US2058216A - Signaling system - Google Patents

Signaling system Download PDF

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US2058216A
US2058216A US21049A US2104935A US2058216A US 2058216 A US2058216 A US 2058216A US 21049 A US21049 A US 21049A US 2104935 A US2104935 A US 2104935A US 2058216 A US2058216 A US 2058216A
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relay
line
impulse
winding
current
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US21049A
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Thomas L Dimond
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AT&T Corp
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Bell Telephone Laboratories Inc
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q1/00Details of selecting apparatus or arrangements
    • H04Q1/18Electrical details
    • H04Q1/30Signalling arrangements; Manipulation of signalling currents
    • H04Q1/32Signalling arrangements; Manipulation of signalling currents using trains of dc pulses

Definitions

  • This invention relates to signaling systems and particularly to systems comprising electro-magnetic signal receiving means.
  • the object of the invention is to provide a more sensitive electromagnetic signal receiving means and to insure the accurate response of such a means to incoming signals.
  • the invention is a signaling circuit arrangement of the Wheatstone bridge type comprising a signal sender, connected in series with the line which constitutes the variable resistance branch of the bridge, and a signal receiving relay for operation when the variable resistance branch of the bridge is opened by the signal sender.
  • a signal receiving relay for operation when the variable resistance branch of the bridge is opened by the signal sender.
  • an asymmetric or unidirectional 201 conductor is connected in series with the Winding of the relay.
  • An auxiliary relay which is controlled by the signal receiving relay to repeat the signal impulses to operate a register, is also effective to alter the balance of the bridge so as to aid 25 the operation of the signal receiving relay when it is normal and to aid the release of the signal receiving relay when it is operated.
  • Fig. 1 shows a portion of .an automatic telephone system in which A represents asubscribers lstation and IR represents impulse receiving means.
  • Fig. 2 shows graphs which facilitate the description of the arrangement shown in Fig. 1.
  • the apparatus at station A includes a dial I0 or an equivalent impulse sender, and is connected by line I I to a central oiiice or exchange in which automatic switching equipment is provided for establishing a connection between the line I I and an idle impulse receiving means IR in response to the removal of the receiver at station A to originate a call.
  • the impulse receiving means IR may be used to directly control in succession each of a train of selective' switches to complete a desired connection or may be used to operatea register which thereafter controls the various in which selective signals arecreated by the open-l 1935,.
  • I of the drawing comprisesanimpulse receiving relay I4, a rectierY I5 ⁇ of they copper-oxide disc type, auxiliary impulse relays I9 and 20, a slowto-release relay 2
  • an impulse circuit is completed from battery through resistor I3 and from bat'- tery through resistor I6, rectier I5 and the winding of relay I4 all in series, over conductor I 2 and line -II, through the'telephone instrument and dial I0 at station A, and through onewinding of the dial tone transformer to ground.
  • ⁇ ⁇ -At substantially'the same time ground is connected to the upper end of resistor I8 as' indicated in the drawing by the broken line, thereby completing a network which constitutes an unbalanced' Wheatstone bridge.
  • the potential of point ct is enough higher than the potential of point b to cause the operation of relay I4, the rectifier I5 being poled to offer minimum resistance tothe resulting current between these points.
  • the operation vof relay I4 closes a Ycircuit through the winding of relay I9 in series with the windings of relays and 2
  • relay I9 short-circuits resistor I8; and the operation of relay 20 disconnects the Winding of relay 2I from the Winding of relay 20 and closes
  • the short-circuiting of resistor I8 raises the potential of point b so that the current through the winding of relay I4 and rectier I5 is reduced to render relay I4 more quickly responsive to the opening of the impulse circuit when the subscriber at station A operates the dial I0. No further action takes place until the subscriber at station A operates the dial to obtain a connection with any other station with which conversation is desired.
  • relay I9 removes the short-circuit around resistor I8 to lower the potential of point b and thereby increase the difference in potential between points a and b; so that, upon the closing of the impulse circuit at the end of the rst dial impulse, relay I4 will be more quickly reoperated than it would have been if the short circuit around resistor I8 were continued.
  • relays I9 and 20 With relay I4 reoperated, relays I9 and 20 reoperate, resistor I8 is again short-circuited, and the circuit through the winding of relay 2I closed.
  • the reoperation of relay I4 also opens the register operating circuit. The above described cycle of operations is repeated in response to each succeeding opening and closing of the impulse circuit at the contacts of the dial, thereby effecting the desired operation of the selector or register 22.
  • the impulse relay is fast in operatingA upon closure of the line loop and fast in releasing upon the opening of the line loop.
  • the variation in the time required for operating the impulse relay I4 due to any commercially allowable variation in its operating capability, is small as.
  • the graphs in Fig. 2 indicate the changes in voltage and current that take place in the networkin response to the closing and opening of the impulse loop.
  • the curves 30, and 5l] are spaced horizontally so that points on each directly above or below each other represent simultaneously existing conditions.
  • the curve 30 represents the varying voltage across resistor I3, and curve 40 represents the varying voltage across resistor I5, during the transmission of a series of dial impulses.
  • the curve represents the varying current through the winding of the impulse relay I4 during the same time interval.
  • a line a signal sender for opening and closing said line, a Wheatstone bridge network, said line constituting the variable resistance branch of the bridge, a signal receiving relay for response to an unbalanced condition created by the opening of said line by said sender, a signal register, an auxiliary relay for repeating the signals received by said signal receiving relay to operate said register, and means comprising sai-d auxiliary relay for altering the balance of the bridge so as to aid the o-peration of the signal receiving relay and to aid the release of the signal receiving relay.
  • a line a signal sender for opening and closing said line
  • a Wheatstone bridge comprising said line and a relay, said relay being adapted to operate in response to the closing of said line and to release in response to the opening of said line, and means for altering said bridge to aid the release of said relay.
  • a line In a signaling system, a line, a signal sender for opening and closing said line, and a Wheatstone bridge comprising said line, a relay and a unidirectional conductor, said conductor being connected in series with said relay to render it responsive to current in only one direction, said relay being adapted to operate in response to the closing of said line and to release in response to the opening of said line, and means for altering said bridge to aid the release of said relay.
  • a line a signal sender for opening and closing said line
  • a Wheatstone bridge comprising said line and a relay, said relay being adapted to operate in response to the closing of said line and to release in response to the opening of said line, and means for altering the balance of said bridge to aid the operation of said relay.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Interface Circuits In Exchanges (AREA)

Description

oct. zo, 193.6.
T. L. DlMoND v sIGNALING SYSTEM Filed May 11, 1935 J TTOR/VE V Patented Oct. 20, 1936 UNITED STATES PATENT OFFICE SIGNALING SYSTEM Thomas L. Dimond, Boonton, N. J., assignor to Bell Telephone Laboratories, Incorporated, New York, N. Y., a corporation of New York Application May 11,
9 Claims.
Y This invention relates to signaling systems and particularly to systems comprising electro-magnetic signal receiving means.
The object of the invention is to provide a more sensitive electromagnetic signal receiving means and to insure the accurate response of such a means to incoming signals.
The invention is a signaling circuit arrangement of the Wheatstone bridge type comprising a signal sender, connected in series with the line which constitutes the variable resistance branch of the bridge, and a signal receiving relay for operation when the variable resistance branch of the bridge is opened by the signal sender. To insure the release of the signal receiving relay when the line has a 10W insulation resistance or high capacity, without increasing the spring tension which holds the armature of the relay in normal position, an asymmetric or unidirectional 201 conductor is connected in series with the Winding of the relay. An auxiliary relay which is controlled by the signal receiving relay to repeat the signal impulses to operate a register, is also effective to alter the balance of the bridge so as to aid 25 the operation of the signal receiving relay when it is normal and to aid the release of the signal receiving relay when it is operated.
A better and more completelunderstanding of the invention may be obtained by considering the gli specific embodiment'of the invention shown in the drawing which forms a part of this specication. The invention is not,- however, limited in its application to this specific arrangement and is, in general, applicable to any signaling system 35l ing and closing of a signaling circuit.
Referring to the drawing: Fig. 1 shows a portion of .an automatic telephone system in which A represents asubscribers lstation and IR represents impulse receiving means.
Fig. 2 shows graphs which facilitate the description of the arrangement shown in Fig. 1.
The apparatus at station A includes a dial I0 or an equivalent impulse sender, and is connected by line I I to a central oiiice or exchange in which automatic switching equipment is provided for establishing a connection between the line I I and an idle impulse receiving means IR in response to the removal of the receiver at station A to originate a call. The impulse receiving means IR may be used to directly control in succession each of a train of selective' switches to complete a desired connection or may be used to operatea register which thereafter controls the various in which selective signals arecreated by the open-l 1935,. Serial No. 21,049 Y (Cl. 179-16) y switches through which a desired connection is established* Reference 'may be had tov chapter III of the second edition of Automatic Telephony by Smith and Campbell for a description of an automatic telephone" system comprising switches of the well-known Strowger type controlled by the dial impulses when dialed. Reference may be had to Patent No. 1,395,977 granted to F. A. Stearn et al., November 1', 1921 for a description of a system comprising switches of the power-driven panel type which are revertively controlled by a register-controller, set in accordance with trains of impulses created by the operation of the dial at any calling subscribers station to which the register-controller is connected. The impulse receiving means IR, shown in Fig. I of the drawing, comprisesanimpulse receiving relay I4, a rectierY I5` of they copper-oxide disc type, auxiliary impulse relays I9 and 20, a slowto-release relay 2|, and a register or selector 22. Upon extension of the line I'I to the impulse receiving means IR in response to the removal of the receiver by the subscriber at station A to originate a call, an impulse circuit is completed from battery through resistor I3 and from bat'- tery through resistor I6, rectier I5 and the winding of relay I4 all in series, over conductor I 2 and line -II, through the'telephone instrument and dial I0 at station A, and through onewinding of the dial tone transformer to ground.` `-At substantially'the same time ground is connected to the upper end of resistor I8 as' indicated in the drawing by the broken line, thereby completing a network which constitutes an unbalanced' Wheatstone bridge. `l`1,esisto`r-l3 and vresistor I6 vform adjacent legs ofthe network, the junction/point between these resistorsbeing connected to batteryithe line VVI Iformsl the leg oppositeresistor I6; the resistors I'IV and I8 in series 'form' the leg opposite resistor I3, ground being connected to the junction point between the line II and resistor I8; and the -winding of relay I4 in seriesv with rectifier I5 forms the bridge from the junction point w between resistor I3 and line II and the junction point h between resistors I6 and I'I. With the proper choice of resistors and with'the network thus completed, the potential of point ct is enough higher than the potential of point b to cause the operation of relay I4, the rectifier I5 being poled to offer minimum resistance tothe resulting current between these points. The operation vof relay I4 closes a Ycircuit through the winding of relay I9 in series with the windings of relays and 2| in parallel'. VThe operationV of a holding circuit for relay 2 I.
relay I9 short-circuits resistor I8; and the operation of relay 20 disconnects the Winding of relay 2I from the Winding of relay 20 and closes The short-circuiting of resistor I8 raises the potential of point b so that the current through the winding of relay I4 and rectier I5 is reduced to render relay I4 more quickly responsive to the opening of the impulse circuit when the subscriber at station A operates the dial I0. No further action takes place until the subscriber at station A operates the dial to obtain a connection with any other station with which conversation is desired.
Upon the opening of the impulse circuit over line II at the dial to transmit the first impulse of a series, the potential of point a becomes substantially the same as that oi the negative pole of the battery, the current andu drop in potentialr through resistor I3 and the Winding of relay I4 irf series being very small due to the polarity of rectier I5. What current there is through the winding of relay I4 is in the opposite direction to that which existed while the impulse circuit was closed, so that relay I4 releases and is not reoperated until the impulse circuit is again closed at the end of the rst dial impulse. The release of relay I 4 closes at its back contact a circuit for operating the register or selector 22. The release of relay I4 also causes the release of relays I9 and 20. Being slow in releasing relay 2| remains operated during dialing. The release of relay I9 removes the short-circuit around resistor I8 to lower the potential of point b and thereby increase the difference in potential between points a and b; so that, upon the closing of the impulse circuit at the end of the rst dial impulse, relay I4 will be more quickly reoperated than it would have been if the short circuit around resistor I8 were continued. With relay I4 reoperated, relays I9 and 20 reoperate, resistor I8 is again short-circuited, and the circuit through the winding of relay 2I closed. The reoperation of relay I4 also opens the register operating circuit. The above described cycle of operations is repeated in response to each succeeding opening and closing of the impulse circuit at the contacts of the dial, thereby effecting the desired operation of the selector or register 22.
In the above-described bridge and rectifier arrangement, there is no current or a very small current through the Winding of relay I4 while the line loop is open; the current, if any there be through the winding of relay I4 prior to the closing of the line loop, being in the opposite direction to the current through this winding after the line loop is closed. Upon closure of the line loop, the current, through the winding of relay I4, reverses and increases rapidly to a value considerably above that required for operating relay I4; the necessary unbalance of the bridge being obtained by a proper choice of resistors for use as the fixed resistance branches of the bridge. Upon opening of the line loop, the current through the winding of relay I4 decreases rapidly below the point at which relay I4 begins to release, until there is no current, or a very small current in the opposite direction, through the relay winding. This arrangement is, therefore, one
in which the impulse relay is fast in operatingA upon closure of the line loop and fast in releasing upon the opening of the line loop. In the case of an impulse relay connected directly in series with the line in conventional manner, the current upon closure of the line loop cannot be much in excess of the minimum required for operating the relay and such an impulse relay is slow in operating as compared with relay I4; and the current upon opening of the line loop, due to the conductivity of the line insulation, tends to= make the conventional impulse relay slow in releasing as compared with the release of relay I4. Furthermore the variation in the time required for operating the impulse relay I4, due to any commercially allowable variation in its operating capability, is small as. compared With the variation in time required foroperatinganimpulse relay which "is connected directly in series with the line due to the fact that the actual current through the winding of relay I4 exceeds the minimum operat- 'ing current by a much larger amount than that by which the actual current can exceed the minil mum operating current in the case of an impulse relay which is connected directly in series with the line loop.
The graphs in Fig. 2 indicate the changes in voltage and current that take place in the networkin response to the closing and opening of the impulse loop. The curves 30, and 5l] are spaced horizontally so that points on each directly above or below each other represent simultaneously existing conditions. The curve 30 represents the varying voltage across resistor I3, and curve 40 represents the varying voltage across resistor I5, during the transmission of a series of dial impulses. The curve represents the varying current through the winding of the impulse relay I4 during the same time interval. The legends shown adjacent the various significant points, render the graphs self-explanatory.
What is claimed is:
1. In a signaling system, a line, a signal sender for opening and closing said line, a Wheatstone bridge network, said line constituting the variable resistance branch of the bridge, a signal receiving relay for response to an unbalanced condition created by the opening of said line by said sender, a signal register, an auxiliary relay for repeating the signals received by said signal receiving relay to operate said register, and means comprising sai-d auxiliary relay for altering the balance of the bridge so as to aid the o-peration of the signal receiving relay and to aid the release of the signal receiving relay.
2. In a signaling system, a line, a signal sender for opening and closing said line, a Wheatstone bridge comprising said line and a relay, said relay being adapted to operate in response to the closing of said line and to release in response to the opening of said line, and means for altering said bridge to aid the release of said relay.
3. In a signaling system, a line, a signal sender for opening and closing said line, and a Wheatstone bridge comprising said line, a relay and a unidirectional conductor, said conductor being connected in series with said relay to render it responsive to current in only one direction, said relay being adapted to operate in response to the closing of said line and to release in response to the opening of said line, and means for altering said bridge to aid the release of said relay.
4. In a signaling system, a line, a signal sender, a first relay, a second relay, a unidirectional conductor, a battery, a potentiometer comprising resistors connected across the terminals of said battery, another resistor interconnecting said line and one of the terminals of said battery, the winding of said first relay and unidirectional conductor in series being connected from the junction point between two of the resistors of said potentiometer to the junction point between said line and said other resistor, a circuit comprising said unidirectional conductor, the winding of said first relay, the line and the signal sender, `a second circuit including normally open contacts of said rst relay and the winding of said second relay, and means including normally open contacts of said second relay for reducing the difference in potential between said junction points.
5. In a signaling system, a line, a signal sender for opening and closing said line, a Wheatstone bridge comprising said line and a relay, said relay being adapted to operate in response to the closing of said line and to release in response to the opening of said line, and means for altering the balance of said bridge to aid the operation of said relay.
6. The combination in a signaling system, of a line, a plurality of resistors, a relay, and a battery all connected to form a Wheatstone bridge, said relay being bridged across the junction point between two of the resistors and the junction point between said line and another of the resistors, a signal sender for opening and closing the line, and a unidirectional conductor connected in series with the winding of said relay.
7. The combination in a signaling system, of a line, a plurality of resistors, a relay, and a battery all connected to form a Wheatstone bridge, said relay being bridged across the junction point between two of the resistors and the junction point between said line and another of the resistors. a signal sender for opening and closing the line, a unidirectional conductor connected in series with the winding of said relay, and a signal register controlled by said relay.
8. The combination in a signaling system, of a line, a plurality of resistors, a relay, and a battery all connected to form a Wheatstone bridge, said relay being bridged across the junction point between two of said resistors and the junction point between said line and another of the resistors, and an impulse sender comprising contacts for opening and closing the line, the difference in potential between said junction points being increased sufciently upon the closing of said line to cause the operation of said relay and decreased sufliciently upon the opening of said line to cause the release of said relay. Y
9. The combination in a signaling system, of a line, a plurality of resistors, a relay, and a battery all connected to form a Wheatstone bridge, said relay being bridged across the junction point between two of said resistors and the junction point between said line and another of the resistors, an impulse sender comprising contacts for opening and closing the line, and a unidirectional conductor connected in series with the winding of said relay,l there being a suicient difference in potential between said junction points when said line is closed to cause the operation of said relay and substantially no difference in potential between said junction points when said line is open.
THOMAS L. DIMOND.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2422285A (en) * 1942-04-20 1947-06-17 Automatic Elect Lab Selector operating circuit for use in automatic telephone systems

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2422285A (en) * 1942-04-20 1947-06-17 Automatic Elect Lab Selector operating circuit for use in automatic telephone systems

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