US2063196A - Transmission and modulating arrangement - Google Patents

Transmission and modulating arrangement Download PDF

Info

Publication number
US2063196A
US2063196A US717309A US71730934A US2063196A US 2063196 A US2063196 A US 2063196A US 717309 A US717309 A US 717309A US 71730934 A US71730934 A US 71730934A US 2063196 A US2063196 A US 2063196A
Authority
US
United States
Prior art keywords
control
anode
circuit
modulation
transmission
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
US717309A
Inventor
Schlesinger Kurt
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Application granted granted Critical
Publication of US2063196A publication Critical patent/US2063196A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03CMODULATION
    • H03C1/00Amplitude modulation
    • H03C1/16Amplitude modulation by means of discharge device having at least three electrodes
    • H03C1/18Amplitude modulation by means of discharge device having at least three electrodes carrier applied to control grid
    • H03C1/24Amplitude modulation by means of discharge device having at least three electrodes carrier applied to control grid modulating signal applied to different grid

Definitions

  • the subject matter of the invention is a transmission arrangement, more particularly for short or ultra-short wave purposes, which permits of a very extensive modulation.
  • This modulator screening grid tube contains two control grids with equal 'control effect.
  • the control grids of the modulator tube are highly negatively biased to such extent that the control effect of the negative half-waves of the control wave is suppressed and only the positive half waves of the controlwaves produce variation of the anode current. It is thus accomplished that the control effects of the two grids do not compensate each other, but are added together, in such fashion that the anode circuit of the tube tuned to the frequency --2nis excited twice by each control wave.
  • the modulation takes place at the screening grid of the tube.
  • modulator tube there is employed a tube with greatest amplification factor.
  • a resonance amplifier arrangement Following the modulating arrangement there is preferably connected.
  • a form of embodiment of the arrangement according to the invention is illustrated by way of example in the drawing.
  • I is the dual 5 control grid screening grid tube having the two control grids 2 and 3, the screening grid 4 and the anode 5.
  • the two control grids 2 and 3 are linked up through the medium of the condensers 6 and I with the oscillation coil 8 of the 0 circuit II] tuned to the frequency n (for example, corresponding to a wave length of 14 metres) and excited by the control generator 9, the coil 8 being earthed at the centre.
  • the two control grids are supplied with the requisite 45 negative bias from the potential source I I through the medium of the two resistances I2 and I3.
  • the circuit I4 which is tuned sharply to the frequency 211 (for example, corresponding to a 50 wave length of '7 metres).
  • the anode potential may conveniently be fed by the terminal I5 over the choke I6.
  • the modulating potential is conducted at the terminals I! and I8 over the choke I9 and the condenser 20 through the medium of 55 the screened connection 2I to the screening grid 4 of the tube, which is positively biassed by the terminal I5 through the medium of the resistance 22 and the potentiometer 23.
  • the modulated potential is tapped at the circuit it, and if necessary amplified in the resonance amplifier 26.
  • the condensers 24 and 25 may conveniently be furnished with a size of 10 cm.
  • the condenser 20 with one amounting to .1 mf., and the resistance 22 with .01 megohm.
  • the bias of the screening grid should be selected in such fashion that 10 the total of screening grid potential and modulating potential is always smaller than the difference between anode potential and maximum potential of the oscillatory circuit provided in the anode circuit of the tube. 15
  • the arrangement according to the. invention operates with a very high efiiciency, and enables a modulation of the transmission wave to be obtained amounting to 85-90%.
  • the arrangement according to the invention is suitable to a particularly high degree for television purposes.
  • a modulation tube preferably for 0 television purposes using short or ultra-short carrier waves
  • said modulation tube containing a cathode, an anode, a screening grid and. two control grids of equal control effect
  • means for exciting said control grids in counter-phase by the oscillatory circuit of said high frequency control generator means for connecting said molulation source to said screening grid, an output circuit sharply tuned to twice the frequency of said high frequency control generator connected to said anode, means for negatively biassing said two control grids by an amount sufficient to suppress the control effect of the negative half-waves of the control waves, said output anode circuit coupled with a transmission circuit.
  • a modulation tube preferably for television purposes using short or ultra-short carrier waves a modulation tube, a high-frequency control generator and a modulation source, said modulation tube containing a cathode, an anode, a screening grid and two control grids of equal control effect, means for exciting said control grids in counter-phase by the oscillatory circuit of said high frequency control generator, means for connecting said modulation source to said screening grid, an output circuit sharply tuned to twice the frequency of said high frequency control generator connected to said anode, means for negatively biassing said two control grids by an amount suflicient to suppress the control effect of the negative halfwaves of the control waves, said output anode circuit coupled with a transmission circuit, and means for biassing the screening grid so selected that the total value of the screening grid bias and the modulatng potential at any moment will be smaller than the difference between anode potential and maximum potential of the transmission circuit.
  • a modulation tube preferably for television purposes using short or ultra-short carrier waves a modulation tube, a high-frequency control generator and a modulation source
  • said modulation tube containng a cathode, an anode, a screening grid and two control grids of equal control effect, means for exciting said control grids in counter-phase by the oscillatory circuit of said high-frequency control generator, means for connecting said modulation source to said screening grid, an output circuit sharply tuned to twice the frequency of said high-frequency control generator connected to said anode, means for negatively biassing said two control grids by an amount sufficient to suppress the control effect of the negative half-waves of the control waves, said output anode circuit coupled with a transmission circuit, and means for biassing the screening grid so selected that the total value of the screening grid bias and the modulating potential at any moment will be smaller than the difference between anode potential and maximum potential of the transmission circuit, said anode output circuit connected to resonance amplifiers.
  • a modulation tube preferably for television purposes using short or ultra-short carrier waves
  • said modulation tube containing a cathode, an anode, a screening grid and two control grids of equal control efiect
  • means for exciting said control grids in counter-phase by the oscillatory circuit of said high frequency control generator means for connecting said modulation source to said screening grid, an output circuit sharply tuned to twice the frequency of said high frequency control generator connected to said anode, means for negatively biassing said two control grids by an amount suflicient to suppress the control effect of the negative half-waves of the control waves, said output anode circuit coupled with a transmission circuit, and means for biassing the screening grid.

Landscapes

  • Transmitters (AREA)
  • Microwave Amplifiers (AREA)

Description

Dec. 8, 1936. SCHLESINGER 2,063,196
TRANSMISSION AND MODULATING ARRANGEMENT Filed March 26, 1934 Patented Dec. 8, 1936 UNITED STATES TRANSMISSION AND MODULATING ARRANGEMENT Kurt Schlesinger, Berlin, Germany Application March 26, 1934, Serial No. 717,309 In Germany March 29, 1933 4 Claims.
The subject matter of the invention is a transmission arrangement, more particularly for short or ultra-short wave purposes, which permits of a very extensive modulation.
According to the invention, there is employed a screening grid modulator tube controlled by a high frequency generator and by the modulation waves. This modulator screening grid tube contains two control grids with equal 'control effect.
To the two control grids there is conducted in phase opposition energy from the oscillatory circuit of the control generator tuned to a frequency -n, whilst the anode output circuit of the modulation tube is connected to a circuit tuned to the frequency 2n. The control grids of the modulator tube are highly negatively biased to such extent that the control effect of the negative half-waves of the control wave is suppressed and only the positive half waves of the controlwaves produce variation of the anode current. It is thus accomplished that the control effects of the two grids do not compensate each other, but are added together, in such fashion that the anode circuit of the tube tuned to the frequency --2nis excited twice by each control wave. The modulation, in accordance with the invention, takes place at the screening grid of the tube. As modulator tube there is employed a tube with greatest amplification factor. Following the modulating arrangement there is preferably connected a resonance amplifier arrangement.
A form of embodiment of the arrangement according to the invention is illustrated by way of example in the drawing. In the same I is the dual 5 control grid screening grid tube having the two control grids 2 and 3, the screening grid 4 and the anode 5. The two control grids 2 and 3 are linked up through the medium of the condensers 6 and I with the oscillation coil 8 of the 0 circuit II] tuned to the frequency n (for example, corresponding to a wave length of 14 metres) and excited by the control generator 9, the coil 8 being earthed at the centre. At the same time the two control grids are supplied with the requisite 45 negative bias from the potential source I I through the medium of the two resistances I2 and I3. In the anode circuit of the anode 5 there is provided the circuit I4, which is tuned sharply to the frequency 211 (for example, corresponding to a 50 wave length of '7 metres). The anode potential may conveniently be fed by the terminal I5 over the choke I6. The modulating potential is conducted at the terminals I! and I8 over the choke I9 and the condenser 20 through the medium of 55 the screened connection 2I to the screening grid 4 of the tube, which is positively biassed by the terminal I5 through the medium of the resistance 22 and the potentiometer 23. The modulated potential is tapped at the circuit it, and if necessary amplified in the resonance amplifier 26. The condensers 24 and 25 may conveniently be furnished with a size of 10 cm. each, the condenser 20 with one amounting to .1 mf., and the resistance 22 with .01 megohm. The bias of the screening grid should be selected in such fashion that 10 the total of screening grid potential and modulating potential is always smaller than the difference between anode potential and maximum potential of the oscillatory circuit provided in the anode circuit of the tube. 15
This condition does not require to be adhered to if, in accordance with the invention, there is provided between the screening grid and the anode an intercepting grid, which is connected for example with the cathode in the manner known per se. In this case greater oscillation circuit potentials are quite readily permissible.
The arrangement according to the. invention operates with a very high efiiciency, and enables a modulation of the transmission wave to be obtained amounting to 85-90%. The arrangement according to the invention is suitable to a particularly high degree for television purposes.
I claim:
1. In a transmission system, preferably for 0 television purposes using short or ultra-short carrier waves a modulation tube, a high-frequency control generator and a modulation source, said modulation tube containing a cathode, an anode, a screening grid and. two control grids of equal control effect, means for exciting said control grids in counter-phase by the oscillatory circuit of said high frequency control generator, means for connecting said molulation source to said screening grid, an output circuit sharply tuned to twice the frequency of said high frequency control generator connected to said anode, means for negatively biassing said two control grids by an amount sufficient to suppress the control effect of the negative half-waves of the control waves, said output anode circuit coupled with a transmission circuit.
2. In a transmission system, preferably for television purposes using short or ultra-short carrier waves a modulation tube, a high-frequency control generator and a modulation source, said modulation tube containing a cathode, an anode, a screening grid and two control grids of equal control effect, means for exciting said control grids in counter-phase by the oscillatory circuit of said high frequency control generator, means for connecting said modulation source to said screening grid, an output circuit sharply tuned to twice the frequency of said high frequency control generator connected to said anode, means for negatively biassing said two control grids by an amount suflicient to suppress the control effect of the negative halfwaves of the control waves, said output anode circuit coupled with a transmission circuit, and means for biassing the screening grid so selected that the total value of the screening grid bias and the modulatng potential at any moment will be smaller than the difference between anode potential and maximum potential of the transmission circuit.
3. In a transmission system, preferably for television purposes using short or ultra-short carrier waves a modulation tube, a high-frequency control generator and a modulation source, said modulation tube containng a cathode, an anode, a screening grid and two control grids of equal control effect, means for exciting said control grids in counter-phase by the oscillatory circuit of said high-frequency control generator, means for connecting said modulation source to said screening grid, an output circuit sharply tuned to twice the frequency of said high-frequency control generator connected to said anode, means for negatively biassing said two control grids by an amount sufficient to suppress the control effect of the negative half-waves of the control waves, said output anode circuit coupled with a transmission circuit, and means for biassing the screening grid so selected that the total value of the screening grid bias and the modulating potential at any moment will be smaller than the difference between anode potential and maximum potential of the transmission circuit, said anode output circuit connected to resonance amplifiers.
4. In a transmission system, preferably for television purposes using short or ultra-short carrier waves a modulation tube, a high-frequency control generator and a modulation source, said modulation tube containing a cathode, an anode, a screening grid and two control grids of equal control efiect, means for exciting said control grids in counter-phase by the oscillatory circuit of said high frequency control generator, means for connecting said modulation source to said screening grid, an output circuit sharply tuned to twice the frequency of said high frequency control generator connected to said anode, means for negatively biassing said two control grids by an amount suflicient to suppress the control effect of the negative half-waves of the control waves, said output anode circuit coupled with a transmission circuit, and means for biassing the screening grid.
KURT SCHLESINGER.
US717309A 1933-03-29 1934-03-26 Transmission and modulating arrangement Expired - Lifetime US2063196A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE435561X 1933-03-29

Publications (1)

Publication Number Publication Date
US2063196A true US2063196A (en) 1936-12-08

Family

ID=6506785

Family Applications (1)

Application Number Title Priority Date Filing Date
US717309A Expired - Lifetime US2063196A (en) 1933-03-29 1934-03-26 Transmission and modulating arrangement

Country Status (3)

Country Link
US (1) US2063196A (en)
FR (1) FR770626A (en)
GB (1) GB435561A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2515916A (en) * 1950-07-18 Coded carrier signaling apparatus

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE754789C (en) * 1935-04-30 1954-12-13 Opta Radio A G Modulation circuit
DE763241C (en) * 1935-04-30 1955-08-11 Opta Radio A G Modulation circuit for shortwave television transmitters with synchronization by suppressing the carrier shaft (gap synchronization)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2515916A (en) * 1950-07-18 Coded carrier signaling apparatus

Also Published As

Publication number Publication date
GB435561A (en) 1935-09-24
FR770626A (en) 1934-09-17

Similar Documents

Publication Publication Date Title
US2294800A (en) Modulation system
US2186958A (en) Distortion reducing system for suppressed carrier transmission
US2063196A (en) Transmission and modulating arrangement
US2077223A (en) Modulation system
US2423866A (en) Wave separator
US2267703A (en) Modulation
US2031639A (en) Method of and means for modulation
US2003285A (en) Signaling
GB448043A (en) Improvements in or relating to carrier wave signalling systems
US2429649A (en) Modulator distortion correction
US2074440A (en) Modulator
US2120800A (en) Transmitter
US2463275A (en) Modulation
US2130893A (en) Modulation
US2050067A (en) Phase modulation
US2045973A (en) Modulation
US2248462A (en) Modulation system
US2165844A (en) Method and means for modulation
US2114336A (en) Modulated wave transmitter
US2066970A (en) Controlled carrier wave system for signaling
US2282347A (en) Modulation system
US1950410A (en) Modulation system
US2134065A (en) Modulator
US2637838A (en) Amplitude modulation circuit
US2055736A (en) Frequency changing system