SU1053327A1 - Device for deflecting crt ray - Google Patents

Abstract

DEVICE FOR beam deflection cathode ray tube, comprising serially connected pre-amplifier, the output stage, the first and second outputs of which are connected to corresponding vunhtsim inputs deflection coil and the switch voltages, which third and fourth inputs coupled to the tires, respectively low and high voltages , and the first and second outputs are connected respectively to the third and fourth inputs of the deflection coil, characterized in that, in order to improve speed, The comparator and the adder, the output of which is connected to the second input of the preamplifier, the first and second inputs are connected to the corresponding outputs of the first comparator, the third and fourth inputs are connected to the corresponding outputs of the second comparator, which is connected to the second input of the second stage and the second input - with the low voltage bus kn and the second 4 at the first comparator, which is first connected to the first output of the output circuit.

Description

The invention relates to radio engineering and can be used in display devices on electron beam tubes (CRT) with magnetic deflection,. A device for deflecting a CRT beam is known, comprising a series-connected preamplifier, an output stage, a deflection coil, transistor high-voltage switches and a source of high and low voltages. This device connects a high voltage to a deflecting coil. During the transition time of a CRT beam, and provides high voltage without parasitic oscillations at the end of transition process 1. However, in this device the duration of the transient processes is set. laziness 9klO; H katsikh currents far o.t; theoretically minimal, achieved in my own under the linear law of the establishment of deflecting currents. This happens when a part of the current off-stage in the final stage of the HapacTcieT transient process is not linear but exponential law, because it has a low growth rate .. The closest to the invention according to. technical entity; is a beam deflection device, a CRT, containing sequentially | United Preliminary. usiliter, output stage,. deviating katushka,:. switch. Voltage, High Voltage Sources Block, Tsrir Determination Unit: Coordinates and FormirOEa.tel. KRM Tatiuing impulses. - ;;; The known device also makes a high-voltage source connection to a deflection coil for the transition time of a CRT beam. At the same time, the linear law of change is ensured, (establishing) rejecting the .CoV, due to which the duration of the transient process {2. However, in the known device, the achievable reduction in the duration of transients is not large, which is due to the use of an indirect method for determining the duration necessary to end the transition process, in which the latter depends only on the magnitude of the increment along the coordinate. The actual duration of the transient TQ with a linear law for the establishment of a deflecting current is a noticeable effect. has the value of the electromotive force of self-induction (and in self-induction) on the winding of the deflecting coil Ui, which is determined by the value of the high voltage E0 by the voltage of the output stage. Since the output voltage (saturation) depends on the value of the input voltage, and the value of Eg is practically unstable due to the fluctuations, temporal and temperature effects, and the value of T changes accordingly. Considering that a fixed TQ value is set for the incremental deviation of , the flow, at the time of the transient interruption, the diverting current according to the change in l) i. differs from the necessary. This difference is worked out exponentially, which leads to a decrease in the efficiency of the device. So, for example, with a relative change in the value of a high voltage, by 1:%, which is significantly less than the practical requirements for high voltage sources, the duration of the transient process due to the addition of an exponential component is 1.6 TO, and with a change of T . The purpose of the invention is to increase the speed by providing a linear law from the beginning to the end of the transition process of establishing the bias of their currents. Objective Is achieved by the fact that a device for deflecting a CRT beam, co. holding a series-connected preamp, you-. | Cascade, the first and second outputs of which are connected to correspond-. The two inputs of the deflection coil and voltage switch, which are connected to the third and fourth inputs by low and high voltage respectively, and the first and second outputs are connected to the third and fourth inputs of the deflecting coil, and two comparators are introduced and adder, the output of which is connected to the second. in the course of preliminary. the amplifier, the first and second inputs are connected to the respective outputs of the comparator's first Boio, the third and fourth inputs are connected to the corresponding outputs of the second switch / which is connected to the second output of the output stage by the first input, and the second input is connected to the low voltage busbar and the input of the first comparator, which riepBbBvi input is connected to the first output of the output stage. . FIG. 1 is a schematic electrical circuit diagram of a device for deflecting a CRT beam in FIG. 2 diagrams of currents and voltages at different points of the proposed device. A device for deflecting a CRT beam contains a preliminary force; 1, output stage 2, deflection coil 3, voltage switch 4, first 5 and second 6 comparators, paper 7, input voltage bus 8, low 9 and high 10 volts. . The output stage 2, which is a power splitter, contains a transistor Ni 12, the deflecting coil 3 contains windings 13 and 14. The device operates as follows. When the CRT beam is in a stable position, the input voltage of the preamplifier 1 is the input voltage r corresponding to the coordinate location of the beam on the CRT screen. Through transistors 11 and 12 and the windings 13 and 14, the corresponding deflection currents flow. Input Voltages The accumulator 7 are the same and equal to the tire voltage 9.. When a positive step input is applied, the voltage (moment io in Fig. 2a) of the transistor / 11 begins to increase, and the current of transistor 12 decreases. This causes a jump-like occurrence on the windings 13 and 14 of the electromotive forces of self-induction and mutual induction, as a result of which the voltage of the copier of the transistor 11 decreases to the saturation voltage (Fig, 2S) and the collector voltage of transistor 12 ;; increases (fig. 2 &) and increases the voltage of the base corresponding to the key transistor of the switch 4 to the value of the bus voltage 10 at which the key transistor enters. in the saturation mode, fixing the potency of the third input is the deviation of the Kauyyk 3, points A {FIG. 2b). :. The duration of the linear variation of the deflecting current (Fig. 2) is 21 (3o-1s, where CJo is the magnitude of the variation of the deflecting current; Jy is the magnitude of the shunt current. The transient process of establishing currents ends when the difference between the increments of currents differs from the value 20o by the value corresponding to the discreteness of the deviation,; paBHoeZ; io / 2, where n is the width of the binary code of the beam deviation of the CRT;The output voltage of the adder 7 (Fig. 2) and this voltage step changes the current THROUGH through the transistor 12. Due to this, the duration of the transition process of establishing the breaking currents Exiting the saturation of the transistor 11 reduces the voltage of the transistor collector 12, corresponding to a decrease in the output voltage of the adder 7. This shows the increase in the collector voltage of the transistor 12 and the decrease in the AND | behind. the positive feedback is avalanched, as a result of which the voltage on the windings 13 and 14 is set to zero and the comparators 5 and 6 put the adder 7 into the one-way state. Switch 4 is closed and power is supplied to point A from low voltage bus 9: I. . . V At this the transient process of establishing the deflecting TOKOfe ends, the currents that are established later are supported by the input voltage of the device. Thus, the proposed device is characterized theoretically by the minimum transition time of deflecting currents at given device parameters. This is achieved by completely eliminating the exponential component of the transition process and ensuring a linear law of establishing the current deviation from the beginning to the end of the transition process. 1With this completely) oh. The influence of a change in the value of E on (duration of transient processes: SOC) is excluded.

Claims (1)

DEVICE FOR REJECTING THE BEAM OF AN ELECTRON BEAM TUBE, containing a series-connected preamplifier, you-. a cascade, the first and second outputs of which are connected to the corresponding inputs of the bias coil and the voltage commutator, which is connected to the low and high voltage busbars by the third and fourth inputs, and the first and second outputs are connected to the third and fourth inputs of the bias coil, characterized in that, in order to improve performance, two comparators and an adder are introduced into it, the output of which is connected to the second input of the pre-amplifier, the first and second inputs are connected to corresponding to the outputs of the first comparator, the third and fourth inputs are connected to the corresponding outputs of the second comparator, which is connected to the second output of the cascade by the first input and the low voltage bus $ and the second input of the first comparator, which is connected to the first output of the output cascade by the second input. SU t> 1053327!