Delta Controls DLC-G1212 Installation & Application Manual

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INSTALLATION & APPLICATION GUIDE
Delta Lighting Controller (GE Lighting)
DLC-G1212 (Rev 1.3)
Document Edition 1.5
Product Description
The Delta GE Lighting Controller is a Native BACnet Application Controller
that communicates on a BACnet MS/TP RS-485 LAN. The controller is
designed for lighting applications and can switch 12 GE lighting relay outputs
per controller. The controller also supports up to 12 Delta BACstats™
connected on its LINKnet sub-network. Lighting strategies are written in
Delta’s powerful GCL programming language, rather than residing in fixed
algorithms. Both firmware and controller databases are loadable over the
network.
With its board dimension and capability of switching up to 12 GE lighting
relay zones, the GE Lighting Controller is ideal for mounting in various GE
relay enclosures for both new and retrofit construction projects. The
controller also includes a built-in sequencer for sweeping through and turning
all the lighting relays ON or OFF in a timed sequence. The controller is
completely programmable; GCL programs and BACnet objects can be created
and modified for the specific lighting application.
Contents
MODEL NUMBERS & ACCESSORIES............................................................................ 2
PACKAGE CONTENTS ...................................................................................................... 2
OTHER RELEVANT DOCUMENTS................................................................................. 2
IMPORTANT INFORMATION.......................................................................................... 2
PRODUCT SPECIFICATIONS .......................................................................................... 3
BOARD LAYOUT................................................................................................................. 5
INDICATORS ....................................................................................................................... 6
CONTROLLER ADDRESS DIP SWITCHES ................................................................... 6
JUMPERS .............................................................................................................................. 6
MOUNTING .......................................................................................................................... 8
INPUT & OUTPUT WIRING.............................................................................................. 8
POWER.................................................................................................................................. 8
NETWORK CABLING & REQUIREMENTS .................................................................. 9
NETWORK TOPOLOGY.................................................................................................. 10
NETWORK COMMUNICATIONS SETUP .................................................................... 10
APPLICATION & PROGRAMMING NOTES ............................................................... 11
CAUTIONS & WARNINGS .............................................................................................. 13
COMPLIANCE DECLARATIONS .................................................................................. 13
Document Edition 1.5 Page 1 of 15
Delta Lighting Controller (GE Lighting) DLC-G1212 (Rev 1.3) Installation & Application Guide
Model Numbers
The GE Lighting Controller has the following product number: DLC-G1212
Accessories
TRM-768 Delta Network Terminator for MS/TP
RPT-768 Delta Network Repeater for MS/TP
475000-475032 12,24 and 48 Relay Capacity GE Lighting Panels (Delta Peripherals Catalog)
475100 GE Isolated Pilot Contact 5-wire relay with 5 pin connector (Catalog # RR9P)
475101 GE Standard 3-wire relay with 5 pin connector (Catalog # RR7P)
Package Contents
Delta Lighting Controller (GE Lighting) Board, DLC-G1212 (Rev 1.3)
DLC-G1212 (Rev 1.3) Installation Guide
Other Relevant Documents
Delta Controls Wiring Guidelines
ORCAview Operator Guide
ORCAview Technical Reference Manual (particularly Appendix G in the V3.22 Tech. Ref. Manual)
Release Notes for V3.22 Firmware/Software
Important Information
The capabilities of the GE Lighting Controller are dependent on the firmware version that is loaded. The
following is not intended to be comprehensive, but should provide a quick overview.
1. V3.22 Firmware & Software or Higher (Recommended)
CONTROLLER CAPABILITIES & CHARACTERISTICS
Unlike some other products, the DLC-G1212 is pre-configured as a Subnet device
A DCU is no longer necessary (as long as one System device exists on a BACnet MS/TP network)
Data exchange may be done in GCL programming in any DCU or Application Controller on a
BACnet MS/TP network
Now Supported: Peer Data Exchange, Alarms, Routing, Slave Devices, Additional Objects
Refer to V3.22 DAC Firmware Release Notes for further information.
2. V3.21 Firmware & Software
CONTROLLER CAPABILITIES & CHARACTERISTICS
The DLC-G1212 was not tested with V3.21 firmware. If loaded with V3.21 it would have similar
capabilities and limitations as other DAC products with V3.21 firmware.
Page 2 of 15 Document Edition 1.5
Delta Controls
Product Specifications
Power Requirements
24 VAC
50 VA (including GE relays)
Class II
Ambient Ratings
32º to 131º F (0º to 55º C)
10 to 90% RH (non-condensing)
Communication Ports
NET1 - Main LAN (BACnet MS/TP)
Communications Speed @ 9,600 or 19,200 or 38,400 or 76,800 bps (the default)
Maximum of 99 nodes per MS/TP segment (50 without a repeater)
NET2 - SubLAN (LINKnet)
Communications Speed @ 76,800 bps
Maximum 12 BACstats per controller (as per ORCAview Technical Reference Manual, App. G)
Inputs
12 Relay Feedback Inputs (part of Relay Connector-for use with GE RR9P Relays)
12 Binary Inputs, c/w Visual LED status indication. Jumper configurable for the following input
types:
a. 0 or 10 VDC
b. Dry Contact
Outputs
12 GE Lighting Relay Outputs (Maximum 4 GE Relays per output)
RR7x 3-wire Relays: Control Only, with No Status (Delta PN 47101) – Relays with no feedback
RR9x 5-wire Relays: Control and Status, including LED Indication (Delta PN 475100)
Note: Use caution when selecting which relay to use. If you decide to use the RR7 Relays, refer to
section on Lighting Controllers with No Feedback on page 11.
Sweeper Ports
Dry Contact input for Master Override On/Off command
Sweeper Output Port c/w Visual LED Status Indication (used to command supplementary lighting
controller to sweep all relays on or off)
Connectors
Network, Power & Inputs: Removable screw-type terminal connectors
Relays: Removable MTA156 AMP connectors
Technology
16-bit Processor
1 MB (8 Mb) Flash Memory (Network Loadable Firmware)
128 KB SRAM memory (for Database)
Database backup via non-volatile Flash memory
Visual LED status indication of the CPU
Document Edition 1.5 Page 3 of 15
Delta Lighting Controller (GE Lighting) DLC-G1212 (Rev 1.3) Installation & Application Guide
Device Addressing
Set via DIP switch and jumpers, or Software Setup
DIP switch MAC Address Range: 0 to 99 per network segment
Software Address Range: As per the BACnet standard
Supports DNA – Delta’s intuitive addressing scheme
Size
Controller & Enclosure
3.94” x 11.51” x 1.81” (10.0 cm x 29.2 cm x 4.6 cm)
Weight (c/w Enclosure)
0. 84 lb. (380 g.)
Page 4 of 15 Document Edition 1.5
Delta Controls
Board Layout (DLC-G1212)
A
D
D
R
E
S
S
DNA
64
32
16
8
4
2
1
ON OFF
On
1
2
3
4
5
6
7
8
DLC-G1212
+
N
E
T
P
O
W
E
R
2
4
G
N
D
2
4
G
N
D
R
X
T
X
+
N
E
T
T
X
R
X
DRY CONTACT
DIGITAL INPUT
JUMPER
VOLTAGE
(
0-10
)
DC
R
E
L
1
SWITCH 1
RS
O
N
OF
F
G
ND
S
W
EE
P
IN
PU
T
O
N
OF
F
G
ND
P
O
W
E
R
O
O
N
OF
F
G
ND
S
W
EE
P
O
UT
PU
T
G
ND
VO
UT
BI
1
G
ND
VO
UT
BI
2
G
ND
VO
UT
BI
3
G
ND
VO
UT
BI
4
G
ND
VO
UT
BI
5
G
ND
VO
UT
BI
6
G
ND
VO
UT
BI
7
G
ND
VO
UT
BI
8
G
ND
VO
UT
BI
9
G
ND
VO
UT
BI
10
G
ND
VO
UT
BI
11
G
ND
VO
UT
BI
12
SWITCH 3
R
E
L
2
SWITCH 2
R
E
L
3
R
E
L
4
SWITCH 4
R
E
L
5
R
E
L
6
SWITCH 5
SWITCH 6
R
E
L
7
R
E
L
8
SWITCH 7
SWITCH 8
R
E
L
9
R
E
L
1
SWITCH 9
SW ITC H
10
R
E
L
1
R
E
L
1
SW ITC H
11
SW ITC H
12
SC
AN
P
W
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
RS
O
N
OF
F
G
ND
VOUT
12VDC 24AC
GE Relay
Cti
Low Voltage Switch
Connection
Relay Status Indicator
Typical of 12
Controller Engine
(c/w CPU & Memory)
Input Signal Type
Jumper Description
Transformer
Sweeper Output Port
Sweeper LED
Status Indicators
VOUT Power Source
Selection Jumper
DNA Jumper
Device Addressing
DIP Switches
Binary Input Connection
NET2 (SubLAN
Pt)
NET1 (Main MS/TP LAN
Pt)
Sweeper Input Port
LED Indicators (SCAN &
PWR)
24 VAC Power In
24 VAC Power Out
Input Signal Type
J
Input LED
Idi t
Typical of 12
Communication
Idi t
Product Label
Document Edition 1.5 Page 5 of 15
Delta Lighting Controller (GE Lighting) DLC-G1212 (Rev 1.3) Installation & Application Guide
Indicators
LED Function Description
Scan CPU Scan Indicator Due to memory expansion on this model the LED
no longer indicates the CPU scan rate.
Power CPU Power Indicator This amber LED turns on to indicate that the
controller has 24 VAC applied. If no Control
Power transformer is connected, the LED will be
off.
Network
(NET1)
RS-485 Communication Status
Indicators for NET1 (the main LAN
connection)
A Green LED flashes to indicate when the device
is transmitting out the associated port, and a red
LED flashes to indicate when the device is
receiving data through the port.
Network
(NET2)
RS-485 Communication Status
Indicators for NET2 (LINKnet)
A Green LED flashes to indicate when the device
is transmitting out the associated port, and a red
LED flashes to indicate when the device is
receiving data through the port.
Inputs
(IP1 - IP12)
Input Status Indicators A corresponding red LED flickers when the
associated binary input is in the active state.
Sweep Output
(OP13)
Sweep Output Signal Indicators A corresponding green LED will turn on
momentarily to match the ON or OFF signal of the
Sweep Output (for spooling to the next controller).
Outputs
(OP1 – OP12)
Output Relay Status Indicators A corresponding red LED is on or off to match the
binary feedback status of its associated GE relay,
which is only applicable for 4-wire and 5-wire
relays (which have status feedback).
Controller Address DIP Switches
Each individual DIP switch represents a unique value, which forms the device address when added together.
Jumpers
Dry Contact
Voltage
(0/10) DC
INPUT SIGNAL TYPE
The input type is selected by placing the jumper in the correct location on
the Input Type Selector Block. The diagram to the left shows the factory
default selection of Dry Contact
Dry Contact For Dry Contact binary inputs.
10VDC For sensors that use a 0 or 10 VDC binary signal.
Page 6 of 15 Document Edition 1.5
Delta Controls
~24+12 DC
VOUT POWER SOURCE
The binary inputs all have a third terminal connection for supplying power
out to those field devices requiring power (i.e., Motion Detectors). This
power source out (VOUT) may be configured for one of two options,
which affects all 12 binary outputs. The diagram to the left shows the
factory default selection of +12 DC.
+12 DC The VOUT to all the binary input field devices (on the third pin
of each terminal connection) is set to be +12 DC.
~24 The VOUT to all the binary input field devices (on the third pin
of each terminal connection) is set to be whatever power source
is connected as power to the GE Lighting Controller (which is
typically 24 VAC).
NOTE: If any field devices use VOUT, ensure the controller transformer is
sized appropriately to account for the extra power requirements.
DEVICE TYPE
Note that the GE Lighting Controller does not have a Device Type jumper.
It is fixed as a Subnet level device. As a result, the GE Lighting
Controller may only be installed at the Subnet level, and the DIP or MAC
address is always mapped into the Subnet portion of its address, inheriting
other portions of its BACnet address when DNA is enabled.
DNA
DERIVED NETWORK ADDRESSING (DNA)
Derived Network Addressing (DNA), which works in conjunction with
the Device Type setting and refers to the ability of inheriting portions of its
address from higher-up devices on a BACnet MS/TP network, may be
enabled or disabled via jumper setting.
Enabled With the jumper in place, the controller automatically obtains
portions of its overall BACnet device address (as related to Area
and System) from higher-up devices on the network. This is the
preferred method of addressing the controller in a system of
Delta devices.
Disabled With the jumper removed, the device does not obtain any
portions of its address from higher-up devices. Instead, default
numbers are assumed (for Area and System), which may be
modified via software. This method of addressing is most useful
in OEM or multi-vendor installations where Delta products do
not exist higher-up in the network architecture, or where device
address ranges are pre-assigned for the installation.
NOTE: Whether or not Derived Network Addressing is enabled, the
Addressing DIP switches are always used to set the device MAC address.
Document Edition 1.5 Page 7 of 15
Delta Lighting Controller (GE Lighting) DLC-G1212 (Rev 1.3) Installation & Application Guide
Mounting
The GE Lighting Controller is designed for mounting quickly and easily in a number of locations, usually
within one of several sizes of GE relay enclosures. Ensure the controller itself is a safe distance away or in
some other way protected from relief valves and other water sources.
Input & Output Wiring
Input and output wiring on the Delta GE Lighting Controllers is very simple. GE relays plug securely on to
the 5-pin connectors provided.
24V Half Wave Power (YELLOW)
STATUS (YELLOW)
OFF (BLACK)
ON (RED)
24V Half Wave Power (BLUE) DLC-G1212
- NET1 + POWER IN
24~ GND24~ GND RX T X
- NET2 +
TX
RX
RELAY
1
SWEEP INPUT
ONOFF GN D
POWER OUT
GNDBI1
SWITCH 3
RELAY
2
SWITCH 2
RELAY
3
RELAY
4
SWITCH 4
SWITCH 5
SCAN PWR
RS ONOFF GND RS ONOFF GN D RS ONOFF GN D
PILOT
ON
OFF
GND
(FRONT VIEW) (BACK VIEW)
GE RS3xP LOW VOLTAGE
LIGHT SWITCH WITH PILOT
GE RR9
RELAY
GND
ON
PILOT
OFF
Power
The GE Lighting Controller requires a 24 VAC @ 50 VA power supply – this includes GE relay power
requirements – typically an isolated Class II transformer. More than one controller – not including DCUs or
V2 products – may be connected to the same transformer, providing the transformer is properly sized,
(including line losses), and polarity is observed between controllers (in regards to 24~ and GND). The
transformer must ONLY be used to provide power to the controller and devices powered through its outputs.
Auxiliary field devices (i.e., 4-20 mA devices) that don’t use ½ wave rectification must be powered
separately.
Page 8 of 15 Document Edition 1.5
Delta Controls
Network & Cabling Requirements
To ensure network stability and reliable communications, particularly at high speeds on a BACnet MS/TP network
for a number of devices, it is imperative that you adhere to the following network and cabling requirements:
Item Description
Cabling For BACnet MS/TP and LINKnet networks it is recommended that you use network cabling
that matches the following specifications:
Balanced 100 to 120 ohm nominal impedance Twisted Shielded Pair (TSP) Cable
Nominal capacitance of 16 PF/FT or lower
Nominal velocity of propagation of 66% or higher
Topology Ensure the MS/TP network cable is installed as a daisy-chain from one device to the next.
Max. Nodes The maximum number of devices per MS/TP network without any repeaters is 50.
Termination
Boards
A termination board (TRM-768) must be installed at each end of each MS/TP network segment
– or two per MS/TP or LINKnet network. Ensure you do not overlook this in laying out your
network architecture and ordering product.
Repeater A repeater (RPT-768) is not necessary unless more than 50 nodes will be installed on a network
or you need to extend the MS/TP network beyond 4000 ft (1220 m).
For more detailed information, including wiring, refer to the RS-485 Network Installation Guide (DOC818-11).
Document Edition 1.5 Page 9 of 15
Delta Lighting Controller (GE Lighting) DLC-G1212 (Rev 1.3) Installation & Application Guide
Network Topology
Delta’s GE Lighting Controllers are designed to be installed in a system of V3.22 controllers, and are fully
capable as peer-to-peer controllers on a BACnet MS/TP network as Subnet devices, typically with one
System device (DCU or otherwise).
DCU/DSC
(System Device)
BACnet (MS/TP) - Level 3 Network (Subnet)
DLC
(Subnet
Device)
TRM
DLC
(Subnet
Device)
TRM
Level 4
Network
(LINKnet)
16x16 Controller
12x12 Controller
12x8 Controller
6x6 Controller
Room Controller
VAV/VVT Controller
Lighting Controller
BACstat I
BACstat II
(with or without I/O)
Input Field Modules
Subnet Devices
DSC-1616EX [DCU]
DSC-1616(H/E)
DSC-1212(H/E)
DSC-1280(H/E)
DSC-T305
System Devices
RS-485
NET1 NET2 NET1 NET2
RS-232
BACstat I(DNS-14)
BACstat II (DNS-24)
LINKnet Devices
TRM
Level 4
Network
(LINKnet)
TRM
LINKnet Notes:
1. Ensure you use the recommended
balanced cable.
2. Ensure the cable is installed as a
daisy-chain from one device to the
next. (1000' or 300m maximum).
3. Ensure you install MS/TP terminator
boards when you have more than 1 or
2 devices.
4. Depending on the controller, up to 12
devices are supported on a LINKnet
network, with limitations on how many
of these may have I/O. (Refer to
the Technical Reference Manual.)
ORCAview
OWS
DFM
Ethernet Note:
If the DCU or DSC has Ethernet capability, it may exist on an
Ethernet network with other controllers in the same building, on which
the ORCAview OWS could reside as well (instead of PTP).
PTP
MS/TP Notes:
1. Ensure you use the recommended balanced cable.
2. Ensure the cable is installed as a daisy-chain from one device to
the next (4,000' or 1220m maximum).
3. Ensure you install an MS/TP terminator board (TRM-768) on each
end of each MS/TP network.
4. The maximum nodes per MS/TP network is 50 without a repeater,
or up to 99 with at least one repeater (RPT-768).
Network Diagram
(with V3.22 Firmware)
Network Communications Setup
The GE Lighting Controller communicates on a BACnet MS/TP network at a default speed of 76,800 bps.
Refer to the ORCAview Technical Reference Manual for further detail on configuring the BACnet MS/TP
network or changing baud rates, etc.
Page 10 of 15 Document Edition 1.5
Delta Controls
Application & Progamming Notes
OBJECTS
The GE Lighting Controller is a programmable device similar to other Application Controllers. Some
objects are automatically created on initial startup (i.e., default database). All other objects are user-
created or deleted as necessary. However, it is important to highlight how certain objects are uniquely
used within the lighting controller in association with the I/O and other product features. These objects are
also all readily accessible over a BACnet MS/TP network.
Object Description Notes
BI1-12 Binary Inputs
(Field Devices)
User created as necessary to match physically connected
devices, the BI objects represent each of the 12 binary inputs
used for various purposes (including Motion Detectors, etc.)
BI13 Current Sweeper Status
User created to represent active Sweeper status. This is only
ON when the Sweeper is active and is turned OFF automatically
when the Sweeper sequence is complete.
BI14 Sweeper Command
Status
User created to represent the last Sweeper command. This is
ON when the last command was to sweep the outputs on, and is
OFF when the last command was to sweep the outputs off.
BO1-12 Binary Relay Outputs &
Status (inc. Low Voltage
Light Switches)
User created to match physically connected relays, these outputs
are used to represent two things:
Relay Output (i.e., command)
Relay Status (including when controlled by associated
hardwired lighting switches)
E.g. To look for the Status Feedback Value, the property you
should use is:
BV1 = BO1.FBackValue
BO13 Sweeper Command User created to provide a means for commanding the Sweeper
in software (via OWS or GCL programming).
Refer to Chapter of the V3.22 ORCAview Technical Reference Manual for further information on objects,
and the associated firmware Release Notes for which objects are supported.
LOW VOLTAGE LIGHTING SWITCHES
The low voltage lighting switches are physically hardwired to the relays and do not have their own BI
objects, but affect the relay status in their associated BO objects.
There is a separate property in the BO which indicates actual relay status or feedback (FbackValue =
Active or Inactive) regardless of what has affected relay operation (software command or manual
switches).
Also, whenever the manual switches are used to turn the relay ON, the associated BO indicates an
Overridden condition c/w associated icon (when HandsOffAuto = 1), which can be used in GCL
programming (for occupancy override).
LIGHTING CONTROLLERS WITH NO FEEDBACK (RR7 RELAYS)
General Electric RR7 relays do not have feedback capability. The Delta Controls GE Lighting
Controller, however, defaults to function with feedback. The board will function as though the relays
have feedback, until it is programmed to run in a non-feedback condition.
Document Edition 1.5 Page 11 of 15
Delta Lighting Controller (GE Lighting) DLC-G1212 (Rev 1.3) Installation & Application Guide
Note: Although recommended, it is not crucial that you set the Binary Output (BO) object to a non-
feedback condition, if you are using the RR7 relays. If you do not set it, feedback will always go to the
default value of the BO. On a reset or start up, the lights will be switched on or off depending on the
default value, until they are told to turn on from within GCL.
Example
You have a Delta Controls GE Lighting Controller, using the General Electric RR7 relays:
1. The Binary Output (BO) of the relays is set to default to ON. Upon reset or start up, the lights
controlled by the RR7 relays will all turn ON, while waiting for the GCL program to tell them what
to do.
2. The Binary Output (BO) of the relays is set to default to OFF. Upon reset or start up, the lights
controlled by the RR7 relays will all turn OFF, while waiting for the GCL program to tell them what
to do.
3. The Feedback value in the Binary Output (BO) of the relays is DISABLED. Upon reset or start up,
the lights controlled by the RR7 relays will all remain in their current status, while waiting for the
GCL program to tell them what to do.
To switch the controller to a non-feedback condition, the user must force the Binary Output (BO) object
to a non-feedback condition.
To set the Binary Output (BO) object to a non-feedback condition:
1. Open the BO associated with the RR7 relay.
2. Under the Device Tab, in the Module section, there is a field called Feedback. This field has three
options – Disabled, From Relay, From GCL. Select Disabled and click OK or Apply.
3. This relay will now function properly under the non-feedback condition.
However, if you leave feedback enabled, you must set your default value to ON or OFF depending on
your requirements, as described below.
To set the Default Value of the Binary Output (BO):
1. Open the BO associated with the RR7 relay.
2. Under the Setup Tab, in the Default field, select ON or OFF, depending on your requirements.
3. Click OK or Apply.
Ensuring that the Feedback field is disabled, as described above, will alleviate any problems of the lights
turning on or off on reset and start up.
USING BACSTATS
You may connect up to 12 BACstats (DNS-14 or DNS-24) on a LINKnet network to a GE Lighting
Controller. With GCL programming in the Lighting Controller, buttons on the BACstats can be used to
control lighting, as well as temperature functions.
PROGRAMMING
Write GCL programs in the GE Lighting Controller to accomplish the desired lighting control strategies.
Also, ensure that all associated network traffic is kept to a minimum. Refer to Chapter 11 and Appendix
G in the V3.22 ORCAview Technical Reference Manual for further programming information.
Page 12 of 15 Document Edition 1.5
Delta Controls
Cautions and Warnings
WARNING
The GE Lighting Controller is an Electro-statically sensitive device. Proper ESD protection
(ground strap) should be used when installing this product so that damage to the product does
not occur.
Compliance Declarations
BACnet Testing Labs
The Delta Controller Engine (DCE) used in this product is BTL listed (with at least V3.22 firmware).
Refer to http://www.bacnetassociation.org/bacnet_testing.htm for more detailed product listing information.
BACnet is a registered trademark of ASHRAE. ASHRAE does not endorse, approve or test
products for compliance with ASHRAE standards. Compliance of listed products to
requirements of ASHRAE Standard 135 is the responsibility of the BACnet Manufacturers
Association (BMA). BTL is a registered trademark of the BMA.
FCC Compliance Information
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to
part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference when the equipment is operated in a commercial environment. This equipment generates, uses,
and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual,
may cause harmful interference to radio communications. Operation of this equipment in a residential area is
likely to cause harmful interference in which case the user will be required to correct the interference at his
own expense.
Industry Canada Compliance Statement
ICES-003 This Class A digital apparatus meets all requirements of the Canadian Interference-Causing
Equipment Regulations
Cet appareil numérique de la Classe A Respecte toutes les exigences du Règlement sur le matérial
brouiller du Canada.
Document Edition 1.5 Page 13 of 15
Delta Lighting Controller (GE Lighting) DLC-G1212 (Rev 1.3) Installation & Application Guide
UL Compliance Information
This product conforms to the following UL requirements:
UL916: Energy Management Equipment.
CAUTION – Risk of Electric Shock – More than one disconnect switch may
be required to de-energize the equipment before servicing.
All terminals are acceptable for Class 2 circuit connection only.
CAUTION – Input Class 2 Power Supplies are interconnected. To Reduce
the Risk of Fire or Electric Shock, Use only Class 2 sources Suitable for
Interconnection.
Use Copper Conductor Only.
Select an external power supply that is certified for safety for the correct
destination country and that has an output rating, which is considered an NEC
Class 2 or Limited Power Source with the rating not to exceed 30 V rms, 42.4
V peak, 100 VA.
Terminal blocks:
Wieland Electric GMBH - Apply minimum 6.0 lb-in torque for tightening
field wires into the terminal blocks.
Ria Connect Inc - Apply minimum 3.0 lb-in torque for tightening field wires
into the terminal blocks.
Page 14 of 15 Document Edition 1.5
Delta Controls
Document Edition 1.5 Page 15 of 15
CE - DECLARATION OF CONFORMITY
according to ISO/IEC Guide 22 and EN 45014
Manufacturer's Name: Delta Controls
Manufacturer's Address: 17850 56th Avenue
Surrey, British Columbia
Canada
V3S 1C7
declares that the product (s):
Product Name: GE Lighting Controller
Model Numbers: DLC-G1212
Product Options: All
conforms to the following Product Specifications:
EMC:
EN50081-1:1992 Generic Emission Standard Part 1: Residential
EN55022:1998 Radiated and Conducted Emissions Class A
EN 61000-3-2:1999 Power Line Harmonics Class D
EN 61000-3-3:1998 Power Line Fluctuations Pst < 1, Plt < 0.65
EN50082-1:1997 Generic Immunity Standard Part 1: Residential
EN 61000-4-2:1995 ESD Immunity Level B
EN 61000-4-3:1996 RF Electromagnetic Field Immunity Level A
ENV 50204:1995 RF Electromagnetic Field Immunity (Keyed
Carrier)
Level A
EN 61000-4-4:1995 EFT/Burst Immunity Level B
EN 61000-4-5:1995 Surge Immunity Level B
EN 61000-4-6:1996 Conducted Immunity Level A
EN 61000-4-11:1994 Voltage Dips / Interruptions Level B/C
Supplementary Information
The product(s) herewith comply with the requirements of the EMC Directive 89/336/EEC. The
product(s) were tested in a typical configuration.
Lee Dickson
Quality Assurance Manager
/