Low cost squib driver for airbag application

US 7,154,733 B2
Filed: 04/22/2004
Issued: 12/26/2006
Est. Priority Date: 03/30/2004
Status: Expired due to Fees

First Claim

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1. A circuit, realizing a driver device for secure and reliable firing of an igniter or squib, connecting said squib via a high-side electronic switch to a power source and via a low-side electronic switch to circuit ground, incorporating separate power supply parts for high voltage and low voltage domains and equipped with elaborate intrinsic diagnostics and online testing features for circuit protection and operation securing purposes, comprising:

a means for control of said firing, said diagnostics, and said online testing having a safing sensor signal input pin, four pins for voltage sense input signals, two pins for one pair of current control output signals, one pin for a driver control output signal and a ground pin;

a means for said high-side switching of said squib to said power source performing high-side switching transistor functions for said firing, for said diagnostics, and for said online testing;

a means for said low-side switching of said squib to said circuit ground performing low-side switching transistor functions for said firing, for said diagnostics, and for said online testing;

a means for providing said high voltage domain power supply;

a means for providing said low voltage domain power supply;

a means for secured supply of electrical energy to said means for said high-side switching derived from said high voltage domain;

a means for steered supply of currents to said means for said low-side switching derived from said low voltage domain and controlled by said pair of current control output signals;

a means for driving said high-side switching means for said squib controlled by said means for control of firing, diagnostic and online testing and supplying drive current to said high-side switching means either for the case of said diagnostic and online testing operations or for the case of said firing operation; and

a means for connecting said high-side switching means and said low-side switching means to said means for control of firing, diagnostic and online testing in order to execute said diagnostic measurement and online testing by said four voltage sense input signals whereby in said case of diagnostic and online testing operations a switchable and controllable current flow is initiated in conjunction with appropriate voltage measurements and resistance evaluations thereby strictly observing that no firing condition for said squib is allowed to occur and whereby in case of said firing operation a secure firing of said squib is always guaranteed.

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Abstract

A circuit and a method are given, to realize a very efficient driver device for igniters or squibs as used e.g. in airbag applications. Special attention has been turned to include secure and always reliable operating features into the device and at the same time to reach for a low-cost implementation with modern integrated circuit technologies. Controlled firing operation and sophisticated diagnostic mechanisms are realized. These design features have been acquired by use of current mirror circuit principles for the switching devices where appropriate and with special regard to production cost. Current trimming and limitation to secure values are part of the solution.

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36 Claims

1. A circuit, realizing a driver device for secure and reliable firing of an igniter or squib, connecting said squib via a high-side electronic switch to a power source and via a low-side electronic switch to circuit ground, incorporating separate power supply parts for high voltage and low voltage domains and equipped with elaborate intrinsic diagnostics and online testing features for circuit protection and operation securing purposes, comprising:
- a means for control of said firing, said diagnostics, and said online testing having a safing sensor signal input pin, four pins for voltage sense input signals, two pins for one pair of current control output signals, one pin for a driver control output signal and a ground pin;
  
  a means for said high-side switching of said squib to said power source performing high-side switching transistor functions for said firing, for said diagnostics, and for said online testing;
  
  a means for said low-side switching of said squib to said circuit ground performing low-side switching transistor functions for said firing, for said diagnostics, and for said online testing;
  
  a means for providing said high voltage domain power supply;
  
  a means for providing said low voltage domain power supply;
  
  a means for secured supply of electrical energy to said means for said high-side switching derived from said high voltage domain;
  
  a means for steered supply of currents to said means for said low-side switching derived from said low voltage domain and controlled by said pair of current control output signals;
  
  a means for driving said high-side switching means for said squib controlled by said means for control of firing, diagnostic and online testing and supplying drive current to said high-side switching means either for the case of said diagnostic and online testing operations or for the case of said firing operation; and
  
  a means for connecting said high-side switching means and said low-side switching means to said means for control of firing, diagnostic and online testing in order to execute said diagnostic measurement and online testing by said four voltage sense input signals whereby in said case of diagnostic and online testing operations a switchable and controllable current flow is initiated in conjunction with appropriate voltage measurements and resistance evaluations thereby strictly observing that no firing condition for said squib is allowed to occur and whereby in case of said firing operation a secure firing of said squib is always guaranteed.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
- - 2. The circuit according to claim 1 wherein said means for said high-side switching of said squib to said power source connects to one side of said squib and said means for said low-side switching of said squib to said circuit ground connects to the other side of said squib, thus forming a switchable squib firing branch between said power source and said circuit ground.
  - 3. The circuit according to claim 1 wherein said means for control of said firing, said diagnostic and said online testing is subdivided into a means for control of said firing and a means for said diagnostic and online testing.
  - 4. The circuit according to claim 1 wherein said means for said high-side switching of said squib to said power source is realized as a controllable electronic switch.
  - 5. The circuit according to claim 4 wherein said controllable electronic switch consists of one Field Effect Transistor (FET).
  - 6. The circuit according to claim 5 wherein said FET is of the NMOS type manufactured in CMOS technology.
  - 7. The circuit according to claim 1 wherein said means for said low-side switching of said squib to said circuit ground is implemented using a controllable electronic switch in current mirror configuration.
  - 8. The circuit according to claim 7 wherein said current mirror configuration consists of two FETs.
  - 9. The circuit according to claim 8 wherein said FETs are of the NMOS type manufactured in CMOS technology.
  - 10. The circuit according to claim 1 wherein said means for providing said high voltage domain power supply include generators and batteries from a vehicle as primary source with a voltage range of 15 V to 40V, and derived there-from separate secondary power sources implemented as charge pump devices operating in the same voltage range as said primary source.
  - 11. The circuit according to claim 10 wherein said means for providing said high voltage domain power supply also includes a controlled current source for said high-side switching device.
  - 12. The circuit according to claim 1 wherein said means for providing said low voltage domain power supply consist of separate power sources derived from generators and batteries from a vehicle as primary source with a voltage range of 15 V to 40V and operating within a reduced low voltage range of 3.3 V to 5V.
  - 13. The circuit according to claim 12 wherein said means for providing low voltage domain power supply also includes controlled current sources.
  - 14. The circuit according to claim 1 wherein said means for secured supply of electrical energy to said means for said high-side switching derived from said high voltage domain consists of a charge pump feeding a controlled current source.
  - 15. The circuit according to claim 1 wherein said means for steered supply of currents to said low-side switching means derived from said low voltage domain consists of said one pair of controlled current sources fed by voltages out of said low voltage domain for controlled current switching between different currents for current limiting and diagnostic testing purposes respectively.
  - 16. The circuit according to claim 15 wherein one current source of said pair of controlled current sources is used in case of said diagnostic and online testing operations and the other current source is used in case of said firing operation and each current source is being controlled by a separate case related current control input and whereby as current output from said pair of controlled current sources one common output is formed.
  - 17. The circuit according to claim 1 wherein said means for driving said high-side switching means for said squib consists of an integrated High Side Driver (HSD) circuit implemented in CMOS technology.
  - 18. The circuit according to claim 17 wherein said integrated High Side Driver (HSD) circuit comprises multiple FET transistors of NMOS type, multiple FET transistors of PMOS type, a digital inverter circuit for an input signal fed in from said means for control of said firing, diagnostic and online testing, a current source, and some additional integrated resistors, and whereby external connection pins are used by said input signal, and for connections to supply voltages and GND and for another two output connections for the internally generated driving and sensing node signals connecting to said high-side switching means.
  - 19. The circuit according to claim 1 wherein said means for connecting said high-side switching means and said low-side switching means to said means for control of firing, diagnostic and online testing comprises on one hand output control signal lines leading to said means for driving said high-side switching means and leading to said means for secured supply of electrical energy to said means for said low-side switching derived from said low voltage domain and on the other hand input measurement signal lines from said high-side switching means of said squib and from said low-side switching means, as well as power supply and ground connections.
  - 20. The circuit, according to claim 1 whereby into said means for driving said high-side switching means and into said means for said high-side switching of said squib to said power source are combined together:
    - firstly said high-side switching transistor functions for controlled firing operation and for onsite test diagnostics, secondly said controlled firing operation with current limitation and thirdly said onsite test diagnostics.
  - 21. The circuit, according to claim 1 whereby into said means for said low-side switching of said squib to said circuit ground are combined together:
    - firstly said low-side switching transistor functions for controlled firing operation and for onsite test diagnostics, secondly said controlled firing operation with current limitation and thirdly said onsite test diagnostics.

22. A circuit, included in a driver device for squibs, containing a control and test unit as well as low-side and high-side electronic FET switches, and operating therein as High Side Driver (HSD) device with integrated sensing capabilities for driving the high-side electronic FET switch, comprising:
- one input terminal pin for the input signal, fed in from said control and test unit and internally connected to a digital inverter circuit for generating a pair of antiphased input signals, used internally;
  
  one terminal pin for circuit supply voltage;
  
  one terminal pin for circuit ground;
  
  one input terminal pin for an external bias voltage;
  
  two, named first and second, differential switching amplifier stages containing a first pair of transistors of PMOS type, the sources of which are connected together and to a supply voltage, one FET acting as diode the other as resistor biased FET switch;
  
  also containing a second pair of transistors of NMOS type, differentially driven by said antiphased input signals, source connected together and to the drain of one commonly used transistor of NMOS type—
  
  the source of which is connecting to ground and the gate controlled by said externally supplied bias voltage—
  
  and whereby the drains of said second pair of FETs are serially connected to the drains of said first pair of FETs;
  
  further containing as booster amplifier a serial circuit of two transistors of PMOS type, source connecting the first FET to a supply voltage, the drain of the second FET connecting to ground and drain to source connected together and delivering thereby a resistor biased output signal;
  
  one auxiliary transistor of NMOS type for delivering an internal supply voltage to said second differential switching amplifier stage;
  
  one internal current source;
  
  one output stage configured as serial circuit of two transistors of PMOS type and said internal current source, with first and second FET, drain to source connected together in a common node and the source of the said first FET connecting to circuit supply voltage, also said internal current source connecting to ground and connected in series with said two transistors and directly wired to the drain of the second FET, further configured with drain of said first FET and source of said second FET connecting to said common drain to source connection node where the internally generated driving signal is generated, whereas the internally generated sensing node signal comes from the connection node between the drain of said second FET and said internal current source;
  
  two output terminal pins connected internally to the drains of said first and second FETs of said output stage and externally connecting respectively to gate and source of said external driven high-side electronic switch FET for said driving and sensing respectively, where said internally generated driving and sensing node signals stem from said respective connection nodes as described above.

23. A circuit, realizing a driver device for secure and reliable firing of an igniter or squib, connecting said squib via an electronic high-side switch to a power source and via an electronic low-side switch to circuit ground, incorporating separate power supply parts for high voltage and low voltage domains and equipped with elaborate intrinsic diagnostic and online testing features for a diagnostics and a firing mode for circuit protection and firing operation securing purposes, comprising:
- a control and test unit subdivided into a Firing Control (FC) part and a Diagnostic &
  
  Online Testing (DOT) part with one pair of current control signal outputs to said low-side switch and for said diagnostics and said firing modes respectively;
  
  two output terminal pins for external connecting the igniter or squib to said circuit;
  
  a first controllable electronic switch, namely said high-side switch, connecting to one side of said squib and allowing for connecting said squib to said power source for safely performing driver switch diagnostics and a driver switch operation of secure firing when simultaneously closed with said low-side switch;
  
  a second controllable electronic switch, namely said low-side switch, connecting to the other side of said squib and allowing for connecting said squib to circuit ground for safely performing said driver switch diagnostics and said driver switch operation of secure firing when simultaneously closed with said high-side switch;
  
  one input connector pin for connecting an external mechanical safing sensor to said driver device fed by a charge pump which in turn is fed by said power source, which itself is also connected and reverse battery protected by a series power diode and thus serving as main power input terminal and therefore connected to one side of said high-side switch;
  
  one input connector pin for connecting an electronic safing sensor to said control and test unit of said driver device;
  
  one output connector pin for a ‘
  
  Fuel Cut-Off’
  
  signal generated within said Firing Control (FC) part of said control and test unit in case of a firing operation;
  
  one output connector pin for a ‘
  
  Diagnostic Lamp Driver’
  
  signal generated within said Diagnostic &
  
  Online Testing (DOT) part of said control and test unit in case of failure detection during normal operation of the circuit;
  
  one first ground pin of the circuit wired to said low-side switch,one second ground pin of the circuit wired to said first ground pin and to said control and test unit,a first controlled current source with a diagnostics current control input for said driver switch diagnostics of said low-side switch and switching on in said current limited diagnostic mode performing low-side switching transistor functions for diagnostics;
  
  a second controlled current source with a firing current control input for said driver switch operation of firing for said low-side switch and switching on in said current limited firing mode performing low-side switching transistor functions for firing;
  
  one low-side current output connecting the current outputs of said first and said second controlled current source as common input to said low-side switch;
  
  one external power-supplying component receiving input from said separate power supply part of said low voltage domain;
  
  one external power supplying component working as charge pump fed by said separate power supply part from said high voltage domain and feeding in diagnostics mode said first controllable electronic switching device, named high-side switch in diagnostics mode and as well feeding an external energy storing device, realized as storage capacitor;
  
  one High Side Driver (HSD) circuit block for driving said high-side switch;
  
  one external power supplying component working as charge pump fed by said separate power supply part from said high voltage domain and feeding said HSD circuit block;
  
  two low-side control signal lines from said current control outputs fed by said control and test unit steering said first controlled current source for said driver switch diagnostics and steering said second controlled current source for said driver switch operation of firing, both current sources used for said low-side switch;
  
  one driver control signal line from said control and test unit input to said HSD circuit block; and
  
  four sense signal lines sensing the voltage levels on both sides of said two controllable electronic switches and feeding their signals into said control and test unit in both operating cases;
  
  said diagnostic mode and said firing mode.
- View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31, 32, 33)
- - 24. The circuit, according to claim 23 wherein said first controllable electronic switch, named high-side switch is realized by an NMOS-FET switch and driven by said High-Side Driver (HSD) device.
  - 25. The circuit according to claim 24 wherein said High Side Driver (HSD) device is realized as a monolithic integrated circuit.
  - 26. The circuit according to claim 25 wherein said integrated High Side Driver (HSD) circuit comprises multiple FET transistors of NMOS type, multiple FET transistors of PMOS type, a digital inverter circuit for an input signal fed in from said control and test unit for control of said firing, diagnostic and online testing, a current source, and some additional integrated resistors, and whereby external connection pins are used by said input signal, and for connections to supply voltages and GND and for another two output connections for the internally generated driving and sensing node signals connecting to said high-side switch.
  - 27. The circuit according to claim 26 wherein said High Side Driver (HSD) device is realized as a monolithic integrated circuit in CMOS technology.
  - 28. The circuit according to claim 23 wherein second controllable electronic switch, named low-side switch is implemented by two low-side driver NMOS-FETs in current mirror configuration and thus serving as said low-side driver switch.
  - 29. The circuit, according to claim 23 whereby into said high-side switching device of said squib to said power source are combined together:
    - firstly said high-side switching transistor functions for controlled firing operation and for onsite test diagnostics, secondly said controlled firing operation with current limitation and thirdly said onsite test diagnostics.
  - 30. The circuit, according to claim 23 whereby into said low-side switching device of said squib to said circuit ground are combined together:
    - firstly said low-side switching transistor functions for controlled firing operation and for onsite test diagnostics, secondly said controlled firing operation with current limitation and thirdly said onsite test diagnostics.
  - 31. The circuit, according to claim 23 implemented with said HSD controller for said driver switch operation of firing for said high-side switch and with said controllable current source for said low-side switch, both trimmed and setup in such a way, that the control currents for said switches are reduced to a safe minimum for a secure firing operation, thus allowing for the smallest external storage capacitor possible.
  - 32. The circuit according to claim 23 implemented as integrated circuit.
  - 33. The circuit according to claim 23 implemented as integrated circuit in low cost CMOS technology.

34. A method for controlled operation and secure firing of igniters or squibs, capable of driving the necessary switching devices within a circuit branch connecting said squib via a high-side electronic switch to a power source and via a low-side electronic switch to circuit ground, incorporating separate power supply parts for high voltage and low voltage domains and equipped with elaborate intrinsic diagnostic and online testing features for circuit protection and operation securing purposes, altogether named Squib Driver circuit, comprising:
- providing a means for providing a Control and Test Unit for said Squib Driver circuit containing a Firing Control (FC) unit and a Diagnostic and Online Test (DOT) unit with input and output connections for an electrical Safing Sensor, a Fuel Cut-Off During Collision operation and a Diagnostic Lamp Driver signal, and further additionally containing measuring or sensing input signals and control output signals;
  
  providing for said Squib Driver circuit means for connecting an external main power supply via a mechanical Safing Sensor and means for connecting to ground;
  
  providing for said Squib Driver circuit external means for providing said power supply using a charge pump circuit for storing the main supply energy within an external storage capacitor as Airbag Voltage Supply AVS voltage;
  
  providing for said Squib Driver circuit connection means for connecting an external igniter device or squib to a first connection pin named high-side connection and to a second connection pin named low-side connection;
  
  providing a first internal means for switching operations of said external igniter device or squib on its high-side connection point, named high-side switching device;
  
  providing a second internal means for switching operations of said external igniter device or squib on its low-side connection point, named low-side switching device;
  
  providing a first internal means for driving said internal high-side switching device, named High-Side Driver (HSD) circuit;
  
  providing other internal means for supplying multiple driver currents to said internal low-side switching device using controllable and switchable current source circuits;
  
  providing means for connection of said measuring or sensing input signals from said high-side and low-side switching devices to said Control and Test Unit;
  
  providing means for connection of said control output signals from said Control and Test Unit to said controllable and switchable current source circuits for said low-side switching device;
  
  implementing said high-side switching device as a single NMOS FET switch transistor;
  
  implementing said low-side switching device with at least a pair of NMOS transistors in current mirror configuration;
  
  implementing said high-side switch driver circuit with at least an integrated HSD circuit, consisting of two anti-phased driven current mirror differential switching amplifier NMOS&
  
  PMOS stages each with PMOS output booster circuit and both driving one PMOS output driver stage biased by an internal current source;
  
  implementing for said low-side switching device said controlled pair of switchable current sources as drivers, whereby the one current source defines the normal diagnostic and test operations and the other current source the firing operation;
  
  initiating a Basic Function Test Cycle for said Squib Driver circuit during power on of said Squib Driver circuit, testing regular functionality of said internal driver circuits and switches and said external igniter device or squib;
  
  starting, in normal operation mode, the Diagnostic and Test Cycle for continuous surveillance of prescribed isolation and resistance values of the regular functioning of the system;
  
  testing for isolation values of the high-side and low-side switching devices versus supply voltage and ground;
  
  measuring appropriate test voltages at the squib and said high-side and low-side switching devices in the switched squib branch with at least given diagnostic currents;
  
  calculating the resistance of the squib and said high-side and low-side switching devices in the switched squib branch;
  
  evaluating said measured and calculated values and compare to the prescribed and for a regular operation required and defined values;
  
  activating in case of failure an alarming signal;
  
  calculating with at least said voltage and resistance values secure firing current values for said high-side and said low-side switching devices, thus trimming and selling-up said controlled driving currents to their operational necessary minimum, and thus limiting said main supply energy stored within said external storage capacitor to an optimum;
  
  continuing the Diagnostic and Test Cycle from its starting point above during normal operation of the Squib Driver circuit; and
  
  firing the squib in case of emergency by switching on at the same time, both the high-side and the low-side switching devices and whilst observing given current limitations with at least said controlled driving currents.

35. A circuit realizing a driver device for secure and reliable firing of an igniter or squib, comprising:
- an external power supply furnishing the main supply energy;
  
  external means for storing said main supply energy within an external storage capacitor;
  
  a high-side switch and a low-side switch connecting said squib to power supply and to ground respectively whereby said low-side switch is implemented with at least a pair of NMOS transistors in current mirror configuration and said high-side switch is using an NMOS FET switch transistor;
  
  a driver circuit for said high-side switch capable of current controlling said high-side switch;
  
  a first controlled current source for diagnostics of said squib and thus enabling to switch on said low-side switch in a current limited diagnostic mode;
  
  a second controlled current source for firing of said squib and thus enabling to switch on said low-side switch in a current controlled firing mode;
  
  a control circuit for diagnostics and firing of said squib capable of evaluating and setting-up the values of said controlled currents to their operational necessary minimum in such a way that a secure firing of said squib is always guaranteed and at the same time limiting said main supply energy stored within said external storage capacitor to an optimum.

36. A method for controlled operation and secure firing of igniters or squibs, comprising:
- providing an external power supply furnishing the main supply energy;
  
  providing external means for storing said main supply energy within an external storage capacitor;
  
  providing a high-side and a low-side switching device for connecting said squib to said power supply and ground respectively;
  
  implementation of said low-side switching device with at least a pair of NMOS transistors in current mirror configuration and of said high-side switching device using an NMOS FET switch transistor;
  
  implementing for said low-side switching device a current source that defines the normal diagnostic and test operations and another current source defining the firing operation thus in any case delivering controlled driving currents;
  
  implementing for said high-side switching device an output driver stage biased by an internal current source delivering a controlled driving current; and
  
  calculating secure firing current values for said high-side and said low-side switching devices, thus trimming, or setting up said controlled driving currents to their operational necessary minimum, and thus limiting said main supply energy stored within said external storage capacitor to an optimum.

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Current Assignee
Dialog Semiconductor GmbH (Renesas Electronics Corporation)
Original Assignee
Dialog Semiconductor GmbH (Renesas Electronics Corporation)
Inventors
Sibrai, Andreas
Primary Examiner(s)
Sircus, Brian
Assistant Examiner(s)
HOANG, ANN THI

Application Number

US10/830,157
Publication Number

US 20050225925A1
Time in Patent Office

978 Days
Field of Search

361/247, 361/248
US Class Current

361/248
CPC Class Codes

B60R 21/0173 Diagnostic or recording mea...

Low cost squib driver for airbag application

First Claim

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Abstract

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36 Claims

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Low cost squib driver for airbag application

First Claim

1 Assignment

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Abstract

32 Citations

36 Claims

Specification

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