SU457934A1 - Average frequency ratio meter - Google Patents

Description

one

The invention relates to nuclear electronics, electronics and measurement technology.

The average frequency ratio meters, i.e., devices, whose output voltage is proportional to the pulse frequency ratio, are input, are known to two of its inputs (the dividend and the divider).

The most convenient and practical is the principle of charging a storage capacitor with identical amounts of charge at the moments of arrival of pulses to one input (divisible) and its discharge when pulses arrive at another input (divider) through a resistor or a discharge capacitor connected to a storage capacitor. for a certain time with the help of the diode.

The connection time of a resistor or a discharge capacitor is determined by the duration of the U-shaped pulses emitted by the driver. The voltage produced on the storage capacitor under certain conditions is proportional to the frequency ratio at the inputs of the meter.

However, the inclusion of a driver in the circuit with high requirements imposed on the duration of the generated pulse in the discharge channel of the storage capacitor complicates the design of the ratio meter and reduces its reliability.

The aim of the invention is to improve and increase the reliability of the meter. For this purpose, the meter is equipped with series-connected parallel RC-neptune, a source of compensating voltage and a thyristor connected in parallel with a storage capacitor.

The drawing shows a diagram of the meter. The average frequency ratio meter contains a charging device 1, a storage capacitor 2, a thyristor 3, a discharge capacitor 4, resistors 5, 6, a source of compensating voltage 7, a device 8

for measuring the voltage across the capacitor 2.

The meter works as follows.

In the initial state, the thyristor 3 is closed.

The incoming pulses from the dividend with

The center frequency fi drives device 1, which charges capacitor 2 with equal portions of charge. Prior to the arrival of pulses at the input of the divider, the voltage on the capacitor 2 increases at a rate determined by the frequency I because the capacitor 2 is not discharged due to the fact that the thyristor 3 is closed.

When a pulse divider with an average frequency of / 2 arrives at the input (it must satisfy the condition), the thyristor 3 opens, causing the capacitor 4 to charge up to a voltage close to the voltage on the capacitor 2 (the undervoltage of the capacitor 4 is equal to on thyristor 3 before closing, is eliminated by lowering the potential of its cathode by this value with the help of a compensating voltage source 7) and thyristor 3 is closed, because the resistance of resistor 5 is taken so that the current flowing through thyristor 3 and closing at the maximum voltage across the capacitor 2. Therefore, at each pulse arriving at the input of the divider, a capacitor 2 loses charge UCt, and wherein - the voltage across the capacitor 4 before closing the thyristor 3, C - capacitance of the capacitor 4.

At the end of the transient process, a voltage t / st will set on the capacitor 2, which depends not only on the frequencies fi and fa, but also on the circuit diagram of the device 1.

With a certain choice of the parameters of the proposed meter, the steady-state voltage across the capacitor 2 f / set is a linear function of the ratio of the frequency of the pulses / 1 arriving at the input of the dividend to the frequency of the pulses / 2. coming to the input divider.

The meter can operate from both periodic and statically distributed pulses.

It can be used (with the time parameters of the currently available thyristors) up to a frequency of 50 kHz for the same purposes for which the ratio meters are generally used in radiometric and geophysical equipment.

When used in a thyristor ratio meter, it turns into a compact, uncomplicated and highly reliable device that can be used in electronics and automation for various purposes, where it is necessary to determine the ratio of periodic or statistical pulse flows. For example,

By connecting the output of the meter to the threshold device, it is possible by the response of the latter to determine the moment of exceeding / i or lowering fz above a predetermined level.

Subject invention

An average frequency ratio meter containing a storage capacitor, a charging device and a voltage meter on

storage capacitor, characterized in that, in order to simplify and increase reliability, it is equipped with series-connected parallel C-circuit, a voltage-compensating source and a thyristor connected in parallel with the storage capacitor.

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