SU926660A1 - Device for checking transmitter operation - Google Patents

Description

one

The invention relates to automation, computing and communication.

A device is known for controlling the operation of the transmitter 1. This device does not allow detecting and determining the location of distortions in code messages.

Closest to the invention is a device comprising a control unit, a motion setting unit, a control transmitter, a tolerance interval former, a recording unit. If the loop of the code KOM & I code is correctly processed, the dialer enters at a time that is within the range of the enable signal of the tolerance interval former and therefore the combination with the combination received earlier from the control unit is compared in the registration unit. With the identity of these combinations, there is no error recording in the registration block 2.

In the case of a mismatch code com & ga-. caused by, for example, the failure of one of the contact groups or in the case of incorrect

working out a cycle when the moment of arrival of a code combination from the contact groups of the transmitter does not coincide with the time of the signal from the generator of the tolerance interval, an error is registered in the register unit. The known device has the disadvantage that it does not allow detecting and determining the location of the distortions in the code messages and dividing the errors into read errors.

10 and errors of distortion or splitting in code messages, which does not provide preventive control of the technical state of the transmitter under operating conditions and reduces the reliability of the control of the transmitter

tS in general.

The purpose of the invention is to increase the reliability of monitoring the technical condition of the transmitter.

This goal is achieved by the fact that the device

Claims (3)

20 containing a control unit and a registration unit, a BANNER element group, a switch, first, second and third pulse shapers, a trigger group, a BAN element 392, And element, first And group, trigger element, first pulse distributor, and the first inputs of the BAN group elements are entered They are connected to one of the inputs of the device and to the inputs of the second group of the registration unit, the input of which is connected to the input of the device and the first output of the control unit, the second output of which is connected to the input of the switch, one input to which united respectively with the outputs of the BANKS group, the second inputs of which are connected to the outputs of the registration unit, the inputs of the third group of which are connected respectively to the output of the trigger and the outputs of the trigger of the group, single inputs of which are connected respectively to the outputs of the elements AND of the first group, the first inputs of which are connected respectively with the outputs of the group of the first pulse distributor, the first input of which is connected to the zero inputs of the group triggers, with the output of the second pulse former and with the first input The BAND element, the second input of which is connected to the second inputs of elements AND of the first group, to the input of the first pulse shaper and the switch output, and the third output of the control unit is connected to the first input of the AND element, the second input of which is connected to the input of the second pulse shaper and to the output the third pulse generator, the input of which is connected to the output of the first pulse generator and with a zero input of the trigger, the single input of which is connected to the output of the BAN element, and the output of the element I is connected to the second input ohm first pulse distributor. The etching unit contains a pulse generator, the KOTOJporo output is connected via a frequency divider to the first input of the deshifter, the input of the second pulse distributor and is the third output of the control unit, the outputs of the second pulse distributor group are connected respectively to the inputs of the decoder group, the output of which is connected to the sensor input The outputs of which are the outputs of the group of the control unit; the output of the second pulse distributor is the second output of the control unit,. the decoder is the first output of the control unit. In addition, the registration unit contains a group of half adders, the first inputs of which are connected to the inputs of the first group of the registration block, the inputs of the second group of which are connected respectively to the second inputs of half adders of the group, the outputs of which are connected respectively to the first inputs of the elements of the second group, the second inputs of which are connected with the first input of the registration unit, the group of outputs of which is connected respectively with the outputs of the elements And the second group and with the inputs of the display elements of the first group, and the display elements the second group is connected to the inputs of the third group of the registration unit. FIG. 1 shows a functional diagram of the device; in fig. 2 - diagrams of the output signals of the corresponding blocks. The device contains a control unit 1, a sensor 2, a generator of 3 pulses, a divider of 4 frequencies, a decoder of 5 pulses, a second distributor of 6 pulses, a registration unit 7, a group of half-accumulators 8, a second group of elements 9 I, elements 10 of the display of the first group, elements 11 of display the second group, the group of elements 12 BAN, switch 13, the first driver 14 pulses, the second driver 15 pulses, the third driver 16 pulses, element 17 I, the first distributor 18 pulses, the first group of elements 19 AND, element 20 BAN, trigger group s 21 and trigger 22. The sensor 2 is a sensor test signals. The first pulse shaper 14 is used to form the leading edge of the code send, the second pulse shaper 15 is used to form the code send, and the third pulse shaper 16 is used to form the falling edge of the code send. The indication element 10 of the first group serves to indicate errors in reading the code messages, and the indication elements 11 of the second group serve to indicate the distortions of the code messages. The switch 13 is executed, for example, in the form of a distributor with connected elements AND at the outputs. The first shaper 14 pulses and the third shaper 16 pulses are made, for example, in the form of a differentiating circuit. The second shaper 15 pulses made, for example, in the form of a waiting multivibrator. The inputs and output of the device are used to connect the monitored transmitter. Control unit 1 provides control and synchronization of device operation. The device works as follows. A monitored transmitter is connected to the inputs and outputs of the device. In the initial state of a punched tape with a perforation, the text of which (for example, combinations of two characters РЫ in a five-element code) is identical to the text produced by sensor 2 loaded into a controlled transmitter. With the start of operation, the monitored transmitter progresses the punched tape and reads text identical to the text of sensor 2. If the text of the transmitter corresponds to the text of sensor 2, then at the output of the recording unit 7 there will be no read error signals. The comparison of the code sendings of the monitored transmitter and the sensor 2 in the registration unit 7 takes place in the center of the code sendings by signals from the pulse splitter unit 4, used as a coffin. If the text read by the transmitter does not correspond to the text of the sensor 2, then the output of the registration block 7 is the read signals, which are sent to the first group of display elements 10, which serve to indicate the read errors of the code messages and indicate the errors of the corresponding code tracks. At the same time, the read error signals of the registration unit 7 arrive at the second inputs of the elements 12 of the BANTS group and prohibit the passage of code messages read by the transmitter. The group of elements 12 BANKS prohibits the passage of code messages mistakenly read by the transmitter, and permits the passage of code messages with distortions and fragmentation in the absence of them. Code packages read by the transmitter, according to which the registration unit 7 did not register errors, but having distortions (edge distortions or crushing) are received through a group of elements 12 BREAK and switch 13 to the input of the first driver 14 pulses (driver of the leading edge of the code package), to the second the input of the group of elements 19 AND and the second input of the element 20 BAN. The switch 13 performs cyclic switching of code messages, i.e. in one cycle of operation of the monitored transmitter, one code message is fed to the input of the first driver 14 pulses. From the output of the first former of 14 pulses (the leading edge of the code send signal), the code send arrives at the zero input of the trigger 22 and at the input of the third driver 16 of the pulse generating the signal equal to the duration of the undistorted code send. From the output of the third pulse generator 16, the signals arrive at the input of the second driver 15 pulses, which forms the falling edge of the code send, and to the second input of the element 17 I, the second input of which is supplied from the output of the divider 4 from the control unit 1 to the clock pulses It is available by the Cyterval of the allowable zone for analyzing the distortion of the code parcel. The signals of the undistorted code messages filled with clock pulses are removed from the output of element 17 I and are fed to the second input of the first distributor 18 pulses. The first pulse distributor 18 forms the required number of allowable zones for analyzing the distortions of code packets located discretely in time to follow them, and then is reset to the initial state by the signals of the second pulse driver 15 (the falling edge of the code packet). Signals with a duration equal to the duration of the Allowed Zones for analyzing the distortions of the code parcels are removed from the outputs of the first distributor 18 pulses and fed to the first input of the first group of elements 19 AND, the second inputs of which are code sent from the output of the switch 13. In case of a distortion there are no code messages (Fig. 2, plot 6), the signals at the outputs of the first group of elements 19 And will be absent, the group of flip-flops 21 will be in the initial state, and from their outputs there will be no signals. If there are distortions in the code messages (Fig. 2, zshor 6), the outputs of those elements 19 AND, in the permissible zones of which the distortions are fixed, will appear signals that trigger the corresponding triggers in the trigger group21, from the outputs of which signals will be received a registration unit 7 for detecting code package distortions on the display elements 11 of the second group, which indicate the number of the zone in which the code package was distorted. In case the length of the code message corresponds to the undistorted code message (Fig. 2, plot 6), the signal at the output of the BANNER element 20 will be absent, the trigger 22 will be in the initial state and the signal will be absent from its output. When changing the duration of a code parcel (shortening the code parcel) (Fig. 2, plot 6) and the output of the element 20, the VENTURE prevents the signal on which the trigger 22 triggers, the output of which will receive a signal in the registration unit 7 on the display elements 11 of the second group for Indication of distortions of code packages, which induces a distortion of the duration of a code package. The device allows determining the presence, degree, location of code package distortions, separation of types of errors by read errors and errors of distortion or crushing in code messages. With a normal function of the transmitter reading distortion transmitter most of all pacnonaraJSOTs on the edges of the code messages. The appearance of distortions or splittings or wads of distortions of shsh crushes in places close to the center of code parcels will indicate that the block is geared to be adjusted, prevented. Your own preventive preventive maintenance will increase the service life of the most critical transmitter unit, the host unit, which will eventually lead to a noticeable lifetime of the entire transmitter. Formula 1: A device for controlling the operation of a trans- mitter, containing a control unit, one output of which is connected respectively to the inputs of the first group of the register unit, characterized in that, in order to increase the reliability of the control, the group of first, second and third pulse shapers, trigger group, zLEMeHj BAN, element I, first group of elements AND, trigger, first pulse distributor, the first inputs of the elements BANNER group connected to one of the inputs and the inputs of the second group of the registration unit, the input of which is connected to the input of the device and the first output of the control unit, the second output of which is connected to the input of the switch, one of the inputs of which is connected respectively to the outputs of the BANNER elements of the group, the second inputs of which are connected to the outputs of the register radios, the inputs of the third group of which are connected respectively to the output of the trigger and to the outputs of the group triggers, the single inputs of which are connected to the outputs of the elements AND of the first group, the first inputs of which ryh connected respectively to the outputs of the group of the first pulse distributor, the first input of which is connected to zero inputs of group triggers, to the output of the second pulse generator and to the first input of the BAN element, the second input of which is connected to the second inputs of the elements AND of the first group, to the input of the first pulse generator and to the switch OUTPUT, and the third output of the control unit is connected to the first input of the element I, the second input of which is connected to the input of the second pulse shaper and to the output of the third generator eaten pulse, owls, whose input is connected to the output of the first pulse shaper and a zero input of the flip-flop, a single input coupled to the output: lementa inverted, and the output of AND gate is connected to the second input of the first distributor pulses. 2. The device according to claim 1, wherein the control unit contains a pulse generator, the output of which is connected through the frequency divider to the first input of the decoder, the input of the second pulse distributor and is the third output of the control unit , the outputs of the group of the second distributor of impulses are connected respectively to the inputs of the group of the decoder, the output of which is connected to the input of the sensor, the output of which is the outputs of the group of the control unit, the output of the second distributor of pulses is the second output of the control unit laziness, the decoder output is a first output upravlemk block. 3. The device according to claim 1, that is, that the registration unit contains a group of half adders, the first inputs of which are connected to the inputs of the first group of the register unit, the inputs of the second group of which are connected respectively to the second inputs of the half adders groups, the outputs of which are connected respectively to the first inputs of elements of the second group, the second inputs of which are connected to the first input of the registration unit, c) which outputs are connected respectively to the outputs of the elements of the second group and to the inputs of the indication elements rvoy group and the second group of display elements are connected to inputs of the third group of the recording unit. Sources of information taken into account in the examination 1. The author's certificate of the USSR N 383049, cl. G 06 F 11/00, 1970; 2, USSR Author's Certificate P 496562, cl. G 06 F 11/00, H 04 L 15/18, 1974 (prototype). .