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The MANUAL mode has the following operaonal states (Table 4.2.1):
Table 4.2.1 · MANUAL operaonal states
MANUAL OPERATION MODES
STATE DISPLAY DESCRIPTION
STOPPED STOPPED
In the STOPPED state, the system closes all valves and acvates the ALARM output.
If the user iniates the system by pressing and holding the OK and → keys for a
second or more, the system will transion to the START-UP state.
START-UP START-UP
In the START-UP state the system checks the input PS3 (Proof of Closure). If the
input is acve then the system transions to the POC FAILURE state. If the input
is inacve the user is sll holding OK and → keys, the system transions to the
PRE-PURGE state.
PRE-PURGE PRE-PURGE
In the PRE-PURGE state, if the user is sll holding the OK and → keys, the system
delays for the PREPURGE TIME before transioning to the IGNITING state.
The PRE-PURGE state is intended to provide me for the system to purge itself of
unignited gas.
IGNITE IGNITE
In the IGNITE state, if the user is sll holding the OK and → keys, the system begins
ignion, opens the ESD and Pilot valves, and then connues to ignite for up to 60
seconds or unl ame is detected. If ame is detected the system will transion
to the IDLE state. If the ignion me expires before ame is detected or the user
releases the OK and → keys, then the system will transion to the STOPPED state.
PILOT ON PILOT ON
In the PILOT ON state, the system will wait to transion to an ACTIVE state unl one
of the processes becomes acve. If pilot ame is lost, the system will transion to
the STOPPED state
IDLE IDLE
In the IDLE state, the system waits for the user to press the OK key in order to begin
the processes. If the user presses the OK key, the system will transion to the PILOT
ON state.
ACTIVE 1 ACTIVE PRCS 1
In any of the ACTIVE states, the system connually checks the state of all processes.
If a process becomes acve, the system will open the process’ valve and update
the state name accordingly. If any process becomes inacve, the system will close
that process’ valve and update the state name accordingly. If all processes become
inacve, the system will transion back to the PILOT ON state. If pilot ame is lost,
the system will transion to the STOPPED state.
ACTIVE 2 ACTIVE PRCS 2
ACTIVE 3 ACTIVE PRCS 3
ACTIVE 1+2 ACTIVE PRCS 1,2
ACTIVE 1+3 ACTIVE PRCS 1,3
ACTIVE 2+3 ACTIVE PRCS 2,3
ACTIVE
1+2+3
ACTIVE PRCS ALL
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