KR20090009362U - Power supply apparatus - Google Patents

Abstract

The present invention relates to a power supply. Power supply device according to the present invention and the power supply for supplying a predetermined level of power; A power changing unit including a switching unit to change a voltage level of an input power input from the power supply unit; A PWM control unit which receives the output power output from the power change unit and outputs a PWM control signal to the switching unit; An auxiliary power supply unit supplying power to the PWM control unit; And an auxiliary power selection unit connected between an output terminal of the power changing unit and a power supply path supplied from the auxiliary power supply unit to the PWM control unit so that the output power is supplied to the PWM control unit. This prevents damage to the auxiliary power supply and provides a power supply with stable power supply.

Switching Regulators, Linear Regulators

Description

Power supply unit {POWER SUPPLY APPARATUS}

The present invention relates to a power supply, and more particularly to a power supply for supplying power in a switching method.

Generally, DC / DC converters used as a power supply are classified into a switching driving method or a linear driving method. The linear method absorbs the difference between the input and output voltages in the converter and has a disadvantage in that heat is generated as much as the output current according to the voltage difference. In addition, the switching type converter does not generate heat and consumes unnecessary energy, but the cost is high and the peripheral circuit is complicated.

1 is a schematic diagram of a power supply according to the prior art. The illustrated power supply is a hybrid converter in which a switching type converter 1 and a linear type linear regulator 3 are connected in parallel. The power supply device has an effect of stabilizing the output power Vout by supplying the output power Vout to the liner regulator 3 when an undershoot of the output power Vout occurs due to a sudden change in the load. Such a power supply is useful when the load is low, but when the load is high, there is a problem that damage to the linear regulator (3).

FIG. 2 is a power supply device according to another prior art, and includes an auxiliary power supply unit 5 for supplying power to a switching type converter 1. The auxiliary power supply 5 changes the input power to the auxiliary power and supplies it to the switching controller of the converter 1. In this case, when the level of the input power input to the auxiliary power supply unit 5 is not constant and changes, heat is generated due to the low efficiency of the auxiliary power supply unit 5.

Accordingly, an object of the present invention is to provide a power supply device in which damage to the auxiliary power supply is prevented and the power supply is stable.

It is also an object of the present invention to provide a power supply for preventing overcurrent flowing to the load.

The above object is, according to the present invention, a power supply, comprising: a power supply unit for supplying a predetermined level of power; A power changing unit including a switching unit to change a voltage level of an input power input from the power supply unit; A PWM control unit which receives the output power output from the power change unit and outputs a PWM control signal to the switching unit; An auxiliary power supply unit supplying power to the PWM control unit; It is achieved by a power supply apparatus including an auxiliary power selection unit connected between an output terminal of the power change unit and a power supply path supplied from the auxiliary power supply unit to the PWM control unit so that the output power is supplied to the PWM control unit.

The auxiliary power selector may include a diode. In this case, there is also an effect of preventing overcurrent from flowing from the auxiliary power supply to the output terminal to which the load is connected.

The auxiliary power supply unit includes a linear regulator. In this case, power is supplied to the PWM control unit by the output voltage of the initial auxiliary power supply unit. However, since the voltage level of the output terminal after the voltage change in the voltage changing unit is higher than the output voltage level of the auxiliary power supply unit, when the load is applied to the overcurrent of the auxiliary power supply unit. To prevent damage.

The level of the output power is greater than the power level output from the auxiliary power supply.

As described above, according to the present invention, there is provided a power supply device in which damage to the auxiliary power supply unit is prevented and the power supply is stable.

In addition, according to the present invention there is provided a power supply for preventing overcurrent flow to the auxiliary power supply when the load is connected.

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. The present invention can be implemented in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly describe the present invention, parts irrelevant to the description are omitted, and like reference numerals designate like elements throughout the specification.

3 is a schematic diagram of a power supply apparatus according to an embodiment of the present invention. As shown, the power supply apparatus according to the present embodiment includes a power supply unit 10, a power change unit 20, a PWM control unit 30, an auxiliary power supply unit 40 and an auxiliary power supply selection unit 50. The power supply device according to the present embodiment may be implemented as a DC / DC converter for supplying power to the audio system in the vehicle using a battery of the vehicle. The power supply may include all kinds of converters and the like implemented as a switching regulator, and the scope of the present specification is not limited to the use and the specific configuration of the power supply.

The power supply unit 10 outputs a specific level of raw power, and in the present embodiment, includes a battery mounted in a vehicle. The voltage level of the power output from the power supply unit 10 may be in the range of about 18-36V.

The power change unit 20 is a node between the switching unit 21, the inductors L and 23 connected to the output of the switching unit 21 and the power changing unit 20, and the switching unit 21 and the inductor 23. And the first diodes D1 and 22 connected between the ground terminal and the ground terminal, and the capacitors C and 24 connected between the output terminal of the power change unit 20 and the ground terminal. The power change unit 20 is a regulator of a switching method for outputting a voltage of a constant level by intermitting the switching unit 21 according to the PWM control signal output from the PWM control unit 30 described later. The power change unit 20 outputs an output power Vout of which the voltage level of the input power Vin supplied from the power supply unit 10 is changed to the output terminal. Various electrical loads can be connected to the output. The output power Vout may be, for example, a voltage of 13 to 14V for supplying an in-vehicle audio system at a voltage whose level is adjusted to be supplied to an electric load that is mounted in the vehicle or that can be electrically connected to the vehicle. The output power Vout is fed back to the PWM controller 30.

The PWM controller 30 generates a PWM control signal and outputs it to the switching unit 21 of the power change unit 20. The duty ratio of the switching unit 21 is changed according to the PWM control signal, and the level of the output power Vout is adjusted according to the duty ratio. The PWM controller 30 receives the output power Vout and generates a PWM control signal based on the feedback. That is, the PWM controller 30 keeps the output power Vout constant by receiving the feedback of the output power Vout. The PWM controller 30 generates a PWM control signal and receives power required for driving the controller from the auxiliary power or the output power Vout of the auxiliary power unit 40 to be described later, instead of the input power Vin.

The auxiliary power unit 40 changes the input power Vin into a sub power of a predetermined level and supplies it to the PWM controller 30. The auxiliary power supply 40 is implemented as a linear regulator, unlike the power change unit 20. For example, if the input power Vin is 24V, the auxiliary power supply 40 generates a 12V, i.e., a specific level of auxiliary power required for driving the PWM control unit 30, with a reduced voltage level. The voltage level of the auxiliary power source may be different from the output power source Vout. In the present embodiment, the voltage level of the auxiliary power source is lower than the output power source Vout.

The auxiliary power selector 50 includes a second diode D2 connected between an output terminal of the power change unit 20 and a power supply path formed between the auxiliary power supply 40 and the PWM controller 30. . The second diode D2 has a cathode terminal connected to the output terminal and an anode terminal connected to the power supply path direction. The level of the power supplied to the PWM controller 30 by the second diode D2 may be changed. As described above, since the level of the auxiliary power output from the auxiliary power supply 40 and the level of the output power Vout are different, when both are supplied, the PWM controller 30 is supplied with a higher level of power. To be recognized. In the present embodiment, since the level of the output power (Vout) is higher than the level of the auxiliary power supply, when both the auxiliary power and the output power (Vout) is supplied, the PWM control unit 30 outputs the output power (Vout) PWM control unit 30 Used to drive).

The initial driving of the power supply device, the PWM control unit 30 receives the auxiliary power from the auxiliary power supply 40. Then, when the power change unit 20 is operated and output to the output power (Vout) to the output terminal, the output power (Vout) is the PWM control unit 30 due to the second diode (D2) of the auxiliary power selection unit 50. Supplied to. In this case, the auxiliary power supply 40 does not generate heat due to the change in the input power Vin because the auxiliary power supply 40 only needs to be faithful to the initial power supply. This has the effect of improving the efficiency of the auxiliary power supply 40. In addition, since the power is always supplied from the output terminal to the PWM controller 30 by the second diode D2, it is possible to prevent the auxiliary power of the auxiliary power supply 40 from being output to the load. For example, when the initial output power Vout is lower than the voltage level of the auxiliary power supply, overcurrent may occur due to a large load, but overcurrent is blocked by the second diode D2, and damage or malfunction of the auxiliary power supply unit 40 is prevented. Can be.

4 is a control flowchart illustrating a control method of the power supply apparatus according to the present embodiment. The control method is summarized as follows with reference to FIG.

First, the auxiliary power supply 40 provided with a linear regulator changes the voltage level of the input power Vin and supplies the auxiliary power of the changed level to the PWM controller 30 (S10).

The PWM controller 30 uses the input auxiliary power to drive the controller and outputs a PWM control signal to the switching unit 21. According to the PWM control signal, the switching unit 21 is interrupted and the input power Vin is changed to the output power Vout (S20). The auxiliary power source is not used only for driving the PWM control unit 30, and others not shown may be supplied to a chip or a driving module.

When the output power Vout is generated by the operation of the power change unit 20, the output power Vout is transmitted through the second diode D2. At this time, the level of the output power (Vout) and the auxiliary power is compared (S30), if the level of the output power (Vout) is lower than the level of the auxiliary power, that is, if the drive is still in the initial stage of the auxiliary power supply (40) ) Is supplied to the PWM control unit 30.

On the other hand, when the level of the output power (Vout) is higher than the level of the auxiliary power, the output power (Vout) is supplied to the PWM control unit 30 (S40).

The present invention is to use the output power (Vout) as a secondary power source in order to prevent the heat generation of the auxiliary power source 40 for supplying the auxiliary power to the PWM control unit 30 to increase the efficiency overload current to the load by the second diode (D2) Is also prevented from flowing.

Although some embodiments of the present invention have been shown and described, it will be apparent to those skilled in the art that the present invention may be modified without departing from the spirit or principles of the present invention. . The scope of the invention will be defined by the appended claims and their equivalents.

1 is a schematic diagram of a power supply according to the prior art,

2 is a schematic diagram of another power supply according to the prior art,

3 is a schematic diagram of a power supply device according to an embodiment of the present invention,

4 is a control flowchart illustrating a control method of a power supply device according to an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: power supply unit 20: power supply changing unit

30: PWM control unit 40: auxiliary power

50: auxiliary power selector

Claims (4)

In the power supply, A power supply unit supplying a predetermined level of power; A power changing unit including a switching unit to change a voltage level of an input power input from the power supply unit; A PWM control unit which receives the output power output from the power change unit and outputs a PWM control signal to the switching unit; An auxiliary power supply unit supplying power to the PWM control unit; And an auxiliary power selection unit connected between an output terminal of the power changing unit and a power supply path supplied from the auxiliary power supply unit to the PWM control unit so that the output power is supplied to the PWM control unit. The method of claim 1, The auxiliary power selector comprises a diode. The method of claim 1, The auxiliary power supply unit characterized in that it comprises a linear regulator. The method of claim 1, And a level of the output power is greater than a power level output from the auxiliary power supply.

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