EasyManua.ls Logo

Schweitzer Engineering Laboratories SEL-311C - SEL OGIC Control Equations; SEL OGIC Control Equation Operators

Schweitzer Engineering Laboratories SEL-311C
748 pages
Save Page as PDF
Print Icon
To Next Page IconTo Next Page
To Next Page IconTo Next Page
To Previous Page IconTo Previous Page
To Previous Page IconTo Previous Page
Loading...
H.4
SEL-311C Relay Instruction Manual Date Code 20060320
Setting SELOGIC Control Equations
SEL
OGIC Control Equations
SELOGIC Control Equations
Many of the protection and control element logic inputs shown in the various
figures in Section 3: Distance, Out-of-Step, Overcurrent, Voltage,
Synchronism Check, and Frequency Elements through Section 8: Breaker
Monitor and Metering Functions are SEL
OGIC control equations (labeled
SEL
OGIC Settings in most of the figures). SELOGIC control equations are set
with combinations of Relay Word bits to accomplish such functions as:
tripping circuit breakers
assigning functions to optoisolated inputs
operating output contacts
torque-controlling overcurrent elements
switching active setting groups
enabling/disabling reclosing
Traditional or advanced custom schemes can be created with SEL
OGIC control
equations.
SELOGIC Control
Equation Operators
SELOGIC control equation settings use logic similar to Boolean algebra logic,
combining Relay Word bits together using one or more of the six SEL
OGIC
control equation operators listed in Table H.1.
Operators in a SEL
OGIC control equation setting are processed in the order
shown in Table H.1.
SELOGIC Control Equation Parentheses Operator ( )
More than one set of parentheses ( ) can be used in a SELOGIC control
equation setting. For example, the following SEL
OGIC control equation setting
has two sets of parentheses:
SV7 = (SV7 + IN101) * (50P1 + 50G1)
In the above example, the logic within the parentheses is processed first and
then the two parentheses resultants are ANDed together. Parentheses cannot
be “nested” (parentheses within parentheses) in a SEL
OGIC control equation
setting.
SELOGIC Control Equation NOT Operator !
The NOT operator ! is applied to a single Relay Word bit and also to multiple
elements (within parentheses). Following are examples of both.
Ta ble H .1 S ELOGIC Control Equation Operators (Listed in Processing Order)
Operator Logic Function
/ rising edge detect
\ falling edge detect
() parentheses
!NOT
* AND
+OR

Table of Contents

Related product manuals