Bus and backup logic schemes, Normal operation - control, Normal operation - bus protection – Basler Electric BE1-851 User Manual

SL-143 = 2

SL-243 = 2

SL-343 = 2

SL-101 = 1

SL-VOA = ALMMAJ

SL-VO1 = VO11+BFPU+101T

SL-VO2 = 79C+101C

SL-VO3 = /79SCB

SL-VO4 = VO12*/VO5*IN4*/343

SL-VO5 = BFT

SL-VO6 = 0

SL-VO7 = 0

SL-VO8 = IN2*/143*101SC

SL-VO9 = VO5

SL-VO10 = VO11+IN3*150TPPU+IN3*150TNPU

SL-VO11 = 50TPT+50TNT+51PT+51NT

SL-VO12 = 50TPPU+50TNPU+51PPU+51NPU

SL-VO13 = 0

SL-VO14 = 0

SL-VO15 = /IN4+343

Bus and Backup Logic Schemes

Logic schemes BUS and BACKUP are meant for use on a bus main breaker, and provide all overcurrent

protection and control functions required for a typical bus main breaker in a non-directional overcurrent

protection application. These logic schemes are intended for use in conjunction with other programmable

relays using the Feeder_1, Feeder_2, and Feeder_3 logic schemes to provide complete overcurrent

protection for the transformers, bus, and feeders in a radial system substation.
The components of BUS logic are summarized in Tables 8-21 through 8-24. Figure 8-11 is a one-line

diagram of BUS logic and Figure 8-12 is a diagram representing the logic settings and equations of BUS

logic.
The components of BACKUP logic are summarized in Tables 8-25 through 8-28. Figure 8-13 is a one-line

diagram of BACKUP logic and Figure 8-14 is a diagram representing the logic settings and equations of

BACKUP logic.
When interconnected with feeder relays using logic scheme Feeder_1, Feeder_2, or Feeder_3, the

BACKUP logic scheme provides complete backup (except for reclosing) for the feeder relays if relay

failure occurs or when they are out of service for testing or maintenance. Figure 8-15 shows the

interconnection of Feeder, BUS, and BACKUP relays to achieve this integrated protection system.

Normal Operation - Control

The virtual breaker control switch is programmed to provide manual trip and close control of the bus

breaker in both BUS and BACKUP logic. The control functions of these logic schemes use both traditional

contact sensing inputs and virtual switches. Virtual switches that are not needed may simply go unused.

The protection engineer may choose to free up contact sensing inputs for other uses by using the virtual

switches exclusively for the various control functions.

Normal Operation - Bus Protection

The BUS relay logic primary task in normal operation is to provide high-speed bus fault protection (2-4

cycles coordination interval) and timed overload or high unbalanced load protection. The BACKUP relay

logic primary task is to backup the Bus relay for bus faults with a coordination interval of 18-20 cycles
When any of the feeder relay overcurrent elements are picked up and timing, OUT4 on the feeder relay

closes. This signal is wired to IN2 of the upstream (primary) bus relay using Bus logic that blocks the 50T

elements. These are set with a delay of 2 to 4 cycles. If the fault is not on a feeder, the 50T elements of

the bus relays are not blocked. The 50T function blocks are set up to trip the bus breaker by an external

bus lockout relay (86B) via OUT4. The BACKUP relay does not get blocked when the feeder relays are

picked up so its 50T elements are set with a time delay long enough to allow the feeder breaker to

8-44

BE1-851 Application

9289900990 Rev R