Inductive coupling system for the bi-directional transmission of digital data

US 4,758,836 A
Filed: 06/20/1983
Issued: 07/19/1988
Est. Priority Date: 06/20/1983
Status: Expired due to Term

First Claim

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1. A bi-directional, digital signal transmission system comprising:

(a) a sole transformer having a primary winding coupled to an interrogation unit and a secondary winding coupled to a data gathering transponder unit, said transformer transmitting an interrogation signal in a first direction from said interrogation unit to said transponder unit and a data bearing response signal in a second direction from said transponder unit to said interrogation unit;

(b) said interrogation unit comprising first means coupled to said primary winding for generating said interrogation signal, said interrogation signal comprised of a first train of regularly occurring digital clock pulses and transmission interval pulses, each transmission interval pulse defining a transmission interval for the transmission of said response signal, and means for setting the pulse width of selected of said clock pulses to form said transmission interval pulses; and

(c) said transponder unit comprising energy conversion means coupled to said secondary winding for providing the sole energization of said transponder unit in response to said transmitted clock signals of said interrogation signal appearing at said secondary winding, and second means responsive to said selected transmission interval pulses appearing at said secondary winding for generating and applying during said transmission intervals digital signals indicative of the gathered data to said secondary winding to be transmitted via said transformer to said interrogation unit.

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Abstract

A bi-directional, digital data transmission system is disclosed for transmitting an interrogation signal in a first direction from an interrogation unit to a data gathering transponder unit, and a data return signal in a second direction from the meter or data gathering transponder unit to the interrogation unit. This system comprises a single transformer having a primary winding coupled to the interrogation unit and a secondary winding coupled to the transponder unit. The interrogation unit generates an interrogation signal comprised of a first train of regularly occurring digital clock pulses and transmission interval pulses, each transmission interval pulse defining a transmission interval for the transmission of the data return signal. The transmission interval is set to be of a sufficient length to permit the transformer to desaturate to a level to permit efficient transmission of the data return signal to the interrogation unit. The transponder unit includes a data transmitting circuit responsive to the transmission interval pulses appearing at the secondary winding for generating and applying, during the transmission intervals, digital signals indicative of the gathered data to the secondary winding to be transmitted via the transformer to the interrogation unit.

Citations

86 Claims

1. A bi-directional, digital signal transmission system comprising:
- (a) a sole transformer having a primary winding coupled to an interrogation unit and a secondary winding coupled to a data gathering transponder unit, said transformer transmitting an interrogation signal in a first direction from said interrogation unit to said transponder unit and a data bearing response signal in a second direction from said transponder unit to said interrogation unit;
  
  (b) said interrogation unit comprising first means coupled to said primary winding for generating said interrogation signal, said interrogation signal comprised of a first train of regularly occurring digital clock pulses and transmission interval pulses, each transmission interval pulse defining a transmission interval for the transmission of said response signal, and means for setting the pulse width of selected of said clock pulses to form said transmission interval pulses; and
  
  (c) said transponder unit comprising energy conversion means coupled to said secondary winding for providing the sole energization of said transponder unit in response to said transmitted clock signals of said interrogation signal appearing at said secondary winding, and second means responsive to said selected transmission interval pulses appearing at said secondary winding for generating and applying during said transmission intervals digital signals indicative of the gathered data to said secondary winding to be transmitted via said transformer to said interrogation unit.
- View Dependent Claims (42, 43, 45)
- - 42. The bi-directional, digital signal transmission system as claimed in claim 1, wherein the pulse width of said transmission interval pulses is selected to be greater than the pulse width of said clock pulses to permit desaturation of said transformer to a level to permit efficient transmission of said second signal via said transformer to said interrogation unit.
  - 43. The bi-directional, digital signal transmission system as claimed in claim 1, wherein said transponder unit comprises detection means responsive to said interrogation signal appearing at said secondary winding for providing enable signals in response to the presence of said transmission interval pulses.
  - 45. The bi-directional, digital signal transmission system as claimed in claim 1, wherein said first generating means generates a sequence of a given number of clock pulses followed by a single transmission interval pulse, said number of clock pulses being selected to ensure the sufficient energization of said transponder unit.

2. A bi-directional, digital signal transmission system comprising:
- (a) a sole transformer having a primary winding coupled to an interrogation unit and a second winding coupled to a data gathering transponder unit, said transformer transmitting an interrogation signal in a first direction from said interrogation unit to said transponder unit and a data bearing response signal in a second direction from said transponder unit to said interrogation unit;
  
  (b) said interrogation unit comprising first means coupled to said primary winding for generating said interrogation signal, said interrogation signal comprised of a first train of regularly occurring digital clock pulses and transmission intervals pulses, each transmission interval pulse defining a transmission interval for the transmission of said response signal;
  
  (c) said transponder unit comprising energy conversion means coupled to said secondary winding for providing the sole energization of said transponder unit in response to said transmitted clock signals of said interrogation signal appearing at said secondary winding, and second means responsive to said transmission interval pulses appearing at said secondary winding for generating and applying during said transmission intervals digital signals indicative of the gathered data to said secondary winding to be transmitted via said transformer to said interrogation unit, said second means comprising detection means responsive to said interrogation signal appearing at said secondary winding for providing enable signals the response to the presence of said transmission interval pulses, a serial shift register for receiving and storing said digital signals indicative of the gathered data and responsive to each of said enable signals for shifting out a bit of said digital signals, and modulating means for modulating each bit of said gathering data signals and for applying said modulated data to said secondary winding to be transmitted via said transformer to said interrogator unit.
- View Dependent Claims (44, 46, 47)
- - 44. The bi-directional, digital signal transmission system as claimed in claim 2, wherein said modulation means comprises an actuable source of a high frequency signal, the frequency of which is greater than that of said clock pulses of said interrogation signal, and means for selectively applying said high frequency signal to said secondary winding dependent upon whether said bit of said gathered data signal is a zero or a one.
  - 46. The bi-directional, digital signal transmission system as claimed in claim 2, wherein there is included meter means responsive to utility consumption for generating pulse-like, electrical signals, each indicative of the consumption of a given quantity of the utility, said detection means coupled for receiving said pulse-like, electrical signal and responsive to said clock pulses of said interrogation signal for transferring an accumulated count of said pulse-like utility signals to said shift register.
  - 47. The bi-directional, digital signal transmission system as claimed in claim 46, wherein there is included non-volatile memory means for storing said count of said received pulse-like, electrical signals, said detection means for receiving and storing said pulse-like, electrical signals in said non-volatile memory means, said detection means responsive to said interrogation signal for transferring said count from said non-volatile memory means to said shift register.

3. A bi-directional, digital signal transmission system comprising:
- (a) a sole transformer having a primary winding coupled to an interrogation unit and a secondary winding coupled to a data gathering transponder unit, said transformer transmitting an interrogation signal in a first direction from said interrogation unit to said transponder unit and a data bearing response signal in a second direction from said transponder unit to said interrogation unit;
  
  (b) said interrogation unit is portable and comprises first means coupled to said primary winding for generating said interrogation signal, said interrogation signal comprised of a first train of regularly occurring digital dlock pulses and transmission interval pulses, each transmission interval pulse defining a transmission interval for the transmission of said response signal, and alignment means for aligning said primary winding with respect to said secondary winding to ensure an inductive coupling therebetween; and
  
  (c) said transponder unit comprising energy conversion means coupled to said secondary winding for providing the sole energization of said transponder unit in response to said transmitted clock signals of said interrogation signal appearing at said secondary winding, and second means responsive to said transmission intervals pulses appearing at said secondary winding for generating and applying during said transmission intervals digital signals indicative of the gathered data to said secondary winding to be transmitted via said transformer to said interrogation unit.

4. A bi-directional signal transmission system comprising:
- (a) a single inductive coupling means for transmitting a first signal in a first direction from a first unit to a second unit via said inductive coupling means and a second signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said inductive coupling means, said first signal comprising a series of pulses, selected of said pulses defining a transmission interval for the transmission of said second signal in said second direction, said first generating means generates said first signal as a train of regular clock pulses, said first generating means modulating said selected pulses to define said transmission interval; and
  
  (c) said second unit comprising second means responsive to the occurrence of said selected pulses at said inductive coupling means for generating and applying said second signal to said inductive coupling means to be transmitted thereby during said defined transmission interval.
- View Dependent Claims (21, 22, 23, 24, 25, 33, 34, 35, 36, 37, 38)
- - 21. The bi-direction signal transmission system as claimed in claim 4, wherein said first generating means comprises means for selecting clock pulses of said first signal and for controlling the pulse width of said selected clock pulses to define the interval for the transmission of said second signal, said pulse width of said transmission interval defining pulses being greater than the pulse width of the remaining of said clock pulses of said first signal.
  - 22. The bi-directional signal transmission system as claimed in claim 4, wherein said second generating means comprises clock detect means responsive to the presence at said inductive coupling means of said regular clock pulses of said first signal to generate a clock signal.
  - 23. The bi-directional signal transmission system as claimed in claim 22, wherein said second generating means comprises means responsive to said clock signal for processing said second signal in synchronism with said clock signal.
  - 24. The bi-directional signal transmission system as claimed in claim 22, wherein said second generating means comprises data transmission means for receiving said first signal appearing at said inductive coupling means and for selectively responding to said transmission interval pulses for transmitting said second signal during said defined transmission intervals.
  - 25. The bi-directional signal transmission system as claimed in claim 22, wherein said second unit comprises means for modulating said second signal with data.
  - 33. The bi-directional signal transmission system as claimed in claim 4, wherein said second unit comprises power conversion means for receiving said regular clock pulses and for utilizing at least one of said clock pulses to solely energize said second unit.
  - 34. The bi-directional signal transmission system as claimed in claim 33, wherein said second unit comprises non-volatile memory means for storing data and means responsive to said clock pulses of said first signal for reading out and for transmitting said stored data via said inductive coupling means during said defined transmission intervals.
  - 35. The bi-directional signal transmission system as claimed in claim 34, wherein there is included meter means responsive to utility consumption for generating pulse-like, electrical signals, each indicative of the consumption of a given quantity of the utility, said non-volatile memory means for storing an indication of the number of the pulse-like, electrical signals generated by said meter means, said indication indicative of the total measured utility consumed, said power conversion means responsive to each of said pulse-like, electrical signals to energize solely said second unit.
  - 36. The bi-dricetional signal transmission system as claimed in claim 35, wherein said bi-directional data transmission system is operative in a first, data transmission mode and in a second, data receive mode, said first generating means operative in said first mode for selecting ones of said clock pulses of said first signal to define said data transmission intervals and including modulating means operative in said second mode for modulating selected of said clock pulses of said first signal with data to be transmitted to and stored within said non-volatile memory.
  - 37. The bi-directional signal transmission system as claimed in claim 36, wherein said second generating means is operative in said first mode to respond to the clock pulses of said first signal appearing at said inductive coupling means for reading out said indication stored in said non-volatile memory means and for transmitting data indicative of said indication during said defined transmission intervals.
  - 38. The bi-directional signal transmission system as claimed in claim 37, wherein said second unit comprises demodulating means operative in said second mode for detecting and demodulating said selected modulated signals and for storing the demodulated data in said non-volatile memory means.

5. A bi-directional signal transmission system comprising:
- (a) a single inductive coupling means for transmitting a first signal in a first direction from a first unit to a second unit via said inductive coupling means and a second signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said inductive coupling means, said first signal comprising a series of pulses, selected of said pulses defining a transmission interval for the transmission of said second signal in said second direction, said first generating means generates said first signal as a sequence of regular clock pulses and said first unit further comprises means for modulating selected of said regular clock pulses with data to be transmitted to said second unit; and
  
  (c) said second unit comprising second means responsive to the occurrence of said selected pulses at said inductive coupling means for generating and applying said second signal to said inductive coupling means to be transmitted thereby during said defined transmission interval, and means for detecting said selected modulated pulses and for demodulating said detected modulated pulses to derive an output indicative of the transmitted data.
- View Dependent Claims (29, 30, 31, 32)
- - 29. The bi-directional signal transmission system as claimed in claim 5, wherein said modulating means pulse width modulates said selected clock pulses.
  - 30. The bi-directional signal transmission system as claimed in claim 29, wherein said bi-directional data transmission system is operative in a first, data transmit mode and in a second, data receive mode, said first generating means operative in said first mode for selecting ones of said clock pulses to define said data transmission interval and said modulating means operative in said second mode for selecting and modulating selected ones of said clock pulses with data to be transmitted to said second unit.
  - 31. The bi-directional signal transmission system as claimed in claim 30, wherein said second generating means is responsive in said first mode to said transmission interval defining pulses for transmitting said second signal from said second unit to said first unit.
  - 32. The bi-directional signal transmission system as claimed in claim 31, wherein said detecting and demodulating means is operative in said second mode for detecting and demodulating said selected modulated pulses of said first signal to provide an output indicative of the data.

6. A bi-directional signal transmission system comprising:
- (a) single inductive coupling means for transmitting a first signal in a direction direction from a first unit to a second unit via said inductive coupling means and second signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said inductive coupling means, said first signal comprising a series of pulses, selected of said pulses defining a transmission interval for the transmission of said second signal in said second signal in said second direction, said first generating means generates a pair of first signal, each of said first signals being complimentary to the other of said first signals, said first generating means generates each of said complimentary first signals as a train of regular clock pulses and transmission interval pulses, each transmission interval pulse defining the length of said transmission interval; and
  
  (c) said second unit comprising second means responsive to the occurrence of said selected pulses at said inductive coupling means for generating and applying said second signal to said inductive coupling means to be transmitted thereby during said defined transmission interval.
- View Dependent Claims (40, 41)
- - 40. The bi-directional signal transmission system as claimed in claim 6, wherein said inductive coupling means comprises a transformer having a primary winding coupled to said first unit and a secondary winding coupled to said second unit, said primary winding having first and second coils connected together at a tap, said first generating means applying its pair of complimentary first clock signals respectively across said first and second coils of said tapped primary winding.
  - 41. The bi-directional signal transmission system as claimed in claim 40, wherein said second unit comprises detection means coupled to said secondary winding for detecting and separating at least one of said complimentary first signals as transmitted from said primary winding to said secondary winding.

7. A bi-directional signal transmission system comprising:
- (a) a single indictive coupling means for transmitting a first signal in a first direction from a first unit to a second unit via said inductive coupling means and a second signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said inductive coupling means, said first signal comprising a timing component and a power component; and
  
  (c) said second unit comprising second means responsive to said timing component for generating said second signal to be applied to said inductive coupling means at a time to reduce the interference between said first and second signals as they are transmitted through said inductive coupling means, and energy conversion means coupled to said inductive coupling means for providing the sole energization of said second unit in response to said transmitted power component.

8. A bi-directional signal transmission system comprising:
- (a) a single inductive coupling means for transmitting a first signal in a first direction from a first unit to a second unit via said inductive coupling means and a second signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said inductive coupling means, said first signal comprising a timing component and an information component; and
  
  (c) said second unit comprising second means responsive to said timing component for generating said second signal to be applied to said inductive coupling means at a time to reduce the interference between said first and second signals as they are transmitted through said inductive coupling means, and means for receiving and utilizing said transmitted information component.
- View Dependent Claims (9, 10)
- - 9. The bi-directional signal transmission system as claimed in claim 8, wherein said utilizing means comprises memory means for storing said transmitted information component.
  - 10. The bi-directional signal transmission system as claimed in claim 9, wherein said first generating means generates said information component as a description of said second unit, said memory means receiving the newly transmitted description and storing it in place of a previously transmitted and stored description.

11. A bi-directional signal transmission system comprising:
- (a) a single inductive coupling means for transmitting a first signal in a first direction from a first unit to a second unit via said inductive coupling means and a second signal in a second direction from said second unit via said inductive coupling means to said first unit, said single inductive coupling means comprises a first coil coupled to said first unit and a second coil coupled to said second unit, said first and second coils disposable in a first, separated relationship and in a second inductively coupled relationship to each other wherein said first and second signals may be transmittted between said first and second units;
  
  (b) said first unit comprising first means for generating and applying said first signal to said inductive coupling means, said first signal comprising a timing component;
  
  (c) said second unit comprising second means responsive to said timing component for generating said second signal to be applied to said inductive coupling means at a time to reduce the interference between said first and second signals as they are transmitted through said inductive coupling means; and
  
  (d) means for aligning said first and second coils, when they are disposed in their second relationshiop ensure an efficient inductive coupling therebetween.

12. A bi-directional signal transmission system comprising:
- (a) a single indictive coupling means consisting of first and second coils, said first coil coupled to a first unit for transmitting a first signal in a first direction from said first unit to a seocnd unit via said inductive coupling means, said second coil coupled to a second unit for transmitting a second signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said inductive coupling means, said first signal comprising a timing component; and
  
  (c) said second unit comprising second means responsive to said timing component for generating said second signal to be applied to said second coil of said inductive coupling means at a time, where by the second signal is inductively transmitted to said first coil without interference with said first signal.

13. A bi-directional signal transmission system comprising:
- (a) a single inductive coupling means for transmitting a first signal in a first direction from a first unit to a second unit via said inductive coupling means and seocnd, binary signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said indictive coupling means, said first signal comprising a timing component; and
  
  (c) said second unit comprising second means for generating said second, binary signal in the form of a periodic signal whose presence indicates a one value and whose absence indicates a zero value, said second means responsive to said timing component for generating said second, binary signal to be applied to said inductive coupling means at a time to reduce the interference between said first and second signals as they are transmitted through said inductive coupling means.

14. A bi-directional signal transmission system comprising:
- (a) a single inducative coupling means having a first terminal for receiving and transmitting a first signal in a first direction from a first unit to a second unit via said inductive coupling means and a second terminal for receiving and transmitting a second signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means coupled to said first terminal for generating and applying said first signal to said inductive coupling means said first signal comprising a series of pulses, selected of said pulses defining a transmission interval for the transmission of said second signal in said second direction when there is no current imposed by said first unit on said first terminal; and
  
  (c) said second unit comprising second means coupled to said second terminal and responsive to the occurrence of said selected transmission interval defining pulse at said inductive coupling means for generating and applying said second signal to said second terminal to be transmitted thereby during said defined transmission interval.
- View Dependent Claims (20, 28, 39, 85)
- - 20. The bi-directional signal transmission system as claimed in claim 14, wherein each transmission interval pulse has width defining the interval for the transmission of said second signal in said second direction.
  - 28. The bi-directional signal transmission system as claimed in claim 14, wherein said first unit includes means for modulating said first signal with data to be transmitted to said second unit, and said second unit comprises means for demodulating said first signal to recover said data.
  - 39. The bi-directional signal transmission system as claimed in claim 14, wherein said first generating means generates a pair of first signals, each of said first signals being complimentary to the other of said first signals.
  - 85. The bi-directional signal transmission system as claimed in claim 14, wherein said inductive coupling means is saturable, said transmission interval is of a sufficient length to permit said coupling means to de-saturate to a level to permit efficient transmission of said second signal.

15. A bi-directional, digital signal transmission system comprising:
- (a) a sole transformer having a primary winding coupled to an interrogation unit and a secondary winding coupled to a data gathering transponder unit, said transformer transmitting an interrogation signal in a first direction from said interrogation unit to said transponder unit and a data bearing response signal in a second direction from said transponder unit to said interrogation unit;
  
  (b) said interrogation unit comprising first means coupled to said primary winding for generating said interrogation signal, said interrogation signal comprised of a first train of regularly occurring digital clock pulses and transmission interval pulses, each transmission interval pulse defining a transmission interval for the transmission of said response signal when no current flows through said primary winding from said interrogation unit; and
  
  (c) said transponder unit comprising energy conversion means coupled to said secondary winding for providing the sole energization of said transponder unit in response to said transmitted clock signals of said interrogation signal appearing at said secondary winding, and second means responsive to said transmission interval pulses appearing at said secondary winding for generating and applying during said transmission intervals digital signals indicative of the gathered data to said secondary winding to be transmitted via said trasnformer to said interrogation unit.
- View Dependent Claims (86)
- - 86. The bi-directional, digital signal transmission system as claimed in claim 15, wherein said transmission interval is of sufficient length to permit said transformer to de-saturate to a level to permit efficient transmission of said response signal to said interrogation unit.

16. A bi-directional signal transmission system comprising:
- (a) a single inducative coupling means having a first winding coupled to a first unit and a second winding coupled to a second unit, said inductive coupling means transmitting a first signal in a first direction from said first unit to said second unit via said inductive coupling means and a second signal in a second direction from said second unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said first winding, said first signal comprising a timing component indicative of when no current flows through said first winding from said first unit; and
  
  (c) said second unit comprising second means responsive to said timing component for generating said second signal to be applied to said second winding of said inductive coupling means.
- View Dependent Claims (17, 18)
- - 17. The bi-directional signal transmission system as claimed in claim 16, wherein said first means generates said first signal as a series of pulses, selected of said pulses defining a transmission interval when no current flows through said first winding from said first unit.
  - 18. The bi-directional signal transmission system as claimed in claim 17, wherein said second unit is responsive to the occurrence of said selected pulse for generating and applying said second signal to said inductive coupling means to be transmitted thereby during said transmission interval.

19. A bi-directional signal transmission system comprising:
- (a) a single inductive coupling means consisting of first and second terminals, said first terminal coupled to a first unit for transmitting a first signal in a first direction from said first unit to said second unit via said inductive coupling means, said second terminal coupled to a second unit for transmitting a second signal in a second direction from said seocnd unit via said inductive coupling means to said first unit;
  
  (b) said first unit comprising first means for generating and applying said first signal to said first terminal, said first signal comprising a timing component indicative of when there is no current imposed by said first unit on said first terminal and an information component; and
  
  (c) said second unit comprising second means responsive to said timing component for generating said second signal to be applied to said second terminal, and means for receiving and utilizing said transmitted information component.

26. The bi-directional signal transmission system as claimed in 25, wherein said data modulating means comprises means for generating a high frequency signal of a frequency greater than that of said clock signal and means responsive to the data for selectively providing said high frequency signal.
- View Dependent Claims (27)
- - 27. The bi-directional signal transmission system as claimed in claim 26, wherein said second unit is responsive to said transmission interval pulses for applying said high frequency signals during said defined transmission intervals.

48. A first unit adapted for use in a bi-directional signal transmission system, further including a second unit and an inductive coupling wherein a first signal is transmitted via the inductive coupling in a first direction to the second unit and a second signal is transmitted in a second direction opposite to said first direction via the inductive coupling from the second unit, said first unit comprises:
- (a) a winding comprising a separate part of the inductive coupling;
  
  (b) first means for generating and applying said first signal to said winding, said first signal comprising a timing component indicative of when no current flows through said winding from said first unit; and
  
  (c) second means enables by said timing component for receiving said second signal from said winding.
- View Dependent Claims (49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65)
- - 49. The first unit as claimed in claim 48, wherein said second means is enabled for a transmission interval by said timing component for receiving said second signal.
  - 50. The first unit as claimed in claim 48, wherein said first means generates said first signal so as to also comprise a power component for energizing the second unit.
  - 51. The first unit as claimed in claim 50, wherein said second means is responsive to said timing component for receiving said second signal during a transmission interval, and said first means generates said first signal to be free of said power component during said transmission interval.
  - 52. The first unit as claimed in claim 48, wherein said first means generates said first signal to comprise a series of pulses, said first means responsive to said timing component to select certain of said pulses to define a transmission interval during which said second means is enabled to receive said second signal.
  - 53. The first unit as claimed in claim 52, wherein said first means further comprises means for modulating said certain of said pulses to define said transmission interval.
  - 54. The first unit as claimed in claim 48, wherein said first means generates said first signal so as to further comprise an information component.
  - 55. The first unit as claimed in claim 54, wherein said first means generates said first signal to comprise a sequence of regular pulses, said first means responsive to said timing component to select certain of said regular pulses to define a transmission interval during which said second means is enabled to receive said second signal, and means for modulating selected of said regular pulses with information to be transmitted as said information component of said first signal to the second unit.
  - 56. The first unit as claimed in claim 55, wherein said first means generates said first signal with a power component for energizing the second unit, said first means generates said first signal to be free of said power component during said transmission interval.
  - 57. The first unit as claimed in claim 48, wherein the second signal is selective modulated with a burst of high frequency signals, said second means being enabled by said timing component for a transmission interval to receive the second signal and for detecting the presence or absence of said high frequency signals.
  - 58. The first unit as claimed in claim 57, wherein said second means comprises means enabled during said transmission interval to count said high frequency signals of said burst to provide a count indicative thereof.
  - 59. The first unit as claimed in claim 58, wherein said second means further comprises means for comparing said count with a predetermined count and, if greater, for providing an indication of the presence of said burst and, if less, for providing an indication of the absence of said burst.
  - 60. The first unit as claimed in claim 48, wherein said first means comprises a push-pull amplifier for amplifying said first signal before applying same to said winding.
  - 61. The first unit as claimed in claim 60, wherein said push-pull amplifier comprises first and second transistors, each having a base for receiving said first signal and collectors tied together to output said amplified first signal.
  - 62. The first unit as claimed in claim 48, wherein said first means comprises means for generating a pair of said first signals, each of said pair of first signals comprising a train of regular pulses, which is complementary to said regular pulses of said other train.
  - 63. The first unit as claimed in claim 62, wherein said winding comprises first and second ends and a center tap, said pair of trains of complementary regular pulses being respectively applied to said first and second ends of said winding.
  - 64. The first unit as claimed in claim 63, wherein said first means further comprises means coupled to said first and second ends of said winding for isolating said generating means from said winding.
  - 65. The first unit as claimed in claim 64, wherein said isolating means comprises first and second field effect transistors, each having a drain coupled to its respective of said first and second ends of said winding and gate coupled to receive respectively a corresponding one of said trains of regular pulses.

66. A second unit adapted for use in a bi-directional signal transmission system further including a first unit and an inductive coupling, wherein a first signal having a timing component is transmitted via the same inductive coupling in a first direction from the first unit and a second signal is transmitted in a second direction opposite to said first direction via the same inductive coupling to the first unit, said second unit comprises:
- (a) a winding comprising a separable part of inductive coupling; and
  
  (b) means responsive to said timing component for generating said second signal bearing data and applying said second signal to said winding at a time to reduce the interference between said first and second signals as they are transmitted through the inductive coupling.
- View Dependent Claims (67, 68, 69, 70, 71)
- - 67. The second unit as claimed in claim 66, wherein said first signal further comprises a power component, and said second unit further comprises energy conversion means coupled to said winding for providing the sole energization of said second unit in response to said received power component.
  - 68. The second unit as claimed in claim 66, wherein said second unit further comprises second means for monitoring a condition and imposing data upon said second signal indicative of the monitored condition.
  - 69. The second unit as claimed in claim 68, wherein said second means is associated with a utility measuring meter and imposes on said second signal data corresponding to the consumed utility as read by the meter.
  - 70. The second unit as claimed in claim 66, wherein said first signal further comprises a power component, and said second unit further comprises energy conversion means coupled to said winding for providing the sole energization of said second unit in response to said power component of said first signal.
  - 71. The second unit as claimed in claim 66, wherein said first signal further comprises an information component, and said second unit further comprises demodulating means for detecting and demodulating said information component of said first signal.

72. A second unit adapted for use in a bi-directional signal transmission system including a first unit and an inductive coupling, wherein a first signal is transmitted via the inductive coupling in a first direction from the first unit, said first signal comprising a first train of regularly occurring clock pulses, selected of said pulses being deleted to define a transmission interval, and a second signal having a data component is transmitted in a second direction opposite to said first direction via the same inductive coupling to the first unit, said second unit comprises:
- (a) a winding comprising a separable part of the inductive coupling; and
  
  (b) means for generating and applying during said transmission interval said second signal to said winding so as to reduce the interference between said first and second signals as transmitted through the inductive coupling.
- View Dependent Claims (73, 74)
- - 73. The second unit as claimed in claim 72, wherein said generating and applying means further comprises means responsive to said selected of said pulses for initiating the generation of said second signal.
  - 74. The second unit as claimed in claim 73, wherein there is further included energy conversion means coupled to said winding for providing the sole energization of said second unit in response to said clock pulses.

75. The second unit as claimed in 73, wherein said generating means comprises clock detect means coupled to said winding and responsive to the presence at said winding of said clock pulses of said first signal to generate a clock signal.
- View Dependent Claims (76, 77)
- - 76. The second unit as claimed in claim 75, wherein said generating means further comprises synchronizing means responsive to said clock signal for processing said second signal in synchronism with said clock signal.
  - 77. The second unit as claimed in claim 76, wherein said generating means further comprises means for producing a high frequency signal of a frequency greater than that of said clock signal, and means responsive to said data for selectively applying said high frequency signal to said winding.

78. A first unit adapted for use in a bi-directional signal transmission system, further including a second unit and an inductive coupling, wherein a first signal is transmitted via the inductive coupling in a first direction to the second unit and a second signal is transmitted in a second direction opposite to said first direction via the same inductive coupling from the second unit, said first unit comprises:
- (a) a winding comprising a separable part of the inductive coupling;
  
  (b) first means for generating and applying said first signal to said winding, said first signal comprising a power component and a timing component for defining a transmission interval free of said power component; and
  
  (c) second means enabled during said transmission interval for receiving said second signal when no power component is applied to said winding from said first unit.

79. A first unit adapted for use in a bi-directional signal transmission system, further including a second unit and an inductive coupling wherein a first signal is transmitted via the inductive coupling in a first direction to the second unit and a second signal is transmitted in a second direction opposite to said first direction via the same inductive coupling from the second unit, said first unit comprises:
- (a) a winding comprising a separable part of the inductive coupling; and
  
  (b) means for generating and applying said first signal to said winding, said generating means comprises means for generating a train of regular clock pulses, and means for deleting selected of said clock pulses to to define a transmission interval during which the second signal is transmitted via the same inductive coupling to said winding.
- View Dependent Claims (80, 81, 82)
- - 80. the first unit as claimed in claim 79, wherein there is further included means coupled to said winding and enabled during said transmission interval for receiving said second signal from said winding.
  - 81. The first unit as claimed in claim 79, wherein said generating means generates a second train of regular clock pulses, which is complementary to said first mentioned train of regular clock pulses.
  - 82. The first unit as claimed in claim 80, wherein said winding comprises first and second ends and a center tap, said first mentioned and said second trains of complementary regular pulses being respectively applied to said first and second ends of said winding.

83. A first unit adapted for use in a bi-directional signal transmission system, further including a second unit and an inductive coupling wherein a first signal is transmitted via the inductive coupling in a first direction to the second unit and a second signal is transmitted in a second direction opposite to said first direction via the same inductive coupling from the second unit, said furnished unit comprises:
- (a) a winding comprising a separable part of the inductive coupling;
  
  (b) means for generating and applying said first signal to said winding, said generating means comprises means for generating a train of regular clock pulses, and means for selecting at periodic intervals certain of said clock pulses to define a sequence of corresponding transmission intervals during which the second signal is transmitted via the same inductive coupling to said winding; and
  
  (c) second means enabled during each of said transmission intervals for receiving said second signal from said winding.

84. A bi-directional signal transmission system comprising:
- (a) an inductive coupling comprising separable first and second windings, wherein a first signal is transmitted via said inductive coupling in a first direction and a second signal is transmitted in a second direction opposite to said first direction via said inductive coupling;
  
  (b) a first unit comprising means for generating and applying said first signal to said first winding, said generating means comprises means for generating a train of regular clock pulses, and means for selecting at regular intervals certain of said regular clock pulses to define a sequence of corresponding transmission intervals during which said second signal is transmitted via said inductive coupling, and means enabled during each of said sequence of transmission intervals for receiving said second signal from said first winding;
  
  (c) a second unit comprising means responsive to each of said transmission intervals for generating and applying a sequence of corresponding second signals to said second winding at time to reduce the interference between said first and second signals as they are transmitted via said inductive coupling.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
M&FC Holding, LLC (Xylem, Inc.)
Original Assignee
Rockwell International Corporation
Inventors
Scuilli, Felice M.
Primary Examiner(s)
Caldwell, Sr., John W.
Assistant Examiner(s)
NOT, DEFINED

Application Number

US06/505,032
Time in Patent Office

1,856 Days
Field of Search

340/870.02, 340/870.03, 340/870.13, 340/870.14, 340/870.18, 340/870.31, 340/870.32, 340/870.34, 340/825.54, 340/825.63 , 340/825.64, 340/505, 178/43, 371/69, 364/483, 55/5, 55/41, 179/82
US Class Current

340/870.31
CPC Class Codes

G01D 4/006   Remote reading of utility m...

G06M 1/27   for representing the result...

G08C 17/04   using magnetically coupled ...

H04B 5/00   Near-field transmission sys...

H04B 5/266   One coil at each side, e.g....

H04B 5/45   Transponders

Y02B 90/20   Smart grids as enabling tec...

Y04S 20/30   Smart metering, e.g. specia...

Inductive coupling system for the bi-directional transmission of digital data

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

Citations

86 Claims

Specification

Solutions

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Inductive coupling system for the bi-directional transmission of digital data

First Claim

4 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

Citations

86 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links