KR970031205A

KR970031205A - A power supply apparatus and method for controlling the same, power supply for gambling machine and method for controlling the same

Info

Publication number: KR970031205A
Application number: KR1019960052602A
Authority: KR
Inventors: 가뚜미 다나까; 두또무 후지따
Original assignee: 다까노 야스아끼; 상요덴기 가부시끼가이샤
Priority date: 1995-11-08
Filing date: 1996-11-07
Publication date: 1997-06-26
Also published as: KR100236572B1; CN1056484C; TW371731B; CN1160946A; JPH09135579A

Abstract

전원 장치의 전자화를 행함으로써, 소형이고 염가이며 또한 안정되게 전원 공급을 행할 수 있는 전원 장치, 전원 장치의 제어 방법, 유기(遊技) 기기용 전원 장치 및 유기 기기용 전원 장치의 제어 방법을 제공한다.The present invention provides a power supply device, a control method of a power supply device, a power supply device for an organic device, and a control method for a power supply device for an organic device that can be supplied compactly, inexpensively, and stably by performing electronicization of the power supply device. .

제1 정류 수단에 의해 입력된 교류 전력을 정류하고, 제1 주파수 변환 수단에 의해 주파수를 고주파수로 변환하고, 전압 변환 수단에 의해 제2 전압으로 변환하고, 제2 주파수 변환 수단에 의해 주파수를 원래의 제1 주파수로 되돌리고, 파형 변환 수단에 의해 입력된 교류 전력의 전압 파형과 상이한 신호로 변환한다.The AC power input by the first rectifying means is rectified, the frequency is converted into a high frequency by the first frequency converting means, the second voltage is converted by the voltage converting means, and the frequency is originally converted by the second frequency converting means. It returns to the 1st frequency of and converts into a signal different from the voltage waveform of the AC power input by waveform conversion means.

Description

A power supply apparatus and method for controlling the same, power supply for gambling machine and method for controlling the same

본 내용은 요부공개 건이므로 전문내용을 수록하지 않았음Since this is an open matter, no full text was included.

도 1은 본 발명에 관한 전원 장치 및 유기 기기용 전원 장치의 블럭 구성도.1 is a block diagram of a power supply device and an organic device power supply device according to the present invention;

도 2는 본 발명의 실시 형태를 도시한 구성도.2 is a block diagram showing an embodiment of the present invention.

도 3은 본 발명의 전원 장치 및 유기 기기용 전원 장치의 각부의 동작 파형을 도시한 파형도.Fig. 3 is a waveform diagram showing operation waveforms of each part of the power supply device and organic power supply device of the present invention.

Claims

First rectifying means for rectifying the input AC power of the first frequency, first frequency converting means for converting the frequency of the output signal of the first rectifying means into a second frequency higher than this frequency, and the first frequency Voltage conversion means for converting an output preferred voltage of the conversion means into a second voltage, second frequency conversion means for converting the frequency of the output signal of the voltage conversion means into the first frequency, and the second frequency conversion means. And waveform conversion means for causing the voltage waveform of the output signal of the signal to be similar to the input voltage waveform of the first AC power.

2. The control circuit according to claim 1, wherein the voltage converting means is formed of a transformer, and the first frequency converting means controls a first semiconductor switch connected in series to a primary winding of the transformer and switching control of the first semiconductor switch. Circuitry, said second frequency converting means being connected to a secondary winding of said transformer and consisting of a filter circuit that is parabolic smooth at said first frequency, said waveform converting means being rhombic in four second semiconductor switches. And a SW control circuit for switching and controlling the second semiconductor switch in synchronization with the frequency of the input AC power.

The power supply apparatus according to claim 1 or 2, wherein said voltage conversion means converts a commercial AC voltage into 24V.

A control method of a power supply device that inputs a commercial AC power source, converts the voltage into a predetermined voltage, and outputs the step of rectifying the input AC power and converting the frequency of the signal rectified in the rectifying step into a high frequency. And converting the voltage of the signal converted in the step of converting into the high frequency into the predetermined voltage, and converting the signal converted in the step of converting into the predetermined voltage into the frequency of the input AC power, And converting the voltage waveform of the converted signal into the voltage waveform of the input AC power in the step of converting the frequency of the input AC power into the frequency waveform of the input AC power.

A power supply device connected to an organic device and converting input AC power into AC power having a predetermined voltage for the organic device, the power supply device comprising: first rectifying means for rectifying an AC power having a first frequency input thereto; First frequency converting means for converting the frequency of the output signal of the first rectifying means into a second frequency, voltage converting means for converting the voltage of the output signal of said first frequency converting means into a second voltage, and said voltage converting Second frequency converting means for converting the frequency of the output signal of the means into the first frequency, and waveform converting for analogizing the voltage waveform of the output signal of the second frequency converting means to the voltage waveform of the input first AC power; And a means for supplying the output of the waveform converting means to the connected organic device.

6. The control circuit according to claim 5, wherein the voltage converting means is formed of a transformer, and the first frequency converting means controls a first semiconductor switch connected in series to a primary winding of the transformer and switching control of the first semiconductor switch. Circuit, wherein the second frequency converting means is connected to the secondary winding of the transformer and is parabolic smoothed at the first frequency, and the waveform converting means is a rhombic connection of four second semiconductor switches. A power supply device for an organic device, comprising a bridge circuit and a SW control circuit for switching and controlling the second semiconductor switch in synchronization with a frequency of an input AC power.

The power supply device for an organic device according to claim 5 or 6, wherein the commercial AC voltage is converted into 24V.

A control method for a power supply device for an organic device, which inputs a commercial AC power source, converts the predetermined AC voltage into a predetermined voltage, and outputs the connected AC device to the connected organic device, wherein the rectified signal is rectified and the signal rectified in the rectifying step. Converting the frequency of the signal into high frequency, converting the voltage of the signal converted in the high frequency conversion into the predetermined voltage, and converting the signal converted in the predetermined voltage into the input AC power. And converting the voltage waveform of the signal converted in the step of converting the frequency into the frequency of the input source AC power to the voltage waveform of the input AC power, and outputting the output of the similar step. And a supply method to the connected organic device.

※ Note: The disclosure is based on the initial application.