MAX11068EVKIT+ Maxim Integrated Products, MAX11068EVKIT+ Datasheet

no-image

MAX11068EVKIT+

Manufacturer Part Number
MAX11068EVKIT+
Description
KIT SMART BATT MEASUREMENT 12CH
Manufacturer
Maxim Integrated Products
Datasheets
1.MAX11068EVKIT.pdf (43 pages)
2.MAX11068EVKIT.pdf (82 pages)

Specifications of MAX11068EVKIT+

Main Purpose
Power Management, Battery Monitor, Car
Utilized Ic / Part
MAX11068
Primary Attributes
Monitors Current, Voltage, Temperature
Secondary Attributes
1 ~ 12 Cell- Li-Ion, 1 ~ 12 Cell- NiMH
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Embedded
-
19-5192; Rev 0; 6/10
The MAX11068 is a programmable, highly integrated,
high-voltage, 12-channel, battery-monitoring smart data-
acquisition interface. It is optimized for use with batter-
ies used in automotive systems, hybrid electric battery
packs, electric cars, and any system that stacks long
series strings of secondary metal batteries. This highly
integrated battery sensor incorporates a simple state
machine and a high-speed I
serial communication.
The MAX11068 analog front-end combines a 12-channel
voltage measurement data-acquisition system with a high-
voltage switch bank input. All measurements are done
differentially across each cell. The full-scale measurement
range is from 0 to 5.0V, with full stated accuracy guaran-
teed from 0.5V to 4.7V. The input mux/switch bank allows
for differential measurement of each cell in a series stack.
A high-speed, 12-bit successive approximation (SAR) A/D
converter is used to digitize the cell voltages. All 12 cells
can be measured in less than 107Fs. The MAX11068 uses
a two-scan approach for collecting cell measurements
and correcting them for errors. The first phase of the scan
is the acquisition phase where the voltages of all 12 cells
are acquired. The second phase is the error-cancellation
phase where the ADC input is chopped to remove errors.
This two-phase approach yields excellent accuracy over
temperature and in the face of extreme noise in the sys-
tem. The MAX11068 incorporates an internal oscillator that
generates a 6.0MHz system clock with Q3.0% accuracy.
The MAX11068 consumes less than 2.0mA from the power
supply while in data-acquisition modes. This current is
reduced to 75FA in standby mode and less than 1FA in
shutdown mode. The device is packaged in a 38-pin,
9.7mm x 4.4mm x 1.0mm TSSOP package that is lead free
and RoHS compliant and is designed to operate over the
AEC-Q100 Grade 2, -40NC to +105NC temperature range.
SMBus is a trademark of Intel Corp.
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,
or visit Maxim’s website at www.maxim-ic.com.
High-Voltage, Multicell Series-Stacked-Battery
Systems
Electric and Hybrid Electric Vehicle (HEV)
Battery Packs
Electric Bikes
High-Power Battery Backup Systems
SuperCap Backup Systems
Power Tools
_______________________________________________________________ Maxim Integrated Products 1
12-Channel, High-Voltage Sensor, Smart
General Description
2
C bus for SMBusK-laddered
Applications
Data-Acquisition Interface
S 12-Cell Battery Voltage Measurement with
S High-Accuracy I/Os
S Integrated 12-Channel Data-Acquisition System
S Battery-Fault Detection
S 12 Integrated Cell-Equalization Switches
S Integrated 6V to 70V Input Linear Regulator
S Integrated 25ppm/NC, 2.5V Precision Reference
S Integrated Level-Shifted, I
S Three General-Purpose Digital I/O Lines
S Ultra-Low Power Dissipation
S Operating Temperature Range from -40NC to
S 38-Pin, Lead-Free/RoHS-Compliant TSSOP
+Denotes a lead(Pb)-free/RoHS-compliant package.
/V Denotes an automotive qualified part.
MAX11068GUU+
MAX11068GUU/V+
Temperature Monitoring
+105NC (AEC-Q100 Grade 2)
Package (9.7mm x 4.4mm)
Up to 12 Lithium-Ion (Li+), NiMH, or Super-Cap
Cells
Two Auxiliary Analog Inputs for Temperature
Measurement
Excellent ±0.25% Voltage-Measurement
Accuracy
≤ 5mV Offset Voltage
12-Channel High-Voltage Mux to ADC
Differential Cell-Voltage Measurement
12-Bit Precision, High-Speed SAR ADC
12 Cell Voltages Measured Within 107µs
Overvoltage and Undervoltage Digital Threshold
Detection
Cell Sense Line Open-Circuit Detection
High/Low Temperature Digital Threshold
Detection
Support Up to 200mA
Ladder Interface
Supports Multiple Devices, Up to 31 SMBus-
Ladder-Connected ICs
Communications Protocol with Autoaddressing
Fault-Tolerant Hardware Handshake and Data
CRC Checking
Standby Mode Quiescent Current Drain 75µA
Shutdown Mode Leakage Current 1µA
PART
-40NC to +105NC 38 TSSOP
-40NC to +105NC 38 TSSOP
Ordering Information
TEMP RANGE
2
C-Compliant SMBus
PIN-PACKAGE
Features

Related parts for MAX11068EVKIT+

Image
Part Number
Description
Manufacturer
Datasheet
Request R
MAX110
Part Number:
MAX110
Description:
Low-Cost / 2-Channel / 14-Bit Serial ADCs
Manufacturer:
Maxim
Datasheet:
MAX110.pdf (24 pages)
MAX7528KCWP
Part Number:
MAX7528KCWP
Description:
MAX7528KCWPMaxim Integrated Products [CMOS Dual 8-Bit Buffered Multiplying DACs]
Manufacturer:
Maxim Integrated Products
Datasheet:
MAX7528KCWP.pdf (12 pages)
MAX3261CCJ
Part Number:
MAX3261CCJ
Description:
Single +5V, fully integrated, 1.25Gbps laser diode driver.
Manufacturer:
Maxim Integrated Products
Datasheet:
MAX3261CCJ.pdf (12 pages)
MAX3263CAG
Part Number:
MAX3263CAG
Description:
Single +5V, fully integrated, 155Mbps laser diode driver.
Manufacturer:
Maxim Integrated Products
Datasheet:
MAX3263CAG.pdf (12 pages)
MAX8809AETL+
Part Number:
MAX8809AETL+
Description:
VRD11/VRD10, K8 Rev F 2/3/4-Phase PWM Controllers with Integrated Dual MOSFET Drivers
Manufacturer:
Maxim Integrated Products
Datasheet:
MAX8809AETL.pdf (50 pages)
MAX1535CETJ+T
Part Number:
MAX1535CETJ+T
Description:
Highly Integrated Level 2 SMBus Battery Chargers
Manufacturer:
Maxim Integrated Products
Datasheet:
MAX1535CETJT.pdf (39 pages)
DS2741N+
Part Number:
DS2741N+
Description:
Current Monitor and Accumulator with Integrated Sense Resistor; ; Temperature Range: -40°C to +85°C
Manufacturer:
Maxim Integrated Products
MAX13450EAUD+T
Part Number:
MAX13450EAUD+T
Description:
TSSOP 14/A°/RS-485 Transceivers with Integrated 100O/120O Termination Resis
Manufacturer:
Maxim Integrated Products
MAX13451EAUD+T
Part Number:
MAX13451EAUD+T
Description:
TSSOP 14/A°/RS-485 Transceivers with Integrated 100O/120O Termination Resis
Manufacturer:
Maxim Integrated Products
MAX17497BATE+
Part Number:
MAX17497BATE+
Description:
QFN 16/A°/AC-DC and DC-DC Peak-Current-Mode Converters with Integrated Step
Manufacturer:
Maxim Integrated Products
MAX17502FATB+T
Part Number:
MAX17502FATB+T
Description:
TDFN/A/65V, 1A, 600KHZ, SYNCHRONOUS STEP-DOWN REGULATOR WITH INTEGRATED SWI
Manufacturer:
Maxim Integrated Products
MAX1978EVKIT
Part Number:
MAX1978EVKIT
Description:
Integrated Temperature Controller f
Manufacturer:
Maxim Integrated Products
MAX2606EUT+
Part Number:
MAX2606EUT+
Description:
SOT23-6/I°/45MHz to 650MHz, Integrated IF VCOs with Differential Output
Manufacturer:
Maxim Integrated Products
MAX2608EUT+
Part Number:
MAX2608EUT+
Description:
SOT23-6/I°/45MHz to 650MHz, Integrated IF VCOs with Differential Output
Manufacturer:
Maxim Integrated Products
MAX2831EVKIT+
Part Number:
MAX2831EVKIT+
Description:
EVALUATION KIT/2.4GHZ TO 2.5GHZ 802.11G/B RF TRANSCEIVER WITH INTEGRATED PA
Manufacturer:
Maxim Integrated Products

MAX11068EVKIT+ Summary of contents

Page 1

... High-Power Battery Backup Systems SuperCap Backup Systems Power Tools SMBus is a trademark of Intel Corp. _______________________________________________________________ Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. Data-Acquisition Interface S 12-Cell Battery Voltage Measurement with ...

Page 2

High-Voltage Sensor, Smart Data-Acquisition Interface ABSOLUTE MAXIMUM RATINGS HV, VDD U , GND U , DCIN to AGND ......................-0.3V to +80V HV to C12 ................................................................-0.3V to +6V C1–C12 to AGND ......................................-0. C(N+1) to C(N) .....................................................-0.3V to +9.0V ...

Page 3

High-Voltage Sensor, Smart ELECTRICAL CHARACTERISTICS (continued unless otherwise noted MIN MAX specified from -40NC to +105NC per the application circuit in Figure 4.) PARAMETER SYMBOL Differential Nonlinearity Channel Offset Error CELLV ...

Page 4

High-Voltage Sensor, Smart Data-Acquisition Interface ELECTRICAL CHARACTERISTICS (continued unless otherwise noted MIN MAX specified from -40NC to +105NC per the application circuit in Figure 4.) PARAMETER SYMBOL LINEAR REGULATOR +3.4V (VAA) ...

Page 5

High-Voltage Sensor, Smart ELECTRICAL CHARACTERISTICS (continued unless otherwise noted MIN MAX specified from -40NC to +105NC per the application circuit in Figure 4.) PARAMETER SYMBOL UPPER PORT SCL ...

Page 6

High-Voltage Sensor, Smart Data-Acquisition Interface ELECTRICAL CHARACTERISTICS (continued unless otherwise noted MIN MAX from -40NC to +105NC per the application circuit in Figure 4.) PARAMETER SLAVE PORT SDA Data Setup Time ...

Page 7

High-Voltage Sensor, Smart TOP VIEW DCIN VDD GND SCL SDA ALRM GPIO2 GPIO1 GPIO0 VDD GND SDA ALRM SHDN AUXIN2 PIN NAME DC Power-Supply Input. DCIN supplies the internal 3.4V regulator, which provides low-voltage power to the 1 DCIN ...

Page 8

High-Voltage Sensor, Smart Data-Acquisition Interface PIN NAME Upper Port Alarm Input. Overvoltage, undervoltage, over/undertemperature, cell mismatch, and 8 ALRM communication fault. The alarm signal is laddered. This signal is referenced to VDD U this signal to VDD 9 N.C. ...

Page 9

High-Voltage Sensor, Smart PIN NAME 30 C5 Cell 6 Minus Connection and Cell 5 Plus Connection 31 C6 Cell 7 Minus Connection and Cell 6 Plus Connection 32 C7 Cell 8 Minus Connection and Cell 7 Plus Connection 33 ...

Page 10

High-Voltage Sensor, Smart Data-Acquisition Interface CELL- HIGH- BALANCING VOLTAGE SWITCHES C12 C11 C10 AUXIN2 AUXIN1 AGND Figure 2. Analog Front-End Block Diagram 10 MUX INSTR AMP SELF- DIAGNOSTIC REF ...

Page 11

High-Voltage Sensor, Smart HV DCIN C12 9V C11 C10 MATCH OTHER INPUTS AGND NOTE: ALL DIODES ARE RATED FOR ESD CLAMPING CONDITIONS. THEY ARE NOT INTENDED TO ACCURATELY CLAMP DC ...

Page 12

High-Voltage Sensor, Smart Data-Acquisition Interface MODULE N+1 MODULE N+1 GND CELL STACK REFERENCE MODULE- (N+1) A KELVIN CONNECTION IS OPTIONAL FOR THE DCIN TAKEOFF IN HIGH-CURRENT APPLICATIONS. SEE THE NOISE TOLERANCE SECTION FOR DETAILS. MODULE+ (N) 22I FUSE 22I ...

Page 13

High-Voltage Sensor, Smart MODULE+ (N) CELL 8 CELL 7 CELL 6 CELL 5 CELL 4 CELL 3 CELL 2 CELL 1 MODULE- (N) Figure 5. Simplified Operating Circuit Diagram for an 8-Cell System Data-Acquisition Interface C12 ...

Page 14

High-Voltage Sensor, Smart Data-Acquisition Interface Detailed Description The MAX11068 has two auxiliary analog inputs that can be used to measure external resistance temperature detector (RTD) components. A negative temperature coefficient (NTC) RTD can be configured with the AUXIN1 or ...

Page 15

High-Voltage Sensor, Smart Battery Pack Architectures Battery packs are designed in a modular fashion to allow for multiple configurations, and fast and flexible assem- bly. This reduces cost by streamlining the build or repair process. The definition of a ...

Page 16

High-Voltage Sensor, Smart Data-Acquisition Interface MODULE MODULE N+1 CELL N+1 GND STACK REFERECNCE ALRM VDD U MODULE - (N+1) HV DCIN C12 C11 MODULE + (N) CELL 12 CELL 11 CELL 10 CELL 9 CELL 8 CELL 7 CELL ...

Page 17

High-Voltage Sensor, Smart MOTOR DRIVE+ COMM BUS MOTOR DRIVE- Figure 7. Electric Vehicle System PACK INVERTER+ INVERTER+ SWITCHES VEHICLE 12V PWR VEHICLE GND COMM BUS PACK INVERTER- SWITCHES Figure 8. Distributed Communication Battery Pack Data-Acquisition Interface CONN VEHICLE 12V ...

Page 18

High-Voltage Sensor, Smart Data-Acquisition Interface PACK INVERTER+ INVERTER+ SWITCHES VEHICLE 12V PWR VEHICLE GND CONTROLLER COMM BUS PACK INVERTER- SWITCHES Figure 9. SMBus-Laddered Battery Module Communication 18 SLAVE MONITOR STUB AND CONTROL SLAVE MONITOR AND CONTROL SLAVE MONITOR MASTER ...

Page 19

High-Voltage Sensor, Smart Battery-Management System (BMS) The BMS in an electric vehicle monitors cell voltage, pack current, and temperature. The BMS is composed of two components. The first is the master controller of the system that handles all communication ...

Page 20

High-Voltage Sensor, Smart Data-Acquisition Interface B12+ B11+ B10+ B9+ B8 16.97µ STROBE POINT 0 Figure 10. Cell-Scanning Timing The second stage in the channel-scanning process is the correction phase, where the front-end amplifier chops ...

Page 21

High-Voltage Sensor, Smart For every module in the battery pack, a 1Fs communi- cation delay is incurred while the scan command is for- warded up the SMBus ladder. Therefore, the difference in the scan completion time from the first ...

Page 22

High-Voltage Sensor, Smart Data-Acquisition Interface For the example with four modules and 12 cells per mod- ule, the total READALL bit count would be 120 bits per cell or 1440 bits for all 12 cells 200kHz I ...

Page 23

High-Voltage Sensor, Smart Alerts may be enabled on a per-cell basis. Local enable bits OVEN and UVEN are found in each cell’s data reg- ister (addresses 0x20 to 0x2B). These bits are mapped to the equivalent bits of the ...

Page 24

High-Voltage Sensor, Smart Data-Acquisition Interface Table 1. Cell-Balancing Circuit Parameter Variation CELL NAME MIN R 5 4.1 CELL I 308 BALANCE FILTER 3435 3dB t 0 N+1 (Note 1) ...

Page 25

High-Voltage Sensor, Smart Protection from Open-Cell Faults There are two methods of protecting the MAX11068 from damage due to an open circuit occurring in a series bat- tery stack external fuse placed in series with the internal ...

Page 26

High-Voltage Sensor, Smart Data-Acquisition Interface F1 R BIAS1 GATE D CLAMP F2 R BIAS2 Figure 17. External Cell-Balancing Circuit with a MOSFET Transistor Cell-Balancing Watchdog Timeout The MAX11068 implements a watchdog-style timeout feature for the ...

Page 27

High-Voltage Sensor, Smart for a hot-swap insertion of the battery cells. Once the POR threshold is reached, the internal RESET signal disables. A status bit, RSTSTAT in the STATUS register (address 0x02), is set when power is restored to ...

Page 28

High-Voltage Sensor, Smart Data-Acquisition Interface REGULATOR DISABLED VOLTAGE APPLIED TO DCIN CHECK SHDN CHECK DIE TEMPERATURE REGULATOR ENABLED CHECK VAA Figure 20. Power-Up Sequence Figure 21. Asynchronous Regulator Disable Events 28 SHDN ACTIVE DIE TEMP > +145°C VAA < ...

Page 29

High-Voltage Sensor, Smart Figure 22. Power-On-Reset Event Sequence HV VDD U CP+ GND U CP- DCIN SHDN VAA VDD L SCL L LOWER SDA INTERFACE ALRM L GND L AGND Figure 23. Detailed View of ...

Page 30

High-Voltage Sensor, Smart Data-Acquisition Interface DCIN Pin Application Circuit The DCIN pin is the input to the linear regulator. For maximum performance, it should be protected from any overvoltage conditions and also properly decoupled for peak transient current demands ...

Page 31

High-Voltage Sensor, Smart Care must be taken when selecting the AINCFG settling time value if the load on VDD is more than that speci- U fied by the typical application circuit diagrams. During the entire measurement cycle, the charge ...

Page 32

High-Voltage Sensor, Smart Data-Acquisition Interface Self-Diagnostics The MAX11068 incorporates the capability to check the health of its internal voltage reference and regula- tor output. The results are stored in the DIAG register. Conversions are enabled by setting the DIAGEN ...

Page 33

High-Voltage Sensor, Smart Noise Tolerance High-power batteries are often used in noisy environ- ments subject to high dv/dt supply noise and EMI noise. For example, the supply noise of a power inverter driving a high-horsepower motor produces a large ...

Page 34

High-Voltage Sensor, Smart Data-Acquisition Interface 2 Table Register Map REGISTER REGISTER ADDRESS NAME MANAGEMENT FUNCTIONS 0x00 VERSION 0x01 ADDRESS 0x02 STATUS 0x03 ALRTCELL 0x04 ALRTOVCELL 0x05 ALRTUVCELL 0x06 ALRTOVEN 0x07 ALRTUVEN 0x08 ADCCFG 0x09 CELLEN 0x0A ...

Page 35

High-Voltage Sensor, Smart 2 Table Register Map (continued) REGISTER REGISTER ADDRESS NAME SUMMARY AND ALERT FUNCTIONS 0x10 TOTAL 0x11 MAXCELL 0x12 MINCELL 0x18 OVTHRCLR 0x19 OVTHRSET 0x1A UVTHRSET 0x1B UVTHRCLR 0x1C MSMTCH 0x1E AINOT 0x1F AINUT ...

Page 36

High-Voltage Sensor, Smart Data-Acquisition Interface The MAX11068 contains 38 registers that control and report the operational status of the device (see Tables 5 through 34). Table 5. VERSION—IC Version Register Description (Address 0x00) BIT NAME D15 0 D14 0 ...

Page 37

High-Voltage Sensor, Smart Table 7. STATUS Register Description (Address 0x02) BIT NAME Reset Status: RSTSTAT = 1 after a power-reset event. Clear RSTSTAT to 0 after power-up and after a suc- D15 RSTSTAT cessful HELLOALL command to detect any ...

Page 38

High-Voltage Sensor, Smart Data-Acquisition Interface Table 7. STATUS Register Description (Address 0x02) (continued) BIT NAME Write ignored; read back AIN1 Fault: Indicates a fault condition (over- or undertemperature) ...

Page 39

High-Voltage Sensor, Smart Table 9. ALRTOVCELL—Per-Cell Overvoltage Alert Register Description (Address 0x04) BIT NAME D15 0 D14 0 D13 0 D12 0 D11 ALRTOV12 D10 ALRTOV11 D9 ALRTOV10 D8 ALRTOV9 D7 ALRTOV8 D6 ALRTOV7 D5 ALRTOV6 D4 ALRTOV5 D3 ...

Page 40

High-Voltage Sensor, Smart Data-Acquisition Interface Table 11. ALRTOVEN—Per-Cell Overvoltage Alert Enable Register Description (Address 0x06) BIT NAME D15 0 D14 0 D13 0 D12 0 D11 OVALRTEN12 D10 OVALRTEN11 D9 OVALRTEN10 D8 OVALRTEN9 D7 OVALRTEN8 D6 OVALRTEN7 D5 OVALRTEN6 ...

Page 41

High-Voltage Sensor, Smart Table 13. ADCCFG—ADC Configuration Register Description (Address 0x08) BIT NAME Start conversions scan set with 1 to initiate an ADC scan of the enabled cell channels. A new measurement scan is initiated as long as the ...

Page 42

High-Voltage Sensor, Smart Data-Acquisition Interface Table 14. CELLEN—Cell-Scan Enable Register Description (Address 0x09) BIT NAME D15 0 D14 0 Write ignored; read back 0. D13 0 D12 0 D11 CELL12EN D10 CELL11EN D9 CELL10EN D8 CELL9EN D7 CELL8EN Cell ...

Page 43

High-Voltage Sensor, Smart Table 16. BALCFG—Cell-Balancing Configuration Register Description (Address 0x0B) BIT NAME D15 0 D14 0 Write ignored; read back 0. D13 0 D12 0 D11 BAL12 D10 BAL11 D9 BAL10 D8 BAL9 Cell-Balancing/Discharge Switch Enable: D7 BAL8 ...

Page 44

High-Voltage Sensor, Smart Data-Acquisition Interface Table 17. ACQCFG—Acquisition Configuration Register Description (Address 0x0C) (continued) BIT NAME D5 AINCFG5 Auxiliary Analog Input-Acquisition Time Configuration: D4 AINCFG4 Custom acquisition settling time for AUXIN1/AUXIN2. The auxiliary analog channels acquisition settling time can ...

Page 45

High-Voltage Sensor, Smart Table 19. FMEA—Failure-Mode Effects Analysis Status and Control Register Description (Address 0x0E) BIT NAME Charge-Pump Undervoltage Alarm Enable Mask: D15 ALRMCPUV Set ALRMCPUV = 1 to force a charge-pump alert, ALRTCPUV, to generate an alarm. Set ...

Page 46

High-Voltage Sensor, Smart Data-Acquisition Interface Table 20. BROADCAST ADDRESS—Broadcast Address Register Description (Address 0x0F) BIT NAME D15 0 D14 0 D13 0 D12 0 D11 0 D10 BRDCST7 D6 BRDCST6 D5 BRDCST5 D4 ...

Page 47

High-Voltage Sensor, Smart Table 22. MAXCELL—Maximum Cell Reading Register Description (Address 0x11) BIT NAME D15 D11 D14 D10 D13 D9 D12 D8 D11 D7 D10 D6 12-bit ADC conversion result of the highest cell-voltage reading ...

Page 48

High-Voltage Sensor, Smart Data-Acquisition Interface Table 24. OVTHCLR—Overvoltage Clear Threshold Register Description (Address 0x18) BIT NAME D15 D11 D14 D10 D13 D9 D12 D8 12-bit limit for the reset threshold of overvoltage-alert detection. An alert that is issued when ...

Page 49

High-Voltage Sensor, Smart Table 26. UVTHRSET—Undervoltage Set Threshold Register Description (Address 0x1A) BIT NAME D15 D11 D14 D10 D13 D9 D12 D8 12-bit limit for the triggering threshold of undervoltage-alert detection. An alert for a given cell D11 D7 ...

Page 50

High-Voltage Sensor, Smart Data-Acquisition Interface Table 28. MSMTCH—Cell Mismatch Threshold Register Description (Address 0x1C) BIT NAME D15 D11 D14 D10 D13 D9 D12 D8 12-bit threshold limit for mismatch alert. If: D11 D7 MAXCELL - MINCELL > MSMTCH D10 ...

Page 51

High-Voltage Sensor, Smart Table 30. AINUT—Auxiliary Analog Input Undertemperature Threshold Register Description (Address 0x1F) PIN NAME D15 D11 D14 D10 D13 D9 12-bit threshold limit for an overvoltage alert on the AIN0 and AIN1 inputs. When the auxiliary D12 ...

Page 52

High-Voltage Sensor, Smart Data-Acquisition Interface Table 32. AIN1—Auxiliary Analog Input 1 Data Register Description (Address 0x40) PIN NAME D15 D11 D14 D10 D13 D9 D12 D8 D11 D7 D10 D6 12-bit ADC conversion result on the AUXIN1 channel. D9 ...

Page 53

High-Voltage Sensor, Smart Table 34. DIAG—Diagnostic Data Register Description (Address 0x44) PIN NAME D15 D11 D14 D10 D13 D9 12-bit ADC conversion result on the diagnostic data value. This diagnostic tests the toler- D12 D8 ance of the reference, ...

Page 54

High-Voltage Sensor, Smart Data-Acquisition Interface TO TOP OF STACK OR BOTTOM OF UPPER NEIGHBOR STACK GND U DCIN CP+ CP- GND GND AGND GND L 2 Figure 28 Physical Interface Block Diagram MASTER ...

Page 55

High-Voltage Sensor, Smart Each port contains a bidirectional SDA pin with managed internal pullup drivers. The SCL pin for the lower slave port is an input only, while the upper port master SCL pin has a 1kω pullup driver. ...

Page 56

High-Voltage Sensor, Smart Data-Acquisition Interface 2 Table 35 Command List FUNCTION This command sets the device address of the first part in the chain. All other parts in the chain are then assigned an automatically incremented HELLOALL ...

Page 57

High-Voltage Sensor, Smart 2 I Protocol Descriptions The following conventions are used in the description of the command protocols. Binary values are prefixed with the notation 0b, e.g., 0b11101000. Hexadecimal values are prefixed by the notation ...

Page 58

High-Voltage Sensor, Smart Data-Acquisition Interface HELLOALL Command The purpose of the HELLOALL command is to initialize the device stack and assign a unique device address to each MAX11068 in the SMBus ladder. It should be issued after any power ...

Page 59

High-Voltage Sensor, Smart SCL SDA SCL SDA LOW BYTE DEVICE 1 SCL SDA LOW BYTE DEVICE 2 SEQUENCE REPEATS. TWO BYTES ARE RETURNED FOR EVERY DEVICE IN THE STACK. SCL SDA ...

Page 60

High-Voltage Sensor, Smart Data-Acquisition Interface The ROLLCALL command is formatted like the READALL cycle format. First, the broadcast address is sent on the bus address byte with the R/Wb bit configured as a write. ...

Page 61

High-Voltage Sensor, Smart BUS LINK BUS FORWARDING DATA STREAM HOST TO IC1 S B[7:1]+ B[7:1]+W A IC1 TO IC2 IC2 TO IC3 S B[7:1]+W IC3 TO IC4 S B[7:1]+W IC4 TO ...

Page 62

High-Voltage Sensor, Smart Data-Acquisition Interface low data byte and then the upper data byte follow the command byte. Finally, the PEC is sent and a stop event ends the communication sequence. Figure 35 shows the communication ...

Page 63

High-Voltage Sensor, Smart WRITEDEVICE Command This command allows a register in a specific device within the SMBus ladder to be written similar to the WRITEALL command except that the I contains the fixed MSbs 0b10, followed by ...

Page 64

High-Voltage Sensor, Smart Data-Acquisition Interface READALL Command This command is used to retrieve register information from the stack of devices and it is the only way to read register values (except for the ADDRESS register, which is handled by ...

Page 65

High-Voltage Sensor, Smart SMBus ladder. Host processor efficiency is improved as a result. In addition, an ALRTPEC condition can be con- figured to generate an alarm on the alarm bus by setting the ALRMPEC bit. This alarm can be ...

Page 66

High-Voltage Sensor, Smart Data-Acquisition Interface SCL U SDA SCL L t HD-STA SDA L t BUF 2 Figure 41 Lower and Upper Port Timing Diagrams Port Timing Diagrams Figure ...

Page 67

High-Voltage Sensor, Smart Table 37. Data Check Byte Definition BIT NAME 7 ALRM Set if the device alarm condition, meaning the ALRML pin is high Unused, read Unused, read as ...

Page 68

High-Voltage Sensor, Smart Data-Acquisition Interface an 8-bit pipeline is shown for all parts of the circuit. The MSB of the remainder controls a mux to select which operation is performed on the left-shifted version of the remainder byte. Once ...

Page 69

High-Voltage Sensor, Smart BUS LINK BUS FORWARDING DATA STREAM HOST TO IC1 S Figure 43. Example WRITEALL Bit Stream Prior to PEC Transmission Power-On-Reset (POR) Event A VAA voltage below the POR threshold ...

Page 70

High-Voltage Sensor, Smart Data-Acquisition Interface The topmost device in an SMBus ladder stackup is responsible for generating the heartbeat signal when it is not in an active alarm state and after the RSTSTAT bit has been cleared. The last ...

Page 71

High-Voltage Sensor, Smart Table 38. Alert Bits with Descriptions and Corresponding Alarm Mask Bits ALERT STATUS BIT ALERT (REGISTER.BIT) DESCRIPTION Device reset STATUS.RSTSTAT occurred Overvoltage was STATUS.ALRTOV detected for at least one cell Undervoltage was STATUS.ALRTUV detected for at ...

Page 72

High-Voltage Sensor, Smart Data-Acquisition Interface Table 38. Alert Bits with Descriptions and Corresponding Alarm Mask Bits (continued) ALERT STATUS BIT ALERT (REGISTER.BIT) DESCRIPTION Auxiliary analog input 0 is outside STATUS.ALRTAIN1 one of the set thresholds Specifies whether each cell ...

Page 73

High-Voltage Sensor, Smart Shutdown Control The SHDN pin of the MAX11068 is connected in a man- ner that allows the shutdown/wakeup command to trickle up through the series of SMBus-laddered packs. The propagation time is on the order of ...

Page 74

High-Voltage Sensor, Smart Data-Acquisition Interface MAX11068 FULLY FUNCTIONAL SEND HELLOALL COMMAND NACK ACK? ACK SEND ROLLCALL COMMAND NACK ACK? ACK RECEIVE SLAVE DATA UNTIL CONSECUTIVE 0xFF BYTES, THEN NACK THE SLAVE HOST CALCULATES NUMBER OF MODULES Figure 47. Communication ...

Page 75

High-Voltage Sensor, Smart After the SMBus ladder modules are configured for com- munication, they should be configured for operation: 1) Perform a READALL to check device status: a) The RSTSTAT bit should be set in all devices to signify ...

Page 76

High-Voltage Sensor, Smart Data-Acquisition Interface MAX11068 COMMUNICATION INITIALIZED HOST STORES ORIGINAL BROADCAST SEND NEW BROADCAST ADDRESS WITH WRITEALL COMMAND TO ADDRESS 0x0F PROPER ACKs? SEND ROLLCALL COMMAND USING NEW ADDRESS PROPER ACKs? HOST CALCULATES NUMBER OF MODULES MODULE COUNT ...

Page 77

High-Voltage Sensor, Smart Failure Mode and Effects Analysis High-voltage battery-pack systems can be subjected to severe stresses during in-service fault conditions and could experience similar conditions during the manufacturing and assembly process. The MAX11068 is designed with high regard ...

Page 78

High-Voltage Sensor, Smart Data-Acquisition Interface Table 40. Failure-Mode Effects Analysis PIN NAME ACTION Open or disconnected 1 DCIN Short to pin 2 Open or disconnected 2 CP+ Short to pin 3 Open or disconnected 3 CP- Short to pin ...

Page 79

High-Voltage Sensor, Smart Table 40. Failure-Mode Effects Analysis (continued) PIN NAME ACTION Open or disconnected 11 GPIO1 Short to pin 12 Open or disconnected 12 GPIO0 Short to pin 13 Open or disconnected 13 VDD L Short to pin ...

Page 80

High-Voltage Sensor, Smart Data-Acquisition Interface Table 40. Failure-Mode Effects Analysis (continued) PIN NAME ACTION Open or disconnected 21 AUXIN1 Short to pin 22 Open or disconnected 22 REF Short to pin 23 Open or disconnected 23 AGND Short to ...

Page 81

High-Voltage Sensor, Smart Table 40. Failure-Mode Effects Analysis (continued) PIN NAME ACTION Open or disconnected 31 C6 Short to pin 32 Open or disconnected 32 C7 Short to pin 33 Open or disconnected 33 C8 Short to pin 34 ...

Page 82

... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 82 2010 Maxim Integrated Products © ...

Related keywords