Electrical fuse indicators, systems and methods for detecting when fuses enter an open state involve a wireless identification element, which alerts a communication unit that the fuse has entered an open state. The wireless identification device may include an antenna. The antenna may be in contact
Electrical fuse indicators, systems and methods for detecting when fuses enter an open state involve a wireless identification element, which alerts a communication unit that the fuse has entered an open state. The wireless identification device may include an antenna. The antenna may be in contact with a fuse element, such that opening of the fuse element renders the antenna inoperable. Alternatively the antenna may be connected to the fuse element in such a manner that opening of the fuse element alters the frequency on which the antenna transmits. A logic port may also be used to detect the operational state of a fuse. Use of such indicators is compatible with existing infrastructure.
대표청구항▼
1. An electrical fuse comprising: a protective body;terminal elements extending from said protective body;a primary fuse element extending within said protective body and electrically connected between said terminal elements to define a primary current path, said primary fuse element constructed to
1. An electrical fuse comprising: a protective body;terminal elements extending from said protective body;a primary fuse element extending within said protective body and electrically connected between said terminal elements to define a primary current path, said primary fuse element constructed to open the primary current path upon an occurrence of a predetermined current condition, whereby electrical current can no longer be conducted in the primary current path and providing overcurrent protection to an electrical circuit completed through said terminal elements;a secondary fuse link electrically connected between said terminal elements in parallel with the primary fuse element, whereby when the primary current path is open electrical current is conducted through the secondary fuse link; andan identification element connected to the secondary fuse link, the identification element being configured to transmit a wireless signal to a remote device, wherein electrical current conducted through the secondary fuse link after the primary current path is opened alters said identification element and allows a determination by the remote device of whether the primary current path has opened. 2. An electrical fuse comprising: a protective body;terminal elements extending from said protective body;a primary fuse element extending within said protective body and electrically connected between said terminal elements, said primary fuse element constructed to open upon an occurrence of a predetermined current condition, thereby providing overcurrent protection to an electrical circuit completed through said terminal elements;a secondary fuse link electrically connected between said terminal elements, said secondary fuse link constructed to open upon operation of said primary fuse element; andan identification element coupled to the secondary fuse link, the identification element being configured to transmit a wireless signal to a remote device when the primary fuse element is in an operational current carrying state;wherein the state of said primary fuse element affects the transmission of said wireless signal from said identification element; andwherein said identification element comprises an antenna coupled to said secondary fuse link in a manner that will render the antenna inoperable in the event of opening of said secondary fuse link, which results in the identification element not being able to transmit the wireless signal. 3. An electrical fuse in accordance with claim 2, further comprising a second identification element coupled to said electrical fuse; and wherein said second identification element remains functional in the event of opening of said primary fuse element. 4. An electrical fuse comprising: a protective body;terminal elements extending from said protective body;a primary fuse element extending within said protective body and electrically connected between said terminal elements, said primary fuse element constructed to open upon an occurrence of a predetermined current condition, thereby providing overcurrent protection to an electrical circuit completed through said terminal elements;a secondary fuse link electrically connected between said terminal elements, said secondary fuse link constructed to open upon operation of said primary fuse element; andan identification element coupled to the secondary fuse link, the identification element being configured to transmit a wireless signal to a remote device when the primary fuse element is in an operational current carrying state;wherein the state of said primary fuse element affects the transmission of said wireless signal from said identification element; andwherein said identification element comprises an antenna that broadcasts at an original central frequency while the primary fuse element is in an operational current carrying state; andwherein said antenna broadcasts at an altered central frequency upon opening of the primary fuse element. 5. An electrical fuse in accordance with claim 4, wherein said altered central frequency is receivable by said remote device. 6. A fuse state indication system comprising: a plurality of overcurrent protection fuses, each fuse comprising a primary fuse element and a secondary fuse link, the primary fuse element extending between terminal elements, said terminal elements configured for removable connection to line-side and load-side electrical circuitry and said terminal elements completing a current path through said primary fuse element, the current path of the primary fuse element opening upon a predetermined current flowing through the primary fuse element, the secondary fuse link electrically connected between said terminal elements in parallel with the primary fuse element, whereby current flows through said secondary fuse link when said current path of said primary fuse element has opened;a plurality of wireless identification elements, each wireless identification element respectively connected to said secondary fuse link in each fuse and responsive to current flow in said secondary fuse link; andan interrogation device configured to wirelessly communicate with said plurality of wireless identification elements to determine whether said current path in any of the primary fuse elements has opened. 7. A fuse state indication system in accordance with claim 6, wherein each said wireless identification element comprises an antenna configured to transmit a wireless signal to the interrogation device. 8. A fuse state indication system in accordance with claim 6, wherein said interrogation device is configured to transmit an interrogation request to each of said identification elements. 9. A fuse state indication system in accordance with claim 6, wherein said interrogation device is coupled to a location adjacent the fuses. 10. A fuse state indication system in accordance with claim 9, further comprising a device for relaying information collected by said interrogation device from said identification elements to a remote location. 11. A fuse state indication system in accordance with claim 6, wherein said interrogation device interprets wireless signals received from said wireless identification elements to identify any of said fuses in the opened stated based on a template, and wherein said template comprises a record of expected responses to be returned by said wireless identification elements. 12. A fuse state indication system in accordance with claim 6, further comprising: at least one wireless panel identification element;wherein each wireless panel identification element is coupled to an electrical panel containing said overcurrent protection fuses; andwherein said interrogation device is configured to wirelessly communicate with said at least one wireless panel identification element to determine the location of said at least one wireless identification element and whether each of said fuses is in a current carrying state or an opened state. 13. A fuse state indication system comprising: a plurality of overcurrent protection fuses, each fuse comprising a primary fuse element and a secondary fuse link, the primary fuse element extending between terminal elements, said terminal elements configured for removable connection to line-side and load-side electrical circuitry and said terminal elements completing a current path through said primary fuse element, the current path of the primary fuse element opening upon a predetermined current flowing through the primary fuse element, the secondary fuse link electrically connected between said terminal elements, said secondary fuse link constructed to open upon operation of said primary fuse element;a plurality of wireless identification elements, each wireless identification element coupled to one of said fuses; andan interrogation device configured to wirelessly communicate with said plurality of wireless identification elements to determine whether each of said fuses is in a current carrying state or an opened state;wherein each said wireless identification element comprises an antenna configured to transmit a wireless signal to the interrogation device when the corresponding fuse is in the current carrying state; andwherein each said antenna is configured to be inoperable when the corresponding fuse is in the opened state. 14. A fuse state indication system comprising: a plurality of overcurrent protection fuses, each fuse comprising a primary fuse element and a secondary fuse link, the primary fuse element extending between terminal elements, said terminal elements configured for removable connection to line-side and load-side electrical circuitry and said terminal elements completing a current path through said primary fuse element, the current path of the primary fuse element opening upon a predetermined current flowing through the primary fuse element, the secondary fuse link electrically connected between said terminal elements, said secondary fuse link constructed to open upon operation of said primary fuse element;a plurality of wireless identification elements, each wireless identification element coupled to one of said fuses; andan interrogation device configured to wirelessly communicate with said plurality of wireless identification elements to determine whether each of said fuses is in a current carrying state or an opened state;wherein each said wireless identification element comprises an antenna configured to transmit a wireless signal to the interrogation device when the corresponding fuse is in the current carrying state;wherein each said antenna is configured to transmit an alternative wireless signal when the corresponding fuse is in the opened state.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (59)
Hase Alfred M. (6 Manorwood Dr. Scarborough ; ON CAX), Alarm circuits to indicate the open status of circuit breakers or fuses for DC telecom and AC distribution circuits.
Fruhauf Serge (Peynier FRX) Tailliet Francois (Epinay sur Seine FRX), Circuit for detection of the state of an integrated circuit fuse in a balanced fuse configuration.
Lewiner Jacques (5 ; rue Bory d\Arnex 92210 Saint-Cloud FRX) Dreyfus Gerard (Rue du Viaduc Villebon sur Yvette ; 91120 Palaiseau FRX) Perino Didier (10 ; rue de Bellevue 92150 Suresnes FRX), Devices for detecting the rupture of an electrical circuit element.
Canada Miles G. (Colchester VT) Nicewicz Michael (Jericho VT) Rawlins John R. (Wallkill NY) Rivadeneira Carlos G. (Wappingers Falls NY), Fuse blow circuit.
Bolda Daniel (Milwaukee County WI) Havey Michael R. (Waukesha County WI) Gibart Anthony G. (Milwaukee County WI), Low leakage fuse blown detection circuit.
Piety Kenneth R. ; Hilemon Christopher G. ; Reeves Todd W. ; Glumac Miodrag ; Rich Michael D., Method and apparatus for establishing a predictive maintenance database.
Lipner Melvin H. (Monroeville PA) Reed David A. (Plum Borough PA) Whaley Steven D. (Monroeville PA), On-line plant operating procedure guidance system.
Handfield Michael (910 Sherwood Ct. Rochester MI 48307) Laliberte Helene (910 Sherwood Ct. Rochester MI 48307), System and method for monitoring a pneumatic tire.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.