US2069915A - Signaling system - Google Patents
Signaling system Download PDFInfo
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- US2069915A US2069915A US19293A US1929335A US2069915A US 2069915 A US2069915 A US 2069915A US 19293 A US19293 A US 19293A US 1929335 A US1929335 A US 1929335A US 2069915 A US2069915 A US 2069915A
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- cathodes
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- discharge
- current
- signaling
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04Q—SELECTING
- H04Q1/00—Details of selecting apparatus or arrangements
- H04Q1/18—Electrical details
- H04Q1/30—Signalling arrangements; Manipulation of signalling currents
- H04Q1/44—Signalling arrangements; Manipulation of signalling currents using alternate current
- H04Q1/442—Signalling arrangements; Manipulation of signalling currents using alternate current with out-of-voice band signalling frequencies
- H04Q1/4423—Signalling arrangements; Manipulation of signalling currents using alternate current with out-of-voice band signalling frequencies using one signalling frequency
Definitions
- This invention relates to signaling systems and more particularly to signaling systems which are capable of producing a variety of difierent signals as desired.
- the arrangements of the invention are particularly adapted for use in signaling systems such as might be utilized in connection with telephone lines.
- signaling systems such as might be utilized in connection with telephone lines.
- a variety of ringing signals of different types may be produced at a station.
- a station for example, in response to the application of regularly interrupted signaling current to a line there may be produced at a station one normal ring followed by short rings, one
- a signaling line L At one end of the line are shown means for applying signaling current to the line.
- the key K might apply ground to one side of the line and alternating current from a source I to the other side of the line.
- the signaling arrangements of the invention At the distant end of the line there would be provided the signaling arrangements of the invention. These would comprise the gas filled discharge tube In.
- the gas filled discharge tube utilized in the arrangements of this invention is of the type commonly referred to in the art as a cold cathode ionic tube of the double gap type.
- Such tubes possess two cathodes preferably coated with some material to reduce the cathode fall, or activated, as this is termed, and so spaced from each other that the breakdown voltage between the two cathodes is relatively low.
- the discharge path between the cathodes is spoken of as the control discharge path or control gap.
- the tube is also provided with an anode so spaced from one of the cathodes that the breakdown therebetween is much greater than that between the two cathodes.
- anode is shown as 4.
- a current limiting condenser 5 may be connected in series with one of the cathodes. The minimum voltage to sustain a discharge, once started, will be nearly thesame for the two discharge paths, the main gap, or anode to cathode path, being possibly volts higher.
- the main gap that is, the gap between the anode and one of the cathodes, can be broken down only-when the anode is positive with respect to one-of the cathodes.
- alternating signaling current is applied to the line the tube will act as a halfwave rectifier in that part of the tube which includes the anode and cathode path.
- Connected to the anode 4 is a circuit which includes the battery 6 which has a voltage above the sustaining voltage but below the breakdown voltage of the tube.
- a suitable signal responsive device such as 1.
- This for example, might be a ringer which would re spond to the current of a pulsating nature which flows in the anode circuit due to the rectifying properties of the tube.
- the condenser 8 Connected serially in the anode circuit is the condenser 8 which is shown as adjustable, for reasons which will be pointed out hereinafter.
- a leak resistance 9 also shown as adjustable, for reasons to be pointed out hereinafter.
- the arrangements operate in the following manner: When alternating ringing current which may be regularly interrupted either by the key K or other desired means such as interrupter I3, is applied to the line a discharge will take place between the two cathodes 2 and 3 and cause a pulsating discharge to take place between one of the cathodes and the anode 4. This will cause a pulsating current to flow in the anode circuit and will operate the ringing device I. This pulsating current will build up a charge on condenser 8 which eventually prevents the flow of suflicient current in the anode circuit to operate the ringer 1.
- the charge-on the condenser near the end of the first ringing interval may be suflicient to prevent the breakdown of the main gap and to silence the ringer on subsequent ringing intervals. If the call is abandoned and a new call initiated, resistance 9 discharges condenser 8 during the interval between calls, and the first ring on the next call is then eifected.
- the attached table shows certain of the various types of signals which may be obtained with different values of the condenser 8 and the re- I sistance 9. These values will, of course, depend to some extent on the ringing voltage and on the battery voltage.
- the battery I! would be connected in series with the alternating current supply I.
- the battery 6 can be either eliminated by the alternative connection II or reduced in voltage, so that the sum of the voltage of battery l2 and battery 6 will be above the maintaining voltage but below, the breakdown voltage.
- a signaling line means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said cathodes when such signaling current is applied,
- an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one. of said cathodes resulting in the flow of a pulsating current in said anode-circuit, and adjustable-means in said anode circuit controlled by the duration of the flow of pulsating current therein for preventing the recurrence of said pulsating discharge between said anode and one of said cathodes.
- a signaling line means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said cathodes when such signaling current is applied to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the flow of a pulsating current in said anode circuit, and an adjustable condenser shunted by an adjustable resistance in said anode circuit whereby the recurrence of said pulsating discharge between said anode and one of said cathodes may be temporarily prevented depending upon the duration of the flow of pulsating current in said anode circuit.
- a signaling line means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said .cathodes when such signaling current is applied to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the flow of a pulsating current in said anode circuit, adjustable means in said anode circuit controlled by the duration of the flow of pulsating current therein for preventing the recurrence of said pulsating discharge be- 10 tween said anode and one of said cathodes, and signaling means in said anode circuit controlled by the pulsating current therein.
- a signaling line means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge willtake place between said cathode when such signaling current is applied to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the fiow of a pulsating current in said anode circuit, and a condenser shunted by a resist", ance includedin said anode circuit, the values of said condenser and said resistance being so chosen that the charge accumulated on said condenser due to the flow of pulsating current in said anode circuit during the first interval during which said signaling current is applied to said line will control the duration of operation of said during the next succeeding interval during which said signaling current is applied to said
- a signaling line means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said cathodes when such signaling current is applied tosaid line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the flow of a pulsating current in said anode circuit, and a condenser shunted by a resistance included in said anode circuit, the values of said condenser and said resistance being so chosen that the charge accumulated on said condenser during a signaling interval may prevent the operation of the tube during the next succeeding signaling interval.
- a signaling line means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double' gap type having two cathodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said cathodes when such signaling current is applied to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the flow of a pulsating current in said anode circuit, adjustable means in said anode circuit for gradually reducing the flow of said pulsating current during its duration, and other adjustable means in said anode circuit operative between the regular interruptions in said signaling current. for restoring said first mentioned adjustable means to its original condition.
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Description
Feb. 9, 1937.
' USED ALTERNAT/VELV w. H. EDWARD S ET AL A! PLAfE 01 /2 SIGNALING SYSTEM Filed May 1, 1935 1 W l l ATTORN EY Patented Feb. 9, 1937 2,069,915 PATENT OFFICE SIGNALING SYSTEM William Hopple Edwards, Great Neck, and Clair William Halligan, New York, N. Y., assignors to American Telephone and Telegraph Company, a corporation of New York Application May 1, 1935, Serial No. 19,293
g 6 Claims.
This invention relates to signaling systems and more particularly to signaling systems which are capable of producing a variety of difierent signals as desired.
The arrangements of the invention are particularly adapted for use in signaling systems such as might be utilized in connection with telephone lines. By means of the invention a variety of ringing signals of different types may be produced at a station. For example, in response to the application of regularly interrupted signaling current to a line there may be produced at a station one normal ring followed by short rings, one
.normal ring followed by silence thereafter, one
short ring followed by a still shorter ring, and many other varieties or combinations of ringing or other signals. In the arrangements of the invention this is accomplished by providing at each station a gas-filled discharge tube and circuit arrangements therefor to control suitable signal responsive devices thereat. Other objects and features of the invention will appear more fully from the detailed description thereof hereinafter given.
The invention may be more fully understood from the following description together with the accompanying drawing, in the figure of which is shown a circuit diagram embodying a preferred form of the invention.
In the drawing is shown a signaling line L. At one end of the line are shown means for applying signaling current to the line. For example, the key K might apply ground to one side of the line and alternating current from a source I to the other side of the line. At the distant end of the line there would be provided the signaling arrangements of the invention. These would comprise the gas filled discharge tube In. The gas filled discharge tube utilized in the arrangements of this invention is of the type commonly referred to in the art as a cold cathode ionic tube of the double gap type. Such tubes possess two cathodes preferably coated with some material to reduce the cathode fall, or activated, as this is termed, and so spaced from each other that the breakdown voltage between the two cathodes is relatively low. The discharge path between the cathodes is spoken of as the control discharge path or control gap. The tube is also provided with an anode so spaced from one of the cathodes that the breakdown therebetween is much greater than that between the two cathodes. For example, in tube In the cathodes are shown as 2 and 3, and are connected to opposite sides of the line L. The anode is shown as 4. A current limiting condenser 5 may be connected in series with one of the cathodes. The minimum voltage to sustain a discharge, once started, will be nearly thesame for the two discharge paths, the main gap, or anode to cathode path, being possibly volts higher. It is found that if a voltage less than the breakdown voltage, but above the sustaining voltage, is applied to the main gap, and a discharge is caused to pass through the control gap, a breakdown of the main gap will take place, being triggered 01f by the control gap. The main gap, that is, the gap between the anode and one of the cathodes, can be broken down only-when the anode is positive with respect to one-of the cathodes. When alternating signaling current is applied to the line the tube will act as a halfwave rectifier in that part of the tube which includes the anode and cathode path. Connected to the anode 4 is a circuit which includes the battery 6 which has a voltage above the sustaining voltage but below the breakdown voltage of the tube. In the anode circuit is also provided a suitable signal responsive device such as 1. This, for example, might be a ringer which would re spond to the current of a pulsating nature which flows in the anode circuit due to the rectifying properties of the tube. Connected serially in the anode circuit is the condenser 8 which is shown as adjustable, for reasons which will be pointed out hereinafter. Shunted around the condenser is a leak resistance 9 also shown as adjustable, for reasons to be pointed out hereinafter.
The arrangements operate in the following manner: When alternating ringing current which may be regularly interrupted either by the key K or other desired means such as interrupter I3, is applied to the line a discharge will take place between the two cathodes 2 and 3 and cause a pulsating discharge to take place between one of the cathodes and the anode 4. This will cause a pulsating current to flow in the anode circuit and will operate the ringing device I. This pulsating current will build up a charge on condenser 8 which eventually prevents the flow of suflicient current in the anode circuit to operate the ringer 1. If the values of the condenser 8 and the leak ,resistance 9 are of a certain value, the charge-on the condenser near the end of the first ringing interval may be suflicient to prevent the breakdown of the main gap and to silence the ringer on subsequent ringing intervals. If the call is abandoned and a new call initiated, resistance 9 discharges condenser 8 during the interval between calls, and the first ring on the next call is then eifected.
By adjusting the value of resistance 9 it is possible to produce one ring only or one fairly long ring followed by shorter rings on succeeding ringing intervals. It is also possible by using a sufliciently large condenser for 8 to obtain one long ring followed by several short rings and then silence on the remaining ringing intervals.
The attached table shows certain of the various types of signals which may be obtained with different values of the condenser 8 and the re- I sistance 9. These values will, of course, depend to some extent on the ringing voltage and on the battery voltage.
Leak mlst' Capacity First ring Succeeding rings ance Ohms Millifarad 35, 000 20 Fairly long. 25, 000 20 Full length. 40, 000 20 Moderately long. 100, 000 20 Very short 167, 000 20 None. 167, 000 10 Exceedingly short. 100,000 10 Exeeedingly short.
40, 000 10 Very short. 35, 000 10 Very short. 25, 000 10 Full length.
, 000 10 Very short None.
In case A. C.-D. C. or superimposed ringing current is employed at the central oiiice instead of alternating current, the battery I! would be connected in series with the alternating current supply I. In this case the battery 6 can be either eliminated by the alternative connection II or reduced in voltage, so that the sum of the voltage of battery l2 and battery 6 will be above the maintaining voltage but below, the breakdown voltage.
While the invention has been disclosed as embodied in certain specific forms which are deemed desirable, it is understood that it is capable of embodiment in many other widely varied forms without departing from the spirit of the inventoin as defined by the appended claims.
What is claimed is:
1. A signaling line, means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said cathodes when such signaling current is applied,
to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one. of said cathodes resulting in the flow of a pulsating current in said anode-circuit, and adjustable-means in said anode circuit controlled by the duration of the flow of pulsating current therein for preventing the recurrence of said pulsating discharge between said anode and one of said cathodes.
2. A signaling line, means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said cathodes when such signaling current is applied to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the flow of a pulsating current in said anode circuit, and an adjustable condenser shunted by an adjustable resistance in said anode circuit whereby the recurrence of said pulsating discharge between said anode and one of said cathodes may be temporarily prevented depending upon the duration of the flow of pulsating current in said anode circuit.
3. A signaling line, means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said .cathodes when such signaling current is applied to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the flow of a pulsating current in said anode circuit, adjustable means in said anode circuit controlled by the duration of the flow of pulsating current therein for preventing the recurrence of said pulsating discharge be- 10 tween said anode and one of said cathodes, and signaling means in said anode circuit controlled by the pulsating current therein.
4. A signaling line, means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge willtake place between said cathode when such signaling current is applied to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the fiow of a pulsating current in said anode circuit, and a condenser shunted by a resist", ance includedin said anode circuit, the values of said condenser and said resistance being so chosen that the charge accumulated on said condenser due to the flow of pulsating current in said anode circuit during the first interval during which said signaling current is applied to said line will control the duration of operation of said during the next succeeding interval during which said signaling current is applied to said line.
5. A signaling line, means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double gap type having two cathode electrodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said cathodes when such signaling current is applied tosaid line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the flow of a pulsating current in said anode circuit, and a condenser shunted by a resistance included in said anode circuit, the values of said condenser and said resistance being so chosen that the charge accumulated on said condenser during a signaling interval may prevent the operation of the tube during the next succeeding signaling interval.
6. A signaling line, means for applying regularly interrupted signaling current thereto, a gas filled discharge tube of the cold cathode double' gap type having two cathodes and an anode, said cathodes being connected to said line whereby a discharge will take place between said cathodes when such signaling current is applied to said line, an anode circuit for said tube so arranged that when a discharge is started between said cathodes a pulsating discharge will be started between said anode and one of said cathodes resulting in the flow of a pulsating current in said anode circuit, adjustable means in said anode circuit for gradually reducing the flow of said pulsating current during its duration, and other adjustable means in said anode circuit operative between the regular interruptions in said signaling current. for restoring said first mentioned adjustable means to its original condition.
WILLIAM HOPPLE EDWARDS.
CLAIR WILLIAM HALLIGAN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US19293A US2069915A (en) | 1935-05-01 | 1935-05-01 | Signaling system |
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US19293A US2069915A (en) | 1935-05-01 | 1935-05-01 | Signaling system |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2641653A (en) * | 1950-04-05 | 1953-06-09 | Automatic Elect Lab | Ringer circuit using cold cathode tube |
US2827519A (en) * | 1955-05-16 | 1958-03-18 | Gen Dynamics Corp | Subscriber line ringing in an electronic telephone system |
US2920239A (en) * | 1957-01-30 | 1960-01-05 | Rca Corp | Signal detecting circuit |
US3159717A (en) * | 1960-07-07 | 1964-12-01 | Dictograph Products Inc | Chime signal regulator |
US3315249A (en) * | 1963-12-30 | 1967-04-18 | Warner W Clements | Programmed signalling system |
-
1935
- 1935-05-01 US US19293A patent/US2069915A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2641653A (en) * | 1950-04-05 | 1953-06-09 | Automatic Elect Lab | Ringer circuit using cold cathode tube |
US2827519A (en) * | 1955-05-16 | 1958-03-18 | Gen Dynamics Corp | Subscriber line ringing in an electronic telephone system |
US2920239A (en) * | 1957-01-30 | 1960-01-05 | Rca Corp | Signal detecting circuit |
US3159717A (en) * | 1960-07-07 | 1964-12-01 | Dictograph Products Inc | Chime signal regulator |
US3315249A (en) * | 1963-12-30 | 1967-04-18 | Warner W Clements | Programmed signalling system |
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