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SCHEDULE 3—INTERCONNECTION PROCESS,TECHNICAL REQUIREMENTS,AND OPERATING PROCEDURES <br /> 3. Types of Interconnections <br /> A)The manner in which the Generation System is connected to and disconnected from the Area EPS can vary. <br /> Most transfer systems normally operate using one of the following five methods of transferring the load <br /> from the Area EPS to the Generation System. <br /> B)If a transfer system is installed which has a user accessible selection of several transfer modes,the transfer <br /> mode that has the greatest protection requirements will establish the protection requirements for that <br /> transfer system. <br /> i) Open Transition (Break-Before-Make) Transfer Switch — With this transfer switch, the load to be <br /> supplied from the Distributed Generation is first disconnected from the Area EPS and then connected <br /> to the Generation.This transfer can be relatively quick, but voltage and frequency excursions are to be <br /> expected during transfer. Computer equipment and other sensitive equipment will shut down and <br /> reset.The transfer switch typically consists of a standard UL approved transfer switch with mechanical <br /> interlocks between the two source contactors that drop the Area EPS source before the Distributed <br /> Generation is connected to supply the load. <br /> (1)To qualify as an Open Transition switch and the limited protective requirements, mechanical <br /> interlocks are required between the two source contacts. This is required to ensure that one of <br /> the contacts is always open and the Generation System is never operated in parallel with the Area <br /> EPS. If the mechanical interlock is not present,the protection requirements are as if the switch is <br /> a closed transition switch. <br /> (2)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 /> (3) Figure 1 at the end of this document provides a typical one-line of this type of installation. <br /> ii) Quick Open Transition (Break-Before-Make) Transfer Switch — The load to be supplied from the <br /> Distributed Generation is first disconnected from the Area EPS and then connected to the Distributed <br /> Generation, similar to the open transition. However, this transition is typically much faster(under 500 <br /> ms) than the conventional open transition transfer operation. Voltage and frequency excursions will <br /> still occur, but some computer equipment and other sensitive equipment will typically not be affected <br /> with a properly designed system. The transfer switch consists of a standard UL approved transfer <br /> switch, with mechanical interlocks between the two source contacts that drop the Area EPS source <br /> before the Distributed Generation is connected to supply the load. <br /> (1) Mechanical interlocks are required between the two source contacts to ensure that one of the <br /> contacts is always open. If the mechanical interlock is not present, the protection requirements <br /> are as if the switch is a closed transition switch <br /> (2)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 /> (3)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. <br /> Interconnection Process for Distributed Generat04 Systems <br />