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SCHEDULE 3—INTERCONNECTION PROCESS,TECHNICAL REQUIREMENTS,AND OPERATING PROCEDURES <br /> iii)Closed Transition (Make-Before-Break) Transfer Switch —The Distributed Generation is synchronized <br /> with the Area EPS prior to the transfer occurring. The transfer switch then parallels with the Area EPS <br /> for a short time(100 msec. or less) and then the Generation System and load is disconnected from the <br /> Area EPS. This transfer is less disruptive than the Quick Open Transition because it allows the <br /> Distributed Generation a brief time to pick up the load before the support of the Area EPS is lost.With <br /> this type of transfer,the load is always being supplied by the Area EPS or the Distributed Generation. <br /> (1)As a practical point of application this type of transfer switch is typically used for loads less than <br /> 500kW.This is due to possible voltage flicker problems created on the Area EPS,when the load is <br /> removed from or returned to the Area EPS source. Depending up the Area EPS's stiffness this level <br /> may be larger or smaller than the 500kW level. <br /> (2)Figure 2 at the end of this document provides a typical one-line of this type of installation and <br /> shows the required protective elements. The closed transition switch must include a separate <br /> parallel time limit relay, which is not part of the generation control PLC and trips the generation <br /> from the system for a failure of the transfer switch and/or the transfer switch controls. <br /> iv) Soft Loading Transfer Switch <br /> (1)With Limited Parallel Operation—The Distributed Generation is paralleled with the Area EPS for a <br /> limited amount of time (generally less than 1-2 minutes) to gradually transfer the load from the <br /> Area EPS to the Generation System.This minimizes the voltage and frequency problems, by softly <br /> loading and unloading the Generation System. <br /> (a)The maximum parallel operation shall be controlled, via a parallel timing limit relay (62PL). <br /> This parallel time limit relay shall be a separate relay and not part of the generation control <br /> PLC. <br /> (b) Protective Relaying is required as described in section 6. <br /> (c) Figure 3 at the end of this document provide typical one-line diagrams of this type of <br /> installation and show the required protective elements. <br /> (2)With Extended Parallel Operation — The Generation System is paralleled with the Area EPS in <br /> continuous operation. Special design, coordination and agreements are required before any <br /> extended parallel operation will be permitted. The Area EPS interconnection study will identify <br /> the issues involved. <br /> (a)Any anticipated use in the extended parallel mode requires special agreements and special <br /> protection coordination. <br /> (b) Protective Relaying is required as described in section 6. <br /> (c) Figure 4 at the end of this document provides a typical one-line for this type of <br /> interconnection. It must be emphasized that this is a typical installations only and final <br /> installations may vary from the examples shown due to transformer connections, breaker <br /> configuration,etc. <br /> v) Inverter Connection <br /> This is a continuous parallel connection with the system. Small Generation Systems may <br /> utilize inverters to interface to the Area EPS. Solar, wind and fuel cells are some examples of <br /> Generation which typically use inverters to connect to the Area EPS. The design of such <br /> inverters shall either contain all necessary protection to prevent unintentional islanding, or the <br /> Interconnection Customer shall install conventional protection to affect the same protection. <br /> All required protective elements for a soft-loading transfer switch apply to an inverter <br /> Interconnection Process for Distributed Generate Systems <br />