Example 1 of one day rollover, Example 2 of one day rollover, Multiple day rollover – GE 4 Series User Manual
Page 31: Example of multiple day rollover, Figure 8. time schedule rollover examples, Attaching time schedules
Concord 4 Series Security Systems
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Example 1 of One Day Rollover
At home you’d like the Latchkey Opening feature to be effective from 10 p.m. on Tuesday until
5 a.m. on Wednesday (see Figure 8 Example 1).
By taking advantage of One Day Rollover, one time schedule can cover both days. (That sched-
ule is illustrated in Figure 8.)
Notice how the stop time is within 24 hours of the start time. The system knows to apply the stop
time to the next day (5 a.m. on Wednesday).
Example 2 of One Day Rollover
Building on Example 1, let’s say that you’d like the Latchkey Opening feature to be effective
between 10 p.m. and 5 a.m., Monday through Friday (ending Saturday morning).
By simply applying the start and stop times to each day, one time schedule can cover the entire
week (see Figure 8 Example 2).
Multiple Day Rollover
The simplest method for defining a window of time that spans multiple days is to use 99:99 to
signify an open start or stop time.
Example of Multiple Day Rollover
At your business you’d like specific lights to remain lit from Friday afternoon through the week-
end, until Monday morning.
In this situation, the lights need to be scheduled to roll over until they reach a recognizable stop
time.
In the Figure 8 Example 3, Schedule Y is set up to begin at 4 p.m. on Friday afternoon. Since the
stop time is 99:99, the lights will remain lit (roll over) until a recognizable stop time is reached.
Schedule Z is set up with an undefined start time (99:99), so if the lights were already lit, they
will remain lit until the Schedule Z stop time is reached at 5 a.m.
Figure 8. Time Schedule Rollover Examples
Attaching Time Schedules
For any schedule to be effective, it needs to be attached to a feature. One schedule can be
attached to more than one feature event.
• See “Advanced Light Control” for information on attaching time schedules for light control.
• See “Controlling Outputs By Time Schedule” for information on attaching time schedules to
outputs.
• See “Schedule Arming” for information on attaching schedules to Arming.
S c h e d u l e
X
S t a r t
S t o p
M o n
T u e
W e d
T h u r
F r i
S a t
S u n
2 2 : 0 0
0 5 : 0 0
O F F
O F F
O F F
O N
O F F
O F F
P a r t .
1
O F F
Example 1
S c h e d u l e
X
S t a r t
S t o p
M o n
T u e
W e d
T h u r
F r i
S a t
S u n
2 2 : 0 0
0 5 : 0 0
O F F
O F F
P a r t .
1
O N
O N
O N
O N
O N
Example 2
S c h e d u l e
Y
S t a r t
S t o p
M o n
T u e
W e d
T h u r
F r i
S a t
S u n
1 6 : 0 0
9 9 : 9 9
O F F
O F F
O F F
O F F
O N
O F F
O F F
P a r t .
S c h e d u l e
Z
O N
O F F
O F F
O F F
O F F
O F F
O F F
9 9 : 9 9
0 5 : 0 0
1
1
Example 3