CS220355B1 - Current measurement wiring - Google Patents

Abstract

The wiring for measuring the voltage or current stabilizer with active shielding allows lossless measurement of the output current of the voltage or current stabilizer without the need to insert a measuring resistor into the grounded branch of the stabilizer.

Description

BACKGROUND OF THE INVENTION The invention relates to a voltage stabilizer or active shield current measurement circuit that allows lossless output current measurement in both voltage stabilization and current stabilization modes.

The known voltage stabilizing or current shielding current connection circuits utilize a measuring resistor connected to a grounded stabilizer branch to measure current against a grounded stabilizer terminal, which is very disadvantageous due to the interfering currents flowing through this measuring resistor. At the same time, the current of the voltage stabilizer comparator flows through the measuring resistor.

This disadvantage is overcome by the current measurement circuit according to the invention, which is based on current measurement by measuring the voltage difference between one end of the sensing resistor and the active shield terminal having the same potential as the other end of the sensing resistor.

The object of the invention is a wiring for measuring a voltage stabilizer or an active shield current with an active shield amplifier connected by one input terminal to the stabilizer output terminal and the other input terminal connected to the active shield terminal, the active shield amplifier output terminal being connected to the control electrode of the serial control element. wherein an operational amplifier is used to measure the output current, one input terminal of which is connected to a first resistive divider and the other input terminal is connected to a second resistor divider and simultaneously through a feedback resistor with the output terminal of the amplifier, the second and third resistors are connected to one sensing resistor input and the second resistive divider of the fourth and fifth resistors is connected to the active shield terminal.

The higher effect of the circuitry according to the invention over the prior art consists in the possibility of lossless measurement of the output current of the voltage stabilizer or of the current, without the need to insert a measuring resistor into the grounded branch of the stabilizer.

The circuit according to the invention will be described in more detail by way of example with reference to the drawings, in which Fig. 1 is a general circuit for measuring the voltage of a voltage stabilizer or an active shielded current, and cbr. 2 is one exemplary embodiment.

In Fig. 1, the first active shield amplifier A1 is connected by a first input terminal to the output terminal V of the stabilizer. Its second input terminal is connected to the active shield S. The output of the first amplifier A1 is connected to the input electrode of the series control element T1, whose output electrode is connected to the output terminal of the stabilizer via a sensing resistor R1. The second current measuring amplifier A2 is connected by one input terminal between the fourth and fifth resistors R4 and R5 and simultaneously via the second feedback resistor RB with the output terminal of this amplifier. The resistive divider of the fourth and fifth resistors R4, R5 is connected to the active shield -S · .- The second input terminal of the second amplifier A2 is connected between the second and third resistors R2 and R3. The first resistive divider of the second and third resistors R2, R3 is connected to one terminal of the sensing resistor R1 at point A where the required control voltage can be generated. Ammeter I is connected between the ground source terminal and the output terminal of the second amplifier A2.

In Fig. 2, in an exemplary embodiment, one input of the first active shielding amplifier A1 is connected to the output terminal of the stabilizer while its second input is connected to the active shielding S. The output of the first amplifier A1 is connected to the input electrode of the serial control element T1 via a limiting resistor. at the same time to the protective resistor R9. A sensing resistor R1 is connected between the output electrode of the series control element T1 and the output terminal V of the stabilizer; its first input is connected to the first input terminal of the third amplifier A3 for current control, the second terminal of the third amplifier A3 is connected via the first feedback resistor R7 to the active shield S, to which the output of the third amplifier A3 is also connected.

The first input terminal of the second amplifier A2 for current measurement is connected via a second resistor R2 to one sensing resistor R1, the second input terminal of the second amplifier A2 is connected to a second feedback resistor RB and simultaneously through a fourth resistor R4 to the active shield S. the amplifier A1 in Figure 1 maintains a zero voltage difference between the active shield S with the output terminal of the stabilizer, the voltage difference between the active shield S and point A is given only by the current passing through the sensing resistor R1 (assuming the input current of the first amplifier A1 is negligible) so that the voltage at the input terminals of the second amplifier A2 is proportional to the output current.

The output voltage of the second current measuring amplifier A2 in Fig. 2 is proportional to the difference in voltage at point A and the voltage at the active shield S. Since the first amplifier A1 maintains a zero potential difference between the stabilizer output terminal V and the active shield S, amplifiers A2 proportional to the output current of the stabilizer.

The circuitry of the invention is applicable to all types of special active shielding stabilizers, since it allows the measurement of the output current magnitude without affecting the output voltage magnitude. Since there is no need to include a sensing resistor for current measurement in the grounded output terminal of the stabilizer, the dynamic properties of the stabilizer will be greatly improved.

Claims (1)

SUBJECT Voltage stabilizer or active shield current measurement wiring with an active shield amplifier connected by one input terminal to the stabilizer output terminal and the other input terminal connected to the active shield terminal, the active shield amplifier output terminal being connected to the control electrode of the serial control element where measurement of output current is used opamp, one input terminal is connected OF THE INVENTION to a first resistive divider and a second input terminal is connected to the second resistive divider and simultaneously through a feedback resistor with an output terminal of the amplifier, characterized in that the first resistive divider of the second and third resistors (R2, R3j is connected to one sensing R1J and the second resistive divider of the fourth and fifth resistors (R4, R5) are connected to the active shield terminal (S).