IDPM and VDPM) Against SourceOverload
- Power/Current Monitor for CPU Throttling
- Comprehensive PROCHOT Profile, IMVP8/IMVP9Compliant
- Input and Battery Current Monitor
- System Power Monitor,IMVP8/IMVP9 Compliant
- Narrow-VDC (NVDC) Power Path Management
- Instant-On With No Battery or Depleted Battery
- Battery Supplements System When Adapter is Fully-Loaded
- Battery MOSFET Ideal Diode Operation in Supplement Mode
- Power Up USB Port From Battery (USB OTG)
- 3-V to 20.8-V VOTG With 8 mV Resolution
- Output Current Limit up to 6.4 A with 50 mAResolution
- Pass Through Mode (PTM) for System Power Efficiency Improvement
- When System is Powered by Battery Only, Vmin Active Protection (VAP) Mode Supplements Battery From Input Capacitors During System Peak Power Spike
- Input Current Optimizer (ICO) to Extract Max Input Power
- 800-kHz or 1.2-MHz Programmable Switching Frequency for 2.2-µH or 1.0-µH Inductor
- Host Control Interface for Flexible System Configuration
- I2C (BQ25713/BQ25713B) PortOptimal System Performance and Status Reporting
- Hardware Pin to Set Input Current Limit Without ECControl
- Integrated ADC to Monitor Voltage, Current and Power
- High Accuracy for the Regulation and Monitor
- ±0.5% Charge Voltage Regulation
- ±2% Input/Charge Current Regulation
- ±2% Input/Charge Current Monitor
- ±4% Power Monitor
- Thermal Shutdown
- Input, System, Battery Overvoltage Protection
- Input, MOSFET, Inductor Overcurrent Protection
- Low Battery Quiescent Current
- Package: 32-Pin 4 × 4 WQFN
All trademarks are the property of their respective owners.
Texas Instruments BQ25713BRSNR
This device is a synchronous NVDC buck-boost battery charge controller, offering a lowcomponent count, high efficiency solution for space constrained, 1s-4s battery chargingapplications.
The NVDC configuration allows the system to be regulated at battery voltage, but not dropbelow system minimum voltage. The system keeps operating even when the battery is completelydischarged or removed. When load power exceeds input source rating, the battery goes intosupplement mode and prevents the system from crashing.
BQ25713/BQ25713B charges battery from a wide range ofinput sources including USB adapter, high voltage USB PD sources and traditional adapters.
During power up, the charger sets converter to buck, boost or buck-boost configurationbased on input source and battery conditions. The charger automatically transits among buck, boostand buck-boost configuration without host control.
In the absence of an input source, BQ25713/BQ25713B supports USB On-the-Go (OTG) functionfrom 1- to 4-cell battery to generate adjustable 3 V to 20.8 V on VBUS with 8 mV resolution. TheOTG output voltage transition slew rate can be configurable, which is complied with the USB PD 3.0PPS specifications.
When only battery powers the system and no external load is connected to the USB OTGport, BQ25713/BQ25713B supports the Vmin Active Protection(VAP) feature, in which the device charges up the VBUS voltage from the battery to store someenergy in the input decoupling capacitors. During the system peak power spike, the huge currentdrawing from the battery creates a larger voltage drop across the impedance from the battery to thesystem. The energy stored in the input capacitors will supplement the system, to prevent the systemvoltage from dropping below the minimum system voltage and causing the system crash. This VminActive Protection (VAP) is designed to absorb system power peaks during periods of SOC high powerdemand, which is highly recommended by Intel for the platforms with 1S~2S battery.
BQ25713/BQ25713B monitors adapter current, batterycurrent and system power. The flexibly programmed PROCHOT output goesdirectly to CPU for throttle back when needed.