SU840747A1 - Pulse converter load current sensor - Google Patents

Description

(54) LOAD CURRENT SENSOR OF PULSE CONVERTER PERFORMED ON THE BRIDGE DIAGRAM

one

The invention relates to converter technology and can be used, for example, in electric drives with pulse converters for controlling the load current.

Known load current sensors, made on the basis of magnetic amplifiers OJ.

The disadvantage of these devices is the complexity of the design associated with the presence of transformers and the impossibility of completing their circuits, and therefore with full integration.

Closest to the proposed technical solution is a device that contains a converter made according to a bridge circuit with reverse diodes, and two shunts included in the converter's shoulders and having a common point connected to the converter case, and a subtractive amplifier, whose inputs are separately connected to different shun- there tz.

However, with a symmetric switching law in any mode of operation of the converter, the load current can flow through only one of the shunts, and therefore the output of the subtracting amplifier will always have a signal proportional to the load current. With an asymmetrical switching law of the power converter, the load current can flow simultaneously through two shunts. In this mode, the device has a large error, as the amplifier sums the signals from both shunts, and a signal proportional to the double load current appears at its output.

The purpose of the invention is to improve the measurement accuracy with asymmetric switching law.

The goal is achieved by the fact that a current transducer transducer load made according to a bridge circuit containing two shunts connected to the transducer 3 shoulders and having a common terminal, connected to the main body, and the adder are inserted inverting and non-inverting amplifiers whose inputs are connected with corresponding shunts, a bridge rectifier whose AC terminals are connected respectively to the outputs of an inverting and non-inverting amplifiers, and the inputs of the adder are connected to the terminals Ncogo constant current bridge rectifier. The drawing shows the principle on the scheme of the proposed sensor current load. The current sensor contains shunts 1 and 2, a non-inverting amplifier 3, an inverting amplifier 4, diodes 5-8 bridge rectifier, 9, adder 10, pulse converter 11, switches 12-15 of the pulse converter, reverse diodes of the pulse converter 16-19, load 20. The device operates as follows. With the asymmetrical switching of keys 12-15, the modes of operation are possible when the load current flows part of the period through one shunt, and the other part goes through two shunt simultaneously, and when the load current flows part of the period through one shunt, and the hour of the period on another schuntu. If switches 12 and 15 are turned on, the current flows through the (+) - 12-20-15-2 (-) circuit of the converter. The positive voltage from shunt 2 is fed to the input, amplified, and fed to diodes 5 and 6, to the input of the amplifier 4, a zero signal is applied, and, consequently, diodes 7 and 8 also receive a zero signal. In this case, out of four diodes 5-8, direct voltage is applied only to diode 5, and it opens, giving a positive signal to one of the inputs of the adder 10, and zero voltage is applied to the other input. At the output of the amplifier 10 there is a positive signal proportional to the load current. In the next part of the period, the switch 12 is closed and the current flows through the circuit 20-15-2-1-16-20. A positive signal is fed to the input of the amplifier 3, and there is an amplified positive signal at the output of it, which is fed to diodes 5 and 6. A negative signal is fed to the input of amplifier 4, which is amplified and inverted, and a positive signal is fed to diodes 7 and 8 . t, equal to the positive signal at the output of amplifier 3. Diodes 5 and 8 open, and diodes 6 and 7 remain closed. A positive signal is applied to one of the inputs of the adder 10, and a zero signal to the other. Output 10 also has a positive signal proportional to the load current. When the current flows through the load in the opposite direction and the keys 13 and 14 are turned on, the current flows through the (+) circuit - K2-H-K4-E1- converter case. A positive voltage from shunt 1 is fed to the input of amplifier 4, amplified, inverted, and a negative potential is applied to diodes 7 and 8. The output of amplifier 3 has a zero potential that is applied to diodes 5 and 6. Diode 7 opens and supplies to one of The inputs of the adder 10 are negative, the other input has a zero signal, the output of the adder 10 has a negative signal proportional to the load current and informing that the load has a different polarity than in the considered case. In the next part of the period, the switch 12 closes and current flows through the circuit 20-13-1-2-19. A negative signal is fed to the input of amplifier 3, and there is an amplified negative signal at its output, which is fed to diodes 5 and 6. A positive signal is fed to the input of amplifier 4, which is amplified and inverted, and a negative signal is sent to diodes 7 and 8 equal to the negative signal output of amplifier 3. Diodes 6 and 7 open, and diodes 5 and 8 remain closed. In this case, a negative signal is fed to one of the inputs of the adder 10, and a zero signal to the other. At the output of the adder 10, there is a negative signal proportional to the load current. In the case when the load current flows part of the periods on one shunt, and part of the period on the other, and switches on 12 and 15, the current flows through the circuit () -K1-H-KZ-E2- converter case. The positive voltage from shunt 2 is fed to the input of amplifier 3, amplified and fed to diodes 5 and 6. Zero potential is applied to diodes 7 and 8, since zero potential is kept on shunt 2. Diode 5 is open

Claims (1)

Claim The load current sensor of a pulse converter, made according to the bridge circuit, containing two shunts, connected to the converter arms and having a common output connected to the converter housings, and an adder, characterized in that, in order to improve the measurement accuracy ₀ with an asymmetric switching law, into it introduced inverting and non-inverting amplifiers, the inputs of which are connected to the corresponding shunts, a bridge rectifier, whose AC terminals are connected respectively to the outputs of the inverting and non-inverting rtiruyuschego amplifiers and the inputs of the adder are connected to the DC terminals of the bridge rectifier. ₀ Sources of information taken into account during the examination 1. Brodsky V.N. and other drives with frequency-current control. ’’ Energy, 1974, p. 107. 5 2. IEEE transactions on industrial electronics and control instrumentation, 1977, 24, No. I, p. 100-107. ВНИИПИ Order 4754/65 Circulation 732 Subscribed Branch Patent Patent Uzhhorod, Project 4,