Claims
- 1. A method for coupling a data signal over a power distribution system, the method comprising:
installing an inductive signal coupler on a transformer secondary line conductor of a power distribution system adjacent to a secondary winding of a distribution transformer; and connecting a communication device to the inductive signal coupler so that a data signal can be coupled between the communication device and the power distribution system.
- 2. A method according to claim 1, wherein the installing an inductive signal coupler further places the coupler adjacent to the secondary winding of the distribution transformer within {fraction (1/10)} wavelength of a highest used frequency of the data signal.
- 3. A method according to claim 1, further comprising:
connecting a capacitor across two terminals of the transformer secondary winding such that the capacitor presents a high impedance to a power signal and a low impedance to a data signal.
- 4. A method according to claim 1, wherein the transformer secondary line conductor is a neutral conductor.
- 5. A method according to claim 1, wherein the communication device is a spread-spectrum modem.
- 6. A method according to claim 1, wherein the inductive signal coupler includes a split magnetic core clamped over the transformer secondary line conductor, and an inductive winding is wound over the core so that a portion of the transformer secondary line conductor within the core couples the data signal.
- 7. A data signal system for a coupling a data signal over a power distribution system, the signal system comprising:
an inductive signal coupler installed on a transformer secondary line conductor of a power distribution system adjacent to a distribution transformer; and a communication device connected to the inductive signal coupler so that a data signal can be coupled between the communication device and the power distribution system.
- 8. A signal system according to claim 7, wherein the inductive signal coupler is installed adjacent to the secondary winding of the distribution transformer within {fraction (1/10)} wavelength of a highest used frequency of the data signal.
- 9. A signal system according to claim 7, further comprising:
a capacitor across two terminals of the transformer secondary winding such that the capacitor presents a high impedance to a power signal and a low impedance to a data signal; and
- 10. A signal system according to claim 7, wherein the first line conductor is a neutral conductor.
- 11. A signal system according to claim 7, wherein the communication device is a spread-spectrum modem.
- 12. A signal system according to claim 7, wherein the inductive signal coupler includes a split magnetic core clamped over the transformer secondary line conductor, and an inductive winding is wound over the core so that a portion of the transformer secondary line conductor within the core couples the data signal.
- 13. A method for coupling a data signal over a power distribution system, the method comprising:
connecting a series inductance coupler to a first line conductor of a power distribution system; connecting a shunt capacitance coupler between the first line conductor and a second line conductor; and providing a communication device having parallel first and second interfaces, one interface being connected to the inductance coupler and the other interface being connected to the capacitance coupler, to enable coupling of a data signal between the communication device and the power distribution system.
- 14. A method according to claim 13, wherein the first line conductor is a neutral conductor.
- 15. A method according to claim 11, wherein the communication device is a spread-spectrum modem.
- 16. A method according to claim 11, wherein the inductive signal coupler includes a split magnetic core clamped over the first line conductor.
- 17. A method according to claim 11, wherein the distribution system includes a distribution transformer and the inductive signal coupler is connected adjacent to a secondary winding of the transformer within {fraction (1/10)} wavelength of a highest used frequency of the data signal.
- 18. A data signal system for coupling a data signal over a power distribution system, the signal system comprising:
a series inductance coupler connected to a first line conductor of a power distribution system; a shunt capacitive coupler connected between the first line conductor and a second line conductor; and a communication device having parallel first and second interfaces, the first interface being connected to one coupler and the second interface being connected to the other coupler, to enable coupling of a data signal between the communication device and the power distribution system.
- 19. A signal system according to claim 16, wherein the first line conductor is a neutral conductor.
- 20. A signal system according to claim 16, wherein the communication device is a spread-spectrum modem.
- 21. A signal system according to claim 16, wherein the inductive signal coupler includes a split magnetic core clamped over the first line conductor.
- 22. A signal system according to claim 16, wherein the distribution system includes a distribution transformer and the inductive signal coupler is connected adjacent to a secondary winding of the transformer within {fraction (1/10)} wavelength of a highest used frequency of the data signal.
- 23. A method for coupling a data signal across a low impedance node of a power distribution system, the method comprising:
connecting a capacitor in parallel with a low impedance node of a power distribution system, the capacitor presenting a high impedance to a power signal and a low impedance to a data signal; connecting a first inductive coupler in series with a line conductor, upstream of the node; connecting a second inductive coupler in series with the line conductor, downstream of the node; and operatively connecting the first inductive coupler and the second inductive coupler to couple the data signal across the node.
- 24. A method according to claim 21, wherein operatively connecting includes connecting a signal amplifier between the first inductive coupler and the second inductive coupler.
- 25. A method according to claim 21, wherein operatively connecting includes connecting a data router between the first inductive coupler and the second inductive coupler for selectively routing a data signal between the first inductive coupler and the second inductive coupler.
- 26. A method according to claim 23, wherein the second inductive coupler is one of a plurality of inductive couplers downstream of the node, and wherein the data router selectively routes data signals between the first inductive coupler and the plurality of inductive couplers.
- 27. A data signal system for coupling a data signal across a low impedance node of a power distribution system, the signal system comprising:
a capacitor connected in parallel with a low impedance node of a power distribution system, and presenting a high impedance to a power signal and a low impedance to a data signal; a first inductive coupler connected in series with a line conductor, upstream of the node; and a second inductive coupler connected in series with the line conductor, downstream of the node; wherein the first inductive coupler and the second inductive coupler are operably connected to couple the data signal across the node.
- 28. A data signal system according to claim 25, wherein a signal amplifier operably connects the first inductive coupler and the second inductive coupler.
- 29. A data signal system according to claim 25, wherein a data router operably connects the first inductive coupler and the second inductive coupler to selectively route a data signal between the first inductive coupler and the second inductive coupler.
- 30. A data signal system according to claim 27, wherein the second inductive coupler is one of a plurality of inductive couplers downstream of the node, and wherein the data router selectively routes data signals between the first inductive coupler and the plurality of inductive couplers.
Parent Case Info
[0001] This application claims priority from provisional patent application No. 60/279,939, filed Mar. 29, 2001.
Provisional Applications (1)
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Number |
Date |
Country |
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60279939 |
Mar 2001 |
US |