RU2006404C1 - Coded current block decoder - Google Patents

Abstract

FIELD: railway automatic-control systems. SUBSTANCE: decoder has frequency monitoring units 1 and 7, track code signal receiver 2, OR gates 3 and 4, final elements 5 and 6, one-shot multivibrators 8-12, threshold element 13, band filters 14, 15, reed relay 16, amplifiers 17, 18, capacitor 19, switch 20, generator 21, voltage converter 23. EFFECT: improved design. 1 dwg

Description

 The invention relates to railway automation.

 Closest to the proposed technical essence for receiving information in code auto lock is a device containing a frequency control unit, a track signal receiver, OR elements, and actuators.

 The disadvantage of this device is the relatively low reliability due to the relative complexity of the device circuit.

 The purpose of the invention is to increase reliability.

 This goal is achieved by the fact that the device for receiving information in a code auto-lock, comprising a frequency control unit, a code signal track receiver, OR elements, and executive elements, is equipped with an additional frequency control unit, single vibrators and a threshold element, the input of which is connected to the output of the code signal track receiver , and the output through the first one-shot and directly connected respectively to one and the other inputs of one OR element, the output of which is connected to the inputs of the second and third of the one-shot, the output of the third one-shot is connected to the input of the first frequency control unit and to the inputs of the fourth and fifth one-shots, outputs connected to the inputs of another element OR, the output of which through the front contact of the first actuating element is connected to the input of the second frequency control unit, which is through the rear contact of the first the actuator is connected to the output of the second one-shot.

 A distinctive feature of the invention is that the device for receiving information in code auto-lock is equipped with an additional frequency control unit, one-shot, a threshold element, the input of which is connected to the output of the track code signal receiver, and the output through the first one-shot and directly connected to one and the other inputs of one OR element, the output of which is connected to the inputs of the second and third one-shot, and the output of the third one-shot is connected to the input of the first control unit I have frequencies with the inputs of the fourth and fifth single vibrators, the outputs connected to the inputs of another OR element, the output of which through the front contact of the first executive element is connected to the input of the second frequency control unit, which is connected through the rear contact of the first executive element to the output of the second single vibrator.

 The drawing shows a functional diagram of a device for receiving information in a code auto-lock.

 A device for receiving information in a code auto-blocking comprises a frequency control unit 1, a code signal tracker 2, OR elements 3 and 4, actuators (signal relays) 5 and 6, an additional frequency control unit 7, single vibrators 8-12 and a threshold element 13, the input of which is connected to the output of the traveling receiver 2 code signals, and the output through the first one-shot 8 and directly connected respectively to one and the other inputs of one element OR 3, the output of which is connected to the inputs of the second 9 and third 10 one-shots. The output of the third one-shot 10 is connected to the input of the first frequency control unit 1 and to the inputs of the fourth 11 and fifth 12 of one-shots, outputs connected to the inputs of another element OR 4, the output of which is connected via the front contact 5.1 of the first actuator 5 to the input of the frequency control unit 7, which through the rear contact 5.1 of the first actuator 5 is connected to the output of the second one-shot 9.

 Each of the frequency control units 1 and 7 contains active bandpass filters 14 and 15, a reed switch 16 with pin 16.1, amplifiers 17 and 18, a capacitor 19, a key element 20, a generator 21, a threshold element 22 and a voltage converter 23. The combined inputs of one 14 and another 15 active bandpass filters form the input of the frequency control unit 7. Reed relay 16 is connected to the output of one of the active band-pass filters 14, and the output of the other filter 15 is connected to the input of one amplifier 17, the output of which through the make contact 16.1 of the reed relay 16 to the capacitor plates 19 and parallel to the input of the key element 20, to the control input which is connected to the output of the generator 21, and to the output is the input of another amplifier 18, the output of which is connected to a threshold element 22, the output of which through the voltage converter 23, the output of the frequency control unit 7 is formed.

 The device operates as follows.

 As a threshold element 13, a Schmitt trigger with a rectifier turned on at the input is used. The first one-shot 8 is triggered by a 1-0 differential at the output of the threshold element 13 and generates a single pulse of 0.3 s duration, providing, together with the OR 3 element, filling short intervals in code cycles G and Z. The second one-shot 9 is triggered by a 0-1 differential at the output of the element OR 3 and generates a single pulse with a duration of 0.4 or 0.465 s, depending on the type of transmitter KPTSh-5 or KPTSh-7, providing a duty cycle of the QL code pulses equal to 2. Similarly, the third one-shot 10 is triggered by a 0-1 differential and generates a single pulse with a duration of 0.8 or 0.93 s, depending on the type of transmitter, providing a duty cycle of pulses of codes Zh and Z equal to 2. The fourth 11 and fifth 12 one-shots are triggered by drops of 0-1 and 1-0, respectively, and produce single pulses of duration 0.4 or 0.465 s depending on the type of transmitter, providing, together with the OR 4 element, the conversion of the pulse train of codes G and 3 to the pulse train of the QOL code. The latter was done in order to excite the signal relay 6 Ж during decryption of the codes Ж or З. The frequency control unit 1 provides the excitation of the signal relay 5, provided that the frequency of the first harmonic of the rectangular signal at the output of the third one-shot 10 is 0.625 or 0.537 Hz, depending on the type of transmitter . Similarly, the frequency control unit 7 provides the excitation of the signal relay 6 G, provided that the frequency of the first harmonic of the rectangular signal at the output of the second one-shot 9 or OR element 4 is 1.25 or 1.075 Hz, depending on the type of transmitter. The latter is achieved due to the fact that in blocks 1 and 7 of the frequency control active bandpass filters 14 and 15 are used, tuned to the corresponding frequencies. The schemes and parameters of the elements of one 14 and another 15 filters are identical. At the same time, a diode is turned on at the output of filter 14. As the active bandpass filters 14 and 15, a four-pole Chebyshev filter is used, which provides mutual attenuation at frequencies of 1.25-1.075 or 0.625-0.537 Hz of at least 40 dB, which reliably excludes the excitation of signal relay 5 when decoding the QOL code, as well as the excitation of signal relays 6 G and 5 when exposed to the input of the device code signals from an adjacent rail circuit.

 Reed relay 16 in conjunction with a capacitor 19 provides a discrete multiplication of harmonic synchronous signals at the outputs of the active bandpass filters 14 and 15, thereby achieving control of damage to the latter. The AC amplifier 17 with a transformer output operates in a linear mode and provides the necessary constant voltage on the plates of the capacitor 19. As a generator 21, a multivibrator operating at a frequency of 425 Hz is used. The amplifier 18 is a source follower, the output of which is formed by a transformer included in the drain circuit of the field effect transistor. The high input impedance of the amplifier 18 provides the idle mode of the output transformer of the amplifier 17, thereby achieving transformation through the specified output transformer of an alternating voltage of ultra-low frequency of 0.5-1 Hz.

 As a threshold element 22, a Schmitt trigger is used. The voltage converter 23 comprises a single-shot in series, a selective AC amplifier with a transformer output, and a rectifier. The specified one-shot is triggered by the threshold element 22 and generates pulses with a duration of 1.18 ms, providing a sequence of their repetition with duty cycle equal to 2. The selective AC amplifier operates in key mode and is tuned to a frequency of 425 Hz. (56) Copyright certificate of the USSR N 1395539, cl. B 61 L 25/06, 1986.

Claims (1)

 CODE AUTOMATIC LOCK DECODER, comprising a frequency control unit, a track signal receiver, OR elements, actuators, characterized in that, in order to increase reliability, it is equipped with an additional frequency control unit, one-shot, a threshold element, the input of which is connected to the output of a code receiver signals, and the output is through the first one-shot and is directly connected respectively to one and the other inputs of the first OR element, the output of which is connected to the inputs of the second and third ibrators, and the output of the third one-shot is connected to the input of the first frequency control unit and connected to the inputs of the fourth and fifth one-shots, outputs connected to the inputs of the second element OR, the output of which through the front contact of the first actuating element is connected to the input of the second frequency control unit, which is through the rear contact the first actuator is connected to the output of the first OR element.