SU711535A1 - Time interval meter with automatic stabilization of the threshold and transformation coefficient - Google Patents

Description

YES time meter refers to information-measuring technology and can be used in radar, automation, experimental physics.

A device for measuring time intervals is known, comprising a crystal oscillator, AND and OR circuits, a counter, a decoder, an indicator (1.

A disadvantage of the known device is the low accuracy of the interval measurement.

A time interval meter with automatic stabilization of time scale parameters is known, which contains start and stop signal selectors, two OR circuits, a time-amplitude-code converter, a delay line, a 1Hog deviation compensation circuit, a conversion factor, switch keys, and a control circuit 2.

The device has significant systematic errors, such as a deviation from the nominal threshold and conversion factor.

The aim of the invention is to improve the measurement accuracy.

The goal is achieved by additionally introducing a master oscillator, two preselectors, a start and end pulse selector for the reference intervals, a frequency divider, an OR circuit, two valves and an inverter, and the output time of the rear generator is connected to the first inputs of all four selectors, the output of the first pre-selector is connected to the second input of the pulse selector of the beginning of the reference interval and the first inputs of the valves, the output of the first veytil is connected to the first input of the OR circuit, and the second the input of this valve is connected to the control circuit, the output of the second valve is connected to the second input of the second preselector, and the second input of this valve is connected to the control circuit through an inverter, the output of the second preselector is connected to the second input of the OR circuit through the frequency divider whose output is also connected to the third input of the second pre-selector, the output of the OR circuit with the second input of the pulse selector of the end of the reference terminal, the output of the pulse selector of the beginning of the reference interval is connected to the second input of the OR start circuit, and the output of the pulse selector for the end of the reference interval is connected to the input of the delay line,

The circuit of the proposed device is shown in the drawing. Measurement 1 ggel contains start terminals (stop signals 1.2, start / stop selectors 3, 4, OR 5, 6 circuits, time-amplitude-code converter 7, read keys 8, control circuit 9, a device for forming reference time intervals, consisting of master oscillator time 10, preselectors 11 and 12, frequency divider 13, gates 14 and 15, an OR 16 circuit, an inverter 17, a pulse selector at the beginning of the reference interval 18, a pulse selector for the end of the reference interval 19 and delay pines 20, a circuit for compensating for deviations of the threshold and conversion factor 21. The device operates as follows: In the time interval measurement mode, the device operates as follows: The start signal passes through the normally open selector 3 and through the OR 5 circuit goes to the start input of the time – amplitude – code 7 transducer. Similarly, the stop signal passes through the selector 4, which opens for a time equal to the working measurement range, and through the OR circuit 6 enters the stop input of the converter 7. The time interval between start-stop and the last pulse is converted into a binary code that the signal from the control circuit 9 using the key read nakoplen1I 8 is transmitted to the device and data processing.

The device switches to the threshold correction mode and the conversion scale automatically by the control circuit 9 at the end. uHKJfa measurement. In this case, the control circuit blocks the start-stop selectors of the signals 3, 4 and generates a start pulse of the reference interval, which is fed to the input of the selector 11 of the pattern of formation of the reference intervals. According to the starting impulse, the specified circuit forms from the impulses the time of the master oscillator 5 a reference time interval corresponding to the beginning of the gauge of the device. This interval is measured by the time-amplitude-code-7 converter in the same way as the input interval measurement mode and the result is transmitted to the analog-digital compensation circuit 21. In this scheme, the sign and deviation value of the measured code from the reference is determined from: the threshold corresponding to the nominal value device conversion. Further, in accordance with the results of the performed calculations, the meter conversion threshold is adjusted.

At the end of the conversion threshold correction cycle, the pattern of formation of the reference intervals switches to the interval formation mode corresponding to the end of the instrument's operating range, and the conversion coefficient correction cycle is started. The operation of the instrument nodes in this case proceeds as in the case of the correction of the conversion threshold.

Consideration of the sequence of correction cycles is performed before the compensation compensates for the difference in the threshold and scale of conversion from the nominal values, after which the instrument automatically switches to the measurement mode of the input intervals. Switching occurs if, in two successive cycles of measurement of the reference intervals corresponding to the beginning and KOHIQ of the time scale, codes equal to the reference ones are obtained. In this case, the generation of trigger signals for the reference intervals is stopped and the input selector 3 is enabled.

Claims (2)

As already noted, the reference time intervals are formed from the pulses of the time of the master oscillator. This operation is performed as follows. According to the starting pulse of the control circuit, the preliminary selector P separates the 10 nearest pulse from the sequence of the heterorator. This impulse triggers the selector 18, which allocates the next impulse to the time of the master series, which serves as the starting signal of the reference interval. The end time impulse of the reference time interval is taken from the time of the master sequence using the selector 19. Moreover, depending on the mode of operation of the circuit, the specified selector is started either directly by the signal of the selector 11 or with a delay specified by the frequency divider 13. In the first case, corresponding to the cycle correction of the conversion threshold of the meter, the output pulse of the selector 11 passes to the start of the selector 19 through the circuit OR 16 and the gate 14, which is opened by a single potential from the control circuit 9. In The value of the reference interval formed in this case is close to zero and is determined by the difference in the delays of the valve elements included in the selectors 18 and 19. The final formation of the reference interval corresponding to the selected zero scale of the measuring circuit is performed using the delay line 20 connected at the output of the selector stop pulse 19. In the case of a correction of the SRI of the conversion coefficient, the valve 14 is blocked by the zero potential coming from the control circuit 9, and the selector 19 is activated by the output pulse of This frequency, which together with the selector 4, forms a digital delay circuit. The delay circuit is triggered by a pulse of the selector And which passes to the y1 equal input of the selector 12 through the gate 15, unlocked by a single potential, the integrator 17, and allows the pulse of the master oscillator 10 to enter the frequency divider. The selector 4 is locked at the end of the digital delay circuit operation by the output of the frequency divider. The deadness of the reference interval formed in this case differs from the duration of the sp-shaft formed in the correction mode of the conversion threshold from sharp, equal to QD, where T is the period used by the master oscillator time, and K is the frequency divider that is set according to the width working range of the device. The invention The time interval meter with automatic stabilization of the threshold and conversion coefficient, contains a start and stop selector selector, two OR circuits, a time-amplitude code, a delay line, a threshold deviation compensation circuit and a conversion coefficient, the scan key, a control circuit, characterized in that, with a precision measuring circuit, a master clock, two preselectors, a pulse selector at the beginning of the reference interval, a pulse selector are entered into it the end of the reference interval, the frequency divider, the OR circuit, two valves and an inverter, the output of the master oscillator time is connected to the first inputs of all four selectors, the output of the first preselector is connected to the second start pulse selector M and the first inputs of the valves, the output of the first the plug is connected to the first input of the OR circuit, and the second input of this valve is connected to the control circuit, the second valve is connected to the second input of the second preselector, and the second input of this valve connect to the control unit via an inverter, output BTopcHt) of the preliminary selector with “for the second input of the OR circuit” through the frequency divider, the output of which is connected to the third input of the second pre-predetermined selector, output of the OR circuit, with the second input of the impulse OKUZHCHSN1NN, and the output of the circuit, OR, with the second input of the impulse OXZhCHNN1NN, the output circuit OR, and the output with the second input of the OUTZhChlNNU reference to the reference interval, and the head of the position of the object, and the world will have the same position; the pulses of the beginning of the tonton interval are connected to the second input of the OR circuit of the start channel, and the output of the pulse selector of the end of the reference interval of the junction with the input of the delay line. Sources of information taken into account in the examination 1. The author's certificate of the USSR N 322783, cl. G 04 F 10/00, 1964. 2.Jury. Instruments and Experimental Technique P 4, 1976, p. 86 (prototype).