Firing circuit for a vehicle passenger restraint system

US 4,851,705 A
Filed: 09/23/1988
Issued: 07/25/1989
Est. Priority Date: 09/23/1988
Status: Expired due to Term

First Claim

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1. A firing circuit for actuating a first and second instrumentality of a vehicle passenger restraint system comprisinga first circuit leg comprising in series a first normally open sensor for detecting a first condition requiring actuation of said instrumentalities, a first trigger means having an internal resistance for actuating said first instrumentality, and a second normally open sensor for a second condition requiring actuation of said instrumentalities, said first and second sensor being shunted by a first and second resistor, respectively, said first and second resistors having a resistance substantially greater than the internal resistance of said first trigger means;

a second circuit leg connected in parallel with said first circuit leg comprising in series a third normally open sensor for detecting the first condition requiring actuation of said instrumentalities, a second trigger means having an internal resistance substantially equal to the internal resistance of said first trigger means for actuating said second instrumentality, and a fourth normally open sensor detecting the second condition requiring actuation of said instrumentalities, said third and fourth sensor being shunted by a third and fourth resistor, respectively, said third and fourth resistors having a resistance substantially greater than the internal resistance of said second trigger means;

a first diode bridge comprising a pair of oppositely biased diodes connecting a first junction on said first circuit leg between said first sensor and said first trigger means with a first junction on said second circuit leg between said third sensor and second trigger means; and

a second diode bridge comprising a pair of oppositely biased diodes connecting a second junction on said first circuit leg between said first trigger means and said second sensor with a second junction on said second circuit leg between said second trigger means and said fourth sensor; and

means for applying a first voltage across said circuit legs.

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Abstract

A firing circuit for deploying a pair of air bags comprises two circuit legs connected in parallel across a voltage supply. Each circuit leg comprises in series a safing sensor, a squib, and a crash sensor, with each sensor being shunted by a like resistor having a nominal resistance substantially greater than the nominal resistance of the squibs. Two separate diode bridges, each comprising a pair of oppositely biased diodes, bridge the circuit legs at junctions thereon between the safing sensors and the squibs, and the squibs and the crash sensors, respectively, to provide multiple firing paths for both squibs. A microprocessor checks the integrity of the firing circuit and diagnoses the presence of faults therein by reading the voltage potentials at each junction; comparing the voltage potential at one or more junctions with the supply voltage; comparing the voltage drop across the diode bridges with the diode forward-biased conduction voltages; and, if a specific fault has not yet been identified, determining the effect on the voltage potential at one or more junctions when increasing the supply voltage applied across the firing circuit. The microprocessor periodically determines the instantaneous forward-biased conduction voltages of the bridging diodes for use in the above diagnostic sequence by operating a current switch connected to a junction on each circuit leg and determining the resulting voltage drops across the diode bridges.

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22 Claims

1. A firing circuit for actuating a first and second instrumentality of a vehicle passenger restraint system comprisinga first circuit leg comprising in series a first normally open sensor for detecting a first condition requiring actuation of said instrumentalities, a first trigger means having an internal resistance for actuating said first instrumentality, and a second normally open sensor for a second condition requiring actuation of said instrumentalities, said first and second sensor being shunted by a first and second resistor, respectively, said first and second resistors having a resistance substantially greater than the internal resistance of said first trigger means;
- a second circuit leg connected in parallel with said first circuit leg comprising in series a third normally open sensor for detecting the first condition requiring actuation of said instrumentalities, a second trigger means having an internal resistance substantially equal to the internal resistance of said first trigger means for actuating said second instrumentality, and a fourth normally open sensor detecting the second condition requiring actuation of said instrumentalities, said third and fourth sensor being shunted by a third and fourth resistor, respectively, said third and fourth resistors having a resistance substantially greater than the internal resistance of said second trigger means;
  
  a first diode bridge comprising a pair of oppositely biased diodes connecting a first junction on said first circuit leg between said first sensor and said first trigger means with a first junction on said second circuit leg between said third sensor and second trigger means; and
  
  a second diode bridge comprising a pair of oppositely biased diodes connecting a second junction on said first circuit leg between said first trigger means and said second sensor with a second junction on said second circuit leg between said second trigger means and said fourth sensor; and
  
  means for applying a first voltage across said circuit legs.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The firing circuit of claim 1 wherein said first and second resistors, and said third and fourth resistors, respectively, are of like nominal resistance.
  - 3. The firing circuit of claim 1 wherein said first and third resistors, and said second and fourth resistors, respectively, are of like nominal resistance.
  - 4. The firing circuit of claim 1 including means for diagnosing a fault in said firing circuit comprisingmeans for reading the voltage potentials at a plurality of said junctions;
    - andmeans for comparing the voltage potential at one of said junctions with the voltage potential at another of said junctions.
  - 5. The firing circuit of claim 4 wherein said means for diagnosing said fault further comprisesmeans for reading the voltage applied across said circuit legs;
    - means for calculating a plurality of voltage ranges from the applied voltage and a plurality of known percentages of the applied voltage;
      
      means for comparing the voltage potential at one of said junctions with said voltage ranges.
  - 6. The firing circuit of claim 4 wherein said means for diagnosing said fault further comprisesmeans for applying a second voltage across said circuit legs greater than the first applied voltage, andmeans for comparing the voltage potential at one of said junctions when the first voltage is applied across said circuit legs with the voltage potential at said one of said junctions when the second voltage is applied across said circuit legs.
  - 7. The firing circuit of claim 6 wherein said means for applying the first voltage across said legs comprises a battery, and said means for applying the second voltage across said circuit legs comprises a capacitor connected in parallel with said battery and means for charging said capacitor to the second voltage.
  - 8. The firing circuit of claim 7 wherein said means for charging said capacitor comprises a transistor, the collector and emitter of said transistor being connected across said capacitor, the base of said transistor being connected to a current source, whereby said transistor charges said capacitor when a current is delivered from said current source to the base of said transistor.
  - 9. The firing circuit of claim 4 including signal means for signalling the presence of aid fault upon the diagnosis thereof.
  - 10. The firing circuit of claim 4 including means for recording said fault upon the diagnosis thereof.
  - 11. The firing circuit of claim 10 wherein said recording means comprises a non-volatile memory unit.
  - 12. The firing circuit of claim 11 including means for incrementing a counter in said memory unit each time said fault is diagnosed prior to the correction thereof.
  - 13. The firing circuit of claim 4 wherein said means for diagnosing said fault further comprisesmeans for determining the forward-biased conduction voltages of the diodes comprising said diode bridges;
    - mean for calculating the voltage drop across each of said diode bridges; and
      
      means for comparing the voltage drop across each of said diode bridges with said diode forward-biased conduction voltages.
  - 14. The firing circuit of claim 13 wherein said means for determining the forward-biased conduction voltages of the diodes comprisesswitchable means connected to said second junction on one of said circuit legs for draining current therefrom;
    - means for reading the voltage potentials at said first and second junctions of said first circuit leg, and said first and second junctions of said second circuit leg, respectively, when said switchable mean is drawing current from said leg; and
      
      means for calculating the difference in the voltage potentials of said first and second junctions, and said third and fourth junctions, respectively, when said switchable means is drawing current from said leg.
  - 15. The firing circuit of claim 4 including means for diagnosing a fault therein comprisinga microprocessor having means thereon for reading the voltage potentials at a plurality of said junctions;
    - anda set of instructions to be executed by said microprocessor comprising the steps ofreading the voltage potentials at a plurality of the junctions on said legs through the input ports of said microprocessor, andcomparing the voltage potentials at one of said junctions with the voltage potentials at another of said junctions.
  - 16. The firing circuit of claim 15 includingmeans on said microprocessor for reading said first voltage applied across said circuit legs, andmeans for providing a plurality of fault range percentage values to said microprocessor:
    - and wherein said microprocessor instructions further comprise the steps ofreading the first voltage applied across said circuit legs,calculating a plurality of fault voltage ranges using said fault range percentage values and said first applied voltage, andcomparing the voltage potential at one of said junctions with said fault voltage ranges.
  - 17. The firing circuit of claim 16 wherein said means for providing said fault range percentage values comprises a memory unit connected with said microprocessor having said fault range percentage values stored therein, and wherein said microprocessor instructions further comprise the step of retrieving said fault range percentage values from said memory unit.
  - 18. The firing circuit of claim 15 including means operable by said microprocessor for applying a second voltage across said circuit legs, said second applied voltage being greater than said first applied voltage;
    - and wherein said set of microprocessor instructions further comprise the steps ofstoring the voltage potential at one of said junctions when said first voltage is applied across said circuit legs in a memory unit,operating said means for applying said second voltage when said second voltage is applied across said circuit legs,retrieving the voltage potential at said one of said junctions when said first voltage is applied across said circuit legs from said memory unit, andcomparing the voltage potential at said one of said junctions when said first voltage is applied across said circuit legs with the voltage potential at said one of said junctions when said second voltage is applied across said circuit legs.
  - 19. The firing circuit of claim 14 wherein said switchable means for drawing current from said second junction on one of said circuit legs comprises aa transistor, the collector of said transistor being connected to said second junction through a resistor of like nominal resistance as said shunting resistors of said leg, the emitter of said transistor being connected to location on said circuit leg having a zero voltage potential;
    - andmeans for switchably delivering a current to the base of said transistor.

20. A firing circuit for actuating a plurality of instrumentalities of a vehicle passenger restraint system comprisinga first circuit leg comprising in series a first normally open sensor for detecting a first condition requiring actuation of said instrumentalities, trigger means having an internal for actuating said instrumentalities and a second normally open sensor for a second condition requiring actuation of said instrumentalities, said first and second sensor being shunted by a first and second resistor, respectively, each having a resistance substantially greater than the internal resistance of said trigger means:
- a second circuit leg connected in parallel with said first circuit leg comprising in series a third normally open sensor for detecting the first condition requiring actuation of said instrumentalities and a third resistor having a resistance substantially greater than the internal resistance of said trigger means;
  
  a third circuit leg connected in parallel with said first and second circuit legs comprising in series a fourth resistor and a fourth normally open sensor for detecting the second condition requiring actuation of said instrumentalities, said fourth resistor having a resistance substantially greater than the resistance of said trigger means;
  
  a first diode bridge comprising a pair of oppositely biased diodes connecting a first junction on said first circuit leg between said first sensor and said trigger means with a junction on said second circuit leg between said third sensor and said third resistor; and
  
  a second diode bridge comprising a pair of oppositely biased diodes connecting a second junction on said first circuit leg between said first trigger means and said second sensor thereof with a junction on said third circuit leg between said fourth resistor and said fourth sensor; and
  
  means for applying a first voltage across said circuit legs.
- View Dependent Claims (21, 22)
- - 21. The firing circuit of claim 20 wherein said first and second resistors, and said third and fourth resistors, respectively, are of like nominal resistance.
  - 22. The firing circuit of claim 20 wherein said first and third resistors, and said second and fourth resistors, respectively, are of like nominal resistance.

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Current Assignee
Automotive Systems Laboratory, Incorporated (Ningbo Junsheng Investment Group Co., Ltd.)
Original Assignee
Automotive Systems Laboratory, Incorporated (Ningbo Junsheng Investment Group Co., Ltd.)
Inventors
White, Craig W., Musser, Kevin E.
Primary Examiner(s)
Shoop, Jr., William M.
Assistant Examiner(s)
Logan, Sharon D.

Application Number

US07/249,366
Time in Patent Office

305 Days
Field of Search

307/10 R, 307/9, 280/735, 180/282, 340/52 H, 340/53
US Class Current

307/10.1
CPC Class Codes

B60R 21/0176 for firing circuits using o...

Firing circuit for a vehicle passenger restraint system

First Claim

1 Assignment

0 Petitions

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Abstract

78 Citations

22 Claims

Specification

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Firing circuit for a vehicle passenger restraint system

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

78 Citations

22 Claims

Specification

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Solutions

Use Cases

Quick Links