SU534883A1 - Horizontal sync generator - Google Patents

Description

one

The invention relates to telecommunications. Can be used in facsimile equipment with forced synchronization of horizontal scan generators.

Horizontal sync generator devices are known that provide simultaneous operation of optomechanical scanning devices in receiving and transmitting sets of equipment pi and allowing them to transmit images with minimal geometric distortions when using low-stable master oscillators, for example, when transmitting images via satellite communication channels.

A horizontal sync generator unit whose synchronization signals are transmitted over the communication channel after transmitting each line of the image ij.

Closest to the proposed synchronization device of the horizontal scanning generator, containing a control element whose output is connected to the input of the horizontal scanning generator, a frequency divider, a phase discriminator and a clock selector, the output of which is connected to

the first input of the phase discriminator, the second input of which is connected to the output of the frequency divider CSj.

However, in this device, pulsating control voltages occur at the output of the phase discriminator, leading to fluctuations in the frequency and phase of oscillations of the adjustable horizontal scanning generator and, accordingly, to fluctuations in the instantaneous speed of rotation of the sweep device.

The purpose of the invention is to eliminate fluctuations in the frequency and phase of oscillations of a tunable oscillator.

Claims (2)

To do this, the horizontal synchronization generator device contains a control element, the output of which is connected to the input of the horizontal scanning generator, a frequency divider, a phase discriminator and a clock selector, the output of which is connected to the first input of the phase discriminator, the second input of which is connected to the output of the frequency divider , a second phase discriminator, four amplifier-formers, a single-stage electromotive motor, and a delay delay were introduced; the first input of the second discriminator is connected to the output of the sync pulse selector, the second input through the delay line to the output of the frequency divider, two outputs of the first phase discriminator and two outputs of the second one are connected respectively to the inputs of four shaper amplifiers, the outputs of which are connected to stepper electromotive windings , the shaft of which is associated with the control element. The drawing shows a structural electrical circuit of the device. The synchronization generator of the horizontal scanning generator contains a control element 1, the output of which is connected to the input of the horizontal scanning generator 2, frequency converter 3, phase discriminator 4 and clock selector 5, the output of which is connected to the first input of phase discriminator 4, the second input of which connected to the output of frequency divider 3, as well as the phase discriminator 6, amplifiers formating 7-1O, stepper motor 11 and delay line 12. The first input of the phase bottom of the criminator 6 is connected to the output of the selector clock 5, the second input through the delay line 12 - with the output of frequency divider 3, two outputs of phase discriminator 4 and two outputs of phase discriminator 6 are connected to the inputs of amplifiers-amps i 10 and 7.9, respectively, whose outputs are connected to stepper windings an electric motor 11, the shaft of which is associated with the control element 1. The device operates as follows. The first inputs of the phase discriminators 4.6 receive synchronization pulses allocated by the selector 5, and the second inputs receive pulses of the horizontal sweep generator 2 passed through frequency divider 3, and the second input of the phase discriminator 6 receives the pulses of the generator 2 through the delay line 12, which shifts the pulses of the generator 2 by a quarter of the period. Under the action of the direct and delayed pulses of the generator, a phase shift occurs in the selection zones of the discriminator 6 relative to the selection zones of the discriminator 4. As a result, Driving synchronization pulses through phase discriminators 4b on amplifiers-formers 7-10, the latter produce control signals for the windings of the stepping motor 11. In the synchronism state, the output signals of phase discriminators 4 and 6 act on two adjacent amplifiers -former 7 and 8 or 8 and 9 , or 9 and 1O, or 7 and 1O, and, therefore, for any two adjacent windings of the stepper motor 11, do not cause rotation of its shaft. When the synchronism is disturbed, the selection zones of the phase discriminators 4.6 alternate in a certain sequence, depending on the sign of the mismatch of the frequency of the horizontal scanning pulse pulses and the frequency of the synchronization pulses. Consequently, the control signals produced by the shaping amplifiers alternate. 710, causing the shaft of the stepping motor to rotate in the direction in which the gate, coming from the controlled element 1 to the horizontal scanning generator 2, tunes the frequency of the latter so that the occurrence of a frequency error is eliminated. In this case, the shaft of the stepping motor is rotated one step each time with a relative shift of the synchronization pulses and the horizontal scanning generator pulses 2 by an eighth of the period. When there are interruptions in the arrival of synchronization pulses, the effect on the stepping motor 11 is not present, and the horizontal sweep generator maintains the value of the adjusted frequency for a long time. Thus, the proposed synchronization device of the horizontal scanning generator provides longer maintenance of the in-phase scanning effect during interruptions in the arrival of synchronization pulses, as well as better stability of the synchronization process when operating at low scanning speeds with changes in the temperature mode of operation of the device and fluctuations of source voltages power supply and high accuracy of the in-phase operation of the scanning mechanisms at high sweep rates. In addition, the use of digital methods of transmitting, receiving and processing information in the device, the use of nodes containing elements of discrete technology, including a stepper motor, increases the reliability of the device and, therefore, the accuracy of the scanning mechanisms. The invention of a sync generator of horizontal scanning, containing a control element, the output of which is connected to the input of the horizontal generator, a frequency divider, a phase discriminator and a clock selector, the output of which is connected to the first input of the phase discriminator, the second input is connected to the output of the divider frequencies, so that, in order to eliminate fluctuations in the frequency and oscillation phase of the adjustable oscillator, a second phase discriminator has been introduced into it, four body forces - the former, the stepper motor and the delay line; the first input of the second phase discriminator is connected to the output of the sync pulse selector, the second input through the delay line - with the output of the frequency divider, two outputs of the first phase discriminator and two outputs of the second one are connected respectively to the inputs four driver amplifiers, the outputs of which are connected to the windings of a stepper motor, the shaft of which is connected to a control element. Sources of information taken into account in the examination 1.Patent of France No. 1577121, cl. H 04 N 1/00, 1969. 2. US patent number 3415948, cl. 17869 .5, 1968 (prototype).