KR20050122515A - Apparatus and method of controlling cross regulation in smps(switching mode power supply) - Google Patents

Abstract

The present invention detects an output voltage of a switching mode power supply (SMPS) and crosses a switching mode power supply for controlling a current to flow through a resistor connected to an output of the switching mode power supply when the output voltage is higher than a reference value. A cross regulation control device and method are disclosed. The apparatus includes a resistor connected to an output of the switched mode power supply; An output voltage sensing unit for sensing whether an output voltage of the switching mode power supply is greater than or equal to a predetermined value; And a switch configured to receive a detection result and allow a current to flow in the resistor unit when the output voltage of the switching mode power supply is greater than or equal to a predetermined value.

According to the present invention, the current flows through the resistor connected to the output terminal only when the switching mode power supply is in a cross-regulation situation, thereby reducing power consumption and heat generation generated by the resistor.

Description

Apparatus and method of controlling cross regulation in Switching Mode Power Supply (SMPS)

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for controlling a cross regulation of a switching mode power supply (SMPS). In particular, when the output voltage of the power supply is detected and the output voltage is higher than a reference value, the switching mode power supply A cross regulation control device and method for a switching mode power supply for controlling a current to flow through a resistor connected to an output terminal of the present invention.

In today's electronic devices requiring miniaturization, light weight, and large capacity, the conventional general power supply method has limitations in capacity and has a large volume or weight, which leads to restrictions on use. Therefore, the switching mode power supply is widely used as a DC stabilized power supply of electronic communication equipment, such as office equipment, such as an electronic calculator, an electronic exchanger, and a printer.

The switching mode power supply uses a semiconductor device such as a transistor as a switch to convert a DC input voltage into a square wave voltage, and then obtains a DC output voltage through smoothing of a capacitor. Thus, switching mode power supplies are theoretically low losses, but there are switching losses, and the switching losses increase in proportion to the switching frequency.

1 shows a circuit diagram of one of a plurality of output stage sides of a switched mode power supply having a resistor for controlling a general cross regulation. The output terminal side of the illustrated power supply device includes a transformer 100, a rectifier 110, a capacitor 120, an inductor 130, and a resistor 140.

The transformer 100 transmits the switched input voltage to the rectifying view 110. The rectifier 110 includes two diodes D ₁ and D ₂ to rectify the input voltage transmitted through the transformer 100 to a positive value. The capacitor 120 smoothes and outputs a square wave voltage rectified by the rectifier 110 to a DC voltage.

However, when a device having a small load is connected to the output terminal of the switching mode power supply device and a device having a large load is connected to another output terminal (not shown) among the plurality of output terminals, a large current flows to the output terminal to output the output terminal. There is a problem that the voltage rises. This variation in the output voltage is called cross regulation. Therefore, by connecting the resistor 140 to the output terminal, the current input to the output terminal flows to the resistor 140 to prevent the output voltage rises.

In the case of controlling the cross regulation using the conventional method, the current flows to the resistor 140 connected to the output terminal even when the output voltage is not in the cross regulation situation, so that unnecessary power is consumed in the resistor 140. There was a problem of heat generation.

The technical problem to be achieved by the present invention is to sense the output voltage of the power supply to reduce unnecessary power consumption and heat generation, so that the current flows to the resistor connected to the output terminal of the switching mode power supply only when the output voltage is above the reference value To provide a cross-regulation control device and method for a switched mode power supply.

In order to solve the above technical problem, the cross-regulation control apparatus of the switching mode power supply apparatus according to the present invention includes an output voltage sensing unit for detecting whether the output voltage of the switching mode power supply is greater than or equal to a predetermined value; A switch having one side connected to an output terminal of the switching mode power supply that is turned on when the output voltage is greater than or equal to a predetermined value by receiving a sensing result from the output voltage sensing unit, and is turned off when the output voltage is less than or equal to a predetermined value; And a resistor connected to the other side of the switch.

Preferably, the output voltage sensing unit is a Zener diode, and the switch includes a MOSFET connected to a gate of the output voltage sensing unit and a drain and a source connected to an output terminal of the switching mode power supply or the resistor unit, respectively. MOSFET).

In order to solve the above technical problem, a cross regulation control method of a switching mode power supply according to the present invention includes: (a) detecting whether an output voltage of the switching mode power supply is greater than or equal to a predetermined value; And (b) adjusting the output voltage to a predetermined voltage when the output voltage is greater than or equal to a predetermined value.

Advantageously, step (b) comprises providing a resistor at an output of said switched mode power supply; And adjusting the output voltage to a predetermined voltage by flowing a current input to the output terminal to the resistor when the output voltage is greater than or equal to a predetermined value.

Hereinafter, an apparatus and method for controlling cross regulation of a switching mode power supply according to the present invention will be described in detail with reference to the accompanying drawings. 2 is a block diagram illustrating a configuration of a cross regulation control device of a switching mode power supply according to the present invention. The illustrated control device includes an output voltage detector 200, a switch 210, and a resistor 220.

The output voltage detecting unit 200 detects whether the output voltage of the output terminal of the switching mode power supply is greater than or equal to the reference voltage. When the switching mode power supply is in a cross-regulation situation, the voltage at the output terminal rises, and thus, the output voltage detecting unit 200 detects whether the output voltage is greater than or equal to a preset reference voltage to determine whether the switching mode power supply is in a cross-regulation situation. Can be detected. The reference voltage is set using the output voltage required at the output terminal of the switched mode power supply. For example, when the output voltage required for the output terminal is 24V, the reference voltage is set to 24.5V, and when the output terminal voltage is 24.5V or more, it can be determined as a cross regulation situation.

The output voltage detection unit 200 is preferably configured by using a zener diode.

The switch 210 receives the sensing result from the output voltage detecting unit 200 as an input, and when the output voltage of the switching mode power supply is greater than or equal to the reference voltage, the current input to the output terminal of the power supply is the resistance unit 220. It is turned on to flow in, and when it is below the reference voltage, it is turned off so that no current flows in the resistor unit 220. Accordingly, the switch 210 switches the current to the resistor unit 220 when the switching mode power supply is in the cross regulation state, and switches the current to the resistor unit 220 when the switching mode power supply is not in the cross regulation state. (switching)

The switch 210 is preferably configured by using a MOSFET.

The resistor unit 220 is connected to the switch 210 so that, when the switch 210 is turned on, a current input to the output terminal of the switching mode power supply device flows to the resistor unit 220.

Figure 3 shows a circuit diagram of an embodiment of a switched mode power supply output stage having a cross regulation control device according to the present invention. The output terminal of the illustrated power supply device includes a transformer 300, a rectifier 310, a capacitor 320, an inductor 330, a zener diode 340, a MOSFET 350, and a resistor 220.

The transformer 300 transmits an input voltage to the rectifier 310. The rectifier 310 includes two diodes Da and Db, and rectifies the input voltage transferred through the transformer 300 to a positive value. The capacitor 320 smoothes and outputs a square wave voltage rectified by the rectifier 310 to a DC voltage.

The zener diode 340 has a property that a current flows in a reverse direction when a breakdown voltage or more is applied to both ends in a reverse direction, so that when the both ends voltage exceeds a breakdown voltage in a reverse direction, a current inputted to an output terminal of the switching mode power supply device. Flows through the zener diode 340. Therefore, when the output voltage of the switching mode power supply exceeds the breakdown voltage of the zener diode 340 which is a reference voltage, the zener diode 340 senses an increase in the output voltage to the MOSFET 350 and the resistor R ₂ . Allow current to flow. Accordingly, the zener diode 340 detects a cross regulation situation of the switching mode power supply and transmits the detection result to the MOSFET 350.

However, when the output voltage of the switching mode power supply is less than or equal to the reference voltage, no current flows through the zener diode 340, and thus no current flows through the MOSFET 350 and the resistor R ₂ .

When the zener diode 340 conducts and current is inputted to the gate of the MOSFET 350, the MOSFET 350 is turned on so that the current inputted to the output terminal of the switching mode power supply is supplied to the resistor R ₁ . Allow it to flow. However, when no current is input through the zener diode 340, the current is turned off so that no current flows to the resistor R ₁ .

Therefore, the current of the output terminal of the switching mode power supply flows to the resistor unit 220 only when the output voltage of the switching mode power supply is equal to or higher than the reference voltage, that is, in a cross regulation situation, and the output voltage of the switching mode power supply is supplied. In a case where the cross regulation is less than or equal to the reference voltage, no current flows to the resistor unit 220.

4 is a flowchart illustrating a cross regulation control method of a switching mode power supply according to the present invention. The control method shown in FIG. 4 will be described with reference to the control device shown in FIG. 2.

The output voltage detecting unit 200 is connected to the output terminal of the switching mode power supply, and detects whether the output voltage is greater than or equal to the reference voltage (step 400). When the output voltage is greater than or equal to the reference voltage, the switch 210 connects the resistance unit 220 to the output terminal of the switching mode power supply so that current flows in the resistance unit 220 (step 410). The connection from the output terminal is disconnected to prevent current from flowing through the resistor unit 220 (step 420).

Although a preferred embodiment of the present invention has been described in detail above, those skilled in the art to which the present invention pertains can make various changes without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made. Accordingly, modifications to future embodiments of the present invention will not depart from the technology of the present invention.

As described above, according to the cross regulation control device and method of the switching mode power supply according to the present invention, the power generated from the resistance by allowing the current to flow to the resistor connected to the output terminal only when the switching mode power supply is in a cross-regulation situation. It can reduce consumption and heat generation.

1 is a circuit diagram showing the configuration of the output side of a switching mode power supply having a resistor for controlling a general cross regulation.

2 is a block diagram showing a configuration of a cross regulation control device of a switched mode power supply according to the present invention.

3 is a circuit diagram showing an embodiment of the output side of a switching mode power supply having a cross regulation control device according to the present invention.

4 is a flowchart illustrating a cross regulation control method of a switching mode power supply according to the present invention.

Claims (5)

A device for controlling cross regulation of a switched mode power supply, An output voltage sensing unit for sensing whether an output voltage of the switching mode power supply is greater than or equal to a predetermined value; A switch connected at one side to an output terminal of the switching mode power supply, the switch being turned on when the output voltage is greater than or equal to the value, and being turned off when the output voltage is less than the value; And And a resistor unit connected to the other side of the switch to output a voltage according to the current transmitted from the switch. The method of claim 1, wherein the output voltage detecting unit, Cross regulation control device, characterized in that the Zener diode (zener diode). The method of claim 1, wherein the switch, A gate is connected to the output voltage sensing unit, a drain and a source are respectively connected to an output terminal and the resistor unit of the switching mode power supply, and is turned on when the output voltage is greater than or equal to the value, and the output voltage is less than the value. Cross regulation control device characterized in that the MOSFET is turned off (MOSFET). A method of controlling cross regulation of a switched mode power supply, (a) detecting whether an output voltage of the switching mode power supply is greater than or equal to a predetermined value; And (b) adjusting the output voltage to a predetermined voltage when the output voltage is greater than or equal to the value. The method of claim 4, wherein step (b) comprises: Providing a resistor at an output of the switched mode power supply; And And adjusting the output voltage to a predetermined voltage by flowing a current of the output terminal to the resistor when the output voltage is greater than or equal to a predetermined value.