DE2240497A1 - VERTICAL DEFLECTION FOR TELEVISION RECEIVER - Google Patents

Description

TEXAS INSTRUIvIBNTS DEUTSCHLAND GMBH, 805 Freising, Haggertystraße 1

Vertical deflection circuit for television receivers

The invention relates to a vertical deflection circuit for television receivers with a circuit arrangement for generating a sawtooth-shaped control signal and with a low-frequency amplifier to control the deflection coils.

In known vertical deflection circuits of this type, the deflection coils are during the vertical return through the low internal resistance of the low frequency amplifier used. As a result, not the total energy in the resonant circuit formed from the inductance of the deflection coils and their stray capacitance is available, converted into the deflection signal, but that part of this energy is due to the internal resistance of the low frequency amplifier is lost. The available supply voltage is not used used in an optimal way, since the deflection signal does not run through the entire possible voltage swing, but rather as a result the damping only reaches a smaller maximum amplitude.

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The invention is based on the object of creating a vertical deflection circuit of the type specified at the beginning which, when using inexpensive, commercially available components, enables optimal utilization of the available supply voltage.

According to the invention, this object is achieved by a negative feedback branch for feeding back one of the current through the deflection coils proportional signal to the input stage of the low frequency amplifier.

In the vertical deflection circuit designed according to the invention, the return of the causes the current through the Deflection coils proportional signal to the input stage of the low frequency amplifier a strong increase in the amplifier internal resistance. This ensures that the deflection coils during the vertical retrace through the amplifier internal resistance are not vaporized, so that from the inductance of the deflection coils and their stray capacitance oscillating circuit formed during the vertical return can vibrate almost freely. With this circuit there is no energy loss at the amplifier internal resistance, so that the deflection signal can oscillate over the entire range of the available supply voltage. as The maximum amplitude of the deflection signal can thus be reached as the value of the supply voltage. This advantage makes This is particularly noticeable in portable television receivers that only have a battery as a power supply lower output voltage is available.

According to a further development of the invention, the vertical axis Enk circuit constructed in such a way that the input stage of the low frequency amplifier from a differential stage with a

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inverting input terminal and a non-inverting input terminal that the output of the Circuit arrangement for generating the sawtooth-shaped control signal with the non-inverting input terminal is connected, and that the negative feedback branch is connected to the inverting input terminal.

In such a configuration of the vertical circuit according to the invention, a low-frequency amplifier can be used which is manufactured by numerous companies in integrated form and offered at low cost. This contributes to a significant reduction in the price of the vertical deflection circuit according to the invention.

An embodiment of the invention is shown in the drawing. Show in it:

Fig. 1 is a circuit diagram of a vertical deflection circuit according to the invention,

FIG. 2 is a block diagram of the low frequency amplifier used in the circuit of FIG

FIG. 3 is a detailed circuit diagram of the low frequency amplifier used in FIG.

The vertical deflection circuit of FIG. 1 contains an input terminal 1 for applying control pulses Input terminal 1 is connected to the cathode of a diode 2, the anode of which is connected to a non-inverting input 3 of a Low frequency amplifier 4 is connected. The input of the low frequency amplifier 4 is via a series circuit from a fixed resistor 5 and an adjustable resistor 6 to the positive terminal 7 of the supply voltage Ug and a series circuit from the convensers 8 and 9 connected to ground.

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An inverting input 10 of the low-frequency amplifier 4 is connected via a resistor 11 to the positive terminal 7 of the supply voltage U _ß , and it is also connected to a capacitor 12, the other end of which via a fixed resistor 13 and an adjustable resistor 14 to the connection point between the two capacitors 8 and and is connected to ground via a resistor 15.

At the output 16 of the low-frequency amplifier 4, a capacitor 17 is connected, which is connected to two in parallel Deflection coils 18 are connected, the other ends of which are connected to the V / resistance 15 leading to ground are. In parallel with the deflection coils 18, the resistor 19 shown in dashed lines in FIG. 1 can lie.

A blocking capacitor 20 and a neutralization capacitor 21 are also connected to the output 16 of the low-frequency amplifier 4. The other end of the neutralization capacitor 21 is with a terminal 22 of the low frequency amplifier 4 and with a connected to the terminal 23 of the low frequency amplifier 4 further neutralization capacitor 24 connected. Furthermore, the output 16 is the low frequency amplifier 4 through a capacitor 25 with its terminal 26 and through a resistor 27 with the positive one Terminal 7 of the supply voltage Ug connected. connections 28 and 29 of the low frequency amplifier 4 are connected to ground, while a terminal 30 to the positive Terminal 7 of the supply voltage Ug is connected.

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FIG. 2 shows the basic structure of the low-frequency amplifier 4 used in the circuit of FIG 2, the low-frequency amplifier 4 contains an input stage 31 constructed as a differential stage, a driver stage 32 and an output stage 33. The two input terminals of the input stage 31 are the non-inverting ones Input 3 and the inverting input 10 of the low frequency amplifier 4. As can be seen from Fig. 2, a resistor 34 is inserted between the inverting input 10 and the output 16. The resistor 34 causes an internal balancing of the low-frequency amplifier, i.e. ensures that the voltage at the output 16 of the Low frequency amplifier 4 is equal to half the supply voltage in the idle state.

An example of an exact circuit as used for the low frequency amplifier 4 can be used, Fig.3 shows. Such an internally balanced low frequency amplifier is manufactured, for example, by Texas Instruments under the type designation SN 76001 AN in an integrated form and expelled.

In operation, the vertical deflection circuit shown in Fig. 1 behaves as follows:

To control the vertical deflection circuit, a sequence of square-wave pulses with a duration of 400 to 800 us and a repetition frequency equal to the vertical deflection frequency " of the television receiver to be operated is required. The polarity of the square pulses must be such that the The top of the pulse corresponds to the ground potential, while the potential in the pulse pauses is equal to the potential of the positive terminal of the supply voltage. These square-wave pulses can be supplied by any pulse generator will. Such a square pulse passes through the

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Diode 2 to capacitor 8, which is thereby completely discharged. After the rectangular pulse has ended, the capacitor 8 is charged almost linearly to the value of the supply voltage U _R via the high-value resistors 5 and 6. With the next square pulse, the capacitor 8 is then discharged again. The signal at the non-inverting input 3 of the low frequency amplifier thus has the sägezahnför.nigen course that is required for the vertical beam deflection in the picture tube of a television receiver.

The low frequency amplifier 4 is at its output an amplified signal with the course of the at its signal applied to the non-inverting input 3, which reaches the deflection coils 18 via the capacitor 17 and during the charging period of the capacitor 8 the vertical trace and during the discharging period of the Condenser 8 causes the vertical return.

The current flowing through the deflection coils 18 also flows through the resistor 15 to ground. The voltage picked up at the connection point of the Y / resistor 15 with the deflection coils 18, which is applied via the capacitor 12 to the inverting input terminal 10 of the low-frequency amplifier 4, is therefore directly proportional to the current through the deflection coils 18. This feedback to the inverting input 10 of the low-frequency amplifier 4 represents a negative current feedback which greatly increases the internal resistance of the low-frequency amplifier 4. Therefore, the resonant circuit formed by the inductance of the deflection coils and their stray capacitance is hardly attenuated by the high internal resistance of the low-frequency amplifier 4 during the vertical retrace. This has the consequence that the entire resonant circuit energy is used to generate the deflection signal, which is therefore the whole of the during the vertical retrace

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Available voltage swing.

This means that the deflection coils and their stray capacitance are completely free from oscillation formed resonant circuit is prevented, a low-resistance resistor 19 can be connected in parallel to the deflection coils be.

With the help of resistors 5 and 6, the charging voltage at the capacitor 8 and thus the image amplitude can be set. Via the resistors 13 and 14 is a from the output signal of the low frequency amplifier 4 dependent signal to the connection point of the capacitors 8 and 9 returned. With the help of this signal, the sawtooth waveform at input 3 of the low-frequency amplifier 4 are pre-distorted in such a way that the geometrical deviations which are known to exist in television picture tubes be compensated.

To further improve the utilization of the available supply voltage, the addition of the Resistance 11 at. Since the low-frequency amplifier 4, as already mentioned, is normally in the idle state as a result of its internal balancing by the resistor 34 would emit an output voltage which is equal to the half the operating voltage, the full value of the supply voltage could not be used during the deflection will. The one between the positive terminal 7 of the supply voltage and the non-inverting input of the low frequency amplifier 4 inserted resistance removes the internal balancing, so that at the output of the Amplifier the available supply voltage can be optimally used.

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The circuit arrangement consisting of the capacitor 25 and the Y / resistor 27 also helps to improve the utilization of the available supply voltage. This generally called bootstrap circuit arrangement ensures that the transistors in the output stage 33 of the low-frequency amplifier 4 can be fully controlled by the voltage of the respective
upstream transistor of the driver stage 32 is drawn along via the charging voltage of the capacitor 25 in accordance with the modulation of the amplifier output signal.

With the help of the vertical deflection circuit described here, the available supply voltage can therefore optimally used v / earth, so that a good efficiency can be achieved. The one set with the resistor 6 The image amplitude remains constant even when the resistance of the deflection coils changes due to temperature influences.

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Claims (1)

Claims 1. Vertical deflection circuit for television receivers with a Circuit arrangement for generating a sawtooth-shaped control signal and with a low-frequency amplifier for Control of the deflection coils, characterized by a negative feedback branch (15, 12) for feeding back a dem Current through the deflection coils (18) proportional signal to the input stage (31) of the low frequency amplifier (4). 2. Circuit according to claim 1, characterized in that the input stage (31) of the low frequency amplifier (4) from a differential stage with an inverting input terminal (10) and a non-inverting input terminal (3) is that the output of the circuit arrangement is connected to the non-inverting input terminal (3) for generating the sawtooth-shaped control signal, and that the negative feedback branch (15, 12) is connected to the inverting input terminal (10). 3. A circuit according to claim 2, characterized in that the The negative feedback branch contains a capacitor (12) which is connected at one end to the inverting input terminal (10) and is connected at the other end to a resistor (15) through which the current flows through the deflection coils (18). 4. Circuit according to claim 2 or 3, characterized in that that the low-frequency amplifier (4) is constructed in such a way that it has a voltage at its output (16) in the idle state outputs, which is equal to half the supply voltage, and that to lower the quiescent voltage of the low-frequency amplifier (4) between the inverting input terminal (10) and a terminal (7) of the supply voltage source Resistor (11) is inserted, 40980 a / 0736 40. Blank page