SU603117A1 - Multichannel time interval-to-code converter - Google Patents

Description

(54) MULTI-CHANNEL TRANSMITTER OF TIME OF EN11-PARAMETERS IN THE CODE

The invention relates to the field of computing technology and can be applied in the processing systems of frequency, frequency-pulse or time-pulse information.

Known multichannel transducers of time parameters in the code containing the switch and the measuring device 1.

The disadvantages of such converters include a large readiness time.

A device containing a switch of input signals, connected via a first key controlled by a first trigger, to a period counter, the outputs of which through a second trigger are connected to a second key, the signal input of the latter is connected to the output of a reference frequency generator, is a code comparison unit connected to the outputs of the measuring counter and the software device, the third trigger, whose inputs through the assembly are connected to the output of the code comparison block, cycle counter, interrogation circuit and reset circuit 2.

The main disadvantage of the known devices is that the number of fillings of the measuring counter is slave to the number of measurements of the reference signals, which takes a long time and increases the readiness time of the converters.

The purpose of the invention is to reduce the availability time of the converter.

This goal is achieved by introducing five match elements into the multi-channel time converter, an additional trigger and a code comparison unit, an additional assembly, the outputs of the third trigger are connected to the first inputs of the two matching elements, the second input of the first matching element is connected to the output of the second trigger, and the output via an additional trigger to the second input of the second coincidence element and to one of the inputs of the third and fourth elements of the coincidence, the second inputs of which and the third the input of the second match element is connected to the output of the software device, the third input of the third match element is connected to the output of the additional code comparison unit, the output of the third match element is connected to the input of the software device and the reset circuit, the third input of the fourth match element is connected to the reference frequency generator, and the output is to one input of an additional assembly, the second input of which is connected to the output of the second key, and the output is connected to the input from a meter counter, the output of the additional unit code comparison is connected to the input

additional trigger, the zero output of which is connected to the first input of the fifth coincidence element, the second and third inputs of which are connected respectively to the output of the software device and the second output of the second trigger, and the output is connected to the interrogation circuit of the measuring counter, the output of the second coincidence element is connected to the cycle counter .

The drawing shows a functional diagram of the proposed Converter.

The device contains a switch 1, connecting one of the sources 2 input signals through the first key 3 to the input of the counter 4 periods; a trigger 5 that controls a key 3, an assembly 6, a software device 7, which outputs control signals, a necessary code in a 3-period counter, and enabling signals to block 8 of code comparison. The measuring counter 9 receives pulses of the reference frequency from the generator I) of the reference frequency through the second key 11 and the assembly 12. The key 11 is controlled by the trigger 13. Through the assembly 12 to the input of the measuring counter 9 also receives a series of pulses from the coincidence element 14, which add counter 9 until the next state “There is no norm.

The coincidence element 15 generates a polling signal, which, through the polling circuit assembly 16, is fed to the output valves 17 of the measuring counter 9.

The cycle counter 18 serves to set the operating modes of the device and interrogate the coincidence element 19 intended to issue the resultant self-test signal "OK. The formation of the "Reset and Start" signals in each self-test cycle is carried out using a matching element 20, which is controlled by an additional code comparison unit 21 connected to the outputs of the measuring counter 9. The trigger 22 is controlled by an additional code comparison unit 21 and a matching element 23, and trigger 24 - assembly. 25 and 26 of the result of passing the cycle "Norm and" There is no norm, respectively. Switching cycles in the self-test mode in the software device 7 and the operation of the loop counter 18 are carried out according to signals coming from the coincidence element 27. The coincidence element 28 serves to issue a "Failed if at least one self-test mode fails.

The device works as follows.

The software device 7 receives the command "Self-test. By this command, the software device 7 issues a "Self-test feature to the elements 14, 15, 20, 27 coincidence and the additional code comparison unit 21, resets the entire device to its initial state through assembly 6 and issues the Start to the 5 command, which opens the key 3 The frequency corresponding to the first test mode via switch 1 and key 3 begins to flow into the 4-period counter, in which the first test code from the program device 7 is entered on the falling edge of the pulse.

The first impulse from the 4-period counter enters the trigger 13 input, which opens the key, 11, and the reference frequency from the generator 10 output through the assembly 12 begins to flow into the measuring counter 9. Upon overflow of the counter 4, triggers 5 and 13 are triggered, overlapping keys 3 and 11. In the process of filling the counter 9, block 8 of the comparison of the codes "Norm and" There is no norm is polled.

In the case of receiving a "No norm at the output of the coincidence element 15" signal, an enabling signal appears, and the result of the test is printed through the matching elements 17 and 28, and the self-test mode is stopped because no signal is received in program device 7 from the element 27 Sovg1ade1sh. In the case of obtaining the result "Normal triggers trigger 24, upon receipt of the signal" Polling from trigger 13 (filling counter 4) through the coincident element 23 trigger trigger 22 triggers. The reference frequency through matching element 14 and assembly 12 begins to flow into measuring counter 9, addition it up to the capacity corresponding to the installation code of the code comparison block 8. “There is no first check norm. The trigger 24 returns to its original state.

The coincidence element 27 generates a signal "Cycle self-test passes to software device 7, which translates counter 18 into the next position. The signal from the additional self-checking code comparison unit 21 arrives at the 2Q coincidence element, which, through assembly 6, triggers the entire device to its initial state, except measuring counter 9 and trigger 22. The next pulse from the additional self-checking code comparison unit 21 returns the trigger 22 the initial state, when this closes the coincidence element 14 (ends the addition of the measuring counter 9) and forms the falling edge of the signal from the coincidence element 20, which terminates the instrument reset, and the software setup oystvo 7 generates a signal to trigger cocking 5.

Since the signal from the coincidence element 27, the counter 18 moves to the next position, then the key corresponding to the next self-test mode enters the key 3 input from one of the input signal sources 2 via the switch 1. The same mode corresponds to the code entered into the period counter.

Further work is similar to the previous mode. In case the check in all modes is normal, the resultant signal is "Valid through the match element 19 and a conditional code, allowing to check all output devices through the match element 17.

A "Fault" signal is given through a match element 28 after any of the cycles has failed.

In the proposed converter, due to the introduction of a small number of additional elements (as compared with the main equipment), the time for checking the operability of all modes is reduced.

The time gain is obtained by filling the meter once to indicate the output signals at all tolerances. The availability time is reduced by n times in the case of measuring all modes with maximum accuracy and approximately n / 2 times in the case of measuring in actual permissible errors (where n is the number of measured input signal sources).

Claims (2)

1.Shchdin V.M. Digital electrical measuring instruments, M., “Energie, 1972 with. 56-102. 2. Kasatkin A.S. Automated signal processing of frequency sensors M.-L., “Energie, 1966, p. 46-50.