US1863655A - Means for reducing lightning interference in carrier telegraph systems - Google Patents

Means for reducing lightning interference in carrier telegraph systems Download PDF

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US1863655A
US1863655A US464348A US46434830A US1863655A US 1863655 A US1863655 A US 1863655A US 464348 A US464348 A US 464348A US 46434830 A US46434830 A US 46434830A US 1863655 A US1863655 A US 1863655A
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voltage
interference
circuit
telegraph systems
carrier telegraph
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US464348A
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Baxter P Hamilton
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AT&T Corp
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American Telephone and Telegraph Co Inc
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Priority to US464348A priority Critical patent/US1863655A/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L25/00Baseband systems
    • H04L25/02Details ; arrangements for supplying electrical power along data transmission lines
    • H04L25/08Modifications for reducing interference; Modifications for reducing effects due to line faults ; Receiver end arrangements for detecting or overcoming line faults
    • H04L25/085Arrangements for reducing interference in line transmission systems, e.g. by differential transmission

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  • This invention relates to means for eliminating the effect of lightning interference upon carrier telegraph signals, and particularly to means to prevent the building up of sustained oscillations by the interaction of the tuned circuits of carrier telegraph systems as the result of such interference.
  • interference with the reception of signals is frequently produced by voltage surges set up by lightning or other sources extraneous to the transmission lines. While the magnitude of the voltage resulting from lightning may be great relative to thatof the signal impulses, such interfering voltages are generally of short duration, in fact, so short that they would not cause the operation of the receiving relay were it not for the presence in the circuits of elements that effectively prolong the duration of such interfering voltages.
  • the elements that effect such prolongation are the tuned circuits of the receiving branches, which, when excited by the inteference voltage of great magnitude produce oscillations that are sustained sufiiciently long to permit the building up of the operating current of the receiving relay to that value at which the relay will operate.
  • My invention resides in means for detuning one of the resonant circuits whenever the impressed voltage exceeds a fixed limit, which detuning means comprises a thermionic discharge device.
  • the line L represents any form of a transmission circuit over which are transmitted not only currents of frequencies and magnitudes corresponding to the normal signal voltages but also currents resulting from abnormal interfering voltages.
  • the circuit L is connected with the sending bus L and also with the receiving bus L Bridged across L are a plurality of receiving branches such as L; and L by means of which the various signaling channels are selectively received and the signals are detected.
  • the branch L has connected therewith the series resonant circuit 1 that is coupled to the parallel resonant circuit 2.
  • the latter is connected with the amplifier-detector 3 whose output is in turn connected with one of the windings of the receiving relay 4. That relay controls the transmission of signals over the loop L to the station. represented schematically by the relay 5.
  • recharving branches such as L would, preferably, contain apparatus similar to that shown in connection with branch L
  • all voltages, whether normal or abnormal, that are present in the transmission circuit L will be impressed upon the receiving bus L and in turn upon the branches L and If at any instant there is present only the normal signal voltage of the frequency to be received by the branch L, such voltage will cause the flow of current through the series resonant circuit 1, tuned to the signal frequency, which flow of current will produce oscillations in the resonant circuit 2 that will be impressed upon the amplifier-detector 3.
  • the resultant rectified current will cause the operation of relay 4 which in turn will transmit an impulse over the loop L to the stat-ion 5.
  • an abnormal interference voltage is impressed upon the receiving bus L such voltage will in turn be impressed across each of the receiving branches bridged across L
  • the interfering voltage will cause current to flow through the thermionic discharge device 6 that may be biased by the source of voltage 7 to operate at any desired value.
  • the operation of that device effectively short-circuits one of the elements of the series tuned circuit and thereby detunes the said circuit and prevents the maintenance of sustained oscillations arising from the shock excitation of the tuned circuit 1 by the abnormal voltage.
  • the short circuit is removed and the series tuned circuit continues to function as such.
  • the combination with a transmission circuit upon which normal signal voltages and abnormal interference voltages may be impressed of a resonant circuit comprising an inductance in series with a condenser resonant to the signal frequency, connected therewith, a space discharge device connected to ground from the junction of the said inductance and said condenser, and operable at a predetermined interference voltage to short-circuit one of the elements of said resonant circuit whenever said device operates, means to rectify the received signal im ulses, and a relay upon which the rectifie impulses are im ressed.

Description

June 21, 1932.
B. P. HAMILTON MEANS FOR REDUCING LIGHTNING INTERFERENCE IN CARRIER TELEGRAPH SYSTEMS Original Filed June 27. 1930 I 4 I .54 1 5E I --||l h--I I ti Z5 5 ATTORNEY Watented June Ell, T932 UNITED STATES .PATENT OFFICE BAXTER P. HAMILTON, 0]? RIVER EDGE, NEW JERSEY, ASSIGNOR TO AMERICAN TELE- YHONE AND TELEGRAPH COMPANY, A CORPORATION OF NEW YORK MEANS FOR REDUCING LIGHTNING INTERFERENCE IN CARRIER TELEGRAPH SYSTEMS Application filed June 27, 1930, Serial No. 464,348. Renewed November 11, 1931.
This invention relates to means for eliminating the effect of lightning interference upon carrier telegraph signals, and particularly to means to prevent the building up of sustained oscillations by the interaction of the tuned circuits of carrier telegraph systems as the result of such interference.
In the operation of carrier telegraph systems interference with the reception of signals is frequently produced by voltage surges set up by lightning or other sources extraneous to the transmission lines. While the magnitude of the voltage resulting from lightning may be great relative to thatof the signal impulses, such interfering voltages are generally of short duration, in fact, so short that they would not cause the operation of the receiving relay were it not for the presence in the circuits of elements that effectively prolong the duration of such interfering voltages. The elements that effect such prolongation are the tuned circuits of the receiving branches, which, when excited by the inteference voltage of great magnitude produce oscillations that are sustained sufiiciently long to permit the building up of the operating current of the receiving relay to that value at which the relay will operate.
My invention resides in means for detuning one of the resonant circuits whenever the impressed voltage exceeds a fixed limit, which detuning means comprises a thermionic discharge device. a
The invention will be clearly understood from the following description, when read in connection with the attached drawing, showing schematically a form of embodiment of the invention.
In the drawing, the line L represents any form of a transmission circuit over which are transmitted not only currents of frequencies and magnitudes corresponding to the normal signal voltages but also currents resulting from abnormal interfering voltages. The circuit L is connected with the sending bus L and also with the receiving bus L Bridged across L are a plurality of receiving branches such as L; and L by means of which the various signaling channels are selectively received and the signals are detected. The branch L has connected therewith the series resonant circuit 1 that is coupled to the parallel resonant circuit 2. The latter is connected with the amplifier-detector 3 whose output is in turn connected with one of the windings of the receiving relay 4. That relay controls the transmission of signals over the loop L to the station. represented schematically by the relay 5. Other re ceiving branches such as L would, preferably, contain apparatus similar to that shown in connection with branch L In the operation of the system, all voltages, whether normal or abnormal, that are present in the transmission circuit L will be impressed upon the receiving bus L and in turn upon the branches L and If at any instant there is present only the normal signal voltage of the frequency to be received by the branch L,, such voltage will cause the flow of current through the series resonant circuit 1, tuned to the signal frequency, which flow of current will produce oscillations in the resonant circuit 2 that will be impressed upon the amplifier-detector 3. The resultant rectified current will cause the operation of relay 4 which in turn will transmit an impulse over the loop L to the stat-ion 5. If an abnormal interference voltage is impressed upon the receiving bus L such voltage will in turn be impressed across each of the receiving branches bridged across L The interfering voltage will cause current to flow through the thermionic discharge device 6 that may be biased by the source of voltage 7 to operate at any desired value. The operation of that device effectively short-circuits one of the elements of the series tuned circuit and thereby detunes the said circuit and prevents the maintenance of sustained oscillations arising from the shock excitation of the tuned circuit 1 by the abnormal voltage. When the abnormal voltage ceases to exist, the short circuit is removed and the series tuned circuit continues to function as such.
While the invention has been disclosed as embodied in a particular form, it is capable of embodiment in other forms without departing from the spirit and scope of too aeeaeao What is claimed is:
1. In a carrier telegraplisystem, the com; bination with a transmission circuit upon which normal signal voltages and abnormal interference voltages may be impressed, of a resonant circuit, comprising an inductance in series with a condenser, connected therewith, and a thermionic vacuum tube havin a cathode, an anode, means to heat said cat ode, and means to apply a positive voltage to the said anode, the said vacuum tube being connected to ground from the junction of the said inductance and condenser, to detune the said resonant circuit whenever the voltage impressed by the transmission circuit upon said resonant circuit exceeds a fixed limit.
2. In a carrier telegraph system, the combination with a transmission circuit upon which normal signal voltages and abnormal interference voltages may be impressed of a resonant circuit, comprising an inductance in series with a condenser resonant to the signal frequency, connected therewith, a space discharge device connected to ground from the junction of the said inductance and said condenser, and operable at a predetermined interference voltage to short-circuit one of the elements of said resonant circuit whenever said device operates, means to rectify the received signal im ulses, and a relay upon which the rectifie impulses are im ressed.
In testimony whereof, I have s1 ned my name to this specification this 23r day of June, 1930.
BAXTER P. HAMILTON.
US464348A 1930-06-27 1930-06-27 Means for reducing lightning interference in carrier telegraph systems Expired - Lifetime US1863655A (en)

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