KR100913377B1 - A variable power supply device of an adapter style - Google Patents

Abstract

A variable power supply device of an adapter type is provided to easily confirm a state of a DC power source supplied to an experiment device by displaying an output voltage on a display part. A low voltage transforming part transforms a commercial AC power source into a low voltage by an electromagnetic induction effect. A rectifying part rectifies the AC power source transformed by the low voltage transforming part. A first smoothing part smoothes a pulsating power source rectified by the rectifying part. A first constant voltage part supplies the DC power source smoothed by the first smoothing part to an experiment device through a second smoothing part. A 5 voltage transforming part supplies the DC power source smoothed by the first smoothing part to the controller. A display part(800) displays an output voltage. A voltage level control part(630) controls the output voltage based on a reference voltage.

Description

Adapter type variable power supply {A variable power supply device of an adapter style}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adapter type variable power supply device, and more particularly, to an adapter type variable power device including a display unit for supplying DC power of various sizes to an experimental device and the like and displaying the DC power in units of 0.1V. .

Conventional variable power supply device is a low voltage transformer that receives a commercial AC power (AC) is transformed by the electromagnetic induction action to output a low voltage, a bridge diode for rectifying the AC power transformed by the low voltage transformer, and the bridge diode Constant voltage IC for supplying the first smoothing capacitor to smooth the rectified pulsating power through the first smoothing capacitor and the DC power smoothed through the first smoothing capacitor to a constant voltage and supplying it to the power supply voltage (VDD) of the experimental apparatus and the like through the second smoothing capacitor It was configured to, such that a constant power supply to the experimental apparatus.

However, the conventional variable power supply device has a problem in that the user must measure the output voltage of the constant voltage IC each time through a tester to determine whether or not a constant power is supplied to the experimental device.

The present invention has been made to solve the above problems, the object of which is to supply a direct current (DC) power of various sizes, such as an experimental apparatus, and the adapter type variable including a display unit for displaying the DC power in 0.1V units To provide a power supply.

In addition, the adapter-type variable power supply device of the present invention is used for simple electrical and electronic experiments, lighting experiments such as LEDs, testing of various small power transmission devices, and testing of student works.

In particular, the present invention is an adapter-type variable power supply device that makes it easy to know the power supplied to the experimental apparatus by displaying the output voltage on the display.

In order to achieve the above object, the present invention has an AC input line configured to receive commercial AC power (AC) on a first side of a main body having a hexahedron shape, and the commercial AC power (AC) on a second side of the main body. The DC output line for inputting the DC power output through the low voltage transformer, rectifier, smoothing unit and the constant voltage unit to the experimental apparatus is configured, the third side of the main body of the output DC power in 0.1V units A display unit configured to display, and on the fourth side of the main body, in displaying the output voltage on the display unit, a voltage level adjustment finely adjusting the output voltage to match a reference voltage set by a controller driving and controlling the display unit. Adapter type variable power supply, characterized in that the additional configuration.

In addition, the adapter-type variable power supply device of the present invention receives a commercial AC power (AC) is transformed by the electromagnetic induction action to output a low voltage transformer unit; A rectifier for rectifying the AC power transformed by the low voltage transformer; A first smoothing part that smoothes the pulsating power rectified through the rectifying part constantly; A first constant voltage unit supplying the DC power smoothed through the first smoothing unit to a constant voltage and supplying the input power to the experimental apparatus through the second smoothing unit; A 5V voltage converter configured to supply the DC power smoothed through the first smoothing unit to a constant voltage and supply the same to the driving voltage VDD of the controller; And a voltage level adjusting unit for finely adjusting the output voltage to match the reference voltage set by the controller in displaying the output voltage of the first constant voltage unit.

In addition, the rectifying portion of the present invention may be composed of a bridge diode, the first and second smoothing portion may be composed of a smoothing capacitor.

In addition, the first constant voltage unit of the present invention receives the DC power smoothed by the first smoothing unit through the input terminal, the GND terminal and the ON / OFF terminal is connected to the ground, the feedback terminal is grounded through the second resistor (R2) A first constant voltage IC coupled to the fifth diode and having an output variable in parallel with an output terminal connected in series with one end of the first coil; And a second capacitor and a first resistor connected in parallel with the other end of the first coil.

In addition, the display unit of the present invention has three 7-segment to indicate the three digits, such as digits and the first digit point ^(10-1) of the seat, one (10 ⁰⁾ of the ten (10 ^1); A transistor turned on / off under the control of the controller 700 to operate three 7-segments, respectively; And an array resistor that is a protection resistor of the seven-segment 801.

In addition, the 5V voltage conversion unit of the present invention receives the output signal of the rectifying unit, the second constant voltage IC is first variable to a constant voltage of 12V, and the second constant voltage IC is a second variable to the constant voltage of 5V The second constant voltage unit includes a sixth diode rectifying the output voltage of the second constant voltage IC, a fifth smoothing capacitor smoothing the output signal of the sixth diode, and an output signal of the fifth smoothing capacitor. And a sixth smoothing capacitor for smoothing the output signal of the third constant voltage IC and the third constant voltage IC.

In addition, the voltage level adjusting unit of the present invention is positioned between the second smoothing unit and the controller to fine-tune the final output voltage smoothed by the second smoothing unit to adjust to match the reference voltage set in the controller, one end is fixed The third resistor is connected to the third smoothing capacitor through a resistor, and the other end includes a fourth resistor connected in parallel and a variable resistor connected to one end of the eighth capacitor, and the other end of the fourth resistor and the eighth capacitor It is characterized in that the ground connection.

In addition, the present invention replaces the second resistor connected to the feedback terminal of the first constant voltage IC with a variable output adjusting unit composed of a fixed resistor and a variable resistor, so that the output voltage according to the adjustment of the variable resistor is displayed immediately through the display unit. It is an adapter type variable power supply.

As described above, by supplying power to the experimental apparatus using the adapter type variable power supply device of the present invention, it is possible to easily know the state of the DC power output from the adapter type variable power supply device through the display unit.

In addition, instead of the second resistor connected to the feedback terminal of the first constant voltage IC constituting the first constant voltage unit, the variable output adjusting unit including the fixed resistor and the variable resistor may be replaced. In this case, the output voltage according to the adjustment of the variable resistor may be This can be seen immediately through the display. This eliminates the need to measure the output voltage each time using a tester.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an adapter type variable power supply apparatus according to the present invention.

Referring to the external shape of the adapter-type variable power supply device 1 according to the present invention with reference to the drawings, the AC power input line 20 is configured on the first side of the main body 10 having a hexahedron shape as a whole. The second side of the (10) is configured with a DC power output line 30, the third side of the main body 10 is configured with a display unit 800 for displaying the DC power in the constant voltage state finally output On the fourth side of the main body 10, a voltage level adjusting unit 630 is configured.

In more detail, the adapter type variable power supply 1 of the present invention is supplied with AC power of 100 / 220V through the AC input line 20, and the supplied AC power is a low voltage which is a circuit configured inside the main body 10. Through the transformer unit 100, the rectifier 200, the smoothing unit 300, 500 and the constant voltage unit 400 is converted into a direct current power (DC), the variable direct current power (DC) through a DC output line It is output and used as a source of experiment equipment. In addition, in displaying the output DC voltage on the display unit 800, the voltage level adjusting unit 630 is adjusted so that the output voltage matches the reference voltage set by the controller 700 driving and controlling the display unit 800. do.

The adapter type variable power supply 1 configured as described above will be described in more detail.

Figure 2 is a block diagram showing the configuration of the adapter-type variable power supply apparatus according to the present invention, Figure 3 is a detailed circuit diagram showing an adapter-type variable power supply apparatus according to the present invention.

Referring to Figure 2, the adapter type variable power supply 1 of the present invention receives a commercial AC power (AC) is converted into a low voltage by the electromagnetic induction action to output a low voltage, the low voltage transformer ( Rectification unit 200 for rectifying the AC power transformed by 100, through the first smoothing unit 300, the first smoothing unit 300 to smoothly smooth the pulsating power rectified through the rectifying unit 200, A first constant voltage unit 400 for supplying the smoothed DC power to a constant voltage to the input power of the experimental apparatus through the second smoothing unit 500, the DC power smoothed through the first smoothing unit 300 to a constant voltage In order to display the output voltages of the 5 V voltage converter 600 and the second smoothing part 500 to the driving voltage VDD of the controller 700 on the display part 800, the output voltage is the controller 700. Voltage level adjusting unit 630 to fine tune to match the reference voltage set in ), Including

This will be described in more detail with reference to the circuit diagram of FIG. 3 as follows.

The primary winding of the transformer, which is the low voltage transformer 100, is connected to an AC input power source, and the secondary winding of the transformer 100 is connected to the B terminal and the D terminal of the bridge diode, which is the rectifier 200.

Here, the bridge diode connects four diodes in a bridge shape to rectify the voltage. As shown in the drawing, an anode terminal of the first diode D1 and a cathode of the second diode D2 ( Cathode terminal meets at terminal B, the anode terminal of the second diode (D2) and the anode terminal of the third diode (D3) meet at the terminal C, the cathode of the third diode (D3) (Cathode) terminal and the anode terminal of the fourth diode (D4) meet at the D terminal, the cathode (Cathode) terminal of the fourth diode (D4) and the cathode (Cathode) terminal of the first diode (D1) It is configured to meet at terminal A.

In addition, the B terminal of the bridge diode is connected to one end of the secondary winding of the transformer, the D terminal of the bridge diode is connected to the other end of the secondary winding of the transformer, the C terminal of the bridge diode is connected to ground, and the A of the bridge diode is connected. The terminal is connected in parallel with the first smoothing capacitor C1 which is the first smoothing part 300.

One end of the first smoothing capacitor C1 is branched from the point a to three points, one of which is the terminal A of the bridge diode, the other is the input terminal of the second constant voltage IC 610, and the other is the first of the first smoothing capacitor C1. It is an input terminal of the first constant voltage IC 401 of the constant voltage unit 400. In addition, the other end of the first smoothing capacitor C1 is grounded.

The first smoothing capacitor C1 is charged to the peak value of the input voltage within the bridge diode voltage drop and discharges the charged voltage through an arbitrary load when the bridge diode is reverse biased because the input becomes smaller than the peak value. .

The DC power smoothed by the first smoothing capacitor C1 is output at a constant voltage through the first constant voltage unit 400.

The first constant voltage unit 400 includes a first constant voltage IC 401, a fifth diode D5, an LC filter including a first coil L1 and a second capacitor C2, and a first resistor R1. It is composed.

That is, the first terminal (input terminal) of the first constant voltage IC 401 is connected to the point a as described above, receives a DC power smoothed by the first smoothing capacitor C1, and the first constant voltage IC 401. Terminal 3 (GND) and terminal 5 (ON / OFF) of the ground is connected, the fourth terminal (Feedback, feedback terminal) of the first constant voltage IC 401 is grounded through the second resistor (R2). .

In addition, the second terminal (output terminal) of the first constant voltage IC 401 is connected in parallel with one end of the fifth diode D5 and simultaneously connected in series with one end of the first coil L1. Here, the other end of the fifth diode D5 is grounded.

In addition, the other end of the first coil L1 is connected in parallel with one end of the second capacitor C2 and the first resistor R1, and the other end of the second capacitor C2 and the first resistor R1 is grounded. .

The fifth diode D5 is a zener diode Z which is a voltage regulator diode, and as an example thereof, 1N5822 may be used.

The first coil L1 and the second capacitor C2 are LC filters that block high frequency components and pass only low frequency components.

The first resistor R1 discharges the voltage charged in the second capacitor C2 when the input voltage is blocked.

In addition, the output signal of the first constant voltage unit 400 passes through the second coil L2 and the third smoothing capacitor C3, which is the second smoothing unit 500, and thus the first constant voltage unit 400 It is possible to obtain a final output voltage (out) in which ripple is removed from the output signal. This final output voltage (out) is used as a power supply for the experimental apparatus, it is also connected to the following voltage level adjusting unit.

For example, the first constant voltage IC 401 may use an LM2576T-ADJ device.

The final output voltage (out) is the first smoothing capacitor (C1) to the third smoothing capacitor (C3), the first and second resistors (R1) (R2), the first and second coils (L1) (L2) and the fifth diode It depends on the size of (D5) and the like.

In addition, in the present invention, instead of the second resistor (R2) by adopting a variable output adjusting unit consisting of a fixed resistor and a variable resistor may be adjusted the magnitude of the output voltage.

On the other hand, one of the main features of the present invention is to display the final output voltage (out) measured by the tester in the display unit 800 in 0.1V units, for this purpose, the present invention is the display unit 800, the controller 700, It further includes a 5V voltage converter 600 and voltage level adjuster 630.

The display unit 800 includes three 7-segments 801 for displaying three digits such as ten (10 ¹ ) digits, one (10 ⁰ ) digits, and the first decimal place (10 ^-1 ), and the controller 700. A transistor Q1, Q2, Q3 and array resistor AR, which are protection resistors of the 7-segment 801, which are turned on and off and operate three seven-segment 801, respectively. do.

The array resistor AR serves as a current limit or a voltage drop.

Examples of the transistors Q1, Q2, and Q3 include a bipolar transistor (BJT), a field effect transistor (FET), and the like. The base terminal of the BJT is connected to the controller 700, and the collector terminal of the BJT is corresponding to 7. -Connected to the segment 801, the emitter terminal of the BJT is grounded.

The controller 700 has its own memory (eg, EEPROM, etc.), which includes a program for driving the display and a reference voltage for outputting the display. That is, the controller 700 controls the display unit 800 to display a value corresponding to the output voltage out according to the adjustment of the voltage level adjuster 630.

The 5V voltage conversion unit 600 is a circuit unit for supplying 5V power, which is the input power of the controller 800, and receives a second output voltage of the rectifier 200 and changes the voltage to a constant voltage of 12V. And a second constant voltage unit 620 for secondarily varying the output signal of the second constant voltage IC 610 to a constant voltage of 5V.

An example of the second constant voltage IC 610 is LM7812, and the first terminal (input terminal) of the second constant voltage IC 610 is connected to one end (point a) of the first smoothing capacitor C1, The second terminal (VSS terminal) of the second constant voltage IC 610 is grounded, and the third terminal (output terminal) of the second constant voltage IC 610 is the sixth diode D6 which is the rectifying diode of the second constant voltage unit 620. At the same time as the anode (Anode) terminal of the () is connected to the ground via the fourth capacitor (C4).

The second constant voltage unit 620 may include a sixth diode D6 rectifying the output voltage of the second constant voltage IC 610, a fifth smoothing capacitor C5, and a fifth smoothing output signal of the sixth diode D6. The third constant voltage IC 621 rectifies the output signal of the smoothing capacitor C5 to a constant voltage, and the sixth smooth capacitor C6 smoothes the output signal of the third constant voltage IC 621.

The third constant voltage IC is an IC for outputting a constant 5V DC voltage, for example, LM1117S-5.0.

The voltage level adjusting unit 630 is positioned between the second smoothing unit 500 and the controller 700 to fine-adjust the final output voltage smoothed by the second smoothing unit 500 to the reference voltage set by the controller 7001. The device to adjust to match. The voltage level adjusting unit 630 is adjusted by the user, as shown in FIG.

The voltage level adjusting unit 630 includes a third resistor R3, a variable resistor VR, a fourth resistor R4, and an eighth capacitor C8.

The third resistor R3 is connected in series with the variable resistor VR, and the variable resistor VR is connected in parallel with the fourth resistor R4 and the eighth capacitor C8. In more detail, one end of the third resistor R3 is connected to the third smoothing capacitor C3, the other end of the third resistor R3 is connected to one end of the variable resistor VR connected in series, and the variable resistor VR The other end of) is connected to one end of the fourth resistor R4 and the eighth capacitor C8 connected in parallel. In addition, the other ends of the fourth resistor R4 and the eighth capacitor R8 are connected to ground.

By adjusting the size of the variable resistor (VR) is made to match the reference voltage set in the controller 700.

Referring to Figures 1 to 3 attached to the operation and effect of the adapter-type variable power supply device 1 according to the present invention configured as described above are as follows.

First, the commercial AC power AC is transformed to a constant voltage through the low voltage transformer 100, and the transformed AC power is rectified through the bridge diode which is the rectifier 200, and then the first smooth unit 300 is It is smoothed through the one smoothing capacitor C1 and applied to the first constant voltage unit 400.

The first constant voltage IC 401 of the first constant voltage unit 400, the fifth diode D5, the first coil L1, the second capacitor C2, the first resistor R1, and the second resistor ( R2) is changed to a constant DC voltage, and the variable DC voltage has a constant voltage state having a predetermined output finally through the third smoothing capacitor C3, which is the second coil L2 and the second smoothing part 500. do. This output voltage is a source of test equipment and the like and is measured using a tester.

In the present invention, the final output voltage out is determined by the first smoothing capacitor C1, the fifth diode D5, the first coil L1, the second capacitor C2, the first resistor R1, and the like.

On the other hand, the output voltage of the first smoothing capacitor C1 becomes a constant voltage of 5V through the second constant voltage IC 610 and the second constant voltage unit 620, and the 5V constant voltage is the driving voltage terminal of the controller 700 ( VDD terminal).

Here, the second constant voltage unit 620 is composed of a sixth diode D6, a fifth capacitor C5, a third constant voltage IC 621, and a sixth capacitor C6. It functions to change to constant voltage.

In addition, the output voltage out of the second smoothing unit 500 is adjusted to match the reference voltage set by the controller 700 via the voltage level adjusting unit 630, and as a result, the controller 700 finally makes the adjustment. The 7-segment 801 of the display unit is displayed in units of 0.1V.

As described above, with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

1 is a perspective view showing a variable power supply according to the present invention.

2 is a block diagram showing the configuration of a variable power supply apparatus according to the present invention.

3 is a detailed circuit diagram illustrating a variable power supply apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: variable power supply 10: AC input line

20: DC output line 100: low voltage transformer

200: rectifying part 300: first smoothing part

400: first constant voltage unit 401: first constant voltage IC

500: second smoothing unit 600: 5V voltage conversion unit

610: second constant voltage IC 620: second constant voltage unit

621: third constant voltage IC 630: voltage level adjusting unit

700: controller 800: display unit

801: 7-segment

Claims (9)

In the variable power supply, An AC input line for receiving commercial AC power is configured on a first side of the main body having a hexahedron shape, and the commercial AC power AC is connected to a low voltage transformer, rectifying unit, and smoothing unit on the second side of the main body. A DC output line for inputting the DC power output through the constant voltage unit to the experimental apparatus is configured, and the display unit for displaying the output DC power in 0.1V units is configured on the third side of the main body. On the fourth side, in the display of the output voltage on the display unit, a voltage level adjusting unit is configured to finely adjust the output voltage to match the reference voltage set by the controller for driving and controlling the display unit. A low voltage transformer unit for receiving the commercial AC power (AC) is transformed by the electromagnetic induction action to output a low voltage, a rectifier for rectifying the AC power transformed by the low voltage transformer, and the pulsating power rectified through the rectifier A first smoothing part to smoothly maintain a constant voltage, a first constant voltage part supplying a DC power smoothed through the first smoothing part to a constant voltage, and supplying it to an input power supply of an experimental apparatus through a second smoothing part, and through the first smoothing part. In order to display the output voltage of the 5V voltage converting unit supplying the smoothed DC power to the constant voltage to the driving voltage VDD of the controller and the output voltage of the first constant voltage unit on the display unit, the output voltage matches the reference voltage set by the controller. It includes a voltage level adjusting unit for fine adjustment, The first constant voltage unit receives a DC power smoothed by the first smoothing unit through an input terminal, a GND terminal and an ON / OFF terminal are grounded, a feedback terminal is grounded through a second resistor R2, and an output terminal A first constant voltage IC having a variable output connected in parallel with the fifth diode and simultaneously connected in series with one end of the first coil; And a second capacitor and a first resistor connected in parallel with the other end of the first coil. delete The method according to claim 1, The rectifier is an adapter type variable power supply, characterized in that consisting of a bridge diode. The method according to claim 1, The first and second smoothing unit is an adapter type variable power supply, characterized in that consisting of a smoothing capacitor. delete The method according to claim 1, The display has three 7-segment to indicate the three digits, such as digits and the first digit point ^(10-1) of the seat, one (10 ⁰⁾ of the ten (10 ^1); A transistor turned on / off under the control of the controller 700 to operate three 7-segments, respectively; And an array resistor which is a protection resistor of the seven-segment (801). The method according to claim 1, The 5V voltage converter comprises a second constant voltage IC that first receives the output signal of the rectifier and varies the constant voltage to 12V, and a second constant voltage part that secondly converts the output signal of the second constant voltage IC to a constant voltage of 5V. under, The second constant voltage unit includes a sixth diode rectifying the output voltage of the second constant voltage IC, a fifth smoothing capacitor smoothing the output signal of the sixth diode, and a third constant voltage rectifying the output signal of the fifth smoothing capacitor to a constant voltage. And a sixth smoothing capacitor for smoothing the output signal of the IC and the third constant voltage IC. The method according to claim 1, The voltage level adjusting unit is positioned between the second smoothing unit and the controller and finely adjusts the final output voltage smoothed by the second smoothing unit to adjust to match the reference voltage set in the controller. One end is connected to the third smoothing capacitor through a third resistor which is a fixed resistor, and the other end is configured to include a fourth resistor connected in parallel and a variable resistor connected to one end of the eighth capacitor, wherein the fourth and eighth capacitors are included. Adapter type variable power supply, characterized in that the other end of the ground is connected. The method according to claim 1, Adapter type, characterized in that the output voltage according to the adjustment of the variable resistor is displayed directly through the display unit by replacing the variable output adjusting unit consisting of a fixed resistor and a variable resistor instead of the second resistor connected to the feedback terminal of the first constant voltage IC. Variable power supply

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