JPH114574A - Switching power supply control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the output voltage of a switching power supply from dropping to a prescribed value or less, by detecting the sharp increase of the load current of the switching power supply and controlling a switching pulse width while generating a correction voltage according to the amount of increased current. SOLUTION: When current to a load 7 rapidly increases, a load fluctuation current detection part 1 detects a rapidly increased load current and an operational amplifier 2 for controlling current outputs a correction voltage where a reference voltage (a) is subtracted from voltage being equivalent to a fluctuation load current. As a result, the output voltage of a DC-DC conversion part 6 is monitored via an output voltage sensing circuit 8, and the voltage changes in a point (e) being obtained by dividing the output voltage of an operational amplifier 3 for controlling voltage being stabilized from the output voltage of the operational amplifier 2 for controlling current by resistor. Accordingly, a comparator 4 compares the voltage at the point (e) with a triangular wave (c) before inputting to a switching part 5 as a switching pulse (d), thus suppressing the rapid drop of the output voltage of the DC-DC conversion part 6.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switching power supply control method, and more particularly to a switching power supply control method capable of responding to a steep load current fluctuation in a switching power supply for supplying power to a logical load.

[0002]

2. Description of the Related Art A conventional switching power supply control method is described in, for example, "NEC Data Book Power Supply IC" (1995).
“Publication of Switching Regulator Control IC μPC49” on pages 342 to 356 of
4 ".

FIG. 3 is a block diagram showing this conventional technique, in which a voltage control operational amplifier 3 for monitoring and stabilizing an output voltage of a switching power supply is compared with an output of the voltage control operational amplifier 3 and a triangular wave c. A comparator 4 for determining the switching pulse width by using
A switching unit 5 switched by the DC-D
It comprises a C converter 6 and a load 7.

The operation of the switching power supply control system having such a configuration will be described. First, the output voltage of the DC-DC converter 6 of the switching power supply is input to the voltage control operational amplifier 3 via the output voltage sense circuit 8. The voltage control operational amplifier 3 compares the output voltage with a preset reference voltage b, and compares the result with a comparator 4.
To enter. The comparator 4 compares the voltage output from the voltage control operational amplifier 3 with the triangular wave c to determine the width of the switching pulse d, and inputs the switching pulse d to the switching unit 5. The switching unit 5 performs switching by the switching pulse d output from the comparator 4, and supplies an output voltage based on the switching voltage to the load 7 from the DC-DC conversion unit 6.

[0005]

In the above-mentioned prior art, the output voltage is controlled by feedback such as output voltage monitoring → comparison with a reference voltage in an operational amplifier → pulse width control in a comparator. There is a limit to the response time corresponding to the above, and the output voltage drops transiently due to a steep increase in the load current. As a result, a required voltage cannot be supplied to the load.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a switching power supply control method for preventing an output voltage from dropping below a specified value when a load current sharply increases.

[0007]

According to a first switching power supply control method of the present invention, a steep increase in a load current of a switching power supply is detected, and a correction voltage corresponding to the increased current is generated to generate a switching pulse width. And controlling the output voltage of the switching power supply not to drop below a specified value.

According to a second switching power supply control method of the present invention, a switching power supply is controlled by comparing the output voltage of a switching power supply with a reference voltage and inputting the difference to a switching pulse generating means to control the width of the switching pulse. A steeply increasing load current value of the switching power supply, and comparing the detected value with a stored load current value before the increase to calculate a variation, and calculating a variation of the load current. A load fluctuation current detector that converts the fluctuation into a voltage and inputs the voltage to a current control operational amplifier, compares the voltage output from the load fluctuation current detector with a first reference voltage, and uses the difference as a correction voltage. A current control operational amplifier for outputting, and a voltage control operational amplifier for comparing an output voltage of the switching power supply with a second reference voltage and outputting a difference between the two. And having a comparator for generating a switching pulse by comparing the voltage and the triangular wave and the output of the voltage controlled operational amplifier and the output of the current control operational amplifier by resistance-dividing.

According to a third switching power supply control method of the present invention, an output voltage of a switching power supply is compared with a reference voltage, and the difference is input to a switching pulse generating means to control the width of the switching pulse. A steeply increasing load current value of the switching power supply, and comparing the detected value with a stored load current value before the increase to calculate a variation, and calculating a variation of the load current. A load fluctuation current detector that converts the fluctuation into a voltage and inputs the voltage to a current control operational amplifier, compares the voltage output from the load fluctuation current detector with a first reference voltage, and uses the difference as a correction voltage. A current control operational amplifier to be output, a voltage obtained by dividing the output of the current control operational amplifier and the output voltage of the switching power supply by resistance, and a second reference voltage Comparing, to a voltage controlled operational amplifier for outputting the difference, a comparator for generating a switching pulse by comparing the output with a triangular wave of the voltage controlled operational amplifier, characterized by having a.

[0010]

Embodiments of the present invention will be described with reference to the drawings.

First, a first embodiment of the present invention will be described with reference to FIG.

FIG. 1 is a block diagram showing a first embodiment of the present invention, in which a load fluctuation current detecting section 1 for detecting a sudden change in load current and a current control section for outputting a correction voltage due to load current fluctuation. A voltage-controlled operational amplifier 3 for monitoring and stabilizing the output voltage of the operational amplifier 2, a DC-DC converter 7, and a value obtained by dividing the output voltages of the current-controlled operational amplifier 2 and the voltage-controlled operational amplifier 3 by resistance. Comparator 4 for comparing with triangular wave c to determine the switching pulse width
And a switching unit 5 that switches with a switching pulse d output from the comparator 4, a DC-DC converter 6 that is switched to supply a voltage to the load 8, and a load 7.

Next, the operation of the first embodiment of the present invention will be described in detail with reference to FIG.

First, when the load current flowing through the load 7 sharply increases, the load fluctuation current detecting unit 1 detects the load current value that has sharply increased, and stores the detected value and the stored load current value before the fluctuation. To calculate the variation of the load current.
Then, the load fluctuation current detector 1 converts the fluctuation of the load current into a voltage and inputs the voltage to one input terminal of the current control operational amplifier 2.

A reference voltage a is input to the other input terminal of the operational amplifier 2 for current control.
Is set in advance to a value such that when the voltage corresponding to the fluctuating load current output from the load fluctuating current detector 1 exceeds the reference voltage a, the correction voltage is output from the current control operational amplifier 2; In other words, it determines the allowable variation of the load current.

The current control operational amplifier 2 outputs a correction voltage obtained by subtracting the reference voltage a from the voltage corresponding to the fluctuating load current output from the load fluctuating current detector 1.

As a result, the output of the voltage control operational amplifier 3 for monitoring and stabilizing the output voltage of the DC-DC converter 6 via the output voltage sense circuit 8 and the output voltage of the current control operational amplifier 2 are divided by resistance. The voltage at point e changes.

Accordingly, the comparator 4 compares the voltage at the point e with the triangular wave c to widen the width of the switching pulse and inputs it to the switching unit 5 as the switching pulse d. As a result, the output voltage of the DC-DC converter 6 is suppressed from sharply decreasing.

Next, a second embodiment of the present invention will be described with reference to FIG.

FIG. 2 is a block diagram showing a second embodiment of the present invention. The difference between FIG. 2 and FIG. 1 showing the first embodiment of the present invention is that in FIG. The output voltage of the control operational amplifier 2 and the output voltage of the voltage control operational amplifier 3 are resistance-divided from each other.
In FIG. 2, a value obtained by dividing the output voltage of the current control operational amplifier 2 and the output sense voltage by resistance is input to the voltage control operational amplifier 3, and the voltage obtained by comparing this value with the reference voltage b The point is that the output of the control operational amplifier 3 is input to the comparator 4.

[0021]

As described above, the first effect of the present invention is that the response speed of changing the switching pulse width is increased by detecting a sharp increase in the load current and generating a correction voltage. In addition, a reduction in output voltage when the load current increases sharply can be suppressed to within an allowable value.

A second effect is that a capacitor mounted on a logical load is not required as a measure against a voltage drop, and the device can be simplified.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a first embodiment of the present invention.

FIG. 2 is a block diagram showing a second embodiment of the present invention.

FIG. 3 is a block diagram showing a conventional technique.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Load fluctuation current detection part 2 Current control operational amplifier 3 Voltage control operational amplifier 4 Comparator 5 Switching part 6 DC-DC conversion part 7 Load 8 Output voltage sense circuit

Claims (3)

[Claims] 1. A steep increase in a load current of a switching power supply is detected, a correction voltage corresponding to the increased current is generated, and a switching pulse width is controlled, so that an output voltage of the switching power supply falls below a specified value. A switching power supply control method characterized by controlling so as not to decrease. 2. A switching power supply control method in which an output voltage of a switching power supply is compared with a reference voltage, and a difference between the output voltage and a reference voltage is input to a switching pulse generating means to control a width of the switching pulse. The load control circuit detects the increased load current value, calculates the variation by comparing the detected value with the stored load current value before the increase, and converts the variation of the load current into a voltage to control the current. A load fluctuation current detection unit input to the operational amplifier, a current control operation amplifier that compares a voltage output from the load fluctuation current detection unit with a first reference voltage, and outputs the difference as a correction voltage; A voltage control operational amplifier that compares an output voltage of a power supply with a second reference voltage and outputs a difference between the output voltage and an output of the current control operational amplifier; Switching power supply control method characterized by having a comparator for generating a switching pulse and the output of the pressure control operational amplifier compares the resistance-divided voltage and the triangular wave, the. 3. A switching power supply control system for comparing an output voltage of a switching power supply with a reference voltage and inputting a difference to a switching pulse generating means to control a width of a switching pulse, wherein the steepness of the switching power supply is controlled. The load control circuit detects the increased load current value, calculates the variation by comparing the detected value with the stored load current value before the increase, and converts the variation of the load current into a voltage to control the current. A load fluctuation current detection unit input to the operational amplifier, a current control operation amplifier that compares a voltage output from the load fluctuation current detection unit with a first reference voltage, and outputs the difference as a correction voltage; A voltage control for comparing a voltage obtained by dividing the output of the control operational amplifier and the output voltage of the switching power supply with a resistor and a second reference voltage, and outputting the difference therebetween. A switching power supply control system, comprising: an operational amplifier; and a comparator that generates a switching pulse by comparing an output of the voltage control operational amplifier with a triangular wave.