SU1013868A1 - Infra-low frequency digital meter - Google Patents

Abstract

A DIGITAL INFRANIZED FREQUENCY METER containing a driver, a series-connected linear voltage generator, controlled by a reHepaTopiT key, and a counter, characterized in that, in order to increase reliability, a single driver is inserted into it, the input connected to the output of the driver is a wall adapter. - from the VODDSM4 generator of linearly varying voltage and with the control input of the key, the output of which is connected to the input of the account-. chica.

Description

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O) 00 The invention relates to the field of electrical measurements and is intended to measure infra-low frequencies. A device is known that contains a controlled oscillator / reference frequency generator, a key, and pulses with the same frequency C1. However, this device is relatively difficult, since the introduction of a pulse frequency with the same frequency from a pulse sequence is a rather difficult technical task. A device for digital measurement of the instantaneous frequency of slowly varying processes is known, containing a functional converter, a hyperbolic function driver, and a reference generator 2. However, the generator is hyperbolic. function of the known device (it consists of a complex block containing triggers, keys and other elements. The aim of the invention This goal is achieved by the fact that a single-voltage oscillator with a coa / iHSH input with a driver output is entered into a digital infra-low frequency meter that contains a driver connected in series to a generator of a linearly varying voltage controlled generator, a key, and a counter. , and the run - with the generator input of the linearly varying voltage and with the control input, the key, the output of which is connected to the input of the counter. FIG. 1 shows a block diagram of a digital meter for infra-low frequencies; Fig. 2 shows timing charts that measure the work. The device contains a shaper 1, a one-shot 2, a generator of linearly varying voltage 3, a control generator 4, a key 5, a counter b. The operation of the infra-low frequency meter consists of the following. Shaper 1 generates rectangular pulses that follow with frequency Rd (Fig. 2.1). The leading edge of the pulse, the counter b, is set to the zero state and the one-shot 2 is started. The one-shot 2 forms a pulse of a certain duration (Fig. 2.2). A pulse of the one-shot 2 is triggered by the generator 3 linear-kemen index voltage. The linearly varying voltage (Fig. 2.3) is supplied to one of the inputs of the controlled generator 4, and the reference voltage Up is applied to the other input. At the output of the controlled generator 4 (Fig. 2.4) a pulse is obtained, the sequence, the frequency of the co-, mountain is inversely proportional to the lineYo-change of the cademus voltage. The output ampuls enter the key 5, - (Fig. 2.5 |, which is open for a while equal to the duration of the output pulse of the one-shot 2. Counter 6 pulses, thus, in each period of the measured frequency will count the pulses for the duration of the output pulse of the one-shot 2. After the decrease of this pulse the generator 3 returns s fixed number corresponding to the value of the measured frequency, i.e. can be written, ° glinGd "scale factor QD ™; monostable pulse duration, the reference voltage) - frequency of the generator scan type.; Upyyj (Tjj) is the voltage; FX - measured frequency. In this frequency meter, the reference voltage is part of the supply voltage of the generator 3 and the control of the generator 4, which ensures that the readings of the instrument are invariant with respect to the voltage of the self-contained power source. This also reduces the additional error in the frequency measurement due to the short-term instability of the autonomous source r; power, which is a consequence of external and internal destabilizing factors (pickup, switching interference, etc.). This property makes the proposed frequency meter particularly effective when used in field devices, as it allows to reduce the power consumption of the device by eliminating the supply voltage stabilizer. The algorithm of the invention allows the use of modern microcircuitry for its technical implementation.

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Claims (1)

f DIGITAL INFRANIZED FREQUENCY METER, comprising a driver, a serially connected linearly varying voltage generator, a controlled generator] - a key, and a counter, characterized in that, in order to increase reliability, a one-shot is inserted into it, the input of which is connected to the output of the driver , and the output is with the input of a linearly varying voltage generator and with a control input of the key, the output of which is connected to the input of the counting. chica.