US1957571A - Echo suppressor - Google Patents

Echo suppressor Download PDF

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Publication number
US1957571A
US1957571A US651812A US65181233A US1957571A US 1957571 A US1957571 A US 1957571A US 651812 A US651812 A US 651812A US 65181233 A US65181233 A US 65181233A US 1957571 A US1957571 A US 1957571A
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United States
Prior art keywords
waves
path
circuit
line
relay
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Expired - Lifetime
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US651812A
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English (en)
Inventor
Sumner B Wright
Leonard G Abraham
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AT&T Corp
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American Telephone and Telegraph Co Inc
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Application filed by American Telephone and Telegraph Co Inc filed Critical American Telephone and Telegraph Co Inc
Priority to US651812A priority Critical patent/US1957571A/en
Priority to DEI48755D priority patent/DE633202C/de
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Publication of US1957571A publication Critical patent/US1957571A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B3/00Line transmission systems
    • H04B3/02Details
    • H04B3/20Reducing echo effects or singing; Opening or closing transmitting path; Conditioning for transmission in one direction or the other

Definitions

  • This invention relates to telephone transmission systems and particularly to systems and particularly to systems involving long four-wire circuits equipped with echo suppressors.
  • connection between two four-wire circuits may be efi'ected by a four-wire junction in which the terminal apparatus at the adjacent ends of the two four-wire circuits is removed and each conductor of one circuit connected to a corresponding conductor of the other, thus, in effect, establishing a single four-wire circuit of great length, or the two two-wire terminals of the long four-wire circuits may be joined by two conductors.
  • These methods of connection are well known to those familiar with the telephone art. In some cases it may be required to connect in tandem two four-wire circuits which do not terminate at the same oflice, the connection being efiected by means of an intermediate two-wire link.
  • Lockout occurs when the talkers at the two ends of the circuit begin to speak at approximately the same time so that each takes control of the echo suppressor nearest to his own end and prevents the passage of waves from the other end. Under such conditions each person talks without knowing that the other does not hear him, which results in confusion and loss of time.
  • Terminal type echo suppressing devices arranged to avoid this difliculty have been disclosed by L. G. Abraham in his Patent No. 1,826,196 issued October 6, 1931 and in his application Serial No. :12AM filed January 30, 1931, and by G. Crisson in his application Serial No. 512A42 filed January 30, 1931, which have been assigned to the assignee of this application.
  • Figures 1 and 3 of the drawings are single-line functional diagrams illustrating the present state of the art and showing how the performance of known types of echo suppressors is limited.
  • Fig. 2 is a more detailed diagram used to explain the single-line diagrams.
  • Fig. 4 is a single-line diagram illustrating the use of a proposed type of echo suppressor.
  • Figs. 5, 6 and '7 are single-line diagrams showing various aspects of the present invention.
  • Fig. 8 is a detailed diagram used in connection with Figs. 5, 6 and '7.
  • the heavy lines represent transmission paths such as the separate sides of a four-wire circuit or as a two-wire connecting link.
  • the light arrows parallel to the transmission paths indicate the direction of transmission.
  • the remaining arrow-headed lines indicate control paths such that when waves arrive at a point in a transmission path marked by the tail of a control path arrow a mechanism is operated which produces a controlling eifect such as a short-circuit or a change of transmission loss at a point in some other transmission or con-- trol path indicated by the head of the arrow. This head points to a symbol indicating the eifect to be produced and the point at which it is to occur.
  • Fig. 1 is shown a commonly used arrangement in which two or more four-wire circuits are connected in tandem. Three four-wire circuits extending from station A to station B, from B to C and from C to D, respectively, are joined by means of two-wire connections to form a circuit extending from A to D.
  • Each four-wire circuit is equipped with a central type echo suppressor, that is, an echo suppressor designed to be applied to the circuit at a point intermediate between and at some distance from the ends of the circuit.
  • a central type echo suppressor that is, an echo suppressor designed to be applied to the circuit at a point intermediate between and at some distance from the ends of the circuit.
  • the upper heavy line L1 of 1 indicates the one-way path of the circuit of Fig. 2 extending from A to B and equipped with one-way amplifiers or repeaters R1, R2, etc. at suitable intervals. These amplifiers are connected so that they amplify waves passing from A to B as indicated by the arrows.
  • the line L: of Fig. 1 indicates the two-wire circuit adapted to transmit signal waves from B to A.
  • L1 and L2 constitute the two sides of the four-wire circuit. At A and B the ends of L1 and L2 are connected to the two-wire extensions through the hybrid coils H and H, respectively, in a well-known manner.
  • the extensions are balanced more or less perfectly by the networks N and N to reduce the transfer of energy from L2 to Ll at A and from L1 to L2 at B.
  • the echo suppressor is located at an intermediate station between A and B.
  • the echo suppressor consists of amplifier-detectors AD and AD which control relay devices Re and Re, respectively. These amplifier-detectors and relays may be of any suitable type.
  • the relay Re 015 Fig. 2 In addition to suppressing echoes in the line L2 the relay Re 015 Fig. 2 also prevents the operation of amplifier-detector AD so that these echoes cannot cause unwanted operation of the relay Re.
  • the relay Re thus combines the functions of an echo suppressor in the line L2 and a disabler of the amplifier-detector AD. Similarly the passage of waves from B to A over the line L2 disables the line Ll at 2' and so prevents the passage of echoes from A to B and also disables the amplifier-detector AD.
  • the four-wire circuits extending from B to C and from C to D are like that from A to B in all essential particulars so that no further description of them is deemed necessary.
  • the lines L1, Llll and Llb are disabled at 2', 2'a and 2'b.
  • the echo suppressors used here are of the terminal type disclosed in the patent to L. G. Abraham cited above.
  • the echo suppressor apparatus is divided and placed near the two ends of the four-wire circuit.
  • the four-wire circuit extending from station A to station B.
  • a suppressor which is operated by waves reaching the point 1 over the line L2 to disable line L1 at the point 2 and a disabler which responds to waves at the point 3 in line L1 to disable the suppressor but which does not interfere with the passage of waves from line L2 toward A.
  • a similar arrangement is provided at station B as indicated by the dotted control paths 1-2 and 3--4.
  • the other four-wire circuits are similarly equipped with suppressor apparatus at each end.
  • the four-wire circuits are joined at the intermediate oiiices by four-wire connections.
  • the echo suppressing apparatus at the intermediate offices is removed or made inoperative, which is indicated in Fig. 3 by the use of dotted lines. This is done to avoid the possibility of lockout occurring by the subscriber at A gaining control of all the apparatus on the circuit from A to B while subscriber at D gains control of the apparatus on the circuit from C to D. In effect the result is to provide a continuous four-wire circuit from A to D with echo suppressing apparatus only at the ends.
  • Lockout cannot occur in this system because the voice waves from the subscriber at one end cannot disable the return path until these waves have traveled to the other end and taken control of the whole system. If both subscribers speak at nearly the same time each disables the suppressor at his own end of the circuit which permits the voice waves to pass freely in both directions. This system, however, will not suppress echoes arising at intermediate points in the circuit. For example, if conditions exist at station B such that when the subscriber at A speaks part of the energy of his voice waves is transferred from line L1 to L2 this energy will return to A where it will be heard as an echo. If it is strong enough this echo will tend to operate the suppressor at A and so break up the transmission from A toward B.
  • Powerful echoes may arise when it is necessary to use hybrid coils at intermediate points because of the difficulty of securing a high degree of balance between the network and the line or apparatus connected to the two-wire terminal. Such conditions arise when provision has not been made for using four-wire connections or when an intermediate length of two-wire circuit must be used.
  • Suppression of intermediate echoes may be aocornplished by the use of a double terminal echo suppressor of the type disclosed by Crisson in his application cited above.
  • Fig. 4 shows three four-wire circuits each equipped at each end with this type of suppressor, and connected in tandem by two-wire connections.
  • the echo suppressing apparatus at the intermediate stations is put out of operation so that lockout cannot occur at the intermediate points.
  • Echoes may also be returned from other intermediate points Where there is coupling of some sort between the two lines.
  • -ne relay 2 having disabled line L2
  • the subscriber at D speaks, the apparatus being initially in the normal state, his voice waves operate relays 2b, 422, 2' and suppressing echoes from the terminal at A and intermediate points and disabling relays 2b and 2.
  • relays 4 at station A must always operate in response to waves from station D and that relay 2' must also operate unless it is disabled through the operation of relay 4.
  • relays 4' and 2 must not be operated by noise or by echoes from intermediate points. Similar requirements also apply to the corre sponding relays at D. Under certain conditions as, for example, when the intermediate connections are of the two-wire type the echoes tending to operate falsely the relays a and 2 may be much more powerful than the steady noise on the circuit. The relays l and 2 must be made so insensitive, that they will not operate on the loudest echo. This may mean that they will respond only to the more powerful voice waves from station. D or may even fail to respond at all. This condition defeats wholly or in part the ability of the system to prevent lockouts.
  • Figs. 5, 6 and 7 illustrate certain forms that the invention may assume. These figures show the arrangements to be used at one end of the circuit. The apparatus at the other end is exactly like that shown so that separate description is not thought to be necessary.
  • the zigzag line 5 is a symbol representing a device which causes a transmission loss between the points 1' and 3. This device may be of any suitable type, one of which will be described later. It is of such a nature that normally the loss between the points 1 and 3' is zero or relatively low, but when speech waves traverse the line L1, the loss increases to a suitable value.
  • the relays 4' and 2 and the device 5 are so adjusted that they will not be operated by the noise normally present in this line. They will thus respond promptly to any voice waves which are substantially above the normal noise in magnitude. Most voice Waves in a telephone circuit are stronger than the noise.
  • This arrangement thus avoids the danger of false operation and at the same time interferes to the least possible degree with the ability of the distant subscriber to break through and make himself heard if he desires to interrupt the subscriber at A.
  • the subscriber at A is not talking there is no appreciable interference with the distant subscriber and when A is talking the interference exists only for the time and to the degree required to avoid the false operation by echoes.
  • Fig. 6 shows a modified form of the invention in which a second variable loss 6 is substituted for the suppressor relay 2 of Fig. 4.
  • the device 6 normally introduces no loss or a relatively small loss but when the subscriber at A begins to talk the loss introduced by the device 6 increases to such an extent that the echoes from the intermediate points of the circuit cease to be annoying to the subscriber.
  • voice waves from the distant station are somewhat weakened but are not suppressed completely if they arrive while the subscriber at A is talking. In this way the distant subscriber has a chance to make himself heard even though his voice is not sufiiciently powerful to operate the disabler relay 4' through the loss 5.
  • Fig. 7 shows a further modification of the invention. This arrangement is the same as that shown in Fig. 5 except that an additional relay 7 had been added, the function of which is to disable the control of the device 5.
  • an additional relay 7 had been added, the function of which is to disable the control of the device 5.
  • the device 5 when the subscriber at A speaks the relays 2 and 4 respond and if the speech is strong enough the device 5 operates to insert a loss and prevent false operation of the relays 2, 4' and '7 by echoes.
  • the device 5 must have sufiicient hangover to protect these relays from the echoes A difficulty when the distant subscriber begins to talk.
  • the invention resides in the use of the loss pro ducing devices 5 and 6 of Figs. 5, 6 and '7 and the relay 7 in Fig. 7 in the manner disclosed and does not depend in any degree upon the particular type of apparatus used to produce the loss of the type of relay used. There are many suitable devices well known in the art.
  • Fig. 8 shows, in some detail, one arrangement which may be used in practicing the invention. The reference characters used on this figure correspond to those used on the other figures.
  • the loss producing device 5 of Figs. 5, 6 and 7 consists of the resistances n and T2 in series with the input terminals of the amplifier-detector ADz which controls the suppressor relay 2 and the disabler relay 4 whose functions will be understood from the preceding description.
  • the resistance T3 of Fig. 8 may be used if it is desired to cause a transmission loss the line L2 as described in connection with Fig. 6 instead
  • the subscriber at A speaks, his voice waves operate the amplitier-detector ADi which in turn operates the relays 2 and 4.
  • the relay 2 closes a shunt path, including the resistance T3, across the line L2 If 1'3 is made zero this shunt path becomes a short-circuit and completely disables the line L2.
  • part of the output current of amplifier-detector ADl might be used to control the grid voltage of one 1 or more tubes in an amplifier in the receiving branch of the circuit at 6.
  • a two-way telephone circuit including paths adapted for transmission in opposite directions, apparatus relatively near each end of the circuit comprising means responsive to voice waves in the incoming path for disabling the outgoing path, means responsive to voice waves in the outgoing path for disabling the incoming path, means responsive to voice waves in the outgoing path for preventing the disabling of said path by later arriving voice waves in the incoming path and means responsive to voice waves in the incoming path for preventing the disabling of said path and for restoring the same to operative condition if it be already disabled, the method of transmission control which consists in causing waves in the transmitting path of greater than a predetermined magnitude to prevent the operation of said last mentioned means by echoes from intermediate points in the circuit and at the same time allowing said means to be operated by incoming speech waves provided they are of sufficient magnitude.
  • apparatus relatively near each end of the circuit comprising means responsive to voice waves in the incoming path for disabling the outgoing path, means responsive to voice waves in the outgoing path for disabling the incoming path, means responsive to voice waves in the outgoing path for preventing the disabling of said path by later arriving voice waves in the incoming path and means responsive to voice waves in the incoming path for preventing the disabling of said path and for restoring the same to operative condition if it be already disabled, the method of transmission control which consists in eiTectively preventing the operation of said last mentioned means by echoes of the transmitted speech returning from intermediate points of the circuit by causing transmitted speech waves of greater than a predetermined magnitude to insert suitable amounts of loss in the input circuit of said last mentioned means and keeping said loss in said circuit for a suflicient time to prevent operation of said means by echo from the most distant intermediate echo path.
  • apparatus relatively near each end of the circuit comprising means responsive to voice waves in the incoming path for disabling the outgoing path, means responsive to voice waves in the outgoing path for disabling the incoming path, means responsive to voice waves in the outgoing path for preventing the disabling of said path by later arriving voice waves in the incoming path and means responsive to voice Waves in the incoming path for preventing the disabling of said path and for restoring the same to operative condition if it be already disabled, the method of transmission control which consists in effectively preventing the operation of said last mentioned means by echoes of the transmitted speech returning from intermediate points of the circuit by causing transmitted speech waves of greater than predetermined magnitude to insert suitabl amounts of loss in ficient time to prevent operation of said means and keeping said loss in said circuit for a sufficent time to prevent operation of said means by echo from the most distant intermediate echo path, and causing said loss to be removed immediately by any incoming speech waves of sufficient magnitude to operate said last mentioned means.
  • apparatus at or relatively near each end of the circuit comprising receiving echo suppressor means responsive to voice waves in the receiving path for disabling the transmitting path, transmitting echo suppressor means responsive to voice waves in the transmitting path for disabling the receiving path, receiving disabler means responsive to voice Waves in the receiving path for disabling the transmitting echo suppressor, transmitting disabler means responsive to voice waves in the transmitting path for disabling the receiving echo suppressor provided the latter is not already operated, and means responsive to waves or greater than a predetermined magnitude in he transmitting path adapted to adjust the sensitivity of said receiving disabler means.
  • a two-way telephone circuit including paths adapted for transmission in opposite directions, apparatus at or relatively near each end of the circuit comprising receiving echo suppressor means responsive to voice Waves in the receiving path for disabling the transmitting path, transmitting echo suppressor means responsive to voice waves in the transmitting path for disabling the receiving path, receiving disabler means responsive to voice waves in the receiving path for disabling the transmitting echo suppressor, transmitting disabler means respon sive to voice waves in the transmitting path for disabling the receiving echo suppressor provided the latter is not already operated, means responsive to voice waves of greater than a predetermined magnitude in transmitting path adapted to effectively reduce the sensitivity of said receivin echo suppressor and receiving disabler means to the extent that they will not respond to echoes in the receiving line of voice waves in the transmitting line, and means responsive to voice waves in the receiving line of substantially greater magnitude than the echoes to immediately restore the sensitivity of said receiving echo suppressor and receiving disabler to its original value.
  • a two-Way telephone circuit including paths adapted for transmission in opposite directions, apparatus at or relatively near each end of the circuit compr sing receiving echo suppressor means responsive to Voice waves in the receiving path for disabling the transmitting path, transmitting echo suppressor means responsive to voice Waves in the transmitting path to insert suhicient loss in the receiving path to cause any echoes that are heard to be unobjectionable, receiving disabler means responsive to voice waves in the receiving path for disabling the transmitting echo suppressor, and transmitting disabler means responsive to voice Waves in the transmitting path for disabling the receiving echo suppressor provided that the latter is not already operated.
  • apparatus at or relatively near each end of the circuit comprising receiving echo suppressor m ans responsive to voice waves in the receiving path for disabling the transmitting path, transmitting echo suppressor means responsive to voice waves in the transmitting path to insert sufiicient loss in the receiving path to cause any echoes that are heard to be unobjectionable, receiving disabler means responsive to voice Waves in the receiving path for disabling the transmitting echo suppressor, transmitting disabler means responsive to voice Waves in the transmitting path for disabling the receiving echo suppressor provided the latter is not already operated, in combination with means responsive to voice waves of greater than a predetermined magnitude in the transmitting path adapted to eiiectively reduce the sensitivity of said receiving echo suppressor and receiving disabler means to the extent that they will not respond to echoes in the receiving line of voice waves in the transmitting line and means responsive to voice waves in the receiving line of greater magnitude than the echoes to effectively disable said last named means.
  • a two-Way telephone circuit including paths adapted for transmission in opposite directions, apparatus at or relatively near each end of the circuit comprising receiving echo suppressor means responsive to voice waves in the receiving path for disabling the transmitting path, transmitting echo suppressor means responsive to voice waves in the transmitting path to insert sufficient loss in the receiving path to cause any echoes that are heard to be unobjectionable, receiving disabler means responsive to voice Waves in the receiving path for disabling the transmitting echo suppressor, transmitting disabler means responsive to voice Waves in the transmitting path for disabling the receiving echo suppressor pro vided that the latter is not operated, in combination with means responsive to voice waves of greater than a predetermined magnitude in the transmitting path adapted to effectively reduce the sensitivity of said receiving echo suppressor and receiving disabler means to the extent that they will not respond to echoes in the receiving line or voice Waves in the transmitting line, means responsive to voice waves in the receiving line of greater magnitude than the echoes to effectively disable said last named means, a twoway line connected in extension of said four

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Cable Transmission Systems, Equalization Of Radio And Reduction Of Echo (AREA)
  • Interface Circuits In Exchanges (AREA)
US651812A 1933-01-14 1933-01-14 Echo suppressor Expired - Lifetime US1957571A (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
US651812A US1957571A (en) 1933-01-14 1933-01-14 Echo suppressor
DEI48755D DE633202C (de) 1933-01-14 1934-01-12 Vierdrahtverbindung mit an den Gabelstellen angeordneten Echosperrenpaaren

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US651812A US1957571A (en) 1933-01-14 1933-01-14 Echo suppressor

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US1957571A true US1957571A (en) 1934-05-08

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DE633202C (de) 1936-07-23

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