Lighting control Simple, scalable, wireless - Flexible control every step of the way - Lutron
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Simple, scalable, wireless
lighting control
Flexible control every step of the way
A simple wireless lighting control solution
for new and existing commercial buildings.
Vive wireless lighting control
Load
Controllers
How can you make every office,
school, or university campus an
efficient, comfortable and productive
In-wall
place to work or learn? controls
Vive is the answer.
Vive by Lutron is a simple, scalable, wireless
control that can be installed in a single space
or throughout an entire campus. It's designed
to meet today's energy codes, be used in new
Wireless
construction or retrofit situations, and meet your remotes
budgetary needs.
And with a wide family of products – including
sensors, remotes, load controllers, and an
available software management suite – Vive
provides the flexibility to select the products
you want and handle any on-site challenges
with ease. Wireless
Sensors
Integration
Vive Installation
Madison College — Madison, Wisconsin
2 | Lutron Lutron | 3
Scalable solutions — start small and grow Energy-saving control strategies
Vive wireless solutions offer a multi-strategy approach that accommodates your Combine lighting control strategies to maximize efficiency
budget and performance needs now, and for the future of your building.
hat is the savings opportunity?
W
Lutron solutions can save 60%3 or more lighting energy.
Potential savings
1 2 3 4 Occupied: On Vacant: Off
Occupancy/vacancy sensing turns lights on
when occupants are in a space and off when they
vacate the space.
20 – 60%
Lighting4
Daylight harvesting dims electric lights when 25 – 60%
daylight is available to light the space. Lighting5
Full On Dim
Scheduling provides pre-programmed 10 – 20%
changes in light levels based on time of day. Lighting6
7am: Dim 7pm: Off
Demand response automatically reduces 30 – 50%
lighting loads during peak electricity usage times.
Full On Dim
Peak Period7
Single office Single Multiple Entire Plug load control automatically turns off loads 15 – 50%
after occupants leave a space. Controlled Load8
space floor floors building Appliance On Appliance Off
Start by adding Expand to new areas Duplicate the Vive offers seamless
control in a single or an entire floor at success of one floor integration to other
80%
High-end trim sets the maximum light level 10 – 30%
space and expand any time without across other floors building management based on customer requirements in each space. Lighting9
as budgets reprogramming or as your business systems to control every Max: 100% Max: 80%
and occupant replacing existing expands or tenants light in your building.
schedules allow. equipment. change. Control can
be independent on Personal dimming control gives occupants 10 – 20%
each floor, or linked the ability to adjust the light level. Lighting10
Full On Dim
via Vive wireless hubs.
HVAC integration controls heating,
ventilation, and air conditioning systems 5 – 15%
through contact closure, or BACnet protocol. HVAC11
Heating Cooling
System Optimization Service from Lutron identifies
Saving Saving
important lighting control adjustments to save additional
60 %
70 %
energy and create a more productive work environment Variable
Before After on an ongoing basis.
4 | Lutron Lutron | 5
For a list of sources please visit lutron.com/references.
Transform existing buildings with wireless lighting controls
Flexible, wireless controls and sensors
for simple, code-compliant design
Simple-to-use software
Add wireless hubs for centralized
Remotes
control and integration (optional)
Occupancy and
daylight sensors
Or
Vive wireless hub
Wireless Load controllers
Wired/
Ethernet
Plug load controllers
Demand BACnet API Vive software
response integration integration
Communication protocols
Communicate via RF Communicate via WiFi Communicate via wired
to control components to smart devices Ethernet to Vive hub
Integrated fixture
control and sensing
6 | Lutron Lutron | 7
Selecting and installing wireless controls is easy
Area Control
Step 1 Switching
Control your loads
• Select the controller appropriate for or
the loads on your job Dimming
• Options available for:
- s witching, 0-10 V, phase dimming,
Ecosystem, contact closure
• Simply wire one load controller for each Contact Wireless Load Controllers
group of lights you want to control together Closure
Step 2
Control your lights Switching
where you need to
• Wireless devices can be mounted
to any surface with no wiring needed
• Controls communicate wirelessly Dimming
to the controls in the ceiling
• 10-year battery life Pico wireless remotes
Scene
Step 3
Add sensors to your job Corner
• Occupancy/vacancy sensors turn
lights on and/or off for convenience
and energy savings
• Wireless devices can be mounted Wall
to any surface with no wiring needed
• Controls communicate wirelessly
to the controls in the ceiling Wireless occupancy/
• 10-year battery life vacancy sensors
Ceiling
8 | Lutron Lutron | 9
Selecting and installing wireless controls is easy
Area Control
Step 4
Add daylight harvesting
to meet code and
save energy Daylight sensor
• ave energy by dimming the lights
S
when natural light is available
• Wireless devices can be mounted
to any surface with no wiring needed
• 10-year battery life
Step 5 (optional)
System software
and control
• Timeclock
• Demand response
• BACnet & API integration
• Energy and Occupancy information
• Proactive maintenance alerts
Vive Software
See easy programming setup
pages 16 – 17
10 | Lutron Lutron | 11
Selecting and installing wireless controls is easy
Individual Fixture Control
Step 1
Simply count the fixtures—
the technology is built in
• Visit lutron.com/hpfl for a list of fixtures that
come with Vive wireless technology built in
• Fixture are shipped with occupancy, vacancy
and daylight sensing already installed
Occupancy/vacancy sensors
Step 2 Pico wireless remotes
Switching
Control your lights
where you need to
• Wireless devices can be mounted to
any surface with no wiring needed
Dimming
• Controls communicate wirelessly to
the controls in the ceiling
• 10-year battery life
Scene
Step 3 (optional)
System software
and control
• Timeclock
• Demand response
• BACnet & API integration See easy system
• Energy and Occupancy information programming on pages
16 & 17
• Proactive maintenance alerts
Vive Software
12 | Lutron Lutron | 13
Simple to design Easily meet code
Access to tools and resources is at your fingertips. Summary of code requirements for lighting control
Get access and quick answers keep your project moving. Vive wireless solutions ensure you can meet new construction and retrofit (lighting alterations12)
code requirements for three major energy codes: ASHRAE, IECC, and Title 2413.
For specific commercial building code lighting requirements in your state, please visit lutron.com/energycodes.
Free online estimating tool
Lutron QuEst-D is an easy-to-use software tool that gives you an estimate
for your project based on a few simple questions. The result is an instant Vive Solutions
App guides to help you meet codes
Code Comp
liance | Lightin
g Controls
ions
bill of materials that highlights details and ensures a code-compliant
Vive Solut Commercial Application Guide
Vive Soluti
Code Compliance | Lighting Controls
Title 24-2 ons
n Guide ANSI/ASHRAE/IES 90.1– 2016 019
ial Applicatio Controls Commerc
Commerc | Lighting
ial Applicatio
pliance 1 201 3 n Guide
Code Com
RA E/IES 90.
ANSI/ASH
solution. Discover QuEst-D online at questd.lutron.com.
liance | Lightin
g Controls
Code Comp
liance | Lightin
g Controls
Codes can often be complicated and difficult to navigate. We have commercial
Code Comp
Vive So5luti
IECC 201
ial Applicatio
ons
n Guide
Vive So
IECC 201 lutions
Commerc
8
ial Applicatio
n Guid
Wireless
eload
controls
application guides that include examples of different spaces and corresponding
Lutron products for those spaces. Guides show you how you can use Lutron
Commerc
In-wall
controls Wireless
remotes Wireless
Sensors Integratio
n
solutions to meet or exceed major energy code requirements.
n
Integratio
Wireless
controlsload
Wireless In-wall
Wireless sensors controls
remotes Wireless
In-wall remotes Wireless
load controls sensors
Wireless Integratio
controls n
Available online at lutron.com/appguides
Easy-to-use design software
Lutron Designer+ for Vive is an intuitive, easy-to-use software tool
that allows you to design a Lutron Vive lighting control system with
visual “drag and drop” layout and connections. It also allows you to
generate comprehensive system design documentation, including bills
of materials, one-line diagrams, and sequence of operations.
For access please contact myLutronsupport@lutron.com.
TYPICAL 0-10V
(1 PER FIXTURE REQUIRED)
ZONE X
SWITCHED POWER
(1A MAX)
(
TYPICAL FOR RECEPTACLE CONTROL
(SEE CODE COMPLIANCE TABLE FOR APPLICABILITY)
)
TYPICAL PRIVATE OFFICE - 0-10V DIMMING
(
P
)
TYPICAL MANUAL OVERRIDE
TYPICAL VACANCY SENSOR
(REFER TO PLANS FOR LOCATIONS & QUANTITIES)
( )
VAC
( RF
TYPICAL DAYLIGHT SENSOR
(REFER TO PLANS FOR LOCATIONS & QUANTITIES)
)
TYPICAL 0-10V POWPAK(S)
(1 PER ZONE REQUIRED)
ZONE X
SWITCHED POWER
(8A MAX)
(
TYPICAL FOR RECEPTACLE CONTROL
(SEE CODE COMPLIANCE TABLE FOR APPLICABILITY)
)
TYPICAL BREAKROOM - 0-10V DIMMING
(
TYPICAL MANUAL OVERRIDE @ EACH ENTRY
P
)
TYPICAL OCCUPANCY SENSOR
(REFER TO PLANS FOR LOCATIONS & QUANTITIES)
( )
LUTRON NOTES:
ALL DIMMING BALLASTS TO BE LUTRON ECOSYSTEM, ECOSYSTEM H-SERIES, OR HI-LUME
3D TYPE UNLESS OTHERWISE NOTED.
ALL DIMMING DRIVERS TO BE LUTRON ECOSYSTEM DRIVERS: HI-LUME 1%; HI-LUME 1%
WITH SOFT-ON, FADE-TO-BLACK; 5-SERIES; OR HI-LUME PREMIER 0.1% UNLESS OTHERWISE
NOTED.
E.E. TO CONFIRM ALL CIRCUITING REQUIREMENTS.
ARCHITECT TO VERIFY QUANTITY, LOCATION & FINISH OF ALL CONTROLS.
LUTRON FIELD SERVICE COMMISSIONING INCLUDED IN
ALL SYSTEMS INITIATES AN 2 YEAR LIMITED WARRANTY. THE ELECTRICAL CONTRACTOR
MUST CONTACT LUTRON (1-844-588-7661) TO SET UP VISIT WITH 10 DAYS NOTICE.
Vive wireless specification typicals
Controlled
Controlled
0-10V DIM
On/Off On/Off
0-10V DIM
LUTRON LUTRON
(60 mA MAX)
(6 mA MAX) PJ2-3BRL-GWH-XXX PJ2-3BRL-GWH-XXX
LRF2-VCR2B-P-WH RMJS-8TN-DV-B LRF2-OKLB-P-WH
CAR2S-20-STR-WH 3 BUTTON CONTROL LRF2-DCRB-WH POWPAK DIMMING MODULE CAR2S-20-STR-WH 3 BUTTON CONTROL
VACANCY SENSOR CORNER MOUNTED
20A TAMPER RESISTANT, WITH RAISE/LOWER DAYLIGHT SENSOR 120/277V~, 50/60 Hz 20A TAMPER RESISTANT, WITH RAISE/LOWER
FCJS-010 OCCUPANCY SENSOR
SPLIT DUPLEX RECEPTACLE SHOWN WITH CW-1-WH W/ 0-10 V CONTROL SPLIT DUPLEX RECEPTACLE SHOWN WITH CW-1-WH
POWPAK WIRELESS 90° COVERAGE
HALF SWITCHING CLARO WALLPLATE DIMENSIONS: HALF SWITCHING CLARO WALLPLATE
FIXTURE CONTROL
Specifying wireless lighting control reduces design time and allows flexibility for changes
3.42"(H) X 2.82"(W) X 1.25"(D)
FOR 0-10 V CONTROL
(87mm X 72mm X 32mm)
TYPICAL OPEN OFFICE - 0-10V DIMMING TYPICAL MULTI-STALL BATHROOM - 0-10V DIMMING
TYPICAL 0-10V POWPAK(S) TYPICAL FOR RECEPTACLE CONTROL TYPICAL OCCUPANCY SENSOR TYPICAL DAYLIGHT SENSOR TYPICAL 0-10V POWPAK(S) TYPICAL MANUAL OVERRIDE TYPICAL OCCUPANCY SENSOR
(1 PER ZONE REQUIRED) (SEE CODE COMPLIANCE TABLE FOR APPLICABILITY) TYPICAL MANUAL OVERRIDE @ EACH ENTRY (REFER TO PLANS FOR LOCATIONS & QUANTITIES) (REFER TO PLANS FOR LOCATIONS & QUANTITIES) (1 PER ZONE REQUIRED) (AS REQUIRED - REFER TO PLANS FOR LOCATIONS) (REFER TO PLANS FOR LOCATIONS & QUANTITIES)
ZONE X ( ) ZONE X
SWITCHED POWER ( ) ( ) ( ) SWITCHED POWER ( ) ( )
P P
RF
(8A MAX) (8A MAX)
Controlled
0-10V DIM 0-10V DIM
On/Off
LUTRON LUTRON
(60 mA MAX) (60 mA MAX)
RMJS-8TN-DV-B PJ2-3BRL-GWH-XXX RMJS-8TN-DV-B PJ2-3BRL-GWH-XXX
CAR2S-20-STR-WH 3 BUTTON CONTROL LRF2-OCR2B-P-WH LRF2-DCRB-WH 3 BUTTON CONTROL LRF2-OCR2B-P-WH
POWPAK DIMMING MODULE POWPAK DIMMING MODULE
20A TAMPER RESISTANT, WITH RAISE/LOWER OCCUPANCY/VACANCY SENSOR DAYLIGHT SENSOR WITH RAISE/LOWER OCCUPANCY/VACANCY SENSOR
120/277V~, 50/60 Hz 120/277V~, 50/60 Hz
W/ 0-10 V CONTROL SPLIT DUPLEX RECEPTACLE SHOWN WITH CW-1-WH W/ 0-10 V CONTROL SHOWN WITH CW-1-WH
DIMENSIONS: HALF SWITCHING CLARO WALLPLATE DIMENSIONS: CLARO WALLPLATE
3.42"(H) X 2.82"(W) X 1.25"(D) 3.42"(H) X 2.82"(W) X 1.25"(D) LUTRON SERVICES
(87mm X 72mm X 32mm) (87mm X 72mm X 32mm) COUNT OF SERVICE TITLE
(MODEL NUMBER)
SERVICE DESCRIPTION
EACH
SERVICE THE COUNTS OF SERVICES BELOW ARE TO BE INCLUDED AS PART OF THIS
SPECIFIED PROJECT'S SCOPE OF WORK AND SPECIFIED INTO THE WRITTEN SPEC DOCUMENTS
during the project without the need to redesign. Vive Wireless Specification Typicals
STARTUP SUPPORT SERVICES
ONSITE SYSTEM PROGRAMMING VISIT – UP TO 8 CONTIGUOUS
ONSITE HOURS OF SYSTEM PROGRAMMING DELIVERED BY A LUTRON
SERVICES REPRESENTATIVE. THE SYSTEM WILL BE
TYPICAL CORRIDOR (EGRESS) - 0-10V DIMMING
PROGRAMMING
TYPICAL CONFERNCE ROOM - 0-10V DIMMING - 8 HOUR BLOCK
(LSC-OS-PROG8-SP)
PROGRAMMED PER AN APPROVED SEQUENCE OF OPERATION.
QUANTITY DICTATES THE NUMBER OF 8-HOUR VISITS
PURCHASED.
TYPICAL 0-10V POWPAK(S) TYPICAL FOR RECEPTACLE CONTROL TYPICAL VACANCY SENSOR TYPICAL DAYLIGHT SENSOR TYPICAL 0-10V POWPAK(S) TYPICAL MANUAL OVERRIDE TYPICAL OCCUPANCY SENSOR
(1 PER ZONE REQUIRED) (SEE CODE COMPLIANCE TABLE FOR APPLICABILITY) TYPICAL MANUAL OVERRIDE @ EACH ENTRY (REFER TO PLANS FOR LOCATIONS & QUANTITIES) (REFER TO PLANS FOR LOCATIONS & QUANTITIES) (1 PER ZONE REQUIRED) (AS REQUIRED - REFER TO PLANS FOR LOCATIONS) (REFER TO PLANS FOR LOCATIONS & QUANTITIES) ONSITE
ONSITE SYSTEM PROGRAMMING VISIT – UP TO 4 CONTIGUOUS HOURS OF
SYSTEM PROGRAMMING DELIVERED BY A LUTRON SERVICES
PROGRAMMING
REPRESENTATIVE. THE SYSTEM WILL BE PROGRAMMED PER AN
- 4 HOUR BLOCK
APPROVED SEQUENCE OF OPERATION. QUANTITY DICTATES THE
( )
(LSC-OS-PROG4-SP)
ZONE X ZONE X NUMBER OF 4-HOUR VISITS PURCHASED.
SWITCHED POWER ( ) ( ) ( ) SWITCHED POWER ( ) ( ) REMOTE SYSTEM PROGRAMMING VISIT – UP TO 4 CONTIGUOUS HOURS
P P
RF
(8A MAX) VAC
(8A MAX) REMOTE
OF SYSTEM PROGRAMMING DELIVERED BY A DEDICATED FACTORY
CERTIFIED REMOTE TECHNICIAN EITHER VIA A REMOTE NETWORK
PROGRAMMING
CONNECTION OR WITH THE ASSISTANCE OF AN ELECTRICAL
Controlled
- 4 HOUR BLOCK
CONTRACTOR OVER THE PHONE. THE SYSTEM WILL BE PROGRAMMED
0-10V DIM 0-10V DIM
On/Off
(LSC-RMT-PROG4-SP)
PER AN APPROVED SEQUENCE OF OPERATION. QUANTITY DICTATES THE
LUTRON LUTRON
(60 mA MAX) (60 mA MAX) NUMBER OF 4-HOUR SESSIONS PURCHASED.
RMJS-8TN-DV-B PJ2-3BRL-GWH-XXX LRF2-VKLB-P-WH RMJS-8TN-DV-B PJ2-3BRL-GWH-XXX
CAR2S-20-STR-WH 3 BUTTON CONTROL LRF2-DCRB-WH 3 BUTTON CONTROL LRF2-OHLB-P-WH
POWPAK DIMMING MODULE CORNER MOUNTED POWPAK DIMMING MODULE
20A TAMPER RESISTANT, WITH RAISE/LOWER DAYLIGHT SENSOR WITH RAISE/LOWER HALL MOUNTED
120/277V~, 50/60 Hz VACANCY SENSOR 120/277V~, 50/60 Hz
SPLIT DUPLEX RECEPTACLE SHOWN WITH CW-1-WH SHOWN WITH CW-1-WH OCCUPANCY/VACANCY SENSOR
W/ 0-10 V CONTROL 90° COVERAGE W/ 0-10 V CONTROL
DIMENSIONS: HALF SWITCHING CLARO WALLPLATE DIMENSIONS: CLARO WALLPLATE
3.42"(H) X 2.82"(W) X 1.25"(D) 3.42"(H) X 2.82"(W) X 1.25"(D) PLEASE GO TO WWW.LUTRON.COM/SERVICES FOR FURTHER INFORMATION.
(87mm X 72mm X 32mm) (87mm X 72mm X 32mm)
TYPICAL CLASSROOM - 0-10V DIMMING
allow for quick and easy design of many applications. Simply copy and paste the
TYPICAL 0-10V POWPAK(S) TYPICAL FOR RECEPTACLE CONTROL TYPICAL OCCUPANCY SENSOR TYPICAL DAYLIGHT SENSOR
(1 PER ZONE REQUIRED) (SEE CODE COMPLIANCE TABLE FOR APPLICABILITY) TYPICAL MANUAL OVERRIDE @ EACH ENTRY (REFER TO PLANS FOR LOCATIONS & QUANTITIES) (REFER TO PLANS FOR LOCATIONS & QUANTITIES)
ZONE X ( )
SWITCHED POWER ( ) ( ) ( )
P
RF
(8A MAX)
TYPICAL VIVE HUB TYPICAL VIVE HUB
Egress Corridor | New Construction
Controlled
0-10V DIM FOR SYSTEM PROGRAMMING, DEMAND FOR SYSTEM PROGRAMMING, BMS INTEGRATION,
On/Off
LUTRON
(60 mA MAX)
PJ2-3BRL-GWH-XXX RESPONSE, AND TIMECLOCK DEMAND RESPONSE, AND TIMECLOCK
RMJS-8TN-DV-B LRF2-OKLB-P-WH
LRF2-DCRB-WH (OTHER OPTIONS AVAILABLE) (OTHER OPTIONS AVAILABLE)
POWPAK DIMMING MODULE
120/277V~, 50/60 Hz
CAR2S-20-STR-WH
20A TAMPER RESISTANT,
3 BUTTON CONTROL
WITH RAISE/LOWER
CORNER MOUNTED
OCCUPANCY SENSOR
DAYLIGHT SENSOR ASHRAE 90.1-2010 by
W/ 0-10 V CONTROL SPLIT DUPLEX RECEPTACLE SHOWN WITH CW-1-WH
90° COVERAGE
DIMENSIONS: HALF SWITCHING CLARO WALLPLATE
120V/277V 120V/277V
3.42"(H) X 2.82"(W) X 1.25"(D)
(87mm X 72mm X 32mm)
VIVE HUB VIVE HUB
EXTERNAL POWER SUPPLY
OR
EXTERNAL POWER SUPPLY
MAX 100FT AWAY FROM HUB MAX 100FT AWAY FROM HUB
(MOUNTS TO 4X4 SQ JUNCTION BOX) (MOUNTS TO 4X4 SQ JUNCTION BOX)
HJS-0-FM HJS-2-FM
VIVE HUB PREMIUM VIVE HUB
W/ CLEAR CONNECT & TIMECLOCK W/ CLEAR CONNECT, TIMECLOCK, & BACNET
24V POWER SUPPLY & ADAPTER INCLUDED 24V POWER SUPPLY& ADAPTER INCLUDED
SEE SPEC SHEET FOR MOUNTING REQUIREMENTS SEE SPEC SHEET FOR MOUNTING REQUIREMENTS
COMMUNICATES W/ CLEAR CONNECT COMMUNICATES W/ CLEAR CONNECT
DEVICES WITHIN 71'[22m] RADIUS DEVICES WITHIN 71'[22m] RADIUS
ALCR DEVICE FOR CONTROL OF BOTH NORMAL AND EMERGENCY 0-10V LOADS
typicals into drawing packages for complete design, layout, and BOM information.
WIRING LEGEND: SPEC:
REGULAR Neutral
INPUT POWER (NORMAL)
1-WAY RF COMMUNICATION
WIRELESS NETWORK:
A. RF FREQUENCY: 434 MHZ; OPERATE IN FCC GOVERNED FREQUENCY SPECTRUM FOR To emergency power
IECC 2018
UTILITY POWER 2 #12AWG (4 mm2)
UL 1008
TRANSFER SWITCH
Normal/Emergency Power 20A CIRCUIT PERIODIC OPERATION; CONTINUOUS TRANSMISSION SPECTRUM IS NOT PERMITTED.
1. WIRELESS SENSORS, WIRELESS KEYPADS AND WIRELESS LOAD CONTROL DEVICES VIVE TYPICAL
Line/Hot (Blue) 0-10V SIGNAL: 2 #18AWG (1.0 mm2)
OR EQUAL NORMAL/EMERGENCY 2-WAY RF COMMUNICATION DO NOT OPERATE IN THE NOISY 2.4 GHZ FREQUENCY BAND WHERE HIGH
EMERGENCY CIRCUIT PANEL POTENTIAL FOR RF INTERFERENCE EXISTS.
POWER SOURCE B. LOCAL ROOM DEVICES COMMUNICATE DIRECTLY WITH EACH OTHER (AND NOT Line-voltage Low-voltage Clear Connect
wiring wiring RF Communication
SYMBOL LEGEND: THROUGH A CENTRAL HUB OR PROCESSOR) TO ENSURE:
1. RELIABILITY OF SYSTEM PERFORMANCE.
WIRELESS DAYLIGHT SENSOR WIRELESS RECEPTACLE
2. FAST RESPONSE TIME TO EVENTS IN THE SPACE (E.G. BUTTON PRESSES OR
SENSOR SIGNALS).
LOCATION
RF
3. INDEPENDENT OPERATION IN THE EVENT OF THE WIRELESS HUB BEING REMOVED
OR DAMAGED.
6 WIRELESS ZONE KEYPAD
4 Blue/White Neutral WIRELESS VACANCY SENSOR RECEPTACLES * (SEE CODE COMPLIANCE TABLE FOR APPLICABILITY)
A. COMMUNICATES VIA RADIO FREQUENCY WITH UP TO TEN COMPATIBLE
VAC
P
CONCEPT DRAWING
Black 1 5 Yellow - Switched Hot Switched Hot OCCUPANCY/VACANCY SENSORS AND TEN WIRELESS KEYPADS.
B. RELAY:
White 3 Violet (+) Violet (+)
EMERGENCY UTILITY
POWER POWER
1. LOAD SWITCHED IN MANNER THAT PREVENTS ARCING AT MECHANICAL CONTACTS
NOT FOR CONSTRUCTION
WIRELESS SCENE KEYPAD
TEST
WIRELESS OCCUPANCY SENSOR WHEN POWER IS APPLIED TO AND REMOVED FROM LOAD CIRCUITS.
Red 2 Violet (+) Gray (-)
Control
P4 2. RATED FOR SWITCHING OF GENERAL PURPOSE LOADS.
LUT-ALCR-D 3. MOTOR RATING OF 0.5 HP AT 120 V FOR 15 A RECEPTACLES, AND 1 HP AT 120 V FOR
Normal Voltage Sense State Sense
LVS CONTROLS ALCR DEVICE EMERGENCY LOAD 20 A RECEPTACLES.
FOR USE WITH 0-10V LOADS
Switched Hot WIRELESS KEYPADS
Symbol Model Number Description Qty
A. DOES NOT REQUIRE EXTERNAL POWER PACKS, POWER OR COMMUNICATION WIRING.
Neutral Project Number: N/A
Normal Hot
Violet (+)
B. ALLOWS FOR EASY REPROGRAMMING WITHOUT REPLACING UNIT.
C. INCLUDES LED TO INDICATE BUTTON PRESS OR PROGRAMMING MODE STATUS. RMJS-8T-DV-B PowPak dimming module with 0-10 V 1
REGULAR
20A CIRCUIT D. MOUNTING: Drawn By: ER
Gray (-) 1. CAPABLE OF BEING MOUNTED WITH A TABLE STAND OR DIRECTLY TO A WALL
UTILITY POWER NORMAL Normal Neutral UNDER A FACEPLATE, BACKBOX OPTIONAL. Radio Powr
Drawing Savr wireless hallway
Revision:
CIRCUIT PANEL
NORMAL LOAD
E. 10 YEAR BATTERY LIFE LRF2-OHLB-P-WH 0 1
occupancy sensor
Drawing Date: 05.28.2020
PJ2-3BRL-GWH-L01 Pico wireless 3-button with raise/lower control 2
Quick help videos
Sheet: 1 OF 1
RMJS-8TN-DV-B PICO-WBX-ADAPT Pico wallbox adapter 2
POWPAK DIMMING MODULE
WITH 8A, 0-10 V CONTROL
Available online at lutron.com/viveresources
Lutron Electronics Co., Inc.
7200 Suter Road | Coopersburg, PA 18036 | USA
Control Functionality (610) 282-3800 | fax: (610) 282-1146
Occupant Enters:
All lights automatically turn on to maximum light level. Maximum light level is set to 80%.
When Occupied:
Manual: Occupant uses wall switch to turn on, adjust, or dim all lights to low end. Manual control cannot
fully shut off the lights. Minimum light level is set to 10%.
© 03/2017 Lutron Electronics Co., Inc. P/N 368-4603 REV A
Occupant Exits:
All lights automatically go to minimum light level 15 minutes after all occupants exit.
Emergency Mode:
Lighting connected to emergency power turns on to full output.
I
Get access to Lutron Vive videos 24/7. Step-by-step setup, Code Notes: Verify that the egress fixtures go to full output upon loss of control signal. For projects that require UL 924 compliance, provide an
automatic load control relay (ALCR) per load controller connected to emergency fixtures. Add a daylight sensor for corridors with daylight zones.
Want to add a Vive wireless hub for more features? Go to lutron.com/vive for complete compatibility and design details.
This solution requires 0-10 V enabled ballasts and drivers by others.
installation, and programming help whenever you need it.
lutron.com/viveresources.
Energy code quick reference guides
Get the lighting and receptacle control requirements along with suggested functionality
to meet the latest versions of ASHRAE 90.1, IECC, and Title 24 all on one page.
Online training
Visit lutron.com/LCIOnline — Sign up for free, online training Available online at lutron.com/viveresources
modules with practice exercises that walk you through the
Vive system.
14 | Lutron Lutron | 15
Easy system programming
Simple setup and programming options with the Vive wireless hub For systems without a Vive wireless hub
Mobile phone setup
Using Vive software on any smart device you can wirelessly connect Automatic fixture identification
system controls and program system settings—no ladder required. 1 Press and hold on 2 Push-button set up
Lutron’s patent-pending RF signal strength detection
wireless device Lutron patent-pending technology Use simple button-press programming to select and
automatically finds nearby devices, making job setup faster. automatically finds and sorts the wireless associate wireless devices—it’s as easy as setting a
devices closest to the control. station on your car radio.
Wireless dimmer
Press and hold for 6 seconds
Occupancy sensor
Press and hold for 6 seconds
It works! Sensor now talks to the wireless dimmer
16 | Lutron Lutron | 17
Save energy and improve building performance
Energy savings and Load shed Open
space utilization ADR Compatible Schedules Scene Control Light Control Alerts
Quickly view and display energy- Easily set lighting reduction levels Use a 365-day calendar to Create and configure scenes to Directly adjust the light levels remotely View proactive alerts that show
usage information to drive decision that automatically respond during automatically adjust lights based control individual devices, areas, from any smart device. Easily respond issues such as low batteries or
making and demonstrate savings. peak electricity usage times. on time of day, including single day or groups of areas on demand. to occupant requests without needing inactive devices to help improve
and holiday events. to be in the physical space. building maintenance efficiency.
Seamlessly integrate with your building system
Building/Energy Management Energy Dashboards and
The BACnet/IP protocol is the primary means of integration. BACnet is embedded or API
Systems (BMS/EMS) Analytics Packages
native in the Vive wireless hub, which means no external interfaces or gateways are
required in order to communicate with other systems.
API integration, native on the Vive hub, enables integration with third party devices, HVAC Audio & Video IT
systems, and software. RESTful APIs are available over the ethernet.
18 | Lutron Lutron | 19A smart building is now simple
Vive Vue software
Vive Vue software now provides the ability to tie multiple Vive hubs together in one software interface. Built with the simple, Intuitive control
scalable, wireless building blocks of the Vive Wireless system, Vive Vue software now delivers the advanced intelligence
necessary for today’s smart buildings and the IoT. A smart building is now easier than ever to achieve. View status, control lights, and optimize your building quickly
and efficiently with a graphical floorplan.
Optimize your space
Improve building layout based on actual occupancy and usage
information. With space utilization reports, you can quickly
identify over-used and under-used spaces to improve building
efficiency without expanding the building footprint.
Save energy purposefully
Energy reports allow you to view and monitor your energy
savings. With trending energy information over time, and easily
customizable reports, Vive Vue software helps you demonstrate
the energy-saving advantages of wireless lighting control.
20 | Lutron Lutron | 21Enterprise Vue – Connected campus
Manage data and operations for multiple
Lutron lighting and shade control solutions
• A single data and management platform for your connected buildings
• The system interface delivers a simple, consistent user experience from any PC or tablet
• Open, easy integration with BACnet and web APIs leverages the IoT to enhance smart-building performance
Enterprise Vue home screen
22 | Lutron Lutron | 23Lutron system security Lutron reliability
Clear Connect wireless technology
e build security into the product and the process from conception
W All Lutron wireless products utilize Lutron patented Clear Connect wireless technology, which operates in an
to installation, and through the lifetime of the system. uncongested radio frequency band. The result is ultra-reliable communication and smooth dimming performance
with no flicker or delay. Other devices will not interfere with the Lutron lighting control system.
Everything we do is backed by Lutron’s first, and guiding, principle — Take Care of the
Customer with Superior Goods and Services. Every product, every system, and every
solution is designed, manufactured and tested to work as expected.
Clear Connect
Security by design Third-party validation
When building any new system, Lutron utilizes Security is complicated. Lutron has a dedicated team of
a dedicated security team to ensure best internal experts, but we also leverage external experts to
practices are implemented. Security is built in. double- and triple-check our work.
It is not an afterthought or add-on. 434 MHz: Lutron Clear Connect wireless technology
1. Multiple external experts engaged during
Examples of security features designed Lutron devices operate in an uncongested frequency band,
design process
into Vive include: providing ultra-reliable operation.
2. Third-party penetration testing to identify and fix potential
1. Isolated wired and wireless architecture which vulnerabilities before they reach the field
strictly limits the possibility of the Vive Wi-Fi or
Clear Connect being used to access the corporate
network to gain confidential information Continuous monitoring
2. A distributed security architecture — each hub and improvements
has its own unique keys Security is a constantly moving target. Lutron uses Other frequency bands
a dedicated security team to continuously monitor the
3. NIST-recommended best practices for securing
market for potential threats and, when needed, send out
passwords, including salting and use of SCrypt
security patches to update installed systems.
4. AES 128-bit encryption for network communications
5. HTTPS (TLS 1.2) protocol for securing connections Ongoing support
to the hub over the wired network
Lutron has the resources you need to answer questions
6. WPA2 technology for securing connections to the about security when they arise.
hub over the Wi-Fi network
1. IT deployment guides
2. Guidance from our world class 24/7 technical
2.4 GHz: Cordless phones | Bluetooth devices | Wireless security cameras
support organization with IT expertise throughout
the product lifecycle Other devices operate in congested frequency bands, creating a high potential for wireless interference.
24 | Lutron Lutron | 25Vive product catalog
Wireless
hub
page 28
Load
Controllers
page 30
In-wall
controls
page 44
Wireless
remotes
page 48
Wireless
Sensors
page 52
Vive Installation
Suncrest Bank — Visalia, California
26 | Lutron Lutron | 27Vive Wireless hub
Features and benefits How it works
• Communicates with controls on a floor using Lutron wireless All wireless devices to be associated to the Vive wireless hub must be within 71 ft (22 m)
wireless hub
Clear Connect technology (range radius of 71 ft [22 m]) of the Vive wireless hub and must be on the same floor as the Vive wireless hub.
• Distributed system architecture
- Pico remote controls and sensors communicate directly with the
load devices they control and must be located within 30 ft (9 m) Conference Room
of the device with which they are associated PowPak Dimming Module
• Supports timeclock events based on both sunrise and sunset Vive hub
or fixed time-of-day RF coverage
• Two contact closure inputs to enable load shed from other devices Private Office
Maestro Wireless
for Title 24 compliance and utility integration Dimmer 30 ft (9 m) 30 ft (9 m)
Vive wireless hub • Open ADR 2.0b compatible for integration with utilities for demand Maximum Maximum Note: A minimum distance of 10 ft (3 m)
response/loadshed and code compliance between Vive wireless hubs on the same
Dimensions floor is required.
• Each hub provides an individual dashboard for its coverage area and
W: 6.5" (165 mm) Note: Vive wireless hub must be
allows you to link to other hub dashboards from the mobile application 71 ft (22 m)
H: 1.5" (38 mm) mounted a minimum of 10 ft (3 m) from
Maximum
D: 2.8" (71 mm)
• API integration, native on the Vive hub, to enable integration with third a Wi-Fi router or access point.
party devices, systems, and software. RESTful APIs are available over
the ethernet.
• Proactive alerts to inform batteries are low or devices may not be 30 ft (9 m) 30 ft (9 m)
Maximum Maximum
working to ensure system operates as expected.
• Override and lockout support for emergency devices to send the
emergency lights to defined levels and lockout controls in the case of Setup, Monitor
a fire alarm, power loss, or security incident. This may be activated and Control 100 ft (30 m)
Vive Hub
manually or with an integration.
Product options
Vive hub power supply
Vive wireless hub models
Range with multiple Vive hubs
Dimensions
Starter (up to 75 devices)
W: 4.0" (102 mm) HJS-0-FM Flush mount
H: 1.7" (43 mm)
71 ft (22 m)
D: 2.8" (71 mm) Standard Maximum
100 ft 71 ft (22 m)
(30 m) Maximum
HJS-1-FM Flush mount
Open Office
PowPak
HJS-1-SM Surface mount Fixture
Control
H-MOUNT-SM Surface-mount installation adapter 100 ft (30 m)
Note: Pico remote controls and sensors must be within
30 ft (9 m) of the load device they are controlling
Premium (with BACnet and API)
HJS-2-FM Flush mount
HJS-2-SM Surface mount Note: A corporate Wi-Fi network can interfere with the Wi-Fi on the Vive wireless hub. Where a corporate Wi-Fi network
exists, it is recommended to do the following: Connect the Vive wireless hub to the corporate network using the Ethernet
HJS-UPDATE Software upgrade license to add BACnet and API
connection on the hub, and disable the hub’s Wi-Fi.
Software upgrade license expands device
HJS-DEVICES
limit to 700 devices
28 | Lutron Lutron | 29Wireless Load Controllers: J-box mounted switches and dimmers
How to design and specify How to design and specify
• One relay module
One single zone controller
•
For each controlled lighting zone in the space For each EcoSystem/DALI lighting zone in the space
• Control
Control
•
Select appropriate model based on the size of the EcoSystem/DALI: up to 32 drivers per controller
connected load
•Multiple drivers/balasts connected to control module
16 A: 1920 W or 1/2 HP @ 120 V or will aways work together as single zone
4432 W or 1 1/2 HP @ 277 V
Load controllers
PowPak relay module PowPak single zone •Input 120/277 V
5 A: 600 W or 1/6 HP @ 120 V or EcoSystem/DALI
Dimensions 1385 W or 1/3 HP @ 277 V
W: 2.89" (48 mm) • Contact closure output
Dimensions Product options
H: 3.44" (87 mm) For sending occupancy information to third-party equipment W: 2.89" (48 mm)
D: 1.25" (32 mm) such as HVAC systems H: 3.44" (87 mm) EcoSystem single zone
• Input 120/277 V
D: 1.25" (32 mm)
RMJS-ECO32-SZ
Product options
16 A models
RMJS-16R-DV-B
RMJS-16RCCO1-DV-B One contact closure output
5 A models
RMJS-5R-DV-B
RMJS-5RCCO1-DV-B One contact closure output
30 | Lutron Lutron | 31Wireless Load Controllers: J-box mounted switches and dimmers
How to design and specify
One dimming module with 0-10 V control
How it works
•
For each controlled 0-10 V lighting zone in the space
• Control
Two versions of the PowPak 0-10 V are available that optimize for different wiring practices. The -8T model has
8 A: 0-10 V controlled fixtures and switches compatible a connector on the back of the box which is optimized for Class 2 wiring outside of the standard conduit. The
with third-party 0-10 V fluorescent ballasts, -8TN model has the 0-10 V wires coming out of the threaded end, optimized for wiring inside a junction box and
LED drivers, and fixtures used for when the 0-10 V wires are run in the cable or conduit with the Class 1 wiring. Both versions can have
Load controllers
PowPak dimming module • Input
120/277 V the 0-10 V control wires be installed using NEC® Class 1 or Class 2 wiring methods.
with 0-10 V control • 0-10 V Link: Communicates with up to 60 mA of fixtures
Dimensions
W: 2.89" (48 mm) Product options
H: 3.44" (87 mm)
D: 1.25" (32 mm) 8 A models with 0-10 V control
RMJS-8T-DV-B
Wiring Schematic
RMJS-8TN-DV-B Junction Box* Junction Box*
Line / Hot Line / Hot
Switched Switched
Line / Hot To Fluorescent Line / Hot To Fluorescent
Neutral Neutral Ballasts / LED Neutral Neutral Ballasts / LED
Drivers Drivers
−
0–10 V- to
+ Fluorescent
Ballasts / LED
Drivers
FCJS-ECO FCJS-ECO
120 – 277 V~ 50 / 60 Hz 1 A 120 – 277 V~ 50 / 60 Hz 1 A
PowPak® PowPak®
UL 2043 UL 2043
Plenum Rated Plenum Rated
12 V-- 25 mA 12 V-- 25 mA
® ®
lutron.com IEC SELV / NEC® Class 2 lutron.com IEC SELV / NEC® Class 2
1.844.LUTRON1 Sensor | Détecteur 1.844.LUTRON1 Sensor | Détecteur
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RMJS-8T-DV-B RMJS-8TN-DV-B
−
0–10 V- to Fluorescent
+ Ballasts / LED Drivers
* NOTE: The control module mounts to the exterior of a U.S.-style junction box.
32 | Lutron Lutron | 33Wireless Load Controllers: 4x4 box mounted switches and dimmers
How to design and specify How to design and specify
•One dimming module with 0-10V control
• One dimming module for Phase Control
For each controlled 0-10 V lighting zone in the space For each controlled phase dimmable lighting zone in the space.
•Control
• Control
5 A: 0-10 V controlled fixtures and switches compatible •
LED drivers (reverse-phase) 450 VA
with third-party 0-10 V fluorescent ballasts, LED drivers,
and fixtures
•
Lutron Hi-lume 1% 2-wire LED driver A 3 A (13 drivers max)
Load controllers
347 V Dimming Module •Input
347 V 450W/VA PowPak Phase Select
•
LED bulbs, self-ballasted lamps (reverse-phase) 450 VA
Dimensions
with 0-10 V control • 0-10 V Link: Communicates with up to 60 mA of fixtures dimming module •
LED NEMA SSL 7A-2015 (forward-phase) B, H 200 W
Dimensions are shown as: in (mm)
•
Incandescent / halogen 450 W
Dimensions Dimensions
W: 4.53" (114.90 mm) Product options W: 4.53" (114.90 mm)
•
ELV (reverse-phase) 450 W
H: 4.53" (114.90 mm) H: 4.53" (114.90 mm) •
Fluorescent (forward-phase) 400 VAF
D: 1.80" (45.60 mm) 5 A model with 0-10 V control D: 1.80" (45.60 mm) •
Neon / Cold Cathode, MLV C, D 400 VAF (320 W)
RMJS-5T-347 • Input 120V/277V
3.37
Mounting:
4.53 Mounts in a standard 4 in (85.75) Mounting: Mounts in a standard 4 in
x(114.90)
4 in (101.6 mm x 101.6 mm) junction Divider for Class 1 & Class 2 Separation x 4 in (101.6 mm x 101.6 mm) junction
box. NOTE: Must use metal junction box. NOTE: Must use metal junction
box, minimum depth 2.125 in (53.975 5T-347-DIVIDER box, minimum depth 2.125 in (53.975 Product options
mm). Adding an extension ring is mm). Adding an extension ring is
450W/VA PowPak Phase Select dimming module
recommended for junction box depth recommended for junction box depth
extension. See Installation guide extension. See Installation guide
RMJS-PNE-DV
048781 for additional information.
4.53 1.80 048781 for additional information.
(114.90) (45.60)
1.90 3.37
(48.20) (85.75)
Range Diagram Dimensions
PowPak Module Contact Lutron first for applications using Dimensions are shown as: in (mm)
foil-backed or metallic ceiling tiles.
NOTE: Wireless sensors and controls must be located within
60 ft (18 m) line of sight, or 30 ft (9 m), through walls, of the
associated control module. The 60 ft (18 m) range is not
reduced by a ceiling tile obstruction.
50 ft (15.2 m)
60 ft (18 m) PowPak 30 ft (9 m)
maximum module maximum
3.37
line of sight through walls 4.53 (85.75)
Radio Powr Savr Pico Remote (114.90)
Occupancy Sensor Control
60 ft (18 m)
4.53 1.80
(114.90) (45.60)
1.90 3.37
34 | Lutron (48.20) (85.75) Lutron | 35Wireless Load Controllers: J-box mounted switches and dimmers
How to design and specify How it works
• One contact closure output module In response to information received from a Radio Powr Savr occupancy/vacancy sensor, the PowPak
For each additional contact closure output you require contact closure output module communicates room occupancy to the VAV terminal unit. By not heating
or cooling an unoccupied room, the electricity consumed by the HVAC system can be reduced.
Product options
Cooling Supply
Standard Filter coil fan
Load controllers
PowPak contact
RMJS-CCO1-24-B Contact closure output C
closure output module
Dimensions
W: 2.89" (48 mm) C
H: 3.44" (87 mm) Note: If using a relay module with the contact closure output, you do
D: 1.25" (32 mm) not need to add a contact closure output module unless a second
contact closure output is needed VAV Damper open VAV Damper closed
Occupied Unoccupied
Radio Powr Savr PowPak contact closure
occupancy/vacancy output module
sensor (ceiling mount)
36 | Lutron Lutron | 37Wireless Load Controllers: Plug load control
How to design and specify How it works
• One relay module
Plug loads, such as task lighting, computer monitors, and printers, account for greater than 5% of
For each 20 A receptacle circuit you want to control commercial electricity usage3. Many energy codes now require control of receptacles for compliance.
• Input 120/277 V
The occupancy/vacancy sensor wirelessly communicates room occupancy to the relay module.
Based on the occupancy status received, the relay module switches the power to the receptacles on or off,
reducing the amount of energy consumed.
Product options
Load controllers
20 A models
PowPak relay module
General purpose switch
RMJS-20R-DV-B
Dimensions 120-277 V receptacles
W: 2.89" (48 mm)
H: 3.44" (87 mm) General purpose switch
RMJS-20RCCO1-DV-B
D: 1.25" (32 mm) 20 A, 120-277 V receptacles
with one contact closure output
20 A 20 A
Occupied Unoccupied
Radio Powr Savr Pico control PowPak 20 A relay
occupancy/vacancy sensor with wallplate receptacle module
(ceiling mount)
38 | Lutron Lutron | 39
For a list of sources please visit lutron.com/references.Wireless Load Controllers: Plug load control
How to design and specify How it works
• One wireless receptacle Plug loads, such as task lighting, computer monitors, and printers, account for greater than 5% of
For each receptacle circuit you want to control commercial electricity usage3. Many energy codes now require control of receptacles for compliance.
One wireless receptacle can also control standard The occupancy/vacancy sensor wirelessly communicates room occupancy to the wireless receptacle.
receptacles wired downstream Based on the occupancy status received, the wireless receptacle switches the power on or off, reducing the
amount of energy consumed. The wireless receptacle will control normal receptacles downstream.
• Input 120 V
Load controllers
RF receptacle with
top controlled
Product options
15 A models
Dimensions
W: 2.94" (75 mm) CAR2S-15-STR - 15 A
Split (half switching;
H: 4.69" (119 mm) single pole/downstream)
D: 1.4" (36 mm)
CAR2S-15-DTR - 15A Duplex (dual switching;
single pole/downstream)
20 A models
CAR2S-20-STR - 20A
Split (half switching;
single pole/downstream)
CAR2S-20-DTR - 20A
Duplex (dual switching;
single pole/downstream)
20 A 20 A
Occupied Unoccupied
Radio Powr Savr Pico control RF receptacle
occupancy/vacancy sensor with wallplate with top control
(ceiling mount)
40 | Lutron Lutron | 41
For a list of sources please visit lutron.com/references.Wireless Load Controllers: Wireless individual fixture control
How to design and specify How to design and specify
• Vive integral fixture control • One PowPak wireless fixture contol
For each fixture in the space For each fixture in the space
• Digitally controls up to three drivers/ballasts per fixture
• Controls 1A of lead or up to three drivers/ballasts/per fixture
• Select either Clear Connect (RF) only or Clear Connect (RF) • Select either Area sensing or individual fixture sensing
& XCT Sensing • PowPak fixture sensor Combined occupancy/daylight sensor
Load controllers
Vive Integral Fixture Control
Product options Vive Wireless fixture controller
Product options
Wireless individual in-fixture control Sensor Dimensions 0-10 V control models
Dimensions
W: .827" (21 mm) DFCSJ-OEM-RF Clear Connect (RF) only W: 2.89" (48 mm)
FCJS-010
H: 2.477" (62.9 mm) H: 3.44" (87 mm)
Clear Connect (RF) and Occupancy/
DFCSJ-OEM-OCC D: 1.25" (32 mm)
FCJS-010-BULK8 8-pack
Daylight Sensing
Dimensions
with Occupancy/Daylight Sensor ontact your local fixture representative and ask for a Vive-enabled
C
EcoSystem control models
W: .927" (23.5 mm) fixture or visit lutron.com/findafixture
H: 2.577" (65.4 mm) Note: Wireless sensors and controls must be located within 60 ft (18 m)
How it works FCJS-ECO
line of sight, or 30 ft (9 m) through walls of each other.
Install the fixture control directly to a FCJS-ECO-BULK8 8-pack
fixture or on a junction box nearest
to the fixture. Install the sensor on the
Clear Connect (RF) + Sensing ceiling near the fixture to optimize
Sensor models
coverage in the desired area.
FC-SENSOR Occupancy/Daylight sensor
Note: Avoid mounting the fixture sensor
Clear Connect (RF) Only in direct sunlight or in the light which is FC-VSENSOR Vacancy/Daylight sensor
cast from the fixture.
Fixture sensor coverage diagrams XCT Occupancy/Vacancy sensing
Applies to both products
Clear Connect
Clear Connect (RF)
Wireless Fixture
Controller Range Diagrams
Ceiling 12.0 ft
Fixture Controller
(3.65 m)
30 ft (9 m)
9 ft
Maximum
(2.7 m)
Link
Test
Pico
Pico remote control Radio Powr Savr Radio Powr Savr Remote
Control Floor
(up to 10) occupancy sensor daylight sensor 12.0 ft
15 ft 9 ft 3 ft 0 3 ft 9 ft 15 ft
(up to 10) (1 maximum) (3.65 m)
(4.6 m) (2.7 m) (0.9 m) (0.9 m) (2.7 m) (4.6 m)
12.0 ft
(3.65 m)
42 | Lutron Lutron | 43Wireless Load Controllers: UL 924 rated emergency wireless controllers
How to design and specify How it works
•
One UL 924 PowPak module per ighting zone or fixture, During normal power conditions, the UL 924 rated PowPak modules can dim loads and respond to local button
depending on model presses, Pico wireless controls, and occupancy/daylight sensors.
Relay module control: If utility power fails and the emergency PowPak loses power for greater than 250 msec, the emergency generator back-
• 16 A: 1920 W or 1/2 HP @ 120 V up source activates and the automatic transfer switch senses loss of normal power and switches to emergency power.
4432 W or 1/2 HP @ 277 The emergency PowPak regains power and automatically goes into emergency mode (full output, relay closed and
0-10 V signal goes to 10.0 V) for 90 minutes. All local buttons, Pico wireless controls and occupancy/daylight
Load controllers
0-10 V module control:
PowPak UL 924 emergency sensors will not respond.
lighting modules
• 8 A: 0-10 V controlled fixtures and switches compatible with
When normal power is restored to the Vive hub and emergency PowPak, the emergency PowPak will return to the
third-party 0-10 V fluorescent ballasts, LED drivers, and fixtures
Dimensions previous light level within 2 minutes of normal power being restored. It will again accept local button control, input from
•
0-10 V link: Communicates with up to 60 mA of fixtures Pico wireless controls, and occupancy/daylight sensors.
W: 2.89" (48 mm)
H: 3.44" (87 mm) Fixture control:
D: 1.25" (32 mm) 1 A of load or up to 3 drivers and ballasts
•
System Wiring Diagram (Vive Hub with Emergency PowPak)
120 / 277 V~ Normal Feed 24 V-
• Input (all models)
120/277 V Neutral (N) Common
UL 924 listed
Product options
Line/Hot (L) Junction Box Junction Box To additional
RMJS-8T-DV-B
Neutral (N) PowPaks
Relay RMJS-16R-DV-B-EM Switched Line/Hot Switched Line/Hot
(+) Normal (+) Normal
0– 10 V- 0–10 V-
(–) Driver / Ballast (–) Driver / Ballast
0-10 V RMJS-8T-DV-B-EM
FCJS-ECO FCJS-ECO
Fixtures FCJS-010-EM
120 – 277 V~ 50 / 60 Hz 1 A 120 – 277 V~ 50 / 60 Hz 1 A
PowPak® PowPak®
UL 2043 UL 2043
Plenum Rated Plenum Rated
FCJS-ECO-EM
- 25 mA
12 V- - 25 mA
12 V-
® ®
lutron.com IEC SELV / NEC® Class 2 lutron.com IEC SELV / NEC® Class 2
1.844.LUTRON1 Sensor | Détecteur 1.844.LUTRON1 Sensor | Détecteur
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1.888.235.2910
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RMJS-8TN-DV-B RMJS-8TN-DV-B
(Normal) (Normal)
120 / 277 V~ Normal Feed
Neutral (N)
* NOTE: Solution is not applicable for
Uninterruptible Power Supply (UPS)
120 / 277 V~ Generator/ backup system. RMJS-8T-DV-B-EM
Emergency Feed must see a complete change-over of
power from normal to emergency for
the unit to go into emergency mode.
Neutral (N)
Automatic
Transfer
Switch
Emergency
Backup Generator *
120 / 277 V~
Emergency Feed Junction Box
To additional
RMJS-8T-DV-B-EM
Neutral (N) PowPaks
Switched Line/Hot
(+) Normal / Emergency
Not Provided by Lutron 0-10 V-
(–) Driver / Ballast
FCJS-ECO
120 – 277 V~ 50 / 60 Hz 1 A
PowPak®
UL 2043
Plenum Rated
- 25 mA
12 V-
®
lutron.com IEC SELV / NEC® Class 2
1.844.LUTRON1 Sensor | Détecteur
México:
1.888.235.2910
lutron.com
44 | Lutron RMJS-8T-DV-B-EM
(Emergency)
Lutron | 45Wireless Load Controllers: UL 924 rated emergency wireless controllers
How to design and specify How to design and specify
•
One CSA C22.2 No. 141-15 Listed dimming module with • One dimming module for Phase Control
0-10 V control per lighting zone For each controlled phase dimmable lighting zone in the space.
0-10 V module control: • Control
• 5A: 0-10 V controlled fixtures and switches compatible with •
LED drivers (reverse-phase) 450 VA
third-party 0-10 V fluorescent ballasts, LED drivers, and fixtures •
Lutron Hi-lume 1% 2-wire LED driver A 3 A (13 drivers max)
• 0-10V Link
Communicates with up to 60 mA of fixtures •
LED bulbs, self-ballasted lamps (reverse-phase) 450 VA
347 V emergency 450W/VA Emergency PowPak
• Input
347 V
lighting module Phase Select dimming module •
LED NEMA SSL 7A-2015 (forward-phase) B, H 200 W
Dimensions Dimensions
•
Incandescent / halogen 450 W
W: 4.53" (114.90 mm)
Product options W: 4.53" (114.90 mm) •
ELV (reverse-phase) 450 W
H: 4.53" (114.90 mm) H: 4.53" (114.90 mm) •
Fluorescent (forward-phase) 400 VAF
D: 1.80" (45.60 mm) 5 A model with 0-10 V control D: 1.80" (45.60 mm)
•
Neon / Cold Cathode, MLV C, D 400 VAF (320 W)
RMJS-5T-347-EM • Input 120V/277V
Mounting: Mounts in a standard 4 in Mounting: Mounts in a standard 4 in
x 4 in (101.6 mm x 101.6 mm) junction x 4 in (101.6 mm x 101.6 mm) junction
box. NOTE: Must use metal junction box. NOTE: Must use metal junction
box, minimum depth 2.125 in (53.975 box, minimum depth 2.125 in (53.975 Product options
mm). Adding an extension ring is mm). Adding an extension ring is
450W/VA Emergency PowPak
recommended for junction box depth recommended for junction box depth
Phase Select dimming module
extension. See Installation guide extension. See Installation guide
048781 for additional information. 048781 for additional information.
RMJS-PNE-DV-EM
46 | Lutron Lutron | 47Wireless Load Controllers: UL 924 rated emergency wireless controllers
How it works*
During normal power conditions, the rated modules can dim loads and respond to local button
presses, Pico wireless controls, and occupancy/daylight sensors.
If utility power fails and the emergency module loses power for greater than 1 sec, the emergency generator backup
source activates and the automatic transfer switch senses loss of normal power and switches to emergency power.
The emergency module regains power and automatically goes into emergency mode (full output, relay closed and
0-10 V signal goes to 10.0 V) for 120 minutes. All local buttons, Pico wireless controls and occupancy/daylight
sensors will not respond.
When normal power is restored to the Vive hub and emergency module, the emergency module will return to the
previous light level within 3-10 minutes of normal power being restored. It will again accept local button control,
input from Pico wireless controls, and occupancy/daylight sensors.
System Wiring Diagram (Vive Hub with 347V Emergency Dimming Module)
Wiring Schematic
120/277 V~ * NOTE: Solution is not applicable for an
Normal Feed
347 V~ Neutral (N) 120/277 V~ Uninterruptable Power Supply (UPS)
Normal Feed 24 V- Normal Feed Neutral (N) 24 V- backup system. RMJS-PNE-DV-EM
Neutral (N) Common Neutral (N) Common must see a complete change-over of
power from normal to emergency for
Regular Regular the unit to go into emergency mode.
Utility Power Utility Power
Junction Box Junction Box To additional Line / Hot (L) Junction Box Junction Box
Line/Hot (L)
RMJS-5T-347-EM To additional
units Neutral (N) RMJS-PNE-DV
Neutral (N) units
Switched Line/Hot Switched Line/Hot Dimmed Line / Hot Dimmed Line / Hot
Normal Normal
0 – 10 V- 0 – 10 V-
Driver Driver
Normal Load Normal Load
50019164a lutron.com
RMJS-5T-347 RMJS-5T-347 RMJS-PNE-DV RMJS-PNE-DV
347 V~ Normal Feed * NOTE: Solution is not applicable for an 120/277 V~ Normal Feed
Uninterruptable Power Supply (UPS)
Neutral (N) backup system. RMJS-5T-347-EM Neutral (N)
must see a complete change-over of
347 V~ Generator/ power from normal to emergency for 120/277 V~ Generator /
Emergency Feed the unit to go into emergency mode. Emergency Feed
Neutral (N) Neutral (N)
Automatic Automatic
Emergency Transfer Emergency Transfer
Power Switch Power Switch
347 V~ 120/277 V~
Emergency Feed Junction Box To additional Emergency Feed Junction Box
To additional
RMJS-5T-347-EM
RMJS-PNE-DV-EM
Neutral (N) units Neutral (N) units
Switched Line/Hot Dimmed Line / Hot
Not Provided by Lutron Normal / Emergency Not Provided by Lutron
0 – 10 V- Driver
* For all applicable emergency Vive models
Normal / Emergency
and wiring diagrams (see Lutron App Note 50019164a lutron.com
Load
628 Emergency Lighting with a Vive System)
48 | Lutron Lutron||49
RMJS-PNE-DV-EM
RMJS-5T-347-EM Lutron 49Load controllers: In-wall switches and dimmers
How to design and specify How to design and specify
• Select one switch per lighting zone • Select one wireless dimmer per lighting zone
• Select appropriate model based on the size of the • Select appropriate model based on the size and type
connected load of existing load
- 6 A: 600 W lighting @ 120 V • Most models do not require a neutral
- 8 A: 960 W lighting @ 120 V or 2216 W @ 277 V • Select from up to 27 colors to complement the décor*
• If existing switch does not have a neutral, choose the model • Add an accessory dimmer or a Pico wireless remote
Maestro wireless available for 120/277 V with no neutral required Maestro wireless
for rooms with multiple switches for a single zone
switches dimmers
• Select from up to 27 colors to complement the décor* • Gray models (-GR) are plenum rated for mounting in ceiling
Dimensions Dimensions applications
• Add an additional Pico remote for rooms with multiple switches
W: 2.94" (75 mm) for a single zone W: 2.94" (75 mm)
H: 4.69" (119 mm) H: 4.69" (119 mm)
D: 1.44" (38 mm) D: 1.44" (38 mm) Product options
Product options
Switch/Dimmers
Maestro Wireless dimmers
Dual Voltage No Neutral switches MRF2S-6CL-XX 150 W dimmable CFL/LED,
8 A lighting, 1/10 HP fan @ 120 V only,
MRF2S-8S-DV-XX 600 W incandescent/halogen
120-277 V, no neutral MRF2S-6ELV120-XX 600 W ELV, 120 V
MRF2S-6ND-120-XX 600 W/VA incandescent/halogen/
120 V Neutral required switches MLV, 120 V
1-8 Lutron LTE drivers, 350 W max
MRF2S-6ANS-XX 6 A lighting, 1/10 HP fan, 120 V only
MA-R-XX Accessory dimmer for multi-location
MRF2S-8ANS-120-XX 8 A lighting, 1/4 HP fan, 120 V only lighting controls, 120 V
* (XX in the model number represents color/finish code; use WH for
White; please visit lutron.com for other color choices.)
50 | Lutron Lutron | 51Load controllers: In-wall switches and dimmers
Features and benefits Sensor coverage diagrams
• Easy to install; directly replaces an existing control in a wallbox
• Combines occupancy sensing, manual control, and system NEMA WD7 Test Grid Coverage Horizontal Beam Diagram
connectivity in one piece of hardware (High Sensitivity Setting) (For Reference Only)
• Easily add additional wall controls and sensors without running Major motion coverage: 900 ft2 (81 m2)
any new wires
Minor motion coverage: 400 ft2 (36 m2)
• Connect to a Vive wireless hub for system features such as
timeclock, energy reporting, and demand response/load shed )
Maestro Wireless
0-10 V Dimmer Sensor • Lutron XCT technology for superior sensitivity prevents false ons
and false offs
Dimensions
W: 2.94" (75 mm)
H: 4.69" (119 mm) How to design and specify
)
D: 1.44" (38 mm)
• Select one dimmer or switch per lighting zone
Switch/Dimmers
• Select appropriate model based on type of load:
- 120 – 277 V~ 8 A Electronic fluorescent ballast or LED drivers
-C
ontrols up to 50mA of 0-10 V fixtures, sink only
(0-10 V Dimmer version) )
- Neutral required
• Add additional Pico remotes for rooms with multiple switches
for a single zone
• Add additional wireless occupancy and/or daylight sensors
)
for additional coverage area and functionality
Product options
Standard Vertical Beam Diagram
(For Reference Only)
MRF2S-8SD010-XX 0-10 V Wallbox Occupancy/Vacancy
Sensor Dimmer
MRF2S-8SS-XX Wallbox Occupancy/Vacancy Sensor Switch
MRF2S-8SDV010-XX 0-10 V Wallbox Vacancy
Sensor Dimmer
MRF2S-8SSV-XX Wallbox Vacancy Sensor Switch
(XX in the model number represents color/finish code)
52 | Lutron Lutron | 53You can also read
