DE723324C - Arrangement for obtaining line and line pull pulses, the leading and trailing edges of which have different steepnesses - Google Patents

Description

Arrangement for obtaining of row and Zeilenzugimpulsen having their leading and trailing edges of different steepness in the main patent 720 436 a synchronization method is described for TV programs, in which the derived pulses with variously inclined flanks differentiated pulses substantially through its polarity (direction sense) differ from each other. It is also stated that: the generation of the pulse series, which for example consist of triangular pulses, is expediently carried out on the transmitting side in this way; that rectangular pulses are assumed, which are then reshaped by suitable switching elements.

The invention relates to a special arrangement for generating and Mixing of the two pulse series that are used together to control the carrier wave in the synchronization pauses can be used. The invention is based on the illustrations explained in more detail. Controlled multivibrators of known design provide the rectangular impulses according to Fig. i. The line pulses a are short negative voltage surges, which amount to about i o o / o of the line duration. The image change pulses b are also negative voltage surges with a duration of about 10% of the line duration. If wishes to obtain an interlaced scan with two lines, the Clocking expediently so that the image change pulses each at 1/4 or 3/4 of the line in question.

The line bursts are now fed to the cathode of a two-pole tube, whose anode is grounded via a capacitor and via a resistor to the positive pole one Voltage source is connected. In the anode circle This bipolar tube then gives rise to impulses of the shape shown in Fig.2c, which are the desired Own triangular shape. The slope of the trailing edge of the pulse depends on the time constant of the capacitor in the anode circuit.

The image change or line train pulses are generated from the square-wave pulses obtained according to Fig. i b in that; they are attached to the anode of another two-pole tube supplies, the cathode of which is connected to the negative via a capacitance resistor arrangement Pole of a voltage source is connected. In the exit of this facility arises an impulse of the shape of the curve in Fig. 2 d, and that corresponds to the starting points of the rise the use of the leading edge f of the square pulse and the steep Fall g of the pulse of the end edge lt of the square pulse.

The two-pole tube is expediently used to mix the two pulse series a second anode is given for the image change or line pull pulses, at which these Image change pulses are taken. To get a steep drop is it important that no capacitance is contained in the anode circuit of the double tube; therefore the output of this tube does not match the output of the two-pole tube for the line pulses directly connected, since this circuit must necessarily contain a capacity, but via another two-pole tube that is already used by the line pulse device reshaped triangular pulses received.

Fig.3 shows the complete circuit. A multivibrator is more common Circuit contains two tubes 2 and 2 '. The grid of the tube 2 is attached to the clamp 3 synchronized by pulses from a clock, so that at the output q. the tube 2 square-wave pulses with line frequency as shown in Fig. i a. This pulse train arrives at the cathode 5 of the two-pole tube 6. The anode 7 of this tube stands with a capacitor 8 and the cathode g of a further two-pole tube io in connection and is also connected to a resistor 2.1 at the positive pole 23 one Voltage source, for example a potential. of 25o volts to earth. The capacitor 8 has a value of 300 pF and the resistance 2 ¢ is 2 megohms. the Anode i i of the tube i o is connected to the grid 12 of a tube 13 which serves to amplify the impulses.

Another multivibrator 14 with the tubes 25 and 26 is attached to the Terminal 15 is controlled in time with the picture change or line change and supplies square-wave pulses, as shown in Fig. i b. The output of this multivibrator is over a tube 16 is connected to the anode 17 of a double bipolar tube 18. The tube 16 has the task of influencing the line pulses according to Fig. I a on the multivibrator 1.1 to prevent, so that an impulse independent of the line breaks for the line change takes place. The second anode 19 of the double bipolar tube is with connected to the grid circle of the tube 13. The resistor 27 in the anode circuit of the tube 16 is 500 ohms. The cathode of the double tube 18 is through a resistor 2o of 27o kiloohms is connected to the negative Po12 i of the voltage source of - 30o volts. The cathode of the double bipolar tube is also through a capacitor 22 of 100 pF grounded. The resistance 28 in the anode circuit of the double diode is 0.5 megohms. The pulse mixture is picked up at terminal 29.

Claims (2)

PATENT CLAIMS: i. Arrangement for obtaining the line pulses with a steep leading edge and sloping trailing edge and the line traction pulses with sloping leading edge and steeply running trailing edge according to claim 8 of patent 720436, characterized in that the rectangular line pulses supplied by a multivibrator (i) of the cathode (5) of a two-pole tube (6), the anode (7) of which is grounded via a capacitor (8) and connected to the positive pole (23) of a voltage source via a resistor (24), while the rectangular line train pulses generated by another multivibrator (14). optionally via an amplifier tube (16), the anode (17) of another two-pole tube (18), the cathode of which is connected to the negative pole via a capacitance resistor arrangement (20, 22). (21) is connected to a voltage source. 2. Arrangement according to Claim i, characterized in that for mixing the two pulse series the Lattice circle of an amplifier tube (13) both with a second anode (i 9) of the Two-pole tube (18) for the line train pulses as well as a special two-pole tube (io) is connected to the anode (7) of the two-pole tube (6) for the line pulses.