GE 90-30/20/Micro Manual De Usuario
2-26
Series 90-30/20/Micro Programmable Controllers Reference Manual
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September 1998
GFK-0467K
2
Table 2-6. System Status References - Continued
Reference
Nickname
Definition
%SB0010
BAD_RAM
Set when the CPU detects corrupted RAM memory at power-up.
Cleared when the CPU detects that RAM memory is valid at power-up.
Cleared when the CPU detects that RAM memory is valid at power-up.
%SB0011
BAD_PWD
Set when a password access violation occurs. Cleared when the PLC
fault table is cleared.
fault table is cleared.
%SB0013
SFT_CPU
Set when the CPU detects an unrecoverable error in the software.
Cleared by clearing the PLC fault table.
Cleared by clearing the PLC fault table.
%SB0014
STOR_ER
Set when an error occurs during a programmer store operation. Cleared
when a store operation is completed successfully.
when a store operation is completed successfully.
%SC0009
ANY_FLT
Set when any fault occurs. Cleared when both fault tables have no
entries.
entries.
%SC0010
SY_FLT
Set when any fault occurs that causes an entry to be placed in the PLC
fault table. Cleared when the PLC fault table has no entries.
fault table. Cleared when the PLC fault table has no entries.
%SC0011
IO_FLT
Set when any fault occurs that causes an entry to be placed in the I/O
fault table. Cleared when the I/O fault table has no entries.
fault table. Cleared when the I/O fault table has no entries.
%SC0012
SY_PRES
Set as long as there is at least one entry in the PLC fault table. Cleared
when the PLC fault table has no entries.
when the PLC fault table has no entries.
%SC0013
IO_PRES
Set as long as there is at least one entry in the I/O fault table. Cleared
when the I/O fault table has no entries.
when the I/O fault table has no entries.
%SC0014
HRD_FLT
Set when a hardware fault occurs. Cleared when both fault tables have
no entries.
no entries.
%SC0015
SFT_FLT
Set when a software fault occurs. Cleared when both fault tables have
no entries.
no entries.
Note: Any %S reference not listed here is reserved and not to be used in program logic.
Function Block Structure
Each rung of logic is composed of one or more programming instructions. These may be simple
relays or more complex functions.
relays or more complex functions.
Format of Ladder Logic Relays
The programming software includes several types of relay functions. These functions provide
basic flow and control of logic in the program. Examples include a normally open relay contact
and a negated coil. Each of these relay contacts and coils has one input and one output. Together,
they provide logic flow through the contact or coil.
basic flow and control of logic in the program. Examples include a normally open relay contact
and a negated coil. Each of these relay contacts and coils has one input and one output. Together,
they provide logic flow through the contact or coil.
Each relay contact or coil must be given a reference which is entered when selecting the relay. For
a contact, the reference represents a location in memory that determines the flow of power into the
contact. In the following example, if reference %I0122 is ON, power will flow through this relay
contact.
a contact, the reference represents a location in memory that determines the flow of power into the
contact. In the following example, if reference %I0122 is ON, power will flow through this relay
contact.
%I0122
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