Claims
- 1. A control and communication device for communicating with a three phase electric power line communications center via a two-way wireless communications means, said device comprising
a) capacitor bank switching controls; b) a two-way communications module for use with said capacitor bank switching controls for enabling communication via said two-way wireless communication means; and c) program means in said module for responding to requests received from said center for information from, and operations of, said capacitor banks switching controls.
- 2. A device as in claim 1 including a current imbalance sensing device for obtaining information as to the operation and status of said capacitor banks.
- 3. Apparatus as in claim 2 wherein said sensing device comprises a collar or toroidal core.
- 4. A device as in claim 1 wherein said two-way wireless communications module comprises a two-way paging module.
- 5. A control and communication device for communicating between a capacitor bank and a electric power control center wherein said capacitor bank is connected to three-phase distribution lines, said device comprising
a) a two-way wireless communications module including a microprocessor for communicating with said center; b) electrical leads connecting a capacitor bank switching control and a microprocessor interface board; c) current sensing means; and d) microprocessor program means responsive to said sensing means for selectively enabling said two-way wireless communications module to transmit to said center information from, and data of operations, of said capacitor bank switching control.
- 6. A device as in claim 5 wherein
a) a toroidal core or collar is connected to sense the imbalance in current flowing in the distribution lines; and b) said program means sets thresholds for initiating action in response to said imbalance of current.
- 7. A control and communication device for communicating between a capacitor bank and a electric power control center wherein said capacitor bank is connected to three-phase distribution lines, said device comprising
a) an adaptive capacitor control for monitoring and controlling a capacitor bank; b) a two-way wireless communications module including an microprocessor interface board and a two-way messaging board for communicating with said center; c) a meter socket: d) a two-way communications means connecting a capacitor bank switching control and said microprocessor interface board; e) a current sensing mean; f) said autoadaptive capacitor control selectively operating in conjunction with said interface board to interrelate with said capacitor bank switching control; and g) microprocessor program means responsive to said sensing means for activating said two-way wireless communications module to transmit information to said center of information from, and operations of, said capacitor bank switching control.
- 8. A device as in claim 7 further including
a) a five blade meter socket; b) said autoadaptive capacitor control comprising a Beckwith Electric Co. M-2501A control having a four blade connector; c.) an integral housing formed of said adaptive capacitor control stacked onto said communications module and said communications module stacked on said meter socket wherein said communications module has mating blades at one end thereof which mate with said meter socket and blades on the other end which mate with the four blade socket of the autoadaptive capacitor; and c) said microprocessor interface board operating selectively either independently of, or in combination with said M-2501A adaptive capacitor control.
- 9. A device as in claim 7 further including an infrared communication port.
- 10. A device as in claim 7 wherein said two-way messaging board comprises Motorola, Inc. ReFlex (TM) two-way paging technology.
- 11. A device as in claim 5 wherein
a) a current transformer collar is connected to sense the imbalance in current flowing in the distribution lines; and b) said program means sets thresholds for initiating action in response to said imbalance of current.
- 12. A method of operating switching controls for three phase electric power distribution line capacitors consisting of the steps of:
a) receiving requests for data by receivers of wireless two-way messaging modules; b) obtaining said requested data from said capacitor switching controls; and c) replying to said requests using transmitters of said two-way messaging modules.
- 13. A method as in claim 12 further including the steps of
a) assigning a location identification o said capacitor banks modules; and b) sending said identification with the message transmitted.
- 14. A method as in claim 12 further including the step of
a) obtaining data from said capacitor switching controls by using infra red ports on said autoadaptive capacitor controls and said communications module.
- 15. A method as in claim 12 further including the step of communicating with said capacitor switching control using infrared communication from hand-held devices.
- 16. A method as in claim 12 further including the steps of
a) sensing imbalance current from line to neutral; b) comparing said imbalance current to a pre-set threshold, and c) if said threshold is exceeded, sending data and location identification information using said two-way messaging system, whereby information may be used to dispatch maintenance personnel to the capacitor bank location.
Parent Case Info
[0001] This application claims the benefit of Provisional Application No. 60/260,498 filed Jan. 9, 2001.
Provisional Applications (1)
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Number |
Date |
Country |
|
60260498 |
Jan 2001 |
US |