US2189769A

US2189769A - Telephone signaling system

Info

Publication number: US2189769A
Application number: US205906A
Authority: US
Inventors: Donald F Johnston; John B Shiel
Original assignee: Bell Telephone Laboratories Inc
Current assignee: AT&T Corp
Priority date: 1938-05-04
Filing date: 1938-05-04
Publication date: 1940-02-13
Anticipated expiration: 1957-02-13

Description

Feb. 13, 1940. D. F. JOHNSTON ET AL 2,189,769

TELEPHONE SIGNALING SYSTEM Filed May 4, 1938 0 0/? SILVER SULPH/DE RES/STANCE D. F JOHNS TON INVENTORS JB-SH A T TORNEV Patented Feb. 13, 1940 UNITED STATES PATENT orrics TELEPHONE SIGNALING SYSTEM Application May 4, 1938, Serial No. 205,906

4 Claims.

This invention relates to signaling systems and more particularly to machine ringing systems as employed in telephony.

It is common practice in certain phases of telephone communication to employ what is generally called machine ringing in signaling a called subscriber. In such cases a combination of alternating current and superimposed direct current is automatically connected to an idle subm scribers line circuit upon seizure thereof for the purpose of actuating the signaling device atthe called subscribers station. The removal of the receiver at the called station, in response to the incoming signal, causes a decrease in the resistance of the line circuit in a well-known manner with the result that arelay whose windings are traversed by the ringing current and which is normally unresponsive thereto, operates upon the increase of current incident to the decrease in line resistance to disconnect the ringing current from the line. This automatic disconnection of the ringing current from the line circuit is known as tripping and the relay which controls the disconnection is generally referred to as the tripping relay.

It is the object of this invention to provide, in a telephone signaling system, a simple, economical and dependable arrangement for tripping machine ringing. This object is attained in accordance with a feature of the invention by including in series with the operating winding of the tripping relay a resistor having a characteristic such that it offers a high resistance to the flow of current during the ringing period and when subjected to an increased voltage incident to the response of a called subscriber, its resistance decreases to such a value as to permit sufficient current to traverse the operating winding of the relay to cause its operation. The relay is provided with a non-inductive winding connected across the serially connected operating winding and resistor which, upon the removal of the receiver at the called subscribersstation, experiences an increased current flow causing the voltage drop across the resistor to increase suiiiciently to effeet the breakdown thereof and the consequent increase of current in the operating winding of the relay. The relay accordingly operates causing the disconnection of the ringing current source from the line circuit.

The invention will be readily understood from the following detailed description made with reference to the accompanying drawing which illustrates schematically, a subscribers station S connected, by means of the line circuit L, to a central oifice O at which are located the necessary instrumentalities for signaling the station S and for tripping the machine ringing in accordance with the features of the invention.

In describing the system disclosed in the drawing it will be assumed that the line L leading to station S has been seized by a connector switch in accordance with well-known practice and as a consequence of which ground potential, indim cated at It, will be connected to the winding of relay ll. Relay ll accordingly operates and at its inner upper armature and front contact locks itself to ground at the back contact and armature of tripping relay l2. At the outer upper 15 armature and lower armature of relay I! the continuity of the tip and ring conductors of the connector link C is interrupted and a source of ringing current i3 is connected to the subscribers line circuit L. The. ringer M being 20 bridged across the line L is actuated by current from the, source is to produce an audible signal at the station S.

The ringing current traverses a path including the front contact and lower armature of relay l l and thence in parallel through condenser [5, resistor l6 and operating winding I! of relay l2 and through the winding l8 and thence through the ringing bridge at station S and back to the source I 3 by way of the outer upper armature and front contact of relay H. The resistor l5 offers a high resistance to the flow of current from source 13 so that the operating winding ll of relay I2 is substantially devoid of current while the current flowing through the non-inductive low resistance winding I 8 is not of sufiicient magnitudeto set up a potential across the resistor l6 suificient to cause it to break down. The relay l2 accordingly remains unoperated.

When the subscriber at station S removes the receiver from its switchhook in response to the incoming signal to connect the receiver and transmitter to the line, the line resistance is materially reduced. This reduction in line resistance results from the shunting, by the switchhook contacts, of the high impedance ringer M. Due to this decrease in line resistance, the winding Q8 of relay l2 experiences an. increase of current from source it with the result that the potential drop across the resistor it is increased to such a value as to cause the resistor to break down, its resistance being materially reduced as a result. The resistance of the path including the operating winding l? of relay i2 is accordingly reduced to such an extent as to allow sufiicient current to traverse it and operate the relay l2.

In operating, relay l2 opens the locking circuit for relay H which relay releases, it being understood that the ground H) is no longer available due to the functioning of the connector switch circuit, as is well known.

Relay it released, disconnects the source l3 from the line circuit L and restores the continuity of the tip and ring conductors of the circuit C.

The resistor iii may be made of silver sulphide or boron, each of which elements is known to exhibit an abnormally high resistance at voltages below a certain value, known as the breakdown value, and whose resistance diminishes materially when subjected to voltages exceeding the breakdown value.

What is claimed is:

1. In a telephone system, a line circuit, a subscribers station thereon, a signal device at said station, a source of signaling current, means responsive to the seizure of said line circuit for connecting said source of signaling current thereto to cause the actuation of said signal device. and means effective when the subscriber at station responds to the actuated signal by removal of the receiver from its switchhool: for automatically disconnecting said source of current from said line circuit, said means including a relay having a non-linear resistor connected in series with the operating winding thereof and with said source of signaling current and a non-inductive winding connected in shunt with said operating winding and its serially connected resistor.

2. In a telephone system, a line circuit, a subscribers station thereon, a signal device at said station, a source of signaling current, means responsive to the seizure of said line circuit for connecting said source of signaling current thereto to cause the actuation of said signal device, and means eifective when the subscriber at said sta tion responds to the actuated signal by removal of the receiver from its switchhook for automatically disconnecting said source of current from said line circuit, said means including a relay having a silver sulphide resistor connected in series with the operating winding thereof and with said source of signaling current and a noninductive winding connected in shunt with said operating winding and its serially connected resistor.

3. In a telephone system, a line circuit, a subscribers station thereon, a source of current, means responsive to the seizure of said line circuit for connecting said source of current to said line, a relay having an operating winding, a nonlinear resistor, said operating winding and said resistor being connected in series with each other and with said source of current when said source of current is connected to said line circuit, said resistor normally constituting a high resistance to the flow of current from said source through said operating winding, and means effective upon the removal of the receiver at said station for effecting a diminution in the resistance of sai': resistor, said means including a non-ind'ucti winding on said relay connected in parallel Vila. said serially connected operating winding and resistor.

4. In a telephone system, a line circuit having a subscribers station thereon, a signal device at said station, a source of signaling current, means automatically responsive to the seizure of said line circuit for connecting said source of signaling current to line to effect the operation of said signal device, a tripping relay having an operating winding included in the line circuit in series with said source of current, a resistor in series with the operating winding of said relay for limiting the flow of current in said winding during the ringing period to a value insufiicient to cause said relay to operate and a non-inductive winding on said relay connected in shunt with said serially connected operating winding and resistor which functions in response to a decrease in the line resistance incident to the response of the subscriber to the actuated signal to lower the resistance of said resistor and thereby permit sufficient current to traverse the operating winding of said relay to cause the relay to operate.

DONALD F. JOHNSTON. JOHN B. SHIEL.