Intelligent electronic device having audible and visual interface
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05B-011/01
G01D-004/00
G05B-023/02
출원번호
US-0892695
(2013-05-13)
등록번호
US-9322669
(2016-04-26)
발명자
/ 주소
Kagan, Erran
출원인 / 주소
Electro Industries/Gauge Tech
대리인 / 주소
Hespos, Gerald E.
인용정보
피인용 횟수 :
0인용 특허 :
113
초록▼
An intelligent electronic device having an audible and visual interface for providing audible and visual instructions to a user in an event of an alarm or trouble indication in the electrical power system. The intelligent electronic device includes at least one sensor configured for measuring at lea
An intelligent electronic device having an audible and visual interface for providing audible and visual instructions to a user in an event of an alarm or trouble indication in the electrical power system. The intelligent electronic device includes at least one sensor configured for measuring at least one power parameter of an electrical circuit and generating at least one analog signal indicative of the at least one power parameter; at least one analog to digital converter for receiving the at least one analog signal and converting the at least one analog signal to at least one digital signal; a processor configured for receiving the at least one digital signal and detecting at least one event occurring in the electrical circuit; and an interface configured for providing instructions associated to the at least one detected event. The instructions may be in the form of text, audio and/or video.
대표청구항▼
1. An intelligent electronic device for monitoring power usage of an electrical circuit, the intelligent electronic device comprising: at least one sensor coupled to an electrical circuit associated with a usage point, the electrical circuit coupled to a power distribution network that distributes p
1. An intelligent electronic device for monitoring power usage of an electrical circuit, the intelligent electronic device comprising: at least one sensor coupled to an electrical circuit associated with a usage point, the electrical circuit coupled to a power distribution network that distributes power to multiple usage points, the at least one sensor configured to measure at least one power parameter of the electrical circuit and generate at least one analog signal indicative of the at least one power parameter;at least one analog to digital converter coupled to the at least one sensor, the at least one analog to digital converter configured to receive the at least one analog signal and convert the at least one analog signal to at least one digital signal indicative of the at least one power parameter;a memory for storing at least one digital file, each of the at least one digital file being associated with a respective event that may occur in the electrical circuit and including a graphic indication of the respective event, wherein each event is at least one of an alarm condition and a trouble condition;a processor configured to receive the at least one digital signal indicative of the at least one power parameter and detect, based on the at least one power parameter, if at least one first event occurs in the electrical circuit, the processor further configured to retrieve, from the memory, the at least one digital file associated with the detected at least one first event when the at least one first event occurs; anda display device coupled to the processor and disposed on the intelligent electronic device, the display device configured to receive from the processor the retrieved at least one digital file and play the retrieved at least one digital file to provide the graphic indication of the detected at least one first event. 2. The intelligent electronic device as in claim 1, wherein the display device is further configured to provide text instructions on how to rectify the detected at least one first event. 3. The intelligent electronic device as in claim 2, wherein the text instructions are an operating manual associated with the intelligent electronic device. 4. The intelligent electronic device as in claim 2, wherein the text instructions are a checklist for troubleshooting the detected at least one first event. 5. The intelligent electronic device as in claim 2, wherein the text instructions are a flowchart for troubleshooting the detected at least one first event. 6. The intelligent electronic device as in claim 1, wherein the memory is further configured to store at least one instructional audio file on how to rectify at least one event that may occur in the electrical circuit, each of the at least one instructional audio file being associated with a respective event and including spoken instructions on how to rectify the respective event, and further comprising an audio output device coupled to the processor and disposed on the intelligent electronic device, the audio output device configured to receive from the processor the retrieved at least one instructional audio file and play the retrieved at least one instructional audio file to provide spoken instructions, at the intelligent electronic device, on how to rectify the detected at least one first event, the spoken instructions being provided to a user of the intelligent electronic device. 7. The intelligent electronic device as in claim 6, further comprising an audio input device disposed on the intelligent electronic device configured to record spoken instructions on how to rectify at least one event that may occur in the electrical circuit. 8. The intelligent electronic device as in claim 1, wherein the memory is further configured to store at least one instructional video file on how to rectify at least one event that may occur in the electrical circuit, each of the at least one instructional video file being associated with a respective event, the display device being further configured to receive from the processor a retrieved at least one instructional video file and play the at least one instructional video file, causing the display device to provide video instructions on how to rectify the detected at least one first event. 9. The intelligent electronic device as in claim 1, wherein the detected at least one first event is an alarm condition. 10. The intelligent electronic device as in claim 1, wherein the memory is removable. 11. The intelligent electronic device as in claim 1, further comprising a communication device configured to retrieve at least one second digital file from a remote server over a network and store the at least one second digital file in the memory. 12. The intelligent electronic device as in claim 11, wherein the communication device communicates via Transmission Control Protocol/Internet Protocol (TCP/IP), File Transfer Protocol (FTP), Hypertext Transfer Protocol (HTTP), Internet Protocol Security Protocol (IPSec), Point-to-Point Tunneling Protocol (PPTP) or Secure Sockets Layer (SSL) Protocol. 13. The intelligent electronic device as in claim 1, further comprising a communication device configured to conduct voice communications to a remote location. 14. The intelligent electronic device as in claim 13, wherein the communication device communicates via GPRS (General Packet Radio Service) data protocol or a 3G protocol. 15. The intelligent electronic device as in claim 1, further comprising a communication device configured to retrieve the at least one digital file associated with the respective event from a remote server upon detection of the respective at least one first event. 16. The intelligent electronic device as in claim 15, wherein upon detecting the at least one first event, the communication device retrieves updated operating instructions from the remote server. 17. The intelligent electronic device as in claim 1, wherein the at least one sensor, the at least one analog to digital converter, the memory, the processor and the display device are configured in a socket-type meter form. 18. The intelligent electronic device as in claim 1, wherein the at least one sensor, the at least one analog to digital converter, the memory, the processor and the display device are configured in a panel mounted meter form. 19. The intelligent electronic device as in claim 1, wherein the at least one sensor, the at least one analog to digital converter, the memory, the processor and the display device are configured in a switchboard meter form. 20. The intelligent electronic device as in claim 1, wherein the at least one sensor, the at least one analog to digital converter, the memory, the processor and the display device are configured in a A-base front wired meter form. 21. The intelligent electronic device as in claim 1, wherein the at least one sensor, the at least one analog to digital converter, the memory, the processor and the display device are configured in a circuit breaker mounted meter form. 22. A protective relay for monitoring an electrical circuit, the protective relay comprising: at least one sensor coupled to an electrical circuit associated with a usage point, the electrical circuit coupled to a power distribution network that distributes power to multiple usage points, the at least one sensor configured to monitor at least one parameter of the electrical circuit and generate at least one analog signal indicative of the at least one parameter;at least one analog to digital converter coupled to the at least one sensor, the at least one analog to digital converter configured to receive the at least one analog signal and convert the at least one analog signal to at least one digital signal indicative of the at least one parameter;a memory for storing at least one digital file, each of the at least one digital file being associated with a respective event that may occur in the electrical circuit and including a graphic indication of the respective event, wherein each event is at least one of an alarm condition and a trouble condition;a processor configured to receive the at least one digital signal indicative of the at least one parameter, the processor further configured to detect whether or not at least one first event occurs in the electrical circuit based on the at least one parameter, the processor further configured to retrieve, from the memory, the at least one digital file associated with the detected at least one first event when the processor detects that at least one first event occurs; anda display device coupled to the processor and disposed on the protective relay, the display device configured to receive from the processor the retrieved at least one digital file and play the retrieved at least one digital file to provide the graphic indication of the detected at least one first event. 23. The protective relay as in claim 22, wherein the display device is a liquid crystal display. 24. The protective relay as in claim 22, wherein the display device is a touch screen. 25. The protective relay as in claim 22, wherein the memory is removable. 26. The protective relay as in claim 25, wherein the memory is at least one of a compact flash card, a memory stick, smartmedia card, multimediacard (MMC) and a secure digital (SD) card. 27. The protective relay as in claim 22, further comprising a communication device configured to communicate data to at least one computing device. 28. The protective relay as in claim 27, wherein the communication device communicates via GPRS (General Packet Radio Service) data protocol or a 3G protocol. 29. The protective relay as in claim 27, wherein the communication device communicates via a USB port. 30. The protective relay as in claim 22, wherein the memory is further configured to store at least one audio file associated with a respective event that may occur in the electrical circuit, and further comprising an audio output device coupled to the processor, the audio output device configured to receive from the processor a retrieved at least one audio file and play the retrieved at least one audio at the intelligent electronic device.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (113)
Rene T. Jonker CA; Piotr B. Przydatek CA; Colin N. Gunn CA; Michael E. Teachman CA; Constantine A. Antoniou CA, A-base revenue meter with power quality features.
Wiggins Carl M. (Albuquerque NM) Nickel Frank S. (Albuquerque NM) Thomas David E. (Peralta NM) Halko Stephen J. (Corrales NM) Salas Thomas M. (Albuquerque NM) Shapiro Gary H. (Albuquerque NM), Advanced cable fault location.
Forth, J. Bradford; Teachman, Michael E.; Yeo, Jeffrey W., Apparatus and method for measuring and reporting the reliability of a power distribution system.
Przydatek, Piotr B.; Forth, Bradford J.; Teachman, Michael E.; Yeo, Jeffrey W., Apparatus and method for measuring and reporting the reliability of a power distribution system with improved accuracy.
Kalokitis,David; Schultz,Leonard Joshua; Polyzois,Christos A.; Paragano,Vincent, Apparatus and method for monitoring and controlling detection of stray voltage anomalies.
Bender, Robert Lawrence; Speno, Timothy Hamilton; Henricks, Michael Craig; Douglass, Robert Stephen, Circuit protector signal transmission, methods and system.
Blackett, Andrew W.; Gilbert, Bryan J.; Van Gorp, John C.; Teachman, Michael E.; Yeo, Jeffrey W., Communications architecture for intelligent electronic devices.
Kertesz Veronica ; Whitehead Don ; Burke James ; Tanna Harshad ; Garg Subhash ; Rao A. Rajeshwar,INX ; Lakshmi S. S.,INX ; Mishra S. ; Lakshminarayana J. ; Tamanna Pradeep Kumar,INX ; Kumar B. Ravi,I, Dynamic data exchange server.
Gunn, Colin N.; Etheridge, Hal E.; Hancock, Martin A.; Lightbody, Simon H.; Loewen, Dan N., Electric charge storage apparatus and method for an intelligent electronic device.
Lightbody, Simon H.; Cowan, Peter C.; Giles, David W.; Jonker, Rene T.; Hirschbold, Markus F., External I/O and communications interface for a revenue meter.
Forth,J. Bradford; Cowan,Peter C.; Ransom,Douglas Stephen; Stevenson,Thomas S.; Yeo,Jeffrey W., Human machine interface for an energy analytics system.
Hancock,Martin A.; Forth,J. Bradford; Lightbody,Simon H.; Huber,Benedikt T.; Teachman,Michael E., Integrated circuit with power monitoring/control and device incorporating same.
Forth, Bradford J.; Cowan, Peter C.; Giles, David W.; Ki, Chuen Shan Simon; Sheppard, Jason D.; Van Gorp, John C.; Yeo, Jeffrey W.; Teachman, Michael E.; Gilbert, Bryan J.; Hart, Ronald G., Intra-device communications architecture for managing electrical power distribution and consumption.
Spencer George Auther ; Blanton LeRoy ; Clunn Robert Henry, Load center monitor and digitally enhanced circuit breaker system for monitoring electrical power lines.
Spencer George Auther ; Blanton LeRoy ; Clunn Robert Henry, Load center monitor and digitally enhanced circuit breakers system for electrical power lines.
Whitehead, Don; Burke, Jr., James E.; Tanna, Harshad; Garg, Subhash; Kertesz, Veronica; Rajeshwar, Arra R.; Lakshmi, Shubha; Kandula, Venkatarao; Nori, Saikrishna; Shareef, Abdul R.; Marthi, Kailash, Man machine interface for power management control systems.
Spencer George Auther ; Blanton LeRoy ; Clunn Robert Henry, Method and apparatus for adaptive configuration and control in a network of electronic circuit breakers.
Snow Peter B. (Colorado Springs CO) Apostolov Alexander P. (Binghamton NY) Bronfeld Jefferson D. (Binghamton NY), Method and apparatus for detecting high-impedance faults in electrical power systems.
Ebrom, Matthew P.; Elston, III, Wallace J.; Glotzbach, Mark E.; Heilman, Layne E.; Jenkins, Anthony E.; McCoy, Richard A., Method and apparatus for remote service of an appliance.
Blackett, Andrew W.; Gilbert, Bryan J.; Hancock, Martin A., Method and system for master slave protocol communication in an intelligent electronic device.
Cumming,Daniel A.; Forth,J. Bradford; Wynans,Arthur B.; Haight,Eric K.; Ransom,Douglas S.; Hancock,Martin A., Methods and apparatus for retrieving energy readings from an energy monitoring device.
Gunn,Colin N.; Hancock,Martin A.; Forth,J. Bradford; Lightbody,Simon H.; Sheppard,Jason; Kingham,Brian R., Power line sensors and systems incorporating same.
Salas Patrick G. ; Brown Donald R. ; Bscheider Jose ; Murphy Thomas A. ; Broadnax ; Jr. Grady W. ; Yee Edgar ; Doddy Mary A. ; Kertesz Veronica ; Purkayastha Indrajit ; Uecker Sara ; Burke James ; Fo, Power management control system.
Loucks Gregory R. (Sidney CAX) Ki Chuen Shan Simon (Victoria CAX) Ransom Douglas S. (Victoria CAX) Dravnieks Olaf O. W. (Victoria CAX) Chivers David A. (Victoria CAX) Teachman Michael E. (Victoria CA, Power monitor apparatus and method with object oriented structure.
Loucks Gregory R.,CAX ; Ki Chuen Shan Simon,CAX ; Ransom Douglas S.,CAX ; Dravnieks Olaf O.W.,CAX ; Chivers David A.,CAX ; Teachman Michael E.,CAX ; Hart Ronald G.,CAX, Power monitor apparatus and method with object oriented structure.
Ozcetin, H. Kurtulus; Lightbody, Simon H.; Van Doorn, Peter M.; Jonker, Rene T., Power system time synchronization device and method for sequence of event recording.
Macfarlane, I. Ross; Cowan, Peter C.; Giles, David W.; Hirschbold, Markus F.; Jonker, Rene T., Revenue meter with a graphic user interface being operative to display scalable objects.
Bender, Robert Lawrence; Speno, Timothy Hamilton; Henricks, Michael Craig; Douglass, Robert Stephen; Bender, Joan Leslie Winnett; Darr, Matthew R., System and method for circuit protector monitoring and management.
Forth, J. Bradford; Hancock, Martin A.; Gasper, Marcus; Van Doorn, Peter M., System and method for manufacturing and configuring intelligent electronic devices to order.
Forth,J. Bradford; Dagg,Jordon M.; Hancock,Martin A.; Hirschbold,Markus F.; Hyatt,Geoffrey T.; Lightbody,Simon H., Systems for in the field configuration of intelligent electronic devices.
Martin Warren T. ; Watson William James ; Grisham Gregory A. ; Anderson Michael K. ; Bond Randal K., Watt-hour meter with communication on diagnostic error detection.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.