KR101022425B1 - Dual Uninterruptible Power Supply for Automated Financial Equipment - Google Patents

Abstract

The present invention relates to an uninterruptible power supply (UPS) in an automated financial device. The uninterruptible power supply for applying a charged DC voltage of a backup battery module to a main power output terminal during a power failure, wherein the voltage of the battery is used as a main control part. By outputting the voltage to the main control part during overdischarge of the battery by using a circuit constituting means such as an output switching unit, the UPS is implemented in the main control part for a predetermined time even when the battery is over-discharged. Not only can it operate smoothly, it is a very useful invention that can prevent the FILE system from being damaged.

Automated Financial Equipment, UPS, Battery Backup Power Supply Module, Main Power Output Terminal, Main Control

Description

Double uninterruptible power supply in automated financial equipment             

1 is a view showing the configuration of an uninterruptible power supply in a general automated financial device,

2 is a diagram illustrating a battery internal connection of a battery back up power supply module in an uninterruptible power supply (UPS),

3 is a diagram illustrating a configuration of a double uninterruptible power supply device in an automated financial device according to the present invention.

4 is a diagram illustrating a circuit of a battery back up power duplex supply module in an uninterruptible power supply (UPS) according to the present invention.

[Description of Drawings]

10: main power supply module 20: battery backup power supply module

30: Main power output terminal 40, 41 ..: Operation module 1, operation module 2

50: main controller 60: comparison means

      70: switching means 80: switching unit

The present invention relates to an uninterruptible power supply (UPS) for supplying power to a device using a backup battery for a predetermined time during a power outage. In particular, the present invention provides automation by supplying DC power when a power voltage abnormality or power failure occurs during a financial transaction. An uninterruptible power supply (UPS) for preventing a device from stopping.

1 illustrates a configuration of an uninterruptible power supply (UPS) in a general automated financial device. For example, in the automated financial device, a main power supply module 10 which outputs a voltage when a general power is opened, and The battery backup power supply module 20 is configured to output the charged voltage of the battery module 200 when the main power supply module 10 is out of order or power failure.

In addition, the main power output terminal for providing the voltage output from the main power supply module 10 or the battery backup power supply module 20 to each operation module (40, 41, ...) and the main control unit 50 of the automated financial device. 30 and a main control unit 50 for controlling the battery to output the voltage during the power failure by enabling the battery backup when the main power supply module 10 fails.

On the other hand, the main control unit 50, in addition to the battery power backup control during the power failure to operate the control of the operating system of the automated device and the management of the file system according to the user request.

In addition, each operation module (40, 41, ..) is a general ECRP P / S, PBPR P / S, CAT P / S, SMC P / S, etc. in the automated financial device, which is the main power output terminal 30 Since the operation modules 40, 41, ... are provided with a voltage in a predetermined range from the description of each operation module (40, 41, ...) will be omitted.

 Accordingly, the UPS implementation according to the above configuration is switched to the battery backup power supply module 20 immediately after the power failure signal is input to the power supply unit of the main controller 50 or when the power failure occurs, and to the battery backup power supply module 20. The voltage is output through the main power output terminal 30 is applied to each operation module (40, 41, ...) and the main controller 50.

Figure 2 is an embodiment of the invention, showing the battery module 200 in an automated financial device, showing the internal connection of the battery. The four 12Ah 12V batteries are connected in parallel two by two, and the parallel connected batteries are connected in series to produce an output voltage of 24V.

The voltage output from the battery module 200 is only a voltage of a predetermined range in the battery backup power supply module 20 through the main power output terminal 30, each module (40, 41, ..) and main control unit ( 50).

However, the power used in the uninterruptible power supply of a general automated financial device is a predetermined power in the battery backup power supply module 20 when the battery module 200 is excessively discharged by the DC power supply as described above so that the normal output voltage does not come out. There is a problem that an error of an operating system (OS) and a file system occurs when a power failure occurs because the UPS function does not operate normally outside the voltage range of.

Accordingly, the present invention has been created to solve the above problems, in the uninterruptible power supply for applying the charged DC voltage of the backup battery module to the main power output terminal in case of power failure, outputting the voltage of the battery to the main control unit By using a circuit constituting means such as a switching unit to output the voltage to the main control even when the battery is over-discharged, the UPS is implemented in the main control for a certain time even during the battery over-discharge, operating smoothly operating OS (Operating System) In addition to providing a dual uninterruptible power supply in automated financial equipment that can prevent damage to the FILE system, its purpose is to.

Dual uninterruptible power supply in the automated financial device according to the present invention for achieving the above object, the main power supply module and the battery module power supply module; A main power output terminal for supplying the voltage output from the main power module or the battery module to each operation module of the automatic teller machine; A main control unit controlling a backup control by a battery voltage, an operating system control of a financial automatic device, and a management of a file system in case of failure of the main power module; A first switching circuit unit configured to receive a battery voltage applied from the battery module and a preset first reference voltage when the main power module fails, and switch the battery voltage to be applied to the main power output terminal; And a second switching circuit unit configured to receive a battery voltage lowered from the battery module and a preset second reference voltage, and switch the battery voltage to be applied only to the main controller.
Here, the first switching circuit unit, the first comparator for comparing the battery voltage of the battery module and the first reference voltage through a voltage divider consisting of a plurality of resistors, the battery voltage according to the output signal of the first comparator And a first switching means configured to sequentially connect the first transistor, the first pulse width modulation controller, and the second transistor so as to be applied to the main power output terminal.
The second switching circuit unit may include a second comparator for comparing the battery voltage of the battery module with the second reference voltage through a voltage divider having a plurality of resistors, and the battery voltage according to an output signal of the second comparator. And a second switching means configured to sequentially connect a third transistor, a second pulse width modulation controller, and a fourth transistor so as to be applied to the main controller.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a double uninterruptible power supply in the automated financial device according to the present invention will be described in detail.                     

3 illustrates a configuration of a dual uninterruptible power supply device in an automated financial device according to the present invention, and FIG. 4 illustrates a battery back up power supply module in an uninterruptible power supply device (UPS) according to the present invention. As shown above, in the automated financial device, the main power supply module 10 that outputs a voltage at a general power open, and the battery module when the main power supply module 10 fails or fails in power failure are shown. It is configured to include a battery backup power supply module 20 for outputting the voltage applied from (200).

In addition, the main power output terminal 30 for providing the voltage output from the main power supply module 10 or the battery backup power supply module 20 to each operation module (40, 41 ,,) of the automated teller machine, and the main power supply The main control unit 50 may be configured to enable backup of the battery in the event of a failure of the supply module 10 and to output the battery power during a power failure.

In addition, when the main power supply module 10 malfunctions or loses power, the battery backup power supply module 20 supplies a switching circuit 1 (circuit1) and the DC to apply the DC voltage of the battery module 200 to the main power output terminal 30. It comprises a switching circuit 2 (circuit2) for applying a voltage to the main controller 50.

Accordingly, the switching circuit 1 (circuit1), the switching means for outputting a voltage in a predetermined range from the results of the comparison means 60 and the comparison means 60 for comparing the voltage of the battery with the reference voltage to the main power output terminal 30. And a means 70.

The comparator 60 compares the battery voltage with a preset first reference voltage through a resistor R1 connected to the positive terminal of the battery and a resistor R2 connected to the other terminal of the resistor R1 ( C1). In addition, the switching means 70 includes a transistor Q1 connected to the output side of the comparator C1 through a base and a pulse width modulation controller 1 receiving a pulse signal through a collector of the transistor Q1. ) And a transistor Q2 operated by the pulse width modulation controller 1 are sequentially connected.

On the other hand, the switching circuit 2 (circuit2) is not only at the voltage output time of the switching means 70 but also when the voltage of the battery is lowered due to battery over-discharge, etc. at the time when the battery voltage and the reference voltage is the same, the voltage of the battery It is configured to include a switching unit 80 for outputting to the main control unit 50.

The switching unit 80 compares the battery voltage with a preset second reference voltage through a resistor R4 connected to the other terminal of the resistor R3 connected in parallel with the resistor R1, and the The transistor Q3, the pulse width modulation controller 2 and the transistor Q4 are sequentially connected to the output side of the comparator C2.

Accordingly, in the battery backup power supply module 20, when the battery voltage is normally applied at the time of power failure, the voltage applied from the battery module 200 is converted to the main power output terminal 30 through the switching circuit 1. DC voltage is applied to each operation module (40, 41, ...) by outputting to the main controller 50 through the switching circuit 2 (Circuit2) separately. do.

When the battery module 200 is normally charged and outputs a voltage of 24V to 26V, and the battery voltage output from the battery module 200 and applied to the comparator C1 is within 24V to 26V. The first reference voltage V1 ref is pre-adjusted so that the output of the comparator C1 becomes a high signal by the resistor R1 and the resistor R2. Therefore, the comparator C1 receives and compares the battery voltage with the first reference voltage V1 ref and outputs a high signal according to the result. The transistor Q1 receiving the high signal modulates the pulse width. Vcc is normally applied to the PWM controller 1 so that the transistor Q2 is turned on.

Therefore, due to the turn-on of the transistor Q2, the battery power source Vb of the battery module 200 is normally applied to the main power output terminal 30.

In addition, the battery power supply (Vb) is applied to the comparator (C2) of the switching circuit (circuit 2) connected to the resistor (R3) in parallel at the same time, the comparator (C2) and the preset second reference voltage (V2 ref) and The battery power supply (Vb) is compared. At this time, the battery voltage applied to the comparator C1 of the switching circuit 1 (circuit 1) is set to a wider range than 24V to 26V, for example, 12V to 27V, and the battery voltage applied to the comparator C2 is 12V. When within the range of -27 V, the second reference voltage V2 ref is pre-adjusted so that the output of the comparator C2 becomes a high signal by the resistor R3 and the resistor R4. Therefore, when the voltage of the battery module 200 is in the range of 12V to 27V, the comparator C2 receives and compares the battery voltage with the second reference voltage V2 ref and outputs a high signal according to the result. In the transistor Q3 receiving the high signal, Vcc is normally applied to the PWM controller 2 to turn on the transistor Q4.

Therefore, the voltage of the battery module 200 is normally applied to the main controller 50 by the turn-on of the transistor Q4.

On the other hand, when the voltage drops due to the over-discharge of the battery, that is, when the voltage of the battery module 200 is 20V, the comparator (C1) receiving the first reference voltage (V1 ref) does not send a high signal As a result, the switching circuit 1 (circuit 1) is cut off so that the voltage of the battery module 200 cannot be applied to the main power output terminal 30.

On the other hand, when the battery voltage 20V included in the range of 12V to 27V is applied to the comparator C2 as described above, the comparator C2 receives the second reference voltage V2 ref and receives a high signal. You can print Then, the high signal is normally applied to the pulse width modulation controller 2 (PWM controller 2), so that the transistor Q4 is turned on. The main controller 50 is normally applied to the battery power (Vb) of the battery module 200.

Accordingly, in the battery backup power supply module 20, a main control word is transmitted through the switching circuit 2 even when an abnormal power supply due to battery over discharge is applied as well as when the battery voltage is normally applied during a power failure. By applying DC power to the unit 50, the maintenance of the UPS function allows the main control unit 50 to operate normally for a predetermined time regardless of the operation of other operation modules, thereby enabling the OS (operation system) to be stably terminated.

As mentioned above, preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art can improve other various embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. Changes, substitutions or additions will be possible.

The dual uninterruptible device in the automated financial device according to the present invention constituted and constructed as described above, in the uninterruptible power supply for applying the charged DC voltage of the backup battery module to the main power output terminal during a power failure, the main voltage of the battery By using a circuit constituting means such as a switching unit that outputs negatively, the voltage can be output to the main control part even when the battery is over-discharged. In addition to being able to do this, it is a very useful invention that can prevent the FILE system from being damaged.

Claims (4)

A main power module and a battery module which are power supply modules; A main power output terminal for supplying the voltage output from the main power module or the battery module to each operation module of the automatic teller machine; A main control unit controlling a backup control by a battery voltage, an operating system control of a financial automatic device, and a management of a file system in case of failure of the main power module; A first switching circuit unit configured to receive a battery voltage applied from the battery module and a preset first reference voltage when the main power module fails, and switch the battery voltage to be applied to the main power output terminal; And In the automated financial device, characterized in that it comprises a second switching circuit that is applied to switch the voltage so that the battery voltage is applied from the battery module and the predetermined second reference voltage, and only the main controller portion Dual uninterruptible power supplies. The method of claim 1, wherein the first switching circuit unit, A first comparator for comparing the battery voltage of the battery module with the first reference voltage through a voltage divider having a plurality of resistors; And a first switching means configured to sequentially connect the first transistor, the first pulse width modulation controller, and the second transistor so that the battery voltage is applied to the main power output terminal according to the output signal of the first comparator. Dual uninterruptible power supply in automated financial equipment. The method of claim 1, wherein the second switching circuit unit, A second comparator for comparing the battery voltage of the battery module with the second reference voltage through a voltage divider having a plurality of resistors; And a second switching means configured to sequentially connect a third transistor, a second pulse width modulation controller, and a fourth transistor so that the battery voltage is applied to the main controller according to the output signal of the second comparator. Dual uninterruptible power supply in automated financial equipment. delete

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