Power supply equipped with an independent overload protection mechanism
First Claim
1. A power supply equipped with an independent overload protection mechanism to receive an AC power which passes through an internal commutation filter circuit, a control circuit and a transformation circuit to become a plurality of DC powers to drive at least one electronic device at a rear end, comprising a protection circuit to receive a power use value captured from a DC power cord input to the electronic device, wherein the control circuit and the transformation circuit include at least two sets of combination circuits to output the DC power to the electronic device at the rear end, the power use value being captured from each set of the combination circuits that is sent to the protection circuit, the protection circuit receiving the power use value and determining an overload condition to output a protection signal to the control circuit to stop or suspend the DC power on the DC power cord so that the electronic device at the rear end is not driven.
2 Assignments
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Accused Products
Abstract
A power supply equipped with an independent overload protection mechanism includes a control circuit and a transformation circuit that form multiple sets of combination circuits for transforming AC power to DC power. Each control circuit is connected to a protection circuit which monitors overload operation conditions of an electronic device. In the event that an overload condition occurs, the protection circuit outputs an individual protection signal to the control circuit to stop or suspend power output on a DC power cord so that the electronic device at the rear end is not driven. Hence an independent overload protection can be achieved.
8 Citations
7 Claims
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1. A power supply equipped with an independent overload protection mechanism to receive an AC power which passes through an internal commutation filter circuit, a control circuit and a transformation circuit to become a plurality of DC powers to drive at least one electronic device at a rear end, comprising a protection circuit to receive a power use value captured from a DC power cord input to the electronic device,
wherein the control circuit and the transformation circuit include at least two sets of combination circuits to output the DC power to the electronic device at the rear end, the power use value being captured from each set of the combination circuits that is sent to the protection circuit, the protection circuit receiving the power use value and determining an overload condition to output a protection signal to the control circuit to stop or suspend the DC power on the DC power cord so that the electronic device at the rear end is not driven.
Specification