KR20210098877A - Method for Anti-islanding of the grid-connected Single Phase Inverter using Under Current Relay(UCR) - Google Patents

Abstract

The present invention provides a method for anti-islanding a grid-connected single-phase inverter using an under current relay (UCR) and a protection relay box to prevent a single-phase or two-phase operation of a single-phase inverter connected to KEPCO three-phase grid, by using a low-current relay and a related protection device that can re-execute system-connected operation with an automatic re-set function when a fault factor of a single-phase inverter is resolved. The method for anti-islanding a grid-connected single-phase inverter using a UCR includes the following steps: (a) an operation coil of a magnetic contactor (MC) is excited to close the MC, so that solar power is connected to a KEPCO system to be transmitted back to KEPCO; and (b) if the setting time of an on-delay timer (BT) for booting an inverter is exceeded, the MC is closed and operated in conjunction with KEPCO only when all the single-phase inverters (q, r, s) are operating normally.

Description

Method for Anti-islanding of the grid-connected Single Phase Inverter using Under Current Relay (UCR)}

According to the present invention, the number of power generation companies using single-phase inverters is increasing exponentially for the purpose of linking small-scale solar power generation power to the KEPCO three-phase system. The need for quality maintenance was requested.

Therefore, the present invention quickly and effectively detects the failure of these single-phase inverters for the purpose of quality maintenance and management of KEPCO power and separates the link from the KEPCO grid to prevent phase imbalance due to single-phase or two-phase linked operation and control with a low current relay The 24-hour timer for power control and the timer with On Delay function for inverter booting are properly combined and configured.

In general, when linking a small-capacity distributed power source of 10KW or less to the KEPCO three-phase grid, three relatively inexpensive single-phase inverters are used for grid connection instead of the expensive three-phase inverter to reduce installation costs.

In this case, when one or more single-phase inverters fail, the quality of KEPCO's power may be affected by phase imbalance of voltage and current.

Therefore, there is a need for a protective relay box that automatically separates the KEPCO system from the linked operation by quickly detecting the failure of the single-phase inverter operating in conjunction with the three-phase system of KEPCO.

Articles 17 and 18 of Korea Electric Power's Distributed Power Distribution System Linkage Technical Guidelines (Guideline): In the case of reverse-transmission and parallel distributed power sources, a device that automatically cuts off the linkage by the independent operation prevention function according to Article 17 shall be installed. do. Protection device installation clause for power generation facility connection plan utilizing single-phase inverter: When a single-phase inverter is installed in two or three phases in a three-phase system, a relay including voltage and current elements so that it can be disconnected from the system in case of failure of the system or one or more inverters and a circuit breaker should be installed in front of the inverter.

In Korea Electric Power, for the quality maintenance of KEPCO grid power from numerous small power plants using single-phase inverters linked to the power grid, in the “Decentralized Power Distribution Grid Linkage Technology Standard” In case of failure of one or more inverters, it specifies that a relay, including voltage and current components, must be installed in front of the inverter to quickly disconnect it from the grid.

Therefore, some use active power relays, reactive power relays, and frequency relays to detect minute fluctuations in active power, reactive power and frequency when one or more single-phase inverters fail, and devise and use a method to cancel linked operation with KEPCO. .

However, it is considered that technical limitations and expensive protection relays are required to detect changes in active power, reactive power and frequency of the KEPCO grid due to a failure of a small inverter of 10KW or less connected to the KEPCO grid.

So, until now, a reliable protective relay box that satisfies the technical conditions required by KEPCO has not been developed.

The present invention applies the no-load trip (NLT) function of the low current relay (UCR), the On Delay Timer, and related protection devices. It becomes (0) and UCR is tripped by the no-load trip (NLT) function of the corresponding low current relay (UCR).

At this time, the trip signal of the corresponding UCR is received and the KEPCO 3-phase system and linked operation are immediately canceled.

Therefore, the present invention applies 3 units of UCR and On Delay Timer and related protection devices to quickly and accurately cancel the operation in connection with KEPCO in the most reliable way when one or more single-phase inverters connected to the KEPCO 3-phase system fail. Manufacturing method and low current of "Protection Relay Box to Prevent Independent Operation of Grid-Linked Single-Phase Inverter", created for the purpose of quality maintenance and management of KEPCO electric power by preventing single-phase or two-phase operation of distributed power sources in connection with KEPCO Provided is a method for preventing independent operation of a grid-connected single-phase inverter using a relay (UCR).

The present invention applies the no-load trip (NLT) function of the low current relay (UCR), the On Delay Timer, and related protection devices. It becomes (0) and UCR is tripped by the no-load trip (NLT) function of the corresponding low current relay (UCR).

At this time, the trip signal of the corresponding UCR is received and the KEPCO 3-phase system and linked operation are immediately canceled.

Therefore, the present invention applies 3 units of UCR and On Delay Timer and related protection devices to quickly and accurately cancel the operation in connection with KEPCO in the most reliable way when one or more single-phase inverters connected to the KEPCO 3-phase system fail. Manufacturing method and low current of "Protection Relay Box to Prevent Independent Operation of Grid-Linked Single-Phase Inverter", created for the purpose of quality maintenance and management of KEPCO electric power by preventing single-phase or two-phase operation of distributed power sources in connection with KEPCO Provided is a method for preventing independent operation of a grid-connected single-phase inverter using a relay (UCR).

The method of preventing independent operation of a grid-linked single-phase inverter using the low current relay (UCR) of the present invention is (a) the ON time of the 24 hour Timer (T) and the inverter booting, which is the time when the magnetic contactor (MC) can generate solar power. Within the short setting time of On Delay Timer (BT) for A step in which the working coil is excited and the magnetic contactor (MC) is closed, so that the solar power generation power can be transmitted back to the KEPCO in connection with the KEPCO system; (b) If the setting time of On-Delay Timer (BT) for inverter booting is exceeded, the magnetic contactor (MC) is closed only when all the single-phase inverters (q, r, s) are operating normally to operate in conjunction with KEPCO. becoming a step; (c) If one or more single-phase inverters do not operate normally, the trip function of the corresponding UCR operates and the magnetic contactor (MC) is opened. and the step in which the linked operation is released; And (d) The UCR tripped in step (c) is automatically re-set as the control power of the Timer (T) is OFF at 24 hours after sunset time. The devices may be operated normally and may include a step of reconnecting operation with KEPCO.

Small-capacity reverse transmission distributed power providers, which are increasing exponentially with the expansion of new and renewable energy, are using single-phase inverters instead of 3-phase inverters to reduce installation costs.

In addition, KEPCO stipulates that for the purpose of maintaining the quality of grid power, a relay box to prevent single-phase inverter operation including voltage and current elements should be installed in front of the inverter.

Therefore, so far, small power generation operators have used expensive protective relay boxes that do not guarantee the functions of active power relays, reactive power relays, and frequency relays.

However, the protection relay box of the present invention applied with a low current relay, On-Delay Timer and related protection devices certainly satisfies the requirements of KEPCO and has good economic feasibility compared to the existing protection relay box, so it can help small power generation operators.

1 is a schematic circuit diagram composed of a low current relay (UCR) and an associated timer according to a preferred embodiment of the present invention.
2 is a flowchart of a method for preventing single-phase inverter operation of a grid-connected single-phase inverter using a low current relay (UCR) according to a preferred embodiment of the present invention, and is a flowchart illustrating the operation of the circuit of FIG. 1 .

In order to solve the above-mentioned problems, the contents of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the main device for implementing the present invention is a circuit protection circuit breaker (MCCB), a magnetic contactor (MC) for operation in conjunction with KEPCO, a low current relay (UCR) with a no-load trip (NLT) function, It is composed of a 24 hour Timer (T) with built-in sunrise and sunset times to control the control power, On Delay Timer (BT) for inverter booting, and Power Relay for configuring related control circuits.

When explaining the operation of the protection relay box, the circuit protection circuit breaker (MCCB)a maintains an ON state at all times for connection with KEPCO.

The low current relay (UCR) c, d, e must have a no-load trip (NLT) function or a micro-current detection function for single-phase use. In case of inverter failure, a trip signal should be generated, so be careful when wiring CT.

24 Hour Timer(T) f has a built-in rechargeable battery for control power ON and OFF, sunrise and sunset times must be built-in, and the current time must be set.

Therefore, the control power is turned on (supplied) in consideration of the solar power generation available time after sunrise, and the control power is turned off after sunset, so all relays including UCR are automatically reset.

On-Delay Timer (BT) g is used for booting the grid-connected inverter and used for 0 ~ 30 minutes.

For grid-connected inverters, for electrical safety, KEPCO compulsorily stipulates that KEPCO power must be turned on to boot. is to disable the UCR function.

In the flowchart of FIG. 2, the magnetic contactor (MC) is supplied with power for control within the ON time of the 24 hour Timer (T), which is a solar power generation possible time, and the short setting time of the On Delay Timer (BT) for inverter booting, but UCR Because the power is not supplied to the inverter, the trip function of UCR cannot be activated regardless of whether the inverter is operating normally, so the operation coil of the magnetic contactor (MC) is excited and the MC is closed. can be transferred back to

However, if the setting time of the On-Delay Timer (BT) for inverter booting is exceeded, the magnetic contactor (MC) is closed only when all the single-phase inverters (q, r, s) are operating normally and the operation is linked with KEPCO. If one or more single-phase inverters do not operate normally, the trip function of the corresponding UCR operates and the magnetic contactor (MC) is opened. driving is canceled

In this case, the tripped UCR is automatically re-set by turning off the control power of the Timer (T) at 24 hours after sunset. Linked driving is possible.

Therefore, the contents described above appropriately apply single-phase low current relay (UCR), 24-hour Timer (T), On-Delay Timer (BT), etc. It satisfies Article 17 of the Distributed Power Distribution System Interconnection Technology Standard required by KEPCO as the operation in conjunction with the KEPCO system is cleared. Therefore, the present invention provides a method of manufacturing a protection relay box for preventing single-phase inverter operation connected to the KEPCO grid using a low-current relay (UCR) and a method for preventing single-phase operation of a grid-connected single-phase inverter using a low current relay (UCR). to provide.

a(MCCB): Circuit breaker for distributed power connected to KEPCO grid
b(MC): Magnetic contactor in which distributed power supply operates in conjunction with KEPCO grid
c(UCR,R) : R-phase Under Current Relay
d(UCR,S) : S-phase Under Current Relay
e(UCR,T) : T-phase Under Current Relay
f(T) : 24 hour timer with built-in sunrise and sunset times
g(BT) : On-Delay Timer for booting of grid-connected inverter
h(mc) : Coil for operation of magnetic contactor
i(INV.R) : R-phase inverter
j(INV.S) : S-phase inverter
k(INV.T) : T-phase inverter

Claims (1)

(a) Power for control is supplied within the ON time of the 24-hour Timer (T), which is the time when the magnetic contactor (MC) can generate solar power, and the short setting time of the On Delay Timer (BT) for inverter booting, but the low current relay ( UCR) is not supplied with power, so the trip function of UCR cannot be activated regardless of whether the inverter is operating normally, so the operation coil of the magnetic contactor (MC) is excited and the magnetic contactor (MC) is closed. a step of being connected to the KEPCO system and capable of transmitting reverse power to KEPCO;
(b) If the setting time of On-Delay Timer (BT) for inverter booting is exceeded, the magnetic contactor (MC) is closed only when all the single-phase inverters (q, r, s) are operating normally to operate in conjunction with KEPCO. becoming a step;
(c) If one or more single-phase inverters do not operate normally, the trip function of the corresponding UCR operates and the magnetic contactor (MC) is opened. and the step in which the linked operation is released; and
(d) Since the UCR tripped in step (c) is automatically re-set as the control power of the Timer(T) is OFF at 24 hours after sunset time, if all single-phase inverters generate normal power after sunrise the next day, all control devices including UCR Steps in which they operate normally and can operate in conjunction with KEPCO again;
A method for preventing independent operation of a grid-connected single-phase inverter using a low-current relay (UCR), comprising:

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