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SPECIFICATION SUBMITTAL Page

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Vive HJS-0, HJS-1, HJS-2 Wireless Hub

369902p 1 02.25.20

Vive Hub

Vive Hub Dashboard

Vive Wireless Hub

The Vive hub provides a connection point for Lutron

Vive devices such as PowPak wireless dimming and

switching modules, PowPak Wireless Fixture

Controllers, PowPak 20 A Relay Modules, Maestro

Wireless dimmers and switches, Wireless

Receptacle controls, Pico remote controls, Radio

Powr Savr occupancy sensors, and daylight

sensors. For a complete list of compatible devices,

see the last page of this document.

For more information on the Vive hub, including

training materials, design information and software

updates, please visit www.lutron.com/vive

Features

• Can be easily programmed with any Wi-Fi enabled iOS®

or Android® compatible device using the free Lutron

Vive app (available for download from the App Store or

Google Play®) or by using web-based software.

• iOS® and Android® Apps – Helper apps act as an

intermediary between Vive systems and the Lutron

Cloud without the need of a permanent internet

connection. It connects to hubs when on-site and

passes data back and forth when the smart device

reconnects to the Internet. Visit www.lutron.com/

VivePrivacyNotice for more about this data.

– Registration of jobs / users for extended warranty.

– Manage multiple jobs with contacts and job info.

– Invite facility users to have access to hubs / job.

– Automatically send handoff documentation

personalized to your ﬁrm to facility management

team. Including programming user guide, online

"How-to" videos, and support number.

– Connection to hub browser user interface for

setup. Normal web browser still works and the

app is not required.

– Connection to hub browser dashboard for control

and monitor. Normal web browser still works and

the app is not required.

– Backup the database to the Lutron Cloud for hub

replacement.

– Download reports that list the inventory of hubs

and devices commissioned in your job.

• Communicates with controls on a ﬂoor using Lutron

wireless Clear Connect technology.

• Distributed system architecture.

– 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 device.

• Supports timeclock events based on both sunrise

and sunset or ﬁxed time-of-day.

• Timeclock events can control individual devices,

areas, or groups of areas.

– Note: This feature is not available once a hub is

paired with a Vive Vue server.

• Uses Lutron RF signal strength measurements

to ﬁnd devices nearby for quick association and

programming without having to climb ladders.

• Dashboard of current status for control and

monitoring of the system. Also shows current

energy usage.

• Integrated multi-color LED provides feedback on

what mode the hub is in.

continued on next page . . .

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Features (continued)

• Connects directly to any smartphone, tablet or

computer using built in Wi-Fi. 2.4 GHz 802.11b / g.

using WPA2 Security.

• Each hub presents a dashboard of devices and

areas which it controls.

• If all the hubs on a job are networked using

Ethernet, you can easily navigate from one hub to

another to view its dashboard.

• Ethernet 10 / 100 Mbps connection for:

– Native BACnetR / IP (see Lutron P/N 369996 at

www.lutron.com for PIC Statement) integration into

Building Management Systems (HJS-2-XX only).

The Vive Hub has been tested by BACnetR Testing

Laboratories (BTL) and is certiﬁed to comply with

all necessary interoperability requirements.

– Network multiple Vive hubs together as an

independent system or as part of an existing

building network.

– Native OpenADRR support, to manage Automatic

Demand Response / Load Shed events dictated by

a utility company.

– Each Vive hub hosts a unique virtual BACnetR

network. As such, each Vive hub requires a unique

BACnetR network number.

• Firmware upgradable for future features and

security patches.

• Password protected access.

• Flush-mount or surface-mount options available.

• Supported on most devices that use an HTML5

compliant browser (iOS®, Android®, Windows®,

Mac).

• Required browsers are Google® Chrome® and Safari.

• Supports HTTPS.

• Recommended conﬁgurations for smart devices:

Device OS Version

iPhone 6, iPhone 6 plus or newer iOS® 10.0 or

later

Supported on most Android® devices

running Android® 6.0 or later.

Android® 6.0

or later

• Daylighting Setpoint Tweaking – If the lights are too

bright or too dim while using daylighting, adjust the

settings in real time from a smart device to alter the

setpoint for the light level that is maintained between

natural and electric light. Older devices (released

prior to September 2017) can be adjusted but may

take a minute to reach desired level because of a of

slow fade. New devices will respond immediately.

• Daylighting-to-Low-End or Daylighting-to-Off - The

Vive system will allow the user to select either

daylighting-to-low-end or daylighting-to-off on an

area by area basis.

– Requires Vive hub software 01.08 or higher.

• Customer Supplied Security Certiﬁcates

– Provides customers the abiltiy to load their own

authentication certiﬁcates for their speciﬁc domain.

– Provides customers using the Vive hub application

to use secure browser communications without

receiving any authentication warnings due to the

self-signed certiﬁcates that are shipped with

the hubs.

– Requires Vive hub software 01.08 or higher.

• Timeclock Occupancy Sensor Settings Changes

– Requires devices shipped after September

2017. Devices shipped prior to that date will be

displayed as "unsupported" in the software UI.

Allows timeclock events to change the behavior

of occupancy settings based on time of day.

For example, change the unoccupied level of

corridors /

hallways from 25% during the day, and

off at night. The following settings can be changed:

– Occupied Level – The level the lights go to when

occupied. Changes are not applied immediately

to currently occupied spaces, but will change the

next time the space goes occupied to minimize

distraction.

– Unoccupied Level – The level the lights go to when

unoccupied. Changes are applied immediately to

spaces not currently occupied.

– Enable / Disable Occupancy – Change whether

devices will respond to the occupancy sensor.

– Timeout of the sensors (requires FC-VSENSOR).

LRF2 sensors still require this setting to be set on

the sensor.

• 365-day schedulable timeclock with exceptions

for holidays.

– Allows scheduling events 10 years in advance.

– Set recurring events with exceptions on holidays.

– Allows scheduling events on speciﬁc day of

the year.

• Measured energy data for PowPak Wireless Fixture

Control accurate to ±2% or 0.5 W, whichever is

higher.

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• Measured energy data is available for the Vive

Integral Fixture Control when paired with a driver that

supports measured power. See Lutron speciﬁcation

submittal (P/N 3691039) at www.lutron.com for more

information.

• Calculated energy data for PowPak modules and

Maestro dimmers or switches at 10% accuracy.

• Create and edit areas.

• Tune area light levels by trimming the high-end and

low-end output to save energy.

• Adjust occupancy settings. Create occupancy

groups.

• Can extend the RF range of up to 15 Pico wireless

remotes per Vive hub. These remotes can be set up

to control any device within the 71 ft (22 m) range of

that Vive hub.

• RF range of occupancy sensors can be extended

for up to 14 areas per Vive hub. In a range extended

area, an occupancy sensor can control any device

in that area, regardless of distance between sensor

and device. Requires Vive hub software 01.09

or higher.

• Conﬁgurable Fade Time

– Up to 90 minutes for timeclock events.

Limited to 90 seconds for FCJS-ECO, FCJS-

ECO-EM, RMJS-ECO32-SZ, DFCSJ-OEM-RF,

and DFCSJ-OEM-OCC devices.

NOTE: This feature is not available once a hub is

paired with a Vive Vue server.

– Up to 90 seconds for Pico remote control

programming.

Fade time may differ between buttons on the

same Pico remote control.

Single fade time applies to all programming for

a button.

• Automatic Demand Response / Load Shed

– Load Shedding will physically dim the lights to a

programmable level to help meet the requirements

for the California Title 24 Building Energy Efﬁciency

Standards – Automatic Demand Response.

– OpenADRR 2.0b compliant (requires Vive hub

software 01.09 or higher).

– May be enabled (or disabled) via any of the

following methods:

The ﬁrst contact closure input (CC1)

BACnetR integration

OpenADRR integration

– OpenADRR requires access to utility companies

over the Internet, so the hub must be connected

via Ethernet to use OpenADRR.

• Alerts

– View run-time issues which may prevent devices

from operating as expected, such as low batteries

or missing devices.

• API Integration

– To integrate with third-party devices, systems,

and software, RESTful APIs are available over

the Ethernet.

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Speciﬁcations

Regulatory Approvals

• cULus Listed

• FCC approved. Complies with the limits for a Class B

device, pursuant to Part 15 of the FCC rules.

• IC

• COFETEL

• NOM

Power / Performance

• Input to power supply:

120 – 277 V~ 50 / 60 Hz 0.6 A

• Input to Vive hub:

24 V- 350 mA

System Limits

• HJS-1, HJS-2 support up to 700 Lutron Wireless

devices. HJS-0 supports 75 Lutron Wireless devices.

Devices must be located within 71 ft (22 m) of the

Vive hub.

• Any given load device can be controlled by

10 occupancy sensors, 10 Pico remote controls and

1 daylight sensor (Pico remote controls and sensors

must be located within 30 ft [9 m] of the load device

they are controlling).

Mounting

• Vive hub units should be mounted in the middle of

non-metal ceiling tile or drywall, visible from inside the

space.

• Installation near metal, other than a junction box,

may reduce RF range. Hub should be at least 12 in

(305 mm) away from metal objects.

• Use surface-mount version for mounting to a hard

or cement ceiling.

• Power supply mounts to a standard 4 in x 4 in

(101 mm x 101 mm) square junction box.

• Power supply must be mounted within 100 ft (31 m) of

the Vive hub. Wiring should be 24 AWG to

12 AWG (0.2 mm

to 2.5 mm

Environment

• For indoor use only.

• 32 to 104 °F (0 to 40 °C).

• Relative humidity less than 90% non-condensing.

Contact Closure Input Terminals

• Contact closure inputs are used for initiating load shed

only. Load shedding will physically dim the lights to

a programmable level to help meet the requirements

for The California Title 24 Building Energy Efﬁciency

Standards Automatic Demand Response.

• Only the ﬁrst contact closure is used.

• Accepts only maintained inputs.

• Off-state leakage current must be less than 100 μA.

• Open circuit voltage: 24 V- maximum.

• Input wiring: 24 AWG to 12 AWG (0.2 mm

to 2.5 mm

• Contact Closure Inputs on multiple hubs can be

wired in parallel. DO NOT wire inputs in parallel with

other equipment as it can cause the inputs on either

of the devices to falsely trigger.

• Up to 4 hubs in parallel.

• To ensure proper operation of Contact Closure

Inputs, a PS-J-20W-UNV power supply may not be

used to provide power to more than one hub.

• Inputs must be dry contact closure, solid state, open

collector, or active-low (NPN) / active high (PNP) output.

– Open collector NPN or active-low on-state voltage

must be less than 2 V- and sink 3.0 mA.

– Open collector PNP or active-high on-state voltage

must be greater than 12 V- and source 3.0 mA.

Programming

• The Vive hub is meant to be permanently installed.

It is NOT intended to be used as a programming

tool that can be removed from the site after

commissioning. Various Vive system features are

dependent on the hub for proper functionality.

In addition, users and other maintainers will be

forced to recommission the entire system in order

to make simple changes or additions if the hub is

not installed on-site as part of the commissioned

system.

Warranty

• 1 year limited warranty. The customer can register

the product to increase the warranty period from

1 year to 5 years. Please visit www.lutron.com/

TechnicalDocumentLibrary/369-119_Wallbox_

Warranty.pdf for warranty details.

SPECIFICATION SUBMITTAL Page

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Model Numbers:

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369902p 5 02.25.20

How to Build a Model Number

Example

H J S – 1 – FM

Frequency

J = 431.0 – 437.0 MHz (USA, Canada, Mexico)

Type

0 = Starter Vive hub without BACnetR limited to

75 devices (Available as HJS-0-FM only)

1 = Vive hub without BACnetR

2 = Premium Vive hub with BACnetR

Mounting

FM = Flush-Mount (non-metal ceiling tiles or drywall)

SM = Surface-Mount (cement)

Available Vive Hub Model Numbers (includes power

supply and mounting adapter)

HJS-0-FM - Starter hub, ﬂush-mount adapter and

power supply

HJS-1-FM - Vive hub, ﬂush-mount adapter and

power supply

HJS-1-SM - Vive hub, surface-mount adapter and

power supply

HJS-2-FM - Premium Vive hub, ﬂush-mount adapter

and power supply

HJS-2-SM - Premium Vive hub, surface-mount adapter

and power supply

HJS-UPDATE - Software upgrade license to add

BACnet to HJS-0 and HJS-1 hubs

HJS-DEVICES - Software upgrade license expands

device limit to 700 devices for

HJS-0 hubs

Frequency

Mounting

Type

Replacement Part Model Numbers

PS-J-20W-UNV Vive hub external power supply

H-MOUNT-FM Flush-mount installation adapter

H-MOUNT-SM Surface-mount installation adapter

Ethernet Switch Model Numbers (sold separately)

All switches are unmanaged 10 / 100 / 1000 Mbps.

This IT gear is a suggested list. IT provided gear that

is equivalent or better is sufﬁcient. Enterprise level

gear recommended.

ETH-SWITCH-16 16 port

ETH-SWITCH-24 24 port

ETH-SWITCH-24-1M 24 port, 1 multi-mode ﬁber

ETH-SWITCH-24-2M 24 port, 2 multi-mode ﬁber

ETH-SWITCH-24-1S 24 port, 1 single-mode ﬁber

ETH-SWITCH-24-2S 24 port, 2 single-mode ﬁber

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Dimensions

Dimensions are shown as: in (mm)

Surface-mount

Adapter Details

• Knockouts for

1/2 in or 3/4 in

(13 mm or 19 mm)

conduit.

Vive Hub

Top View

Side View

6.8

(173)

5.3

(135)

2.8

(71)

1.5

(38)

Flush-mount Adapter

Top View

Side View

6.5

(165)

3.1

(79)

Surface-mount Adapter

Top View

Side View

4.8

(122)

4.8

(122)

3.5

(89)

Power Supply

Top View

Side View

4.0

(102)

3.4

(86)

3.4

(86)

4.0

(102)

1.7

(43)

Flush-mount

Adapter Details

• Requires a 6 in

(153 mm) hole to be

cut in the ceiling for

mounting.

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Range Diagrams

100 ft (30 m)

Private Office

Maestro Wireless

Dimmer

Conference Room

PowPak Dimming Module

Open Office

PowPak

Fixture

Control

Personal Control

Pico

Remote Control

Sensors

Radio Powr Savr

Occupancy Sensor

Radio Powr Savr

Daylight Sensor

Setup, Monitor and

Control

Vive Hub

71 ft (22 m)

Maximum

71 ft (22 m)

Maximum

100 ft (30 m)

100 ft

(30 m)

Note: Pico remote controls and sensors must

be within 30 ft (9 m) of the load device they are

controlling

Range with multiple Vive hubs

All wireless devices to be associated to the Vive hub must be within 71 ft (22 m) of the Vive hub and must be on

the same ﬂoor as the Vive hub.

Note: Vive hubs should be mounted greater than 10 ft (3 m) apart on the same ﬂoor.

Note: A corporate Wi-Fi network can interfere with the Wi-Fi on the Vive hub. Where a corporate Wi-Fi network

exists, it is recommended to do the following:

• Connect the Vive hub to the corporate network using the Ethernet connection on the hub and disable Wi-Fi on

the hub.

Note: Vive hubs should be mounted greater than 10 ft (3 m) from a Wi-Fi router or access point.

30 ft (9 m)

Maximum

30 ft (9 m)

Maximum

30 ft (9 m)

Maximum

30 ft (9 m)

Maximum

71 ft (22 m)

Maximum

Vive Hub

RF coverage

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 device.

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Wiring

24 V-

120 –277 V~

Product Overview

(Flush-mount adapter)

Ceiling tile

Power supply

Vive hub

Flush-mount

adapter

24 V-

120 –277 V~

Ceiling

Power supply

Vive hub

Surface-mount

adapter

Product Overview

(Surface-mount adapter)

Note: For Chicago plenum space applications the power supply has a metal enclosure and can be mounted in the plenum

space. The Vive hub cannot be mounted in the plenum space and needs to be mounted outside the plenum space on the

surface of the ceiling.

DO NOT power the Vive hub with an Uninterruptable Power Supply (UPS) or emergency generator power. The Vive hub

must be powered with normal power only when emergency PowPak / Fixture Controllers are utilized in the system. If the Vive

hub is powered from UPS or emergency generator power any emergency PowPak utilized in the system will either not enter

emergency mode, or exit emergency mode prematurely.

Vive Hub

CCI1

COM

24 V-

COM

CCI2

Red

Blue

Ethernet

10/100

LAN

To Power

Supply

Unused

Ethernet

Connection

Optional: Only used for Automatic Demand

Response / Load Shed via contact closure input

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Vive Security Statement

Lutron takes the security of the Vive Lighting Control System very seriously.

The Vive Lighting Control System has been designed and engineered with attention to security since its inception.

Lutron has engaged security experts and independent testing ﬁrms throughout the entire development of the Vive

Lighting Control System. Lutron is committed to security and continuous improvement throughout the Vive

product lifecycle.

The Vive Lighting Control System uses a multi-tiered approach to security and National Institute of Standards and

Technology (NIST) recommended techniques for security.

They include:

1. An architecture that isolates the wired Ethernet network from the wireless network, which strictly limits the

possibility of the Vive Wi-Fi being used to access the corporate network and gain conﬁdential information

2. A distributed security architecture with each hub having its own unique keys that would limit any potential breach

to only a small area of the system

3. Multiple levels of password protection (Wi-Fi network and the hubs themselves), with built-in rules that force the

user to enter a strong password

4. NIST-recommended best practices including salting and SCrypt for securely storing usernames and passwords

5. AES 128-bit encryption for network communications

6. HTTPS (TLS 1.2) protocol for securing connections to the hub over the wired network

7. WPA2 technology for securing connections to the hub over the Wi-Fi network

8. Azure provided encryption-at-rest technologies

The Vive hub can be deployed in one of two ways:

• Dedicated Lutron Network

• Connected to the corporate IT network via Ethernet. The Vive hub must be connected via Ethernet to access

certain features such as BACnet® for BMS integration or OpenADRR integration. Lutron advises following best

practices in this instance, including separating the business information network and the building infrastructure

network. Use of a VLAN or physically separated networks is recommended for secure deployment.

Dedicated Lutron Network Deployment

The Vive hub is not connected to the building network. Wi-Fi is used to connect to a smart device such as a

phone, tablet, or PC for commissioning and conﬁguration only. The Vive hub serves web pages for setup and

maintenance via a password-protected connection. The Wi-Fi SSID can be set to not broadcast. The Vive hub

Wi-Fi may be disabled if desired.

Corporate IT Network Deployment

The Vive hub may be deployed with a ﬁxed IP address or served over DHCP. Once the IT network is operational,

the Vive hub will serve password protected web pages for access and maintenance. The Vive hub Wi-Fi may be

disabled if desired.

The Vive hub acts as a Wi-Fi access point purely for the conﬁguration and commissioning of the Vive system. It is

not a substitute for your building’s normal Wi-Fi access point. The Vive hub does not act as a bridge between

wireless and wired networks.

It is strongly recommended that local IT security professionals be involved with the network conﬁguration and

set-up to ensure the installation meets their security needs.

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Dedicated Network

Wi-Fi Only

Vive

Ports Used

• No IT conﬁguration needed

Corporate Network

Single Hub

Vive

Ports Used

Link segment 330 ft (100 m) Building Management System (BMS)

Vive Hub

Corporate Wi-Fi

Router

Trafﬁc Port Type Connection Description

Outbound 47808

(conﬁgurable)

UDP Ethernet Used for BACnet® integration into Building Management Systems

80 TCP Used to discover the Vive hub when mDNS is not available

5353 UDP Ethernet Used to discover the Vive hub via mDNS

Conﬁgurable TCP Ethernet Used for OpenADRR. Speciﬁed by utility company

Inbound 443

TCP

Both Ethernet and

Wi-Fi

Used to serve user interface to smart device

80 TCP Used by other Vive hubs to proxy

8081 TCP Ethernet Used for local LEAP connections to integrations and Vive Vue

8083 TCP Ethernet Used for local LAP connections to integrations and Vive Vue

8444 TCP Ethernet Used to communicate with the Vive Vue server

47808

(conﬁgurable)

UDP Ethernet Used for BACnet® integration into Building Management Systems

5353 UDP Ethernet Used to discover the Vive hub via mDNS

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Corporate Network (continued)

Multiple Hubs

Link segment 330 ft (100 m)

Building Management System (BMS)

Vive Hub

Corporate

Wi-Fi

Router

Vive Hub

Notes

• The inter-hub wiring is considered IEC PELV / NEC® Class 2; do not run in the same conduit as line (mains)

voltage wiring.

• Wiring distance for any single link segment is 330 ft (100 m) max; use Lutron-provided or third-party Ethernet

switches for longer distances (see page 3).

• Up to 64 hubs can be networked together.

• Up to 100 hubs can be networked together when Vive Vue is used.

• Hubs communicate over the inter-hub link using multicast UDP or TCP; a dedicated network is recommended but

not required.

• The Wi-Fi access port cannot be used to create an ad hoc network for use as the inter-hub communication link.

Inter-Hub Link Wiring

Link segment 330 ft (100 m)

Ports Used

Trafﬁc Port Type Connection Description

Outbound 47808

(conﬁgurable)

UDP Ethernet Used for BACnet® integration into Building Management Systems

80 TCP Used to discover the Vive hub when mDNS is not available

5353 UDP Ethernet Used to discover the Vive hub via mDNS

Conﬁgurable TCP Ethernet Used for OpenADRR. Speciﬁed by utility company

Inbound 443

TCP

Both Ethernet and

Wi-Fi

Used to serve user interface to smart device

80 TCP Used by other Vive hubs to proxy

8081 TCP Ethernet Used for local LEAP connections to integrations and Vive Vue

8083 TCP Ethernet Used for local LAP connections to integrations and Vive Vue

8444 TCP Ethernet Used to communicate with the Vive Vue server

47808

(conﬁgurable)

UDP Ethernet Used for BACnet® integration into Building Management Systems

5353 UDP Ethernet Used to discover the Vive hub via mDNS

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Compatible Devices

• Maestro Wireless Dimmers and Switches

– MRF2S-6CL-XX

– MRF2S-6ELV120-XX

– MRF2S-8S-DV-XX

– UMRF2S-8S-DV-XX

– MRF2S-8ANS120-XX

– UMRF2S-8ANS120XX

– MRF2S-6ANS-XX

– MRF2S-6ND-120-XX

• Maestro Wireless Companion Dimmers

and Switches

– MA-R-XX

– MSC-AD-XX

– MA-AS-XX

– MA-AS-277-XX

– MSC-AS-XX

– MSC-AS-277-XX

• Maestro Wireless 0-10V Dimmers and Switches

with Sensor

– MRF2S-8SD010-XX

– MRF2S-8SS-XX

– MRF2S-8SDV010-XX

– MRF2S-8SSV-XX

• PowPak Modules

– FCJS-010

– FCJS-010-EM

– FCJS-ECO

– FCJS-ECO-EM

– RMJS-ECO32-SZ

– RMJS-8T-DV-B

– RMJS-8T-DV-B-EM

– URMJS-8T-DV-B

– RMJS-16RCCO1DV-B

– URMJS-16RCCO1DVB

– RMJS-16R-DV-B

– RMJS-16R-DV-B-EM

– URMJS-16R-DV-B

– RMJS-5RCCO1-DV-B

– RMJS-5R-DV-B

– RMJS-20R-DV-B

– RMJS-20RCCO1DV-B

– RMJS-CCO1-24-B

– URMJS-CCO1-24B

• In-Line Phase Control Dimmers

3,4

– RMQS-250-NE

– RMQS-250-NE-EM4

"XX" denotes color code and "YYY" denotes button marking code.

Requires Vive hub software 01.09 or higher.

Requires Vive hub Software 01.12 or higher

Israel Only

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Compatible Devices (continue d)

• Pico Remote Controls

– PJ2-2B-GXX-YYY

– PJ2-2BRL-GXX-YYY

– PJ2-3B-GXX-YYY

– PJ2-3BRL-GXX-YYY

– PJ2-4B-GXX-L01

– PJ2-4B-GXX-L21

– PJ2-4B-GXX-L31

– PJN-2B-GXX-L01

– PJN-3BRL-GXX-L01

• Wireless Occupancy and Daylight Sensors

– LRF2-OCR2B-P-WH

– LRF2-VCR2B-P-WH

– LRF2-OHLB-P-WH

– LRF2-OKLB-P-WH

– LRF2-OWLB-P-WH

– LRF2-VHLB-P-WH

– LRF2-VKLB-P-WH

– LRF2-VWLB-P-WH

– LRF2-DCRB-WH

"XX" denotes color code and "YYY" denotes button marking code.

Button programming is only for all devices paired to the Pico wireless control. These Pico wireless controls are unable to have their

buttons be individually assigned to different rooms.

)Lutron, Lutron, Clear Connect, Maestro, Maestro Wireless, Pico, PowPak, Radio Powr Savr, Vive Vue, and Vive are trademarks or registered trademarks of Lutron

Electronics Co., Inc. in the US and/or other countries.

Bonjour, Mac, Safari and iPhone are trademarks of Apple Inc., registered in the U.S. and other countries.

App Store is a service mark of Apple Inc., registered in the U.S. and other countries.

All other product names, logos, and brands are property of their respective owners.

• Energy Retroﬁt Kits

– MRF2S-1S8A-1OC

– MRF2S-1S8A-1OH

– MRF2S-1S8A-1OK

– MRF2S-1S8A-1OW

– MRF2S-1S8A-1VC

– MRF2S-2S8A-1OW

• Wireless Receptacle Controls

– CAR2S-15-STR-XX

– CAR2S-20-STR-XX

– CAR2S-15-DTR-XX

– CAR2S-20-DTR-XX

• Wireless Fixture Controls

– DFCSJ-OEM-RF

– DFCSJ-OEM-OCC

– DFC-OEM-DBI

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369902 ENG VIVE HUB SPEC SUBMITTAL (369902)

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