DE1270083B - Circuit arrangement for line deflection for a television receiver - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN ^ WwS PATENTAMT

EDITORIAL

Int. CL:

H04n

German class: 21 al -35/20

Number:
File number:
Registration date:
Display day:

P 12 70 083.3-31
September 29, 1965
June 12, 1968

The invention relates to a circuit arrangement for line deflection in a television receiver with a transistor row output stage, which generates the in a transistor oscillator via a driver stage Line pulses are supplied.

In these circuit arrangements, in contrast to a circuit arrangement constructed with tubes a driver stage is required. This driver stage is usually between the transistor line oscillator and the transistor row output stage switched and amplified that taken from the transistor oscillator Performance, as this is insufficient to control the line level. The line end stage can also be constructed as a self-oscillating line output stage.

It is also possible to build line oscillators with transistors that have the appropriate Can deliver control power for a transistor line output stage. For the synchronization of such transistor line oscillators However, if the power that can be drawn from the phase comparison stage is too low, an additional amplifier stage is then required between Phase comparison stage and line oscillator would be required.

Such a line deflection circuit is, for example, in the magazine "Electronics" of August 14, 1959, illustrated and described on pages 60 to 63. This line deflection circuit has in addition to the one already mentioned further disadvantages, namely the load on the line output stage in this line deflection circuit strongly dependent on the brightness and the image content of the video signals, so that strong Effects of the line output stage on the oscillator result. These repercussions affect the Stability and synchronization of the oscillator very strong, so this circuit because of its many disadvantages is practically not to be used.

Furthermore, from British patent specification 972 757 there is a circuit arrangement for image deflection known, which has a combined oscillator-driver stage. This combined oscillator driver stage is with a four-layer diode in which one end electrode is divided into two separate partial electrodes, constructed as an ÄC oscillator. To control a Line output stage, which is also used to generate high voltage, can use this combined oscillator-driver stage however, cannot be used as easily.

In a known circuit arrangement of the first-mentioned type, the transistor line oscillator is as Sine oscillator switched. This line oscillator is controlled by the phase comparison stage via a retuning stage synchronized. The retuning level is

Circuit arrangement for line deflection for a television receiver

Applicant:

Blaupunkt works G. m. B. H.,

3200 Hildesheim, Robert-Bosch-Str. 200

Named as inventor:

Franz Mühlmeyer, 3200 Hildesheim-Drispenstedt

essentially consists of a capacitance-varying diode, which is used in the phase comparison stage obtained control voltage is supplied. The line pulses are sent to the line oscillator via a Transformer removed and fed to the input of a transistor driver stage. The outcome of the The driver stage is also transformer-coupled to the input of the transistor row output stage. However, this known circuit arrangement has some disadvantages. The choice of the working point in the blocking range of the capacitance variation diode determines the steepness of the retuning characteristic of the Line oscillator. The greatest change in capacitance of the diode and thus the greatest steepness of the retuning characteristic for the line oscillator one obtains with a low bias voltage of the diode, while with a large one Biasing the diode results in only a small change in capacitance and thus also a low slope the retuning characteristic results. With a low bias of the capacitance variation diode, the Line oscillator but only generate a low oscillation voltage, so that the diode through the oscillation voltage is not controlled in the passband. However, there is a low oscillation voltage Line pulses with insufficient edge steepness and unusable duty cycle. On the other hand, receives one usable line pulses with steep pulse edges and sufficient duty cycle only with high Oscillation voltage. The great disadvantage of this line deflection circuit is that the conditions for a great steepness of the retuning characteristics on the one hand and for a usable form of the On the other hand, line pulses are directed in opposite directions, but do not adjust themselves independently of one another permit.

809 559/336

3 4

According to the invention, the disadvantages of one end of an oscillating circuit coil 13 and one known circuit arrangement for line deflection pole of a resonant circuit capacitor 14 is connected. thereby avoid that the transistor driver stage as the other end of the resonant circuit coil 13 is applied self-oscillating and by the mass in the transistor row, while the other pole of the resonant circuit oscillator generated line pulses synchronizable 5 capacitor 14 on the base 16 of a line driver stage is constructed. Oscillator switched npn transistor 15 leads. By this measure, demands can be made that the emitter 17 of the transistor 15 is connected to a tap hitherto only connected to the line oscillator, the point 18 of the oscillating circuit coil 13, between the line oscillator and the tran- ses, while between the collector 19 of the transistor driver stage split up. This results in the io sistor 15 and its base 16 a resistor 20 a possibility the transistor oscillator with respect to which is switched. The collector 19 is also over The steepness of the retuning characteristic is optimally made up of a resistor 22 and a resistor 23 while the self-oscillating driver stage is connected to a positive operating voltage terminal 31 with respect to the shape of the line pulses and their den. From the connection point of the resistors Duty cycle can be designed optimally. A 15 22 and 23 leads a coupling capacitor 24 to the Another advantage of the row base 26 according to the invention of a pnp transistor 25. This transistor deflection circuit is that the coupling 25 is a self-oscillating driver stage for the the self-oscillating driver stage is connected to the Tran line output stage 8. Via a primary winding transistor oscillator The collector is connected via a simple coupling condenser 28 of a transformer 30 sator is possible and no longer a transformer ao 27 of this transistor 25 to ground, while a is needed. The inventive line deflection resistor 29 between the collector 27 and the circuit also enables the power supply to the base 26 of the transistor 25 is switched on. One entire television receiver from the row first secondary winding 31 of the transformer 30 output transformer, only used as a feedback coil for the self-oscillating The self-oscillating driver stage is supplied by 35 driver stages. She has one end to the mass, a standard power source is required. while its other end has a capacitor With reference to the drawing, the invention is connected in more detail 32 to the base 26 of the transistor 25. explained. It shows the emitter 33 of the transistor 25 is at a F i g. 1 is a block diagram, terminal 34, which shows the positive operating voltage for F i g. FIG. 2 provides an embodiment of the invention in FIG. 30 the self-oscillating driver stage. A second a circuit extract of a television receiving secondary winding 35 of the transformer 30 couples device and the line pulses for controlling the line output stage 8 F i g. 3 the generated in the line deflection circuit. The transformer 30 is thus at the same time as Line pulses. Driver transformer 7 and for feedback for

The block diagram in Fig. 1 shows the known 35 ^which uses the self-oscillating driver stage. Structure of a line deflection circuit of a television The line oscillator 4 oscillates as a sine wave oscillator receiving device. In the line deflection circuit, the line synchronizing pulses 1 of the phase transistor 15 are constructed in a three-point circuit with the npn trand in an emitter circuit. The fed via the equalization stage 2, which compares the synchronous feedback path to the base 16 of the transistor impulses 1 with the line impulses that are taken from the oscillating line output stage 8 and shown in FIG controls the transistor 15 via the obedungsweg 9 of the phase comparison stage 2 fed ren characteristic curve kink in the saturation range, so that are. A sinusoidal voltage arises at the collector 19. The pulses for phase comparison can also be limited from their negative part. If the driver were to be a different stage of the line deflection circuit, e.g. B. 45 stage can not be removed from a driver transformer as self-oscillating as according to the invention. low driver stage, but only as a pure amplifier. The driver stage 6 would then only stage 3, which readjusts the line oscillator 4 emit 50 positive pulses 41, the upper pulse and thus the frequency deviation corrects. The line pulses generated in the line pulse base 44 of the modulation period 45 are the input speaking over wide 42 of the limitation period 43 and its one transformer (see FIG. 3, b). The steepness of the pulse flank is fed to a driver stage 6, which controls the line ends of the pulses 41 from the steepness of stage 8. The output of the driver stage 6 is determined to be 55 sinusoidal voltage in the modulation range 45, for this purpose with the input of the line stage 8. An increase in the edge steepness could only be connected via a driver transformer 7. an increase in the amplitude of the sinusoidal voltage 40 taken from the line oscillator in FIG. The circuit extract 60 of the characteristic for the retuning characteristic includes retuning stage 3, which is line ringed.

oscillator 4, the driver stage 6 and the driver trans- If, according to the invention, the driver stage 6 is self-

formator7 of the block diagram from FIG. 1. The oscillating driver stage is switched, in particular as

Retuning stage 3 consists of a capacitance blocking oscillator, and through which the line oscillator 4

Variation diode 10, the anode of which is connected to ground 65 synchronizes extracted sinusoidal voltage 40, see above

while its cathode is on the one hand, the demands that would otherwise be made by the line oscillator

Resistor 11 with the phase comparison stage 2 and tor 4 alone had to meet on the driver stage 6 and

on the other hand distributed to the line oscillator 4 via a coupling capacitor 12. The line oscillator

tor takes on the requirement for frequency constancy and the requirement for the characteristic of the retuning characteristic. The pulse shaping is performed by the self-oscillating driver stage 6. The line pulses 46 generated in the self-oscillating driver stage 6 are shown in FIG. 3, c shown. The small negative pulse peaks 47 in the pulse return are caused by a blocking oscillator property, but their influence is insignificant. Your pulse duty factor and the pulse width 48 can be changed in a known manner by appropriate dimensioning of the blocking oscillator driver stage.

Claims (4)

Patent claims: 1. Circuit arrangement for line deflection in a television receiver with a transistor line output stage, which is generated in a transistor oscillator via a transistor driver stage Line pulses are supplied, characterized in that the transistor driver stage as self-oscillating line pulses generated by the transistor line oscillator synchronizable driver stage is built. 2. Circuit arrangement according to claim 1, characterized in that the self-oscillating The transistor driver stage is constructed as a blocking oscillator. 3. Circuit arrangement according to claim 1 or 2, characterized in that the input the self-oscillating transistor driver stage capacitively to the output of the transistor oscillator is coupled. 4. Circuit arrangement according to claim 2 or 3, characterized in that the transformer (30) of the blocking oscillator has a second secondary winding (35) for removing the line pulses for controlling the line output stage. Considered publications:
British Patent No. 972,757;
Electronics, August 1959, pp. 60 to 63. 1 sheet of drawings 809 559/336 5.68 © Bundesdruckelei Berlin