SU264773A1 - MULTI-CHANNEL DEVICE FOR SYNCHRONIZATION OF RECORDER RUNNING - Google Patents

Description

The device is intended to synchronize recorders in aerodynamic installations of percussion action.

A device for synchronizing recorders in aerodynamic installations of percussion, containing a quartz oscillator, a key, an OR circuit, two counters with a code matching circuit, and nodes forming delayed pulses are known. A disadvantage of the known devices is the low synchronization accuracy and the lack of operative operability testing.

The proposed device differs from the known ones in that the extra decade outputs, the first of which is connected to the key output, are connected to the switch contacts, the common contact of which is connected through an additional blocking node to one of the inputs of the OR circuit, through the delay element - to the permitting input of the additional key and the common contact of the other switch, each contact of which through another OR circuit is connected to the single input of the trigger of the formation node, and azreshayuschy input key via another delay element is coupled to the start node, also connected to the enabling input of additional lock unit and a chain

Soros is zero for additional decades, and the output of the code coincidence circuit is with the prohibiting input of an additional key and through a toggle switch with a reset circuit to the zero of the counter counting the pulses of a quartz oscillator. This improves synchronization accuracy and allows for on-line performance monitoring.

The block diagram of the proposed device is shown in the drawing.

Quartz oscillator output / via key

2, to which the output of the circuit "OR

3 is connected to the input of the counter 4, the bit outputs of which are connected to the coincidence circuit of codes 5, to which the bits of the second counter 6 are also connected. The device includes delayed pulses forming units 7, 8 and 9, the number of which is equal to the number of channels each of them

contains a tunable generator 10 connected to the AND 11 circuit, to which the output of the trigger 12 and the input of the pulse generator 13 are also connected. The outputs of the other OR 14, 15 and 16 circuits connected to the inputs also connected to one of the inputs of the trigger 12 of each formation node. “OR 3, and the AND” // circuits through the “OR / 7” circuit are connected to the input of counter 6. All the inputs of the OR 18 subconnect 19 through another delay element 20, and the output of the OR 18 circuit are connected to the enabling input of the key 2. Another crystal oscillator 21 through an additional key 22 and An OR 23 circuit is associated with successively connected additional decades 24, 25, and 26, the zero reset circuit of which and one of the inputs of the OR circuit 27 are connected via the OR circuit 28 to the output of the trigger node 19.

The output of additional decades and the “OR 23” circuit is connected to the contacts of the switch 29, the common contact of which is connected to the input of the additional blocking node 30. The additional blocking node contains a key 31, whose input is the care of the blocking node 30 connected through the delay element 32 to the inhibiting input of this same key.

The key-ramp input 31 is connected to the start node's output, and its output is connected to the OR 3, 28 circuits and, via delay element 55, to the prohibitory input of the additional key 22 and the common contact of the other switch 34, the remaining contacts of which are connected to the inputs of other OR circuits. 14, 15 and -16, the second inputs of which are connected to the sensors of the group //.

The output of the coincidence circuit of codes 5 is connected to the input of the circuit "OR 27, the reset circuit to zero of counter 6, zero inputs of the triggers 12 of the formation nodes 7, 8 and 9 E through the toggle switch to the reset circuit to zero of counter 4.

In the main mode, when the shock wave front passes in the section where the first sensor is installed, an impulse is removed from it, which is fed to one of the inputs of group 1, passes through the OR 18 circuit and opens the key 2. As a result, the passage time the front of the shock wave, the distance between the two sensors by counting by the counter 4 pulses of the reference frequency of the quartz oscillator 1.

At the moment of passage of the shock wave front in the section where the second sensor is located, the latter produces a pulse, which is fed to the preselected INPUT of a group of // inputs and, passing through the OR 14 and 3 circuits, closes the key 2: the counting of the pulses of the reference frequency by the counter 4 stops and it contains the recorded time code TI.

The pulse from the output of the circuit OR 14 overturns the trigger 12, and the pulses of the tunable generator 10 through the open circuit And 11 H circuit of the OR 17 arrive at the counter 6. If the period of the pulse of the tunable generator 10 was chosen so that the ratio of the distance between the second sensor and the measuring section to the melade distance by the first and second sensors is equal to the ratio of the periods of the tunable and reference generator pulses, then at the moment of the shock wave front in the selected measuring section, the codes count ikah 4 and 6 coincide at the output of the coincidence circuit for codes 5 is a pulse which returns the trigger 12 iB original position. As a result, at the output of the imaging unit 13, a pulse arises that triggers the corresponding recorder.

Similarly, the flow of the device through all other channels. Monitoring and setting the base relation is performed by simulating with the help of decades the time interval removed from the first base and measuring the recording time of the pulses of the tuned generator until a code is received that is equal to the code from the simulated time interval.

In the initial state, all counters are set to zero, and the keys are locked.

The operation starts from the moment when the launch node 19 forms an implant, which opens the key 31 of the blocking node 30 and, passing through the scheme OR 28, confirms the zero state of additional decades 24-26, and also after passing through the scheme OR 27 closed state key 22. This same pulse, after being delayed by another element of delay 20 and passing through the circuit OR 18, opens key 2: the counting of pulses of a crystal oscillator / counter 4 n begins with additional decades 24-26. The iodine counting continues until a pulse appears at the output of the decade selected by switch 29, i.e. In the counter for decade 24-26, one of the numbers 1, 10, 100 is recorded. And so on. The count stops , since the pulse from the selected output of the decade, passed through. Switch 29, the open blocking node 30 and the scheme “OR 3, closes key 2. This

the same pulse after the delay by element 32 closes blocking node 30 and, having passed through the scheme “OR 28, resets decade 24-26 to zero. At this point, counter 4 will write down a known code imitating the time

passing the shock front of the first base. Next, the pulse from the output of the delay element 33 through another switch 34 and the LED from the OR 14-16 circuits is fed to the single input of the trigger 12 of one of the shaping nodes 7-9, as a result of which the counting of the pulses of the tunable generator 10 is started by the counter 6 until the codes in the counters match 6 and 4, like IB OCHOIBHOM mode of operation.

The recording time of pulses in counter 6 is recorded by a time meter consisting of additional decades 24–26, an additional switch 22, and another crystal oscillator 2J, since the pulse from the output of the delay element

33 opens the key 22. The measurement of this length of time ends at the moment of coincidence of the codes in counters 4 and 6 due to the appearance of the pulse at the output of the coincidence circuit of the codes $ and its feed through the OR 27 circuit to the value of the pulse-following frequency of the tunable oscillator is determined by the indicators additional decades. In order to more accurately find the possible location of the counters 4 and 6 or malfunctions in the bits of the matching circuit in the device, it is possible to enter any numbers that simulate the front of the shock wave of the first base. This is achieved by disabling the toggle switch 35 of the reset chips to zero of the counter 4 from the output of the codes of coincidence codes 5 when the start-up unit is operating in the single-start mode. In this case, the specified number is led one by one, the value of each bit is selected using switch 29, and the input of selected values is carried out by a single pulse produced by start node 19. In this case, the reset circuit of the counter 4 to zero is disconnected from the coincidence circuit codes 5, after the process of entering the value of each of the bits is completed, it is recorded in the counter 4. To this number, after the corresponding setting of the switch 29 and one-time start, the value of the next bit is added.

Thus, recording any selected number allows monitoring of the operability of the device.

The subject of the invention is a multichannel system for synchronizing the start-up of recorders on aerodynamic installations of percussion, containing a crystal oscillator, a key, circuits 1 "OR, two counters with a matching circuit

codes and nodes for the formation of delayed pulses, characterized in that, in order to improve accuracy and operational control, the outputs

additional decades, the first of which is connected to the key output, are connected to the switch contacts, the common contact of which is connected through an additional node of the block, to the one of the inputs of the OR circuit, and to reset the delay element to the enabling input an additional key and a common contact of another switch, each contact of which through another OR circuit is connected to the single input of the trigger of the formation node, and the enabling input of the key is connected via another delay element

with the start node, which is also connected to the permitting input of the additional blocking node and the reset circuit to zero for additional decades, and the output of the code coincidence circuit with

prohibiting input of an additional key and through a toggle switch with a reset circuit to the zero counter, counting the pulses of the quartz oscillator.

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