US1809945A - Control arrangement for carrier apparatus - Google Patents

Control arrangement for carrier apparatus Download PDF

Info

Publication number
US1809945A
US1809945A US375552A US37555229A US1809945A US 1809945 A US1809945 A US 1809945A US 375552 A US375552 A US 375552A US 37555229 A US37555229 A US 37555229A US 1809945 A US1809945 A US 1809945A
Authority
US
United States
Prior art keywords
relay
relays
circuit
switch
series
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US375552A
Inventor
Wilton T Rea
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
AT&T Corp
Original Assignee
American Telephone and Telegraph Co Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by American Telephone and Telegraph Co Inc filed Critical American Telephone and Telegraph Co Inc
Priority to US375552A priority Critical patent/US1809945A/en
Application granted granted Critical
Publication of US1809945A publication Critical patent/US1809945A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03JTUNING RESONANT CIRCUITS; SELECTING RESONANT CIRCUITS
    • H03J5/00Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner
    • H03J5/24Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner with a number of separate pretuned tuning circuits or separate tuning elements selectively brought into circuit, e.g. for waveband selection or for television channel selection
    • H03J5/248Discontinuous tuning; Selecting predetermined frequencies; Selecting frequency bands with or without continuous tuning in one or more of the bands, e.g. push-button tuning, turret tuner with a number of separate pretuned tuning circuits or separate tuning elements selectively brought into circuit, e.g. for waveband selection or for television channel selection using electromechanical means

Definitions

  • One of the purposes of the arrangements of the invention is to make it possible to accurately and automatically tune a radio receiving set to different transmitted channels by means of simple switches, or push buttons, which may be located either at the set or at certain control points at some distance from the radio set.
  • the arrangements of the invention might be utilized to control apparatus other than a radio receiving set.
  • the arrangements might control repeater apparatus in a carrier transmission system so that it could be tuned automatically at a. distance for the various carrier channels.
  • a further feature of the arrangements of the invention is that they afford random operation with automatic release. In other words, the mere operation of a switch will tune the apparatus to a desired channel. The operation of another switchwill release the selective apparatus which might be connected to the set and will immediately substitute apparatus to tune the set for another channel.
  • the radio receiving set includes an antenna or input circuit 1 connected to a Vacuum tube amplifier relays and the Y relays. inclusive, may be located 1929 Serial No. 375,552.
  • the output of this amplifier is connected to a vacuum tube detector 3.
  • the output circuit 4 of the detector may be connected to other amplifier tubes and to receiving apparatus.
  • condenser units such as 5, 6, 7, 8, 9, 10, 11 and 12.
  • the above-mentioned condenser units will have their capacities" so chosen that they may tune the set for different incoming carrier channels.
  • the units 5 and 9 might have their constants so chosen that the set would be receptive for messages from a station termed A.
  • Units 6 and 10 would have different values which would be chosen so that the set might be receptive for a station termed B.
  • the other units would be arranged in a corresponding manner.
  • the relay-s 13 to 20, inclusive will be controlled by the switches 25 to 29, inclusive, and 25 to 29, inclusive, through the agency of a series of relays such as the X Switches 25 to 29, at the set or at a distant point therefrom.
  • Switches 25 to 29' may be located at another distant point, if desired. These switches may be of the nonlocking or push'button type, and a switch will be provided for each station for which it is desired to tune the radio set. For example, the operation of switch 26 will tune the set for reception from the station termed A. The operation of switch 27 will tune the set for reception from the station termed B.
  • the other switches will tune the set for other stations.
  • the switches 25 and 25 are utilized for starting and stopping operations.
  • the switch 25 will be operated. This will complete the following circuit: from battery 31, right-hand back contact of relay F, switch 25,1eft-hand back contact of relay F, winding of relay E to ground. This will operate therelay E. Relay F will not operate at this time, as it will be short-circuited by the operation of relay E. ⁇ Vhen the switch 25 is now released, the short-circuit about the winding of relay F will be removed, and relays E and F will remain locked in the operated position by current from battery 31, through the Winding of relay F, left-hand contact of relay E, and winding of said relay to ground. Switch 26 will now be operated.
  • relays 13 and 17 This will operate relays 13 and 17.
  • the operation of relay 13 will bridge across the input circuit of amplifier 2 the condenser unit 5.
  • the operation of relay 17 will bridge across the input circuit of the detector 3 the con denser unit 9. Accordingly, the radio re DC setting will be tuned for the reception of signals from the station termed A.
  • Switch 29 will be operated. This will close the circuit from battery 31, right-hand contact of relay E, winding of relay Y contact of switch 29 to ground, and the relay Y will be operated.
  • the relay X will not be operated, as it will be short-eircuited by the operation of relay Y
  • the operation of relay Y will connect battery 31 over the left-hand contact of relay Y, left-hand back contact of relay X right-hand contact of relay X to the conductor con-- nected between the windings of relays X and Y This places an effective short-circuit across the winding of relay Y releasing it.
  • the release of Y releases relay X also. This will release relays 13 and 17 and disconnect the condenser units 5 and 9 from the input circuits of the amplifier and detector tubes.
  • the switch 29 will then be released.
  • relay X This removes the short-circuit about the winding of relay X and allows this relay to operate over the right-hand contact of relay Y, to ground.
  • the operation of relay X will connect batery 31 over the left-hand contact of relay Y left-hand front contact of relay X. and over conductor 21 in parallel through the windings of relays 16 and 20, thereby operating said relays.
  • This will connect the condenser unit 8 across the input circuit of amplifier 2 and will connect the condenser unit 12 across the input circuit of the detector 3, and the radio set will be tuned for reception of signals from station D.
  • relays 13 to 20, inclusive instead of providing separate relays, such as the relays 13 to 20, inclusive, for connecting the various condenser units across the vacuum tube circuits, these relays might be dispensed with and the condenser units con nected across the vacuum tube circuits directly by the operation of the series of X and Y relays. Accordingly, while the invention has been disclosed as embodied in certain specific arrangements which are deemed desirable, it is understood that it is capable of embodiment in many and other widely varied forms without departing from the spirit of the invention as defined by the appended claims.
  • a translating device for a plurality of diili'erent carrier frequencies, an input circuit connected to said translating device, a plurality of selective circuits adapted to be connected to said input circuit for rendering it selective for the different carrier frequeir cies, a series of relays each of which controls the connection of one of said selective cir cuits to said input circuit, a second series of relays each of which is paired with one of the relays of said first series and operates to prepare an operating and locking circuit therefor, individual operating circuits for the relays of said second series, and means controlled by the operation of one of the relays of said second series subsequent to the prior operation of a pair of relays of both of said series for opening the locking circuits for said pair of relays.
  • a translating device for a plurality of diiferentcarrier frequencies, an input ch cuit connected to said translating device, a plurality of selective circuits adapted to be connected to said input circuit for rendering it selective for the different carrier frequencies, a series of relays each of which controls the connection of one of said selective circuits to said input circuit, a second series of relays each of which is paired with one of the relays of said first series and operates to prepare an operating and locking circuit therefor, switching means for preparing an operating circuit for all of the relays of said second series, and switching means individual to each of the relays of said second series ior completing the operating circuit there-

Description

June 16, 1931. w. T. REA
CONTROL ARRANGEMENT FOR CARRIER APPARATUS Filed July 2. 1929 Detectpr INVENTOR BY 2 L 2 ATTORNEY Patented June 16, 1931 UNITED STATES IPATENT; OFFICE WILTON T. REA, OF FLUSHING, NEW YORK, ASSIGNOR TO AMERICAN TELEPHONE AND TELEGRAPH COMPANY, A CORPORATION OF NEW YORK CONTROL ARRANGEMENT FOR CARRIER APPARATUS Application filed July 2,
to be rendered selective forany of the transmitted'carrier channels.
One of the purposes of the arrangements of the invention is to make it possible to accurately and automatically tune a radio receiving set to different transmitted channels by means of simple switches, or push buttons, which may be located either at the set or at certain control points at some distance from the radio set. The arrangements of the invention might be utilized to control apparatus other than a radio receiving set. For example, the arrangements might control repeater apparatus in a carrier transmission system so that it could be tuned automatically at a. distance for the various carrier channels. A further feature of the arrangements of the invention is that they afford random operation with automatic release. In other words, the mere operation of a switch will tune the apparatus to a desired channel. The operation of another switchwill release the selective apparatus which might be connected to the set and will immediately substitute apparatus to tune the set for another channel. The operation of such apparatus has the advantage that it does not dependon a progressive tuning in of all stations until the one desired is reached, but provides for the immediate selection of any station chosen at random. I Further objects and features of the invention will appear more fully from a detailed description thereof hereinafter given. 7 p
The invention may be more fully understood from the following description together with the accompanying drawing, in the figure of which is a circuit diagram illustrating a preferred embodiment of the invention.
' In the drawing, the, arrangements of the invention are illustrated as controlling the tuning of a radio receiving set. The radio receiving set includes an antenna or input circuit 1 connected to a Vacuum tube amplifier relays and the Y relays. inclusive, may be located 1929 Serial No. 375,552.
2. The output of this amplifier is connected to a vacuum tube detector 3. The output circuit 4 of the detector may be connected to other amplifier tubes and to receiving apparatus. To tune the radio set to different incoming channels, there will be provided a number of circuits which will include condenser units such as 5, 6, 7, 8, 9, 10, 11 and 12.
These circuits may be bridged across the input circuit of the amplifier 2 and the detector 3 by means of the relays 13, 14, 15, 16, and
19 and 20. The above-mentioned condenser units will have their capacities" so chosen that they may tune the set for different incoming carrier channels. For example, the units 5 and 9 might have their constants so chosen that the set Would be receptive for messages from a station termed A. Units 6 and 10 would have different values which would be chosen so that the set might be receptive for a station termed B. The other units would be arranged in a corresponding manner. The relay-s 13 to 20, inclusive, will be controlled by the switches 25 to 29, inclusive, and 25 to 29, inclusive, through the agency of a series of relays such as the X Switches 25 to 29, at the set or at a distant point therefrom. Switches 25 to 29' may be located at another distant point, if desired. These switches may be of the nonlocking or push'button type, and a switch will be provided for each station for which it is desired to tune the radio set. For example, the operation of switch 26 will tune the set for reception from the station termed A. The operation of switch 27 will tune the set for reception from the station termed B.
The other switches will tune the set for other stations. The switches 25 and 25 are utilized for starting and stopping operations.
The operation of the arrangements is as follows: If it is desired to tune the set for reception of signals from the station termed A, the switch 25 will be operated. This will complete the following circuit: from battery 31, right-hand back contact of relay F, switch 25,1eft-hand back contact of relay F, winding of relay E to ground. This will operate therelay E. Relay F will not operate at this time, as it will be short-circuited by the operation of relay E. \Vhen the switch 25 is now released, the short-circuit about the winding of relay F will be removed, and relays E and F will remain locked in the operated position by current from battery 31, through the Winding of relay F, left-hand contact of relay E, and winding of said relay to ground. Switch 26 will now be operated. This will complete the following circuit: from battery 31, right-hand contact of relay E, winding of relay Y contact of switch 26, to ground. This will operate the relay Y The relay X will not be operated, as it will be short-circuited by the operation of relay Y However, when the switch 26 is released, the operating circuit for relay Y will be completed through the winding of relay X and right-hand contact of relay Y to ground. Accordingly, the operation and release of switch 26 will lock both the relays X and Y in operated position. The operation of both of these relays will connect battery 31 over the right-hand contact of relay E, left-hand contact of relay Y left-hand front contact of relay X and thence over conductor 21 in parallel through the wind ings of relays 13 and 17 to ground. This will operate relays 13 and 17. The operation of relay 13 will bridge across the input circuit of amplifier 2 the condenser unit 5. The operation of relay 17 will bridge across the input circuit of the detector 3 the con denser unit 9. Accordingly, the radio re ceiving set will be tuned for the reception of signals from the station termed A.
If the set is tuned for the reception of sig nals from station A and it is desired to tune the set for reception from a station, such as station D controlled by the switches 29 and 29, the operation will be as follows: Switch 29 will be operated. This will close the circuit from battery 31, right-hand contact of relay E, winding of relay Y contact of switch 29 to ground, and the relay Y will be operated. The relay X will not be operated, as it will be short-eircuited by the operation of relay Y The operation of relay Y, will connect battery 31 over the left-hand contact of relay Y, left-hand back contact of relay X right-hand contact of relay X to the conductor con-- nected between the windings of relays X and Y This places an effective short-circuit across the winding of relay Y releasing it. The release of Y releases relay X also. This will release relays 13 and 17 and disconnect the condenser units 5 and 9 from the input circuits of the amplifier and detector tubes. The switch 29 will then be released. This removes the short-circuit about the winding of relay X and allows this relay to operate over the right-hand contact of relay Y, to ground. The operation of relay X will connect batery 31 over the left-hand contact of relay Y left-hand front contact of relay X. and over conductor 21 in parallel through the windings of relays 16 and 20, thereby operating said relays. This will connect the condenser unit 8 across the input circuit of amplifier 2 and will connect the condenser unit 12 across the input circuit of the detector 3, and the radio set will be tuned for reception of signals from station D.
The operation of the other switches, such as 27 and 28, will lock up their coresponding X and Y relays in a similar manner. To turn the radio set off, either of the switches 25 or 25 will be operated a second time. The operation of switch 25, under these conditions, connects an effective short-circuit across the winding of relay E and releases said relay. When the switch 25 is then released, the relay F releases. \V hen the relay E releases, battery is removed from all of the X and Y relays, and any combination that is previously operated will be released. It is pointed out that the filament circuit for the tubes 2 and 3 may be completed over conductor 30 and the right-hand contact of relay E to battery 31. Accord ingly, the power for the set may be turned on or off by the switches 25 or 25.
Instead of providing separate relays, such as the relays 13 to 20, inclusive, for connecting the various condenser units across the vacuum tube circuits, these relays might be dispensed with and the condenser units con nected across the vacuum tube circuits directly by the operation of the series of X and Y relays. Accordingly, while the invention has been disclosed as embodied in certain specific arrangements which are deemed desirable, it is understood that it is capable of embodiment in many and other widely varied forms without departing from the spirit of the invention as defined by the appended claims.
l'V hat is claimed is:
1. A translating device for a plurality of diili'erent carrier frequencies, an input circuit connected to said translating device, a plurality of selective circuits adapted to be connected to said input circuit for rendering it selective for the different carrier frequeir cies, a series of relays each of which controls the connection of one of said selective cir cuits to said input circuit, a second series of relays each of which is paired with one of the relays of said first series and operates to prepare an operating and locking circuit therefor, individual operating circuits for the relays of said second series, and means controlled by the operation of one of the relays of said second series subsequent to the prior operation of a pair of relays of both of said series for opening the locking circuits for said pair of relays.
2. A translating device for a plurality of diiferentcarrier frequencies, an input ch cuit connected to said translating device, a plurality of selective circuits adapted to be connected to said input circuit for rendering it selective for the different carrier frequencies, a series of relays each of which controls the connection of one of said selective circuits to said input circuit, a second series of relays each of which is paired with one of the relays of said first series and operates to prepare an operating and locking circuit therefor, switching means for preparing an operating circuit for all of the relays of said second series, and switching means individual to each of the relays of said second series ior completing the operating circuit there- In testimony whereof, I have signed my name to this specification this 1st day of July, 1929.
WILTON T. REA.
US375552A 1929-07-02 1929-07-02 Control arrangement for carrier apparatus Expired - Lifetime US1809945A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US375552A US1809945A (en) 1929-07-02 1929-07-02 Control arrangement for carrier apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US375552A US1809945A (en) 1929-07-02 1929-07-02 Control arrangement for carrier apparatus

Publications (1)

Publication Number Publication Date
US1809945A true US1809945A (en) 1931-06-16

Family

ID=23481322

Family Applications (1)

Application Number Title Priority Date Filing Date
US375552A Expired - Lifetime US1809945A (en) 1929-07-02 1929-07-02 Control arrangement for carrier apparatus

Country Status (1)

Country Link
US (1) US1809945A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2864941A (en) * 1956-09-26 1958-12-16 Nielsen A C Co Monitoring apparatus

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2864941A (en) * 1956-09-26 1958-12-16 Nielsen A C Co Monitoring apparatus

Similar Documents

Publication Publication Date Title
US2424243A (en) Remote control system
US2385673A (en) Carrier current system
US2490061A (en) Radio-wire communication system
US1476003A (en) Radiosignaling call system
US2226692A (en) Control system
US2597043A (en) Automatic replacement of defective repeaters in high-frequency electric communication systems
US1809945A (en) Control arrangement for carrier apparatus
US1917995A (en) Radio telephony
US2929921A (en) Code controlled communication system
US2483445A (en) Transmitter system
US2579470A (en) Selector system
USRE23313E (en) Mitchell
US2282271A (en) Electrical signaling system
US3706040A (en) Wired broadcasting systems with phantom circuit supplying control current on program signal wires
US2049615A (en) Automatic switching system
US2011953A (en) Electrical transmission system
US2093847A (en) Radio telephone monitoring system
US1896487A (en) Calling circuit
US1856213A (en) Radio receiving apparatus
US2858420A (en) Simplex radio telephone system
US2022805A (en) Radio receiver
US2414440A (en) Voice frequency ringer
US1919046A (en) Selective calling circuits
US1917881A (en) Remote control device
Lensner et al. A versatile power-line-carrier system