Switch-mode oximeter LED drive with a single inductor
First Claim
1. A light emitter drive circuit for an oximeter comprising:
- a voltage generating circuit;
an inductor coupled to the voltage generating circuit;
a first switching circuit coupled to a first node of the inductor;
first and second energy storage circuits connected to the first switching circuit, such that current from the inductor can be steered by the first switching circuit to one of the energy storage circuits;
a second switching circuit coupled to a second node of the inductor; and
first and second light emitter drive lines connected to the second switching circuit, such that energy from the first and second energy storage circuits can be alternately coupled to the first and second light emitter drive lines.
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Accused Products
Abstract
A light emitter drive circuit for an oximeter which utilizes a single inductor for driving multiple light emitters. The inductor is connected to a switching circuit to multiple energy storage circuits, such as capacitors. These are alternately charged up, using the same inductor. Subsequently, the capacitors are alternatively discharged for their corresponding light emitters through the same inductor. Also, the magnetic susceptibility of the LED drive circuit is reduced by using magnetic flux canceling in the inductor. In one embodiment, a toroidal inductor is used with geometric symmetry and its magnetic flux. In other embodiment, a dual core closed bobbin shielded inductor is used.
222 Citations
27 Claims
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1. A light emitter drive circuit for an oximeter comprising:
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a voltage generating circuit; an inductor coupled to the voltage generating circuit; a first switching circuit coupled to a first node of the inductor; first and second energy storage circuits connected to the first switching circuit, such that current from the inductor can be steered by the first switching circuit to one of the energy storage circuits; a second switching circuit coupled to a second node of the inductor; and first and second light emitter drive lines connected to the second switching circuit, such that energy from the first and second energy storage circuits can be alternately coupled to the first and second light emitter drive lines. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A light emitter drive circuit for an oximeter comprising:
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a voltage generating circuit; first and second energy storage circuits; a magnetic flux canceling inductor coupled to the voltage generating circuit; and switching circuitry including an element disposed between the inductor and the first and second energy storage circuits, wherein the switching circuitry is configured to first steer current passing through the inductor into the energy storage circuits, and then provide energy from the first and second energy storage circuits back through the inductor to drive lines for light emitters.
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11. A method comprising:
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directing electrical current through an inductor in a first direction to an energy storage device; storing energy in the energy storage device, wherein storing energy in the energy storage device comprises coupling the energy storage device to the inductor using a switching device; directing electrical current from the energy storage device through the inductor in a second direction; and providing a drive signal to a light emitter drive line, wherein the drive signal comprises the electrical current in the second direction. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
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19. A method of manufacture comprising:
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providing a switch to couple a voltage generating circuit to an inductor; coupling a first node of the inductor to a first switching circuit and a second node of the inductor to a second switching circuit; configuring the first switching circuit to alternately connect with a first energy storage device and a second energy storage device; and configuring the second switching circuit to alternately supply power to a first light emitting drive line and a second light emitting drive line.
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20. A system comprising:
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a sensor comprising a first light emitter drive line and a second light emitter drive line; a board electrically coupled to the sensor, the board comprising; a voltage generating circuit; an inductor coupled to the voltage generating circuit; a first switching circuit coupled to a first node of the inductor; first and second energy storage circuits connected to the first switching circuit, such that current from the inductor can be steered by the first switching circuit to one of the energy storage circuits; a second switching circuit coupled to a second node of the inductor, the second switching circuit connected to the first and second light emitter drive lines such that energy from the first and second energy storage circuits can be alternately coupled to the first and second light emitter drive lines. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
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Specification