US1513453A - Half-duplex morse carrier system - Google Patents

Half-duplex morse carrier system Download PDF

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Publication number
US1513453A
US1513453A US491512A US49151221A US1513453A US 1513453 A US1513453 A US 1513453A US 491512 A US491512 A US 491512A US 49151221 A US49151221 A US 49151221A US 1513453 A US1513453 A US 1513453A
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Prior art keywords
morse
line
carrier
circuit
relay
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US491512A
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Espenschied Lloyd
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AT&T Corp
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American Telephone and Telegraph Co Inc
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Priority to US491512A priority Critical patent/US1513453A/en
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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
    • H04L5/02Channels characterised by the type of signal
    • H04L5/06Channels characterised by the type of signal the signals being represented by different frequencies

Definitions

  • This invention relates to signaling systems, and more pzu-ticularly to multiplex signaling systems employing carrier currents for transmission purposes.
  • One of the purposes of this invention is to produce a simple form of repeating apparatus for repeating between a Horse carrier channel and an ordinary Morse circuit.
  • a salient feature of the terminal arrangement resides in the employment of a vacuum tube which may function as a receiving detector for repeating from the carrier channel to the Horse line, and as a generator of oscillations for repeating from the Morse line to the carrier channel.
  • ML designates a main transmission line over which carrier currents may be transmitted.
  • Tuned circuits F F 1",. etc. are associated with the line for separating the various carrier -transmissions into the proper local channels.
  • the local apparatus associated with but one of the selective devices is illustrated, but it will be understood that similar ap paratns will be provided for each channel.
  • the apparatus associated with the selective device F includes a vacuum tube VT of the usual threeelement type, which by means of its associated circuits, may be used for repeating between the main line ML and an ordinary Morse line L.
  • the circuits of the vacuum tube YT include windings 11 and 12 which are inductively associated with a winding 10 of the tuned circuit F for the purpose of establishing a feed-back connection between the grid and plate of the tube.
  • a transmitting relay TR is provided, said relay controlling the circuits of the tube over its contacts.
  • the relay as shown is normally energized and in this condition, established a connection from the filament of the tube to an intermediate point of the Serial No. 491,512.
  • the plate circuit of the vacuum tube includes a receiving relay RR for responding to signals detected by the. tube when functioning as a detector, and'this relay HR is arranged to. operate as a transmitting relay at one end of the Norse: line L.
  • the winding of relay RR may be short circuitedby relay TR to prevent it from I operating when the tube is oscillating.
  • the Morse'linc L is provided with the usual balanced bridge equipment at each terminal.
  • the balanced bridge equipment includes two iuductances, one connected to the line L and the other to a balancing network N with the transmitting circuit under the control of the relay RR connected to the junction oint of the inductances.
  • a receiving relay t is bridged across neutral points between the line L and the network N as regards the transmitting circuit.
  • the balancing bridge arrangement includes inductances similarly arranged with respect to the line L and a balancing network N.
  • a transmitting circuit under the control of a transmitter T is connected to the junction points of the inductances, and a polar receiving relay R is bridged acro$ neutral points between the line L and the network N.
  • the 0 eration is as follows: Under normal con itions the contact controlled b the polar receiving relay R maintains the clrcuit of the transmitting relay TR closed so that the vacuum tube circuits are adjusted for the reamplifying detecting operation. Consequently, when carrier currents are transmitted from the main line through the tuned circuit F, to the grid circuit of the vacuum tube, signals are detected from the carrier currents by the vacuum tube and reamplitied. The reamplified signals operate the receiving relay RR, which vibrates its armature in response to the signals to transmit positive and negative impulses over the line L. These impulses do not actuate the receiving relay R but actuate the receiving relay R at the distant end, so that the operator at the distant station may receive the signals.
  • the transmitter T When it is desired to transmit signals from the distant station, the transmitter T is operated to transmit positive and negative impulses over the line L. These im ulses actuate the polar relay lit.
  • the re ay R responds to each impulse of the polarity corresponding to a dot or dash to open the circuit of the transmitting relay TR, which establishes a connection between the filament of the tube and the junction point between the windings 11 and 12.
  • the vacuum tube now functions as a generator of oscillations, which oscillations are transmitted to the main line ML through the tuned circuit F
  • a carrier transmission circuit a low frequency Morse line extending from a terminal of said carrier circuit to a distant station and a. repeating apparatus for associating said carrier transmission circuit and said Morse line, said, re peating apparatus including a. translating device which under certain conditions functions as a detector to translate carrier sig- .nals incoming over thecarrier circuit into Morse signals for transmission over the low frequency Morse line, sald translatm device functioning in response to signa s mcoming over the Morse line to generate oscillations for transmission to the carrier line.
  • a carrier transmission circuit a low irequency Morse line extending from a terminal of said carrier circuit to a distant station, and a repeating apparatus for associating said carrier transmission circuit and said Morse line, said repeating apparatus including a vacuum tube which under certain conditions functions as a detector to translate carrier signals incom ing over the carrier circuit into Morse signals for transmission over the low frequency Morse line, said vacuum tube functioning in response to signals incoming over the Morse line to generate oscillations for transmission to the carrier line.
  • a carrier transmission circuit a low frequency Morse line extending from a terminal of said carrier circuit to a distant station and repeating apparatus for interconnecting said carrier circuit and said Morse line
  • said repeating apparatus comprising a translating device and circuits for said translating device whereby it may operate either as a detector or as a generator of oscillations, means associated with said translating device and responsive to Morse signals detected by said translating device for transmitting Morse signals over said Morse line, and controlling means responsive to signals incoming over said Morse line to cause said translating device to function as a generator of oscillations for transmission over the carrier circuit.
  • a signaling system a carrier transmission circuit, a low frequency Morse line extending from a terminal of said carrier circuit to a distant station and repeating apparatus for interconnecting said carrier circuit and said Morse line, said repeating a paratus comprising a vacuum tube and circuit for said vacuum tube whereby it may operate either as a detector or as a generator of oscillations, means associated with said.
  • vacuum tube and responsive to Morse signals detected by said vacuum tube for transmitting Morse sials over said Morse line, and controlling-means responsive to signals incoming over said Morse line to cause said vacuum tube to function as a generator of oscillations for transmission over the carrier circuit.

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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

Oct. 28. 1924. 1,513,453
I... ESPENSCHIED HALF DUPLEX MORSE CARRIER SYSTEM Filed A112. 11', 1921 wvmtoz @513 flue 014 Patent Oct. 28, 1924.
LLOYD ESPENSCHIED, 0F QUEENS, NEW YORK, ASSIGNOR TO AMERICAN TELEPHONE AND TELEGRAPH COMPANY. A CORPORATION OF NEW YORK.
HALF-DUPLEX MORSE CARRIER SYSTEM.
Application filed August 11, 1921.
Be it known that I. LLOYD llsrENscHIED, residing at Queens. in the county of Queens and State of New York. have invented certain Improvements in Half-Duplex Morse (arrier Systems. of which the following is a specification.
This invention relates to signaling systems, and more pzu-ticularly to multiplex signaling systems employing carrier currents for transmission purposes.
One of the purposes of this invention is to produce a simple form of repeating apparatus for repeating between a Horse carrier channel and an ordinary Morse circuit. A salient feature of the terminal arrangement resides in the employment of a vacuum tube which may function as a receiving detector for repeating from the carrier channel to the Horse line, and as a generator of oscillations for repeating from the Morse line to the carrier channel.
Other and further features of the invention will be clear from the following description. when read in connection with the accompanying drawing. the figure of which illustrates a circuit arrangement embodying the principles of the invention.
Referring to the drawing. ML designates a main transmission line over which carrier currents may be transmitted. Tuned circuits F F 1",. etc., are associated with the line for separating the various carrier -transmissions into the proper local channels. The local apparatus associated with but one of the selective devices is illustrated, but it will be understood that similar ap paratns will be provided for each channel. The apparatus associated with the selective device F, includes a vacuum tube VT of the usual threeelement type, which by means of its associated circuits, may be used for repeating between the main line ML and an ordinary Morse line L. The circuits of the vacuum tube YT include windings 11 and 12 which are inductively associated with a winding 10 of the tuned circuit F for the purpose of establishing a feed-back connection between the grid and plate of the tube.
A transmitting relay TR is provided, said relay controlling the circuits of the tube over its contacts. The relay as shown is normally energized and in this condition, established a connection from the filament of the tube to an intermediate point of the Serial No. 491,512.
the transmitting relay TR is deenergized, it
opens the connection established at the intermediate point of the winding 12 and establishes a connection to the junction pointbetween the windings 11 and l2. The 0011- pling between the grid and plate circuits is now sufficient to cause singing, and the battery 13 being no longer connected to the grid, the potential upon the grid is such as to render the vacuum tube most ellicientas an oscillator, so that it now generates oscillations of carrier fret uency for transmission to the main line M l.
The plate circuit of the vacuum tube includes a receiving relay RR for responding to signals detected by the. tube when functioning as a detector, and'this relay HR is arranged to. operate as a transmitting relay at one end of the Norse: line L. The winding of relay RR may be short circuitedby relay TR to prevent it from I operating when the tube is oscillating. The Morse'linc L is provided with the usual balanced bridge equipment at each terminal. The balanced bridge equipment includes two iuductances, one connected to the line L and the other to a balancing network N with the transmitting circuit under the control of the relay RR connected to the junction oint of the inductances. A receiving relay t is bridged across neutral points between the line L and the network N as regards the transmitting circuit. At the. distant terminal, the balancing bridge arrangement includes inductances similarly arranged with respect to the line L and a balancing network N. A transmitting circuit under the control of a transmitter T is connected to the junction points of the inductances, and a polar receiving relay R is bridged acro$ neutral points between the line L and the network N.
The 0 eration is as follows: Under normal con itions the contact controlled b the polar receiving relay R maintains the clrcuit of the transmitting relay TR closed so that the vacuum tube circuits are adjusted for the reamplifying detecting operation. Consequently, when carrier currents are transmitted from the main line through the tuned circuit F, to the grid circuit of the vacuum tube, signals are detected from the carrier currents by the vacuum tube and reamplitied. The reamplified signals operate the receiving relay RR, which vibrates its armature in response to the signals to transmit positive and negative impulses over the line L. These impulses do not actuate the receiving relay R but actuate the receiving relay R at the distant end, so that the operator at the distant station may receive the signals. When it is desired to transmit signals from the distant station, the transmitter T is operated to transmit positive and negative impulses over the line L. These im ulses actuate the polar relay lit. The re ay R responds to each impulse of the polarity corresponding to a dot or dash to open the circuit of the transmitting relay TR, which establishes a connection between the filament of the tube and the junction point between the windings 11 and 12. The vacuum tube now functions as a generator of oscillations, which oscillations are transmitted to the main line ML through the tuned circuit F It will be obvious that the general 'principles herein disclosed may be embodied in many other organizations, widely different from those illustrated, without departing from the spirit of theinvention as defined in the following claims.
What is claimed is:
1. In a signaling system, a carrier transmission circuit, a low frequency Morse line extending from a terminal of said carrier circuit to a distant station and a. repeating apparatus for associating said carrier transmission circuit and said Morse line, said, re peating apparatus including a. translating device which under certain conditions functions as a detector to translate carrier sig- .nals incoming over thecarrier circuit into Morse signals for transmission over the low frequency Morse line, sald translatm device functioning in response to signa s mcoming over the Morse line to generate oscillations for transmission to the carrier line.
2. In a signaling system, a carrier transmission circuit, a low irequency Morse line extending from a terminal of said carrier circuit to a distant station, and a repeating apparatus for associating said carrier transmission circuit and said Morse line, said repeating apparatus including a vacuum tube which under certain conditions functions as a detector to translate carrier signals incom ing over the carrier circuit into Morse signals for transmission over the low frequency Morse line, said vacuum tube functioning in response to signals incoming over the Morse line to generate oscillations for transmission to the carrier line.
3. In a signaling system, a carrier transmission circuit, a low frequency Morse line extending from a terminal of said carrier circuit to a distant station and repeating apparatus for interconnecting said carrier circuit and said Morse line, said repeating apparatus comprising a translating device and circuits for said translating device whereby it may operate either as a detector or as a generator of oscillations, means associated with said translating device and responsive to Morse signals detected by said translating device for transmitting Morse signals over said Morse line, and controlling means responsive to signals incoming over said Morse line to cause said translating device to function as a generator of oscillations for transmission over the carrier circuit.
4. ln a signaling system, a carrier transmission circuit, a low frequency Morse line extending from a terminal of said carrier circuit to a distant station and repeating apparatus for interconnecting said carrier circuit and said Morse line, said repeating a paratus comprising a vacuum tube and circuit for said vacuum tube whereby it may operate either as a detector or as a generator of oscillations, means associated with said.
vacuum tube and responsive to Morse signals detected by said vacuum tube for transmitting Morse sials over said Morse line, and controlling-means responsive to signals incoming over said Morse line to cause said vacuum tube to function as a generator of oscillations for transmission over the carrier circuit.
In testimony whereof, l have signed in name to this specification this 9th day of August, 1921.
LLUYD ESPENSCHTED.
til
its
US491512A 1921-08-11 1921-08-11 Half-duplex morse carrier system Expired - Lifetime US1513453A (en)

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