Selective Coordination Open Fault Figure 11 Figure 12 A non-selectively designed system of overcurrent protection devices is shown in Figure 11. When a building power distribution system is designed without selectivity, potential safety hazards and costly power outages may result. A system with designed selectivity will assure that only the overcurrent protection device for a faulted circuit will open to limit a power outage to the faulted circuit. “I2t Melting Energy” is a reference to the value of “I2t Energy” required to melt the link(s) of Fuse A. “I2t” is not an energy value, but a convenient reference used for comparison purposes. Actual energy would be “I2Rt” where “R” is resistance. The value of resistance is so low compared to the other two values that it is ignored for convenience. Selectivity Refer to Figure 12 for an illustration of the use of determine fuse selectivity for short-circuit conditions. “I2t” to Energy from fault current flow builds up heat inside fuses, breakers and conductors as the current flows to a fault loca- “I2t Clearing Energy” is a reference to the amount of energy that Fuse B allows to build up in the form of heat during Fuse B “Total Clearing Time.” Figure 12 shows an obvious conclusion that if the “I2t Clearing Energy” of Fuse B is less than the “I2t Melting Energy” of the link(s) of Fuse A then Fuse A will not open when a fault on the load side of Fuse B occurs. “Selectivity Ratio Guide” For Current Limiting Fuses* Divide the amps rating of a load-side fuse into the amps rating of the line-side fuse. If the ratio is "Equal to or larger than" the table ratio, then a fault on the load side of the load-side Circuit Current Rating Type Class Line-Side Fuse 601 to Time6000A Delay 0 to 600A Dual Element L Edison Symbol LCL Load-Side Fuse A 0-600A TimeDual-Element Delay Time-Delay L RK1 J** LCL LENRK JDL LESRK 2:1 2:1 2:1 fuse will cause the load-side fuse ONLY to open to provide selectivity. 601-6000A Fast-Acting 0-600A Fast-Acting 0-1200A 0-600A RK5 ECNR ECSR 4:1 L LCU T TJN TJS 2:1 J JFL 2:1 RK1 NCLR SCLR 2:1 0-60A TimeDelay G SEC 2:1 N/A RK1 LENRK LESRK – 2:1 2:1 8:1 – 3:1 3:1 3:1 4:1 J RK5 JDL** ECNR ECSR LCU – – 2:1 1.5:1 2:1 1.5:1 8:1 2:1 – – 3:1 1.5:1 3:1 1.5:1 3:1 1.5:1 4:1 1.5:1 2:1 N/A 3:1 4:1 3:1 4:1 3:1 4:1 2:1 2:1 601 to L 2:1 2:1 2:1 6:1 2:1 2:1 2:1 6000A 0 to Fast- RK1 NCLR – 3:1 3:1 8:1 – 3:1 3:1 600A Acting SCLR 0 to T TJN – 3:1 3:1 8:1 – 3:1 3:1 1200A TJS 0 to J JFL – 2:1 2:1 8:1 – 3:1 3:1 600A 0 to Time- G SEC – 3:1 3:1 4:1 – 2:1 2:1 60A Delay Note: At some values of fault current, specified ratios may be lowered to permit closer fuse sizing. Plot fuse curves or consult with Edison Fusegear. **General Notes: Ratios given in this Table apply only to Edison fuses. When fuses are within the same case size, consult Edison Fusegear. *Consult Edison Fusegear for latest data.