Firing circuit for multiple vehicle passenger restraint initiators
First Claim
1. A firing circuit for multiple vehicle passenger restraint initiators, comprising:
- first and second electrically activated initiators for deploying first and second passenger restraint devices;
first and second firing loops connected in parallel between first and second firing circuit nodes, the first firing loop comprising said first electrically activated initiator and a first diode poled to conduct current from said first node to said second node, and the second firing loop comprising said second electrically activated initiator and a second diode poled to conduct current from said second node to said first node;
a source of direct voltage having first and second terminals of opposing polarity; and
a switching circuit connected between said source of direct voltage and said first and second firing loops, said switching circuit including a first pair of switches operative in response to a first deployment signal to connect said first and second terminals of said source to said first and second firing circuit nodes, respectively, to activate said first initiator for deploying the first restraint device, and a second pair of switches operative in response to a second deployment signal to connect said first and second terminals of said source to said second and first firing circuit nodes, respectively, to activate said second initiator for deploying the second restraint device.
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Accused Products
Abstract
A firing circuit for multiple vehicle passenger restraint initiators, wherein initiators located in proximity to each other are paired in first and second parallel connected firing loops terminated by first and second firing circuit nodes. The first firing loop includes one of the initiators and a first diode poled to conduct current from the first node to the second node, and the second firing loop includes the other initiator and a second diode poled to conduct current in the opposite direction, that is, from the second node to the first node. A switching circuit, such as a four-element bridge couples each pair of firing loops to a source of DC so that the source voltage can be applied to the firing loop nodes in either polarity, depending on whether the switching circuit receives a first firing signal or a second firing signal. The switching circuit and the circuit that develops the firing signals are located together in a control unit so that only two wires must be routed from the control unit to each pair of initiators.
64 Citations
4 Claims
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1. A firing circuit for multiple vehicle passenger restraint initiators, comprising:
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first and second electrically activated initiators for deploying first and second passenger restraint devices; first and second firing loops connected in parallel between first and second firing circuit nodes, the first firing loop comprising said first electrically activated initiator and a first diode poled to conduct current from said first node to said second node, and the second firing loop comprising said second electrically activated initiator and a second diode poled to conduct current from said second node to said first node; a source of direct voltage having first and second terminals of opposing polarity; and a switching circuit connected between said source of direct voltage and said first and second firing loops, said switching circuit including a first pair of switches operative in response to a first deployment signal to connect said first and second terminals of said source to said first and second firing circuit nodes, respectively, to activate said first initiator for deploying the first restraint device, and a second pair of switches operative in response to a second deployment signal to connect said first and second terminals of said source to said second and first firing circuit nodes, respectively, to activate said second initiator for deploying the second restraint device.
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2. A firing circuit for a staged, pyrotechnically deployed vehicle passenger restraint device, comprising:
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first and second electrically activated initiators for deploying first and second stages of said restraint device; first and second firing loops connected in parallel between first and second firing circuit nodes, the first firing loop comprising said first electrically activated initiator and a first diode poled to conduct current from said first node to said second node, and the second firing loop comprising said second electrically activated initiator and a second diode poled to conduct current from said second node to said first node; a source of direct voltage having first and second terminals of opposing polarity; and a switching circuit connected between said source of direct voltage and said first and second firing loops, said switching circuit including a first pair of switches operative in response to a first deployment signal to connect said first and second terminals of said source to said first and second firing circuit nodes, respectively, to activate said first initiator for deploying the first stage of said restraint device, and a second pair of switches operative in response to a second deployment signal to connect said first and second terminals of said source to said second and first firing circuit nodes, respectively, to activate said second initiator for deploying the second stage of said restraint device.
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3. A firing circuit for multiple vehicle passenger restraint initiators, comprising:
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first and second electrically activated initiators for deploying first and second passenger restraint devices; first and second firing loops connected in parallel between first and second firing circuit nodes, the first firing loop comprising said first electrically activated initiator and a first diode poled to conduct current from said first node to said second node, and the second firing loop comprising said second electrically activated initiator and a second diode poled to conduct current from said second node to said first node; a source of direct voltage having first and second terminals of opposing polarity; a controller for determining whether and when said first and second passenger restraint devices should be deployed; and a switching circuit controlled by said controller, and connected between said source of direct voltage and said first and second firing loops, said controller biasing said switching circuit to a first mode to connect said first and second terminals of said source to said first and second firing circuit nodes, respectively, when said first restraint device should be deployed, and to a second mode to connect said first and second terminals of said source to said second and first firing circuit nodes, respectively, when said second restraint device should be deployed. - View Dependent Claims (4)
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Specification