Adaptive hybrid circuit

US 3,973,089 A
Filed: 06/25/1975
Issued: 08/03/1976
Est. Priority Date: 10/29/1973
Status: Expired due to Term

First Claim

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1. An adaptive hybrid circuit for connection between a full duplex communications channel including transmit and receive ports and a half duplex communications channel including a single port, comprising:

a first signal path between said receive port of said full duplex communications channel, and said single port of said half duplex communications channel, said first signal path including first impedance means therein for at least partially isolating said receive port from said single port;

a second signal path between said single port of said half duplex communications channel and said transmit port of said full duplex communications channel, said second signal path including cancelling means;

impedance synthesizer means connected between said first and second signal paths for synthesizing a cancelling signal from the signal appearing at said receive port of said full duplex channel, and applying said cancelling signal to said cancelling means so that only the signal from the single port of said half duplex communications channel appears at said transmit port of said full duplex communications channel.

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Abstract

Improved isolation between the four-wire receive and transmit ports in a four wire-to-wire converter in a communication system is obtained by utilizing a tapped delay line network in an active hybrid circuit. The active hybrid circuit includes a first amplifier which terminates the four-wire receive channel in its characteristic impedance, amplifies the four-wire received signal, and excites a resistor network that terminates the two-wire channel in its nominal characteristic impedance. A second amplifier and a resistor circuit function as a weighted summer for nulling the received four-wire signal with the signal passing through the resistor network to obtain signal cancellation at the four-wire transmit port when the four-wire receive channel is activated. The tapped delay line network may be connected either between the first amplifier and resistor network or between the first amplifier and the received four-wire signal input of the second amplifier.

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25 Claims

1. An adaptive hybrid circuit for connection between a full duplex communications channel including transmit and receive ports and a half duplex communications channel including a single port, comprising:
- a first signal path between said receive port of said full duplex communications channel, and said single port of said half duplex communications channel, said first signal path including first impedance means therein for at least partially isolating said receive port from said single port;
  
  a second signal path between said single port of said half duplex communications channel and said transmit port of said full duplex communications channel, said second signal path including cancelling means;
  
  impedance synthesizer means connected between said first and second signal paths for synthesizing a cancelling signal from the signal appearing at said receive port of said full duplex channel, and applying said cancelling signal to said cancelling means so that only the signal from the single port of said half duplex communications channel appears at said transmit port of said full duplex communications channel.
- View Dependent Claims (2, 3, 4)
- - 2. The circuit of claim 1 wherein said first signal path comprises:
    - first amplifier means having first input connected to said receive port of said full duplex communications channel and an output connected to said first impedance means, said impedance synthesizer means having an input thereof connected to the juncture of said first amplifier and said first impedance means.
  - 3. The circuit of claim 2 wherein said cancelling means comprises:
    - differential amplifier means having positive and negative inputs for selectively summing said signal from said single port of said half duplex communications channel with said cancelling signal from said impedance synthesizer means to provide a signal at the output of said amplifier characterized by including only said signal from said single port of said half duplex communications channel.
  - 4. The circuit of claim 2 wherein said cancelling means includes summing means, and said cancelling signal includes components of the signal at said receive port of said full duplex communications channel opposite in phase to the components of the signal at said receive port of said full duplex communications channel which are present in said second signal path before said cancelling means, so that said summing means cancels said components of said signal from said receive port of said full duplex communications channel from said second signal path and only said signals from said single port of said half duplex communications channel appear at said transmit port of said full duplex communications channel.

5. An adaptive hybrid circuit for interfacing a four-wire communication channel with a two-wire communication channel and comprising:
- a first electronic amplifier having a first input connected through a first resistor to a receive port of a four-wire communication channel, the receive port being defined by a first pair of terminals, said first resistor having a resistance such that the four-wire receive channel is terminated in its characteristic impedance;
  
  fixed impedance means connected between an output of said first amplifier and a port of a two-wire channel for termination thereof in its nominal characteristic impedance, the two-wire channel port being defined by a second pair of terminals;
  
  a second electronic amplifier having a first polarity input terminal to which is applied a first signal which represents a sample of the signal received from the four-wire receive channel, said second amplifier having a second polarity input terminal to which is applied a fixed reference potential, a selected one of the first and second polarity input terminals connected to said fixed impedance means for applying to the selected polarity input terminal a second signal sensed at said fixed impedance means when said four-wire receive channel is activated and for applying only to the selected polarity input terminal a signal supplied to the two-wire channel port from the two-wire channel when said two-wire channel is activated, the selection of the polarity input terminal of said second amplifier being determined by the phase relationships of the first and second signals at inputs to the amplifier terminals in order to obtain cancellation therebetween at said second amplifier, said second amplifier having an output connected through a second resistor to a transmit port of the four-wire channel, the transmit port being defined by a third pair of terminals, said second resistor having a resistance such that the four-wire transmit channel is terminated in its characteristic impedance, said second amplifier providing a nulling of the first and second signals applied to the input terminals thereof when said four-wire receive channel is activated so as to isolate the four-wire transmit port from the four-wire receive port independent of variation in the impedance characteristics of the two-wire channel due to signal loss in said fixed impedance means swamping out such impedance variations;
- View Dependent Claims (7, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
- - 7. The adaptive hybrid circuit set forth in claim 5 and further comprising:
    - means connected in circuit relationship with said first amplifier for providing an adjustable gain thereto for compensating for the signal loss in said fixed impedance means in its passage from the four-wire receive port to the two-wire port so as to provide a zero dB loss between the ports.
  - 9. The adaptive hybrid circuit set forth in claim 7 and further comprising:
    - a fourth resistor connected between the output of said first amplifier and the first input of said fixed impedance means;
      
      the connection to the second input terminal of said second amplifier being from the juncture of said fourth resistor and the first input of said fixed impedance means.
  - 10. The adaptive hybrid circuit set forth in claim 5 wherein:
    - said impedance synthesizer network means has the first output thereof connected to the first polarity input terminal of the second amplifier for applying the first signal thereto.
  - 11. The adaptive hybrid circuit set forth in claim 5 wherein:
    - said impedance synthesizer network means has the first output thereof connected to the first input of said fixed impedance means.
  - 12. The adaptive hybrid circuit set forth in claim 5 and further comprising:
    - a third electronic amplifier interconnected as a unity gain phase inverter and having an input connected to the output of said first amplifier, output of said third amplifier connected to a second input of said fixed impedance means for providing in conjunction with the connection of said first amplifier output to the first input of said fixed impedance means a double-ended input to said fixed impedance means with respect to the four-wire receive channel;
      
      the first and second polarity input terminals of said second amplifier connected to the junctures of the double-ended input to said fixed impedance means and the outputs of said first and third amplifiers for applying the second signal to the second amplifier; and
      
      a fourth electronic amplifier interconnected as a unity gain phase inverter and having an input connected to the output of said second amplifier, said fourth amplifier having an output connected through a third resistor to the transmit port of the four-wire channel, said second and third resistors each having a resistance equal to one half the characteristic impedance of the four-wire transmit channel to form a balanced output embodiment of the adaptive hybird circuit.
  - 13. The adaptive hybrid circuit set forth in claim 11 and further comprising:
    - means connected in circuit relationship with said first amplifier for providing an adjustable gain thereto for compensating for loss in the signal in said fixed impedance means in its passage from the four-wire receive port to the two-wire port so as to provide a zero dB loss between the ports.
  - 14. The adaptive hybrid circuit set forth in claim 12 wherein:
    - said adjustable gain means is a variable fourth resistor connected from the output of said first amplifier to said first input thereof so that the gain is determined by the ratio of resistances of the fourth resistor to that of the first resistor.
  - 15. The adaptive hybrid circuit set forth in claim 13 and further comprising:
    - a fifth resistor connected between the output of said first amplifier and the first input of the double-ended input of said fixed impedance means;
      
      a sixth resistor connected between the output of said third amplifier and the second input of the double-ended input of said fixed impedance means;
      
      said fixed impedance means is a balanced impedance network having the double-ended input thereof connected to said fifth and sixth resistors, and having a double-ended output connected to said two-channel port;
      
      the first and second polarity input terminals of said second amplifier connected to the junctures of said fifth and sixth resistors with the double-ended input to said fixed impedance means for applying the second signal to the second amplifier.
  - 16. The adaptive hybrid circuit set forth in claim 14 wherein:
    - the first signal to said second amplifier is connected from the output of said first amplifier through a seventh resistor to the same polarity input terminal of the second amplifier which is connected to the juncture of the sixth resistor and the second input of the double-ended input to said fixed impedance means.
  - 17. The adaptive hybrid circuit set forth in claim 14 wherein:
    - the first signal to said second amplifier is connected from the output of said third amplifier through a seventh resistor to the same polarity input terminal of the second amplifier which is connected to the juncture of the fifth resistor and the first input of the double-ended input to said fixed impedance means.
  - 18. The adaptive hybrid circuit set forth in claim 16 wherein:
    - said impedance synthesizer network means has the first input thereof connected to the output of said third amplifier;
      
      said seventh resistor having an input end connected to the first output of said impedance synthesizer network means and an output end connected to the first polarity input terminal of said second amplifier.
  - 19. The adaptive hybrid circuit set forth in claim 16 wherein:
    - said impedance synthesizer network means has the first input thereof connected to the output of said first amplifier and the first output thereof connected to an input end of said fifth resistor.
  - 20. The adaptive hybrid circuit set forth in claim 16 wherein:
    - said impedance synthesizer network means has the first input thereof connected to the output of said third amplifier and the first output thereof connected to an input end of said sixth resistor.
  - 21. The adaptive hybrid circuit set forth in claim 14 wherein:
    - said fifth and sixth resistors in conjunction with the output impedance of said first and third amplifiers each have a resistance value equal to one half the nominal characteristic impedance of the two-wire channel.
  - 22. The adaptive hybrid circuit set forth in claim 11 wherein:
    - said impedance synthesizer network means is a tapped delay line circuit; and
      
      the second input to said impedance synthesizer network means consists of tap weight control signals provided from the output of said correlation control means.
  - 23. The adaptive hybrid circuit set forth in claim 11 wherein:
    - said first, second, third and fourth electronic amplifiers are electronic operational amplifiers.
  - 24. The adaptive hybrid circuit set forth in claim 5 whereinsaid impedance synthesizer network means is a tapped delay line circuit.
  - 25. The adaptive hybrid circuit set forth in claim 5 wherein:
    - said impedance synthesizer network means is a tapped delay line circuit; and
      
      the second input to said impedance synthesizer network means consists of tap weight control signals provided from the output of said correlation control means.

6. impedance synthesizer network means having a first input connected to the output of said first amplifier and a first output connected to a selected one of said first and second polarity input terminals of said second amplifier for providing a high degree of precision of the nulling at the output of said second amplifier so as to obtain improved isolation between the four-wire receive and transmit ports in the order of 12 dB or more over that obtained with the conventional transformer hybrid circuit and without the need for an externally adjustable compromise termination network, the first output of said impedance synthesizer network means producing the first signal applied to said second amplifier;
- andcorrelation control means having an input signal first input connected to a second output of said impedance synthesizer network means, an error signal second input connected to the output of said second amplifier, a third input connected to a third output of said impedance synthesizer network means, and an output connected to a second input of said impedance synthesizer network means for adaptively controlling the operation thereof so that the high degree of precision of the null at the output of said second amplifier is maintained throughout the operation of the adaptive hybrid circuit.
- View Dependent Claims (8)
- - 8. The adaptive hybrid circuit set forth in claim 6 wherein:
    - said adjustable gain means is a variable third resistor connected from the output of said first amplifier to said input thereof so that the gain is determined by the ratio of resistances of the third resistor to that of the first resistor.

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Current Assignee
General Electric Company
Original Assignee
General Electric Company
Inventors
Puckette, Charles McD.
Primary Examiner(s)
Claffy, Kathleen H.
Assistant Examiner(s)
Myers, Randall P.

Application Number

US05/590,379
Time in Patent Office

405 Days
Field of Search

179/170 R, 179/170 NC
US Class Current

379/404
CPC Class Codes

H04B 1/52   Hybrid arrangements, i.e. a...

H04B 1/586   using an electronic circuit

H04B 3/03   Hybrid circuits for transce...

Adaptive hybrid circuit

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Adaptive hybrid circuit

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Specification

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