Lighting groups – GE Industrial Solutions A Series Lighting Control Panelboards nstallation and Wiring User Manual

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Description

Type

BACNet Object

Modbus Register

Light Switch Inputs GE-1600i

RO

MI101-116

Fn 4, 01 – 16

Light Switch Inputs (1

st

GE-1600R)

RO

MI201-216

Fn 4, 17 – 32

Light Switch Inputs (2

nd

GE-1600R)

RO

MI301-316

Fn 4, 33 – 48

Light Switch Inputs (3

rd

GE-1600R)

RO

MI401-416

Fn 4, 49 – 64

Light Switch Inputs (4

th

GE-1600R)

RO

MI501-502

Fn 4, 65 – 66

Light Switch State Text/Configuration

MIC1

*

* MIC selected with the LCD Programmer.

Table 6. Local switch inputs and corresponding BACNet object and Modbus register values.

Associated Objects

Analog input configuration (AIC) objects define the scale
range translation used to translate the physical analog-to-
digital (A/D) value to an analog input’s object value (e.g.
0–100%). These objects are listed in Table 7.

Description

Type

BACNet

Object

Modbus
Register

Photodiode (RPSEN-IN)
threshold configuration

RO

AIC1

*

Photosensor (generic)
threshold configuration

RO

AIC2

*

* MIC selected with the LCD Programmer.

Table 7. Analog input configuration objects and corresponding BACNet

object and Modbus register values.

Lighting Groups

The Lighting Group (LG) objects are used to set up the
logical situations for the ROCB outputs. Setup of a
Lighting Group configuration is possible with the LCD
Programmer. These objects are listed in Table 8.

Lighting Outputs

The Binary Output (BO) or Lighting Group (LG) objects
are controlled by the logical situation of the LG. (Note: a
Lighting Group object cannot reference itself.)

Light Switch

The Lighting Group is designed to control many outputs,
but can be set to work with just one, and a light switch
reference allows assigning an object that can transition a
single lighting output reference

ON

or

OFF

. The Lighting

Group and light switch work as “last writers” to the
lighting outputs. So if the LG writes

O N

, all the defined

outputs will be

O N

regardless of the light switch values.

After the LG write, if the light switch is transitioned

OFF

,

then the related output is commanded

OFF

and the

remaining outputs stay on.

Group Control

Setup is used for common group control (logical ORing),
as follows.

• Lighting Group – When the referenced Lighting

Group is

ON,

the referencing LG is

ON

. When the

referenced Lighting Group transitions from

ON

to

OFF

, the referencing LG is relinquished and the logic

native to that Lighting Group resumes control.
(Note: a Lighting Group object cannot reference
itself.)

• Off-time delay – The amount of time after the

referenced Lighting Group (LG) transitions from

ON

to

OFF

before the referencing Lighting Group is

relinquished.

Override Input

Allows an object to override the Lighting Group (LG) for
the override time. The LG override is triggered when the
override input object transitions from an

OFF

or

N/A

to

ON

. When the override timer expires, it relinquishes the

LG and returns to its given logical state.

Schedule Input

Allows Schedule (SCH) object references to control the
Lighting Group (LG) object. The Lights On and Lights
Off checkboxes set the Schedule to trigger the LG On
Only, Off Only, On & Off, or neither Off nor On.

Description

Type

BACNet Object

Modbus Register

Lighting Zones (1–16)

• Output value (ON/OFF)
• Mode (auto/manual)

RW
RW

LG1–16

• PresentValue
• OutOfService

Fn 1/5/15, 301–316*
Fn 1/5/15, 401–416

Setup Properties (see Modbus register map doc)

• Override object reference
• Photocell object reference
• Schedule, Astro ON/OFF times
• Lighting outputs
• Common groups

RO

Various

Fn 3/6/16, 3001–9999

• 3005–3008
• 3009–3017
• 3018–3027
• 3028–3155
• 3156–3280

Table 8. Lighting groups and corresponding BACNet object and Modbus register values.