SU1001498A2 - Device for compensating for predominance-type distortions in telegraphy signals - Google Patents

Description

The invention relates to communication technology.

According to the main author. St. No. 915274, there is known a device for compensating for distortions of the prevailing type in telegraph signals, containing a threshold device, the information input of which is the first input of the device, and the output is connected to the first input of the comparison unit and to the input of the standby reference pulse generator, the output of which is connected with the second input of the comparison unit, the output of which is connected to the control input of the driver of the control signal, the reset input of which is the second input of the device, and the output is connected to the control input sometimes of a device, a master oscillator and a synchronization unit, the output of which is connected to the synchronizing input of the standby pulse generator, the input of which is connected to the first input of the synchronization unit, the second input of which is connected to the output of the master oscillator and to the clock input of the control signal converter (1) .

However, in the known device lack of noise immunity.

The purpose of the invention is to increase the noise immunity from crushing.

To achieve the goal, a series-connected reference pulse generator and a prohibition block are introduced into the device, the output of the synchronization block being connected to one input of the reference pulse generator, the other input of which is connected to the output of the master gene—. ragor, the output of the comparison unit is connected to the control input of the driver of the control signal through the entered block prohibition.

In FIG. 1 shows a structural electrical diagram of the proposed device; in FIG. 2 - diagrams explaining his work.

The device comprises a synchronization unit 1, a master oscillator 2, a comparison unit 3, a control signal generator 4, a waiting 5 reference pulse generator, a 6 reference pulse generator, a prohibition unit 7, a threshold device 8.

Does the device work with tracking? 5 at a time.

Received message elements through the threshold device 8 (Fig. 2, C, d) are received at the input of the waiting generator 5, the first input of the comparison unit 3 and 10 the first input of the synchronization unit 1. The sequence of high-frequency pulses formed by the master oscillator 2 (Fig. 2, “) is fed to the clock input of the driver 4, the input of the generator 15 6 and the second input of the synchronization unit 1. Synchronization unit 1 generates a clock sequence of pulses (Fig. 2.5), which follow with the transmission frequency of the received message elements, 20 and adjusts the phase of the clock pulses to the phase of the received message elements (ensures their coincidence with the trailing edge of the received message elements, t. e. Block 1 takes into account the non-25 stability of the transmission speed of the received —! message elements and monitors their phase). The clock pulses from the output of block 1 are fed to the synchronizing inputs of the waiting generator 30 and generator 6, controlling their operation. The arrival of pulses at both inputs of the generator 6 reference pulses leads to the formation at its output (Fig. 2 ^ 8) of pulses of duration Tj, the leading edge of which coincides in time with the pulses at the output of block 1 synchronization; The signals from the output of the generator 6 prohibit for a time ΐΓ the passage through the block 7 of the prohibition of signals from the output of the comparison unit 3. The start of the standby generator j5 of reference pulses is carried out ^ only if the clock pulse coincides in time from the output of the synchronization unit 1 with the trailing edge of the received message element. In the event of an in-phase operation of the equipment (for example, due to a malfunction of the transmitter, a short-term loss of power supply voltage to the receiving part of the equipment, a phase jump when using ⁵⁰ switched communication channels or radio channels, etc.) as with reception message elements whose edges are distorted by random noise (random edge distortions, characteristic distortions that coincide with the edges of the received crushing elements, etc.), the start of the waiting generator 5 does not occur, which increases the noise immunity of the device state. In the case of the start of the waiting generator 5 ¹ , a reference pulse is generated at its output (Fig. 2, f), the duration of which is equal to the duration of the elementary transmission 'Cq, determined taking into account the instability of the discrete modulation speed (transmission speed or telegraphy speed) by synchronization unit 1 (TC value it is equal to the pulse repetition period at the output of block 1), and the maximum possible increment of the duration of the elementary package due to the presence of distortions. type predominance. Comparison unit 3 compares the duration of the input signal (Fig. 2, B, g) received at the first input of block 3 with the duration of the signal at the output of the waiting generator 5 and generates a pulse (Fig. 2, x), the duration of which is ± Z where ^Г С is the available change in the duration of the elementary package due to the presence of distortions of the type prevailing. On the. the output of the comparison unit _h 3 in case of damage to the input signal by crushing (Fig. 2, c), in addition to the true correction signal of 1G _M + 's duration (in Fig. 2, its duration is indicated by False correcting signals with a duration equal to the duration of single crushing of the compared ¹ zero premise (in FIG. 2 their durations are denoted by -C,, £ 4.).

The true signal at the output of the comparison unit 3 is formed when comparing the duration of only the elementary zero sending, since otherwise the comparison unit 3 will remain closed at the first input by the zero level of the input signal. In the case of crushing double, triple, etc. zero parcels at the output of block 3 can also be formed of false pulses. This is the case if single crushing hit the first message from the group of zero message elements (in Fig. 2 their durations are denoted by, M).

Thus, in the absence of predominance, the duration of the true signal at the output of the comparison unit 3 is T _m , in the case of current (single) predominance of parcels - more than t _m (equal to 'C _m ΐ), in the case of currentless (zero) predominance - less than T _m ( equal to -T). True and false (due to crunching) signals from the output of block 3 of the comparison are sent to the second input of block 7 of the prohibition, to the first (inhibitory) input of which pulses of duration (Fig. 2,3), the beginning of which coincides in time with pulses at the 5th output, are received block 1 synchronization. Due to the fact that Ф'р “('' k *) <only true correcting impulses arrive ^{at the} input of the shaper 4 of the control signal (Fig. 2, K). Shaper-W shaper 4 converts the duration of the input correction signal (its duration determines the number of pulses from the output of the master oscillator 2, passed to the counting circuit of the shaper 15 '4) to the corresponding output voltage level (Fig. 2, l). The output voltage of the driver 4 of the control signal changes the threshold of the threshold device 8, which results in 20 changing the ratio of the time lengths of the unit and zero elements of the received message at the input of the proposed device (output of the threshold device 8).

Claims (1)

(54) DEVICE FOR COMPENSATION OF TYPE DISTORTIONS PREVENTION IN TELEGRAPH SIGNALS 1 The invention relates to a technique According to the basic author. St. No. 915274 discloses a device for compensating type distortions dominating in telegraph signals, containing a threshold device, whose information input is the first input of the device, and the output is connected to the first input of the comparison unit and to the input of the standby generator of reference pulses, the output of which is connected to the second input of the unit the comparison, the output of which is connected to the control input of the control signal generator, the fault input of which is the second input of the device, and the output is connected to the control input of thresholds The device, the master oscillator and the synchronization unit, the output of which is connected to the synchronization input of the standby generator of reference pulses, the input of which is connected to the first input of the synchronization unit, the second input of which is connected to the output of the master oscillator and the clock signal of the control signal C 1 However, in the known device lack of immunity. The purpose of the invention is to increase the noise immunity from crushing. In order to achieve the goal, a serially connected generator of reference pulses and a prohibition unit are entered into the device, and the output of the synchronization unit is connected to one input of the generator of reference pulses, the other input of which is connected to the output of the master gene. Ratio, the output of the comparison unit is connected to the control input of the control signal generator via the input of the inhibit unit. FIG. 1 shows the structural electrical circuit of the proposed device; in fig. 2 - diagrams explaining his work. The device contains a synchronization unit 1, a master oscillator 2, a comparison unit 3, a control signal generator 4, a standby generator 5 reference pulses, a generator 6 reference pulses, a prohibition block 7, a threshold device 8. The device operates with special obtras. The received message elements through the threshold device 8 (Fig. 2, B, t) are fed to the input generator 5, the first input of the comparison unit 3 and the first input of the synchronization unit 1. Generated by generator 2, a sequence of high-frequency pulses (Fig. 2, o () goes to the clock input of the driver 4, generator input 6 and the second input of the synchronization unit 1. The synchronization unit 1 generates a clock sequence of pulses (Fig. 2.5), following with the transmission frequency of the received message elements, and adjusts the phase of the clock pulses to the phase of the received message elements (ensures that they coincide with the falling edge of the received message elements, i.e. block 1 takes into account the instability the transmission speeds are received by the lei.bix elements of the message and monitors their phase.) The clock pulses from the output of block 1 are fed to the clock inputs of the waiting generator 5 and generator 6, controlling their operation. The receipt of pulses to both inputs of the generator 6 are reference pulses lead to the formation at its output (Fig.) of pulses of duration Tf, the front friunt of which coincides in time with the pulses at the output of synchronization block 1 of C-play from the output of generator 6 prohibit the time T from passing through block 7 of the banned signals from the output and block 3 comparison. The standby generator 5 reference pulses are started only if the clock pulse from the output of synchronization unit 1 coincides with the falling edge of the received message element. In case of violation of the common-mode operation of the equipment (for example, due to transmitter malfunction, short-term power supply failure of the receiving part of the phase jump equipment when using switched communication channels or radio channels, etc.) as well as when receiving message elements, the edges of which are distorted by random noise (random edge distortion, characteristic distortion, coinciding with the edges of the received crushing elements and ct), the start of the idle generator 5 does not occur, which causes noise immunity of the device . In the case of starting the standby generator 5, a reference pulse is formed at its output (Fig. 2, e), the duration of which is equal to the elementary sending CQ determined with regard to the instability of the discrete modulation speed (transmission speed or wiring speed) by synchronization unit 1 (the tfg value is equal to the period of the pulses at the output of the unit 1), and the maximum possible increment of the duration of the elementary parcel T due to the presence of distortions. Comparison unit 3 compares the duration of the input signal (Fig. 2, B,) arriving at the first input of block 3 with the duration of the signal at the output of the waiting generator 5 and generates a pulse (Fig. 2, g), the duration of which is U (v C i where t is the change in the duration of the elementary parcel due to the presence of distortion of the type of predominance.On the output of the comparison unit 3 in the event of a crushing input signal (Fig. 2, b), except for the true correction signal of Tm C duration (in Fig. 2, and its duration is indicated by -to) world Cozy false correction signals with a duration equal to the duration of single crushing of the compared zero parcel (in FIG. 2, their durations are denoted by -fc, t, -t). The true signal at the output of the comparison unit 3 is formed when comparing the duration of an elementary zero parcel only, since Otherwise, the comparison unit 3 will remain closed at the first input by the zero level of the input signal, in the case of splitting double, triple, etc. null parcels at the output of block 3 can also be formed false pulses. This is the case if single crushes hit the first parcel from the group of zero elements of the message (in Fig. 2, their durations are denoted by -63 4). Thus, in the absence of dominances, the duration of the true signal at the output of comparison unit 3 is T ("in the case of current (single) dominance of the parcels - Tc more, (equal to Cm +). In the case of current (zero) prevalence - less than T (equal to T -T) True and false (caused by fragmentation) signals from the output of the comparison block 3 arrive at the second block of the prohibition block 7, the first (prohibiting) of which receives pulses of duration T (Fig. 2d), the beginning of which coincides in time with pulses at the output of the synchronization unit 1. In LedstyS "- (The fact that the input signal of the control signal generator 4 receives only true corrective pulses (FIG. 2, K). The former 4 converts the duration of the input correction signal (its duration determines the number of pulses from the output of the master oscillator 2 that have passed to the counting signal driver circuit 4) to the appropriate output voltage level (Fig. 2, L). The output voltage of the driver 4 of the control signal changes the threshold of the threshold device 8, resulting in a change in the ratio The temporal lengths of the unit and zero elements of the received message are at the input of the proposed device (output of the threshold device 8). The invention is a device for compensating for distortion of the type of predominance in the telegraph signals by the author. St. hfe 915274, characterized in that, in order to increase noise immunity from disturbances, serially connected generator of impulses and a prohibition unit are inputted into it, and the output of the synchronization unit is connected to one input of the generator of reference pulses, the other input of which is connected to the output of the active generator The output of the comparator unit is connected to the control input of the control signal generator via the input of the inhibit unit. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 915274, cl. H 04 C 27/16, 1980.