ZHCSO21
may 2021
BQ25720
PRODUCTION DATA
1
1
特性
2
应用
3
说明
4
Revision History
5
Description (continued)
6
Device Comparison Table
7
Pin Configuration and Functions
8
Specifications
8.1
Absolute Maximum Ratings
8.2
ESD Ratings
8.3
Recommended Operating Conditions
8.4
Thermal Information
8.5
Electrical Characteristics
8.6
Timing Requirements
8.7
Typical Characteristics
9
Detailed Description
9.1
Overview
9.2
Functional Block Diagram
9.3
Feature Description
9.3.1
Power-Up Sequence
9.3.2
Vmin Active Protection (VAP) with Battery only
9.3.3
Two-Level Battery Discharge Current Limit
9.3.4
Fast Role Swap Feature
9.3.5
CHRG_OK Indicator
9.3.6
Input and Charge Current Sensing
9.3.7
Input Voltage and Current Limit Setup
9.3.8
Battery Cell Configuration
9.3.9
Device HIZ State
9.3.10
USB On-The-Go (OTG)
9.3.11
Converter Operation
9.3.12
Inductance Detection Through IADPT Pin
9.3.13
Converter Compensation
9.3.14
Continuous Conduction Mode (CCM)
9.3.15
Pulse Frequency Modulation (PFM)
9.3.16
Switching Frequency and Dithering Feature
9.3.17
Current and Power Monitor
9.3.17.1
High-Accuracy Current Sense Amplifier (IADPT and IBAT)
9.3.17.2
High-Accuracy Power Sense Amplifier (PSYS)
9.3.18
Input Source Dynamic Power Management
9.3.19
Input Current Optimizer (ICO)
9.3.20
Two-Level Adapter Current Limit (Peak Power Mode)
9.3.21
Processor Hot Indication
9.3.21.1
PROCHOT During Low Power Mode
9.3.21.2
PROCHOT Status
9.3.22
Device Protection
9.3.22.1
Watchdog Timer
9.3.22.2
Input Overvoltage Protection (ACOV)
9.3.22.3
Input Overcurrent Protection (ACOC)
9.3.22.4
System Overvoltage Protection (SYSOVP)
9.3.22.5
Battery Overvoltage Protection (BATOVP)
9.3.22.6
Battery Discharge Overcurrent Protection (BATOC)
9.3.22.7
Battery Short Protection (BATSP)
9.3.22.8
System Undervoltage Lockout (VSYS_UVP) and Hiccup Mode
9.3.22.9
Thermal Shutdown (TSHUT)
9.4
Device Functional Modes
9.4.1
Forward Mode
9.4.1.1
System Voltage Regulation with Narrow VDC Architecture
9.4.1.2
Battery Charging
9.4.2
USB On-The-Go
9.4.3
Pass Through Mode (PTM)-Patented Technology
9.5
Programming
9.5.1
SMBus Interface
9.5.1.1
SMBus Write-Word and Read-Word Protocols
9.5.1.2
Timing Diagrams
9.6
Register Map
9.6.1
ChargeOption0 Register (SMBus address = 12h) [reset = E70Eh]
9.6.2
ChargeCurrent Register (SMBus address = 14h) [reset = 0000h]
9.6.2.1
Battery Pre-Charge Current Clamp
9.6.3
ChargeVoltage Register (SMBus address = 15h) [reset value based on CELL_BATPRESZ pin setting]
9.6.4
ChargerStatus Register (SMBus address = 20h) [reset = 0000h]
9.6.5
ProchotStatus Register (SMBus address = 21h) [reset = B800h]
9.6.6
IIN_DPM Register With 10-mΩ Sense Resistor (SMBus address = 22h) [reset = 4100h]
9.6.7
ADCVBUS/PSYS Register (SMBus address = 23h)
9.6.8
ADCIBAT Register (SMBus address = 24h)
9.6.9
ADCIINCMPIN Register (SMBus address = 25h)
9.6.10
ADCVSYSVBAT Register (SMBus address = 26h)
9.6.11
ChargeOption1 Register (SMBus address = 30h) [reset = 3300h]
9.6.12
ChargeOption2 Register (SMBus address = 31h) [reset = 00B7]
9.6.13
ChargeOption3 Register (SMBus address = 32h) [reset = 0434h]
9.6.14
ProchotOption0 Register (SMBus address = 33h) [reset = 4A81h(2S~) 4A09(1S)]
9.6.15
ProchotOption1 Register (SMBus address = 34h) [reset = 41A0h]
9.6.16
ADCOption Register (SMBus address = 35h) [reset = 2000h]
9.6.17
ChargeOption4 Register (SMBus address = 36h) [reset = 0048h]
9.6.18
Vmin Active Protection Register (SMBus address = 37h) [reset = 006Ch(2s~4s)/0004h(1s)]
9.6.19
OTGVoltage Register (SMBus address = 3Bh) [reset = 09C4h]
9.6.20
OTGCurrent Register (SMBus address = 3Ch) [reset = 3C00h]
9.6.21
InputVoltage (VINDPM) Register (SMBus address = 3Dh) [reset = VBUS-1.28V]
9.6.22
VSYS_MIN Register (SMBus address = 3Eh) [reset value based on CELL_BATPRESZ pin setting]
9.6.23
IIN_HOST Register (SMBus address = 3Fh) [reset = 4100h]
9.6.24
ID Registers
9.6.24.1
ManufactureID Register (SMBus address = FEh) [reset = 0040h]
9.6.24.2
Device ID (DeviceAddress) Register (SMBus address = FFh) [reset = 00E1h]
10
Application and Implementation
10.1
Application Information
10.2
Typical Application
10.2.1
Design Requirements
10.2.2
Detailed Design Procedure
10.2.2.1
ACP-ACN Input Filter
10.2.2.2
Inductor Selection
10.2.2.3
Input Capacitor
10.2.2.4
Output Capacitor
10.2.2.5
Power MOSFETs Selection
10.2.3
Application Curves
11
Power Supply Recommendations
12
Layout
12.1
Layout Guidelines
12.2
Layout Example
12.2.1
Layout Example Reference Top View
12.2.2
Inner Layer Layout and Routing Example
13
Device and Documentation Support
13.1
Device Support
13.1.1
第三方米6体育平台手机版_好二三四免责声明
13.2
Documentation Support
13.2.1
Related Documentation
13.3
接收文档更新通知
13.4
支持资源
13.5
Trademarks
13.6
静电放电警告
13.7
术语表
14
Mechanical, Packaging, and Orderable Information
1
特性
与
BQ25710
引脚对引脚兼容
适用于 USB-C 电力输送 (PD) 接口平台的降压/升压
窄电压直流 (NVDC)
充电器
输入范围为 3.5V 至
26V
,可为 1 至
4 节
电池充电
充电电流高达 16.2A/8.1A,分辨率为 128mA/64mA,基于 5mΩ/10mΩ 检测电阻
输入电流限制高达 10A/6.35A,分辨率为 100mA/50mA,基于 5mΩ/10mΩ 检测电阻
支持 USB 2.0、USB 3.0、USB 3.1 和 USB 电力传输 (PD)
输入电流优化器 (ICO),无需过载适配器即可获取最大输入功率
符合 USB-PD 规范的集成型快速角色交换 (FRS) 功能
可在降压、降压/升压和升压操作之间进无缝转换
提供输入电流和电压调节(IINDPM 和 VINDPM)以防电源过载
TI 获得专利的开关频率抖动模式,可降低 EMI 噪声
TI 获得专利的直通模式 (PTM),可提高系统功效并实现 99% 的电池快速充电。
适用于 Intel 平台且符合 IMVP8/IMVP9 标准的系统功能
增强型 Vmin 主动保护 (VAP) 模式可在系统峰值功率尖峰期间根据最新的 Intel 规范通过输入电容器为电池补电
综合
PROCHOT
曲线
两级放电电流限制
PROCHOT
曲线,可避免电池电量耗尽
系统功率监测器
通过专用引脚监测输入和电池电流
集成型 8 位 ADC,可监控电压、电流和功率
在补充模式下实现电池 MOSFET 理想二极管运行,可在适配器满载时支持系统
通过电池给 USB 端口加电 (USB OTG)
具有 8mV 分辨率的 3V 至 24V OTG
输出电流限制高达 12.7A/6.35A,分辨率为 100mA/50mA,基于 5mΩ/10mΩ 检测电阻
800kHz/1.2MHz 可编程开关频率,具有 2.2µH/1.0µH 电感器
可通过
SMBus
主机控制接口实现灵活系统配置
高精度调节和监控
±0.5% 充电电压调节
±3% 充电电流调节
±2.5% 输入电流调节
±2% 输入/充电电流监测
安全
热关断
输入、系统和电池过压保护
输入、MOSFET 和电感器过流保护
封装:32 引脚,4.0mm × 4.0mm WQFN
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