SU1045145A2 - Direct current converter - Google Patents

Abstract

DC CONVERTER on auth.St. 387495, which means that, in order to increase sensitivity, expand the dYnsmic range and enable control of the transfer characteristic, a selective amplifier and phase shifting unit are inserted into it, and an additional winding is applied to each ferromagnetic core, with an input connected. , to the output windings, and the output - to the input of the phase-shifting unit, the output circuit of which includes both additional windings.

Description

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T The invention relates to electrical measuring equipment and automation and is designed to allow the implementation of direct current monitoring with galvanically uncoupled current and measuring equipment. , According to the main author, No. 387495, a converter of direct current is known; it contains a coded magnet amplifier on two toroidal farromagnetic cores with input and output. BcjppeMHO applied windings. in relation to the windings, the fading oscillator, the output of which is connected to the excitation windings, the integrating element, whose input is connected to the output of the 1m windings ij. The disadvantages of the known device are determined by the sensitivity of the sensitivity, which is unacceptable, for example, to build high-quality comparators, small limiting the use of a converter for measuring currents that change with a large amplitude, In addition, the known device has a constant value eredatochnoy harakteristi1soy, ie Its direct use of the S as a Fuzzy transducer is a very difficult task. The invention of the invention is to increase the sensitivity of the device, expand its dynamic range and ensure the possibility of controlling the transfer characteristic. The aim is to obtain access to the fact that the direct current converter, which contains a magnetic amplifier for two toroidal ferromagnetic cores with input windings and two windings, is opposed to the wind curving wavelengths, and the curving wave patterns are distracted by the distortion of the windings of the distractions. , an integrating element, the input of which is connected to the output windings, an electoral amplifier and a phase-shifting unit are introduced, and an additional winding is applied to each ferromagnetic one, the input and The selective amplifier is connected to the output windings, and the output is connected to the input of the power unit of its unit, the output target of which includes both additional windings. The drawing shows a fu5p LinoHajnaHan schematic of a sentence converter. The structure of the device includes a magnetic amplifier; ferromagnetic cores 1 and 2 with input 3 and 4, excitation 5 and output 7 and 8 and additionally 9 and 10 windings, generator 11 is damped, oscillations, integrating link 12, selective amplifier 13 and phase matching unit 14. The device works in the following way Generator The second damping of oscillations periodically generates packets of damped current oscillations with a frequency of 4 in the windings 5 and 6 of the excitation. With a simultaneous effect on the cores 1 and 2 of the magnetic fields, evivibix was created by a constant measured current Ig ,; in the input windings 3 and 4 and the decaying current packet i g in the windings 5 and b of excitation / hysteresis-free magnetization of cores 1 and 2 occurs. During the magnetization of the latter in the output windings 7 and 8 of the converter, a sequence of voltage pulses is produced, the resulting volt-second area of which; is proportional to the input current gy. The selective amplifier 13 extracts from the voltage on the output windings 7 and 8 harmonic oscillations whose frequency is 2-f. Phase-shifting unit 14 shifts these oscillations in phase by an amount proportional to the voltage ih. Thus, the current ig in the additional windings 9 and 10 has a double frequency in -cpaaHen. With current 1 in the windings 5 and 6 of the excitation, and the phase shift between the indicated currents can be changed by changing the value of Uy. The created conditions are sufficient for obtaining the effect of magnetic rectification in cores 1 and 2. If, for definiteness, we consider the currents -1 g И И1 in the form of cosine and phase, the current ig does not change, but re phase of the current. (, then at Crg. 5, the effect of magnetic lagging is absent, and at (|) rO and ct IT is maximum, and the constant components of magnetic induction in each core, due to magnetic rectification and corresponding to a phase shift equal to O and Cf 1 are opposite in sign. The appearance of a constant component of magnetic induction in cores 1. and 2 is equivalent to the current increment in the INPUT windings 3 and 4, i.e., causing a change in the transducer's efficiency, f | ± i- the sensitivity of the proposed device has the same the value of S (j, KaK in the known device. With Cjxi, the sensitivity increases with decreasing cf and reaches a maximum value of | g 0. sensitivity decreases with increasing O and reaches a minimum value of 9,;, with Cf li. With increasing

The IP from fl sensitivity increases and reaches a level of 3 at (. A further increase to increases the h5 resistance to the maximum value BrntM From what has been said, hysteresis-free magnetization in

cores 1 and 2 is set to the magnitude of the magnetic induction, proportional to the input current GWK, but the coefficient of efficiency (sensitivity) is dependent on the magnitude of the control voltage

Uy.

When exposed to the following packet of damped current oscillations ip in the windings 5 and b of the excitation, the first impulse of this current converts the cores 1 and 2 to saturation. As a result, the readout of the info5 data recorded in cores 1 and 2 occurs. The volt-second area of the voltage pulse induced when read on the output windings 7 and 8 is proportional to the magnitude of the magnetic induction in each core, T, ё. displays the value of a constant input TOKalQu. Integrating

Veno 12 integrates the pulses on the output windings 7 and 8, the voltage at its output is also proportional to the input current 1. .

Subsequent pulses of a packet of damped oscillations of current i again cause a non-hysteric magnetization of cores 1 and 2.

The proposed device in comparison with the known one has a significantly improved & m indicators. With Ujj, corresponding to the FaeV shift (equal to O, the device has maximum sensitivity and can be used, for example, as a comparator. With Cf equal to 7, the sensitivity of the device is minimal and the dynamic range is maximum, and , to periodically measure the value of a slowly varying over a wide range of input current 1 in. The presence of the dependence U v ik - (iet, Uy) allows you to control the transfer function of the device and use it as a functional parameter reformer

Claims (1)

DC CONVERTER by ed. ”387495, which involves the fact that, in order to increase sensitivity, expand the dynamic range and provide the ability to control the transfer characteristic, a selective amplifier and a phase shifting ferromagnetic additional selective are introduced into it. , to the output windings, and the output to the input of the phaeo-shifting unit, the output circuit of which includes additional windings. block, and a winding is applied to each core, and the input of the amplifier is connected - to in both