SU365856A1 - ALL-UNION I PATENT: ;;; - ;; t - Google Patents

Description

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This invention relates to the field of radio engineering.

A device for dynamically focusing a beam of an electron beam tube (CRT) of a radar station indicator, containing a focusing system, to which a voltage from a resistor included in the horizontal deflection circuit is fed through an amplifier and a correction unit consisting of a phase inverter and nonlinear elements, is known. Such a device has a low degree of focus.

The aim of the invention is to improve the focus across the entire field of a CRT. This is achieved by connecting an additional correction unit to the resistor included in the circuit of the vertical deflection system, similar to the one mentioned. Moreover, transistor approximators are included as nonlinear elements of the correction blocks, each of which contains DC transistor amplifiers connected in parallel to a common load, made according to a circuit with a common collector.

FIG. 1 shows a block diagram of a device for dynamic focusing of a CRT beam; in fig. 2 - schematic diagram of the approximator.

The device contains a focusing system /, an output amplifier 2, an adder 3, approximators 4 and 5, phase sieves 6 and resistors 7 included in a horizontal 8 n vertical 9 circuit of a deflecting CRT system. In the process of operation of the device signals

Those removed from the resistors 7 are fed to the phase inverters 6. If necessary, the signals can be amplified before they are fed to the phase reversals.

From the outputs of the phase inverters, the signals arrive at approximators 4 and 5. The modes of operation of the approximants and phase inverters are chosen so that with positive values of the deflection signal taken from the resistors 7 and the corresponding positive coordinate of the spot relative to the center of the screen,

approximator 4 works, and with negative input deflecting signals, approximator 5 works. This allows to obtain an asymmetrical law of variation of the total signal of approximants along the horizontal and

vertical axis of the electron-beam instrument.

The summation of the signals from the approximators occurs in the adder 3. The total signal is amplified by the amplifier 2 and is fed to

focusing system 1.

A pyroximator contains p parallel connected transistor amplifiers 10 dc, made according to a circuit with a common collector and having a common load 1, which is the input resistance

adder 3. The bases of transistor amplifiers are connected to each other through a chain of resistors 12, one end of which is connected to the emitterio repeater 13 output. A signal from the phase inverter 6 is supplied to the base of the last. The other end of the chain of resistors 12 is connected to the current stabilizer 14.

The approximator works in the following way.

The base of the emitter follower 13 receives a signal from the output of the phase inverter 6. A chain of resistors 12 serves to establish the operating mode of the transistor amplifiers 10, which is chosen so that the signal removed from the emitter repeater opens the transistor amplifiers alternately as it increases. Since the current of the chain of resistors 12 is stabilized by stabilizer 14, the signal at the bases of each transistor amplifier is the same in amplitude.

Since the transistors of the transistor amplifiers open in series as the signal grows, the output voltage taken from the common load 11 has the form of a broken curve, each break of which corresponds to the operation of a certain transistor amplifier. Resistors 5 serve to control the amount of current flowing through the transistor amplifiers and the total load. With the help of these resistors, the slope of the kansdog fracture of the output voltage is regulated over a wide range, and therefore, they can be used to specify any law of the output voltage of the approximator. Since each instantaneous value of the input voltage, which is the signal of the deviation system and which determines the position of five on the screen, corresponds to its output value of the approximator, which is adjustable in each break of the output voltage within wide limits, using variable resistors 15 you can achieve optimal focus at every point on the screen. The number of kinks in the output voltage of the approximator depends only on the number of transistor amplifiers used in the approximator, which determines the accuracy of the law, according to which the optimum focusing voltage varies along the axes of the screen of the electron-beam device, i.e. quality

dynamic focusing.

The subject of the invention is a device for dynamically focusing a beam of an electron beam of a radar station indicator tube containing a focusing system to which a voltage from a resistor included in the circuit of a horizontal deflecting system is connected to the amplifier through a phase inverter and nonlinear elements , in order to improve focusing across the entire field of the cathode-ray tube, an additional corrector is connected to the resistor included in the circuit of the vertical deflection system lections similar to those mentioned, with transistor approximators being included as nonlinear elements of correction blocks, each of which contains n connected in parallel to the total load

transistor amplifiers of direct current, made according to the scheme with a common collector.

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FIG I