KR200276828Y1 - The built-on PC UPS using MICOM - Google Patents

Abstract

The present invention is a uninterruptible power supply for personal computer POWER SUPPLY built using a graphic user interface and an intelligent control method, Fuzzy control method and microcomputer (PIC16C74A) in preparation for power failure of personal computer power supply.

Conventional methods are analog and digital. Conventional analog methods use analog methods for power failure detection and synchronous transfer, making it difficult to detect power failure within a short time and limiting the size of the uninterruptible power supply. On the other hand, the present invention is a computer POWER SUPPLY built-in small uninterruptible power supply that can detect outages in a short period of time and accurate synchronous transfer by using a microcomputer and intelligent control technique.

In addition, the existing digital method mainly uses Intel's 80 series (8051, 8096 or 80196, etc.) or Motorola's 68000 series of microprocessors, so that the load control control to the external terminal due to the storage capacity, the number of ports of the input and output terminals and the size of the output current Since the roller IC device is used, it is disadvantageous in that it is bulky and expensive. On the other hand, the present invention uses PIC16C74A (AD inputs: 8, I / O terminals: 24) among PIC series of low-cost microchips, and is resistant to price (1 / 10-1 / 100), volume, and noise prevention. There is this.

In addition, the existing digital uninterruptible power supply displays the operation display by LED or LCD liquid crystal, so that it is difficult for the user to detect the operation state of the UPS. On the other hand, the present invention has an advantage that the user can efficiently know the status of the UPS by displaying the operation status of the UPS transmitted from the PIC microcomputer on the computer screen using the intelligent control technique (Fuzzy technique) using a graphical user interface. .

Description

Built-in PC UPS using MICOM

The present invention relates to the development of a computer-based uninterruptible power supply using a microcomputer. In order to operate a computer normally for a predetermined operation time in the event of a power failure of a computer power supply, commercial power is supplied directly at the time of normal commercial power supply, and a UPS is applied in case of a power failure. It is a computer built-in uninterruptible power supply that is built into an existing power supply in a computer that can drive and supply power to the computer's body, monitors, and peripherals.

First, the conventional analog type uninterruptible power supply is external to the computer, and it is difficult to detect power failure in a short time by using the analog method of power failure detection and synchronous transfer, and supplies power to the load with the same synchronization signal from the UPS after the power failure of commercial power. There is a difficulty. Second, microcomputer using existing digital method mainly uses 80 series of Intel company or 68000 series of Motorola company. Therefore, load control controller should be used for external terminal because of the storage capacity, the number of ports of input / output terminals and the size of output current. As a result, they are bulky and expensive. In addition, the existing digital type displays the operation indication of the UPS by sound, LED, LCD liquid crystal, so that it is difficult for a computer user to accurately detect the operation state of the UPS.

In order to solve the above problems, the present invention first detects outages and synchronizes using a microcomputer and an intelligent control technique (Fuzzy technique). In addition, we develop a controller using a microcomputer that is resistant to volume and noise of the controller in terms of price and price by using PIC16C74A which has AD converter (AD input: 8) and 24 digital input / output terminals among PIC series, which is a low-cost microcomputer. . And by using the graphical user interface to display the operation status of the UPS on the computer screen, the user can efficiently know the UPS status.

1 is a block diagram of a computer built-in uninterruptible power supply using a microcomputer,

2 is a main control part and a configuration diagram according to an embodiment of the present invention,

3 is a user interface unit according to an embodiment of the present invention,

4 is a structural diagram according to an embodiment of the present invention.

<Description of main parts of drawing>

200: charging unit 210: boost and reverse converter

220: synchronization switching unit 230: power failure detection unit

240: microcomputer control unit (PIC16C74A)

The uninterruptible power supply built-in computer power supply according to the present invention for achieving the above object is to supply the commercial power directly to the load during normal operation, and detect the power failure during the power failure to cut off the commercial power and charge the battery A microcomputer control unit for supplying power to the load from the storage battery and controlling a signal to automatically supply commercial power to the load and charge the discharged battery when the power failure is recovered;

It consists of charge detector, 12 [v] battery, power rectifier and switching switch. When commercial power is normally supplied, charge rectifier is used to detect the voltage of battery until normal voltage is reached. A charging unit for charging the storage battery;

A booster unit for boosting the voltage of the 12 [v] battery to 220 [v];

It consists of switching logic, IGBT and filter for converting DC power into AC power.In normal operation state of commercial power supply, it does not operate by the steady state signal at the power failure detector and generates 60Hz AC power by the power failure signal in case of power failure. An inverter unit to make;

A synchronous transfer switch unit for supplying the commercial power to the load in the normal operation of the commercial power and supplying the power of the uninterruptible power supply to the load in the case of power failure;

Characterized in that it consists of a personal computer POWER SUPPLY built-in uninterruptible power supply that includes a graphical user interface for expressing the operation state of the uninterruptible power supply to the user by the Fuzzy control technique from the microcomputer control unit.

The uninterruptible power supply for a built-in personal computer POWER SUPPLY according to the present invention, which is configured as described above, accurately detects a power failure state by a fuzzy control technique to operate the uninterruptible power supply, and operates at 200 [W] for about 5 minutes. The stable power supply enables the storage of important data, and this state can be observed by the user interface, which has the advantage of preventing economic losses due to loss of important data due to power failure. In addition, it can be manufactured at low cost and can be manufactured as a small (8cm wide, 5cm high, 12cm long) control board by using the microcomputer (PIC16C74A). There is this.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, preferred embodiments of a personal computer POWER SUPPLY built-in uninterruptible power supply device according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram of an uninterruptible power supply for a built-in personal computer POWER SUPPLY according to the present invention.

2 is a block diagram of an uninterruptible power supply including a microcomputer control unit, a charging unit, a boosting unit, an inverting unit, a synchronous transfer unit, and an electrostatic detection unit, which are main control devices of the present invention. When the normal power comes in as an input signal, it is normally supplied to the load through the synchronous switching unit 220 and at the same time is charged from the charging unit to the storage battery through the rectifier circuit. However, when a power failure or similar instantaneous power failure occurs, the power failure detection unit 230 accurately detects the power failure by the Fuzzy control technique and sends it to the microcomputer control unit 240 so that the microcomputer control unit 240 starts the discharge of the battery by switching. Instruct. At this time, the DC voltage 12 [v] of the battery is boosted by the booster 210 to the DC voltage 280 [v] and converted by the inverse converter 210 into the pulse voltage of the AC type, and then through the filter synchronous switching unit 220. Supplies normal power to the load computer. At this time, according to the command programmed into the microcomputer of the microcontroller PIC16C74A, the command signal is transmitted to the switching according to the power failure detection of the uninterruptible power supply, and the signal is transmitted to command the voltage generation in the form of a pulse by the inverse converter. Communication of signals that represent and control the operating state is made.

FIG. 3 is a graphical user interface of the present invention, which graphically shows the degree of charge and discharge of a battery, the presence or absence of an operation of an uninterruptible power supply, and a portion having a function capable of instructing the operation of the uninterruptible power supply if necessary. Its front view is shown.

Figure 4 shows the position and size of the uninterruptible power supply for a built-in personal computer POWER SUPPLY according to the present invention, is a structural diagram showing the state of coupling with the existing power supply and the mounting state of the battery. The board of the uninterruptible power supply enters the existing power supply, and the battery shows the external mounting structure.

As described above, the present invention uses the main CPU (PIC17C74A: one chip microcomputer) and the GUI (graphical user interface) by a micro-processor to configure the uninterruptible power supply for the built-in personal computer POWER SUPPLY to meet the needs of various users. Satisfaction and stable power supply and loss of information can be achieved for efficiency and economic utilization.

In addition, the existing uninterruptible power supply is mostly an external type, a large size and a high price disadvantage, but the present invention can design and manufacture a low cost and small size control board using a one-chip microcomputer for convenience of use It is a low-cost, small-sized, built-in, precision and convenient feature-added uninterruptible power supply for personal computers by adding the function of graphic user interface and using Fuzzy control technique, intelligent control technique.

Claims (2)

A microcomputer control unit for detecting an outage and thereby sending an operation signal to the switching, controlling the synchronous switching unit to operate accordingly, and sending the signals through a graphical user interface; A graphical user interface unit which graphically expresses an operation state, an operation state of the uninterruptible power supply, and a state of charge and discharge of the battery; A boosting unit for boosting the DC voltage of 12 [v] charged in the charging unit to a DC voltage of 280 [v]; An inverting converter converting the boosted DC voltage into an AC voltage in the form of a pulse; Attaching the board inside the power supply of the personal computer and mounting the battery outside the power supply; According to claim 1, the microcomputer control unit outputs a control signal for operating the switching in accordance with the detection signal of the power failure detection unit, and the microcomputer control signal to perform a pulse conversion operation of the inverse conversion unit. And a control program and peripheral control circuit of the PIC16C74A for generating a control signal for transmitting such a signal to a graphical user interface;