Transcript Slide 1

What is nLight?
nLight is a revolutionary digital architecture and
networking technology that cost-effectively integrates
time-based, daylight-based, sensor-based and manual
lighting controls.
How does nLight work?
nLight networks together intelligent digital devices
including occupancy sensors, photocells, power
packs, wall switches, dimmers, panels, and even
luminaires; creating a system with an unmatched
level of “distributed intelligence”
What is Distributed Intelligence?
• Digitally Addressable
• Locally makes switching & dimming
control decisions
• Self-Commissioning
• Stand-alone Operation
nLight Enabled Devices
nLight-enabled Device
 Model numbers start with the letter “n”
 2 RJ-45 Ports
 All devices consist of one or more of basic lighting control components
o sensor
o manual control station
o dimmer
o relay
nLight-enabled Device
Basic Devices = 1 component
Model
Number
Lighting Control Components
Sensor
Occupancy
nCM 9
nCM PC
nPP16
nPOD
Relay
Photocell
Manual
Control
Station
Dimmer




nIO

RT LED

nLight-enabled Device
Advanced Devices = 2 or more components
Model
Number
Lighting Control Components
Sensor
Relay
Occupancy Photocell
Manual
Control
Station
Dimmer
nCMR 9

nCMR 9 P



nCMR 9 ADC




nSP5 D


nPODR


nPODR D




nWSD



Occupancy Sensors
Enclosure
Lenses
Standard Range
Recessed Mount Extended Range
High Bay 360°
Fixture Mount
High Bay Aisleway
# of
# of
Time
Relays
Delays
Options
Photocell
0-10 VDC
Dimming1
1, 2
Yes
Yes
1
Yes
No
1, 2
Yes
No
Ceiling Mount






0, 1, 2
Corner/Wall
Wide View /
Hallway
_
Wall Switch
Wall to Wall
0, 1, 2
PIR or Dual Technology2
Powered over CAT-5, therefore units have no neutral wire
1 or both relays can be used as a dry contact closures
Sensors that switch two phase power (208/480) also available
Remotely configurable and upgradeable
Integrated RJ45 connectors
1 Dimming not available with 2 pole or 208/480 devices
2 Dual Technology not available on High Bay or Hallway sensors
Photocell Sensors
Enclosure
Ceiling Mount
Recessed Mount
Fixture Mount







Control Type
# of Relays
# of
Dimming
Outputs
On/Off
On/Off/Dimming
0, 1, 2
0, 1, 2
Automatic set-point programming mode
Device provides light level in foot-candles
Powered over CAT-5, therefore units have no neutral wire
1 or both relays can be used as a dry contact closures
Sensors that switch two phase power (208/480) also available
Remotely configurable and upgradeable
Integrated RJ45 connectors
*Dual Technology not available on High Bay or Hallway sensors
Relay Packs
Description
Model #
Load Supplies
# of
Rating Network
Relays
(Amps) Power
# of
Dimming
Outputs
Power Pack
nPP16 (SA)
16
Yes
1
0
Secondary Pack
nSP16 (SA)
16
No
1
0
nSP5 D
5
No
1
1
Line Voltage Dimming Pack
nSP5 PCD
5
No
1
1
480/240/208 VAC Pack
nSP5 480
5
No
1
0
2-Pole Secondary Pack
nSP5 2P
5
No
2
0
nAR40
1
No
1
0
0-10 VDC Dimming Pack
Low Voltage Auxiliary Pack






120/277 VAC unless noted
Network power supplied = 40mA / RJ-45 port (current limited)
Remotely configurable and upgradeable
Integrated RJ45 connectors, push-button, and LED
Reversible relay logic
All relays are latching
nIO - Universal Input/Output Device
Model #
Input Description Output Description
nIO
0-10 VDC Input,
Contact Closure
0-10 VDC
 Provides an addressable 0-10 VDC dimming output for standard dimming ballasts
(non-DALI)
 Enables simple incremental addition of dimming zones
 Interfaces 0-10 VDC dimming control signal from any non-nLight device
 Interfaces a toggle or momentary contact closure input into system
 Available as an inline wired device or in the power pack housing
3rd Party Touch Screen Interface
Model Numbers:
nIO X
Application:
• Enables a non-nLight touch screen (e.g. Crestron, AMX) to
interface with an nLight network
• nIO X device has both an nLight port and a RS-232 or RS-485
port for direct digital interface
• Simple protocol commands (programmed into 3rd party device)
• On/Off and Raise/Lower Control of any lights in local zone
• Triggering of up to 4 local or remote nLight scenes
• Scenes created in SensorView
Low Voltage Outdoor Photocell Kit
Model Numbers:
nIO PC KIT
Application:
• Enables a non-nLight low voltage outdoor photocell to
communicate with nLight network.
• Change of daylight state directly triggers a relay(s), or
causes a local/remote scene to run.
Electrical Specs:
• Requires 35 mA @ 12-28 VDC power from either an
nPANEL 4 or PS80.
Kit Contents:
1 - Outdoor low voltage photocell with threaded mounting
to ½” KO
1 - Specialized interface device (nIO NLI) that reads signal
from PC and translates to nLight
nLight-enabled Digital Luminaires
+
nIO LED
nIO LED
Push-Button WallPods – Standard
Key Features:
•
•
•
•
•
•
Traditional soft-click tactile feel
Integrated LED per button
Low voltage versions only
3-way configurations w/ other WallPods or nWSD
Buttons are field replaceable
Custom labeling will be handled by ordering
replacement buttons (see datasheet)
Model #
On/Off
Control
Raise/Lower
Controls
nPODM
1
0
nPODM DX
1
1
nPODM 2P
2
0
nPODM 2P DX
2
2
nPODM 4P
4
0
nPODM 4P DX
4
4
Push-Button WallPods – Scene Control
Local / Remote Scene Mode
• Runs scenes (profiles without a schedule) that are
configurable via SensorView
• Scenes can control devices within local zone or other remote
zones
• Scenes for local zones are stored locally, remote scenes are
stored on the Gateway
• LED shows which scene is currently active
WallPod Mode (default)
• Each buttons provides On/Off operation for different channel
• LED indicates current state
Model #
# Scenes / Channels
nPODM 1S
1
nPODM 2S
2
nPODM 4S
4
nPODM 4S DX
4 + on/off & raise lower
Touch WallPods
Description
Single On/Off
Dual On/Off
Scene Selector





# of
Relays
# of
Raise /
Lower
Controls
# of
Dimming
Outputs
# of
Scene /
Preset
Control
1
0
0
0
0
nPODR
1
1
0
0
0
nPOD DX
1
0
1
0
0
nPODR DX
1
1
1
0
0
nPOD D
1
0
1
1
0
nPODR D
1
1
1
1
0
nPOD 2P
2
0
0
0
0
nPODS
4
0
0
0
4
Model #
# of
On/Off
Control
nPOD
3-way configurations w/ other WallPods or nWSD
Remotely configurable and upgradeable
Integrated RJ45 connectors
Capacitive Touch Controls
Audible Clickers
Graphic WallPod
nPOD-GFX
 Full-color touch screen control
 Provides functionality of 16 On/Off/Dim WallPods
 Facilitates creation of up to 8 lighting presets with
on/off/dim settings
 Enables programming of switch tracking channel
of all devices in local zone
 Low voltage device mounts to a single gang
switch box or ring
 Micro-USB connector (behind cover plated) for
simple laptop connectivity with zone
 Requires separate PS-150 power supply
Virtual WallPods
 On-screen icon version of WallPods
 Available as taskbar or iPhone application
Multiple
Single
iPhone Virtual WallPod App.
nLight Control Zone
nLight Control Zone





Zones are daisy-chain wired (in any order)
May have a single device
May have several different device types
May have multiple devices of the same type
Can be sub-divided into 16 channels of occupancy,
photocell, and switch control
 Functions stand-alone if disconnected from
Gateway/SensorView
Zones and Channels
 Every nLight zone has 16 occupancy channels, 16 photocell channels, and 16 switch
channels on which to communicate information
 Any device with a sensor, photocell, and/or
switch can broadcast each type of
information on one respective channel
(2 pole devices can broadcast of two
channels simultaneously)
 Any device with a relay and/or dimming
output can listen (track) on one or more of
each information type’s channels
simultaneously
Zones and Channels - Example
Example:
Classroom with 4 circuits of lights (3 main rows of lights, 1 accent light)
–
Two occupancy sensors each broadcasting on occupancy channel OC-1
–
One dimming photocell broadcasting on photocell channel PC-1
–
Four WallPods broadcasting on switch channels SC-1, SC-2, SC-3, and C-4
respectively
–
Four Power Packs tracking on occupancy channel OC-1, each tracking a
different switch channel (SC-1, SC-2, SC-3, SC-4), and two tracking photocell
channel PC-1
Zones and Channels - Example
Physical Connections
Zones and Channels - Example
Logical Connections
Example Zone Designs
1 Circuit - Relay in Power Pack
Example Zone Designs
2+ Circuits - Relays in Power Pack
Example Zone Designs
2 Distribution Circuits – Relays in both Power Pack and Sensor
Example Zone Designs
Multi-zone Dimming
nLight Network
Backbone
nLight Network Backbone
 Backbone devices include
– Bridges
– Gateways
nLight Bridge
Functions
 Routes Information between upstream
Gateways & up to 8 downstream sensor
zones
 Increases number of lighting zones (128
devices per port)
 Acts as both a hub and router of
information between zones and Gateway
 Redistributes power between zones
Physical Specs
 4 or 8 ports (RJ-45)
 Mounts to 4”x4” junction box
 Powered via dedicated Power Supply
 Optional Wireless interconnectivity
Gateway
Functions
 Local Control Point
– Two gang low voltage device located in
space
– Discovers and maintains database of all
network devices
– Capable of managing 400 devices
indirectly or 32 devices directly
– Typically one per floor
 Network Access Point
–
–
Links Ethernet to nLight network
Contains one Ethernet port and 3 SensorNet ports
 Maintains time clock
 Profile management
–
–
–
Stores all profiles created by SensorView that include a device connected to
Gateway
Sends out new settings to all devices in the Group bound to a particular Profile at
the times specified by that Profile
Enables profiles to be run on-demand
Gateway
 Network connection
– IP address can be fixed or DHCP
– Derives time from network
– Ethernet port connects to buildings LAN
(Local Area Network)
 Security
– Gateway password (set via SensorView)
prevents outside SensorViews from
accessing network
– Once password is set for one Gateway it
is automatically configured as the
password for all current and future
Gateways on the network
– 4 Digit Pin Code is available to enable
locking of Gateway manual interface
 Installation
– Discovery of network is automatic, rediscovery can be forced via MDI
– Mounts to 2-gang low voltage ring
Example Network Design
Additional Network
Design Topics
System Powering
 All device and communication power is delivered via the CAT-5 bus that
interconnects zones and Bridges.
 Power is supplied by power packs (nPP16), power supplies (nPS 80), and
Bridges (via their external power supply)
Typical Power Consumption
~3mA
~3mA
~3mA
Note: WallPod Scene Selectors require 5 mA
Wall Switch Sensors with the –NL option require 3.5 mA;
Power Generation
System Powering
 Bridges combine system power from zones that are net contributors of power
and distribute it to zones that are net consumers of power
Design Rules
Design Rule 1: Every zone requires either a power pack/supply or a connection
to a Bridge in order to power all devices and the zone’s
communication bus.
Design Rule 2: Only one device with a photocell should broadcast on each
channel per zone. No two photocells should be able to see the
lights being controlled by another photocell
*****Virtually any combination of nLight Devices can exist in a zone that conforms
to these design rules.
Design Tips
 Recommended that the power pack be directly connected to the Bridge
 Any zone connected to a Bridge should have exactly one open port
 Any zone designed to run stand-alone should have exactly two open ports
 Leave extra Bridge ports unused for expansion
 Use a Gateway per logical building division (floor, suite, wing, etc.)
Design Tips
 Minimize Bridge-to-Bridge “hops”
System Capacity
 400 nLight Devices per Gateway
 40 Active Profiles (Schedules) per Gateway
 Unlimited Bridges per network*
 >40 Gateways per SensorView
 40 concurrent SensorView web sessions
 Gateway support 32 locally connected devices total
 Bridges support 128 devices connected per port
 500 ft total cable length per zone
*Bridges are counted in 400 device limit per Gateway
Wide Area Networking of nLight
 Multiple Gateways can be linked together to form larger
networks
 SensorView auto-discovers all Gateways in its local network
subnet
 Remote Gateways can be linked in by inputting IP address to
SensorView
– Application: Branch locations of a bank connected via corporate
WAN network
 Device level permissions will allow for partitioning of users to
certain Gateways
– Application: Multi-tenant buildings with one overall
nLight/SensorView network
SensorView
SensorView – Properties
SensorView – Settings
SensorView – Status
SensorView – Groups
SensorView – Profiles
SensorView – Updates
SensorView Green Screens
Key Features:
•
•
•
•
•
Downloadable plug-in to SensorView
Logs and displays nLight network information including:
o Occupancy sensor time delay status
o Daylight levels
o Dim levels
o Relay state
Provides data in time scaled graphs or in .CSV file for exporting to Excel
Calculates savings both in Time, kWhr and $ if given load and/or energy rates
Requires Gateway and SensorView
SensorView Green Screens – Network Totals
SensorView Green Screens – Zone Details
SensorView Green Screens – Zone Details
Relay State
Occupancy Time Delays
Total Light Levels
SensorView Green Screens – Admin
Savings units (kWH, $, CO2)
Peak/Off Peak Hrs.
Savings units (kWH, $, CO2)
Baseline Operating Hrs.
BACnet IP
Key Features:
•
•
•
•
•
•
Downloadable plug-in to SensorView
Enables interfacing with BMS systems via an IP connection
Communicates information gathered by nLight to other building systems (such as
HVAC)
Translates and forwards lighting relay and other select control commands from
BMS system to nLight control devices.
Demonstrated compatibility to date with Siemens Apogee, Johnson Controls
Metasys, and Tridium.
Interoperability with other systems will be added as required.