JPS61180572A - Dc/dc converter - Google Patents

Abstract

PURPOSE:To prevent power loss due to a dummy resistor from generating except at light load time by monitoring the output current of a DC/DC converter, and automatically connecting the resistor with an output terminal when the converter has a light load. CONSTITUTION:The output from a DC/DC converter is supplied through a series circuit of a diode 12 and a resistor 13 to an auxiliary power source circuit 2 to monitor the output current of the converter by the input voltage of the circuit 2. A dummy resistor is automatically connected with the output terminal of the converter when the converter has a light load.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention relates to a separately excited DC-DC converter (hereinafter referred to as DC/D converter).
It is called a C converter. ) regarding.

(Prior Art) First, a conventional separately excited type DC/I)C converter will be described with reference to two drawings.

Figure 3 shows an example of a conventional DC/1)C converter.
This is shown in the figure below. Input terminal l is connected to switching circuit 5 and auxiliary power supply circuit 2 . The output terminal of the switching circuit 5 is connected to an output terminal 8 via a rectifying and smoothing circuit 6.
The output terminal 8 is connected to the signal input terminal of the control circuit 3. An output terminal of the auxiliary power supply circuit 2 is connected to a power supply input terminal of a control circuit 3, and a signal output terminal of the control circuit 3 is connected to a drive circuit 4, which is switched.

Further, FIG. 2 shows another example of the conventional DC/DC converter. The DC/DC converter shown in FIG. 2 is compared to the DC/DC converter shown in FIG.

A resistor 9 is provided between the rectifying and smoothing circuit 6 and an output terminal 80, and the voltage drop across the resistor 9 is amplified by an amplifier 10, and then rectified by a switch circuit 11 driven by the output from the amplifier 10. The difference is that a resistor 7 provided at the output end of the smoothing circuit 6 is opened and closed.

(Problems to be Solved by the Invention) By the way, in the DC/DC converter shown in FIG. 3, since the resistor 7 is always connected to the output terminal 8, the resistor used as a dummy resistor Power loss occurs not only in light load conditions where a dummy current needs to flow through 7, but also in a current range where a dummy current is not required, resulting in a decrease in efficiency and an increase in the size of the DC/1)C converter itself. There is a drawback.

In addition, in the DC/DC converter shown in FIG. 2, the resistor 7 used as a dummy resistor is connected only in a light load state by the switch circuit ll, so the DC/DC converter shown in FIG. Although the disadvantages of the C converter are eliminated, since the current detection resistor 9 is inserted into the output terminal 8, there are problems such as deterioration of the stability of the output voltage and the need to widen the dynamic range of the control circuit 3. .

An object of the present invention is to provide a DC/I)C converter that prevents a decrease in efficiency, is small in size, and has high output voltage stability. (Means for solving the problems) According to the present invention , a first switching circuit having an input end and an output end, the first switching circuit being connected to the input end.

an auxiliary power supply circuit connected to the input end, a first switching circuit and a rectification smoothing circuit connected to the output end;
A control circuit connected to the auxiliary power supply circuit and connected to the above output terminal;
In a separately excited DC-DC converter having a drive circuit connected to a switching circuit, a first diode is inserted between the input terminal and the auxiliary power supply circuit,
A series connection circuit including a second diode and a first resistor is inserted between the above output terminal and the auxiliary power supply circuit, and the input terminal of the auxiliary power supply circuit is connected to the second through the voltage detector. connected to a switch circuit, the second switch circuit being connected to a second switch circuit;
A DC-DC converter is obtained, characterized in that the DC-DC converter is connected to the output terminal via the resistor.

(Function) The DC/DC converter of the present invention supplies power to the auxiliary power supply circuit through the input terminal and the first diode at startup, and after startup supplies power to the auxiliary power supply circuit through the output terminal and the second diode and the first diode. Power is supplied to an auxiliary power supply circuit through a series circuit with a resistor, and the input terminal of the auxiliary power supply circuit is connected to the input terminal of a second switch circuit through a voltage detector, so that power is supplied to the second switch circuit. By opening and closing the second resistor, the output current is indirectly monitored by the current flowing through the control circuit without providing a current detection resistor at the output terminal of the converter.

A second resistor is connected to the output terminal during light load conditions.

(Example) The present invention will be explained below with reference to Examples.

FIG. 1 is a block diagram of one embodiment of a DC/I)C converter according to the present invention.

To explain the DcA)C converter according to the present invention with reference to FIG. 1, an input terminal 1 is connected to a switching circuit 5 using a bipolar transistor, and is also connected to an auxiliary power supply circuit 2 via a diode 14. .

The switching circuit 5 is connected to a rectifier/smoothing circuit 6, and this rectifier/smoothing circuit 6 is connected to an output terminal 8. Further, the output terminal 8 is connected to a control circuit 3, and the auxiliary power supply circuit 2 is connected to the control circuit 3. moreover.

This control circuit 3 is a drive circuit 4. A driving circuit 4 is connected to a switching circuit 5.

On the other hand, the output terminal 8 is connected to the input side of the auxiliary power supply circuit 2 via a series circuit consisting of a diode 12 and a resistor 13. Further, the input side of the auxiliary power supply circuit 2 is a voltage detection circuit 15. The voltage detection circuit 15 is connected to a switch circuit 11 having hysteresis characteristics. This switch circuit 11 is connected to an output terminal 8 via a resistor 7.

In the above DC/DC converter, the diode 14
The series circuit consisting of the diode 12 and the resistor 13 together constitute a diode switch circuit.

Diode 14 is connected from input terminal 1 when the converter starts up.
The input/output potential relationship is set so that power is supplied to the auxiliary power supply circuit 2 through the power supply circuit 2. Furthermore, after the converter is started, the diode 12. Power is supplied via resistor 13.

It is proportional to the output impedance of the inverter itself. Therefore, for example, when the output current of the DC/DC converter decreases, the current flowing to the control circuit 3 via the auxiliary power supply circuit 2 decreases. Therefore, the voltage drop caused by the resistor 13 changes. Therefore, if the input voltage of the auxiliary power supply device 2 is monitored, when the converter is present, ie, DC/I)
When the C converter is under a light load, the input voltage of the voltage detector 15 increases.

When the input voltage to the voltage detector 15 exceeds a predetermined value,
In response to the output of the voltage detector 15, the switch circuit 11 operates (turns on). When the switch 11 is turned on, current flows through the resistor 7. the result.

This prevents the current flowing through the rectifying and smoothing circuit 6 of the DC/DC converter from becoming discontinuous. In addition, Sui.

The circuit 11 has a hysteresis characteristic and therefore does not become unstable at the operating point.

FIG. 4 shows the operating characteristics of the DC/DC converter according to the present invention. Figure 4 shows the output current of the DC/DC converter on the horizontal axis and the input voltage of the auxiliary power supply circuit on the vertical axis.
This is the operating characteristic shown on the input voltage side of the C/DC converter.

Hereinafter fp-day (effects of the invention) As explained above, a DC/I)C comparator according to the present invention
By connecting the output from the DC/DC converter to the auxiliary power supply circuit through a series circuit consisting of a diode and a resistor, the output current of the DC/I)C converter can be adjusted to the input voltage of the auxiliary power supply circuit. monitored by.

By automatically connecting a dummy resistor to the output terminal of the DC/DC converter when the load is light, power loss due to the dummy resistor is prevented for loads other than light loads, and efficiency is improved. Furthermore, since no current detection resistor is inserted into the output line, output stability does not deteriorate.

In the present invention, since the operating point of the switch circuit changes depending on the input voltage, the inductance is apparently corrected for the input voltage, and the auxiliary power supply circuit and control circuit themselves function isometrically as dummy resistance, so the effect is pure. It also has the effect of minimizing dummies.

Margin below

[Brief explanation of the drawing]

Fig. 1 is a diagram showing an example of a DC/DC'' triple converter according to the present invention, Fig. 2 is a diagram showing an example of a conventional DC/DC converter, and Fig. 3 is a diagram of a conventional DC/DC converter. /D
A professional diagram showing another example of the C converter. FIG. 4 is a diagram showing the operating characteristics of the DC/DC converter shown in FIG. 1. l... Input terminal, 2... Auxiliary power supply circuit, 3... Control circuit, 4... Drive circuit, 5... Switching circuit, 6... Rectifier/smoothing circuit, 7... Resistor Vessel, 8...
Output terminal, 9...resistor, 10...amplifier, 11 river switch, circuit. 12...Diode, 13...Resistor, x4...
Diode, 15...voltage detector. Figure 4

Claims (1)

[Claims] 1. A first switching circuit comprising an input end and an output end, a first switching circuit connected to the input end, an auxiliary power supply circuit connected to the input end, and a first switching circuit connected to the first switching circuit and the output end. a rectifying and smoothing circuit; a control circuit connected to the auxiliary power supply circuit and to the output terminal;
In a separately excited DC-DC converter having a drive circuit connected to the control circuit and the first switching circuit, a first diode is provided between the input terminal and the auxiliary power supply circuit. A series connection circuit including a second diode and a first resistor is inserted between the output terminal and the auxiliary power supply circuit, and the input terminal of the auxiliary power supply circuit is connected to the first resistor through a voltage detector. 2. A DC-DC converter, characterized in that the second switch circuit is connected to the output terminal via a second resistor.