DE1512354A1 - Protection circuit for the high voltage level in a television receiver - Google Patents

Description

Protection circuit e @@ tAn r. The invention is based on a gohotss & altur Ar: the still tension in a forebearer is one of the steering mare do deflecting the sound of an electron gun gungne system in a vieäergaberöbre dispersed electron beam in alignment on the screen with the help of a first Transformer and a booster capacitor , the first Transformer signals to control the additional voltage level E; ibt, which consists of a control loop and a two- ten Trans ormat:) r is built up with a booster capacitor, its secondary winding with a high pulse voltage, via a diode of the terminal anode in the display tube a high Equals = annun; gives away. In projection television receivers it is known to testify to the distraction of relatively large noises snannun ,,, s power to use your own transformer. For TV color receivers with the same performance problem is this one Frinzip also applicable. To misbehave; of an unambiguous hang between the outer focus and the high voltage for the Wila However, measures must then be taken . in the German council report ZJr. .l 26741 YIIIa, 21a1 becomes the Invention - described in which a control circuit is the high voltage depending on the i '.; l: regulates the output voltage. For television receivers with control loops * nblenc and high voltage levels can be used at in the sailing circuit of the high voltage stage very high voltages at the Ehd- anole in c: he player, they occur. By then in (! Er r.iedergaberöhre fberschläge arising from the final anode to the rest of the ;; can be filed by the;: iedere; but badly damaged will. The very high values of the overvoltages can, however also the iernsehziiachauer dangers. The invention is particularly important for color television receive with a high voltage and a distraction level, at the -Lbersc: lead one to:, elaaaen maximum high voltage value, an extremely safe and reliable shutdown of the high voltage level, and the protection circuit after the L`rfinaung shows Jazu the 1 # : Erkmal that the _: ociap ^ nniingaatufe emits a signal from the -i # röase of the noise, that of a first electrode (control electrode) of a child d estens ßrc; Switching elements provided with electrodes sugef Mw t, where, when a limit value is exceeded, the voltage is between the control electrode and a second Llektroäe a time- duration of the duration of the control signal independent, conductive bond between the second and a third electrode stands, whereby the control grid of a drill hole in the '@ switching average a negative voltage in the high voltage level Locking the interrupter is fed. The invention is based on the knowledge that the The protective circuit must also and especially remain in effect, if the protection circuit atrsgetobalt the @oehsgsatute Has. The Sahutseehaltuna Asch contributes to the invention Exceeding the permitted omni-voltage value by the control signal and then remains independent of the path case of the control signal with the help of eilgar 8pa mi # n g between the second and third electrode of the switching element Ir operation. The control grid of the interrupter in the Noohspannuagsetute host by doing this, always maintain sufficient negative tension, wodureb the switchgear remains in a non-conductive state. The result A protective circuit according to the invention is a durehsus stiver- Läsaiger and safer hat of the television receiver before too much i charehn ;. Examples of the invention are shown in the drawing depicted and Werder. in:: olE, -enden described in more detail. Show it riLur 1 a first example of the protective 4 tune in one, FerasehearfänFer, Figure 2 shows a second embodiment of the same. In Figure 1, a tit is shown on sobenatisahe Deflection stage 1 with a first transformer 2 and an expensive xondensatcr 3 of a television receiver geaeicänet., Other nenente in the It blenkstufe 1, such as switching means, supply source, etc. are included in the means 4 thought. A not shown to Deflection coil arranged at the point of the Widiiergaberrohr to deflect of the 1: lextron beam in line direction, can be in a got * way be magnetically coupled to transformer 2. At the second därwicklunE, - 5 of the first transformer 2 are in the RQck- Running time of the saw-shaped diversion trom in the licking mare 1 Generated pulses to control the Mohapaanungsstufe. These impulses the grid 6 of the triode 7 suge fiNr t. The anode of the triode T runs through the resistor 8 at the positive Kleeure + Y one Source of supply 1t, the vetee, not shown, with its negative tive clamp is at the cash register. From the anode of the Triede 7th is now about a friction holding a Xoppelkondensators 9 and one,: iderstuidee 1 "the control grid 11 the S" altpentode 12 a more or less foot-tooth-shaped control system results. L: ittels - this control voltage is used in a known way of the Boosterkcnaensators 13, the Boasterdiode 14 and the second Transformer 15 in the second class 1E has a high impulse Circumferential tension included. The size of this clamping has a role to play of the size of the anode interrupted by the stop pentode 12 stroaies off. tTber the diode 17 gives the high impulafglear tion of the end anode, not shown in Figure 1, of the reproduction tube a high DC voltage VDT. Rin control loop with a Triode 1lw determines the size of the high pulse-shaped voltage and thus the value of the direct voltage VEHT. This is the Anode of the '.ri; rde 1c: with a secondary winding 19 of the second Transformer 15, while Guter read about the tap function of one in series with the parallel connection of a capacitor 21 and a resistor 22 switched. Potentiometer 2r one Part of the voltage supplied by the booster capacitor 13, kccmt. The potentiometer 2C has a barrel on one side. bound and the other side loves on the low voltage side the Wicklunti 1 . The cathode of the triode 12 is via a resistor stood 23 with the other side of the Sekuadärvioklun , - '19 connected, this connection point via the resistor 24 at the connection connection point of the capacitor 19 and the resistor 1c. lies. This means that the cathode of the I`riode 1b is connected to the resistor 25 in race and over resistance 26. in positive tension leading terminal of booster capacitor 3 of deflection stage 1. The re £; elkreie of the high voltage stage, its effect detailed in the German patent application no. x 28741 oI7rs, 21a1 works in principle as follows. A term occurring for any reason "eserun8 VERT is a Vergrösserunj the Boosterspa nn clothes on Capacitor 13. The potentiometer 2r is then used of; Control grid of the triode 18 has a larger positive voltage supplied, making it more conductive. At the resistor 23 this will lead to a greater decrease in temperature , eo that the voltage at the connection point of the winding 1 ^ and the Vider- Standes 23 becomes more negative. greed the resistors 24 and 1st: will this neg, tivere voltage to the control grid 11 of the Sehaltpentode 12 supplied. This more nebulous pres .t am.ing, which lenlc level 1 delivered, more or less self-toothed tax s-annung is superimposed leads to a lower value of the van the switching node 12 interrupted the anode current. sack that the amplitude of the knodenstrcms with the ßr "nose of the Impulse in which Äicklunü 16 i, W_oppel is, emerges, then the Value of the @ 'leichspannun3 VERT decreases. The control loop exercises as D. a regulating effect that stabilizes the high tension YIMT. A reduction in the TERT is also prevented. 3ehwankunjen in the supply voltage + V, whereby the VDT also changes, are changed in the same way as above written, excised. The influence of jet flow fluctuations in the Vieder- gaberöhre is easy to parallel with the help of you of the capacitor 21 and the resistance 22 from the Begel circuit - equalized. The low voltage gas side of the winding 16 is namely via the parallel connection of the elements 21 and 22 in series with the booater capacitor 13 and the one connected to the negative terminal Erleten "3 - eisequelle V, weoheelstroasgssig connect with earth. ätstrahletrorn changes are thereby at the resistor 22, which much is smaller than the resistance 2 @ =, result in a voltage change. When the jet stream increases, the VERT decreases .ien the internal resistance of the high-voltage generator decreases, then Arg resistor 22 becomes a due to the yXsseren voltage drop smaller part of the booster voltage on the grid of the triode 1 $ step. ib erdies has the voltage on capacitor 13 through the su- `enoamenen jet stream (it is wet more Hochapanoungleietuag Zelie- be prepared) yourself. Aue one Ar- gun entation like the one above, it can be seen that the tion of the control grid 11 of the switching pectode 12 less negative so that the values of Boostergpam = g and TERT increase. In this way, the internal resistance is stand of the high insulation generator awse g liohen. To maintain a clear cohesion switohen - the values of the focussing interval delivered by the Able d kstule 1 voltage and the T .. supplied by the HoohepawmmapsUfe a part of the booster spammog at the tonde nea tor 3 in the Ableoketufe 1 about the video end 26 ndi 25 de! gathode of the triode 1 $ lssp- fUärt. If ndmliab the loosterspeaemaf: on the capacitor 3 t, as a result, the focusing pattern ta dm is replaced by d111 Control loop of the gvehspaststufe exrah be = or tree-like PrOpor- tional to it the regulated TMw wnebner. The in this way beoahriebebe Ableek level 1 to Rooh- voltage level with the rules of Crete, Wooh closes the next-_ imminent danger . Hei Irgaätiaer disturbance in $ egelkries, where- by. the negative Vorapaanuag far supplied in this Reß ° elkreis 'the switching speed 12 was omitted , the value of the Qleiohspt- voltage YLZT become impermissibly high. overturn the very high one : loichspannung YLET leading E'-aaode in the üiedergabero "listen to remaining parts in it can be yeitgMeran r; drive During the high voltage transformer 15 also destroyed a can be. The protective circuit according to the invention prevents towards a very reliable and extremely safe aeise high cohesion voltage value. For the protective circuit according to the invention, in rigur 1 the abhün on the size of Nochsnannun-, 61 ge Steuerei r-nal partially wise taken from the booster voltage of the Iioohespannungestufe. There the voltage at the booster capacitor 13 with the beam current fluctuations ;; en puts it in context, this tension is not immediate .la a, & - '. ass can be used for, the Heeh: #running . En is namely wishes that the control signal almost solely depends on the value of the Hcoh- Voltage VERT is determined. flat a measure of the invention such a control signal can thereby be obtained, then between the positive xleme + V of the 8peiaequelle # and the Itie- the winding 16 ders_annungeseite a Potentioneter arranged 3 (.- is, whose tension swischin the änsapilug and a Uhde as Control signal fair a switching element 31 is used. This control signal is therefore almost independent of jet flow fluctuations that an enlargement (reduction) of the trahietrome, with over the control loop an enlargement (reduction in size) of the Boo4tsr- voltage, a capacitor 13 occurs, compared to the Viederapae- the opening side of the 'dicklang 16 through the enlarged (scaled-down' Voltage drop in the Farallelsohaltung the capacitor 21 and of resistance 22 is robbed backwards, which is flowed through by Channel. enlarged (reduced) jet stream is caused. The total voltage at the series connection of the booster capacitor 13, and the parallel connection of elements 21 and 22 is almost too independent of the Strahlstormsohranlcmgea. As a result of that ! the control signal the voltage between the tapping of the potential tiometer 3 ( and the positive terminal + V of the supply source V is chosen, the influence of the mains voltage fluctuations balanced. The preserved on these wines, almost only from Nochspan value-dependent, control signal between, one end and the zapf @ u ;; of the potentiometer 3 :: we «the cathode and the control electrode of a control gas tube 31 mt. The anode of the control gas pipe 31 can be connected to the positive terminal of a separate sliding voltage source or to a positive voltage line can be connected in deflection level 1. In the execution shape according to Figure 1 is . limit resistor 32 to the positive voltage carrying terminal of the booster capacitor 3 connected. The: wipe the anode and cathode arranged resistor 33 serves as anode panel assembly Limiting resistance in the non-sinful state of the gas pipe 31. To nah a wet pickup of the invention a negative Spsanutg am Control grid 11 of the Sohaltpentode 12 au is received this over a license-dependent resistance.34 to the correctly a large negative voltage grid ; the Triode 7 connected. The value of resistor 34 in non- illuminated state is very high. When the gas tube 31, the resistor 34 assigned to it is removed from the gas tube 31 are illuminated, whereby its resistance value decreases significantly reduced. The mode of operation of the Sohutzsohaltung according to the invention is now easy to hook in. At the nominal value of the high voltage value is the Ga4röhre 31 in the non-ignited state, so that the light dependent resistor 34 is very large, and the negative voltage of the Gitter3 @ ') exerts no influence on the grid. 11 The penetration voltage between the control electrode and the cathode of the control gas tube 31 corresponds to the setting of the otentiometer 1 '. the permitted maximum value of the voltage VEHT. Thus, when this value is reached the high voltage V with addresses the Gaarfhre 31, according to which a conductive connection between the anode and cathode is formed by ionization in the gas. The luminous gas tube 31 thereby radiates the light-dependent resistor 34, the resistance value of which decreases rapidly , so that a greater part of the negative voltage from the grid 5 is impressed on the control grid 11 of the signal pentode 12 . The äehaltF.entode 12 is blocked as a result and will no longer conduct so that the high voltage VDT and thus also the control signal are no longer available. Due to the voltage at the cathode and anode of 31, which is smaller than the Zand voltage but greater than the extinction voltage of the gas tube 31, the gas tube 31 remains in operation. Only when the television receiver is switched off, the voltage on the gas tube 31 will also be removed.

It turns out that the gas tube 31 fall when removing the deflection stage 1 without the entnosme the deflection can not burn posi- tive voltage. However, it should be clear 'ass this is also not necessary, since the hoohspannungvstufe rin of, Ablonl: level 1 is controlled, the Hoohspanmnrgsstufe -dun not work without this control. The foregoing is true in the same way, this fairly negative voltage source. When the tri- Ode 7 does not work, - the fentode 12 will not work either. Both voltage sources are thus after a lassnaiune of the E r- finding in a very reliable way. In Figure 2 with a second embodiment of the protective circuit naoli the iefind us are the already shown in figure 1 reversed elements designated grit corresponding reference numerals. To maintain a control signal that is almost only available from the GrR-ase depends on the high voltage Y MT, is one with c "er dioklung 1-: e'cornelte k'ioklunj 4. " uses hordes. The high pulse rate increases ßpamAUag in the Wiskltutg 16 induces in the winding 4_` a pulse-shaped proportional to it those with a diode 41 and a capacitor 42 is gleiohgeriohtet. #from this rectified « Bigal is connected to the resistor via an integrator rtaM 43 and dar toMensatot 44 received the tax aipml. as Switching element is tu this kusfüärundsform a # iersohicht- transistor body a tlyristor 43, del. From pnpn layristor 45 is the p # Sehioht w end of the fraaaiators (cathode) to a negative frame »g # which in this example also corresponds to the grid 6 from the triode 'j is connected. That occurs between this p-9ohioht (cathode) and the Näohsted u-3ohioht (Control electrode). The n- layer on the other side of the thyris tors 45 (anode) is both via a current limitation resistor 46 in series with a gas pipe 47th connected to earth, as well via a resistor 48 to the control grid 11 of the holding pen- death # 12 laid. Um = die Boohspsammg # ,. her hem The liquid value exceeds that of the Spamnungasert swisoheu the cathode md of the control electrode of the thyristor 45 arises, in which this breaks through between the anode and the cathode, then a conductive connection is created between the mentioned Cathode and the anode, and the negative voltage becomes the anode imprinted. This negative voltage reaches the resistor 4ü on the control grid 11 of the pentode 12. As above wrote, the high voltage VDT will thereby be omitted, whereby also the taxation £ time disappears. Since the switching element, in diener ^ case the T'ayristor 45, independent. vom : discontinuation that cli-teuersi-nals must still be in charge, the im danz. the anode follow the 'i'hyrintora 45 via the high voltage stage Earth be small enough. Z :: r preservation-a greater certainty, that the thyristor 45 "is conductive according to vgr , the resistance Stand 4r and 'O iie gas pipe 47 is arranged. The negative voltage on the anode the mihzeitors 45 namely brings the gas tube 41 to '' Response, so that the current limit is zungswideratundes 46 and the -i asrb'hre 47 a sufficiently low-, -impedance compound according to l.:asae en stähdi & functioning of the Thyristor3 45 is obtained. The rectification and integration of the impulsive Spanmmg in the winding 4 ('takes place with the Zweolc that short 3 voltage signals in the V @ i T not to connect the protective circuit bring to speak. Such a short power surge could caused by a single flash in the picture tube will. If one does not apply rectification and integration, ntuaa. one has a hb'hereii limit value for the maximum Hootispsne = g Choose VLHT . . The gas pipe 47 in r'igur 2,: .B. designed as a neon tube, can be used as an indicator for the Pemehmohauer turn around then the high voltage TM has failed! like this: the scaffold will be turned off bosom. En should make sense that the do for the circuit four inventions used negative voltage source for others as well Purposes, such as brightness adjustment, can be used. Should this @Auelle fail for any reason, eo the de- users by the common appearance gwrisser x. # scneimingen on easy way to be alerted to these failures. It should be obvious that in the $ 30 old M after iib ° ur 1 a luminous thytistor just as well as a control gas pipe 'is used in the circuit in league 2! came.

Claims (1)

PATFNTAtiSFROME t 1. Protection circuit for the in a rern vision receiver with a distraction to distract from one Electron beam generation system in a display tube generated electron beam in the line direction on the screen with the help of a first 4'transformatora and a Boosterkendensa- gates, with the first transformer signals to control the high- voltage level emits, which consists of switching means, a control circuit and # eitec second ^ ranoformwtor with a: 3ooster capacitor builds_istrt its 3econdxrvioklun with a high impulse rate Spa mo sg, tbir one diode of the end anode in the again one emits high levels of anti-pollution; characterized in that the Nooh Level of spam depending on the size of the Hocharannttarcs Sisal abaibtg dss a first alektrode (Steueieldctrode) one m4! at least three electrodes provided so holding elements. f l Rrt viidt rolsi bi exceeding a limit of the tension nung swisoblo the expensive electrode and a second letting electrode iron in a period of time independent of the duration of the tax credit, connection between the second and a third electrode arises, whereby the ste4erlitter aohaltröärt in the Switching means in the high voltage stage a negative SPUMlag.QUIR Locking the interrupter is supplied. 2. Sohutzeinaltung according to claim 1, characterized g * ennxsiahnet, that the swisohen of the first or control electrode and. the two th electrode suaefÜhrte voltage one end and the Ansapfuna one between the negative voltage leading rlemt des looste r - capacitor in the Roohspannun, uatufe and the viederapaan MW - be that zei .-: undärwic =: lun, Z of the transformer in the high voltage level orderly rotentiometer . 3. Sohutzsohalt: uig according to claim 1, thereby gekenxueioiuwt, that the between the first or control electrode and the two- The voltage supplied to the electrode is a voltage supplied with the high voltage. Fernden Sel`undgrxicl_luug the transfer rate. # rs in the drilling voltage etufe ge: - double Wiaklun- is taken. 4. Protection circuit according to claim 3, characterized jekennaeiohnetg that between the first and the second electrA of the Sohalt-- element4s and the winding coupled to the high voltage Rectifier # anä an inter-ration set is arranged. 5. Protection circuit according to claim 2, 3 or 4, characterized g W cem- it is without the fact that the switching element, whose electrode is in conflict with a positive-voltage leading flame is lost, while 4 connection between the second and the third EXkb * IM that radiates on a between a negatiwe-Spanaueo M- renden Kleene and the! Control grid of the interrupter in the in the middle of the lidttabbänglptM arranged in the Iioohspannuagsstule Resistance shines. A hat keeping according to claim 5, characterized in that then the third electrode with the positirräpammmg iMremglu Terminal of the Boieterlcondeneators is connected in the deflector. 'j. pulse circuit according to claim 2, 3 or 4, characterized It is shown that the second electrode of the holding element with the mentioned negative -, 3panm: ag! Uhrenden ICleme vubnmdlw and the third electrode sm control grid of Se "Zi_ the switching means in the voltage stage read !. Sc: .tzach @ l tun` naca ".inapruch i,: adurch daa3 Iie c ', ritto-electrode of the Schaltelerassntes over a resistor stood in line with a gas rc: zre an :: a380 is located. ;. Sohutzeinaltung according to claim 1, 5 .der 7, wherein 31e of signals supplied to the deflection stage to control the high-voltage stage fed to the control grid of a tube verc: en, daduroh ': indicates that the aforementioned negative voltage for blocking 3 Scl.altr ;; hre in the switching means in the IIoohspaanungsatufe # dbm control grid is taken from the above tube. 1st Sc: iutzaczaltung according to one of the preceding claims, there- by ever!; indicates that the switching element mentioned as a controllable gas tube or etls thyristor is formed. 11. Ferruso! Ier'.lfiinrer with a Seautz so posture after one of the existing claims.