SU902317A1 - Television scanning synchronizer - Google Patents

Description

I

The invention relates to television and can be used to stabilize a television image in display devices.

A television scan synchronizer is known that contains an impulse generator, pesyuy, second and third frequency dividers, a counter, first, second, third quarter elements And, therefore, the input of the third frequency divider is the output of horizontal sync pulses, and its output is the output of frame sync pulses 1- .

However, the known synchronizer is not sufficiently high to obtain a stable television image with the accuracy of reference to the frequency of the sequence of sync pulses to the frequency of the power supply network.

The purpose of the invention is to improve the accuracy of matching the frequency of the synchronization pulses to the frequency of the power supply network.

This goal is achieved by the fact that the first in a television sweep synchronizer, comprising a pulse generator.

the second third frequency dividers, the counter, the first, second, third and fourth elements of AND; the input of the third frequency divider is the output of horizontal sync pulses, and its output is the output of vertical sync pulses, a controlled frequency divider that stores the registrar, the driver of setting pulses are entered and a Schmitt trigger, and the power supply signal is fed to the input of a Schmitt trigger, the output of which is connected to the input of the first frequency divider, the output of which is connected to the input of the driver of the installation imputses and to the first the input of the first element is AND the second input is connected to the output of the pulse generator, also connected to the first input of the controlled frequency divider, the output of which is connected to the input of the third frequency divider and the second input of the setting pulse generator, and the controlled input of which is connected to the output of the memory register The inputs of which are connected to the outputs of the second, third and fourth elements I, the first inputs of which are connected to the outputs of the counter, and all the inputs of which are connected to the primary output of the driver the second output of the installation pulse is connected to the installation inputs of the second frequency divider and counter, while the information input of the second frequency divider is connected to the output of the first element I, and the information input of the counter is connected to the output of the second frequency divider. The drawing shows a structural electrical circuit of the proposed device. The television scan synchronizer contains 1 pulse generator, controlled frequency divider 2, frequency 3 divider memory register 4, three AND 5 elements and AND 6 element, frequency divider 7, counter 8, Schmitt trigger 9 frequency divider Yu, shaper 1 of setting pulses. The device works as follows. After supplying the mains voltage to the television scan synchronizer, after a certain time allowed for transients, a dynamic operating mode is established. The dynamic mode of the television sweep synchronizer is characterized by the fact that the output of the trigger 9 produces rectangular pulses with a network frequency of 9 gs of the network from the network) of equal duration of the input signal at the level of the trigger trigger frequency at the output of the frequency divider 1O co. which is equal to Nxfo - 2, where K is the frequency divider of frequency 10, square-wave pulses are produced with a frequency and duration V ZCFcerM uFeern); at the output of the controlled 2-part divider - the output of the horizontal synchronization, the pulses of the horizontal synchronization are produced, followed by a frequency b. ps-sync H and at the output of the splitter 3 frequencies, frame (semi-frame) synchronization pulses are generated, which follow with a frequency IF-sync (L. Sync where FO is the reference frequency of the pulse generator 1; N, W is the binary code present on the control information input divisible frequency divider 2; divider divider frequency division factor 3. The magnitude of the binary error is determined by the number of pulses received in counter 8 from the output of frequency divider 7, during the high potential presence interval on the last bit of frequency divider 10. Since If the high potential at the output of the last spread of the 10 frequency divider is present for (2), then the counter 8 produces an accumulation of the number of pulses up to the value 2 (Rset Usetm) De R ..... - the output frequency divides the 7th frequency equal to c-Osc MT is the reference frequency; division factor of the frequency divider 7; K — frequency divider frequency 10. Low potential O At the output of the last bit, frequency divider 10 stops the flow of pulses from generator 1 to the input of frequency divider 7 and in the counter 8 there is a binary code N which reflects treason the frequency of the mains. A differential from 0 to the output of the last digit of the frequency divider 1O sets the trigger of the former 11 set impulses Reset and Write to the state that is reset after passing the horizontal sync pulse received from the output of the controlled splitter 2 frequency. Pulse Recording of the generator 11 setting pulses Reset and Record transfers the binary number of NVIH from the outputs of counter 8 to the storage register 4. Pulse Reset of the generator 11 of installation pulses Reset and Record sets the frequency divider 7 and counter 8 to zero. Further, the process is repeated in stages. The use of the proposed invention will make it possible to obtain a more stable television image due to the accuracy of matching the frequency of the synchronization pulses to the frequency of the power supply network. Compared to the known synchronization of a television sweep, the accuracy of the reference of the frequency of the synchronization of pulses to the frequency of the power supply network cc5stats the next increase in the accuracy of 1 / - 10–5f the accuracy of the reference of the frequency of the sequence of synchronization of pulses to the frequency of the electric supply network in the known device; D is the frequency difference between the power supply network of half-frame sync pulses; F (is the reference frequency of the pulse generator in the proposed device Fo 5 MHz). An increase in the accuracy of matching the frequency of the synchronization pulses to the frequency of the mains supply is made with a slight increase in hardware costs. In addition, the use of the proposed device eliminates the need to pre-tune the device to the frequency and deviation of the power supply network, strict requirements on the stability of the elements of the rifro analog; transducer and extend the frequency range of the generator. The present invention can be applied to information display and editing devices using the principle of television sweep. The invention claims a television scanner synchronizer containing the pulse generator, the first, second and third frequency dividers, the first, second, third and fourth elements AND, the input of the third frequency divider is the output of horizontal sync pulses, and its output is the output of frame sync pulses, characterized in that, with a circuit for improving the accuracy of matching the frequency of the following clock pulses to the frequency of the power supply network, a control frequency divider is inserted, which stores the register, the driver of setting pulses and Schmitt rigger, where the power supply signal is fed to the Schmitt trigger, the output of which is connected to the input of the first frequency divider, which is connected to the input of the setting pulse generator and to the first input of the first And element, the second input of which is connected to the output of the pulse generator, which is also connected to the first input of the controlled frequency divider, the output of which is connected to the input of the third frequency divider and the second input of the phono; w of setting pulses, and the controlled input of which is connected to the output by memorizing second register, the inputs of which are connected to the outputs of the second, third and fourth elements I, the first inputs of which are connected to the outputs of the counter, and the second inputs of which are connected to the first output of the setting pulse generator, and the second output of the generator of setting pulses is connected to the setting inputs of the second frequency divider and counter, while the information input of the second frequency divider is connected to the output of the first element I, and the information input of the counter is connected to the output of the second frequency divider. Sources of information taken into account in the examination 1. USSR author's certificate Mg 6O4185, cl. H O4N 5/06, 1974 (prototype).

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Claims (1)

'' Claims 45 A television reververt synchronizer containing a pulse generator, first, second and third frequency dividers, a counter ^ first, second, third and fourth elements And, wherein the input of the third frequency divider is the output of the horizontal sync pulses, and its output is the output of the frame sync pulses, characterized in that, in order to improve the accuracy of linking the frequency of the synchronization pulses to the frequency of the power supply network, a controlled frequency divider, a memory register, a shaper of installation pulses are introduced in and Schmitt trigger, and the mains signal is fed to the input of the Schmitt trigger, the output of which is connected to the input of the first frequency divider, the output of which is connected to the input of the driver of the installation pulses and to the first input of the first element And, the second input of which is connected to the output of the pulse generator connected also to the first input of the controlled frequency divider, the output of which is connected to the input of the third frequency divider and the second input of the impulse driver, and the controlled input of which is connected to the output a blinking register, the inputs of which are connected to the outputs of the second, third, and fourth AND elements, the first inputs of which are connected to the outputs of the counter, and the second inputs of which are connected to the first output of the setup pulse shaper, the second output of the setup pulse shaper connected to the setup inputs of the second frequency divider and counter, while the information input of the second frequency divider is connected to the output of the first element And, and the information input of the counter is connected to the output of the second frequency divider.