KR20110113383A - Multi-output power supply device - Google Patents

Abstract

Multi-output power supply apparatus according to the present invention, the main power supply for outputting the main voltage in accordance with the on-off operation; A standby power supply for outputting a constant standby voltage regardless of an on / off operation of the main power supply; A detection circuit for detecting the main voltage and adjusting a rising time and a falling time of the main voltage to generate a control voltage longer than the rising time; And a switching device for switching the output of the standby power supply unit according to the control voltage.

Description

Multi-output power supply device

The present invention relates to a multi-output power supply, and more particularly to a multi-output power supply that can stably provide the same voltage multi-output.

A typical switching mode power supply (SMPS) requires the same voltage multiple outputs. Accordingly, in terms of miniaturization and low cost, a method of extracting and using multiple outputs from a single power source is used.

For example, there is a method of obtaining an output signal by adjusting a gate voltage of the switching device by connecting the switching device to a standby power source that always outputs a constant voltage.

However, in this case, when the polling time of the signal applied to the gate of the switching element is short, the blank time does not enter and the on / off time of the switching element is very fast, thereby causing a problem that the switching element generates heat.

In order to solve this problem, a method of increasing the polling time by connecting a capacitor to a control circuit that applies a signal to a gate of the switching element is used, but in this case, a problem of lengthening to a rising time may occur.

Therefore, the development of a technology capable of applying a signal having a short rising time and a long falling time to the gate of the switching device is required.

It is an object of the present invention to provide a multi-output power supply capable of providing a signal having a shorter rising time than a falling time as a control signal of a switching element.

Multi output power supply apparatus according to an embodiment of the present invention, the main power supply for outputting a main voltage in accordance with the on-off operation; A standby power supply for outputting a constant standby voltage regardless of an on / off operation of the main power supply; A detection circuit for detecting the main voltage and adjusting a rising time and a falling time of the main voltage to generate a control voltage longer than the rising time; And a switching device for switching the output of the standby power supply unit according to the control voltage.

In this case, the detection circuit may include: a first detector configured to detect the main voltage, and adjust a rising time and a falling time of the main voltage to generate a first control voltage having a rising time and a falling time longer than the main voltage; A second detector configured to detect the main voltage, and adjust a rising time and a falling time thereof to generate a second control voltage having a rising time and a falling time shorter than the first control voltage; And a selector which selects a larger value of the first control voltage and the second control voltage.

In this case, the first detector may include: a first resistor having one end connected to the main power supply unit and the other end connected to the detection end of the first detector; A second resistor having one end connected to the detection end of the first detector and the other end connected to the ground; And a capacitor having one end connected to the detection end of the first detector and the other end connected to the ground.

In addition, the second detector may include: a third resistor having one end connected to the main power supply unit and another end connected to the detection end of the second detector; And a fourth resistor having one end connected to the detection end of the second detector and the other end connected to the ground.

In addition, the selection unit may be a diode in which an anode is connected to the detection end of the first detection unit and a cathode is connected to the control end of the switching element and the detection end of the second detection unit.

Alternatively, the selection unit may be a diode in which an anode is connected to the detection end of the second detection unit, and a cathode is connected to the control end of the switching element and the detection end of the first detection unit.

Alternatively, the selector may include: a first diode having an anode connected to the detection end of the first detector and a cathode connected to the control end of the switching element; And a second diode having an anode connected to the detection end of the second detection unit and a cathode connected to the control end of the switching element.

The multi-output power supply apparatus according to the present invention includes a first control circuit which outputs a signal having a long rising time and a polling time, and a second control circuit which outputs a signal having a short rising time and a polling time as compared to an output of the first control circuit. And a selection circuit for outputting a high value by inputting the outputs of the two control circuits, thereby providing a signal having a shorter rising time than the falling time as a control signal of the switching element.

Therefore, it is possible to prevent the problem that the switching element generates heat and to stably provide the same voltage multi-output.

1 is a circuit diagram of a multi-output power supply according to an embodiment of the present invention,
2 is a circuit diagram of a multi-output power supply according to another embodiment of the present invention;
3A is a graph illustrating an output of a first detection unit of a multi-output power supply device according to an embodiment of the present invention;
3B is a graph illustrating an output of a second detector of a multi-output power supply device according to an embodiment of the present invention;
3C is a graph illustrating a control voltage applied to a control terminal of a switching element of a multi-output power supply device according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, in describing the preferred embodiment of the present invention in detail, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' to another part, it is not only 'directly connected', but also 'indirectly connected' with another configuration in between. Include. In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

1 is a circuit diagram of a multi-output power supply apparatus according to an embodiment of the present invention.

Referring to FIG. 1, a multi-output power supply apparatus according to an exemplary embodiment of the present invention may include a main power supply unit 10, a standby power supply unit 20, a switching element Q, a sorting unit 100, and a first detection unit 200. ), And the second detector 300.

The main power supply unit 10 is for supplying power for main operation to a device or device such as a TV or a computer equipped with a multi-output power supply.

The main power supply unit 10 does not always provide a constant voltage, but outputs a main voltage according to the on / off operation of the main power supply unit 10.

The standby power supply unit 20 is for supplying a constant voltage when the device or device equipped with a multi-output power supply is in the standby state. That is, a constant standby voltage is always output regardless of the on / off operation of the main power supply unit 10.

Since the device or device equipped with the multi-output power supply device requires a constant low voltage to maintain even in the standby state in which the main operation is not performed, the standby power supply unit 20 is connected to the third output terminal 3 through the third output terminal 3. A voltage lower than the output voltage of the main power supply unit 10 may be constantly provided regardless of whether the main operation of the device or the device is performed.

The switching device Q is connected to the standby power supply unit 20, and when the main power supply unit 10 is turned on, the switching device Q is activated to provide the first output terminal 1 through the second output terminal 2. Output voltage different from the output voltage at

In this case, when the main power supply unit 10 is turned off, if the time when the switching element Q is deactivated is fast, a blank time does not enter and the on / off time of the switching element Q is very fast, thereby causing a problem of heat generation. Can be.

Therefore, in order to solve this problem, the first detection unit 200 connects the capacitor C in parallel with the resistor R2 so that the polling time of the control voltage applied to the control terminal of the switching element Q becomes long. can do.

However, when the capacitor C is connected in parallel with the resistor to increase the polling time of the control voltage as described above, the rise time is also increased.

In order to solve this problem, the multi-output power supply apparatus according to an embodiment of the present invention uses two detectors (a first detector and a second detector) for the control voltage applied to the control terminal of the switching element Q. do. The detailed principle of obtaining a control voltage with a short rise time and a long polling time by using two detectors is described in detail below.

The first detector 200 may include two resistors R1 and R2 and one capacitor C. The output of the first detector 200 applied to the first diode D1 of the selector 100 becomes a voltage having a long rising time and a falling time due to the capacitor C.

The second detector 300 may include two resistors R3 and R4. The output of the second detector 300, which is applied to the second diode D2 of the selector 100, has a shorter rising time and falling time than the output of the first detector 200.

The selector 100 may include a first diode D1 and a second diode D2 connected to the output terminals of the first detector 200 and the second detector 300, respectively.

The selector 100 may input the outputs of the first detector 200 and the second detector 300, and may output a higher value among them to the control terminal of the switching element Q. Due to this action of the selector 100, the output of the second output terminal 2 may be a voltage having a shorter rising time than the falling time.

In this case, the selector 100 may include only one of the first diode D1 and the second diode D2.

FIG. 2 is a circuit diagram of a multi-output power supply device according to another embodiment of the present invention, in which the selector 100 includes only the first diode D1. Although not shown in the drawings, an embodiment in which the selector 100 includes only the second diode D2 is also possible.

3A is a graph illustrating an output of a first detector of a multi-output power supply according to an embodiment of the present invention, and FIG. 3B is a graph of an output of the second detector of a multi-output power supply according to an embodiment of the present invention. 3C is a graph showing a control voltage applied to a control terminal of a switching element of a multi-output power supply device according to an embodiment of the present invention.

Referring to FIG. 3A, the output of the first detector 200 may be a voltage having a long rising time and a falling time due to the influence of the capacitor C. Referring to FIG.

Referring to FIG. 3B, the output of the second detector 300 may have a shorter rising time and falling time than the output of the first detector 200 to which the capacitor C is connected.

Referring to FIG. 3C, the polling time is applied to the control terminal of the switching element Q because a higher value is applied among the outputs of the first detector 200 and the second detector 300 due to the action of the selector 100. Long and rising time can be applied a short voltage.

The present invention is not limited by the above-described embodiment and the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be substituted, modified, and changed in accordance with the present invention without departing from the spirit of the present invention.

1: first output stage 2: second output stage 3: third output stage
10: main power supply unit 20: standby power supply unit
100: sorting unit 200: first detecting unit 300: second detecting unit

Claims (7)

A main power supply unit outputting a main voltage according to an on / off operation;
A standby power supply for outputting a constant standby voltage regardless of an on / off operation of the main power supply;
A detection circuit for detecting the main voltage and adjusting a rising time and a falling time of the main voltage to generate a control voltage longer than the rising time; And
A switching element for switching the output of the standby power supply unit according to the control voltage;
Multi output power supply comprising a.
The method of claim 1,
The detection circuit,
A first detector configured to detect the main voltage and to adjust a rising time and a falling time of the main voltage to generate a first control voltage having a rising time and a falling time longer than the main voltage;
A second detector configured to detect the main voltage, and adjust a rising time and a falling time thereof to generate a second control voltage having a rising time and a falling time shorter than the first control voltage; And
A selection unit for selecting a larger value of the first control voltage and the second control voltage;
Multi output power supply comprising a.
The method of claim 2,
The first detection unit,
A first resistor having one end connected to the main power supply unit and another end connected to the detection end of the first detection unit;
A second resistor having one end connected to the detection end of the first detector and the other end connected to the ground; And
A capacitor having one end connected to the detection end of the first detector and the other end connected to the ground;
Multi output power supply comprising a.
The method of claim 2,
The second detector,
A third resistor having one end connected to the main power supply unit and another end connected to the detection end of the second detection unit; And
A fourth resistor having one end connected to the detection end of the second detector and the other end connected to the ground;
Multi-output power supply comprising a.
The method of claim 2,
The sorting unit,
And a diode having an anode connected to the detection end of the first detector and a cathode connected to the control end of the switching element and the detection end of the second detector.
The method of claim 2,
The sorting unit,
And a diode having an anode connected to the detection end of the second detector and a cathode connected to the control end of the switching element and the detection end of the first detector.
The method of claim 2,
The sorting unit,
A first diode having an anode connected to the detection end of the first detector and a cathode connected to the control end of the switching element; And
A second diode having an anode connected to the detection end of the second detector and a cathode connected to the control end of the switching element;
Multi output power supply comprising a.

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