米6体育平台手机版

ZHCSMR2B December 2020 – December 2021 BQ76942

PRODUCTION DATA

1 特性
2 应用
3 说明
4 Revision History
5 Device Comparison Table
6 Pin Configuration and Functions
7 Specifications
1. 7.1 Absolute Maximum Ratings
2. 7.2 ESD Ratings
3. 7.3 Recommended Operating Conditions
4. 7.4 Thermal Information BQ76942
5. 7.5 Supply Current
6. 7.6 Digital I/O
7. 7.7 LD Pin
8. 7.8 Precharge (PCHG) and Predischarge (PDSG) FET Drive
9. 7.9 FUSE Pin Functionality
10. 7.10 REG18 LDO
11. 7.11 REG0 Pre-regulator
12. 7.12 REG1 LDO
13. 7.13 REG2 LDO
14. 7.14 Voltage References
15. 7.15 Coulomb Counter
16. 7.16 Coulomb Counter Digital Filter (CC1)
17. 7.17 Current Measurement Digital Filter (CC2)
18. 7.18 Current Wake Detector
19. 7.19 Analog-to-Digital Converter
20. 7.20 Cell Balancing
21. 7.21 Cell Open Wire Detector
22. 7.22 Internal Temperature Sensor
23. 7.23 Thermistor Measurement
24. 7.24 Internal Oscillators
25. 7.25 High-Side NFET Drivers
26. 7.26 Comparator-Based Protection Subsystem
27. 7.27 Timing Requirements – I2C Interface, 100kHz Mode
28. 7.28 Timing Requirements – I2C Interface, 400kHz Mode
29. 7.29 Timing Requirements – HDQ Interface
30. 7.30 Timing Requirements – SPI Interface
31. 7.31 Interface Timing Diagrams
32. 7.32 Typical Characteristics
8 Device Description
1. 8.1 Overview
2. 8.2 BQ76942 Device Versions
3. 8.3 Functional Block Diagram
4. 8.4 Diagnostics
9 Device Configuration
1. 9.1 Commands and Subcommands
2. 9.2 Configuration Using OTP or Registers
3. 9.3 Device Security
4. 9.4 Scratchpad Memory
10Measurement Subsystem
1. 10.1 Voltage Measurement
2. 10.2 General Purpose ADCIN Functionality
3. 10.3 Coulomb Counter and Digital Filters
4. 10.4 Synchronized Voltage and Current Measurement
5. 10.5 Internal Temperature Measurement
6. 10.6 Thermistor Temperature Measurement
7. 10.7 Factory Trim of Voltage ADC
8. 10.8 Voltage Calibration (ADC Measurements)
9. 10.9 Voltage Calibration (COV and CUV Protections)
10. 10.10 Current Calibration
11. 10.11 Temperature Calibration
11Primary and Secondary Protection Subsystems
1. 11.1 Protections Overview
2. 11.2 Primary Protections
3. 11.3 Secondary Protections
4. 11.4 High-Side NFET Drivers
5. 11.5 Protection FETs Configuration and Control
  1. 11.5.1 FET Configuration
  2. 11.5.2 PRECHARGE and PREDISCHARGE Modes
6. 11.6 Load Detect Functionality
12Device Hardware Features
1. 12.1 Voltage References
2. 12.2 ADC Multiplexer
3. 12.3 LDOs
  1. 12.3.1 Preregulator Control
  2. 12.3.2 REG1 and REG2 LDO Controls
4. 12.4 Standalone Versus Host Interface
5. 12.5 Multifunction Pin Controls
6. 12.6 RST_SHUT Pin Operation
7. 12.7 CFETOFF, DFETOFF, BOTHOFF Pin Functionality
8. 12.8 ALERT Pin Operation
9. 12.9 DDSG and DCHG Pin Operation
10. 12.10 Fuse Drive
11. 12.11 Cell Open Wire
12. 12.12 Low Frequency Oscillator
13. 12.13 High Frequency Oscillator
13Device Functional Modes
1. 13.1 Overview
2. 13.2 NORMAL Mode
3. 13.3 SLEEP Mode
4. 13.4 DEEPSLEEP Mode
5. 13.5 SHUTDOWN Mode
6. 13.6 CONFIG_UPDATE Mode
14Serial Communications Interface
1. 14.1 Serial Communications Overview
2. 14.2 I2C Communications Subsystem
3. 14.3 SPI Communications Interface
  1. 14.3.1 SPI Protocol
4. 14.4 HDQ Communications Interface
15Cell Balancing
1. 15.1 Cell Balancing Overview
16Application and Implementation
1. 16.1 Application Information
2. 16.2 Typical Applications
3. 16.3 Random Cell Connection Support
4. 16.4 Startup Timing
5. 16.5 FET Driver Turn-Off
6. 16.6 Unused Pins
17Power Supply Requirements
18Layout
1. 18.1 Layout Guidelines
2. 18.2 Layout Example
19Device and Documentation Support
1. 19.1 第三方米6体育平台手机版_好二三四免责声明
2. 19.2 Documentation Support
  1. 19.2.1 接收文档更新通知
3. 19.3 支持资源
4. 19.4 Trademarks
5. 19.5 Electrostatic Discharge Caution
6. 19.6 术语表
20Mechanical, Packaging, Orderable Information

封装选项

机械数据 (封装 | 引脚)

PFB|48
- MTQF019B

散热焊盘机械数据 (封装 | 引脚)

订购信息

zhcsmr2b_oa

10.1.2 Usage of VC Pins for Cells Versus Interconnect

If the BQ76942 device is used in a system with fewer than 10-series cells, the additional cell inputs can be used to improve measurement performance. For example, a long connection may exist between two cells in a pack, such that there may be significant interconnect resistance between the cells, such as shown in Figure 10-1 between CELL-A and CELL-B. By connecting VC7 close to the positive terminal of CELL-B, and connecting VC8 close to the negative terminal of CELL-A, more accurate cell voltage measurements are obtained for CELL-A and CELL-B, since the I·R voltage across the interconnect resistance between the cells is not included in either cell voltage measurement. Because the device reports the voltage across the interconnect resistance and the synchronized current, the resistance of the interconnect between CELL-A and CELL-B can also be calculated and monitored during operation. It is recommended to include the series resistance and bypass capacitor on cell inputs connected in this manner, as shown below.

Note: It is important that the differential input for each cell input not fall below –0.3 V (the absolute maximum data sheet limit), with the recommended minimum voltage of –0.2 V. Therefore, it is important that the I·R voltage drop across the interconnect resistance not cause a violation of this requirement.

Figure 10-1 Using Cell Input Pins for Interconnect Measurement

If this connection across an interconnect is not needed (or it is preferred to avoid the extra resistor and capacitor), then unused cell input pins should be shorted to adjacent cell input pins, as shown in Figure 10-2 for VC8.

Figure 10-2 Terminating an Unused Cell Input Pin

A configuration register is used to specify which cell inputs are used for actual cells. The device uses this information to disable cell voltage protections associated with inputs that are used to measure interconnect or are not used at all. Voltage measurements for all inputs are reported in a 16-bit format (in units of mV), as well as 32-bit format (in units of raw ADC counts), irrespective of whether they are used for cells or not.