KR100903609B1 - Circuit for power controlling Ringing Chock Converter - Google Patents

Abstract

The present invention relates to a power control circuit of a ringing choke converter type. To this end, according to the embodiment of the present invention, a power saving unit connected to a power saving terminal for controlling an output of a transformer is input to a juice switching unit according to a signal level input to the power saving terminal. The output voltage of the transformer is turned on / off by removing / injecting the feedback current, and the power saving unit installs a transistor in a path through which the feedback current of the juice switching part flows.

Therefore, the present invention reduces the number of parts from seven to four compared to the conventional power supply method, and can be expected to improve productivity by reducing the component mounting time due to the reduction of the number of parts, and also because the material cost is not used because the large power transistor is not used It can be reduced by 80%, while also providing an effect that can be applied to a module circuit of a vacuum fluorescent display panel that uses an NPN transistor to control the output of a transformer.

Ringing Choke Converters, Vacuum Fluorescent Displays, Power Saving Terminals, Transistors, Transformers

Description

Circuit for power controlling Ringing Chock Converter

1 is a view showing the configuration of a power circuit of the RCC method according to the prior art.

2 is a diagram showing the configuration of an RCC power supply control circuit according to an embodiment of the present invention.

The present invention relates to an RCC type power supply control circuit, and more particularly, to a RCC (ringing chock converter) type power supply control circuit applicable to a VFD (Vacuum Fluorescent Display) module circuit.

Ringing choke converters (RCCs) have the simplest circuit configuration in isolated converters and are widely used as very economical circuits at small capacities of less than 500W.

Recently, as the tendency of the power-saving function is demanded among the functions of general household electrical appliances, a method of controlling the output by installing a simple additional circuit in a power supply circuit of a ringing choke converter type which is frequently used as a low-power power source is applied to the power-saving function. Doing.                         

As shown in FIG. 1, the RCC power supply circuit according to the related art largely includes a transformer T, a juice switching unit 10, and a power saving unit 20.

In the transformer T, an input voltage is input to the primary winding T1, and a small output voltage is output to the secondary winding T2.

Then, the juice switching unit 10 controls the output of the transformer (T) while the on-off operation. The juice switching unit 10 is composed of two transistors, two diodes, and one resistor.

Meanwhile, the power saving unit 20 is connected to the power saving terminal (or P_S terminal) to control the output of the transformer T. The power saving unit 20 is composed of a PNP transistor, an NPN transistor, a diode, and four resistors.

The operation of the RCC power supply circuit configured as described above is as follows.

When the input voltage is input, the transistor of the juice switching unit 10 is turned on to store energy at an input voltage level in the primary winding T1 of the transformer T. After a predetermined time, the transistor of the juice switching unit 10 is turned on. The operation is turned off so that energy accumulated in the primary winding T1 of the transformer T is discharged through the secondary winding T2.

During this operation, the power saving unit 20 turns on / off the operation of the juice switching unit 10 according to the signal level of the power saving terminal, thereby controlling the output of the transformer T.

As described above, the RCC power supply circuit according to the related art requires a large power transistor such as a PNP transistor, an NPN transistor, and peripheral components, so that the number of parts is relatively high, and thus, the cost is high.

The present invention is to solve the above problems, an object of the present invention is to provide a power control circuit of the ringing choke converter method that can improve the productivity as well as reducing the material cost by reducing the number of parts for performing a power saving function. It is.

Furthermore, it is an object of the present invention to provide a power supply control circuit of a ringing choke converter system applicable to a module circuit of a vacuum fluorescent display panel.

Features of the power supply control circuit of the ringing choke converter system according to the present invention for realizing the above object, the input voltage is input to the primary winding side, the transformer outputs a small output voltage to the secondary winding side; The input voltage is turned on and operated to allow the energy of the input voltage level to accumulate in the primary winding of the transformer, and to be turned off after a predetermined time so that the energy accumulated in the primary winding is discharged through the secondary winding. Juice witching unit; And removing / injecting a feedback current input to the juice switching unit according to a signal level input to the power saving terminal, connected to a power saving terminal for controlling the output of the transformer to turn on / off the output voltage of the transformer. A power saving unit, wherein the power saving unit comprises: first and second resistors configured to voltage divide the signal input to the power saving terminal; A first transistor having a base terminal coupled to a node to which the first and second resistors are connected; And a first diode that is turned on when the first transistor is turned on and is cut off when the first transistor is turned off.
The juice switching unit may include a second transistor to which the input voltage is applied to a collector stage and the feedback current is applied to a base stage; A third transistor having an emitter end and a base end connected to the second transistor; A second diode having a collector terminal connected to the base end of the second transistor and an anode terminal connected to the base end of the third transistor; A third resistor connected between the terminal to which the input voltage is applied and the base terminal of the second transistor; And a third diode connected to the base end of the third transistor.

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In the first diode, a cathode terminal is connected to the collector terminal of the first transistor, and an anode terminal is connected to the cathode terminal of the second diode.

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

2 is a block diagram of a power supply control circuit of an RCC system according to an embodiment of the present invention.

As shown in FIG. 2, the power control circuit of the embodiment according to the present invention includes a transformer T, a juice switching unit 50, and a power saving unit 60.

In the transformer T, an input voltage is input to the primary winding T1, and a small output voltage is output to the secondary winding T2.

The juice switching unit 50 is turned on while the input voltage is input so that energy of the input voltage level is accumulated in the primary winding T1 of the transformer T, and after a predetermined time, the juice switching unit 50 is turned off to the primary winding T1. The accumulated energy is allowed to be discharged through the secondary winding T2.                     

The juice switching unit 50 includes two transistors Q2 and Q3, a resistor R3, and diodes D2 and D3.

The power saving unit 60 is connected to a power saving terminal for controlling the output of the transformer T and performs an operation of removing / injecting a feedback current input to Q2 of the juice switching unit 50 according to the signal level input to the power saving terminal. do.

Therefore, when the power saving unit 60 removes the feedback current input to Q2, the switching of Q3 is forcibly suppressed so that the output voltage induced from the primary winding T1 to the secondary winding T2 is removed.

On the other hand, when the power saving unit 60 introduces a feedback current to Q2, Q2 and Q3 are switched so that the output voltage is induced in the secondary winding T2.

The power saving unit 60 includes two resistors R1 and R2, an NPN transistor Q1, and a diode D1. At this time, R1 is installed between the power saving terminal and Q1, R2 is connected in parallel with R1, and Q1 is connected to the base terminal of Q2 with D1 interposed therebetween.

As described above, the operation of the power control circuit of the ringing choke converter according to the embodiment of the present invention is as follows.

When the voltage level input to the power saving terminal is 0.7 V or more, the power saving unit 60 enters the power saving mode and removes the feedback current input to the base terminal of Q2.

Then, the switching of Q3 is forcibly suppressed and the output in which T1 is led to T2 is turned off, thereby effectively reducing power consumption unnecessarily wasted when the system is not used.                     

On the other hand, when the voltage level input to the power saving terminal is less than 0.7V, the power saving unit 60 cancels the power saving mode and introduces a feedback current into the base terminal of Q2. Then, Q2 and Q3 are switched to induce the output voltage at T2 and the system operates normally.

The power supply control circuit of the embodiment according to the present invention can also be applied to a VFD (Vacuum Fluorescent Display).

Here, VFD refers to a high-brightness flat display with high reliability. Unlike LCD, the VFD is a light emitting display that emits light in various colors. Such VFDs are used in various fields such as home appliances such as microwave ovens, VCDs and DVDs, as well as OA and FA devices, medical devices and multimedia PCs.

The drawings and detailed description of the invention are merely exemplary of the invention, which are used for the purpose of illustrating the invention only and are not intended to limit the scope of the invention as defined in the appended claims or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

The power control circuit of the ringing choke converter according to the present invention reduces the number of parts from seven to four compared to the conventional power supply method, and the component mounting time is reduced due to the reduction in the number of parts, thereby improving productivity.                     

In addition, since the power control circuit of the ringing choke converter system according to the present invention does not use a large power transistor, the material cost is reduced by about 80%.

On the other hand, the power supply control circuit of the ringing choke converter method according to the present invention has an effect that can be applied to the module circuit of the vacuum fluorescent display panel for controlling the output of the transformer using the NPN transistor.

Claims (5)

A transformer in which an input voltage is input to the primary winding side, and a small output voltage is output to the secondary winding side; The input voltage is turned on and operated to allow the energy of the input voltage level to accumulate in the primary winding of the transformer, and to be turned off after a predetermined time so that the energy accumulated in the primary winding is discharged through the secondary winding. Juice witching unit; And A power saving device connected to a power saving terminal for controlling the output of the transformer to remove / introduce a feedback current input to the juice switching unit according to a signal level input to the power saving terminal to turn on / off the output voltage of the transformer Including wealth, The power saving unit First and second resistors for voltage-dividing a signal input to the power saving terminal; A first transistor having a base terminal coupled to a node to which the first and second resistors are connected; And A first diode that is conductive when the first transistor is on, and is blocked when the first transistor is off Ringing choke converter system power control circuit comprising a. The method of claim 1, The juice witching unit, A second transistor to which the input voltage is applied to a collector stage and the feedback current is applied to a base stage; A third transistor having an emitter end and a base end connected to the second transistor; A second diode having a collector terminal connected to the base end of the second transistor and an anode terminal connected to the base end of the third transistor; A third resistor connected between the terminal to which the input voltage is applied and the base terminal of the second transistor; And A third diode connected to the base end of the third transistor Ringing choke converter system power control circuit comprising a. The method of claim 2, And a cathode terminal connected to the collector terminal of the first transistor, and an anode terminal connected to the cathode terminal of the second diode. delete delete

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