KR20090005400U - Output voltage stability circuit of power supply - Google Patents

Abstract

The present invention relates to an output voltage stabilization circuit of a power supply.

According to an aspect of the present invention, there is provided an output voltage stabilization circuit of a power supply for outputting down an input voltage, comprising: a switching unit for conducting an input voltage to an output side while switching operation; A driving unit for turning on / off the switching unit; It includes a feedback unit for providing a reference voltage to the driver to determine the output value of the output side.

The present invention can output a stable voltage regardless of whether or not the input voltage fluctuates.

Description

Output voltage stabilization circuit of power supply unit {OUTPUT VOLTAGE STABILITY CIRCUIT OF POWER SUPPLY}

1 is a circuit diagram showing the configuration of a power supply using a conventional BUCK converter.

Figure 2 is a block diagram briefly showing the configuration according to an embodiment of the present invention.

3 is a circuit diagram showing in more detail the configuration according to an embodiment of the present invention.

<Description of Signs of Major Parts of Drawings>

10: output voltage stabilization circuit 11: switching unit

12: drive unit 13: feedback unit

Q1, Q2: MOS-FET1,2 R1 ~ R6: Register 1,2,3,4,5,6

C1: Capacitor 1 IN: Input side

OUT: Output side (+ 12V) OUT1: Output side (+ 16V)

The present invention relates to an output voltage stabilization circuit of a power supply.

The power supply, in particular the BUCK converter, receives + 16V as the input voltage, lowers it to the desired output value, for example, lowers it to + 12V and outputs it.

In the conventional BUCK converter, as shown in FIG. 1, an input voltage + 16V is input to a driving circuit 2 for driving the switching circuit 1, and the driving circuit 2 is driven by the input driving voltage. Controls the switching operation of the switching circuit 1, and the switching circuit 2 outputs the input voltage + 16V down to + 12V according to the time constant of the resistor provided on the output side.

In the case of a power supply using the conventional BUCK converter, there is a problem in that a voltage fluctuation occurs at a large current output due to the sensitivity of a feedback circuit used to drive the driver IC U1 used to stabilize the output voltage. That is, in the circuit structure inputted to pin 1 of the driver IC U1 through the resistor group connected to the output side OUT, a level change may occur when the output voltage is fed back due to the time constant error of the register itself. When such a non-uniform level signal is input to the driver IC, the logic operating IC will malfunction.

In addition, in the conventional case, since the input voltage + 16V is used as the driving voltage of the driver IC constituting the driving circuit 2 as it is, the driving circuit 2 which normally uses a voltage of about 5 [V] as the driving voltage. In particular, there is a problem that the driver IC is thermally stressed by a high power supply (current) of + 16V input voltage.

In addition, in the conventional case, there is a complicated problem in the configuration of the driver circuit 2 including the driver IC and the plurality of diodes.

The present invention can output a stable voltage regardless of whether or not the input voltage fluctuates.

According to an aspect of the present invention, there is provided an output voltage stabilization circuit of a power supply for outputting down an input voltage, comprising: a switching unit for conducting an input voltage to an output side while switching operation; A driving unit for turning on / off the switching unit; It includes a feedback unit for providing a reference voltage to the driver to determine the output value of the output side.

Here, the power supply device of the present invention may be a BUCK converter that receives + 16V as an input voltage and outputs a voltage of + 12V. In the present invention, this will be described as an embodiment, but its input voltage and output voltage The design can be changed according to the device and enclosure.

On the other hand, the switching unit of the present invention may include an active device for blocking the input voltage conduction while switching in accordance with the input signal applied from the driver.

In this case, the active element may be a MOS-FET, the gate terminal is connected to the output terminal of the driver and the input side of the input voltage providing side, the drain terminal is connected to the input side of the input voltage providing side, the output side The source terminal can be connected to.

At this time, the output side may be connected to a smoothing circuit consisting of a capacitor 1 for smoothly adjusting the pulse flow, and a resistor 4 for releasing the charge charged in the capacitor 1 which is a smoothing circuit when the power supply is turned off.

In the present invention, the driving unit provides a driving voltage to the gate of the MOS-FET included in the switching unit, receives the reference voltage fed back from the feedback unit, and switches only when the reference voltage is lower than or equal to a predetermined value. It may include a PROGRAMMABLE PRECISION REFERENCES.

In the present invention, the feedback unit may include a resistor group for dividing an output voltage according to each time constant and providing the voltage to the driver.

At this time, the register group may be a register 1, 2, 3 connected in series with the output line and the ground side, and the connection point of the register 2 and the register 3 may be a point for inputting a reference voltage to the driver.

Prior to describing the present invention, the accompanying drawings presenting for reference to the description of the present invention Figure 2 is a block diagram showing a brief configuration according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention The circuit diagram more specifically shows the configuration according to the present invention.

When the present invention is described with reference to the accompanying drawings presented as follows.

First, the present invention, as shown in Figures 2 and 3 of the accompanying drawings, in the output voltage stabilization circuit 10 of the power supply device for outputting to the output side (OUT) by lowering the input voltage input from the input side (IN) A switching unit 11 which conducts an input voltage to the output side OUT while the switching operation is performed; A driving unit 12 for turning on / off the switching unit 11; It includes a feedback unit 13 for providing a reference voltage to the driver 12 to determine the output value of the output side (OUT).

Herein, the power supply device of the present invention may be a BUCK converter that receives + 16V as an input voltage and outputs a voltage of + 12V.

In addition, the + 16V is supplied through the MOS-FET2 (Q2), that is, only when the driving voltage is input to the gate of the MOS-FET2 (Q2) outputs the voltage input to the source through the drain to the switching unit 11 to provide.

On the other hand, the switching unit 11 of the present invention includes an active element for blocking the input voltage conduction while switching according to the input signal applied from the driver 12, the active element is implemented as MOS-FET1.

In the MOS-FET1, a gate terminal G is connected to a cathode terminal K, which is an output terminal of the driving unit 12, and an input side IN line, which is an input voltage providing side, and an input side IN, which is an input voltage providing side. ), The drain terminal D may be connected, and the source terminal S may be connected to the output side OUT.

At this time, the output side OUT is connected to a smoothing circuit comprising a capacitor 1 (C1) for smoothly adjusting the pulse flow, and a resistor 4 (R4) for releasing charge charged to the capacitor 1 (C1), which is a smoothing circuit when the power is turned off. do.

In the present invention, the driving unit 12 provides a driving voltage to the gate terminal G of the MOS-FET1 Q1 included in the switching unit 11 and is fed back from the feedback unit 13. It receives a reference voltage, and includes a regulator (PROGRAMMABLE PRECISION REFERENCES) for operating the switching unit only when the reference voltage is a predetermined value or less, wherein the cathode is a cathode (K) of the MOS-FET1 (Q1) of the switching unit 11 It is connected to the gate terminal (G) side, the anode (A) is connected to the ground side, the reference terminal (R) is connected to the feedback unit (13).

On the other hand, in the present invention, the feedback unit 13 includes a register group for dividing the output voltage according to each time constant, and providing it to the driver 12.

In this case, the register group is a register 1, 2, 3 (R1) (R2) (R3) connected in series with the output side (OUT) line and the ground side, and the connection point of the register 2 (R2) and register 3 (R3) ( J) is a point for inputting a reference voltage to the driver.

According to the present invention configured as described above, when + 16V is applied from the input side (IN), the driving voltage is input to the gate of the MOS-FET2 (Q2) through the bypass resistor and at the same time, the input voltage of + 16V input to one terminal is the other terminal. Is connected to the drain terminal D of the MOS-FET1 (Q1) of the switching section 11, and at the same time, the voltage drops through the resistors 5, 6 (R5) and R6, and the MOS-FET1 (Q1). It is input to the gate terminal (G) of.

Then, MOS-FET1 (Q1) is in a conductive state, and conducts the voltage applied to the drain terminal (D) to the source terminal (S) to output to the output side (OUT), where the output voltage value is a register It is determined by the time constant of 4 (R4).

In this way, in the process of outputting the output voltage output through the source terminal S of the MOS-FET1 Q1 of the switching unit 11 to the output side OUT, the registers 1 and 2 of the feedback unit 13. , 3 (R1) (R2) (R3), and the voltage value divided between the register 1 (R1), the register 2 (R2) and the register 3 (R3) is the register 2 (R2) and the register 3 (R3). It is applied to the reference terminal R of the regulator which is the driving unit 12 through the connection point (J) to be connected. That is, a voltage value divided by the time constant sum of the register 1 (R1) and the register 2 (R2) and the time constant of the register 3 (R3) is applied as a reference voltage through the reference terminal R of the regulator. , The reference voltage Vref is 2.495 (2.5) V, and the value is calculated by the formula of VOUT =-(R2 / R1) * VIN, and in this design 12 =-(R3 / (R1 + R2)) * 16 Can be obtained by the formula.

At this time, the register 1 (R1) is the basis of one-side partial pressure time constant, register 2 (R2) is combined with the register 1 (R1), and becomes an auxiliary time constant for correcting the operation error.

In this way, when the reference voltage is input to the reference terminal R of the regulator, which is the driver 12, the driver 12 receives the gate terminal G of the MOS-FET1 Q1 when the input reference voltage Vref is higher than 2.495V. ) To turn off the operation of the MOS-FET1 (Q1), and when the input reference voltage Vref is lower than 2.495V, the driving voltage is provided to the gate terminal (G) of the MOS-FET1 (Q1). Turn on the operation of MOS-FET1 (Q1).

As such, the present invention outputs the voltage while the MOS-FET1 (Q1) receiving the drain output of the MOS-FET2 (Q2) is switched according to the output state of the driving voltage provided from the regulator of the driving unit 12, but the output side ( Since the driving unit 12 is operated by feeding back the voltage output to OUT), a stable voltage can be output regardless of whether the input voltage IN is changed. Therefore, the fluctuation range of the output voltage due to the fluctuation of the load condition becomes small.

The invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, but the invention is not limited to the configuration and operation as shown and described. Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes, modifications, and equivalents should be considered to be within the scope of the present invention.

According to the present invention, the switching unit outputs the input voltage input from the input side to the output side while switching operation according to the output state of the driving voltage provided from the driving unit, and operates the driving unit by feeding back the output voltage to the output side. It can output stable voltage regardless of input voltage change.

Claims (8)

A switching unit for conducting an input voltage to an output side while switching operation; A driving unit for turning on / off the switching unit; And a feedback unit configured to provide a reference voltage to the driver to determine an output value of the output side. The method of claim 1, wherein the power supply device An output voltage stabilization circuit of a power supply, characterized in that the BUCK converter receives + 16V from the input side as an input voltage and outputs the voltage at + 16v and + 12V. The method of claim 1, wherein the switching unit And a MOS-FET, which is an active element that cuts off an input voltage while switching according to an input signal applied from the driver. The method of claim 3, wherein the MOS-FET And a gate terminal is connected to an output terminal of the driver and an input side of an input voltage providing side, a drain terminal is connected to an input side of an input voltage providing side, and a source terminal is connected to an output side of the driving unit. The method of claim 1, wherein the driving unit And a regulator for providing a driving voltage to the gate terminal of the MOS-FET1 included in the switching unit, receiving a reference voltage fed back from the feedback unit, and operating the switching unit only when the reference voltage is lower than or equal to a predetermined value. An output voltage stabilization circuit of a power supply. The method of claim 5, wherein the regulator And a cathode is connected to the gate terminal of the MOS-FET1 included in the switching unit, an anode is connected to the ground side, and a reference terminal is connected to the feedback unit. The method of claim 1, wherein the feedback unit And a resistor (1, 2, 3) connected in series with the output side line and the ground side provided by dividing the output voltage according to each time constant, and provided to the driving unit. 8. The output voltage stabilization circuit of claim 7, wherein the connection point between the register 2 and the register 3 is a point for inputting a reference voltage to the driver.

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