SU1597755A1 - D.c.transformer - Google Patents

Abstract

The invention relates to electrical measuring technology and can be used as a highly sensitive, fast acting DC current meter with a galvanic isolation from the circuit of the measured current. In order to increase the dynamic accuracy, phase-shifting elements 20 and 21, the EXCLUSIVE OR element 22, are introduced into the device, and the keys 27, 28 are two-way. The input signal through the input terminals 13 and 14 is supplied to the control windings 9-12, and the flow of current in these windings changes the magnetic induction in the ferromagnetic cores 1-4, which causes a signal to appear in the windings 5-8 of excitation which is allocated to resistors 23-26. The windings 5, 6 are fed from the alternating voltage generator 19 directly, and the windings 7, 8 are fed through the element 20. The elements 21 and 22 separate the key control signal 27 and 28, as a result, the unbalance signal of the cores 1, 2 and 3, 4. The integrator 30 extracts this signal and, via feedback element 31, transmits feedback to the windings 15-18, and compensates for the induction in the cores 1-4. 3 il.

Description

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Claims (1)

The formula of the invention of the adder 29 - a positive signal '> Y, (t) = Y ₄ (t) - Y / t) = Yjt) (Fig. 3e); in the time period t ₇ , .. t _g when the voltage U _t (t) is negative, the output signal of the adder 29 Y _f (t) is also positive and is determined by the difference Y, (t) - Y _a (t) = Y ₃ (t) (Fig. Ze) during a period of time t ₁₀ ... ε _β. when the voltage U ₂ (t) is negative, the signal Yj (t) of the adder 29 remains positive and is equal to the difference Y ^ (t) - Y ₅ - (t) = = Ytf _ (t) (Fig. Ze). current, the first measurement of the output then comes from its When changing the direction of the input DC current X (t) flowing through the device control windings 9-12, the magnetization characteristics of cores 1 and 2 and the inductance changes in them change places, as well as the magnetization characteristics and changes in the inductions in the cores 3 and A change places. which ultimately leads to a change in the polarity of the signal Yj (t) at the output of the adder 29. I ‘ To increase the accuracy of the input constant current signal Yj (t) of the adder 29 to the input of the integrator 30, and the output to the output terminal 32 and through the feedback element 31 to the windings. 15-18 feedback. When the signal Y # (t) = 0 appears at the input of the integrator 30, a signal Yg (t) = 0 arises at its output, the floor through which the magnetization current of the cores 1-4 appears in the feedback windings 15-18, in the opposite direction to the magnetization current control windings 9–12 and completely compensating for its initial effect on the hacharacteristics of core magnetization 1–4. As a result of this, the inductions B / t), B ₄ (t), B ₃ (t), and B ₊ (t) in the cores 1 - 4 will again correspond to a condition similar to the absence of input DC current X (t) device va (FIG. 2c, d), causing the appearance, in Yj (t) the input signal of the integrator 30 = 0. As a result, the output signal of the integrator 30 (DC transformer output signal) will cease to change and remain at ₉ ^v (t) f 0, corresponding to the compensation of the magnetizing currents of the windings 15 to связи8 of the feedback of the magnetizing currents of the control windings 9 12 (Fig. 3g). "5 A constant transformer containing four resistors, the terminals of the first and second resistors are connected to a bus of zero potential, two ferromagnetic cores; with field windings, control windings and reverse feedback windings, respectively, control windings of the first and second ferromagnetic ser-. the detectors are connected according to, according to the feedback windings of the first and second ferromagnetic cores are connected, the beginning of the excitation winding of the first ferromagnetic core is connected to the second terminal of the first resistor, and the end is connected to the beginning of the excitation winding of the second ferromagnetic core, while the end of the excitation winding of the second ferromagnetic core is connected to the second the output of the second resistor, an alternating voltage generator, the first output of which is connected to the end of the field winding of the first ferromagnetic core, the second output of the alternating voltage generator is connected to the bus of the potential potential, the first input of the first key is connected to the second output of the First resistor, the first input of the second key is connected to the second output of the second resistor, the adder, the output of which is connected to the input of the integrator, the output of which is connected to the input feedback element and is the output of the device, the beginning of the feedback winding and the second ferromagnetic core is connected to the zero potential bus, characterized in that, in order to increase the dynamics accuracy, two phase-shifting elements and an EXCLUSIVE OR element, the third and fourth ferromagnetic cores with excitation windings, control windings and feedback windings, respectively, are introduced into it, the control windings of the third and fourth ferromagnetic cores are connected according to, and the feedback windings of the third and fourth are connected. fourth ferromagnetic cores, the excitation coil top third ferromagnetic core is connected to the second terminal of the third resistor, and the end - with the start of the fourth ferromagnetic field winding ¹¹ 1597755 2 one core, the end of the winding occurs first resistor, a second terminal of the fourth Thursday of excitation of ferromagnetic resistor connected to the second input core is connected to the second terminal of the fourth resistor, the first $ leads of the third and fourth resistors are connected to the minus zero potential, the input of the first phase the bias element is connected to the first output of the alternating voltage generator and the first input of the EXCLUSIVE OR element, the second input of which is connected to the output of the first phase-shifting element and the start of the excitation winding of the fourth ferromagnetic core, the output of the EXCLUSIVE OR element is connected through the second phase-shifting element to the control inputs of both two-position keys, the second input of the first dvuhozitsioinogo 2Ι key is connected to the second output of the third second second dvukhizioiinoi key, the output of which is connected the inverting input of the adder, the non-inverting input of which is connected to the output of the first on-off key, the output of the feedback element is connected to the end of the feedback winding of the third ferromagnetic core, the beginning of the feedback winding of the fourth ferromagnetic core is connected to the end of the feedback winding of the first ferromagnetic core, the end of which control winding. ; connected to the beginning of the control winding of the fourth ferromagnetic core, the beginning and end of the control windings of the third and first fairy ferromagnetic cores respectively are inputs.