SU1640833A1 - Tv line output stage - Google Patents

Abstract

The invention relates to a television technique. The purpose of the invention is to reduce power consumption, improve S-shape correction, and make individual adjustments to horizontal scanning in the right and left parts of it. The output stage contains a key transistor (T) 1, a deflecting coil 2, a linearity regulator 3, a transformer 4 and 7 with windings 5, 6 and 8, 9, chokes 10 and 11, adjustable resistors 12 and 13, a capacitor 14 reverse and damping diode Ј,% OO oo

Description

15, The main x-th output stage is the linearity of the deflecting current of the forward stroke of the sweep. The correction of the S-shaped distortion of the linearity of the sweep is achieved using transformers 4 and 7. At the same time, the left side of the line is corrected using the transformer h. parts using a transformer 7. The total change in the deflecting current in coil 2 in the left and right hours

The mx lines have a shape close to the S-shape, which provides correction for the non-linearity of the scan on a flat CRT screen. With the help of resistors 12 and 13, it is possible to make individual adjustment of the S-shaped correction of the deflecting current when replacing a CRT. In order to eliminate the influence of the adjustment of resistors 12 and 13 on the operation of the output stage, chokes 10 and 11 are used. A-ly, 1 Il.

The invention relates to television technology and can be used in information display devices made on the basis of raster electron-beam indicators.

The purpose of the invention is to reduce power consumption and improve S-shape correction, as well as to make individual adjustment of horizontal linearity in the right and left parts of it.

The drawing shows the structural electrical circuit of the proposed television line sweep output stage

The TV line output cascade contains a key transistor 1, a deflecting coil 2, a row linearity regulator 3, a first transformer 4 having a primary winding 5 and a secondary winding 6, a second transformer 7 having a primary winding 8 and a secondary winding 9, first and second chokes 10 and 11, the first 12 and second 13 adjustable resistors, the reverse capacitor 14 and the damper diode 15 "

The output cascade television line scan as follows,

The input rectangular pulses of positive polarity are fed to the base of the key transistor 1 and provide the saturation mode of the key transistor 10 The latter opens and through it the inductance, the deflecting coil 2, flows a forward horizontal sweep. In this case, the damper diode 15 is locked, since the voltage on its anode is negative compared to the voltage on the cathode of the collector currents of the key transistor 1 and the deflecting coil 2

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are almost linearly up to the maximum value. After the input signal is terminated, the key transistor 1 is locked, the current through it is stopped. The key transistor 1 and the damper diode 15 are closed, and in the circuit formed by the inductance of the deflecting coil 2 and the capacitance of the reverse capacitor 14, an oscillatory process starts due to the energy stored in the magnetic field of the coil. In the return period corresponding to half the period of the oscillation of the circuit, the current in the deflecting coil 2 decreases according to the cosine-like law. At the moment of time corresponding to the end of the half period of free oscillations, the voltage between the collector and the emitter of the key transistor 1 becomes negative, the damper diode 15 opens. and shunting the oscillating circuit. The current of the deflecting coil 2 and the damping diode 15 aperiodically decreases to zero. This current in the deflecting coil 2 is opposite in direction to the current through the key transistor 1, its maximum value is equal in amplitude to the maximum collector current of the key transistor 1. At the moment the current passes through the damper diode 15, the energy returns to the power source 0 At the moment when the current through the damper diode 15 becomes zero, a rectangular pulse of positive polarity is applied to the base of the key transistor 1, the key transistor 1 opens and the process repeats

The main characteristic of the television lowercase cascade.

sweep is the linearity of the deflecting current of the forward stroke of the sweep “With the presence of the saturation resistance of the key transistor 1 and the forward dynamic resistance of the damping diode 15, the linearity of the deflecting current of the forward stroke of the horizontal sweep is possible if the inductance in the deflection coil circuit 2 depends on the magnitude of the current flowing through it In this case, the constancy of the voltage on the deflecting coil 2, which means high linearity of the sweep, is due to the inadequacy of the inductance in the deflecting coil circuit The nonlinearity function of the inductance is performed by the linearity regulator of row 3. Its inductance and the voltage across it fall with increasing current through it. The working point of the linearity adjuster row 3 is selected using a permanent magnet about

Correction of the S-shaped distortion of the linearity of the sweep is achieved using the first and second transformers 4 and 7o. The magnetic flux created by the deflecting current flowing through the primary windings 5 and 8 of transformers 4 and 7, respectively, interact in the cores with the magnetic flux created by the bias current flowing through the secondary windings 6 and 9 of the first 4 and second 7 transformers. The magnitude of the bias current is controlled by variable resistors 12 and 13.

The S-shaped correction of the deflecting current is performed as follows.

The left side of the line is corrected using the first transformer 4, the core of the first transformer 4 is saturated with magnetic flux created by the bias current, the inductance of the primary winding 5 of transformer 4 is minimal until the magnetic fluxes generated in the core of the first transformer 4 are primary by the winding 5, through which flows a negative polarity deflecting current (the key transistor 1 is closed, the damping diode 15 is open) and the secondary winding 6 through which the bias current flows. At this moment there is no magnetic flux in the core (the lines of force from the fluxes have opposite directions)

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the first transformer 4 is not saturated and the inductance of the primary winding 5 is greatest. This leads to a decrease in the deflection current of negative polarity, since the inductances of the primary winding 5 of the first transformer 4 and the deflection coil 1 are connected in series.

Similarly, for the right side of the line, the inductance of the primary winding 8 of the second transformer 7 is greatest with equal magnetic fluxes generated in the ferrite core of the second transformer 7 by the secondary winding 9, through which the bias current flows, and the primary winding 8, through which the diverting current of positive polarity flows ( the key transistor 1 is open, the damping diode 15 is closed). This leads to a decrease in the deflecting current of positive polarity, since the primary winding 8 of the second transformer 7 is connected in series with the deflection coil 2

The total change in the deflecting current to the deviation of the gopeck coil 2 in the left and right parts of the row has a shape close to the S-shape}, which provides a correction for the non-linearity of the sweep on the flat screen of the CRT

Using adjustable resistors 12 and 13, it is possible to make an individual adjustment of the S-shape correction of the deflecting current when replacing the electrode-beam tube.

To eliminate the effect of the adjustment of the adjustable resistors 12 and 13 on the operation of the output stage of the television horizontal sweep in alternating current at the horizontal frequency, there are chokes 10 and 11, which have a high resistance at the horizontal frequency.

Tests of this output stage of the television horizontal sweep showed that the nonlinearity coefficient of the horizontal sweep of the indicator can be obtained not more than 3% with the power consumption not exceeding 12 W

F. formula of invention

1. The trick of a cascade of television line scan, the contents of the key transistor, the base of which is the device input, the capacitor

return, damping diode, deflecting coil, line linearity regulator and source of constant

voltage, the negative pole of which is connected to the combined emitter of the transistor and the anode of the damper diode, the combined first output of the reverse capacitor, the first output of the deflection coil JQ and the cathode of the damping diode connected to the collector of the key transistor, the second output of the return capacitor and the second output deflect coil is connected to the first output of the line linearity regulator, characterized in that, in order to reduce power consumption and improve the S-inverse correction, enes first transformer, 2Q which the first terminal of the primary winding to the second terminal soedinen1 regulator linear rows, the second transformer, a first terminal of the primary winding of which is connected to the second 25

the primary windings of the first transformer and the first and second chokes, the first terminals of which are connected to the first terminals of the secondary windings of the corresponding transformer, and the second terminals are combined and connected to the positive pole of the constant voltage source and the second terminal of the primary windings of the second transformer, and the second terminals of the secondary the windings of the first and second transformers are combined and connected to the negative pole of the constant voltage source

2. A cascade of ps 1, characterized in that, in order to implement individual horizontal linearity adjustments in the right and left parts of it, the first and second adjustable resistors are introduced, each of which is connected between the second output of the corresponding droplet and the positive pole of the constant source stress with

Claims (2)

1. The output stage of the horizontal line scan, containing a key transistor, the base of which is the input of the device, a reverse capacitor, a damping diode, a biasing coil, a line linearity regulator and a constant voltage source, the negative pole of which is connected to the combined emitter of the transistor and the damper anode diode moreover, the combined first output of the reverse capacitor, the output of the deflecting coil | θ and the cathode of the damper diode are connected to the collector of the key transistor, the combined second output of the capacitor of the reverse and the second output of the deflecting coil are connected to the first output of the linearity controller 'lines, characterized in that, in order to reduce power consumption and improve S-feedback correction, a first transformer is introduced, 20 of which the first terminal of the primary winding is connected; with the second output of the Linearity controller, the second transformer, the first output of the primary winding of which is connected to the second 25 output of the primary winding of the first transformer, and the first and second inductors, the first conclusions of which are connected to the first conclusions of the secondary winding of the corresponding transformer, and the second conclusions are combined and connected to the positive pole of the DC voltage source and the second terminal of the primary winding of the second transformer, the second terminals of the secondary winding of the first and second transformer in combined and connected to the negative pole of a constant voltage source. 2. Cascade pop "1, characterized in that, in order to individually adjust the linearity of the horizontal scan in its right and left parts, the first and second adjustable resistors are introduced, each of which is connected between the second terminal of the corresponding inductor and the positive pole of the DC voltage source"