US850305A - Duplexing telegraph-lines. - Google Patents

Duplexing telegraph-lines. Download PDF

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US850305A
US850305A US32988406A US1906329884A US850305A US 850305 A US850305 A US 850305A US 32988406 A US32988406 A US 32988406A US 1906329884 A US1906329884 A US 1906329884A US 850305 A US850305 A US 850305A
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Isidor Kitsee
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/14Two-way operation using the same type of signal, i.e. duplex
    • H04L5/1423Two-way operation using the same type of signal, i.e. duplex for simultaneous baseband signals

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  • My invention relates to an improvement in duplexing telegraph-lines.
  • an artificial cable is employed for each station if the cable should be duplexed, and the instruments are placed between a bridge joining the real with the artificial cable.
  • This arrangement has its disadvantages.
  • the artificial cable is very cumbersome and costly, and as the electric properties of the cable proper are always changing the condensing effect and resistance' of the artificial line has also to be changed.
  • Figure 1 is a diagrammatic view of a telegraphic line connectedto two stations embodyin my invention.
  • Fig. 2 is a sectional view 0 the device with the aid of which the dupleXing is permissible.
  • Fig. 1, 1 is the line proper, provided with two stations A and B, each station comprising transmitting, duplexing, and receiving devices.
  • the transmitting device comprises the two sources of current, here shown as the batteries 7 and 15.
  • the battery 7 consists here of two cells and 15 of one cell, the sets in opposition as to each other. I have illustrated the two sets of batteries to consist of two and one cells, respectively; but it is obvious that the number of cells has to be increased to meet practical requirements. Between the two cells is here in serted the condenser 14.
  • the source 7 is provided with the shunt comprising the wires 8 10 12 and the key 11. I do not now take into consideration the device 30, which I call the dupleXing device, but will describe the manner in which true reversals may be transmitted over the cable.
  • the impulses are, as is well understood by persons versed in the art, only momentary, because as soon as a condenser is charged it is an effectual bar to the flow of a voltaic or straight current.
  • dots or dashes the operator only sends over the line momentary impulses, an impulse of a like duration for the dot as well as for the dash, the difference of" time unit between one impulse and the other impulse symbolizing the character to be sent.
  • transmitting a dot the operator closes the key for a short period and releases then the lever.
  • the closing of the key sends an impulse of such a direction over the line, so as to close the local circuit at the receivingstation, and the opening of the key sends an impulse over the line in the opposite direction, therefore opening the local circuit containing the translating device at the receiving station.
  • the closing time of the localized circuit at the receiving station Wlll always coincide with the closing time of the key.
  • the operator therefore manipulates his key in this system in the usual mannerthat is, he holds the lever down for a short time to denote a dot and for a longer period to denote a dash.
  • the localized circuit will be closed for a shorter period for a dot and for a longer period for a dash, just as is the case in the systems of to-day.
  • This device consists of an inductorium embracing the primary part (here designated by 9) and the secondary part, (here designated by 4,) the primary part provided with the connecting means 19 and 20 and the secondary part with the connecting means 17 and 18.
  • the primary part is also provided with the means 21 (here illustrated as a handle) to move this primary either entirely into the region of the secondary or to move the same partially out of this region.
  • I have placed the primary in the shunt between the wires 8 and 10.
  • the secondary I have connected with the wires'3 and 5, and to these wires are connected the terminals of the receiving device 2.
  • variable resistance as 41, in the circuit connecting the instrument 2 with the secondary 1, for the reason that the impulse transmitted from the far station should not pass through the secondary, but should pass in the greatest part through the receiving instrument proper.
  • duplex telegraphy the combination with the line, of a receiving instrument having a single winding connected in series therewith and with a source of energy, an induction-coil having its secondary connected to said receiving instrument, and its primary including said source of energy and a key.
  • duplex telegraphy the combination with the line, of a receiving instrument having a single winding, an induction-coil having its secondary connected to said receiving inceiving instrument connected in series therewith, and in series with two oppositely-disposed sources of energy of different magnitudes, a shunt-circuit including one of said sources of energy, a key and the primary of an induction-coil, the secondary of said in-' duction-coil connected to said receiving instrument.
  • a shunt-circuit including one of said sources of energy, a key and the primary of an induction-coil, the secondary of said induction-coil being connected to said receiving instrument.
  • the combination with the line, of a receiving instrument hava plurality of sources of electrical energy, a circuit in shunt to one of said sources of energy, and means controlled by said circuit for delivering current to the Winding of-said receiving instrument to render it unresponsive to current transmitted from the same station.
  • duplex telegraphy the combination with the line, of a receiving instrument, a plurality of sources of energy connected in series with the winding of said instrument, a circuit in shunt to only one of said sources, a key and the primary of an induction-coil included in said circuit, the secondary of said induction-coil connected to said receiving instrument.
  • duplex telegraphy the combination with the line, means for transmitting to line impulses of different polarities, a receiving device having a single winding, and an induction-coil having its secondary connected with the winding of said receiving device, the primary and secondary windings of said induction-coil being adjustable with respect to each other.
  • the combina tion with the line, of a polarized receiving instrument means for impressing upon the line impulses of different polarities, and an induction-coil having its secondary connected to said receiving instrument, the primary and secondary windings of said inductioncoil being adjustable with respect to each other.
  • duplex telegraphy the combination with the line, of branched circuits, a branch circuit including a receiving instru- 25.
  • duplex telegraphy the combina- I tion with the line, of branched circuits, a k
  • branch including a receiving instrument having a single winding
  • another branch including the secondary of an induction-coil, a source of energy associated with said line, and the primary of said induction-coil included in a circuit with said source ofenergy.

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Cable Transmission Systems, Equalization Of Radio And Reduction Of Echo (AREA)

Description

I. KITSEEY. v DUPLEXING TELEGRAPH LINES.
APPLICATION FILED AUG. 9, 1906.
INVENTOR ul: NORRIS IITIRI cm, umsnmarqn, n. c.
PATENTED APR. 16, 1907.
ISIDOR KITSEE, OF PHILADELPHIA, PENNSYLVANIA.
DUPLEXING TELEGRAPH-LINES,
Specification of Letters Patent.
Patented April 16, 1907.
Application filed August 9, 1906. Serial Na 829,884.
To all whom it may concern.-
Be it known that I, ISIDOR KrTsEE, a citizen of the United States, residing at Philadelphi-a, in the county of Philadelphia and State of Pennsylvania, have invented certain new and useful Improvements in Duplexing Telegraph-Lines, of which the following is a specification.
My invention relates to an improvement in duplexing telegraph-lines.
It has more special reference to lines with great capacity-such, for instance, as submarine or subterranean cables. It is well known that on such lines practical telegraphy with a straight or continuous current is out of the question, and currents of both polarities have to be employed to transmit messages. On the submarine cable the double key is employed, one key adapted to impress a positive and one key adapted to impress a negative impulse on the line. It was found after careful experiments that it is advantageous to transmit with the aid of reversals-that is, impulses alternately of opposite polarityand that if the impulses are only momentary and are always alike in duration and intensity the best results are obtained. Such system is called true reversals, and this, my invention, is more specially adapted to such system.
On submarine cables an artificial cable is employed for each station if the cable should be duplexed, and the instruments are placed between a bridge joining the real with the artificial cable. This arrangement has its disadvantages. The artificial cable is very cumbersome and costly, and as the electric properties of the cable proper are always changing the condensing effect and resistance' of the artificial line has also to be changed.
It is the aim of my invention to dispense with such artificial cable and to produce a system whereby telegraphic lines, even such as the submarine cable, may be dupleXed with the aid of a simple local contrivance.
In the drawings, Figure 1 is a diagrammatic view of a telegraphic line connectedto two stations embodyin my invention. Fig. 2 is a sectional view 0 the device with the aid of which the dupleXing is permissible.
In Fig. 1, 1 is the line proper, provided with two stations A and B, each station comprising transmitting, duplexing, and receiving devices. The transmitting device comprises the two sources of current, here shown as the batteries 7 and 15. The battery 7 consists here of two cells and 15 of one cell, the sets in opposition as to each other. I have illustrated the two sets of batteries to consist of two and one cells, respectively; but it is obvious that the number of cells has to be increased to meet practical requirements. Between the two cells is here in serted the condenser 14. The source 7 is provided with the shunt comprising the wires 8 10 12 and the key 11. I do not now take into consideration the device 30, which I call the dupleXing device, but will describe the manner in which true reversals may be transmitted over the cable.
Normally-that is, when the line is idle the greater electromotive force of 7 charges the condenser 14, and an impulse will flow over the line in a direction corresponding with the polarity of the source 7. When an operator desires to transmit messages, he depresses his key in the usual mannei' that is, a short period for a dot and a longer period for a dash. Through the depression of the key the source 7 is short-circuited, and the condenser now becomes charged from the source 15, and an impluse, therefore, will flow over the line in a direction according to the polarity of the source that is opposite the polarity of the former source. At each station is the polarized receiving device 2, here shown in conventional sign, and this device is provided with means 25 and 26 to connect the same to a localized translating device. It is now supposed that the operator at A desires to transmit messages, and it is also supposed that in closing the key an impulse will flow from 15 over the line, bringing in contact at the station B the armature of the receiving device with the point connected to 25, thereby closing a local circuit, and it is supposed that when the operator A releases the key an impulse of opposite polarity will flow over the line, and this impulse will send the armature of 2 in the opposite directionthat is, away from the contact connected to 25. The impulses are, as is well understood by persons versed in the art, only momentary, because as soon as a condenser is charged it is an effectual bar to the flow of a voltaic or straight current. In transmitting dots or dashes the operator only sends over the line momentary impulses, an impulse of a like duration for the dot as well as for the dash, the difference of" time unit between one impulse and the other impulse symbolizing the character to be sent. In transmitting a dot the operator closes the key for a short period and releases then the lever. The closing of the key sends an impulse of such a direction over the line, so as to close the local circuit at the receivingstation, and the opening of the key sends an impulse over the line in the opposite direction, therefore opening the local circuit containing the translating device at the receiving station. In other words, the closing time of the localized circuit at the receiving station Wlll always coincide with the closing time of the key. The operator therefore manipulates his key in this system in the usual mannerthat is, he holds the lever down for a short time to denote a dot and for a longer period to denote a dash. At the receiving station the localized circuit will be closed for a shorter period for a dot and for a longer period for a dash, just as is the case in the systems of to-day. v
So far the system of true reversals was explained when the working is a simplex one; but when the line should work dupleXedthat is, when an impulse shall be simultaneously transmitted from both ends over the lineit is necessary that the home instrument'shall not respond to the home impulse; but the receiving instrument at the far end should be free to respond to such impulses. For this reason I have recourse to the arrangement as is clearly indicated by the device 30. This device consists of an inductorium embracing the primary part (here designated by 9) and the secondary part, (here designated by 4,) the primary part provided with the connecting means 19 and 20 and the secondary part with the connecting means 17 and 18. The primary part is also provided with the means 21 (here illustrated as a handle) to move this primary either entirely into the region of the secondary or to move the same partially out of this region. I have placed the primary in the shunt between the wires 8 and 10. The secondary I have connected with the wires'3 and 5, and to these wires are connected the terminals of the receiving device 2.
The operation of this system is as follows: When the key is depressed, an impulse will flow over the linesay in the direction of the unfeathered arrow; but at the same time as the current from the battery 7 will flow through the shunt embracing the key it will also flow through the primary. An impulse will therefore be generated in the secondary flowing in opposition to the primary current that is, in the direction of the feathered arrow. Simultaneously, therefore, two impulses will flow into the receiving device, one tending to move the armature in one direction and the other tending to move the armature in the opposite direction, and the influence of these two impulses on the device will therefore be m'Z. When the key is opened, an impulse from 7 will flow over the line in the direction of the unfeathered arrow 1; but as at the time of the opening of the key the flow of the current through the primary 9 ceases an impulse will be induced in the secondary in direction corresponding with the former flow of the current in the primary or in the direction of the feathered arrow i. As this impulse will flow through the home receiving device in opposition to the flow of the impulse of 7, then again the magnetizing effect of these two impulses will be neutralized, and the home instrument will remain silent; but as at the distant or receiving station the key remains open no impulse will flow through the shunt or the inductorium placed in the shunt, and therefore the instrument at the distant end will be free to respond to the transmitted impulses. When the operators at both stations depress the key, the impulses of 15 at both stations will neutralize each other. They will therefore not affect any instrument, and the respective instrument of each station will only be affected by the impulse generated in the secondary.
In practice it is best to place a variable resistance, as 41, in the circuit connecting the instrument 2 with the secondary 1, for the reason that the impulse transmitted from the far station should not pass through the secondary, but should pass in the greatest part through the receiving instrument proper.
I have described my method of duplexing in connection with the transmission of impulses with the aid of two sources of current inserted in the line of transmission, for the reason that with this system of transmission the advantage of this method of duplexing is more pronounced than with other systems of transmission; but it is obvious that other transmitting means may be substituted for the means shown and described.
Having now described my invention, what I claim as new, and desire to secure by Letters Patent, is
1. In duplex telegraphy without artificial line, the combination with the line, of a receiving instrument having a single winding, and means for preventing response of the receiving instrument to current transmitted from the same station comprising an induction-coil, the secondary of said induction-coil connected to the winding of said receiving instrument, the primary including a source of energy and transmitting-key.
2. In duplex telegraphy, the combination with the line, of a receiving instrument having a single winding connected in series therewith and with a source of energy, an induction-coil having its secondary connected to said receiving instrument, and its primary including said source of energy and a key.
3. In duplex telegraphy, the combination with the line, of a receiving instrument having a single winding, an induction-coil having its secondary connected to said receiving inceiving instrument connected in series therewith, and in series with two oppositely-disposed sources of energy of different magnitudes, a shunt-circuit including one of said sources of energy, a key and the primary of an induction-coil, the secondary of said in-' duction-coil connected to said receiving instrument.
, 5. In duplex telegraphy without artificial line, the combination with the line, ofa receiving instrument connected in series therewith and with a condenser and with two sources of energy oppositely disposed and of different magnitudes, a shunt-circuit including one of said sources of energy, a key and the primary of an induction-coil, the secondary of said induction-coil being connected to said receiving instrument.
6. In duplex telegraphy without artificial line, the combination with the line, of a return-circuit, a receiving instrument, a source of energy, a condenser and another source of energy connected in series between said line and return circuit, said sources of energy being of different magnitudes, a circuit 1n shunt to one of said sources of energy and including a key and primary of an inductioncoil, the secondary of said induction-coil being connected. to said receiving instrument.
7. In duplex telegraphy, the combination with the line, of a receiving instrument, a transmitter for impressing upon the line successive impulses of approximately equal duration and opposite polarities, and means for rendering ineffective in the receiving instrument impulses transmitted from the same station.
8. In duplex telegraphy, the combination with the line, of a polarized receiving device, means for transmitting to line successive impulses of approximately equal duration and alternating in polarity, and an induction-coil associated with said transmitting means for rendering the receiving instrument unresponsive to impulses transmitted from the same station.
9. In duplex telegraphy, the combination with the line, of a receiving device having a single winding, means for transmitting to line impulses of diflerent polarities, and an induction-coil associated with said transmitting means and having its secondary connected to the winding of said receiving instrument.
10. In duplex telegraphy, the combination with the line, of a polarized receiving device, means for transmitting to line impulses of different polarities, and an induction-coil associated with said transmitting means and ing' a single winding,
having its secondary connected to the winding of said receiving device.
'11. In duplex telegraphy, the combination with the line, of a receiving device, oppositelydisposed sources of energy, a shunt-circuit including only one of said sources of energy, and means controlled by said shunt-circuit for rendering said receiving instrument unresponsive to current transmitted from the same station.
12'. In duplex telegraphy, the combination with the line, of a receiving instrument hava plurality of sources of electrical energy, a circuit in shunt to one of said sources of energy, and means controlled by said circuit for delivering current to the Winding of-said receiving instrument to render it unresponsive to current transmitted from the same station.
13. In duplex telegraphy, the combination with the line, of a receiving instrument, a plurality of unequal sources of energy, a circuit in shunt to only one of said sources of energy and including the primary of an induction-coil, the secondary of said induction-coil being connected to said receiving instrument.
14. In duplex telegraphy, the combination with the line, of a receiving instrument, a plurality of sources of energy connected in series with the winding of said instrument, a circuit in shunt to only one of said sources, a key and the primary of an induction-coil included in said circuit, the secondary of said induction-coil connected to said receiving instrument. 15. In duplex telegraphy, the combination with the line, of a receiving instrument at each station, oppositely-disposed sources of energy at each station, a circuit in shunt to only one of said sources of energy,- and means controlled by said circuit for rendering said receiving instrument unresponsive to current transmitted from the same station.
16. In duplex telegraphy, the combination with the line, of a receiving instrument, oppositely-disposed sources of energy, a condenser intervening between said sources, a circuit in shunt to one of said sources, and means controlled by said shunt-circuit for rendering said receiving instrument unresponsive to current transmitted from the same station.
17. In duplex telegraphy, the combination with the line, of a receiving instrument, oppositely-disposed sources of energy, a condenser intervening between said sources, a circuit in shunt to one of said sources and including the primary of an induction-coil, the secondary being connected to said re'- ceivin instrument.
18. in duplex telegraphy, the combination with the line, of a transmitter for impressing upon said line impulses of difierent polarities, a receiving instrument associated with said line, and means for impressing upon said receiving instrument impulses of opposite polarity to those transmitted to line.
19. In duplex telegraphy, the combination with the line, of a transmitter for impressing upon theline impulses of different polarities, a receiving instrument associated with said line, the winding of said receiving instrument being connected with the secondary of an induction-coil.
20. In duplex telegraphy, the combination with the line, of oppositely-disposed sources of energy, a circuit in shunt to one of said sources and including a key, a receiving instrument associated with said line, and means for rendering said receiving instrument unresponsive to current transmitted from the same station.
21. In duplex telegraphy, the combination with the line, of oppositely-disposed sources of energy, a condenser intervening between said sources, a circuit in shunt to one of said sources and including a key, a receiving instrument associated with said line, and means for rendering said receiving in-' strument unresponsive to current transmitted from the same station.
22. In duplex telegraphy, the combination with the line, means for transmitting to line impulses of different polarities, a receiving device having a single winding, and an induction-coil having its secondary connected with the winding of said receiving device, the primary and secondary windings of said induction-coil being adjustable with respect to each other.
23. In duplex telegraphy, the combina tion with the line, of a polarized receiving instrument, means for impressing upon the line impulses of different polarities, and an induction-coil having its secondary connected to said receiving instrument, the primary and secondary windings of said inductioncoil being adjustable with respect to each other.
24. In duplex telegraphy, the combination with the line, of branched circuits, a branch circuit including a receiving instru- 25. In duplex telegraphy, the combina- I tion with the line, of branched circuits, a k
branch including a receiving instrument having a single winding, another branch including the secondary of an induction-coil, a source of energy associated with said line, and the primary of said induction-coil included in a circuit with said source ofenergy.
26. In duplex telegraphy, the combination with the line, of a receiving instrument, and secondary of an induction-coil connected in parallel, a current-limiting device in the circuit of said secondary, a source of energy associated with said line, and a circuit including said source of energy and the primary of said induction-coil.
27. In duplex telegraphy, the combination with the line, of a receiving instrument having a single winding, the secondary of an induction-coil connected in parallel therewith, a source of energy associated with said line, and a circuit including said source of energy and the primary of said inductioncoil, the primary and secondary windings of said induction-coil being adjustable with respect to each other.
28. In duplex telegraphy, the combination with the line, of means for impressing upon said line impulses of diflerent polarities, a polarized receiving instrument associated with said line and having a single winding, the secondary of an induction-coil connected to said receiving instrument the primary associated with said impressing means.
In testimony whereofI affix my signature 7 in presence of two witnesses.
- ISIDOR KITSEE. Witnesses:
MARY 0. SMITH,
ALVAH RITTENHOUSE.
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