US2011927A - Transmitter - Google Patents

Transmitter Download PDF

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Publication number
US2011927A
US2011927A US680372A US68037233A US2011927A US 2011927 A US2011927 A US 2011927A US 680372 A US680372 A US 680372A US 68037233 A US68037233 A US 68037233A US 2011927 A US2011927 A US 2011927A
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tube
transmitter
source
tubes
current
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US680372A
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Chireix Henri
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Thales SA
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Cie Generale De Telegraphic Sa
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L27/00Modulated-carrier systems
    • H04L27/02Amplitude-modulated carrier systems, e.g. using on-off keying; Single sideband or vestigial sideband modulation
    • H04L27/04Modulator circuits; Transmitter circuits

Definitions

  • the present invention discloses a method of and means for simplifying transmitter equipment including tubes and circuits used in telegraphy work.
  • the invention consists in feeding transmitter equipment of the saine kind with high direct potentials from an industrial network by way of multiphase rectiers comprising gas-filled tubes.
  • the tubes may be of the mercury vapor type and may contain a control grid.
  • the said control grid may be normally negative and serve to insure manipulation (keying) either by raising the grid to a potential higher than the striking or flash potential of the tube throughout the duration of the signal to be sent out by application of a direct current potential to the grid, or else by applying to the grid-filament path, throughout the entire period or duration of the signal an alternating Voltage of a frequency that is relatively high (tone frequency) Vcompared with the feed frequency, i, e. the rectiiier supply source.
  • the tone frequency may be several thousand cycles per second.
  • the rectifier will be active or operative throughout the entire duration of the signal sent out.
  • the second scheme may be of greater practical interest because it permits of feeding lthe grids of the rectifiers by way of a transformer, this being of practical advantage whenever insulation problems have to be solved.
  • Figure 1 shows a circuit arrangement wherein the operativeness of the gaseous discharge tube is controlled by direct current potentials
  • Figure 2 shows a modification wherein the operativeness of the device is controlled by keyed tone frequency.
  • a gaseous dischargel tube 2 has its anode electrode connected, as shown, with the secondary winding of a transformer l, the primary winding of which may be connected to a source of alternating current, as shown.
  • the cathode of this tube may be connected to a lter condenser 3, one terminal of which is grounded, as shown.
  • the condenser 3 has a capacity suflicient to filter out components (Cl. Z50-17) resulting from the rectification of commercial alternating current in the tube 2.
  • the cathode of tube 2 is also connected to a terminal on a transmitter t so that the direct current potentials applied from the cathode to the transmitter 5 may be utilized to key the transmitter in any well known way.
  • the cathode of tube may be'connected to the electrodes of tubes in the transmitter li. Other electrodes of said tubes may be grounded as shown. This completes a direct current circuit from the cathode of tube 2 through the tubes in the transmitter d to ground and from ground back to the anode of tube 2.
  • the conductivity of the tube 2, and therefore the rectifying ability of said tube to furnish control potentials to the anodes of the tubes in the transmitter li, is determined in accordance with the potentials applied to the control grid thereof by way of the potentiometer resistance 6 connected, as shown, in parallel with the source 5, and a portion of the potentiometer 6 is shunted, as shown, by a key so that the bias on the control grid may be highly negative to stop the ow of current in rectifier 2 or to a value such that current ows in the rectifier 2.
  • the thermionic tube 2 is of the multi--electrode type and has its anodes connected, as shown, with a source vof multiphase current by way of a transformer i, as shown.
  • the control grids of the tube 2 are connected, as shown, by way of a transformer 5 having a split secondary winding and a key 8 to a source of tone frequency l.
  • One end of each of the secondary windings of the transformer 5 is connected, as shown, by way of a source t to the cathodes of the tube 2.
  • the source 6 normally biases the control grids to a value at which no current is passed by the rectifier.
  • the cathode electrodes of the tube 2 are connect-I ed, as shown, to one terminal of a filter condenser 3, the other terminal of which is grounded, and to a transmitter Il, the operativeness of which is controlled by the presence or absence of direct current potentials on the cathodes of 2.
  • the transmitter il may be keyed in any known manner by the direct current pulses on kthe cathodes of tube 2.
  • the Vtone frequency applied from 'l to the control grids of tube 2 when the key is closed overcomes the negative bias on the control grids so that rectified current may Aflow in the tube 2 and to the transmitter il.
  • the normal negative bias of tube 2 applied from the source 6 is overcome by grid rectification of the alternating currentimpressed by 5 between the control grids and cathodes of tube 2 to overcome said negative bias.
  • This causes the three phase current applied to the input circuit of the rectier 2 to be rectified so that direct current components ow from the anodes of tube 2 tothe cathodes of tube 2 and then to electrodes of tubes in the transmitter 4. From electrodes of tubes in the transmitter 4 the rectified current flows to ground and thence to the secondary Winding of transformer l and to the anodes of tube 2.
  • the condenser 3 provides filtering effect for the alternating current components in the output of rectier 2.
  • a transmitter and keying means therefor including, a thermionic tube of the multielectrode type, said tube including a plurality of anodes, axplurality of cathodes and a pluralityof control grid electrodes, a source of alternating current connected by way of a multiphase transformer to the anodes of said tube, a
  • transformer having a primary Winding connected by Way of a key With a source of tone frequency and a plurality of secondary windings each hav ing one terminal connected with one of the control grids of said tube, connections between the other terminal of each of said secondary windings and one of the cathcdes of said tube, said connectiors including a source of direct current potential, and a connection between the cathodes of said tube and said transmitter, said last named connection including a lter circuit.

Description

Aug 20 1935- l H. cl-nRl-:lx 'I 2,011,927 I TRANSMITTER Filed July 14, 1953 7/VE FeEQL/ENCY INVENTOR HE/V E/X WIM/l ATTORNEY Patented Aug. 20, 1935 UNITED e srATss when TRANSMITTER Henri Chireix, Paris., France, assigner to Compagnie Generale de Telegraphic Sans Fil,l a
corporation of France Application July li, 1933, Serial No. 680,372 In France `l'uly 27, 1932 1 Claim.
The present invention discloses a method of and means for simplifying transmitter equipment including tubes and circuits used in telegraphy work.
The invention consists in feeding transmitter equipment of the saine kind with high direct potentials from an industrial network by way of multiphase rectiers comprising gas-filled tubes. The tubes may be of the mercury vapor type and may contain a control grid.
The said control grid may be normally negative and serve to insure manipulation (keying) either by raising the grid to a potential higher than the striking or flash potential of the tube throughout the duration of the signal to be sent out by application of a direct current potential to the grid, or else by applying to the grid-filament path, throughout the entire period or duration of the signal an alternating Voltage of a frequency that is relatively high (tone frequency) Vcompared with the feed frequency, i, e. the rectiiier supply source. The tone frequency may be several thousand cycles per second. As known from the operation of gas-filled or gaseous tubes d fitted with a control grid, the rectifier will be active or operative throughout the entire duration of the signal sent out.
The second scheme may be of greater practical interest because it permits of feeding lthe grids of the rectifiers by way of a transformer, this being of practical advantage whenever insulation problems have to be solved.
The novel features of my invention have been pointed out with particularity in the claim appended hereto.
The invention will be better understood by the following detailed description thereof and therefrom when read in connection with the drawing, throughout which like reference characters indicate like parts, and in which:
Figure 1 shows a circuit arrangement wherein the operativeness of the gaseous discharge tube is controlled by direct current potentials; while,
Figure 2 shows a modification wherein the operativeness of the device is controlled by keyed tone frequency.
Referring yto Figure 1 of the drawing, a gaseous dischargel tube 2 has its anode electrode connected, as shown, with the secondary winding of a transformer l, the primary winding of which may be connected to a source of alternating current, as shown. The cathode of this tube may be connected to a lter condenser 3, one terminal of which is grounded, as shown. The condenser 3 has a capacity suflicient to filter out components (Cl. Z50-17) resulting from the rectification of commercial alternating current in the tube 2. The cathode of tube 2 is also connected to a terminal on a transmitter t so that the direct current potentials applied from the cathode to the transmitter 5 may be utilized to key the transmitter in any well known way. For example the cathode of tube may be'connected to the electrodes of tubes in the transmitter li. Other electrodes of said tubes may be grounded as shown. This completes a direct current circuit from the cathode of tube 2 through the tubes in the transmitter d to ground and from ground back to the anode of tube 2. The conductivity of the tube 2, and therefore the rectifying ability of said tube to furnish control potentials to the anodes of the tubes in the transmitter li, is determined in accordance with the potentials applied to the control grid thereof by way of the potentiometer resistance 6 connected, as shown, in parallel with the source 5, and a portion of the potentiometer 6 is shunted, as shown, by a key so that the bias on the control grid may be highly negative to stop the ow of current in rectifier 2 or to a value such that current ows in the rectifier 2.
In Figure 2 the thermionic tube 2 is of the multi--electrode type and has its anodes connected, as shown, with a source vof multiphase current by way of a transformer i, as shown. The control grids of the tube 2 are connected, as shown, by way of a transformer 5 having a split secondary winding and a key 8 to a source of tone frequency l. One end of each of the secondary windings of the transformer 5 is connected, as shown, by way of a source t to the cathodes of the tube 2. The source 6 normally biases the control grids to a value at which no current is passed by the rectifier. Here, as in Figure 1, the cathode electrodes of the tube 2 are connect-I ed, as shown, to one terminal of a filter condenser 3, the other terminal of which is grounded, and to a transmitter Il, the operativeness of which is controlled by the presence or absence of direct current potentials on the cathodes of 2. The transmitter il may be keyed in any known manner by the direct current pulses on kthe cathodes of tube 2. The Vtone frequency applied from 'l to the control grids of tube 2 when the key is closed overcomes the negative bias on the control grids so that rectified current may Aflow in the tube 2 and to the transmitter il.
For example, when the key B is closed the normal negative bias of tube 2 applied from the source 6 is overcome by grid rectification of the alternating currentimpressed by 5 between the control grids and cathodes of tube 2 to overcome said negative bias. This causes the three phase current applied to the input circuit of the rectier 2 to be rectified so that direct current components ow from the anodes of tube 2 tothe cathodes of tube 2 and then to electrodes of tubes in the transmitter 4. From electrodes of tubes in the transmitter 4 the rectified current flows to ground and thence to the secondary Winding of transformer l and to the anodes of tube 2. The condenser 3 provides filtering effect for the alternating current components in the output of rectier 2.
Having thus described my invention and the operation thereof, what I claim is:
The combination of a transmitter and keying means therefor including, a thermionic tube of the multielectrode type, said tube including a plurality of anodes, axplurality of cathodes and a pluralityof control grid electrodes, a source of alternating current connected by way of a multiphase transformer to the anodes of said tube, a
transformer having a primary Winding connected by Way of a key With a source of tone frequency and a plurality of secondary windings each hav ing one terminal connected with one of the control grids of said tube, connections between the other terminal of each of said secondary windings and one of the cathcdes of said tube, said connectiors including a source of direct current potential, and a connection between the cathodes of said tube and said transmitter, said last named connection including a lter circuit.
HENRI CHIREIX.
US680372A 1932-07-27 1933-07-14 Transmitter Expired - Lifetime US2011927A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
FR666949X 1932-07-27

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US2011927A true US2011927A (en) 1935-08-20

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DE (1) DE666949C (en)
FR (1) FR753647A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2503958A (en) * 1945-02-20 1950-04-11 Rca Corp Signal intensity responsive gaseous discharge device gate
US3078375A (en) * 1958-02-20 1963-02-19 Westinghouse Electric Corp Transistor amplifier utilizing a reversebiased diode for blocking signal leakage

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2503958A (en) * 1945-02-20 1950-04-11 Rca Corp Signal intensity responsive gaseous discharge device gate
US3078375A (en) * 1958-02-20 1963-02-19 Westinghouse Electric Corp Transistor amplifier utilizing a reversebiased diode for blocking signal leakage

Also Published As

Publication number Publication date
DE666949C (en) 1938-11-01
FR753647A (en) 1933-10-20

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