米6体育平台手机版

SLUUCW8 October 2023 BQ27Z746

1
Read This First
1. About This Manual
2. Notational Conventions
3. Battery Notational Conventions
4. Trademarks
5. Glossary
1 Introduction
2 IO Options
1. 2.1 Configuration of the GPO Pin
3 Basic Measurement System
1. 3.1 Introduction
2. 3.2 Current and Coulomb Counting
3. 3.3 Voltage
  1. 3.3.1 Cell Voltage
  2. 3.3.2 Pack Voltage
4. 3.4 Temperature
4 Protections
1. 4.1 Introduction
2. 4.2 Hardware-Based Protection
3. 4.3 Firmware Based Protections
5 Permanent Fail
1. 5.1 Introduction
2. 5.2 Safety Cell Undervoltage Permanent Fail
3. 5.3 Safety Cell Overvoltage Permanent Fail
4. 5.4 Charge FET Permanent Fail
5. 5.5 Discharge FET Permanent Fail
6. 5.6 Permanent Fail Configuration
7. 5.7 Permanent Fail Data Flash Values
6 Battery Sensing Output
1. 6.1 Introduction
2. 6.2 Automatic Mode
3. 6.3 Hardware-Based Protections
7 Power Modes
1. 7.1 Introduction
2. 7.2 NORMAL Mode
3. 7.3 SLEEP Mode
  1. 7.3.1 Device Sleep
4. 7.4 SHIP Mode
5. 7.5 SHELF Mode
6. 7.6 SHUTDOWN Mode
7. 7.7 Power Modes Configuration
8 Gauging
1. 8.1 Impedance Track (IT) Model
2. 8.2 Thermal Model
3. 8.3 Gauging Capacities
4. 8.4 Learning Cycles
5. 8.5 Impedance Track Configuration
6. 8.6 Gas Gauge Modes
7. 8.7 QMax and Ra
8. 8.8 FullChargeCapacity (FCC), RemainingCapacity (RemCap), and RelativeStateOfCharge (RSOC)
  1. 8.8.1 Smoothing Engine
9. 8.9 Impedance Track (IT) Configuration Options
10. 8.10 State-Of-Health (SOH)
11. 8.11 Battery Trip Point (BTP)
9 Lifetime Data Collection
1. 9.1 Description
2. 9.2 Reset
10Host Interrupts
1. 10.1 Description
2. 10.2 Voltage and Temperature Interrupts
3. 10.3 RSOC Interrupts
4. 10.4 Host Interrupts Configuration
11Device Security
1. 11.1 Description
2. 11.2 SHA-256 Authentication
  1. 11.2.1 Secure Key
  2. 11.2.2 Authentication Flow
3. 11.3 Security Modes
12Advanced Charge Algorithm
1. 12.1 Introduction
2. 12.2 Charge Temperature Ranges
3. 12.3 Voltage Range
  1. 12.3.1 RelativeStateofCharge() Range
4. 12.4 Charging Current
5. 12.5 Charging Voltage
  1. 12.5.1 Charge Voltage Compensation for System Impedance
6. 12.6 Charging Degradation Modes
7. 12.7 Cell Swelling Control (via Charging Voltage Degradation)
8. 12.8 Valid Charge Termination
9. 12.9 Charge and Discharge Alarms
10. 12.10 Terminate Charge and Discharge Alarms
11. 12.11 Precharge
12. 12.12 Charge Disable and Discharge Disable
13. 12.13 Charge Inhibit
14. 12.14 Charge Suspend
15. 12.15 Zero Volt Charging (ZVCHG)
13Communications
1. 13.1 HDQ Single-Pin Serial Interface
2. 13.2 I2C Interface
14Manufacture Production
1. 14.1 Manufacture Testing
  1. 14.1.1 Manufacturing Status Configuration
2. 14.2 I2C Configuration
3. 14.3 Manufacturer Information Blocks
4. 14.4 Verification of Data Flash
5. 14.5 Calibration
15Calibration
1. 15.1 Voltage Calibration
2. 15.2 Current Calibration
3. 15.3 Temperature Calibration
16Data Commands
1. 16.1 Standard Data Commands
2. 16.2 0x00, 0x01 ManufacturerAccess() and 0x3E, 0x3F AltManufacturerAccess()
17Data Flash Access and Format
1. 17.1 Data Flash Access
  1. 17.1.1 Minimum Voltage
2. 17.2 Data Formats
18Data Flash Summary
1. 18.1 Data Flash Summary
19Revision History

16.2 0x00, 0x01 ManufacturerAccess() and 0x3E, 0x3F AltManufacturerAccess()

AltManufacturerAccess() provides a method of reading and writing data in the Manufacturer Access System (MAC). The MAC command is sent via AltManufacturerAccess() by a block protocol. The result is returned on AltManufacturerAccess() via a block read.

Commands are sent by writing to registers 0x00/0x01 or 0x3E/0x3F. 0x3E and 0x3F work the same as 0x00 and 0x01, but are primarily intended for block writes and reads.

Example: Send a MAC Gauging() to enable IT via AltManufacturerAccess().

With Impedance Track disabled, send Gauging() (0x0021) to AltManufacturerAccess()
1. Command Write, start address = 0x3E (or 0x00). Data = 21 00 (data must be sent in little endian).
IT is enabled, ManufacturingStatus()[GAUGE_EN] = 1.

Example: Read Chemical ID() (0x0006) via AltManufacturerAccess().

Send Chemical ID() to AltManufacturerAccess().
1. Command Write, start address = 0x3E (or 0x00). Data sent = 06 00 (data must be sent in little endian).
Read the result from AltManufacturerAccess() and MACData().
1. Command Read, start address = 0x3E length = 36 bytes. The first 4 bytes of the response will be 06 00 10 12.
2. The first two bytes "06 00" is the MAC command (for verification).
3. The second two bytes "10 12" are the Chem ID in little endian. That is, 0x1210 for ChemID 1210.
4. The last two bytes of the 36-byte block will be the checksum and length. The length in this case will be 6. The checksum is 0xFF – (sum of the first length – 2 bytes). The length and checksum are used to validate the block response.

It is recommended to send “command only” operations to 0x00 and 0x01, and to set the command for a read back in the same way. The reason for this is that it can always reset any legacy support options that may be in effect; whereas, some legacy support options use 0x3E and 0x3F for other purposes. However, 0x3E and 0x3F can always safely be used for block reads. For backward compatibility, a request of the device number or version reports a value for a read on 0x00/0x01. The response word for the MAC commands DEV and VERSION (0x0001 and 0x0002) should report 0xFFA5 as the legacy response. This is meant as a token to indicate to the host that the real response is on the extended block. “Command only” operations take place immediately after the word write.

Table 16-2 AltManufacturerAccess() Command List

Command	Function	Access	Format	Data Read on MACData()	Available in SEALED Mode	Type	Units
0x0001	DeviceType	R	Block	√	R	hex	—
0x0002	FirmwareVersion	R	Block	√	R	hex	—
0x0003	HardwareVersion	R	Block	√	R	hex	—
0x0004	IFChecksum	R	Block	√	R	hex	—
0x0005	StaticDFSignature	R	Block	√	R	hex	—
0x0006	ChemID	R	Block	√	R	hex	—
0x0007	Prev_MacWrite	R	Block	√	R	hex	—
0x0008	StaticChemDFSignature	R	Block	√	R	hex	—
0x0009	AllDFSignature	R	Block	√	R	hex	—
0x000b	ShelfEnable	W	—	—	W	hex	—
0x000c	ShelfDisable	W	—	—	W	hex	—
0x0010	ShutdownMode	W	—	—	W	hex	—
0x0012	Reset	W	—	—	—	hex	—
0x0015	ShipmodeEnable	W	—	—	W	hex	—
0x0016	ShipmodeDisable	W	—	—	W	hex	—
0x0017	QMax Day	R	Block	√	R	U2	days
0x001F	ChargeFETToggle	W	—	—	W	hex	—
0x0020	DischargeFETToggle	W	—	—	W	hex	—
0x0021	Gauging (IT Enable)	W	—	—	—	hex	—
0x0022	FET Enable	W	—	—	—	hex	—
0x0023	LifetimeDataCollection	W	—	—	—	hex	—
0x0024	PermanentFailure	W	—	—	—	hex	—
0x0028	LifetimeDataReset	W	—	—	—	hex	—
0x002D	CalibrationMode	W	—	—	—	hex	—
0x002E	LifetimeDataFlush	W	—	—	—	hex	—
0x002F	LifetimeDataSpeedUp Mode	W	—	—	—	hex	—
0x0029	PermanentFailDataReset	W	—	—	—	hex	—
0x0030	SealDevice	W	—	—	—	hex	—
0x0035	SecurityKeys	R/W	Block	√	—	hex	—
0x0041	Reset	W	—	—	—	hex	—
0x0047	TambientSync	W	—	—	W	hex	—
0x004A	Device Name	R	Block	√	R	hex	—
0x004B	Device Chem	R	Block	√	R	hex	—
0x004C	Manufacturer Name	R	Block	√	R	hex	—
0x004D	Manufacture Date	R/W	Block	√	R	hex	—
0x004E	Serial Number	R/W	Word	√	R	hex	—
0x0050	SafetyAlert	R	Block	√	R	hex	—
0x0051	SafetyStatus	R	Block	√	R	hex	—
0x0052	PFAlert	R	Block	√	R	hex	—
0x0053	PFStatus	R	Block	√	R	hex	—
0x0054	OperationStatus	R	Block	√	R	hex	—
0x0055	ChargingStatus	R	Block	√	R	hex	—
0x0056	GaugingStatus	R	Block	√	R	hex	—
0x0057	ManufacturingStatus	R	Block	√	R	hex	—
0x0060	LifetimeDataBlock1	R	Block	√	R	Mixed	Mixed
0x0061	LifetimeDataBlock2	R	Block	√	R	Mixed	Mixed
0x0062	LifetimeDataBlock3	R	Block	√	R	U4	s
0x0063	LifetimeDataBlock4	R	Block	√	R	Mixed	Mixed
0x0065	LifetimeDataBlock6	R	Block	√	R	Mixed	Mixed
0x0065	LifetimeDataBlock7	R	Block	√	R	Mixed	Mixed
0x0067	LifetimeDataBlock8	R	Block	√	R	Mixed	Mixed
0x0068	LifetimeDataBlock9	R	Block	√	R	Mixed	Mixed
0x0069	LifetimeDataBlock10	R	Block	√	R	Mixed	Mixed
0x006A	LifetimeDataBlock11	R	Block	√	R	Mixed	Mixed
0x006B	LifetimeDataBlock12	R	Block	√	R	Mixed	Mixed
0x0070	ManufacturerInfo	R/W	Block	√	R	hex	—
0x0071	DAStatus1	R	Block	√	R	Mixed	Mixed
0x0072	DAStatus2	R	Block	√	R	Mixed	Mixed
0x0073	ITStatus1	R	Block	√	R	Mixed	Mixed
0x0074	ITStatus2	R	Block	√	R	Mixed	Mixed
0x0075	ITStatus3	R	Block	√	R	Mixed	Mixed
0x0077	FCC_SOH	R	Block	√	R	hex	—
0x0078	Filtered Capacity	R	Block	√	R	hex	Mixed
0x007A	ManufacturerInfoB	R/W	Block	√	R	hex	—
0x007B	ManufacturerInfoC	R/W	Block	√	R/W	hex	—
0x0097	FET Control Override	W	Word	—	W	hex	—
0x00A3	System Reset Enable	W	—	—	W	—	—
0x00A4	System Reset	W	—	—	W	—	—
0x00B1	BattSenseOutput	R/W	Block	√	R	hex	—
0x00E0	RaTableCell0	R	Block	√	R	I2	2^–10 Ω
0x0F00	ROMMode	W	—	—	—	hex	—
0x4000 - 0x5FFF	DataFlashAccess	R/W	Block	√	—	hex	Mixed
0x7C40	SwitchToHDQ	W	—	—	—	hex	—
0xF080	ExitCalibrationOutput	R/W	Block	√	—	hex	—
0xF081	OutputCCandADCforCalibration	R/W	Block	√	—	hex	—
0xF083	OutputTemperatureCal	R/W	Block	√	—	hex	—
0xF0A0	ProtectorCalibration	R/W	Block	√	—	hex	—
0xF0A1	ProtectorImage1	R/W	Block	√	—	hex	—
0xF0A2	ProtectorImage2	R/W	Block	√	—	hex	—
0xF0A3	ProtectorImageSave	R/W	Block	√	—	hex	—
0xF0A4	ProtectorImageLock	R/W	Block	√	—	hex	—
0xF0A5	ProtectorFactoryConfig	R	Block	√	—	hex	—