US2038303A

US2038303A - Signaling system

Info

Publication number: US2038303A
Application number: US753418A
Authority: US
Inventors: William H Matthies
Original assignee: Bell Telephone Laboratories Inc
Current assignee: AT&T Corp
Priority date: 1934-11-17
Filing date: 1934-11-17
Publication date: 1936-04-21
Anticipated expiration: 1953-04-21

Description

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SIGNALING SYSTEM Filed Nov. 17 1934 W. H MATTHIES Apr lNl/L'N TOR W. H. MA TTH/ES A rrok/vy o r e REF- Patented Apr. 21, 1936 UNI 'TED STA-T E'sarms SIGNALING SYSTEMN William H. Matthies, Backseat,nsrgjasigsar to Bell Telephone Laboratorics, Incorporated, New York, N. Y., a corporation of New York Application November '17, 1934; Serial No. 753,418 5 Claims. (01; 179-l6) This invention relates to signaling systems and more'particularly to systems employing electromagnetically operated signal receiving mechamsm.

6 The object of theinvention is to increase the capability and reliability of impulse responsive apparatus in automatic signaling systems.

In systems comprising electromagnetic signal M receiving mechanisms which may be operatively 6* associated with any onefof a plurality of impulsing circuits, the allowable variation in the character of the impulse circuits without causing failure on the part of the receiving mechanism is limited. If the signal receiving mechanism is provided with an impulse relay adapted for use in .high'resistance impulse circuits, this relay will be too slow in'releasing when included in a low resistance impulse circuit; and an' impulse relay adapted for use'in a low resistance impulse f circuit would be too slow in operating, or fail entirely to operate when included in a high resi'stance impulse circuit.

According to this invention an electromagnetically operated signal receiving means is provided with a plurality of impulse receiving'relays of different characteristics and with means for selecting that one of the impulse'relayswhich isbest suited for use in any particular impulse circuit. 7

'5 .Aiea't'ure of the invention is the provision'of means for determining. the character of the impulse loop with which itis desired to connect onenofa. plurality of impulse relays of. different capabilities and forselecting that one of the 3' impulse relays which is .bestsuited for use withthe impulseloop in,question.,.,. .A telephonetsystem, arranged in accordance withthisinvention is rep esented schematically in thedrawing whichforms apart of thisspecifi: 46 cation. The inventionis, however, not limited its application to this, particularsystem and e pp ble to. l a t matic ta p sz l em he ys e h w n. h drawing isoi the well-known panel type which in- 4E cludes .register-sendersio-r revertively controllin glithe selector switches.,.

Re ernn t inearawmgr represents a 'subscriberfs station in an 7 office 01 K Crepresnts'a'link comprising the line 50 fin er switchvLEandlthe district selector switc DS, OSfrepresents anofiice selector switch, rep ntsalink comprising the districtfihdei switch 13F and the register-sender finder switch SE, represents a rgister sender for use 5'5 inrgisteringthenuinber dialed by a calling subscriber and for use in controlling the selector switches employed in completing a connection between two lines. T represents a trunk extending from the banks of oflice selectors in office to an incoming selector switch IS in an oiiice 0-2 F represents a final selector switch and B represents a subscribers station in offic The subscribers stations A and B are provided with telephone sets which include a dial or other impulse device for use in securing a connection with the station of any other subscriber with Whom conversation is desired. r

The line finder switch LF, district selector switch DS, office selector switch OS, incoming selector switch IS, and final selector switch F8, are all of the panel type such as is disclosed in Patent No;. 1,123,69'6 granted to J. N. Reynolds, January 5, 1915. Reference may be had to Patent No. 1,505,171 granted to F. A. Stearn August 19, 192%1 for a detailed description of the control and operation of these switches. The trunk finder switch DF andthe sender finder switch SF may also be of the panel type and reference may behad to Patent No. 1,690,206 granted to A. 2 Raynsford, November 6, 1928, for a description of the operation of these switches. The finder and selector switches are each represented by a set of brushes and a single set of terminals; all driving mechanism and control apparatus which is not necessary to a full and complete description of this invention has been omitted. The register-sender RS comprises means, withinthe broken line enclosure E, for receiving dial impulses from a calling station. I Office code 5 and numerical registers are represented by the single magnet within the broken line enclosure F. For a complete description of such a register-sender and its operation, reference may be had to the aforementioned Patent No. 1,505,171, 0 granted to F. A. Stearn. A modification of the sender of the Steam patent" is the provision of three impulse relays v201, 208 and 209, each being particularlyadapted to respond to impulses over lines of different resistance characteristics. To select and connect the particular one of these impulse relays which is best adapted for use with a calling'line, to which the register-sender is connected, three line relays 2%, 295, and 206 and'an auxiliary relay 203 are provided. Relay 0 204, is operatively, responsive to its connection to all lines, but

relays

205 and 206 are marginalso that relay 2 05 operates only. when connectedto a line oj not m ore than medium resistance and relay 206 operates only when connected to a line sov of low resistance. If line relay 204 operates and

relays

205 and 206 do not operate, the calling line is connected to the most sensitive impulse relay 201; if

line relays

204 and 205 operate, but relay 206 does not, the calling line is connected to the less sensitive impulse relay 208; and if

line relays

204, 205 and 206 all operate in series with a calling line, the line is connected to the least sensitive impulse relay 209.

The register-sender RS also includes three stepping relays 2I4, 2I5 and 2I6 and the usual set of counting relays which are represented by

relays

222, 225 and 226 within the broken line enclosure G. Relay 2I6 is most sensitive and is adapted for use in controlling selections over trunks of high resistance; relay 2I5 is less sensitive and is adapted for use in controlling selections over trunks of medium resistance; and relay 214 is least sensitive and is adapted for use in controlling selections over local trunks or other trunks of low resistance. The cam 2I3 which controls the insertion of the stepping relays in the selector switch control circuits is one i of the cams of a sequence switch which is set in accordance with the routing of the call and the particular selection being made; so that the stepping relay which is included in the control circuit for any selection will be of the proper sensitivity for that particular selection. This arrangement is a substitute for the insertion of compensating resistance in the fundamental switch control circuits and increases the length of trunks over which theselectors may be satisfactorily controlled.

Assume now that the subscriber at station A originates a call by removing the receiver from the switchhook, that the links C and D are alloted for use on the call, that the calling line is extended through the brushes of line finder switch LF, district finder switch DF, and sender finder switch SF to the register-sender RS.

A signaling circuit is thereupon established with the calling subscribers line over which the dial impulses are made effective in registering the wanted subscribers number. This circuit may be traced from ground through balancing coil 20I in the register-sender RS, terminal I04 and brush of finder switch SF, brush and terminal I05 of finder switch DF, conductor I06 of link C, brush and terminal I01 of line finder switch LF, thence over one side of line I00 and through the impulse contacts (not shown) of dial I08, thence through the calling subscribers set A and back over the other side of the line through terminal I59 and brush of line finder LF, conductor H0, terminal III and brush of district finder DF, brush and terminal II2 of sender finder SF, conductor 202, back contact of relay 203 and through the upper windings of

line relays

204, 205 and 206 in series to battery.

Assuming first that the line I00 is a long or high resistance line, relay 204 operates, but

relays

205 and 206 do not operate, in series with this line. Relay 204 closes a locking circuit through its lower winding to the holding ground of theregister-sender and closes a circuit for operating relay 203. With relay 203 operated and relay 205 normal, the calling line is disconnected from the upper windings of

relays

204, 205 and 206 and is connected over conductor 202, through the front contact of relay 203 and back contact of relay 205, to the winding of impulse relay 201. Impulse relay 201 operates and causes the operation of relay 2I0. With relay 2I0 operated and relays 208 and 209 normal. the response of relay 201 to the impulses created by the dialing of the number of the station with which a talking connection is desired is efiective to set the office code and numerical registers in usual manner. Relay 2I0 is a slow-to-release relay and remains operated during dialing.

If the line I00 is a medium length line, that is a line of medium resistance, both of

relays

204 and 205 are operated upon extension of the line to the register sender RS but relay 206 does not operate. Each of

relays

204 and 205 closes a locking circuit through its lower winding to the holding ground of the register sender. The operation of relay 204 also causes the operation of relay'203; and with relays 203 and 205 both operated, the calling line is disconnected from the upper windings of

relays

204, 205 and 206 and is connected, over conductor 202 and through front contacts of relays 203 and 205 and the back contact of relay 206, to the winding of impulse relay 208. Relay 208 operates in series with the calling line and in turn causes the operation of relay 2I0. With relay 2I0 operated and with relays 201 and 203 normal, the response of relay 208 to the impulses created by the operation of the dial I08 is effective to set the office code and numerical registers in usual manner.

If the line I00 is a short or low resistance line, all of

relays

204, 205 and 206 are operated upon extension of the line to the register sender RS. Each of

relays

204, 205 and 206 closes a locking circuit through its lower winding to the holding ground of the register sender. The operation of relay 204 also causes the operation of relay 203; andwith

relays

203, 205 and 206 all operated the calling line is disconnected from the upper windings of

relays

204, 205 and 266 and is connected, over conductor 202 and through front contacts of

relays

203, 205 and 206, to the winding of impulse relay 209. Relay 209 operates in series with the calling line and in turn causes the operation of relay 2I0. With relay 2I0 operatedand with relays 201 and 203 normal, the response of relay 209 to the impulses created by the operation of the dial 108 is effective to set the ofllce code and numerical registers in usual manner.

In response to the registration of the called subscribers number in the register sender RS, the ofiice code is translated in terms of the class and route of the call and in terms of the district and ofiice brush and group selections necessary to select a trunk leading to an incoming selector in the office in which the called line is located. Since the district selector is always in the same ofiice as the register sender the least sensitive stepping relay 2I4 will be included inthe fundamental selector control circuit for district brush and group selections. Since the oifice incoming and final selectors used in completing a call may be in a different office from that in which the-register sender is located, the sequence switch, heretofore used to control the compensating resistance in the fundamental circuit will now be used to cut in that one of the three stepping relays 2I4, 2I5 and 2I6 which is'best suited for operation during each particular selection.

'Assuming district and office selections to have been completed and the trunk T to have been selected and tested, the sender sequence switch is advanced to close the fundamental circuit for incoming brush selection. The incoming selector IS, to which the trunkT'connects, is shown in sufficient detail to permit the tracing of the fundamental circuit from ground through cam contacts 3!" and 300 of the incoming selectorssequence switch, over the lower conductor of trunk T, terminal I32 and brush of selector OS, terminal I22 and brush of selector DS, conductor H3, terminal H4 and brush of switch DF, brush and terminal I I5 of switch SF, through the contacts of cam 213 of the sequence switch which is set in a position corresponding to the particular trunk route and selection being made, then through the winding of whichever one of stepping relays H4, H5 and 2l6 which is best adapted for use, as indicated by the position in which cam N3 is resting, conductor 22l, back contact of relay 222 of the counting relays, conductor 223, terminal I I6 and brush of switch SF, brush and terminal ll! of switch DF, conductor H8, brush and terminal I 2| of selector DS, brush and terminal l3l of selector OS, upper conductor of trunk T,

cam contacts

302, 303, 304 and 305 of the incoming selectors sequence switch and through the left winding of line relay 306 to battery. The operation of whichever of the stepping relays is included in the fundamental circuit is effective to operate the counting relays in Well known manner so as to open the fundamental circuit and thus stop the incoming selec tor as soon as it has advanced to the proper position for the selection in question.

The operation of register sender RS is in all other respects the same as that of the sender described in the aforementioned Patent No. 1,505,171 to F. A. Steam. The invention is, however, not limited in its application to the particular sender and system shown in the drawing but may be applied generally to all systems employing register-senders.

What is claimed is:

1. In a signaling system, subscribers lines of different characteristics, signal receiving means comprising a plurality of impulse relays of different capabilities, means for operatively associating said signal receiving means with a calling one of said lines, and means effective upon association of said signal receiving means with a calling line for selecting that one of said impulse relays which is best suited for use with said calling line.

2. In a signaling system, lines of different characteristics, signal receiving means comprising a plurality of impulse relays of different capabilities, means for operatively associating said signal receiving means with any one of said lines, means for testing the line to which said receiving means is connected to determine its character, and

means for connecting to said line that one of the impulse relays which is best suited for use therewith.

3. In a signaling system, lines of different characteristics, signal receiving means comprising a plurality of impulse relays of different capabilities, switching means for operatively associating said signal receiving means with a calling one of said lines, and marginal relay means for selecting and connecting to the calling line that one of said impulse relays which is best adapted for use with said calling line.

4. In a signaling system, lines of different resistance, signal receiving means comprising three impulse relays, one of said impulse relays being adapted for use with lines of high resistance, another of said impulse relays being adapted for use with lines of medium resistance, and the other of said impulse relays being adapted for use with lines of low resistance, switching means for operatively associating said signal receiving means with a calling one of said lines, and testing means associated with said signal receiving means for determining the resistance characteristic of said calling line and for connecting to said line that one of said impulse relays which is best adapted for use with said line.

5. In a signaling system, lines of different resistance, a signal register comprising a plurality of test relays and a plurality of impulse relays, a first one of said impulse relays being adapted for use with lines of low resistance, a second one of said impulse relays being adapted for use with lines of somewhat higher resistance, and a third one of said impulse relays being adapted for use with lines of highest resistance, switching means for operatively associating said register with a calling one of said lines, a circuit comprising windings of said test relays in series with the calling line, all three of said test relays being operable in series with the lines of low resistance, only two of said testrelays being operable in series with said lines of somewhat higher resistance, and only one of said test relays being operable in series with lines of highest resistance, means effective if all three of said test relays are operated for connecting the calling line to said first one of said impulse relays, means effective if only said two of the test relays are operated for connecting the calling line to said second one of said impulse relays, and means effective if only said one of the test relays is operated for connecting the calling line to the third one of said impulse relays.

WILLIAM H. MATTHIES.