THERMAL RESISTANCE MEASURING METHOD AND THERMAL RESISTANCE MEASURING DEVICE
First Claim
1. A thermal resistance measuring method, comprising:
- measuring an exterior temperature of a semiconductor device housing a semiconductor element wherein current is caused to flow from a third electrode of the semiconductor element to a second electrode of the semiconductor element in accordance with a voltage applied between a first electrode of the semiconductor element and the second electrode;
inputting a constant current such that the semiconductor element does not generate heat, measuring a second voltage between the first electrode and second electrode, which is controlled so that a first voltage between the third electrode and second electrode is constant, and calculating the element temperature of the semiconductor element based on the second voltage and on a temperature coefficient relating to the second voltage;
causing a constant current such that the semiconductor element generates heat to be input between the third electrode and second electrode, with a third voltage applied between the first electrode and second electrode kept constant;
calculating a power based on the current such that the semiconductor element generates heat, and on a fourth voltage between the third electrode and second electrode when the semiconductor element generates heat;
inputting a constant current of an extent such that the semiconductor element does not generate heat, measuring a fifth voltage between the first electrode and second electrode, which is controlled so that the first voltage between the third electrode and second electrode is constant, and calculating the element temperature of the semiconductor element based on the fifth voltage and on a temperature coefficient relating to the fifth voltage;
measuring the exterior temperature of the semiconductor element after heat is generated; and
calculating a thermal resistance value of the semiconductor element based on the amount of change in the exterior temperature and the amount of change in the element temperature of the semiconductor element before and after heat is generated, and on the power.
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Accused Products
Abstract
A temperature of a semiconductor element is measured based on a temperature coefficient of a voltage between the first electrode and the second electrode when no heat is generated when causing a constant current of an extent such that the semiconductor element does not generate heat to be input wherein current is caused to flow from a third electrode to a second electrode in accordance with voltage applied between a first electrode and the second electrode. Also, a constant current such that the semiconductor element generates heat is input into the third electrode, with voltage applied between the first electrode and second electrode of the semiconductor element kept constant, and power is measured based on the current such that the semiconductor element generates heat and on voltage when heat is generated between the third electrode and second electrode when the semiconductor element generates heat.
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Citations
11 Claims
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1. A thermal resistance measuring method, comprising:
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measuring an exterior temperature of a semiconductor device housing a semiconductor element wherein current is caused to flow from a third electrode of the semiconductor element to a second electrode of the semiconductor element in accordance with a voltage applied between a first electrode of the semiconductor element and the second electrode; inputting a constant current such that the semiconductor element does not generate heat, measuring a second voltage between the first electrode and second electrode, which is controlled so that a first voltage between the third electrode and second electrode is constant, and calculating the element temperature of the semiconductor element based on the second voltage and on a temperature coefficient relating to the second voltage; causing a constant current such that the semiconductor element generates heat to be input between the third electrode and second electrode, with a third voltage applied between the first electrode and second electrode kept constant; calculating a power based on the current such that the semiconductor element generates heat, and on a fourth voltage between the third electrode and second electrode when the semiconductor element generates heat; inputting a constant current of an extent such that the semiconductor element does not generate heat, measuring a fifth voltage between the first electrode and second electrode, which is controlled so that the first voltage between the third electrode and second electrode is constant, and calculating the element temperature of the semiconductor element based on the fifth voltage and on a temperature coefficient relating to the fifth voltage; measuring the exterior temperature of the semiconductor element after heat is generated; and calculating a thermal resistance value of the semiconductor element based on the amount of change in the exterior temperature and the amount of change in the element temperature of the semiconductor element before and after heat is generated, and on the power. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A thermal resistance measuring device, comprising:
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an exterior temperature measuring unit configured to measure an exterior temperature of a semiconductor device housing a semiconductor element, before and after a generation of heat by the semiconductor element in response to current caused to flow from a third electrode of the semiconductor element to a second electrode of the semiconductor element in accordance with a voltage applied between a first electrode of the semiconductor element and the second electrode; a first measuring unit configured to measure a voltage between the first electrode and second electrode when no heat is generated, before and after the semiconductor element generates heat, and to cause a constant current of an extent such that the semiconductor element does not generate heat to be input, which is controlled so that voltage between the third electrode and second electrode is constant; a second measuring unit configured to measure a voltage between the third electrode and second electrode when heat is generated, to cause a constant current such that the semiconductor element generates heat to be input between the third electrode and second electrode, with a voltage applied between the first electrode and second electrode kept constant; and a calculation unit configured to calculate an element temperature of the semiconductor element based on the voltage when no heat is generated and on a temperature coefficient relating to the voltage when no heat is generated, to calculate a power based on the current such that the semiconductor element generates heat and on the voltage when heat is generated, and to calculate a thermal resistance value of the semiconductor element based on the amount of change in the exterior temperature and the amount of change in the element temperature of the semiconductor element before and after heat is generated, and on the power.
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Specification