US2040813A - Television system - Google Patents
Television system Download PDFInfo
- Publication number
- US2040813A US2040813A US635534A US63553432A US2040813A US 2040813 A US2040813 A US 2040813A US 635534 A US635534 A US 635534A US 63553432 A US63553432 A US 63553432A US 2040813 A US2040813 A US 2040813A
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- ray
- wave
- frequency
- screen
- tube
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J29/00—Details of cathode-ray tubes or of electron-beam tubes of the types covered by group H01J31/00
- H01J29/46—Arrangements of electrodes and associated parts for generating or controlling the ray or beam, e.g. electron-optical arrangement
- H01J29/70—Arrangements for deflecting ray or beam
- H01J29/72—Arrangements for deflecting ray or beam along one straight line or along two perpendicular straight lines
- H01J29/76—Deflecting by magnetic fields only
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J2229/00—Details of cathode ray tubes or electron beam tubes
- H01J2229/96—Circuit elements other than coils, reactors or the like, associated with the tube
- H01J2229/964—Circuit elements other than coils, reactors or the like, associated with the tube associated with the deflection system
Definitions
- the outline of the area scanned by the ray has a keystone shape rather than the desired rectangular shape.
- 'I'his distortion of the scanned pattern is manifested by a substantial and corresponding distortion of the reproduced image at the receiving station, the reproduced image being also the shape of a keystone, with the vertical lines inclined downwardly toward each other.
- the cathode ray at the transmitting station is deflected in such manner as to tend to spread out the scanned pattern in a keystone effect opposite to the keystone pattern which would otherwise be scanned, the effect being to substantially entirely compensate or correct for the latter, so that the scanned pattern is rectangular in shape.
- the cathode ray at the transmitting station is deected in diiferent directions to scan repeatedly a 'given area of the photosensitive screen, the amplitude of deection in one of the directions being' substantially uniformly varied during each scanning period to correct for the keystone distortion which would otherwise occur.
- My invention resides in the improved method of operation and system of the character hereinafter described and. claimed. ⁇
- Figure l is a diagrammatic view of a television transmitting system embodying my invention
- Figs. 2 and 2a are diagrammatic views illustrative of the principle of operation.
- Figs. 3 and 4 are simpliiied diagrammatic views showing modifications of the system in Fig. l.
- a transmitting tube III- is provided with an electrode I2, having the usual photosensitive surface I4 comprised of a great number of minute metallic elements, such as silver globules,
- an image of the object shown as being in the form of a moving picture filmi 6, is projected upon the photosensitive surface by a suitable optical system I'I, the axis I6 of the optical system being perpendicular to the surface or screen I4.
- a gun 2 0 of any suitable construction operates to develop and direct a ray 24 of electrons at the photosensitive surface I4, the axis 22 of the gun being disposed at an acute angle, for example to the photosensitive surface Iii.
- a saw-tooth current wave for the purpose of causing the ray 24 to scan I the surface I4, a saw-tooth current wave, at a frequency of 24 cycles, is developed by a ,suitable generator 26 and is caused to flow through deecting coils 28. Also, for this purpose, a sawtooth current wave, at a frequency of 4320 cycles, is developed by a'suitable generator 30, and is caused to ow through deflecting coils 32. The coils 28 deflect the ray vertically, and the coils 32 deflect the ray horizontally. -'Ihe ray 24, therefore, is caused .to scan the surface I4 twenty-four l ,times a second, each scanning being along horizontal lines.
- the 'reference numeral 34 designates any suitable system for developing the usual synchronizing impulses which aresupplied to the generator 30 by a connection 36, and the usual framing impulses which are supplied to the generator 26 by a connection 38.
- the system 34 supplies 4320 synchronizing impulses a second to the generator 30, and supplies 24 framing impulses a second to the generator 26.
- -the projection of the image on the photosensitive surface I4 causes discrete electr'ostatic charges to be stored up over the sm'face, each elemental charge being proportionate to the light intensity at vtheelemental area.
- these charges are neutralized to develop picture signalswhich are supplied by way of a connection 40 to a suitable radio transmitter 42.
- the ray 24 would scan the surface I4 over an area ABCD, as shown in Fig. 2. That is, the scanning pattern would 'cathode' ray tube 46, as represented in Fig. 2a,
- the vertical lines of the reproduced image being so inclined to each other that the entire image has a generally keystone configuration.
- a 'I'hat is, with reference to Fig. 2,*the angular amplitude of horizontal deflection ofthe ray 24 is decreased uniformly as it scans the upper half of the scanned area, and is increased uniformly as the ray scans the lower half of the scanned area;
- I utilize the operating action, in the horizontal'defiection system 30, whereby the amplitude of the ray deflection can be increased or decreased by changing the grid bias of-the usual discharge tube 48, or by changingy the charging potential applied'across the usual condenser 50 which produces'the initial saw-tooth wave.
- the condenser 50 is continuously charged, linearly, from a. high 'potential supply 52 through a high resistance 54.
- the condenser 50 has'stored a denite charge, it is discharged by the tube 48.
- the low-frequency saw-tooth current wave developed by the generator ⁇ 25 produces a corresponding variation of voltage drop across theresistance 58. Therefore, by providing a connection 80 as shown,'between the resistance 58 and the control grid of the discharge tube 48 of the horizontal deflection system 30, the grid bias of the discharge tube is made to vary along a sawtooth path at the framing frequency of 24 cycles.
- 'I'he polarity is such that the amplitude of horizontal deflection is decreased as the ray 24 scans the upper half of the scanned area, and is in, creased as the ray scans the lower half of this area. In this way, the ray is caused to scan the screen I4 over the rectangular area EFGH, the
- this is done byimpressing the low-frequency voltage wave. developed by the generator 26, on the control grid of the discharge tube 48 in the high-frequency'generator 80.'
- a suitable amplifier tube 64 operates to amplify the voltage wave across the resistor 58, and the amplified wave is applied, by a connection 66, to an intermediatel point on the resistance 54.
- a cathode ray tube including means for generating a beam of electrons, a screen structure positioned in said tube at an acute angle to the axis of said beam generating means, and means acting on the beam for so deflecting said beam that it scans said screen over an area having boundaries which enclose a rectangle.
- the method of scanning an inclined screen by acathode ray which comprises producing a vrelatively vlow frequency saw-tooth wave, producing a relatively high frequency saw-tooth wave, defiecting the cathode ray in one "direction across the screen under the control of said low frequency wave and simultaneously deflecting the Inv such case, the grid bias of the discathode ray in a direction substantially at right angles to said one direction under the control of both said high frequency waves and said low 35 frequency waves, over a rectangular area the control of said high frequency waves predominating over the control of said low frequency waves in said last mentioned'direction.
- the method of operating a television system'including a cathode ray tube having an electron gun and a light-sensitive screen positioned at an acute angle to the axis of said gun, and including a saw-tooth wave generator comprising a condenser and a source of charging voltage therefor for producing a relatively high frequency sawtooth wave which method comprises producing a relatively low frequency saw-tooth wave, deiiecting the cathode ray in one direction under the control of said low frequency wave and simultaneously deiiecting the cathode ray in another direction mainly u'nder the control of said-high frequency wave, and varying saidfcharging voltage in accordance with the instantaneous amplitude of said low frequency wave.
- a cathode ray'tube provided with screen lstructure and means for developing a ray of electrons and directing the vsame at one side of said structure, the axis of whereby the ray scans the surface of said n structure over a substantially rectanguia area.
- a cathode ray ,tube provided with screen structure andwith means for developing aA ray of electrons and directing the same at said structure, the axis of saidraydeveloping means being inclined atan acute angle to said structure,means for causing the ray to' scan said structure comprising a generator of a toV 'n so y 9,040,818 relatively low-frequency electrical wave and a generator of a relatively high-frequency electrical wave, an electron tube provided with a control grid and forming part of said second-named generator, and means for applying the low-frequency wave to said grid.
- a cathode ray tube provided with screen structure and with means for developing a ray of electrons and directing the same at said structure, the axis of said raydeveloping means being inclined at an acute angle to said structure, means for causing the ray to scan saidstructure comprising a generator of a relatively low-frequency electrical wave and a generator of a relatively high-frequency electrical wave, a condenser and a source of charging voltage therefor forming wrt ofV said second-named generator, and connecting means between said generators for causing the charging voltage to vary in accordance with the low-frequency wave.
- the method of operating a cathode ray tube which comprises developing a ray of electrons and directing the ray at a screen along an axis at an acute angle to the screen surface, applying a rela tively low-frequency wave to deecting elements to deect the ray in one direction, applying a relatively high-frequency wave to deecting elements to ⁇ deflect the ray in a direction at right angles to the mst-named direction; and applying the low-frequency wave to the second-named elements in such manner that the ray is caused to scan a keystone area in 'aplane' perpendicular to said axis.
- the method of operating a cathode ray device which comprises generating and directing a cathode stream at an inclined screen, generating a low-frequency impulse to cause the stream to scan the screen in one direction, generating a highfrequency impulse to cause the stream to scan the screen at right angles to the first direction, and controlling the high-frequency impulse by the low-frequency impulse to cause the stream to trace a rectangular path on the screen.
- a cathode ray tube deiiecting circuit comprising a tube. means for producing a saw-tooth 'wave occurring at a relatively low frequency.' a condenser, means for charging and discharging said condenser at a relatively high frequency t'o produce a saw-tooth wave occurring at said high frequency, and means for varying said discharge in accordance with the instantaneous amplitude of said low frequency saw-tooth wave.
- a cathode ray tube 'deflecting circuit comprising a tube, means for producing a saw-tooth wave occurring at a relatively low frequency, a condenser, means for charging ⁇ and discharging said condenser at a relatively high frequency to produce a saw-tooth wave occurring at said high frequency, and means for varying said charge in accordance with the instantaneous amplitude of said low frequency saw-tooth wave.
- the method of scanning a screen positioned at an acute angle to the axis of an electron gun which includes the steps of projecting an electron beam from said gun againstl said screen, so del fleeting said beam that it scans said screen inl a series of parallel paths of scanning, and varyingl rthe velocity of each scanning traversal in proportion to the distance of the elemental section of the screen scanned from said electron gun.
- the method of scanning a 'screen positioned at an acute angle to the vaxis of an electron gun which includes the steps of projecting an electron beam from said gun against said screen, deflecting said beam a comparativelylarge number of times per second in a plane at right angles to the plane of said acute angle, deiiecting said beam a comparatively small number of times per second in the plane of said acute angle whereby said beam scans ⁇ said screen, and varying the .velocity of each scanning traversal in said rst plane in proportion to the distance of the elemental section of the screen scanned from said electron gun.
Landscapes
- Transforming Electric Information Into Light Information (AREA)
- Details Of Television Scanning (AREA)
Description
. May 12, 1936. e.. N. oGLoBLlNsKY 2,040,813
' TEIJEVISION SYSTEM f Filed ksept. V:50, 1932 Figi ( [NVE/W05:
Gregofrgjlglablz'rwly,
Patented May 12, 1936 UNITED STATESI PATENT. OFFICE TELEVISION SYSTEM Gregory N. Ogloblinsky, Collingswood, N. J., as-
signor to Radio Corporation of America, New York, N. Y., a corporation of Delaware Application September 30.1932, Serial N0. 635,534
12 Claims.
which is scanned by a cathode ray, it has been arrangement, the outline of the area scanned by the ray has a keystone shape rather than the desired rectangular shape. 'I'his distortion of the scanned pattern is manifested by a substantial and corresponding distortion of the reproduced image at the receiving station, the reproduced image being also the shape of a keystone, with the vertical lines inclined downwardly toward each other.
With the foregoing in mind, it is one of the objects of my invention to provide animproved television system of the character referred to wherein the keystone distortion is corrected.
Other objects and advantages will hereinafter appear.
In accordance with my invention, the cathode ray at the transmitting station is deflected in such manner as to tend to spread out the scanned pattern in a keystone effect opposite to the keystone pattern which would otherwise be scanned, the effect being to substantially entirely compensate or correct for the latter, so that the scanned pattern is rectangular in shape. 1
More particularly, in accordance with my invention, the cathode ray at the transmitting station is deected in diiferent directions to scan repeatedly a 'given area of the photosensitive screen, the amplitude of deection in one of the directions being' substantially uniformly varied during each scanning period to correct for the keystone distortion which would otherwise occur. My invention resides in the improved method of operation and system of the character hereinafter described and. claimed.`
. For the purpose of illustrating my invention, an embodiment thereof is shown in the drawing,
wherein Figure l is a diagrammatic view of a television transmitting system embodying my invention;
Figs. 2 and 2a are diagrammatic views illustrative of the principle of operation; and
Figs. 3 and 4 are simpliiied diagrammatic views showing modifications of the system in Fig. l.
In Fig. 1, a transmitting tube III- is provided with an electrode I2, having the usual photosensitive surface I4 comprised of a great number of minute metallic elements, such as silver globules,
each insulated from the electrode I2 and from each other, and each provided with a coating of photosensitive material. In operation, an image of the object, shown as being in the form of a moving picture filmi 6, is projected upon the photosensitive surface by a suitable optical system I'I, the axis I6 of the optical system being perpendicular to the surface or screen I4.
A gun 2 0 of any suitable construction operates to develop and direct a ray 24 of electrons at the photosensitive surface I4, the axis 22 of the gun being disposed at an acute angle, for example to the photosensitive surface Iii.
For the purpose of causing the ray 24 to scan I the surface I4, a saw-tooth current wave, at a frequency of 24 cycles, is developed by a ,suitable generator 26 and is caused to flow through deecting coils 28. Also, for this purpose, a sawtooth current wave, at a frequency of 4320 cycles, is developed by a'suitable generator 30, and is caused to ow through deflecting coils 32. The coils 28 deflect the ray vertically, and the coils 32 deflect the ray horizontally. -'Ihe ray 24, therefore, is caused .to scan the surface I4 twenty-four l ,times a second, each scanning being along horizontal lines.
4The 'reference numeral 34 designates any suitable system for developing the usual synchronizing impulses which aresupplied to the generator 30 by a connection 36, and the usual framing impulses which are supplied to the generator 26 by a connection 38. The system 34 supplies 4320 synchronizing impulses a second to the generator 30, and supplies 24 framing impulses a second to the generator 26.
In operation, -the projection of the image on the photosensitive surface I4 causes discrete electr'ostatic charges to be stored up over the sm'face, each elemental charge being proportionate to the light intensity at vtheelemental area. As the ray 24 scans the surface I4, these charges are neutralized to develop picture signalswhich are supplied by way of a connection 40 to a suitable radio transmitter 42.
In the system just described, the ray 24 would scan the surface I4 over an area ABCD, as shown in Fig. 2. That is, the scanning pattern would 'cathode' ray tube 46, as represented in Fig. 2a,
the vertical lines of the reproduced image being so inclined to each other that the entire image has a generally keystone configuration.
For the purpose of compensating or correcting for the keystone distortion referred to, I propose to modify or vary the amplitude of the horizontal deflection during each scanning period in such a way as to cause the ray 24 to scan a rectangular area such as EFGH in Fig. 2.A 'I'hat is, with reference to Fig. 2,*the angular amplitude of horizontal deflection ofthe ray 24 is decreased uniformly as it scans the upper half of the scanned area, and is increased uniformly as the ray scans the lower half of the scanned area;
the amount and rate of such decrease and increase of ray deflection being sufficient to compensate for'the keystone distortion which would otherwise take place. For such purpose, I utilize the operating action, in the horizontal'defiection system 30, whereby the amplitude of the ray deflection can be increased or decreased by changing the grid bias of-the usual discharge tube 48, or by changingy the charging potential applied'across the usual condenser 50 which produces'the initial saw-tooth wave.
In the system illustrated, the condenser 50 is continuously charged, linearly, from a. high 'potential supply 52 through a high resistance 54. When lthe condenser 50 has'stored a denite charge, it is discharged by the tube 48. A .saw-
' tooth wave is thereby developed in the plate circuit of the tube 48, which wave is amplified by a' suitable tube 56 and supplied to the coils 32.
The low-frequency saw-tooth current wave developed by the generator`25 produces a corresponding variation of voltage drop across theresistance 58. Therefore, by providing a connection 80 as shown,'between the resistance 58 and the control grid of the discharge tube 48 of the horizontal deflection system 30, the grid bias of the discharge tube is made to vary along a sawtooth path at the framing frequency of 24 cycles.
'I'he polarity is such that the amplitude of horizontal deflection is decreased as the ray 24 scans the upper half of the scanned area, and is in, creased as the ray scans the lower half of this area. In this way, the ray is caused to scan the screen I4 over the rectangular area EFGH, the
extent o'f variation of the grid bias of the tube 48 being just sufficient to correct for the keystone distortion which would otherwise occur.
From the foregoing, it will be seen that in my improved system, I correct for the keystone distortion by utilizing a' control action on the horizontal deflection system 80 from the low-frequency vertical deflection system 25.
In the particular embodiment of my invention disclosed in Fig. 1, this is done byimpressing the low-frequency voltage wave. developed by the generator 26, on the control grid of the discharge tube 48 in the high-frequency'generator 80.'
Instead of making the direct connection 88 to the control grid of the tube,V 48, as in Fig. 1`, an'
wave developed by the generator 28. For this purpose, a suitable amplifier tube 64 operates to amplify the voltage wave across the resistor 58, and the amplified wave is applied, by a connection 66, to an intermediatel point on the resistance 54.
If required, in some systems, the methods for keystone correction in Figs. 1 and 4 may be used together. 4 charge tube 48 and the charging potential applied across the condenser 50 are both varied in accordance with the low-frequency saw-tooth wave developed by the generator 28.
It will be understood that other modifications are possible Without 'departing from the spirit of my invention or the scope of the claims.
I claim as my invention:
4 l. In combination. a cathode ray tube including means for generating a beam of electrons, a screen structure positioned in said tube at an acute angle to the axis of said beam generating means, and means acting on the beam for so deflecting said beam that it scans said screen over an area having boundaries which enclose a rectangle. v
2. The method of scanning an inclined screen by acathode ray which comprises producing a vrelatively vlow frequency saw-tooth wave, producing a relatively high frequency saw-tooth wave, defiecting the cathode ray in one "direction across the screen under the control of said low frequency wave and simultaneously deflecting the Inv such case, the grid bias of the discathode ray in a direction substantially at right angles to said one direction under the control of both said high frequency waves and said low 35 frequency waves, over a rectangular area the control of said high frequency waves predominating over the control of said low frequency waves in said last mentioned'direction.
3. The method of operating a television system'including a cathode ray tube having an electron gun and a light-sensitive screen positioned at an acute angle to the axis of said gun, and including a saw-tooth wave generator comprising a condenser and a source of charging voltage therefor for producing a relatively high frequency sawtooth wave, which method comprises producing a relatively low frequency saw-tooth wave, deiiecting the cathode ray in one direction under the control of said low frequency wave and simultaneously deiiecting the cathode ray in another direction mainly u'nder the control of said-high frequency wave, and varying saidfcharging voltage in accordance with the instantaneous amplitude of said low frequency wave.
4. In a television system, a cathode ray'tube provided with screen lstructure and means for developing a ray of electrons and directing the vsame at one side of said structure, the axis of whereby the ray scans the surface of said n structure over a substantially rectanguia area.
5. In a television system, a cathode ray ,tube provided with screen structure andwith means for developing aA ray of electrons and directing the same at said structure, the axis of saidraydeveloping means being inclined atan acute angle to said structure,means for causing the ray to' scan said structure comprising a generator of a toV 'n so y 9,040,818 relatively low-frequency electrical wave and a generator of a relatively high-frequency electrical wave, an electron tube provided with a control grid and forming part of said second-named generator, and means for applying the low-frequency wave to said grid. l
Y6. In a television system, a cathode ray tube provided with screen structure and with means for developing a ray of electrons and directing the same at said structure, the axis of said raydeveloping means being inclined at an acute angle to said structure, means for causing the ray to scan saidstructure comprising a generator of a relatively low-frequency electrical wave and a generator of a relatively high-frequency electrical wave, a condenser and a source of charging voltage therefor forming wrt ofV said second-named generator, and connecting means between said generators for causing the charging voltage to vary in accordance with the low-frequency wave.
'7. The method of operating a cathode ray tube which comprises developing a ray of electrons and directing the ray at a screen along an axis at an acute angle to the screen surface, applying a rela tively low-frequency wave to deecting elements to deect the ray in one direction, applying a relatively high-frequency wave to deecting elements to` deflect the ray in a direction at right angles to the mst-named direction; and applying the low-frequency wave to the second-named elements in such manner that the ray is caused to scan a keystone area in 'aplane' perpendicular to said axis.
8. The method of operating a cathode ray device which comprises generating and directing a cathode stream at an inclined screen, generating a low-frequency impulse to cause the stream to scan the screen in one direction, generating a highfrequency impulse to cause the stream to scan the screen at right angles to the first direction, and controlling the high-frequency impulse by the low-frequency impulse to cause the stream to trace a rectangular path on the screen.
9. A cathode ray tube deiiecting circuit comprising a tube. means for producing a saw-tooth 'wave occurring at a relatively low frequency.' a condenser, means for charging and discharging said condenser at a relatively high frequency t'o produce a saw-tooth wave occurring at said high frequency, and means for varying said discharge in accordance with the instantaneous amplitude of said low frequency saw-tooth wave.`
140. A cathode ray tube 'deflecting circuit comprising a tube, means for producing a saw-tooth wave occurring at a relatively low frequency, a condenser, means for charging `and discharging said condenser at a relatively high frequency to produce a saw-tooth wave occurring at said high frequency, and means for varying said charge in accordance with the instantaneous amplitude of said low frequency saw-tooth wave.
11. The method of scanning a screen positioned at an acute angle to the axis of an electron gun which includes the steps of projecting an electron beam from said gun againstl said screen, so del fleeting said beam that it scans said screen inl a series of parallel paths of scanning, and varyingl rthe velocity of each scanning traversal in proportion to the distance of the elemental section of the screen scanned from said electron gun.
4l2. The method of scanning a 'screen positioned at an acute angle to the vaxis of an electron gun which includes the steps of projecting an electron beam from said gun against said screen, deflecting said beam a comparativelylarge number of times per second in a plane at right angles to the plane of said acute angle, deiiecting said beam a comparatively small number of times per second in the plane of said acute angle whereby said beam scans `said screen, and varying the .velocity of each scanning traversal in said rst plane in proportion to the distance of the elemental section of the screen scanned from said electron gun.
GREGORY N. OGLOBLINBKY.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US635534A US2040813A (en) | 1932-09-30 | 1932-09-30 | Television system |
GB27080/33A GB412813A (en) | 1932-09-30 | 1933-10-02 | Improvements in or relating to television apparatus |
FR762628D FR762628A (en) | 1932-09-30 | 1933-10-20 | TV system |
FR45199D FR45199E (en) | 1932-09-30 | 1934-08-28 | TV system |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US635534A US2040813A (en) | 1932-09-30 | 1932-09-30 | Television system |
FR762628T | 1933-10-20 |
Publications (1)
Publication Number | Publication Date |
---|---|
US2040813A true US2040813A (en) | 1936-05-12 |
Family
ID=24548170
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US635534A Expired - Lifetime US2040813A (en) | 1932-09-30 | 1932-09-30 | Television system |
Country Status (3)
Country | Link |
---|---|
US (1) | US2040813A (en) |
FR (1) | FR762628A (en) |
GB (1) | GB412813A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2524349A (en) * | 1939-11-28 | 1950-10-03 | John H Homrighous | Television system |
US2539007A (en) * | 1943-06-08 | 1951-01-23 | Hartford Nat Bank & Trust Co | Circuit arrangement for generating a voltage varying lineally with the time |
US2738499A (en) * | 1952-06-28 | 1956-03-13 | Ibm | Apparatus for identifying line traces |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB443952A (en) * | 1934-07-04 | 1936-03-04 | Michael Bowman Manifold | Improvements in and relating to electrical circuits for the deflection of cathode ray beams |
DE756012C (en) * | 1935-10-29 | 1953-03-16 | Telefunken Gmbh | Circuit arrangement for generating line saw tooth current curves for a trapezoidal deflection |
DE895917C (en) * | 1937-10-16 | 1953-11-09 | Fernseh Gmbh | Self-oscillating toggle circuit for generating saw tooth flows that generate an image grid that deviates from the rectangular shape |
BE436659A (en) * | 1938-10-16 |
-
1932
- 1932-09-30 US US635534A patent/US2040813A/en not_active Expired - Lifetime
-
1933
- 1933-10-02 GB GB27080/33A patent/GB412813A/en not_active Expired
- 1933-10-20 FR FR762628D patent/FR762628A/en not_active Expired
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2524349A (en) * | 1939-11-28 | 1950-10-03 | John H Homrighous | Television system |
US2539007A (en) * | 1943-06-08 | 1951-01-23 | Hartford Nat Bank & Trust Co | Circuit arrangement for generating a voltage varying lineally with the time |
US2738499A (en) * | 1952-06-28 | 1956-03-13 | Ibm | Apparatus for identifying line traces |
Also Published As
Publication number | Publication date |
---|---|
FR762628A (en) | 1934-04-13 |
GB412813A (en) | 1934-07-05 |
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