JPH0360365A - Dc-dc converter - Google Patents

Abstract

PURPOSE:To avoid a phase delay and obtain an output voltage with high stability by a method wherein the DC voltage of the input side of a switching circuit is compared with a reference chopped wave to control the switching circuit. CONSTITUTION:An input voltage is detected by an operational amplifier 4 and inputted to the minus terminal of a comparator 5. If the input voltage is high, the voltage of the minus terminal is high and the ON/OFF duty ratio of a rectangular wave of pulse width modulation obtained by comparing the input voltage with a reference chopped wave is reduced. The ON/OFF time ratio is reduced and the output is lowered. lf the input voltage is low, the duty ratio is increased and the ON/OFF time ratio is reduced and the output becomes high. With this constitution, the fluctuation of the input voltage can be compensated and a table output voltage can be obtained. As the compensation is performed in accordance with the input voltage, the response of a switching circuit 2 to the fluctuation of the input voltage is quick, so that the output voltage can be highly stabilized.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a DC-DC converter that converts an unstable DC voltage into a required stable DC voltage.

[Conventional technology]

Conventionally, in this type of DC-DC converter, as shown in FIG. 2, an input DC voltage is passed through an input filter 1 and then turned on by a switching circuit 2.

It is turned off, smoothed by an output filter 3, and output as a required DC voltage. Then, this output voltage is detected by the operational amplifier 4, and this detected voltage is compared with the triangular wave output from the reference triangular wave generator 6 in the comparator 5, and pulse width modulation is performed. By controlling the output voltage, the output voltage is stabilized.

Note that the comparator 5 configures a negative feedback control system by inputting the detected voltage to the negative terminal and inputting the reference triangular wave to the positive terminal.

[Problem to be solved by the invention]

In the conventional configuration described above, the output voltage after being smoothed by the output filter 3 is detected, and feedback control of the switching circuit 2 is performed based on this detected voltage, so a phase lag occurs in this feedback system. easy.

When this phase lag becomes significant, the control system may become unstable and oscillate, creating a problem in that it is difficult to obtain a highly stable output voltage.

An object of the present invention is to provide a DC-DC converter that can prevent phase lag and obtain a highly stable output voltage.

(Means for Solving the Problems) The DC-DC converter of the present invention includes an input filter, a switching circuit, an operational amplifier, a reference triangular wave generator, a comparator, and an output filter, and the operational amplifier is on the side that is input to the switching circuit. The DC voltage of the switching circuit is detected, and this detected voltage is compared with a reference triangular wave in a comparator to control the on/off ratio of the switching circuit.

[Effect]

In this configuration, the switching circuit is controlled by comparing the DC voltage at the input end of the switching circuit with a reference triangular wave, so fluctuations in the input DC voltage are quickly detected and responded to, reducing the phase lag of the output DC voltage. do.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block circuit diagram of one embodiment of the present invention. In the figure, ■ is an input filter, 2 is a switching circuit,
3 is an output filter, which is the same as the conventional one.

In addition, 4 is an operational amplifier, and here the input filter 1
It is configured to detect the DC voltage input to the

The detected voltage of the operational amplifier 4 is inputted to the negative terminal of the comparator 5, and the reference triangular wave from the reference triangular wave generator 6 is inputted to the positive terminal of the comparator 5. It is configured to control the on/off time ratio in the switching circuit 2.

Next, the operation will be explained.

The DC voltage that has passed through the input filter 1 is switched on and off in a switching circuit 2 by a pulse width modulated output rectangular wave signal of a comparator 5. The switched input voltage is smoothed by the output filter 3 and output as an output voltage.

At this time, the input terminal is detected by the operational amplifier 4 and input to the negative terminal of the comparator 5, so when the input voltage increases, the voltage at the negative terminal increases, and the rectangular pulse width modulation is generated by comparison with the reference triangular wave. The on/off duty ratio of the wave is reduced. This reduces the on/off time ratio and controls the output to the low side. Conversely, when the input voltage decreases, the on/off duty ratio of the rectangular wave increases, the on/off time ratio increases, and the output is controlled to the high side. This compensates for input voltage variations and
Stable output voltage can be obtained.

And since this compensation is done based on the input voltage,
The response of the switching circuit 2 to fluctuations in the input terminal becomes faster, and the output voltage can be highly stabilized.

〔Effect of the invention〕

As explained above, the present invention controls the switching circuit by comparing the DC voltage on the input side of the switching circuit with the reference triangular wave, so fluctuations in the input DC voltage can be quickly detected and a compensation response to the fluctuations can be made. This has the effect of improving performance and achieving highly stable output voltage.

[Brief explanation of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is a block diagram of an example of a conventional DC-DC converter. 1... Input filter, 2... Switching circuit, 3
. . . Output filter, 4. Operational amplifier, 5. Comparator, 6. Reference triangular wave generator. Figure 1 Figure

Claims (1)

[Claims] 1. A switching circuit that switches a DC voltage input through an input filter, an operational amplifier that detects this input DC voltage, a reference triangular wave generator that generates a reference triangular wave signal, and a circuit that compares the detected voltage with the reference triangular wave signal. A DC-DC converter comprising: a comparator that controls an on/off ratio of the switching circuit; and an output filter that smoothes an output voltage of the switching circuit.