Atmel ATA6264 - Manuals

6 4929B–AUTO–01/07 ATA6264 [Preliminary] 3. Absolute Maximum Ratings Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions beyond those indicated in ...

8 4929B–AUTO–01/07 ATA6264 [Preliminary] 4. Functional Range Within the functional range, the ATA6264 works as specified. All voltages are referenced to theideal ground level of an ECU connected to the GNDA, GNDB and GNDD pins. At the beginning of each specification table, supply voltage and tempera...

9 4929B–AUTO–01/07 ATA6264 [Preliminary] 4.1 Protection Against Substrate Currents Due to the fact that the ATA6264 is connected to the wiring harness and to components outsideof the ECU, negative voltages at the following pins might occur: • IASG interface: IASG1, IASG2, IASG3, IASG4, IASG5 • USP c...

10 4929B–AUTO–01/07 ATA6264 [Preliminary] 5. Supply Currents A minimum current has to flow into each pin for proper functioning of the IC. Table 5-1. Electrical Characteristics – Supply currents No. Parameters Test Conditions Pin Symbol Min. Typ. Max. Unit Type* 2.1 Supply current at K30 Standby mod...

11 4929B–AUTO–01/07 ATA6264 [Preliminary] 5.1 Discharger Circuit Applications using the ATA6264 usually use a reverse polarity protection diode (D1 in Figure 5-1 ) in the power supply to prevent any damage if the wrong polarity is applied to V K30 . Unfortu- nately, this method includes some risk as...

12 4929B–AUTO–01/07 ATA6264 [Preliminary] The following settings can be made at the initial programming: MSBit LSBit VR1 VR2 VR3 VR4 EXT ISO/LIN Parity Lock bit Table 5-2. Initial Programming Settings VR1 VR2 VR3 VR4 VCORE VPERI VSAT 0 0 0 0 All regulators deactivated (default) 0 0 0 1 1.88V 3.3V 7....

13 4929B–AUTO–01/07 ATA6264 [Preliminary] The IP data is valid only if the parity is odd. If the IP data is not valid, or if the lock bit is not set,the programming will not be executed. Figure 5-2. Programming Sequence Remove all voltages and pinloads to get out of Test mode Transmit IP command A9x...

14 4929B–AUTO–01/07 ATA6264 [Preliminary] 5.3 Start-up and Power-down Procedure The ATA6264 is powered via the pin K30 (battery voltage) and via a diode or a resistor it is con-nected to the ignition key line K15. In order to detect an interruption on one of these pinscorrectly, resistors are implem...

15 4929B–AUTO–01/07 ATA6264 [Preliminary] Depending on the initial programming of the ATA6264, the start-up procedure takes place in dif-ferent phases. 5.3.1 Start-up Procedure if V VCORE is Programmed to Be 5V or 2.5V Phase1: After switching on the ignition key, K15 voltage will apply at pin K15. I...

16 4929B–AUTO–01/07 ATA6264 [Preliminary] Figure 5-4. Start-Up and Power-Down Procedure if V VCORE Programmed to Be 5V or 2.5V 5.3.3 Start-up Procedure if V VCORE Programmed to Be 1.88V Phase1: After switching on the ignition key, the K15 voltage will appear at pin K15. If, in addi-tion, the voltage...

17 4929B–AUTO–01/07 ATA6264 [Preliminary] 5.3.4 The Power-down Procedure for V VCORE is Programmed to be 1.88V Phase1: If the ignition key is switched off, the K15 voltage will vanish at pin K15. If the serialinterface command KEYLATCH is not set, the EVZ regulator stops working. The external charge...

18 4929B–AUTO–01/07 ATA6264 [Preliminary] 6. Power Supply Sequencing (Only active when initial programming sets V VCORE = 1.88V and V VPERI = 3.3V) I n o r d e r t o m e e t t h e r e q u i r e m e n t s o f s e v e r a l d u a l - v o l t a g e - s u p p l y m i c r o c o n t r o l l e r s , apower...

19 4929B–AUTO–01/07 ATA6264 [Preliminary] Figure 6-2. Block Diagram Power Supply Sequencing VEVZ V VSAT V VPERI Comp VEVZ K15GOOD V K15 = 3V to 4.15V (40 mV to 175mV Hysteresis) Serial interface (KEY - LATCH) VSAT VCP Comp VSATGOOD V SAT = 6.77V to 7.2V V CORE - Regulator (200 mV to 500 mV Hysteresi...

20 4929B–AUTO–01/07 ATA6264 [Preliminary] 7. Charge Pump To supply the VSAT and VCORE drivers, an external charge pump is provided. Both FETs (1) are driven by the high charge pump voltage V CP to ensure that they can be switched to a low-ohmic state. For correct function of the charge pump, an exte...

21 4929B–AUTO–01/07 ATA6264 [Preliminary] Necessary for operation:V EVZ = 5.5V to 40V or V K30 = 5.5V to 40V, V K15 > 3V, V VINT = 3.7V to 5.47V Operating conditions of all other supply pins:V VSAT , V VPERI and V VCORE are within functional range limits, T j = –40°C to 150°C Other pins:As define...

22 4929B–AUTO–01/07 ATA6264 [Preliminary] 8. GKEY Function The GKEY function is used to enable or disable the ECU via a powerless signal. If the voltage atpin K15 is larger than 3V to 4.15V, the charge pump and the EVZ regulator (for correct EVZfunction, the K30 pin has to be connected to the batter...

23 4929B–AUTO–01/07 ATA6264 [Preliminary] Figure 8-2. Application With High Current Switch (GKEY Function Not Used) Necessary for operation:V K15 = 3V to 40V, V K30 = 3.85V to 40V Operating conditions of all other supply pins:V EVZ , V SAT , V PERI and V CORE are within functional range limits, T j ...

24 4929B–AUTO–01/07 ATA6264 [Preliminary] 9. EVZ Step-up Regulator A boost converter generates the supply voltage for energy reserve and firing capacitors in thesystem. Using a voltage divider at pin FBEVZ, this voltage can be adjusted between 15V and40V. Thus, high-voltage charged capacitors will b...

25 4929B–AUTO–01/07 ATA6264 [Preliminary] Figure 9-2. EVZ Regulator With Internal Divider A draft formula for calculating the EVZ voltage, which is programmed by the external voltagedivider network at pin FBEVZ, is: The pins EVZ and FBEVZ have to be shorted in applications without an external divide...

29 4929B–AUTO–01/07 ATA6264 [Preliminary] Error Amplifier 8.32 Output current at pin COMEVZO sinking to low COMEVZO I COMEVZO 0.4 3 mA A 8.33 Output current at pin COMEVZO driving to high COMEVZO I COMEVZO –1000 –150 µA A 8.34 Input offset voltage –10 +10 mV D 8.35 DC open-loop gain 70 dB D 8.36 Uni...

30 4929B–AUTO–01/07 ATA6264 [Preliminary] 10. VSAT Power Supply A s t a b i l i z e d V S A T s u p p l y i s r e a l i z e d b y a b u c k c o n v e r t e r . A n e x t e r n a l i n d u c t a n c e i sPWM-switched with a frequency of 200 kHz via an internal high-side DMOS power transistor.The VSAT...

32 4929B–AUTO–01/07 ATA6264 [Preliminary] 9.15 Overcurrent switch-on time Time between reaching overcurrent and reaching 90% of V SVSAT maximum under on condition SVSAT t SVSAToff 0 0.5 µs A 9.16 Leakage current at pin SVSAT Output transistor off SVSAT I SVSAT –10 +10 µA A Error Amplifier 9.17 Maxim...

33 4929B–AUTO–01/07 ATA6264 [Preliminary] 11. VPERI Power Supply With the V PERI regulator a stabilized and ripple-free voltage is generated out of the VSAT supply voltage. This voltage is intended to be used for sensitive components, for example, sensors orreference inputs of A/D converters from mi...

35 4929B–AUTO–01/07 ATA6264 [Preliminary] 12. VCORE Power Supply The voltage of the VCORE regulator is generated out of the K30 voltage using a step-down reg-u l a t o r a s l o n g a s t h e K 3 0 v o l t a g e i s a v a i l a b l e . D u r i n g t i m e s w h e n K 3 0 i s n o t p r e s e n t(powe...

37 4929B–AUTO–01/07 ATA6264 [Preliminary] 11.12 Output transistor switch-off time Time between reaching0.1 × (V K30max – V VCOREmin ) and 0.9 × (V K30max – V VCOREmin ) or0.1 × (V EVZmax – V VCOREmin ) and0.9 × (V EVZmax – V VCOREmin ) SVCORE t SVCOREoff 150 ns A 11.13 Overvoltage at pin VCORE for s...

39 4929B–AUTO–01/07 ATA6264 [Preliminary] 13. USP Comparator for General Purpose The USP comparator is used for general purposes, for example, low battery detection. An exter-nal resistive voltage divider provides the input signal for pin USP. A missing USP connection orV USP < 2.44V sets the sta...

40 4929B–AUTO–01/07 ATA6264 [Preliminary] 14. Reference Voltage and Reference Current Generation The pin IREF is an output derived directly from the chip’s internal reference voltage. This refer-ence source is a band gap. All internally used precise voltages are derived from this band-gapvoltage. At...

43 4929B–AUTO–01/07 ATA6264 [Preliminary] The RESQ2 signal results from a logical AND of the Reset signal and an OK signal from thewatchdog circuitry, so RESQ2 will go high after the watchdog triggers correctly. RESQ and RESQ2 have to be set to low if V VPERI or V EVZ are below the specified thresho...

47 4929B–AUTO–01/07 ATA6264 [Preliminary] 16. Watchdog Function To verify the proper function of the microcontroller, watchdog logic is included. As the ATA6264is powered up, the RESQ2 signal stays low until the first valid watchdog trigger is detected. Features: • Watchdog trigger has to be done vi...

48 4929B–AUTO–01/07 ATA6264 [Preliminary] Requirements for successful trigger: • Minimum one valid different serial interface command between two trigger watchdog commands is necessary. Exception: First trigger watchdog command need not be preceded by a different serial interface command. • Cyclic r...

51 4929B–AUTO–01/07 ATA6264 [Preliminary] Configuration of watchdog trigger: F o r t h e c o n f i g u r a t i o n o f t h e w a t c h d o g p r e s c a l e r , a s p e c i a l s e r i a l i n t e r f a c e c o m m a n d i snecessary. Note: a, b, and c to be set as defined in Table 16-1 The status o...

54 4929B–AUTO–01/07 ATA6264 [Preliminary] 17. LIN/ISO 9141 Interfaces The ATA6264 includes two complete ISO 9141 interfaces. Interface #1 is controlled via the pinsRxD1 and TxD1, interface #2 is controlled via the pins RxD2 and TxD2. In order to support bothISO9141 and LIN bus requirements, interfac...

55 4929B–AUTO–01/07 ATA6264 [Preliminary] Table 17-1. Electrical Characteristics – LIN/ISO 9141 Interfaces No. Parameters Test Conditions Pin Symbol Min Typ. Max. Unit Type* General (Valid for All Modes) 16.1 Pull-up current to VPERI at pin TxD x (x = 1, 2) TxD x I TxDx –35 –50 –65 µA A 16.2 K x inp...

56 4929B–AUTO–01/07 ATA6264 [Preliminary] ISO 9141 Mode 16.23 Maximum baud rate K x f Kx 62.5 kBd A 16.24 Propagation delay TxD x = low to K x = low (x = 1, 2),measured from TxD x H to L to K x = 0.9 × V K30 R Kx = 510 Ω to K30, C Kx = 470 pF to GNDB K x t PDtL 1 µs A 16.25 Propagation delay TxD x =...

58 4929B–AUTO–01/07 ATA6264 [Preliminary] 18. Voltage/Current Sources (IASG x Sources) For a variable resistance measurement and especially for buckle-switch detection, five constantvoltage sources, switchable between two different voltages (V1 and V2) are implemented. Thecurrent delivered by these ...

59 4929B–AUTO–01/07 ATA6264 [Preliminary] Figure 18-1. Functional Principle of the IASG Interface Necessary for operation:V VCORE and V VPERI > Reset threshold, V EVZ = 9V to 40V for operation with IASGx switched to 5V V VCORE and V VPERI > Reset threshold, V EVZ = 15V to 40V for operation wit...

65 4929B–AUTO–01/07 ATA6264 [Preliminary] 20. UZP Buffer The pin UZP is an analog output pin of the ATA6264. The UZP buffer is realized as a tristate out-put with the ability to drive to VPERI as well as to GNDA. The selected measurement result isgiven to the pin UZP as long as no new measurement is...

67 4929B–AUTO–01/07 ATA6264 [Preliminary] 21. Chip Temperature Measurement A serial interface command allows measuring a chip-temperature–dependent voltage which isgenerated by two diodes connected in series. Three 2-diode sensors are connected in paralleland located in the following blocks: VPERI, ...

68 4929B–AUTO–01/07 ATA6264 [Preliminary] 22. Serial Interface Commands 22.1 Overview All functions of the ATA6264 are triggered by 16-bit serial interface commands. Some of thesecommands are latched because their actions have to continue for a longer time. Other com-mands have to be executed as lon...

70 4929B–AUTO–01/07 ATA6264 [Preliminary] Figure 22-1. Timing Serial Interface 22.2 Set Commands After a reset due to the watchdog or undervoltage, all internal control registers and decoded sig-nals are set to their default values. Serial interface commands other than those listed in Table 22-2 on ...

71 4929B–AUTO–01/07 ATA6264 [Preliminary] Because the K1 and K2 interfaces are by default switched to ISO (LIN) mode, the commands9CF0, 9CFF, 9C00, and 9C0F default to invalid commands. Table 22-3. Key Latch Commands Description MSByte LSByte Hex Code 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Key latch set 0 ...

73 4929B–AUTO–01/07 ATA6264 [Preliminary] Because the diagnosis commands are non-latching commands, any new serial interface com-mands, except watchdog triggering (6A55) and the Kx switching commands (9Cxx), interrupt thediagnosis. Note: a, b, and c represent the IASG number in binary format; only 0...

74 4929B–AUTO–01/07 ATA6264 [Preliminary] 22.3 Serial Interface Status Register For all serial interface commands except the test-mode commands (55AAh, AA55h, 5500h), theATA6264 status is available at the MISO line. For the status register a 16-bit structure is used,one bit for each information. Tab...

75 4929B–AUTO–01/07 ATA6264 [Preliminary] The overtemperature bits a5, a6 and a7 are latched when overtemperature is detected. Thesebits will be reset with the next SPI command, unless overtemperature still exists. In the case of a reset, bits b4 and b5 are not set to their default state. These bits...

77 4929B–AUTO–01/07 ATA6264 [Preliminary] 24. Application Circuits Figure 24-1. Overview of a Typical Airbag System COMSATO SVSAT COMEVZ FBEVZ VPERIFB VPERI VSAT COMSATI EVZ GNDB OCEVZ GEVZ K30 K15 K15 K1 CP-OUT CP K2 RESQ2 UZP RxD2 IASG1 to 5 USP IREF TxD2 RxD1 RESQ GNDD ISENS GNDA TxD1 COMCOO Seri...

78 4929B–AUTO–01/07 ATA6264 [Preliminary] Figure 24-2. Typical Application Circuit KL15 RESQ2 MISO RESQ MOSI KL30 K1 RxD1 TxD1 RxD2 TxD2 RESQ2 VINT MISO RESQ SSQ SCLK SSQ SCLK Cp K30 USP MOSI RxD1 TxD1 RxD2 UZP UZP CP-OUT CP-OUT IREF GNDB GNDD GND A K2 IASG3 IASG4 ISENS IASG5 IASG1 K1 TxD2 GEVZ EVZ ...

79 4929B–AUTO–01/07 ATA6264 [Preliminary] 26. Package Information 25. Ordering Information Extended Type Number Package Remarks ATA6264-ALTW P-TQFP44 Tray ATA6264-ALQW P-TQFP44 Taped and reeled specifications according to DIN technical drawings 10 ±0.05 12 ±0.2 8 12 22 44 34 33 0.2 23 1 11 0.8 Issue...

80 4929B–AUTO–01/07 ATA6264 [Preliminary] 27. Revision History Please note that the following page numbers referred to in this section refer to the specific revision mentioned, not to this document. Revision No. History 4929B-AUTO-01/07 • Put datasheet in a new template • Section 23 “Test Mode” on p...

81 4929B–AUTO–01/07 ATA6264 [Preliminary] 28. Table of Contents Features ..................................................................................................... 1 1 Description ............................................................................................... 1 1.1 Block D...