CS252576B1 - Imaging unit line scan wiring - Google Patents

Abstract

The connection concerns alphanumeric or graphic display units. The purpose is to regulate the high voltage independently of the length of the line displayed on the screen in the classic connection of a television line driver of the final stage with a parallel transistor-diode connection. The essence lies in connecting a regulated stabilized power supply to the connection so that the required high voltage and line length can be set using it and a choke.

Description

The present invention relates to a line decomposition of a display unit utilizing a conventional TV-line connection of a transistor-diode parallel connection, where high-voltage regulation is solved independently of the length of the line displayed by the screen.

The hitherto known transistor-diode parallel link decomposition connections do not allow independent high-voltage control over the line length on the screen. Since the line length on the screen of the display unit is prescribed, there is no other option than to design the circuit so that due to the variance of the component parameters the high voltage is in the middle of the allowed anode voltage band of the used screen, although with the maximum allowed anode voltage.

The above drawbacks are overcome by providing a line decomposition of the display unit in which the first and second terminals of the second winding of the secondary winding of the high voltage transformer are output terminals and the output voltage of other storage capacity circuits is output terminals according to the invention. the first terminal of the primary winding of the high-voltage transformer is connected to the voltage output of the saw current generator and the voltage pulses of the parallel connection of the transistor and diode, the input of which is the input terminal of the wiring; a first inductance terminal of the winding of the deflection coils.

The second inductance terminal of the line winding of the deflection coils is connected to a common ground terminal. The second terminal of the primary winding of the high-voltage transformer is connected to the cathode of the diode, the anode of which is connected to the first resistance terminal and simultaneously to the first wiring output with monolithic integrated voltage stabilizer. connected to a second resistance terminal, simultaneously to a first resistance trimmer terminal and simultaneously to a resistance trimmer slider, the second resistance trimmer terminal forming a common ground terminal.

The third terminal of the primary winding of the high voltage transformer is connected to the first terminal of the storage capacity, the second terminal of which is connected to the common terminal of the ground connection. The output voltage of the other circuits of the storage capacity is the output supply terminals of the wiring. The first primary winding of the secondary winding of the high voltage transformer is connected to the anode of the high voltage block whose cathode forms the output high voltage wiring terminal, and the second primary winding of the secondary winding of the high voltage transformer is connected to the common wiring terminal. The first and second terminals of the second winding of the secondary winding of the high-voltage transformer form the output terminals of the wiring.

The connection of an adjustable stabilized voltage source to the circuit can be set with this adjustable source and variable inductance to set the line length to the desired line length on the screen and at the same time to set the maximum permitted high voltage! for a screen anode, which makes it possible to achieve a greater sharpness of the display point, that is, a higher screen resolution which is an important quality parameter of the display units.

In the accompanying drawings, examples of the line scan of the display unit and a characteristic plot of dependence are shown, wherein Fig. 1 is a block diagram of the line scan of the display unit according to the invention. An example of a monolithic integrated voltage stabilizer is the MA78 series. Fig. 2 shows the common connection of the saw current generator and the voltage pulses of the parallel connection of the transistor and the diode. Figure 3 is a high voltage vs. voltage graph for the A31-120 W screen at a contact line length of 200 millimeters.

The first terminal 11 of the primary winding of the high voltage transformer 2 is connected to the voltage output 23 of the saw current generator and the voltage pulses of the parallel connection of the transistor and the diode 2, whose input 21 forms the input terminal of the wiring B and whose current output 22 is connected to the first terminal 3, the second terminal of which is connected to the first terminal 41 by the inductance of the winding of the deflection coils.

The second inductance terminal 42 of the line windings of the deflection coils is connected to a common ground terminal.

The second terminal 12 of the primary winding of the high-voltage transformer 8 is connected to the efficiency cathode of diode 6, the anode of which is connected to the first terminal of resistor 6 and simultaneously to the output 52 of monolithic integrated voltage stabilizer. the output 53 is connected to the second terminal of the resistor 6, simultaneously to the first terminal of the resistance trimmer 7 and at the same time to the slider of the resistance trimmer 6, the second terminal of the resistance trimmer 6 forming a common ground terminal.

The third terminal 13 of the primary winding of the high-voltage transformer 9 is connected to the first terminal 91 of the storage capacity 9, the second terminal 92 of which is connected to the common terminal of the earth of the circuit. The power supply outputs 93 of the other storage capacity circuits 9 form an output power terminal U wiring.

The first terminal 14 of the first winding of the secondary winding of the high-voltage transformer 6 is connected to the anode of the high-voltage rectifier block 10, the cathode of which forms the high-voltage output terminal. A UVN wiring for powering the display anode, wherein the second terminal 15 of the first winding of the secondary winding of the high-voltage transformer 6 is connected to a common wiring terminal 6. The first 16 and second 17 outlets of the second winding of the secondary winding of the high-voltage transformer 6 form output wiring terminals that can provide power to the screen electrodes.

A description of the transistor-diode parallel connection function as shown in Fig. 2 is known from the line-scan decomposition of conventional television receivers. When the transistor T of the signal B at the input 21 is just closed, the resonant circuit formed by the capacitance C1 and the inductances,,,, a ^{and the} primary winding of the transformer od is attenuated. This generates a voltage pulse on the collector of transistor T, which is transformed by the transformer 8 to generate a high UVN voltage for the anode of the screen after being rectified by diode 10. At this time, the beam return current flows through the winding of the deflection coils. By the time of this voltage pulse, diode D opens and after its closing the transistor T opens with signal B.

The energy accumulated in the deflection coils 6 and inductors 6, 7 and the primary winding of the transformer 8 is transferred to the storage capacity 6 and back. The beam current flows through the deflection coils. The losses associated with this event are covered by a voltage source which is connected to the UN terminal. A power diode 6 is connected to the center of the winding 12 of the transformer 6 for doubling the voltage on the storage capacity 6.

New in the wiring is a controllable power supply consisting of blocks £, £, £. Increasing the voltage between terminals 52, me increases the amplitude of the voltage pulse on the collector of transistor T, thereby increasing the UVN voltage simultaneously. However, since the amplitude of the jet saw in the deflection coils 6 also increases, it is necessary to correct it by the dimensional choke 6. The overall effect of increasing or decreasing the UVN voltage at the same amplitude of the jigsaw, i.e. the same line length on the screen, is most apparent from the graph in FIG.

The circuitry according to the invention can be used primarily in alphanumeric or graphical display units, where the sharpness of the displayed point is an important functional requirement.

Claims (1)

SUBJECT OF THE INVENTION Line disassembly of the display unit, wherein the first and second terminals of the second winding of the secondary winding of the high-voltage transformer form the output terminals of the wiring and the output voltage of the other storage capacity circuits forms the output terminals of wiring. is connected to the voltage output (23) of the saw generator and voltage pulses of the parallel connection of the transistor and diode (2), whose input (21) forms the input terminal (B) connected and whose current output (22) is connected to the first the second terminal is connected to the first inductance terminal (41) of the winding of the deflection coils (4), the second inductance terminal (42) of the winding of the deflection coils (4) is connected to the common wiring terminal (Z), the second primary winding outlet (12) at The high-voltage transformer (1) is connected to the cathode of the active diode (8), the anode of which is connected to the first output of the resistor (6) and simultaneously to the output (52) of the monolithic integrated voltage stabilizer (5). the terminal (UN) of the circuit and whose output (53) is connected to the second terminal of the resistor (6), simultaneously to the first terminal of the resistance trimmer (7) and simultaneously to the slider of the resistance trimmer (7), the wiring terminal (Z), the third terminal (13) of the primary winding of the high voltage transformer (1) is connected to the first terminal (91) of the storage capacity (9), whose second terminal (92) is connected to the common wiring terminal (Z), the first terminal (14) the first winding of the secondary winding of the high-voltage transformer (1) is connected to the anode of the high-voltage rectifier block (10), the cathode of which forms the output terminal (UVN) of the circuit, a second terminal (15) of the first winding of the secondary winding high voltage transformer (1) is connected to the common terminal (Z) circuit.