US1977595A - Keying circuit - Google Patents
Keying circuit Download PDFInfo
- Publication number
- US1977595A US1977595A US480917A US48091730A US1977595A US 1977595 A US1977595 A US 1977595A US 480917 A US480917 A US 480917A US 48091730 A US48091730 A US 48091730A US 1977595 A US1977595 A US 1977595A
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- Prior art keywords
- tube
- thermionic
- circuit
- keying
- key
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L27/00—Modulated-carrier systems
- H04L27/02—Amplitude-modulated carrier systems, e.g. using on-off keying; Single sideband or vestigial sideband modulation
- H04L27/04—Modulator circuits; Transmitter circuits
Definitions
- the present invention discloses ways and means in connection with tube transmitter equipment in which the keying in the grid direct current circuit is effected by the interruption of the grid direct current by means of a triode tube.
- Fig. 1 shows an embodiment of the invention
- Fig. 2 shows a characteristic curve while
- Fig. 3 shows a modification of Fig. 1.
- Fig. 1 shows a circuit scheme adapted therefor.
- a triode tube D key T controlling the grid potential of this tube.
- the key relay therefore works in this arrangement with low potentials and practically no current.
- the inter-relationship between grid potential egm and the antenna current Ja is shown in Fig. 2.
- the grid potential is varied alternately between the values egml and gm2, in other words, the tube D is overmodulated.
- a filter chain R and C adapted to retard the change from egml to eg'niZ, and vice versa.
- a battery Bl may be connected by way of a high-ohm resistance R1 in order that the oscillator tube maybe completely blocked during spacing periods.
- a rectifier G could be used instead of R1 and B1, said rectifier being fed from an audio frequency alternating current source W.
- the battery B of Fig. 1 could be replaced by a rectifier G1, as shown in Fig. 3, which rectifier is fed with audio frequency energy.
- the compensating or equalizing condensers Ci of this rectifier are shunted, by high-ohm resistances R2 whereby the voltage distribution across the condensers is maintained.
- a thermionic oscillation repeater having a control grid electrode and a cathode of a keying circuit
- key shock preventing means comprising, a thermionic tube having its anode connected to the cathode of said thermionic oscillation repeater and its cathode connected to the control grid of said thermionic oscillation repeater, a capacity connected directly between the anode and cathode of said thermionic tube, a capacity connected directly between the control grid electrode and cathode of said thermionic tube,'a key, a resistance connecting said key to the control grid electrode of said last named tube, a resistance, a source of potential comprising a rectifier having its input electrodes connected with a source of alternating current and its output electrodes connected with the terminals of said resistance, a connection between a point intermediate the terminals of said resistance and the cathode of said thermionic tube, and a contact connected with each terminal of said resistance, said contacts being associated With said key so
- a 1 thermionic tube having its anode to cathode impedance in series with one of said circuitsv for modulating the currents in said circuit at signal frequency, a source of signal potentials con- -1 nected with the input of said second named thermionic tube, and means in said connection for introducing a time lag in said signal potentials, whereby the modulating currents do not rise or fall abruptly.
- means for modulating said oscillations at signal frequency comprising a second thermionic tube having its output electrodes in series with the impedance between two of the electrodes in said first named tube, keying means adapted to be associated with the input circuit of said second tube, and means for preventing abrupt rise and fall of keying current in said tubes including a filter circuit interposed between said keying means and said second thermionic tube.
- Signalling means comprising a thermionic tube adapted to relay high frequency oscillations, means for modulating said oscillations at signal frequency comprising a second thermionic tube having its output circuit in series with the impedance between two of the electrodes in said first named tube, means for rendering said second named tube conducting or non-conducting at signal frequency, and a time lag circuit operatively interposed between said last named means and said second named thermionic tube.
- Signalling apparatus comprising a thermionic radio frequency relay, a modulation potential amplifier tube having input electrodes-said tube also having output electrodes connected with said radio frequency relay, a circuit including keying means for keying'said modulation potenital amplifier tube at signal frequency, said circuit being connected to the input electrodes of said modulation potential amplifier tube, and means for preventing key clicks in said tubes including a filter circuit interposed in said circuit between said keying means and the input electrodes of said modulation potential amplifier tube.
- Signalling means comprising, a thermionic repeater tube having input electrodes which may be-energized by alternating currents, means for keying said tube comprising an additional thermionic tube having input and output electrodes, a circuit connecting the output electrodes of said additional tube in series with the input electrodes of said first named tube, a key and a source of potential, a circuit connecting said key and source of potential to the input electrodes of said additional tube, and means for prevent-' ing shocks in said circuit when said key is manipulated comprising, a filter including a capacity and a resistance in said circuit connecting said key and source of potential to the input electrodes of said additional thermionic tube.
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- Signal Processing (AREA)
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Description
Oct. 16, 1934. H. RODER 1,977,595
' KEYING CIRCUIT Filed Spt. 10, 1930 qmnnm INVENTOR HH/VS $205? ATTORNEY Patented Oct. 16, 1934 UNETED STATES KEYING omooir Hans Roder, Scotia, N. Y., assignor to Teleiunken Gesellschaft fur Drahtlose Telegraphic m. b. H., Berlin, Germany, a corporation of Germany Application September 10, 1930, Serial No. 480,917
In Germany September 17, 1929 9 Claims.
When a receiver equipment is mounted in the neighborhood of a transmitter, the operation of the former is disturbed to a more or less serious degree by the transmitter. In each signal sent off from the transmitter the rise and fall of the signal is audible in the receiver in the form of a crackling noise known as clicks or key shocks. If the transmitter and the receiver are mounted in the same room, and if the transmitter and the receiver antennae are arranged at close proximity or even where one is disposed above or below the other, then reception becomes practically impossible as long as the transmitter is working. An attempt to eliminate these clicks by radio frequency stoppers in the receiver is unsuccessful since the rapid initial stage of the oscillation contains a practically continuous frequency spectrum or band. Hence, ways and means must be found for the transmitter which are adapted to limit this frequency band. This end can be realized by that the sharp edges of the key signals are, as it were, ground off.
The present invention discloses ways and means in connection with tube transmitter equipment in which the keying in the grid direct current circuit is effected by the interruption of the grid direct current by means of a triode tube.
In the drawing throughout which like reference numerals indicate like parts;
Fig. 1 shows an embodiment of the invention Fig. 2 shows a characteristic curve while;
Fig. 3 shows a modification of Fig. 1.
Referring to the drawing, Fig. 1 shows a circuit scheme adapted therefor. For the interruption of the grid direct current recourse is had in well-known manner to a triode tube D, key T controlling the grid potential of this tube. The key relay therefore works in this arrangement with low potentials and practically no current. The inter-relationship between grid potential egm and the antenna current Ja is shown in Fig. 2. The grid potential is varied alternately between the values egml and gm2, in other words, the tube D is overmodulated.
45 Between the grid battery B and the grid of the tube D is inserted a filter chain R and C adapted to retard the change from egml to eg'niZ, and vice versa. In parallel relation to tube D a battery Bl may be connected by way of a high-ohm resistance R1 in order that the oscillator tube maybe completely blocked during spacing periods. As shown in the modification illustrated in Fig. 3 a rectifier G could be used instead of R1 and B1, said rectifier being fed from an audio frequency alternating current source W. Also the battery B of Fig. 1 could be replaced by a rectifier G1, as shown in Fig. 3, which rectifier is fed with audio frequency energy. The compensating or equalizing condensers Ci of this rectifier are shunted, by high-ohm resistances R2 whereby the voltage distribution across the condensers is maintained.
Having thus described my invention, I claim:
1. In signalling apparatus the combination with a thermionic oscillation repeater having a control grid electrode and a cathode of a keying circuit including key shock preventing means comprising, a thermionic tube having its anode connected to the cathode of said thermionic oscillation repeater and its cathode connected to the control grid of said thermionic oscillation repeater, a capacity connected directly between the anode and cathode of said thermionic tube, a capacity connected directly between the control grid electrode and cathode of said thermionic tube,'a key, a resistance connecting said key to the control grid electrode of said last named tube, a resistance, a source of potential comprising a rectifier having its input electrodes connected with a source of alternating current and its output electrodes connected with the terminals of said resistance, a connection between a point intermediate the terminals of said resistance and the cathode of said thermionic tube, and a contact connected with each terminal of said resistance, said contacts being associated With said key so that potentials of unlike polarity may be applied to the control grid electrode of said last named thermionic tube.
2. An arrangement as claimed in claim 1 in which series capacities are connected in parallel with said resistance, and in which an additional rectifier has one of its output terminals connected to the cathode of said thermionic tube, the other of its output electrodes connected to the anode of said thermionic tube, and its input electrodes connected with a source of alternating current.
3. In combination with a radio frequency amplifier tube having input and output circuits, a 1 thermionic tube having its anode to cathode impedance in series with one of said circuitsv for modulating the currents in said circuit at signal frequency, a source of signal potentials con- -1 nected with the input of said second named thermionic tube, and means in said connection for introducing a time lag in said signal potentials, whereby the modulating currents do not rise or fall abruptly.
4. In combination with a radio frequency remulti-elec'trcde tube adapted to relay high fre-.
quency oscillations, means for modulating said oscillations at signal frequency comprising a second thermionic tube having its output electrodes in series with the impedance between two of the electrodes in said first named tube, keying means adapted to be associated with the input circuit of said second tube, and means for preventing abrupt rise and fall of keying current in said tubes including a filter circuit interposed between said keying means and said second thermionic tube.
6. Signalling means comprising a thermionic tube adapted to relay high frequency oscillations, means for modulating said oscillations at signal frequency comprising a second thermionic tube having its output circuit in series with the impedance between two of the electrodes in said first named tube, means for rendering said second named tube conducting or non-conducting at signal frequency, and a time lag circuit operatively interposed between said last named means and said second named thermionic tube.
'7. Signalling apparatus comprising a thermionic radio frequency relay, a modulation potential amplifier tube having input electrodes-said tube also having output electrodes connected with said radio frequency relay, a circuit including keying means for keying'said modulation potenital amplifier tube at signal frequency, said circuit being connected to the input electrodes of said modulation potential amplifier tube, and means for preventing key clicks in said tubes including a filter circuit interposed in said circuit between said keying means and the input electrodes of said modulation potential amplifier tube.
8. In combination with a high frequency thermionic relay tube having a plurality of electrodes and a thermionic modulating tube, a circuit for connecting the internal impedance of said modulator tube in series with the impedance between two electrodes in said relay tube, said impedances each being connected in parallel with a source of potential, a keying circuit connected with the input electrodes of said modulator tube, and a filter network comprising series resistance and parallel capacity interposed between said keying circuit and the input electrodes of said modulator tube.
9. Signalling means comprising, a thermionic repeater tube having input electrodes which may be-energized by alternating currents, means for keying said tube comprising an additional thermionic tube having input and output electrodes, a circuit connecting the output electrodes of said additional tube in series with the input electrodes of said first named tube, a key and a source of potential, a circuit connecting said key and source of potential to the input electrodes of said additional tube, and means for prevent-' ing shocks in said circuit when said key is manipulated comprising, a filter including a capacity and a resistance in said circuit connecting said key and source of potential to the input electrodes of said additional thermionic tube.
- HANS RODER.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE1977595X | 1929-09-17 |
Publications (1)
Publication Number | Publication Date |
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US1977595A true US1977595A (en) | 1934-10-16 |
Family
ID=7853800
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US480917A Expired - Lifetime US1977595A (en) | 1929-09-17 | 1930-09-10 | Keying circuit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3207952A (en) * | 1961-12-19 | 1965-09-21 | Charles B Brahm | Cable fade-in circuit |
-
1930
- 1930-09-10 US US480917A patent/US1977595A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3207952A (en) * | 1961-12-19 | 1965-09-21 | Charles B Brahm | Cable fade-in circuit |
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