US2118865A - Cathode ray tube for television purposes - Google Patents

Cathode ray tube for television purposes Download PDF

Info

Publication number
US2118865A
US2118865A US717308A US71730834A US2118865A US 2118865 A US2118865 A US 2118865A US 717308 A US717308 A US 717308A US 71730834 A US71730834 A US 71730834A US 2118865 A US2118865 A US 2118865A
Authority
US
United States
Prior art keywords
cathode ray
electrode
screen
ray tube
plate
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
US717308A
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 US2118865A publication Critical patent/US2118865A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J29/00Details of cathode-ray tubes or of electron-beam tubes of the types covered by group H01J31/00
    • H01J29/46Arrangements of electrodes and associated parts for generating or controlling the ray or beam, e.g. electron-optical arrangement
    • H01J29/80Arrangements for controlling the ray or beam after passing the main deflection system, e.g. for post-acceleration or post-concentration, for colour switching

Definitions

  • the object of the invention is a Braun tube which is free of these errors, and enables television images to be produced which are equally sharp over the entire surface of the image.
  • a separate concentration field is provided between the final pair of defiecting plates and the image screen.
  • This concentration field may consist of an aux- ⁇ iliary electrode closing ofi the electrode system and a concentration electrode provided on the wall of the tube itself. It is, however, also possible, to replace the wall electrode by a preferably funnel-shaped electrode connected with the system. i
  • the wall or funnel electrode with the anode, and to impart to the auxiliary electrode positive bias in relation to the anode.
  • the auxiliary electrode terminating the system may conveniently be connected with the middle plate of the threepart defiecting system.
  • Fig. 1 shows a cathode ray tube according to the invention wherein the auxiliary electrode consists of a metallic wall coating
  • Fig. 2 shows another embodiment of the cathode ray tube furnished with a funnel-shaped auxiliary electrode.
  • Fig. 1 is the tube having the pairs of deflecting plates 2 and 3, 4 the auxiliary electrode terminating the system, and 5 the wall electrode, which, as shown in Fig. 2, may be replaced by a funnel electrode 5 connected with the system itself.
  • the extreme portion of the wall electrode situated towards the anode is preferably located, according to the invention, approximately on a level with the auxiliary electrode.
  • the wall electrode projects to the extent of approximately 8-12 cm. into the bulb, but in any case is made so short that the same is incapable of exerting any deflecting action on the cathode ray.
  • This electrode may have, for example, a negative bias of -250 volts against the electrode 4, supplied by a source 6.
  • the auxiliary electrode may be connected directly to the anode 1, the electrode 4 then being positively biased with regard to the anode.
  • the tube according to the invention enables for the first time television images to be produced with the use of Braun tubes furnished with deflecting plates, which are equally sharp over their entire surface and do not possess any blurred or indistinct marginal portions or corners.
  • An arrangement comprising a cathode ray tube comprising means to produce a cathode ray of variable intensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of defiecting plates dispcsed between said concentrating means ⁇ and said screen, and further concentrating means mounted between said deflecting'plates and said screen, said further concentralting means including a perforated plateshaped electrode mounted in a cross-section of the 'cathode ray tube between said deflecting plates and said screen, and an auxiliary electrode consisting of a metallic wall coating, said coating beginning substantially in the cross-section of the cathode ray tube in which said plate-shaped electrode is mounted, said coating projecting for at least eight cm. in the direction towards said screen; and means for supplyng between said. wall coating and said plate-shaped electrode a potential diiierence, which, taken from said Wall coating to said plate-shaped electrode, is negative.
  • An arrangement comprsng a cathode ray tube comprising means to produce a cathode ray of variable intensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of defiecting plates disposed between said concentrating means and said screen, and further con- 'centrating means mounted between said de'flecting plates and said screen, said further concentrating means including a perforated plateshaped electrode mounted between said defiecting plates and said screen, a funnel-shaped auxiliary electrode mounted between said plate-shaped electrode and said screen; means for applying between said iunnel-shaped electrode and said plate-shaped electrode a potential difference, which, taken from said funnel-shaped electrode to said plate-shaped electrode, is negative.
  • An arrangement comprising a cathode ray tube comprising means including a cathode and an anode for producing and accelerating a cathode ray of variable intensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of defiecting plates disposed between said concentrating means and said screen, and further concentrating means mounted between said defiecting plates and said screen, said further' concentrating means including a perforate-d plate-shaped electrode arranged between said defiecting plates and said. screen, an auxiliary elec-,
  • trode mounted between said plate-shaped electrode and said screen; means to supply said perforated plate electrode with a positive bias in relation to said anode; and means for directly connecting said auxiliary electrode with said anode.
  • A'cathode ray tube comprising means to produce a cathode ray of variable intensity, means to concentrate said 'cathode ray, a picture receiving screen, two pairs of defiecting plates disposed between said concentrating means and said screen, and further concentrating means mounted betweensaiddeflecting plates and said screen, said further concentrating means including a perforated plate-shaped electrode and an auxiliary electrode to have a potential difierence applied there-between, which, taken from said auxiliary electrode to said plate-shaped electrode, is negative, said plate-shaped electrode being mounted in-a cross-section of the cathode ray tube between said'deflecting plates and said screen, said auxiliary electrode consisting of a metallic wall coating beginning substantially in the cross-secticn of the cathode ray tube in which said plateshaped electrode is mounted, said coating projecting for at least eight cm., in the direction towards said screen.
  • a cathode ray tube comprising means to produce a cathode ray of variable intensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of deflecting plates disposed between said concentrating means and said screen, and further concentrating means mounted between said defiecting plates and said screen, said further concentrating means including a perforated plate-shaped electrode and a funnel-shaped electrode to have a potential difference applied therebetween, which, taken from said funnel-shaped electrode to said plateshaped electrode, is negative, said plate-shaped electrode being mounted between said deflecting plates and said screen, said funnel-shaped auxiliary electrode being mounted between said plateshaped electrode and said screen.
  • a cathode ray tube comprising means including a cathode and an anode ⁇ for producing and for accelerating a cathode ray of variable ntensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of defiecting pIates disposed between said concentrating means and said screen, and further concentrating means 7.
  • a cathode ray tube comprising means to produce a cathode ray, means to concentrate the cathode ray, a picture receiving screen, and
  • cathode ray deflecting means disposed between said concentrating'means and said picture receiving, screen: the combination comprising a concentrating system disposed in the cathode ray tube between said deflecting means and said screen and including a perforated plate-shaped electrode mounted in a cross-section of the cathode raytube between said deflecting means and said screen, and an auxiliary electrode consisting of a metailic wall coating beginning substantially in "the ⁇ cross-section of -the cathode ray tube-in which said -plate-shaped electrode is mounted, saidcoatingprojecting in 'the direction towards said screen, and :means for applying between said wallcoating and said plate-shaped electrode a potential difference which, taken from said wall coating to said plate-shaped electrode, is negative.
  • a cathode ray tube comprisingmeans to produce a cathode ray, means to concentrate the-cathode ray, a picture receiving screengand cathode -ray-defiecting' means disposed' between said concentrating means and said picture receiving screen; the combination comprising a concentrating system disposed -in the cathode ray tube between said -deflecting means and said screen and including a perforated plate-shaped electrode mountedbetween said deflecting means and said screen, and a funnel-shaped auxiliary electrode mounted between said plate-shaped electrodeand saidscreen, and means for applying between said ;funnel-shaped lectrod-e and said plate-shaped ⁇ electrode a potential difierence which, taken from said funnel-shaped electrode, to said plate -shapedelectrode is negative.
  • cathode ray --tube comprising means including a cathode and an--anode for producing and accelerating 'a cathode ray of variable intensity, means to concentrate the cathoderay, apicturereceiving screen, -andcathode ray defiectingmeans-disposed between said concentrating means, and sai-d picture receiving screen: the combinationcomprising a concentrating system dipcsed inthe cathode ⁇ ray tube between said defiecting means andsaidscreen, and including a perforated plate-'shaped electrode mo-unted between said defiecting means and said screen, an auxiliary electrode mounted between said plate-shaped electrode and said screen, means for maintaining said plate-shaped electrode positive relatvely tosaid anode, anda direct equipotential connection between said auxiliary electrode and saidanode.

Description

y K. SCHLESINGER 2,118,865
CATHODE RAY TUBE FOR TELEVISION PURPOSES Filed March 26, 1934 W gm Paten ted May 31, 1938 PATE OFFEC CATHODE RAY TUBE FOR. TELEVISION PURPOSES Kurt Schlesinger, Berlin, Germany Application March 26, 1934, Serial No. '717,308 In Germany March 29, 1933` 9 Clams.
In the case of Braun tubes furnished with deflecting plates as hitherto known there occurs the error that parts of the image are lacking in sharpness. This -partial lack in sharpness is due partly to uncontrollable wall charges and in part to'infiuences which are not yet understood.
The object of the invention is a Braun tube which is free of these errors, and enables television images to be produced which are equally sharp over the entire surface of the image.
According to the invention, a separate concentration field is provided between the final pair of defiecting plates and the image screen.
This concentration field may consist of an aux-` iliary electrode closing ofi the electrode system and a concentration electrode provided on the wall of the tube itself. It is, however, also possible, to replace the wall electrode by a preferably funnel-shaped electrode connected with the system. i
It has been found that a satisfactory concentration efiect is only obtainable if the wall or funnel electrode is made weakly negative in relati on to the auxiliary electrode closing off the system. The difierence in potential necessary for producing' absolutely sharp images is dependent toa very great extent on the onstruction of the tube (length of' the bulb, Operating potential, etc), but maybe adjusted without difiiculty in each individual case.
According to the invention, it is convenient to connect the wall or funnel electrode with the anode, and to impart to the auxiliary electrode positive bias in relation to the anode. x In the case of tubes having three-part deflecting plate systems according to the patent application Serial Number 694915, Patent No. 2,083,204, dated June 8, 1937, the auxiliary electrode terminating the system may conveniently be connected with the middle plate of the threepart defiecting system.
The invention will be more fully understood from the appended drawing, whereof Fig. 1 shows a cathode ray tube according to the invention wherein the auxiliary electrode consists of a metallic wall coating, while Fig. 2 shows another embodiment of the cathode ray tube furnished with a funnel-shaped auxiliary electrode.
In Fig. 1, is the tube having the pairs of deflecting plates 2 and 3, 4 the auxiliary electrode terminating the system, and 5 the wall electrode, which, as shown in Fig. 2, may be replaced by a funnel electrode 5 connected with the system itself. The extreme portion of the wall electrode situated towards the anode is preferably located, according to the invention, approximately on a level with the auxiliary electrode. The wall electrode projects to the extent of approximately 8-12 cm. into the bulb, but in any case is made so short that the same is incapable of exerting any deflecting action on the cathode ray.
This electrode may have, for example, a negative bias of -250 volts against the electrode 4, supplied by a source 6. As shown in Fig. 2, the auxiliary electrode may be connected directly to the anode 1, the electrode 4 then being positively biased with regard to the anode.
The tube according to the invention enables for the first time television images to be produced with the use of Braun tubes furnished with deflecting plates, which are equally sharp over their entire surface and do not possess any blurred or indistinct marginal portions or corners.
I claim:
1. An arrangement comprising a cathode ray tube comprising means to produce a cathode ray of variable intensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of defiecting plates dispcsed between said concentrating means `and said screen, and further concentrating means mounted between said deflecting'plates and said screen, said further concentralting means including a perforated plateshaped electrode mounted in a cross-section of the 'cathode ray tube between said deflecting plates and said screen, and an auxiliary electrode consisting of a metallic wall coating, said coating beginning substantially in the cross-section of the cathode ray tube in which said plate-shaped electrode is mounted, said coating projecting for at least eight cm. in the direction towards said screen; and means for supplyng between said. wall coating and said plate-shaped electrode a potential diiierence, which, taken from said Wall coating to said plate-shaped electrode, is negative.
2. An arrangement comprsng a cathode ray tube comprising means to produce a cathode ray of variable intensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of defiecting plates disposed between said concentrating means and said screen, and further con- 'centrating means mounted between said de'flecting plates and said screen, said further concentrating means including a perforated plateshaped electrode mounted between said defiecting plates and said screen, a funnel-shaped auxiliary electrode mounted between said plate-shaped electrode and said screen; means for applying between said iunnel-shaped electrode and said plate-shaped electrode a potential difference, which, taken from said funnel-shaped electrode to said plate-shaped electrode, is negative.
3. An arrangement comprising a cathode ray tube comprising means including a cathode and an anode for producing and accelerating a cathode ray of variable intensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of defiecting plates disposed between said concentrating means and said screen, and further concentrating means mounted between said defiecting plates and said screen, said further' concentrating means including a perforate-d plate-shaped electrode arranged between said defiecting plates and said. screen, an auxiliary elec-,
trode mounted between said plate-shaped electrode and said screen; means to supply said perforated plate electrode with a positive bias in relation to said anode; and means for directly connecting said auxiliary electrode with said anode.
4:. A'cathode ray tube comprising means to produce a cathode ray of variable intensity, means to concentrate said 'cathode ray, a picture receiving screen, two pairs of defiecting plates disposed between said concentrating means and said screen, and further concentrating means mounted betweensaiddeflecting plates and said screen, said further concentrating means including a perforated plate-shaped electrode and an auxiliary electrode to have a potential difierence applied there-between, which, taken from said auxiliary electrode to said plate-shaped electrode, is negative, said plate-shaped electrode being mounted in-a cross-section of the cathode ray tube between said'deflecting plates and said screen, said auxiliary electrode consisting of a metallic wall coating beginning substantially in the cross-secticn of the cathode ray tube in which said plateshaped electrode is mounted, said coating projecting for at least eight cm., in the direction towards said screen.
5. A cathode ray tube comprising means to produce a cathode ray of variable intensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of deflecting plates disposed between said concentrating means and said screen, and further concentrating means mounted between said defiecting plates and said screen, said further concentrating means including a perforated plate-shaped electrode and a funnel-shaped electrode to have a potential difference applied therebetween, which, taken from said funnel-shaped electrode to said plateshaped electrode, is negative, said plate-shaped electrode being mounted between said deflecting plates and said screen, said funnel-shaped auxiliary electrode being mounted between said plateshaped electrode and said screen.
6. A cathode ray tube comprising means including a cathode and an anode `for producing and for accelerating a cathode ray of variable ntensity, means to concentrate said cathode ray, a picture receiving screen, two pairs of defiecting pIates disposed between said concentrating means and said screen, and further concentrating means 7. For a cathode ray tube comprising means to produce a cathode ray, means to concentrate the cathode ray, a picture receiving screen, and
cathode ray deflecting means disposed between said concentrating'means and said picture receiving, screen: the combination comprising a concentrating system disposed in the cathode ray tube between said deflecting means and said screen and including a perforated plate-shaped electrode mounted in a cross-section of the cathode raytube between said deflecting means and said screen, and an auxiliary electrode consisting of a metailic wall coating beginning substantially in "the `cross-section of -the cathode ray tube-in which said -plate-shaped electrode is mounted, saidcoatingprojecting in 'the direction towards said screen, and :means for applying between said wallcoating and said plate-shaped electrode a potential difference which, taken from said wall coating to said plate-shaped electrode, is negative. y
8. For a cathode ray tube comprisingmeans to produce a cathode ray, means to concentrate the-cathode ray, a picture receiving screengand cathode -ray-defiecting' means disposed' between said concentrating means and said picture receiving screen; the combination comprising a concentrating system disposed -in the cathode ray tube between said -deflecting means and said screen and including a perforated plate-shaped electrode mountedbetween said deflecting means and said screen, and a funnel-shaped auxiliary electrode mounted between said plate-shaped electrodeand saidscreen, and means for applying between said ;funnel-shaped lectrod-e and said plate-shaped `electrode a potential difierence which, taken from said funnel-shaped electrode, to said plate -shapedelectrode is negative.
9. lj'or-a. cathode ray --tube comprising means including a cathode and an--anode for producing and accelerating 'a cathode ray of variable intensity, means to concentrate the cathoderay, apicturereceiving screen, -andcathode ray defiectingmeans-disposed between said concentrating means, and sai-d picture receiving screen: the combinationcomprising a concentrating system dipcsed inthe cathode `ray tube between said defiecting means andsaidscreen, and including a perforated plate-'shaped electrode mo-unted between said defiecting means and said screen, an auxiliary electrode mounted between said plate-shaped electrode and said screen, means for maintaining said plate-shaped electrode positive relatvely tosaid anode, anda direct equipotential connection between said auxiliary electrode and saidanode.
KURT SCI-ILESINGER.
US717308A 1933-03-29 1934-03-26 Cathode ray tube for television purposes Expired - Lifetime US2118865A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE435203X 1933-03-29

Publications (1)

Publication Number Publication Date
US2118865A true US2118865A (en) 1938-05-31

Family

ID=6506740

Family Applications (1)

Application Number Title Priority Date Filing Date
US717308A Expired - Lifetime US2118865A (en) 1933-03-29 1934-03-26 Cathode ray tube for television purposes

Country Status (3)

Country Link
US (1) US2118865A (en)
FR (1) FR770769A (en)
GB (1) GB435203A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2449339A (en) * 1945-11-13 1948-09-14 Rca Corp Cathode-ray tube
US2743391A (en) * 1951-11-02 1956-04-24 Du Mont Allen B Lab Inc Cathode ray tube
US2922073A (en) * 1955-03-22 1960-01-19 Kendon Electronics Inc Color reproduction systems of the cathode ray tube type
US3397341A (en) * 1965-04-20 1968-08-13 Thomson Houston Comp Francaise Biaxial electrostatic deflector

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2449339A (en) * 1945-11-13 1948-09-14 Rca Corp Cathode-ray tube
US2743391A (en) * 1951-11-02 1956-04-24 Du Mont Allen B Lab Inc Cathode ray tube
US2922073A (en) * 1955-03-22 1960-01-19 Kendon Electronics Inc Color reproduction systems of the cathode ray tube type
US3397341A (en) * 1965-04-20 1968-08-13 Thomson Houston Comp Francaise Biaxial electrostatic deflector

Also Published As

Publication number Publication date
GB435203A (en) 1935-09-17
FR770769A (en) 1934-09-20

Similar Documents

Publication Publication Date Title
US2461515A (en) Color television system
GB836712A (en) Improvements in or relating to apparatus for the reproduction of colour television images
US2118865A (en) Cathode ray tube for television purposes
US2230134A (en) Image analyzing tube
GB452650A (en) Improvements in and relating to cathode ray tubes
US2111941A (en) Braun tube for producing television images of large size
US2827592A (en) Post-acceleration cathode ray tube
GB501058A (en) Improvements in or relating to cathode ray tubes
US2131892A (en) Electron discharge device
GB442513A (en) Improvements in or relating to cathode ray tubes
GB787409A (en) Improvements in or relating to cathode-ray tubes for the reproduction of colour television images
US2141415A (en) Multiple cathode-ray tube
GB450973A (en) Improvements in or relating to cathode-ray tubes
US2520244A (en) Television pickup tube
US2172727A (en) Electronic image tube
GB450962A (en) Improvements in and relating to electron discharge tubes
US2075142A (en) Braun tube
GB420667A (en) Improvements in and relating to cathode ray tubes for television purposes
US3681645A (en) Cathode-ray character-display tube
US2114611A (en) Cathode ray apparatus
GB798363A (en) Improvements in or relating to colour-television receivers
US2197899A (en) Television tube
US2914691A (en) Compensation of cathode ray post acceleration field distortion
GB470496A (en) Television tube
GB452012A (en) Improvements in and relating to cathode ray tubes