Power converter for use with implantable thermoelectric generator
First Claim
1. An apparatus, comprising:
- a metallic an implantable housing defining an interior volume;
a thermoelectric energy converter disposed in the interior volume;
a power conversion circuit disposed in the interior volume including an input terminal coupled to an output terminal of the thermoelectric energy converter to receive power from the thermoelectric energy converter, the power conversion circuit comprising;
a charging inductor connected in series with the input terminal;
a switching FET connected to the inductor; and
a capacitor connected to the FET and the input terminal via a diode, the capacitor adapted to accumulate charge;
a power source disposed in the interior volume and coupled to the power conversion circuit to receive power from the power conversion circuit; and
therapy electronics disposed in the interior volume and coupled to the power source to convert power from the power source into electronic pulse therapy,wherein the FET is adapted to switch at a frequency and duty cycle such that the power conversion circuit inputs a voltage level to the power source, and wherein the power source is adapted to power the therapy electronics.
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Accused Products
Abstract
Method and apparatus for converting the output of a thermoelectric generator to voltages compatible with implantable medical devices is provided. One apparatus includes an implantable thermoelectric generator. The apparatus includes an input terminal for receiving an input voltage generated by a thermoelectric energy converter and a charging inductor connected in series with the input terminal. The apparatus also includes a switching Field Effect Transistor (FET) connected to the inductor, and a capacitor connected to the FET and the input terminal via a diode. The FET is switched with a frequency and duty cycle such that a voltage level at an output terminal is compatible with an implantable medical device. According to various embodiments, the FET is switched using a closed loop feedback system that controls the frequency and duty cycle based on an observed voltage level at the output terminal. Other aspects and embodiments are provided herein.
82 Citations
20 Claims
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1. An apparatus, comprising:
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a metallic an implantable housing defining an interior volume; a thermoelectric energy converter disposed in the interior volume; a power conversion circuit disposed in the interior volume including an input terminal coupled to an output terminal of the thermoelectric energy converter to receive power from the thermoelectric energy converter, the power conversion circuit comprising; a charging inductor connected in series with the input terminal; a switching FET connected to the inductor; and a capacitor connected to the FET and the input terminal via a diode, the capacitor adapted to accumulate charge; a power source disposed in the interior volume and coupled to the power conversion circuit to receive power from the power conversion circuit; and therapy electronics disposed in the interior volume and coupled to the power source to convert power from the power source into electronic pulse therapy, wherein the FET is adapted to switch at a frequency and duty cycle such that the power conversion circuit inputs a voltage level to the power source, and wherein the power source is adapted to power the therapy electronics. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. An apparatus, comprising:
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an implantable housing that includes a first portion that is metallic and thermally conductive, and a second portion that is metallic and thermally conductive, the first portion and the second portion joined and hermetically sealed together defining an interior volume, with the first portion in direct thermal conduction with the second portion; and electronics disposed in the interior volume, the electronics including thermoelectric energy converter electronics disposed in the interior volume, the thermoelectric energy converter electronics including a hot pole and a cold pole, with the hot pole thermally conductive to the first portion of the housing and the cold pole thermally conductive to the second portion of the housing, a power conversion circuit disposed in the interior volume including an input terminal coupled to an output terminal of the thermoelectric energy converter to receive power from the thermoelectric energy converter, the power conversion circuit comprising; a charging inductor connected in series with an input terminal; a switching FET connected to the inductor; and a capacitor connected to the FET and the input terminal via a diode, the capacitor adapted to accumulate charge; a power source disposed in the interior volume and coupled to the power conversion circuit to receive power from the power conversion circuit; and therapy electronics disposed in the interior volume and coupled to the power source to convert power from the power source into electronic pulse therapy, wherein the FET is adapted to switch at a frequency and duty cycle such that the power conversion circuit inputs a voltage level to the power source, wherein the power source is adapted to power the therapy electronics, and wherein the thermoelectric energy converter electronics are adapted to convert a temperature differential between the first portion of the housing and the second portion of the housing to provide power for at least part of the apparatus. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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Specification