Emerson E2 Refrigerator User Manual


 
11-32E2 RX/BX/CX I&O Manual 026-1614 Rev 4 5-JAN-2013
11.10.2 Functions of the Lighting Schedule Application
Figure 11-19 - Lighting Schedule Module Cell Diagram
Output
DV
Proof
DV
Proof
DV
Light Schedule
DV
Lighting Control Module
In
Out
Min On/Off
On/Off Delay
Min On/Off
with Delay
DVDV
Desired Value
Proof Fail
Delay
Latch Time
Proof
DVDV
Actual Value
DV
Logic In
DV
Use Alt Sched Comb
DV
LLEV In
Logic In
Occup
Out
Comb Type
Alt Comb
LLev
Interface
AV
DV
DV
DV
Use Alt
DV
Invert Output
DV
Cutin/out SPs
Use Alt LLEV Comb
DV
Out
Events
Active Days
Basic Sched
DVDV
Extern Sched
Use Ext Sched
Light Level LLEV
AV
LLEV Occup
DV
Bypass
DV
Logic In
Sched In
Use Alt
Out
Comb Type
Alt Comb
Schedif
DV
DV
DV
DV
Invert Output
DV
Sunset Today
DV
Offset
Control
Rise/Set Offset
Multi Logic
Combiner
Use Alt Comb
DV
Logic1
Logic2
Logic3
Logic4
Use Alt
Out
Control
Method
Select
Use Alt Control
Figure 11-19 shows a flowchart diagram of the Light-
ing Schedule application and the eight cells that work
together
to control the lights. A description of each cell
and the functions they perform are given below.
11.10.3 Control Method Select
Control Select determines whether the Multi-Logic
Combiner is used or the Light Level Interface and Sched-
ule Interface are used for Lighting Control. When Use Alt
Contr
ol is set to Ye s, the Light Level Interface and Sched-
ule Interface combination strategies are dis
abled and are
not visible. When Use Alt Control is set to No, the Multi-
Logic Combiner matrix is disabled and not visible.
11.10.4 Standard Control
Standard control comprises Light Level Interface and
Schedule Interface strategies.
11.10.4.1 The Light Level Interface Cell
(LLEV INTERFACE)
The Light Level Interface cell of the Lighting Schedule
application translates the value of the light level sensor
into an ON or OFF command by comparing the analog
light level to a set of Cut In/Cut Out setpoints.
From an OFF state, when the li
ght level falls below the
Cut In setpoint, the result of the light level comparison
will be an ON state. When the light level rises above the
cut-out setpoint, the state will transition from ON to OFF.
The ON/OFF state determined by the light level can be
lo
gically combined with LOGIC IN, a digital input from
an input point or another application in E2. The result of
this comparison will be the final ON/OFF light state com-
mand that is sent from the Light
Level Interface cell to the
Schedule Interface cell (explained below).
Logical Combination Strategies
There are several different strategies for combining
the light level ON/OFF state with the value of the
LOGIC IN input:
Logi
c Only - The cell will read only the
LOGIC IN input and ignore the light level
sensor reading.
LL
EV Only - The cell will read only the light
level sensor and ignore the value of the
LOGIC IN input.
Both
ON/Both OFF - From an output=OFF
state, when both the light level state and the
LOGIC IN input are ON, the resulting output
command will be ON. The output command
will remain ON until both the light level
state and the LOGIC IN input turn OFF.
Both ON/LL
EV OFF - Like the Both ON/