JPH02231926A - Current monitor circuit - Google Patents

Abstract

PURPOSE:To arrange load current easily by emitting light uniformly from light emitting elements connected in series with the output side of differential amplifiers arranged between resistors arranged in a plurality of power source units connected in parallel and a power source monitor terminal. CONSTITUTION:A plurality of power source units 21, 22 are connected in parallel, and current is fed to a load 23. The units 21, 22 open or close transistors Tr 24, 25 based on the outputs from differential amplifiers 26, 27 to regulate reference voltage generating sections 30, 31 so as to control the duty, thus regulating load current. The units 21, 22 are also provided with load current detecting resistors 28, 29. Voltages across the resistors 28, 28 are fed to differential amplifiers 36, 37 connected in series with LEDs 38, 39 which are connected through resistors 40, 41 and connecting lines 42, 43 with current monitor terminals 32-35. Then the reference current generating sections 30, 31 are regulated to arrange light emitting condition of the LEDs 38, 39 so as to feed current uniformly to the power source units 21, 22. By such arrangement, regulating work can be facilitated.

Description

[Detailed Description of the Invention] [Summary] To provide a current monitor circuit that can easily adjust the output currents of power supply units connected in parallel with each other without any effort. In a plurality of power supply units connected in parallel, a differential amplifier inserted between each resistor provided in each power supply unit and each power supply monitor terminal;
and a light emitting element connected in series to the differential amplifier.

[Industrial Application Field] The present invention relates to a power supply monitor circuit for adjusting each output current of power supply units connected in parallel.

There is a limit to the output current of one power supply unit, so it is necessary to increase the size of the device that uses the power of this power supply unit,
When expanding, the output will be insufficient. For this reason, power supply units with the same specifications are connected in parallel to supply a large current.

In this case, it is necessary to equalize the current of each power supply unit. That is, if variations occur in the output current of each power supply unit, the load current of each power supply unit will be different, which may cause a failure in the power supply unit. Therefore, it is necessary to monitor and adjust the output current of each power supply unit so that it is equalized.

The output voltages of the voltmeters 19 and 20 are checked during adjustment, and the reference voltages of the reference voltage generators 7 and 8 are adjusted so that the output currents are equal.

[Prior Art] As a conventional current monitor circuit, there is one shown in FIG. 4, for example.

In FIG. 4, 1 is a power supply unit, and this power supply unit 1 is connected to a power supply unit 2 in parallel. These power supply units 1 and 2 include transistors 3 and 4, differential amplifiers 5 and 6, reference voltage generators 7 and 8, and resistors 9 and 1.
Consisting of a constant voltage circuit consisting of 0, power supply units 1 and 2
A load 11 is connected to.

As shown in FIG. 5, the reference voltage generators 7 and 8 have a Zener diode 12 and resistors 13 to 16, and by changing the resistance value, the generated reference voltage can be made variable.

Current monitor terminals 17 are located at both ends of resistors 9 and 10 in FIG.
．． [Problem to be Solved by the Invention] However, in such a conventional current monitor circuit, a voltmeter is connected to each current monitor terminal of each power supply unit. Since the output current of the power supply unit was adjusted while checking the output value of the voltmeter, it was necessary to prepare and connect as many voltmeters as the number of power supply units, or to connect and disconnect them with one voltmeter. There was a problem in that the adjustment required a great deal of effort.

The present invention has been made in view of these conventional problems, and it is an object of the present invention to provide a current monitor circuit that can be easily adjusted without much effort.

[Means to solve the problem] FIG. 1 is a basic configuration diagram of the present invention.

In FIG. 1, 21.22 is a plurality of power supply units connected in parallel, and 36.37 is each power supply unit 21.
a differential amplifier inserted between each resistor 28, 29 provided in 22 and each power supply monitor offspring 33-35, 38.
39 is a light emitting element connected in series to the differential amplifiers 36 and 37.

[Operation] In the present invention, when adjusting the balance of output currents of each power supply unit, the current monitor terminals of each power supply unit are connected to each other, and it is checked whether each light emitting element lights up.

When all the light emitting elements do not light up, the output current of each power supply unit is adjusted by changing the reference voltage.

When the output currents of each power supply unit are balanced, the anode voltages of each light emitting element become equal, so that all of the light emitting elements light up.

That is, since it is only necessary to adjust so that all the light emitting elements of each power supply unit are lit, there is no need to connect a voltmeter as in the conventional case, and the effort required for adjustment is reduced.

[Example] Embodiments of the present invention will be described below based on the drawings.

FIGS. 2 and 3 are diagrams showing one embodiment of the present invention.

First, to explain the configuration, in Fig. 2, 21.22
indicates each power supply unit, and each power supply unit 21
．． 22 are connected in parallel.

A load 23 is connected to each power supply unit 21, 22.

Each power supply unit 21.22 is constituted by a constant voltage circuit, and each includes a transistor 24.25, differential amplifiers 26, 27, a resistor 28.29, and a reference voltage generation section 30.31. As shown in FIG. 5, the reference voltage generator 30.31 includes a Zener diode 12 and resistors 13 to
6, the reference voltage is made variable by changing the resistance value as shown by the arrow, and each power supply unit 21, 2
2 output current can be adjusted.

Here, both ends of the resistor 28, 29 and the current monitor terminal 32
, 33, 34.35, there are installed differential amplifiers 36, 37 and a light emitting diode (light emitting element > 38.39) connected in series with the differential amplifier 36.37 and having a forward voltage drop OV. These differential amplifiers 36, 37 and ideal diodes made up of light emitting diodes 38, 39 constitute the current monitor circuit of the present invention.

One end side of the resistors 28 and 29 is connected to the positive input terminals of the differential amplifiers 36 and 37, and the voltage V I is connected to the positive input terminals.
NI is applied, the negative input terminals of the differential amplifiers 36 and 37 are connected to the cathodes of the light emitting diodes 38 and 39, and the voltage VIN2 is applied to the negative input terminals. The output voltage vO of the differential amplifier 36.37 is shown by the following formula (■), and if the amplification factor A of the differential amplifier 36.37 is A → ■ (■ formula, see>, ■ formula, ■ formula are obtained. .therefore,
Differential amplifiers 36, 37 function as buffers.

Vo-(VINI-VIN2)xA ・--■V
O/A=VIN1 −VIN2 −
- -■(A-+■) VINI -VIN2 =O ・・
・■VIN2=VM now V INI...
・■ (VH is the voltage on the cathode side of the light emitting diodes 38 and 39) The cathode side of the light emitting diodes 38 and 39 is connected to the resistor 40.
41 to the other ends of the resistors 28 and 29, respectively, and the power monitor terminals 33 and 34 and the power monitor terminals 33 and 35 are connected by connection lines 42 and 43, respectively.

Next, the operation will be explained.

When adjusting the balance of output currents of each power supply unit 21.22, current monitor terminals 32.34 and 33.35 of each power supply unit 21.22 are connected to each other.

Here, the output current of the power supply unit 21 is
2, the current value of the power supply unit 21 is monitored, and only the light emitting diode 38 of that power supply unit 21 is lit. On the other hand, the voltage VH is applied to the negative input terminal of the differential amplifier 37 of the power supply unit 22, and since VM>VINI, the light emitting diode 39 does not light up.

By making the reference voltage of the reference voltage generator 30.31 variable, the output current of the power supply unit 21.22 is adjusted,
When the output currents of the power supply units 21 and 22 are balanced, the anode voltages of the light emitting diodes 38 and 39 become equal, so that the light emitting diodes 38 and 39 light up.

That is, if the reference voltage of the reference voltage generator 30.31 is adjusted so that all the light emitting diodes 38.39 of each power supply unit 21.22 are lit, each power supply unit 2
The output current of 1.22 becomes equal. Unlike the conventional method, there is no need to prepare and connect voltmeters for each power supply unit, or to connect and disconnect one voltmeter, so there is no need to make adjustments.

[Effects of the Invention] As explained above, according to the present invention, in a plurality of power supply units connected in parallel, an ideal light emitting device composed of a differential amplifier and a light emitting diode is connected between the resistor and the current monitor terminal. By inserting diodes, you can adjust the output current of each power supply unit equally by adjusting so that all the light emitting diodes are lit.
In this case, since there is no need to use a voltmeter as in the conventional case, the effort required for adjustment can be significantly reduced.

[Brief explanation of the drawing]

Figure 1 is a basic configuration diagram of the present invention, Figure 2 is a diagram showing an embodiment of the present invention, Figure 3 is a diagram showing an equivalent circuit, Figure 4 is a diagram showing a conventional example, and Figure 5 is a standard diagram. FIG. 3 is a diagram showing a voltage generation section. In the figure, 21.22...Power supply unit, 23...Load, 24.25...Transistor, 26.27...Differential amplifier, 28.29...Resistor, 30.31... Reference voltage generation section, 32-35... Current monitor terminal, 36.37... Differential amplifier, 38.39... Light emitting diode (light emitting element) 40.4
1...Resistance, 42.43...Connection line.

Claims (1)

[Claims] A plurality of power supply units (21), (22) connected in parallel
), a differential amplifier (
36), (37) and the differential amplifier (36), (37)
A power supply monitor circuit comprising: light emitting elements (38) and (39) connected in series to the power supply monitor circuit.