DE604647C - Device for controlling the beam movement in television cathode ray tubes - Google Patents

Description

The movement of the cathode ray over the picture surface in Braun tubes is usually by means of two alternating voltages generated locally or transmitted by the transmitter suitable waveform, which are fed to two pairs of deflection electrodes. It is also known to return the cathode ray from the end of a line to the beginning of the next through the cathode ray itself with the help of a special, to effect the metal electrode placed in the tube, while the one placed externally AC voltage moves the cathode beam along the lines. This facility is but relatively complicated both to manufacture and to operate. That Tilting device for the deflection along the lines is relatively expensive. The attachment the metal electrode in the tube

ao technical manufacturing difficulties, because everyone because of the degassing of the metal parts additional metal part makes fabrication more difficult, especially when it is not in the vicinity of the remaining electrodes, but, as in the present case, on the edge of the luminous layer is attached in the cathode ray tube.

These disadvantages and difficulties are eliminated by the present invention, which is a particularly simple device for image composition with the Braun tube concerns. According to the invention, the movement of the cathode strable controlled by a photocell in front of the luminescent layer is placed outside the tube at the edge of the picture and the charging of one is parallel causes the capacitor lying to the deflection electrodes, which is via a parallel resistor discharges.

In the figure, an embodiment of the invention is shown schematically in which the movement of the cathode ray in both directions is controlled by photocell arrangements according to the invention, α is the glass bulb of a Braun tube, b its hot cathode, c a concentration cylinder, d the anode. These parts are arranged and connected in the usual way. The deflection electrode pairs e and / are also similar to those commonly used in Braun tubes serving as image composers, g is a resistor, h an adjustable capacitor, both to each other and to. the deflection electrode pairs are parallel.

If the capacitor h is discharged, the cathode ray of the tube is on the left edge of the image field. Before that, a photocell k is attached outside the tube, which becomes conductive when the corresponding part of the luminous layer lights up and charges the capacitor h to the voltage of the current source ζ. Since the capacitor h is parallel to the deflection electrodes e , will

Claims (3)

These are supplied with the same voltage and the cathode ray is suddenly deflected into the right corner of the image field. The resistor g , which is parallel to the capacitor h , now causes a gradual discharge of the capacitor raid, thus reducing the voltage at the electrodes e. As a result, the cathode ray drifts and, accordingly, the luminous point. the luminescent layer ίο gradually from the right edge of the picture to the left. As soon as he has reached the left edge of the picture, the part of the light field in front of which the photocell is located lights up again, so that it charges the capacitor h again to the voltage of the power source / and the beam is returned to the right edge of the picture. So this game repeats itself automatically. By regulating the capacitor h and the resistor g it is possible to set a certain speed of the cathode ray movement in the direction of the lines. The deflection of the beam in the direction perpendicular to the lines takes place in exactly the same way. When the image starts to be built up, the beam is directed to the lower left corner of the image field and creates a glowing spot in front of the second photocell, which is the photocell. makes conductive. As a result, the capacitor tn, which lies parallel to the deflection electrodes /, is charged to the voltage of the current source and the beam is guided from the lower edge of the picture to the upper edge of the picture, where, as described above, the deflection from left to right by the photocell k takes effect will. Parallel to the capacitor tn is the resistor L _1, which causes a gradual discharge of the capacitor m and thereby a gradual sliding down of the light beam in a vertical direction, while during this time the repetitive, faster movement controlled by the photocell k. From right to left the image dissolves into individual lines. As soon as the light beam has arrived at the lower left edge of the picture, i.e. has covered the last line, the photocell ο responds again and lifts the light beam to the top line of the picture. The capacitors tn and h are set so that, for. B. in an ao-line picture, the capacitor h cjomal is discharged during a discharge of the capacitor tn .. PATKNTANSLHiU CIIIi: ι. Device for controlling the beam movement in television cathode ray tubes, characterized in that a photoelectric arranged outside the tube in front of the luminous layer at the edge of the picture When the edge of the picture in front of it lights up, a cell is charged parallel to the deflection electrodes causes lying capacitor, which discharges through a parallel resistor. 2. Device according to claim 1, characterized in that one in front of an edge ■ of the image field arranged perpendicular to the direction of the image lines photoelectric Cell that triggers the voltage to move the beam in the direction of the image lines. 3. Device according to claim 1, characterized in that "one in one The photoelectric cell located at the corner of the image field generates the voltage for beam movement triggers perpendicular to the direction of the image lines. 1 sheet of drawings