SU269014A1 - DIGITAL DEVICE FOR DETERMINATION OF THE PERIOD OF PERIOD OR DURABILITY OF IMPULSES - Google Patents

Description

The invention relates to the field of radio electronics and can be used in digital measurement technology.

Known digital devices for measuring the period or duration of pulses, which provide automatic range selection, contain an exemplary frequency generator, a time selector with a control circuit, a multi-digit pulse counter, a key generator of measured signals, and a pulse frequency divider.

However, in known devices, there is a large measurement error of the duration of short time intervals, as well as the need to reduce the reference frequency when measuring large time intervals. In addition, the known devices are inefficient in using the counter speed at low reference frequencies, they lack averaging, the measurement time varies by several orders, which does not allow the described devices to be used in measuring a sequence of time intervals that significantly change their values for short periods of time. .

In order to ensure automatic range selection while simultaneously reducing the variation of the measurement time, as well as to ensure a given error in a wide range of variation of the pulse frequency or their durations in the proposed device, the output of one of the high bits of the counter is connected to the first input of the memory element, and the output of the frequency divider through the circuit of forming the auxiliary pulse train is connected to the second input of the memory element, the output of which is connected to the input of the control circuit, moreover, the time intervals between the pulses of the auxiliary sequence are a geometric progression with a ziamenatelem, for example, ten.

FIG. 1 shows the scheme of the proposed device; on phpg. 2 is a diagram illustrating his work.

The device contains a divider / frequency of the following input pulses, the outputs of which are connected to the inputs of the auxiliary and sequential pulse shaping circuit 2, which includes the conjunction circuit 3, the disjunction or combination circuit 4, and the switch 5; memory element 6, one input of which is connected to the output of the combining circuit, and the second to the output of one of the most significant bits of counter 7; the output of the memory element is connected to the input of the control circuit 8, the output of which connects to the inputs of the key-generator 9 of the input signals and the selector 10 of pulses of the exemplary generator frequency //. The principle of operation of the device is as follows. From an external source, a sequence with a measured period G is fed through the key driver to the input of the divider, the first bit of which can have a division factor of one to nine, and the rest of them have a division factor of ten. The first pulse, specifying the beginning of the measured interval, is fed through one of the keys of the conjunction circuit and the combination circuit W to the input "start of the control circuit." The selector opens, and the counter counts the number of periods of the model frequency T of the generator, until the claim for one of the inputs of the memory element does not receive a transfer pulse from one of the high-order bits of the counter, and after it to the other input - another pulse from output schema obedipeni. The impulse from the output of the memory element arrives at the input of the “stop of the control circuit” and stops the passage of 20 pulses from the output of the key-driver to the divider. The outputs of the divider are alternately switched by the switch through the conjunction circuit keys in such a way that only impulses get to the input of the memory element, and time intervals between which make a geometric progression with a ten denominator and the first term equal to or a multiple of Tjf. The output signal of the circuit 30 combines the switch to a state in which the potential resolution from it goes only to the input of that key, the second input of which is connected to the output of the next digit of the divider, while the time35 between the start pulse and the first pulse on the output of the combination circuit is, for example, G, the second 10 G, the third 100 G, etc. Thus, the measurement interval is always 40 Ghiz A-10 7, where, 2, ..., 9 is given by the first bit the house divider 1, and n is automatically selected by the described device In this way, regardless of the value of H-, the counter is filled as much as possible. In the case of measuring the duration, not the period, the output of the key-driver is connected to the selector input, and the pulses T pass to the counter not during the whole time between the start and stop commands. “Stop, but only in the intervals covered by the input pulses. Simultaneously with the switching of the outputs of the divider, the switch switches the position of the comma indicator of the digital indication of the counter. At the end of the required indication time, the control circuit transfers all units of the device, including the switch, to the initial state. The diagram of the proposed device shows pulses “start a, pulses at the output of the disjunction circuit b, pulses from one of the most significant bits of the counter, pulses“ stop d. The subject of the invention is a digital instrument for measuring the period or duration of pulses, comprising an exemplary frequency generator, a time selector with a control circuit, a multi-digit pulse counter, a key driver of the measured signals, a frequency divider of the measured signals, characterized in that selection of the measuring range while reducing the variation of the measurement time and ensuring the specified error in a wide range of variation of the pulse frequency or their durations, the output of one of the higher bits of the counter is connected to the first input of the memory element, and the output of the frequency divider is connected to the second input of the memory element through the formation circuit of the auxiliary pulse sequence to the input of the control circuit.

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