DE1279216B - Circuit arrangement for a cathode ray tube - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN WJWW ^ PATENT OFFICE

EDITORIAL

Int. Cl .:

HOIj

German class: 21g -13/40

Number:
File number:
Registration date:
Display day:

P 12 79 216.4-33 (N 22178)

October 5, 1962

3rd October 1968

The invention relates to a circuit arrangement for a cathode ray tube with a fluorescent screen and an electron gun is provided, the at least one cathode, one Control electrode, a first anode consisting of two mutually insulated parts and a second Anode.

In known circuit arrangements there is often the disadvantage that the luminescent screen burns in, ζ. B. when switched off. This is particularly the case with circuit arrangements for reproducing Television pictures.

The electrode to which the fluorescent screen of the cathode ray tube is connected and which is mostly off a conductive layer applied to the inside of the piston, generally has a comparatively large capacity in relation to "earth" and therefore a considerable charge because of this Electrode is applied to a very high voltage. After switching off, this can be high voltage persist for a relatively long time.

If, after switching off the circuit arrangement, the voltage of the first anode then quickly falls, the electron beam is mostly only partially suppressed. The still from the glowing Electrons released from the cathode can therefore partly still after the then still strongly positive Fluorescent screen flow and hit it at great speed, creating a burn-in mark arises because the charge on the screen and the electrodes connected to it neutralize only slowly will. On the other hand, if the beam could continue at full strength, the screen could discharge before the deflection voltages have completely disappeared.

According to a known solution has therefore been proposed, the first anode when switching off the Switch off the mains voltage from the supply source at the same time. As the first anode with a relatively large capacitor is connected to the consequences of any flashover from one to To eliminate the high voltage applied electrode, this anode retains its positive voltage relatively long time after switching off, so that the beam can continue unabated until the screen is discharged.

This solution is ineffective if the device is switched off by the plug is pulled out of the socket or that the mains voltage drops out.

It is also from the known documents of the German patent application L 14696 circuit arrangement for a
cathode ray tube

Applicant:

N. V. Philips' Gloeilampenfabrieken,

Eindhoven (Netherlands)

Representative:

Dr.-Ing. H.-D. Zeller, patent attorney,

2000 Hamburg 1, Mönckebergstr. 7th

Named as inventor:

Johannes de Gier, Eindhoven (Netherlands)

Claimed priority:

Netherlands 9 October 1961 (270 069)

Vnic / 21g a cathode ray tube known whose The first anode consists of two parts that are insulated from one another, but electrically connected to the

The wire connected to the anode plates are connected. It is therefore not possible to connect these two anodes to different circuits or the person skilled in the art could not infer this therefrom.

The invention avoids these known disadvantages and deficiencies in a circuit arrangement of the type mentioned in that the two parts of the first anode are supplied with an almost equal potential by circuits with different discharge times, in such a way that when the potential of one of the parts of the first anode becomes lower than that of the other part, the electron beam no longer hits the fluorescent screen.
This makes it possible to connect the individual parts of the anode to different switching elements in the circuit arrangement. So there is initially a much greater usability.
According to the invention, the two parts of the first anode can be designed such that when the part connected to the circuit with the shortest discharge time has received a low voltage, the electron beam is deflected so that it falls outside the fluorescent screen and the second anode discharges. The part connected to the circle with a shorter discharge time can also be designed in such a way that, if this part is

809 619/443

3 4

voltage is, the electron beam is completely suppressed the first anode 6 are used with the circuit 20. ■ -; ...- ■. bound, of which FIGS. 2 and 3 show two embodiments. Furthermore, in a cathode ray tube, the shapes. In this case, the control electrode 5 is suitable for use in a circuit arrangement with the video amplifier 21 and the cathode 3 of the invention; Resistors 22, 23, 24, 25 and the capacitor lying insulated - coaxial cylindrical parts 26, but conversely there can be the control chip, which are also fed to the cathode 3 in the direction of a sharp turn. In this case, in the plane including the axis of the parts, the electrode 5 is separated from each other with the brightness. The second IO control can also be connected.

Electrode of the cathode ray tube, from the cathode As can be seen from Fig. 2, the part 6 α is the

calculated here, consist of a cylinder which is divided in the longitudinal direction in the first anode with a capacitor 27 and is divided into two parts. In addition, and its positive voltage, the second electrode - the cathode ray tube, - voltage divider forming resistors 28, 29 can be calculated from the cathode, essentially led out of one. The part 6 b of the, first anode 6 is connected with borrowed disc-shaped part with an opening, a potentiometer 32, the ends of which the electron beam can pass through and are connected to the resistors 30 and 31, consist of a cylindrical part. May further The potentiometer 32 enables the voltage of a Schaltungsanordnungnach invention entitled so the part 6b exactly equal to that of a member 6 to be formed in that one of the two circles in existing make ao. The electron beam goes in the direction I. The known manner contains a capacitor, while - Because the circuit branch 30, 31, 32 does not only the other circle; consists of resistors contains capacitor, is its. .RC time is very small, and consequently has a shorter discharge time. If the device is switched off, it will also be possible to suppress the electron beam voltage of 6 & - much faster than that of 6 a , but it will preferably drop 25 - whereby 6b - deflects the elecab, so d After it hits the second anode - it causes the electron beam in the direction of II., so that: and it discharges. Because the second. Anode ^ likewise this on the. 7- second anode impinge and Elekmit the electrode is connected to the trodes on the Jnneik 7, 8 and 11 discharges before the deflection M-mounted wall of the piston, this electron will follow the voltage difference between the parts 6a trode, and as a result also the screen, likewise 30 and 6 & has sunk to zero. unload. "Beto""suppressing ~ of the electron beam ■ · - The circuit arrangement can also be simplified remain he blow EleEtfodenTgeladen what ^ are in contact, as shown in Figure 3, where one can be unpleasant -.." ---- "" - ~ _ another embodiment of the first anode

An exemplary embodiment of the invention is illustrated in the figure. Case 6c is shown with the condenser drawing and is described in more detail below using a generator33 and a high resistance 34. It shows the anode part 6 d and the common point of the

1 schematically shows a circuit arrangement formed by the resistors 35 and 36 of the invention, - · '. · "· ■ ■ ^! - voltage divider connected.:

Figs. 2 and 3 in detail two exemplary case, the parts obtained 6c and 6d always a

shape the circuit arrangement. ■ 40 same voltage. - ■

In Fig. 1, 1 denotes a cathode ray tube ^{, -:} After switching off, the voltage of 6d with a fluorescent screen 2 and an electron will drop faster than that of 6c. Since 6 d is provided a gun having from a small through an ER-opening through which the heated cathode 4 Elektronenhitzungskörper 3, a control jet is running, the control action of 6d is so large electrode 5, with the intensity of the Electrons 45 that the beam is completely suppressed. As can already be controlled beam, a first of two was indicated, there is the disadvantage that parts of the anode 6, a second anode 7,8 the electrodes ?, 8 and 11 at high voltage and a focusing electrode 9 consists. The remain, which can be inconvenient when the device parts 7 and 8 of the second anode are opened in the tube, e.g. B. for control, curtailment or electrically connected to each other, and part 8 is 50 repair. The embodiment of the second anode by means of a spring 10 is electrically connected to a conductive one from FIG. 2 is then also preferable. Let it be connected to the inner wall of the tube 1. imagines that the circuit of Fig. 3 and in which the electrodes 7, 8 and 11 have a capacity design of the anode members 6 α and 6 b, as with respect to "earth", which can be used by the capacitor Fig. 2, and vice versa. 12 is indicated schematically. The electrode 11 is 55. The invention is particularly important when it is also in contact with the luminescent screen 2. The tubes without ion trap and especially when the electrode 11 is connected via a resistor 13 to a deflection voltage generated by transistors who-source high voltage 14 (16 kV), whose the voltage of the horizontal deflection circuit is almost immediately after switching off - Sink to zero because no tubes are taken along and those are present at 15 with the synchronous 60 glowing cathode, sierungstrennkreis and further with the positive. To the example explained in more detail. Around the neck of the cathode ray tube, deflection coils 37, denoted by + in the drawing, are attached. tion of the power supply 16 is, for. B. 200 V. The through

The series saving diode circuit 17 of the deflection 65 is the high voltage supplied to the circuit 14 + + + circuit 14 supplies the positive voltage for the 16 kV, and that of the series saving diode circuit Parts of the first anode 6 and the focusing electrode 9 and the circuit electrode 9 via potentiometer 18 or 19. The parts 20 supplied voltage + + is about 800 V.

Claims (2)

5 6 The resistors indicated in the drawing 3. Circuit arrangement according to claim 1, da- and capacitors can, for. B. have the following values characterized in that the with the circle: with shorter discharge time connected part is designed in such a way that if this part is without a resistor 13 1 MG 5 voltage, the electron beam is completely below resistance 18 1.5 ΜΩ is pressed resistor 19 1.5MQ 4 cathode ray tube, which is gfxägpst for a switching resistor 22 47 000 Ω processing arrangement according to claims 1 and 2 resistor »2200Q, characterized in that the resistor 24 J? 55J J? 10 second electrode, counted from the cathode, resistor Z5 ..... Zi juu u from zwd consecutive isolated resistors28,29,30,31 .. per 4.7MQ coaxial cylindrical parts, which in resistor 32 1 MQ in the direction of a make a sharp angle with the contradiction and 34 10 MQ axis of the plane enclosing the part, separated by one resistance 35 36 each 2.7 MQ 15 others. Capacitor 12 1500 pF 5 cathode ray tube suitable for a switching capacitor 26 80 000 pF processing arrangement according to claims 1 and 2 Capacitor 27,33 each 68 00OpF suitable ^ * & dmch marked that the. second electrode, calculated from the cathode, ment claims: ao from one meter in the longitudinal direction into two parts 1. There is a circuit arrangement for a cathode split cylinder. ray tube, which is with a fluorescent screen and 6th cathode ray tube, which is for a Schaleiner Electron gun is provided, the little arrangement according to claims 1 and 3 at least from a cathode, a control electrode, is suitable, characterized in that the a second electrode consisting of two mutually insulated parts 25, calculated from the cathode, existing first anode and a second from a substantially disk-shaped part Anode consists, thereby marked, with an opening through which the electron beam net that the two parts of the first anode can run through, and a cylindrical part beSchaltkreise with different discharge times. an almost equal potential is supplied, 30 7. Circuit arrangement according to Claim 1, 2 in such a way that when the potential of one of the or 3 with two circuits for applying one Parts of the first anode lower than that of the positive potential to the parts of the first the other part, the electron beam is not anode of a cathode ray tube after hits the luminescent screen more. spoke 4, 5 or 6, characterized in that 2. Circuit arrangement according to claim 1, 35 of the one of the two circuits characterized in that the two parts of the one capacitor contains, while the other first anode are designed such that when the circuit consists only of resistors and inder with the circle with the shortest discharge sequence has a shorter discharge time.
time connected part a lower voltage received, the electron beam is deflected 40 Publications considered:
so that it is outside the luminescent screen Deutsche Auslegeschrift L 14696 VHIc / 21g (infects and discharges the second anode. made known on June 28, 1956). 1 sheet of drawings 809 619/443 9.68 © Bundesdruckerei Berlin