SU938186A1 - Basic frequency digital meter - Google Patents

Description

(5) DIGITAL MEASURING FACTORY RADIO FREQUENCY RADIO IMPULSE

one

The invention relates to a measurement technique and is intended to measure the frequency of filling of radio pulses with a front duration of at least one period of the frequency of filling.

A digital meter for filling the frequency of pulsed-modulated oscillations is known, which contains a single oscillator with an adjustable duration of two time selectors, an And, Q element and a reference frequency generator.

However, this meter is characterized by reduced accuracy and does not automate the measurement process. J5

The closest in technical essence and the achieved result is the digital measuring frequency of the radio-20 pulses that provides automation of the measurement process, contains a reference frequency generator connected through the first time selector to the reference frequency counter input, output

which is connected to the first input of the main element I, and the output of the main element I is connected to the control inputs of the first and second time selectors, the output of the second time selector is connected to the input of the result counter T2.

The disadvantage of this meter is its reduced accuracy, due to the lack of synchronization of the beginning and end of single measurement intervals with the period of the frequency of filling of radio pulses.

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

Claims (2)

This goal is achieved in that a digital frequency meter for filling radio pulses, containing a reference frequency generator, is connected via a first time selector to an input of a reference frequency counter, the output of which is connected to the first input of the main element AND, and the output of the main element AND is connected to the control signals of the first and the second time selectors, the output of the second time selector is connected to the input of the result counter, the first and second triggers, the delay unit, the additional element I, are entered in series with Connected peak detector, attenuator and comparator, connected in series pulse generator and estimator, the second input of which is connected to the output of the comparator and the first input of the first trigger, the second input of which is connected to the output of the counter and the first input of the second trigger, the second input of which is connected to the second input the second time selector and the output of the additional element And the first input of the latter is connected to the output of the pulse shaper, the input of which is connected to the input of the peak detector, to the second input ode to the comparato and to the input bus of the device, where the output of the first trigger is connected to the second input of the additional element I, and the output of the second trigger through the delay unit is connected to the second input of the main element I. In FIG. Figure 1 shows the structural scheme of the proposed digital measurement of the frequency of filling the radio pulses; in fig. 2 - time diagrams for his work. The device contains a peak detector 1, an attenuator 2, a comparator 3 shaper k pulses, counter 5 trigger 6, element And 7 generator 8 reference frequency, time select 9, counter 10 reference frequency, elements And 11, trigger 12, block 13 delay, time selector H, counter 15 results. The output of the peak detector 1 is connected via an attenuator 2 to one of the inputs of comparator 3, the OTHER input of which is connected to the input bus. The output of the driver k is connected to the counting BYPASS of the counter 5 and the input of the element 7. The output of the comparator 3 is connected to the trigger input 6 and the zero input of the counter 5, the output of which is connected to the second trigger input 6 and the trigger input 12. The output of the element 7 is connected through the It selector to the counter 15. The generator 8 of the reference frequency is connected through the serially connected selector 9 and the counter 10 of the reference frequency is connected to the input of the element 11, the second input of which is connected through the delay block 13, made in the form of serially connected logic elements s, such as NAND, a trigger output 12. The output member 11 is connected with the control inputs of the selectors 9 and lii. The digital frequency meter of the radio pulses operates as follows. The input radio pulses (Figure 2a) simultaneously arrive at the input of the peak detector 1, the comparator 3 and the former 4. The peak detector 1 converts the input radio pulses into a constant voltage equal to their amplitude, and through an attenuator 2 sets the threshold for the comparator 3 (Figure 2a; The pulse shaper k generates short pulses (Fig. 26) corresponding to the moments of the transition of the sinusoidal signal from plus to minus.These pulses arrive at the counting input of counter 5, whose capacity is equal to two pulses. one by one, the radio pulses elements 7 and 11 are closed by the low potential of the flip-flops 6 and 12. When the next radio pulse arrives at the input bus, the pulses from the output of the 5 C counter of FIG. when the comparator 3 triggers, a pulse from its output (Fig. 2b) zeroes the counter 5 and a high potential is established at the output of trigger 6 (Fig. 2 d), which allows the passage of pulses through element 7 (Fig. 2e). The first impulse from the output of the imager k, passing through element 7 (Fig 2e), at the output of the trigger 12 (Fig. 2k) sets a high potential, which through the delay unit 13 enters the input of the element 11 prepared by the second input potential from the output of the reference counter frequencies. Element 11 opens the time selectors 9 and 14, through the selector 9 from the generator 8 of the reference frequency, the counter 10 begins to fill. Simultaneously, the pulses from the output of the former 4 through the element 7 and the selector 14 arrive at the counter 15 of the results. In this case, pulses alternately arrive at the counting input and the counter zeroing input, which prevents it from being filled. However, when the amplitude of the positive filling waves of the radio pulse decreases below the trigger threshold of the comparator (Fig. 2a, c), the counter 5 does not zero and a pulse (Fig. 2d) is generated at its output, which returns the triggers 6 and 12 to the initial state. Thus, a single measurement interval is formed (Fig. 2k), the beginning and end of which is strictly synchronized with the frequency of filling the input radio pulses. The block 13 of delaying the video pulses from the output of the trigger 12 (FIG. 2L) for a time not less than the pulse width of the driver k for the selector l to skip the number of pulses for a single measurement interval T, where f is the frequency of filling the radio pulses. Upon receipt of the following radio pulses, the process is repeated until the moment of overfilling of the meter 10, the output pulse of which closes element 11 and the counting stops. The readings of counter 15 are proportional to the value of the measured frequency (Fig. 2m. Introduction of a peak detector, attenuator, pulse generator, comparator, counter, two triggers, additional element And delay unit favorably distinguishes the proposed device from the known, since it eliminates measurement error frequency, due to the lack of synchronization of the beginning and end of single measuring intervals with the period of the frequency of filling the radio pulses, which leads to a decrease in the total measurement error, ° / o where T is the length measurable radio pulses. Invention A digital pulse frequency meter containing a reference frequency generator connected via a first time selector to a reference frequency counter input, the output of which is connected to the first input of the main element And, and the output of the main element I connected to the control inputs of the first and the second time selectors, the output of the second time selector is connected to the input of the result counter, characterized in that, in order to improve the measurement accuracy, in not first and second three | - heres, delay unit, additional element I, serially connected peak detector, attenuator and comparator, serially connected pulse driver and counter, the second input of which is connected to the output of the comparator and to the first input of the first trigger, the second input of cat second is connected to the counter output and to the first input of the second trigger, the second input of which is connected to the second input of the second time selector and to the output of the additional element I, the first input of the last is connected to the output of the pulse former, the input of which is connected to the input of the peak detector, to the second input of the comparator and to the input bus of the device, while the output of the first trigger is connected to the second input of the additional element And, and the output of the second trigger through the delay unit is connected to the second input of the main element I. . Sources of information taken into account during the examination 1. USSR author's certificate number 37557, cl. G 01 R 23/10, 22.03.7K 2. USSR author's certificate W 59922, cl. G 01 R 23/00, 01.21.76 eleven "S / V P. s and: J /