KR101740944B1 - Uninterrutible power supply equipped with zero-phase harmonic reduction function - Google Patents

Abstract

The present invention relates to an uninterruptible power supply, and more particularly, to an uninterruptible power supply having an image harmonic reduction function. The uninterruptible power supply according to the present invention includes a battery for supplying an emergency power source; a switching switch for allowing a commercial power supply to supply power to a load when the commercial power supply is normal and for allowing a battery to supply power to the load when the commercial power supply is abnormal; and an image harmonic elimination device connected to the load and filtering image harmonic flowing out through a neutral line at the load.

Description

TECHNICAL FIELD [0001] The present invention relates to an uninterruptible power supply apparatus having an image harmonic reduction function,

The present invention relates to an uninterruptible power supply, and more particularly, to an uninterruptible power supply having an image harmonic reduction function.

The uninterruptible power supply is used to safely supply power to critical loads even in the event of a power system failure. To this end, the uninterruptible power supply basically includes a transfer switch and a battery. The transfer switch causes the grid voltage to be supplied to the critical load when the power system is normal and the battery voltage to be supplied to the critical load when the power system is abnormal. The battery is charged by the system voltage when the power system is normal, and discharges when the power system is abnormal, thereby supplying power to the critical load.

Image harmonic filters are connected to the R, S, T, and N phases in a three-phase four-wire system, as known in the art, to remove image harmonics flowing from the load to the system through the N phase in a circulating manner.

The conventional uninterruptible power supply and the image harmonic filter are installed separately and are not easy to install and construct and there is a problem that the image harmonic filter is not operated according to the characteristics of the uninterruptible power supply.

1. Korean Patent Laid-Open No. 10-2009-0033296, 'Off-line uninterruptible power supply device and method using intelligent power failure detection circuit' (Published date 2009.02.02) 2. Korean Unexamined Patent Publication No. 10-2002-0062262, 'Uninterruptible power supply device' (Published on July 25, 2002)

SUMMARY OF THE INVENTION It is an object of the present invention to provide an uninterruptible power supply having an image harmonics reduction function.

It is another object of the present invention to provide an uninterruptible power supply apparatus in which an image harmonic filter can be operated in accordance with the characteristics of an uninterruptible power supply.

According to an aspect of the present invention, there is provided an uninterruptible power supply comprising: a battery for supplying an emergency power; A switching switch for allowing the commercial power supply to supply power to the load when the commercial power supply is normal and for allowing the battery to supply power to the load when the commercial power supply is abnormal; And an image harmonic elimination device connected to the load side for filtering image harmonics flowing out through the neutral line in the load.

Here, the image harmonic elimination apparatus may include a harmonic sensing means and an image harmonic filter, and the harmonic sensing means may determine an input operation control mode of the image harmonic filter according to the commercial power state.

The harmonic sensing means controls the operation of the image harmonic filter in a first mode when the commercial power is in a normal state, and the harmonic sensing means, in the first mode, when the image harmonic content is less than or equal to a first reference value The image harmonic filter may be tripped and the image harmonic filter may be turned on when the image harmonic content exceeds the first reference value.

In addition, the harmonic sensing means may control the turning on operation of the image harmonic filter in a second mode when the commercial power source is in an abnormal state, and the harmonic sensing means may be configured such that in the second mode the image harmonic content is less than or equal to a second reference value The image harmonic filter is tripped; if the image harmonic content is equal to or higher than a second reference value and the SOC (State of Charge) of the battery is equal to or higher than a reference value, the image harmonic filter is charged; If the SOC of the battery is below the reference value, the image harmonic filter can be tripped.

The second reference value may be smaller than the first reference value.

The uninterruptible power supply apparatus according to the present invention may have an image harmonic reduction function in the uninterruptible power supply apparatus so that it can be easily installed and constructed.

The uninterruptible power supply according to the present invention can optimally operate the uninterruptible power supply function and the image harmonic filtering function in accordance with the characteristics of the uninterruptible power supply.

1 is a block diagram of an uninterruptible power supply having an image harmonic reduction function according to an embodiment of the present invention

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a configuration diagram of an uninterruptible power supply apparatus equipped with an image harmonic reduction function according to a preferred embodiment of the present invention.

1, the uninterruptible power supply includes a utility grid power supply 100 and a battery 200 for supplying power to the load L during power outage of a commercial power supply, (300) for switching the power supply line so that power is supplied to the load.

Of course, in order to control the switching operation of the change-over switch 300, a commercial power sensing means 100s is provided to detect whether the commercial power supply 100 is normally supplied.

The commercial power sensing means 100s may be one of various sensing means (PT, CT, etc.) for sensing whether electricity normally flows on the commercial power supply line.

And a control means 400 for operating the changeover switch 300 according to whether the commercial power source sensed by the commercial power sensing means 100s is disconnected. The commercial power sensing means 110s may provide a commercial power state value for controlling the switching operation of the switch 300 of the control means 400. [ The commercial power sensing means 110s can provide a steady state value to the control means 400 when the commercial power is in a normal state (for example, a non-operating state), and when the commercial power is in an abnormal state And to provide the control means 400 with an abnormal state value. Then, the control means 400 can control the switching operation of the switching switch 300 according to the state value received from the commercial power sensing means 110s.

The control means 400 may provide the utility power state value to the harmonic sensing means 10s described later. The control means 400 may provide the steady state value to the harmonic sensing means 10s when the utility power is in a normal state (e.g., non-operating state) The non-operating state value can be provided to the harmonic sensing means 10s. The harmonic sensing means 10s determines the closing operation mode of the image harmonic filter 10f according to the commercial power supply state value received from the control means 400 and supplies the image harmonic filter 10f in accordance with the determined closing operation mode. Can be controlled.

The video harmonic elimination device 10 is installed between the output terminal of the uninterruptible power supply device and the load L and can remove image harmonics flowing out from the load L during charging to the system or the battery side.

The image harmonic elimination device 10 includes a harmonic sensing means 10s and an image harmonic filter 10f.

The harmonic sensing means 10s can measure the image harmonics on the neutral line and calculate the image harmonic content. The harmonic sensing means 10s can determine the closing operation mode of the image harmonic filter 10f according to the commercial power state value received from the control means 400. [

The closing operation mode may be divided into a first mode corresponding to the normal power supply steady state value and a second mode corresponding to the utility power abnormal state value. The details of the mode may be as follows. The harmonic sensing means 10s may control the input operation of the image harmonic filter according to the mode selected according to the commercial power state value among the following modes. That is, the harmonic sensing means 10s controls the input operation of the image harmonic filter 10f in the first mode when the state value received from the control means 400 is the normal power supply state value, The input operation of the image harmonic filter 10f can be controlled to the second mode when the state value received from the commercial power supply abnormal state value is the commercial power supply abnormal state value.

The first mode The second mode - If the image harmonic content is below the first reference value, the image harmonic filter trip
If the image harmonic content exceeds the first reference value, the image harmonic filter input If the image harmonic content is below the second reference value, the image harmonic filter trip (second reference value < first reference value)
- When the image harmonic content is above the second reference value and the battery state of charge (SOC) is above the reference value, the image harmonic filter input
- If the image harmonic content is above the second reference value and the battery SOC is below the reference value,

Specifically, the harmonic sensing means 10s minimizes the damage to the commercial power system due to the image harmonics (the transformer overheating, the power factor reduction, the capacitor charge phenomenon and the burnout) by the image harmonics in the first mode, The filter can also control the closing operation of the video harmonic filter in a mode mainly focused on the impedance because it acts as a load).

As a part of this, in the first mode, the harmonic sensing means 10s can trip the image harmonic filter 10f when the image harmonic content is below the first reference value, and when the image harmonic content exceeds the first reference value, The filter 10f can be charged. Here, the first reference value may be a value corresponding to the KEHO harmonic tolerance. For example, the first threshold may be 5%.

In the second mode, the harmonic sensing means 10s is configured to minimize the resource loss on the load side (for example, battery damage due to image harmonics) and to focus on supplying power stably to the load side. The operation can be controlled.

As a part of this, when the image harmonic content in the second mode is lower than the second reference value, the harmonic sensing means 10s can trip the image harmonic filter 10f. Here, the second reference value may be a value smaller than the first reference value in the first mode. This is to prevent the inflow of a small amount of image harmonics into the battery or the UPS side regardless of whether the image harmonic filter acts as a load in order to minimize the load side resource loss. For example, the second reference value may be a value that is 50% of the first reference value.

In the second mode, the harmonic sensing means 10s can input an image harmonic filter when the image harmonic content is equal to or higher than a second reference value and the battery 200 SOC (State of Charge) is higher than a reference value, Is equal to or higher than the second reference value and the battery SOC is equal to or lower than the reference value, the image harmonic filter can be tripped. For example, the SOC may be 50%. This is because it is necessary to trip the image harmonic filter acting as a load in order to minimize the power loss of the battery if the SOC is lower than the reference value, since the UPS functions to supply power to the load side stably even when the UPS .

It goes without saying that the various reference values may be variously modified according to the designers 'and operators' choices depending on their meaning.

A filter switch 10a may be provided between the image harmonic filter and the output of the uninterruptible power supply for the trip / input operation of the image harmonic filter. The filter switch 10a can be turned on / off in response to a trip / input operation signal of the harmonic sensing means 10s.

The battery 200 may be provided with an SOC detection sensor SR for detecting the SOC of the battery 200 and informing the harmonic sensing means 10s of the SOC.

10: Image harmonic eliminator
10s: Harmonic sensing means
10f: image harmonic filter
100: commercial power supply
100s: Commercial power sensing means
200: Battery
SR: Remaining sensor
300: switch

Claims (5)

A battery that supplies emergency power;
A switching switch for allowing the commercial power supply to supply power to the load when the commercial power supply is normal and for allowing the battery to supply power to the load when the commercial power supply is abnormal;
An image harmonic elimination device connected to the load side for filtering image harmonics flowing out of the load through a neutral line; And
And a control unit for providing a steady state value to the image harmonics canceler when the commercial power is in a normal state and providing the abnormal state value to the image harmonics canceler when the commercial power is in an abnormal state,
The image harmonic elimination device
A harmonic sensing means and an image harmonic filter,
Wherein the harmonic sensing means determines an input operation control mode of the image harmonic filter according to the commercial power state,
The harmonic sensing means
And controls the input operation of the image harmonic filter in the first mode when the commercial power is in a normal state,
Wherein the harmonic sensing means, in the first mode,
If the image harmonic content is below the first reference value, the image harmonic filter is tripped,
When the image harmonic content exceeds a first reference value, an image harmonic filter is inputted,
The harmonic sensing means
And controlling an input operation of the image harmonic filter in a second mode when the commercial power source is in an abnormal state,
Wherein the harmonic sensing means, in the second mode,
The image harmonic filter is tripped if the image harmonic content is lower than a second reference value,
When the image harmonic content is equal to or higher than a second reference value and the SOC (State of Charge) of the battery is higher than a reference value, the image harmonic filter is charged,
When the image harmonic content is equal to or higher than a second reference value and the SOC of the battery is lower than a reference value, the image harmonic filter is tripped,
Wherein the second reference value is smaller than the first reference value.
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