A DC surge protection circuit for protecting hardware from surges. During operation when no surge condition is present, the circuit passes signals from an input to an output through an inductance. When a surge is present, the circuit conducts a portion of the surge through at least one diode and div
A DC surge protection circuit for protecting hardware from surges. During operation when no surge condition is present, the circuit passes signals from an input to an output through an inductance. When a surge is present, the circuit conducts a portion of the surge through at least one diode and diverts the surge to a ground node. A gas tube begins to conduct a portion of the surge above a first voltage level after the at least one diode first begins to conduct. A first MOV begins to conduct a portion of the surge above a second voltage level after the gas tube begins to conduct. The circuit may include a status portion. The circuit may be within an enclosure for plug-in to a motherboard or within an enclosure of an in-line connector for connection with a cable. The circuit may be configured to attach directly to a frame.
대표청구항▼
1. A DC surge protection circuit comprising: a power input node for receiving an input signal, the input signal being either a surge signal or a non-surge signal;a power output node for outputting the non-surge signal;a first inductor electrically connected to the input node and the output node for
1. A DC surge protection circuit comprising: a power input node for receiving an input signal, the input signal being either a surge signal or a non-surge signal;a power output node for outputting the non-surge signal;a first inductor electrically connected to the input node and the output node for permitting the non-surge signal to flow substantially unimpeded from the power input node to the power output node;at least one diode electrically connected between the power output node and a ground node for diverting at least a first portion of the surge signal to the ground node;a first metal oxide varistor electrically connected between the power input node and the ground node and in parallel with the at least one diode, the first metal oxide varistor being configured to divert at least a second portion of the surge signal after the at least one diode diverts the at least the first portion of the surge signal;a surge protection switch electrically connected between the at least one diode and the ground node, the surge protection switch having a current state of either an open state or a closed state; andan auxiliary switch electrically connected to the ground node, the auxiliary switch having a current state of either an open state or a closed state, wherein the current state of the auxiliary switch is based on the current state of the surge protection switch. 2. The DC surge protection circuit of claim 1 further comprising: a resistor electrically connected between the auxiliary switch and a status node, the status node being configured to propagate a notification signal for notifying a user when at least one of the first inductor or the at least one diode has failed. 3. The DC surge protection circuit of claim 2 further comprising: a second inductor electrically connected between the first inductor and the power output node to form an intermediate node between the first inductor and the second inductor. 4. The DC surge protection circuit of claim 3 further comprising: a gas tube electrically connected in parallel with the first metal oxide varistor and the at least one diode; anda second metal oxide varistor electrically connected to the intermediate node and electrically connected in series with the gas tube. 5. The DC surge protection circuit of claim 4 wherein the at least one diode is a bi-directional diode. 6. The DC surge protection circuit of claim 4 further comprising: an enclosure defining a cavity therein; anda printed circuit board disposed at least partially within the cavity of the enclosure, the printed circuit board coupled with the at least one diode, the gas tube, the first metal oxide varistor and the second metal oxide varistor, wherein the printed circuit board is configured to electrically connect to a motherboard. 7. The DC surge protection circuit of claim 4 further comprising: a first screw mount terminal electrically connected to at least the power input node;a second screw mount terminal electrically connected to at least the power output node;a third screw mount terminal electrically connected to at least the ground node; anda fourth screw mount terminal electrically connected to at least the status node, wherein each of the first screw mount terminal, the second screw mount terminal, the third screw mount terminal, and the fourth screw mount terminal are configured to couple with a frame. 8. The DC surge protection circuit of claim 3 further comprising: an enclosure defining a cavity therein; anda printed circuit board disposed at least partially within the cavity of the enclosure, the printed circuit board coupled with the at least one diode and the first metal oxide varistor, wherein the printed circuit board is configured to connect to a plurality of connection terminals of a cable for providing in-line DC surge protection of the cable. 9. A DC surge protection circuit comprising: a power input node for receiving an input signal, the input signal being either a surge signal or a non-surge signal;a power output node electrically for outputting the non-surge signal;at least one inductor electrically connected to the input node and the output node for permitting the non-surge signal to flow substantially unimpeded from the power input node to the power output node;at least one diode electrically connected between the power output node and a ground node, the at least one diode being configured to divert at least a first portion of the surge signal to the ground node;a first metal oxide varistor electrically connected between the power input node and the ground node and in parallel with the at least one diode, the first metal oxide varistor being configured to divert at least a second portion of the surge signal after the at least one diode diverts the at least the first portion of the surge signal;an enclosure defining a cavity therein;a printed circuit board disposed at least partially within the cavity of the enclosure, the printed circuit board coupled with the at least one diode and the first metal oxide varistor, wherein the printed circuit board is configured to connect to a plurality of connection terminals of a cable for providing in-line DC surge protection of the cable; anda surge protection switch electrically connected between the at least one diode and the ground node. 10. The DC surge protection circuit of claim 9, wherein the surge protection switch has a current state of either an open state or a closed state, the DC surge protection circuit further comprising: an auxiliary switch electrically connected to the ground node, the auxiliary switch having a current state of either an open state or a closed state, wherein the current state of the auxiliary switch is based on the current state of the surge protection switch; anda resistor electrically connected between the auxiliary switch and a status node, the status node configured to propagate a notification signal for notifying a user when at least one of the at least one inductor or the at least one diode has failed. 11. The DC surge protection circuit of claim 9 wherein the at least one diode includes a first bi-directional diode and a second bi-directional diode, the bi-directional diode being connected in parallel with the first bi-directional diode, wherein each of the first bi-directional diode and the second bi-directional diode is electrically connected to the first metal oxide varistor, the surge protection switch and the power output node. 12. A DC surge protection circuit comprising: a power input node for receiving an input signal, the input signal being either a surge signal or a non-surge signal;a power output node for outputting the non-surge signal;a cable protector including a first end portion, a second end portion and a middle portion between the first end portion and the second end portion, the middle portion having a cavity therein;a first inductor positioned within the cavity and electrically connected to the input node and the output node for permitting a non-surge signal to flow substantially unimpeded from the power input node to the power output node;a second inductor positioned within the cavity and electrically connected between the first inductor and the power output node to form an intermediate node between the first inductor and the second inductor;at least one diode positioned within the cavity and electrically connected between the power output node and a ground node for diverting at least a first portion of a surge signal to the ground node;a first metal oxide varistor positioned within the cavity and electrically connected between the power input node and the ground node and in parallel with the at least one diode, wherein the first metal oxide varistor diverts at least a second portion of the surge signal to the ground node after the at least one diode diverts the at least the first portion of the surge signal; anda gas tube positioned within the cavity and electrically connected to the intermediate node and the ground node, wherein the gas tube is connect in parallel with the first metal oxide varistor and the at least one diode. 13. The DC surge protection circuit of claim 12 wherein the at least one diode is a bi-directional diode. 14. The DC surge protection circuit of claim 12 further comprising: a printed circuit board disposed at least partially within the cavity, the printed circuit board coupled with the at least one diode, the gas tube and the first metal oxide varistor.
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