To download the Echoflex App:

Transcription

1 To download the Echoflex App: itunes: Google Play:

2 ETC Unison Echo EchoConnect Station Power Supply Echo Control Series GENERAL INFORMATION A member of ETC s Unison Echo family of lighting-control and power-control products, the Echo Station Power Supply provides EchoConnect power for stations, responsive controls and power controllers. Echo Station Power Supplies are designed for use with distributed Echo Control Systems, Unison DRd Power Enclosures with Echo control, Echo Relay Panels and Sensor3 Power Control Systems. APPLICATIONS Houses of worship Education Hospitality Healthcare facilities Office buildings Conference rooms Meeting rooms Retail FEATURES Designed for use with any EchoConnect-enabled station, responsive controls or Echo power controllers EchoConnect: Two-wire, topology-free system gives you the freedom to put stations where you need them Multiple form factors and mounting options available Plug and play: ready to go out of the box with no software or programming required SYSTEM LIMITATIONS Up to 1640 feet (500 meters) of control wiring DRd, Wall-, Rack- and DIN Rail Mount: -- Up to 16 stations and responsive controls -- Up to 16 power controllers or panels Echo Station Power Supply -- Up to six stations and responsive controls -- Up to six power controllers or panels GENERAL UL and cul LISTED CE Marked (Except E-SPS and E-APS) ORDERING INFORMATION EchoConnect Power Supplies MODEL DESCRIPTION E-SPS Echo Station Power Supply, Knockout Mount E-SPS-DIN DIN Rail Mount Station Power Supply with 24V Aux E-SPM DRd Station Power Module E-SPM-A DRd Station Power Module with 24V Aux E-SPM-RM Rack-Mount Station Power Module E-SPM-RM-A Rack-Mount Station Power Module with 24V Aux E-SPM-WM Wall-Mount Station Power Module E-SPM-WM-A Wall-Mount Station Power Module with 24V Aux E-APS 24V Aux Power Supply, Knockout Mount EchoConnect Power Supply Accessories MODEL DESCRIPTION E-C5T-ST Category-5 Station Wiring Kit E-C5T-WM Category-5 Wiring Termination Box E-C5T-RM Category-5 Wiring Termination Tray 1 of 8

3 ETC Unison Echo EchoConnect Station Power Supply Echo Control Series ECHOCONNECT INFORMATION E-SPS EchoConnect Power Supply EchoConnect: Auxiliary Power: Provides 6U of control power and and 6U of Output Power Not provided E-SPS-DIN EchoConnect Power Supply EchoConnect: Provides 16U of control power and 16U of Output Power Auxiliary Power: Provides 1500mA E-SPM EchoConnect Power Supply EchoConnect: Provides 16U of control power and 16U of Output Power Auxiliary Power: Not Provided E-SPM-A EchoConnect Power Supply EchoConnect: Provides 16U of control power and 16U of Output Power Auxiliary Power: Provides 1500mA E-SPM-RM EchoConnect Power Supply EchoConnect: Provides 16U of control power and 16U of Output Power Auxiliary Power: Not Provided E-SPM-RM-A EchoConnect Power Supply EchoConnect: Provides 16U of control power and 16U of Output Power Auxiliary Power: Provides 1500mA E-SPM-WM Power Supply EchoConnect: Provides 16U of control power and 16U of Output Power Auxiliary Power: Not Provided SPECIFICATIONS FUNCTIONAL Provides EchoConnect power for up to 6 or16 stations or Responsive Controls and 6 or 16 power controllers or panels Supports 1640 feet (500 meters) of control wiring MECHANICAL Echo Station/Auxiliary Power Supply -- Mounts using half-inch conduit knockout -- Constructed of injection-molded ABS plastic DRd, Wall and Rack Mount: gauge formed steel construction -- Fine-texture, scratch-resistant, epoxy paint -- Convection cooled -- Fully contained plug-in module with no discrete wire connections (DRd only) -- Front panel status indicators -- Wall-mount and 19-inch rack-mount variants available E-SPS-DIN -- DIN Rail mounting complies with DIN43880 (35/7.5 rail) ELECTRICAL DRd, Wall and Rack Mount, E-SPS, E-APS: V-277V, 50/60Hz, two-wire+gnd power input E-SPS-DIN V-240V, 50/60Hz, two-wire+gnd power input Optional 24V Aux power options for connected devices EchoConnect two-wire control network utilizing low-voltage Class 2 wiring Topology-free and polarity-independent wiring over Belden 8471 or equivalent and one #14 ESD drain wire Wiring may be bus, loop, homerun or any combination of these Up to 1640 feet (500 meters) of control wiring per system Supports optional Cat5 or better wiring using Belden 1583A or equivalent -- Requires optional Cat5 termination accessories E-SPS-DIN includes 24v power supply UL and cul LISTED CE Marked (Except E-SPS and E-APS) THERMAL E-SPS, E-APS and E-SPS-DIN: -- Ambient room temperature: 0-50 C / F -- Ambient humidity: 5-95% non-condensing DRd, Wall- and Rack-Mount -- Ambient room temperature: 0-40 C / F -- Ambient humidity: 10-90% non-condensing E-SPM-WM-A EchoConnect Power Supply EchoConnect: Provides 16U of control power and 16U of Output Power Auxiliary Power: Provides 1500mA APS Auxiliary Power Supply EchoConnect: Not Provided Auxiliary Power: Provides 160mA 2 of 8

4 ETC Unison Echo EchoConnect Station Power Supply Echo Control Series ECHO FAMILY OF PRODUCTS EchoConnect Power Supplies MODEL DESCRIPTION E-SPS 6U Room Station Power Supply, Knockout Mount E-SPS-DIN 16U DIN rail Station Power Supply with 24V Aux E-SPM 16U DRd Station Power Module E-SPM-A 16U DRd Station Power Module with 24V Aux E-SPM-RM 16U Rack-Mount Station Power Module Aux E-SPM-RM-A 16U Rack-Mount Station Power Module 24V Aux E-SPM-WM 16U Wall-Mount Station Power Module E-SPM-WM-A 16U Wall-Mount Station Power Module 24V Aux E-APS 24V Aux Power Supply, Knockout Mount Echo Stations MODEL DESCRIPTION E1001 Inspire One Button Station E1002 Inspire Two Button Station E1004 Inspire Four Button Station E1006 Inspire Six Button Station E1008 Inspire Eight Button Station E1104 Inspire Four Button with Fader Station EPS05 Echo Preset Station - 5 Button EPS10 Echo Preset Station - 10 Button EPSLO Echo Lockout Station E-ATC Echo TimeClock Echo Responsive Controls MODEL DESCRIPTION ELS Light Sensor EOCC Ceiling-Mount PIR Occupancy Sensor EVAC Ceiling-Mount PIR Vacancy Sensor E-DOC-C Ceiling-Mount Dual Tech Occupancy Sensor E-DVAC-C Ceiling-Mount Dual Tech Vacancy Sensor E-DOC-W Wall-Mount Dual Tech Occupancy Sensor E-DVAC-W Wall-Mount Dual Tech Vacancy Sensor E-DOC-SM1 Switch-Mount Dual Tech Sensor - One Button E-DOC-SM2 Switch-Mount Dual Tech Sensor - Two Button Echo Interfaces MODEL DESCRIPTION EACC EchoAccess Interface EEB Echo Expansion Bridge EDMXC Echo DMX Scene Controller EEI Echo-Echoflex Interface ECII Echo Contact Input Interface ECOI Echo Contact Output Interface Zone Controllers MODEL DESCRIPTION ERC One Zone Relay Controller EDRC Two Zone Relay Controller ELD One Zone 0-10V Dimming Controller EDLD Two Zone 0-10V Dimming Controller ESSC One Zone SmartSpace Controller EDSSC Two Zone SmartSpace Controller ELVD 600-Watt Phase Adaptive Dimmer ELVD Watt Phase Adaptive Dimmer- 277V Room Controllers MODEL DESCRIPTION ERMC4 Four Zone Room Controller ERMCT4 Four Zone Room Controller with TimeClock ERMC8 Eight Zone Room Controller ERMCT8 Eight Zone Room Controller with TimeClock Panel Products MODEL DESCRIPTION ERP Echo Relay Panel Mains Feed ERP-FT Echo Relay Panel Feed Through SensorIQ Sensor IQ Intelligent Breaker System SR3 Sensor3 Power Control System DRd Unison DRd with Echo Control 3 of 8

5 ETC Unison Echo EchoConnect Station Power Supply Echo Control Series SAMPLE ECHO SYSTEMS SMALL SYSTEM MEDIUM SYSTEM CONFERENCE ROOM 4 of 8

6 ETC Unison Echo EchoConnect Station Power Supply Echo Control Series SAMPLE ECHO SYSTEMS MEDIUM BALLROOM 5 of 8

7 ETC Unison Echo EchoConnect Station Power Supply Echo Control Series PHYSICAL Module Dimensions * MODEL HEIGHT WIDTH DEPTH inches mm inches mm inches mm E-SPM(-A) E-SPM-WM(-A) E-SPM-RM(-A) E-SPS(-APS) E-SPS-DIN *Weights and dimensions typical Module Weights * MODEL WEIGHT SHIPPING WEIGHT lbs kgs lbs kgs E-SPM(-A) E-SPM-WM(-A) E-SPM-RM(-A) E-SPS(-APS) E-SPS-DIN E-SPM(-A) mm mm mm E-SPM-WM(-A) mm mm Mounting keyhole (typical) mm mm mm mm (Mounting reference) 6 of 8

8 ETC Unison Echo EchoConnect Station Power Supply Echo Control Series PHYSICAL mm E-SPM-RM mm mm mm mm mm mm mm mm E-SPS / E-APS mm mm 7 of 8

9 ETC Unison Echo EchoConnect Station Power Supply Echo Control Series PHYSICAL ESPS-DIN Corporate Headquarters n 3031 Pleasant View Rd, PO Box , Middleton WI USA n London, UK n Unit 26-28, Victoria Industrial Estate, Victoria Road, London W3 6UU, UK n +44 (0) Rome, IT n Via Pieve Torina, 48, Rome, Italy n +39 (06) Holzkirchen, DE n Ohmstrasse 3, Holzkirchen, Germany n +49 (80 24) Hong Kong n Room 1801, 18/F, Tower 1 Phase 1, Enterprise Square, 9 Sheung Yuet Road, Kowloon Bay, Kowloon, Hong Kong n Web n etcconnect.com n Copyright 2017 ETC. All Rights Reserved. All product information and specifications subject to change. 7186L1008 Rev K 08/17 8 of 8

10 Complete Room Controller - F Series ERDRC-FC Overview Echoflex s lighting controllers use wireless technology to monitor the room s environment. The ERDRC controller can activate lighting loads with received input from a linked sensor or switch. As a lighting controller, it operates lights based on: ambient light levels monitored by an wireless photo sensor occupancy state monitored by a wireless occupancy sensor occupancy state from a connected wired occupancy sensor switch action from a wireless wall switch gateway control implementing scheduled events The controller will fade lights up or down using the dimming output for a switched event. The controller can also be configured to fade lights based on an occupancy sensor ON or OFF event. With auto detection on the low voltage dimming interface, the controller can adjust between switching only to dimming automatically. A photo-inhibit feature disables Auto-ON when the natural light level measured by the light sensor is above set point. When only occupancy sensors are linked to the controller, the sensor will automate the lights both ON and OFF. Alternately, in Vacancy Sensor mode the controller will assume manual-on, auto-off operation. The ERDRC-FC offers central command support to integrate with Building Management Systems gateways. The controller is Range Confirmation compatible, working with all Echoflex sensors equipped with the range confirmation feature to provide visual feedback of a linked sensors signal strength for optimal sensor placement. There are 3 ways to configure the controller which allows installers and facility operators to manage configuration settings without any tools, reducing call-backs and installation expense. Simple Tap uses the switches and sensors that are linked to the controller to set the associated configuration parameters. The ERDRC-F controllers have Echoflex s Smart Click Technology which allow configuration changes to be made with a linked wireless switch. Echoflex also offers Garibaldi software which allows configuration of the controllers from a PC. Features Lighting circuit control with dimming ballast control output (closed loop dimming option available) Integrated day-light harvesting control with Photo Inhibit mode Occupancy based lighting controls with auto- ON/ OFF or manual ON, auto-off using wireless or wired occupancy sensors Automatically detects dimming loads for easy adaption between switching and dimming functions Listens for battery-free wall switches, photo sensors and occupancy sensors Range Confirmation (patent pending) allows optimal placement of linked sensors - (Echoflex sensors with range confirmation feature only) Central Command support for BMS gateway control Easy installation on electrical junction boxes with 1/2 mounting nipple Easy commissioning options available such as embedded Smart Click and Simple Tap plus availability to work with Garibaldi, our remote commission package Doubles as a telegram repeater CEC - Title 24 Compliant Ordering Information Description 902 MHz Model Complete Room Controller - 120/277/347 VAC ERDRC-FCU 120/277/347 1

11 ERDRC-FC Wiring Diagram Dimensional Diagram (1.9 ) High Voltage Yellow 347V Brown 277V Black White 120V Low Voltage Neutral ERDRC Load Block Diagram A LEARN CLEAR mm (3.5 ) Radio Neutral Line Power Supply Processor Red Wired Occupancy Sensor Yellow Black Red Red Violet 0-10V+ Grey GND Dimming Ballast 24VDC (1.9 ) 0-10V Sensor Equipment Profiles - Remote Devices Supported EEP: F EEP: A EEP: A EEP: A Hardware Specifications Power Supply Power Consumption Power Output Input Outputs Communications Radio Frequency Antenna Transmission Range Mechanical Specifications Light and Blinds Control - US/Canada application Light Sensor [range lux (0-102 fc)] Occupancy Sensor Central Command - switching, dimming, set point 120/277/347 VAC, 60 Hz 5.0 W max. full load ma 24 VDC input LEARN and CLEAR buttons for sensor assignment N.O. Relay rating 20A@120 or 277 VAC, 15A@347VAC; Dimming Output mA maximum 902 MHz Whip 24 m (80 ft) - commercial office spaces(typical), up to 100m (330 ft) line of sight Operating Temperature -10 C to 45 C (14 F to 113 F) ambient Relative Humidity 5% to 95% RH (non-condensing) Weight 385 g (13.5 oz) Dimensions 91 x 48 x 49 mm (3.5 x 1.9 x 1.9 ) Mounting ½ nipple Listings CEC Title 24 Compliant Relay Safety ETL Recognized Component Conforms to UL Standard 508 Certified to CAN/CSA Std. C22.2 No.14 UL 2043 Plenum rated Radio Frequency (902 MHz) FCC Part Remote Control Transmitter IC RSS-210 Specifications are subject to change without notification. Smart Click and Simple Tap are trademarks of Echoflex Solutions, Inc. Range Confirmation Technology - Patent pending Document 8DC-0442 Revision 1.4 Echoflex Solutions, Inc. #1, Queens Way Squamish BC Canada V8B 0K8 Toll Free: Phone: (778) Fax: (604) info@echoflexsolutions.com 2

12 Decorator Style Switch PTM-265 Overview Our Decorator style switches use a mechanical energy harvester that is powered by the touch of a finger and is completely battery free. These switches can be used with any of Echoflex s lighting control solutions for On/Off and dimming control. They are available in either single or dual paddle in white, black, almond, ivory or brown. All colors match Leviton s correlating cover plate colors (purchased separately). Mount in standard wall boxes or on any surface that is convenient (smooth surfaces for double sided tape (not included) or drillable for screw mounting). Create multi-input switching strategies for 3, 4 or up to 20 way switching with wireless Decorator style switches. Accessories available to order include two and three gang flush mounting plates and Antimicrobial Silicone Sleeves. Equipment Profiles Single/Dual Rocker EEP: F Light and Blinds Control Mechanical Specifications Operating Temperature -25 C to 65 C (-13 F to 145 F) Relative Humidity Weight 5% to 92% RH (non-condensing) 85 g (3 oz) Dimensions 115 x 71 x 20 mm (4.5 x 2.8 x 0.8 ) Life Cycle 50,000 actuations Mounting Screws or double sided tape (not supplied) Ordering Information Technical Specifications Operating Mode On/Off, Dimming Power Generation Communications Radio Frequency Antenna Transmission Range Electrodynamic Energy Harvester 902 MHz (U), 868 MHz (Y) or 315 MHz (C) Integrated whip 24m (80 ft) - commercial office space ( typical ), up to 100 m (330 ft) line of sight Agency Listing & Compliance FCC Part Remote Control Transmitter IC RSS-210 Description 902 MHz Models 868 MHz Models 315 MHz Models Single Decorator Style Switch - White PTM265UW PTM265YW PTM265CW Dual Decorator Style Switch - White PTM265DUW PTM265DYW PTM265DCW Single Decorator Style Switch - Black PTM265UB PTM265YB PTM265CB Dual Decorator Style Switch - Black PTM265DUB PTM265DYB PTM265DCB Single Decorator Style Switch - Almond PTM265UA PTM265YA PTM265CA Dual Decorator Style Switch - Almond PTM265DUA PTM265DYA PTM265DCA Single Decorator Style Switch - Ivory PTM265UV PTM265YV PTM265CV Dual Decorator Style Switch - Ivory PTM265DUV PTM265DYV PTM265DCV Single Decorator Style Switch - Brown PTM265UR PTM265YR PTM265CR Dual Decorator Style Switch - Brown PTM265DUR PTM265DYR PTM265DCR Specifications are subject to change without notification. Smart Click and Simple Tap are trademarks of Echoflex Solutions, Inc. Document 8DC-0062 Revision 3.2 Echoflex Solutions, Inc. #1, Queens Way Squamish BC Canada V8B 0K8 Toll Free: Phone: (778) Fax: (604) info@echoflexsolutions.com

13 Resonate Vacancy / Occupancy Sensor RVS / RCS Overview The Echoflex RVS is a ceiling mount solar powered, passive infrared, wireless vacancy sensor. Optimized for spaces with ceiling heights of 8 to 10 feet, the RVS provides automatic OFF control, meeting today s strictest energy codes. The Resonate Vacancy Sensor combines a sleek, non-intrusive design with advanced power management circuitry to minimize solar harvesting requirements. The RVS will operate as a self-powered vacancy sensor in low light conditions. The RCS is identical to the RVS with the addition of a battery to provide power for support of autoon occupancy sensor applications. The Resonate Vacancy/Occupacy Sensors incorporate Echoflex s latest diagnostic and configuration features to ensure reliable communications and solar harvesting capability. The RVS/RCS supports range confirmation* technology whereby simple button press and hold sequences result in LED indication of signal strength. Solar energy harvesting level indication under existing light levels is also provided on demand through LED indication. An efficient power supply design takes advantage of every foot-candle so the sensor will operate as a vacancy sensor with just the energy from artificial lights. Echoflex has incorporated a diagnostic walk-test feature that verifies motion detection plus sensitivity adjustment to prevent false motion triggers. The sensor transmits occupancy or vacancy states detected via the on-board motion detector. In vacancy sensor applications with a manual switch, the RVS sensor automatically triggers lights-off after the room is vacant and an egress timer expires. For occupancy sensor applications with the battery installed, the RCS transmits immediately upon a new occupied event allowing for full lights-on and lights-off automation. The RVS/RCS Sensors are a key component in Echoflex s Smart Space solutions, delivering energy savings to classrooms, open office spaces and corridors. *Note: Range Confirmation requires an F series Echoflex controller ( F series is exclusive to 902 MHz at this time). Ordering Information Features Sleek low-profile design for architectural design acceptance Solar powered wireless vacancy sensor (RVS) or battery powered occupancy sensor (RCS) Innovative technology for radio range verification, plus energy harvesting evaluation ensures ideal placement of sensor (patent pending) Reliable radio reception range of 24 m (80 ft) - commercial office spaces (typical), up to 100m (330 ft) line of sight RVS operates with natural or artificial light sources RVS operates in low light conditions, 65 lux (6 fc) Sensitivity adjustment to prevent nuisance triggering Walk test mode ensures motion range coverage Ceiling mount with 360 angle of detection Removable cover for easy mounting Mounting- Integrated magnets for T-Bar Ceiling, Wire Strap. Provision for screw mount, double sided tape (not included) Quick start-up operation: RVS (no battery), 2 lux (6 f/c) RCS (with battery), instantaneous Description 902 MHz Models 868 MHz Models Resonate Vacancy Sensor sq. ft. RVS-A-UW RVS-A-YW Resonate Vacancy Sensor sq. ft. RVS-B-UW RVS-B-YW Resonate Occupancy Ceiling Sensor sq. ft. - with Battery RCS-A-UW RCS-A-YW Resonate Occupancy Ceiling Sensor 1800 sq. ft. - with Battery RCS-B-UW RCS-B-YW echoflex Powered by ETC 1

14 RVS/RCS mm Dimensioned Diagram mm LINK/TEACH TEST mm Block Diagram Solar Cell mm Power Supply Radio Processor PIR Sensor mm Battery (RCS) mm A Equipment Profile EEP A RVS - Vacancy Sensor Power Supply Operational Light Level Start-Up Period RCS Occupancy Sensor Power Supply Battery life expectancy Radio Frequency Antenna Transmission Range Telegram Transmission Telegram Heartbeat Inputs Detection Area A lens ft 2 at 8 ft ft 2 at 10 ft. B lens - 1,800 ft 2 at 8 ft. - 3,000 ft 2 at 10 ft. Operating Temperature Relative Humidity Weight -10 C to 50 C (14 F to 122 F) Agency Listing & Compliance CEC Title 24 Compliant 5% to 92% RH (non-condensing) 68 g (2.4 oz) Dimensions 98.0mm. x 25.5mm. (3.86 x 1.00 ) Mounting Motion Sensor: PIR on, PIR off. Supply voltage monitor Hardware Specifications Communications Integrated Solar Cells 65 lux (6 fc) < 2 65 lux CR1632 coin cell battery Shelf life as defined by the battery manufacturer or 5 years, whichever occurs first. 902 MHz(U), 868 MHz(Y) Integrated whip Mechanical Specifications 24 m (80 ft) - commercial office spaces (typical), up to 100m (330 ft) line of sight Vacancy -On heartbeat Occupancy - Immediately upon motion detection or heartbeat 100 seconds min seconds max. Teach Button, Test Button Integrated magnets, wire bracket, screws (not supplied), double sided tape (not supplied) 902 MHz model FCC Remote Control Transmitter IC RSS MHz model CE Marking Specifications are subject to change without notification. Smart Click and Simple Tap are trademarks of Echoflex Solutions, Inc. Range Confirmation Technology - Patent pending Document 8DC-0670 Revision 1.4 echoflex Powered by ETC Echoflex Solutions, Inc. #1, Queens Way Squamish BC Canada V8B 0K8 Toll Free: Phone: (778) Fax: (604) info@echoflexsolutions.com 2

15 Wireless Task Ambient Photo Sensor 21 Series TAP-21 Overview The TAP-21 (Task Ambient Photo) sensor is designed to provide a reliable and simple method to increase energy savings by adding daylight harvesting to your wireless lighting control system. Use the TAP-21 to control a single Echoflex lighting controller or groups of controllers for either switching or dimming zone control in relation to the natural light contribution in the space. Batteries are not required for everyday operation due to the advanced solar energy harvesting and power management features of the sensor. Upon installation, the sensor will operate with exposure to as little as 50 Lux (5 fc) for 5 minutes. The TAP-21 is capable of operating over 80 hours in darkness from maximum charge levels. The TAP-21 photo sensor incorporates our latest diagnostic and configuration features to ensure reliable communications and solar harvesting capability. The TAP-21 supports range confirmation technology whereby simple button press and hold sequences result in LED indication of signal strength. Solar energy harvesting level indication under existing light levels is also provided on demand through LED indication. Echoflex s Simple Tap configuration feature allows for setting operational parameters at the sensor by tapping the Teach button (see Functional Diagram) in a prescribed sequence. These built-in features assist the installer to position the sensor and be confident of its operation without using separate light meters, signal strength indicators and configuration devices. Note: Range Confirmation requires an F Series Echoflex controller ( F series is exclusive to 902 MHz at this time). Features Solar powered wireless photo sensor for Daylight Harvesting applications Works in conjunction with Echoflex Lighting Controllers Integrated Range Confirmation via tricolored LED indication (patent pending) Integrated Solar Harvesting Light Level LED indication Reliable radio reception range of 24 m (80 ft) - commercial office spaces (typical), up to 100m (330 ft) line of sight Simple Tap configuration of Light-On / Off or dimming settings Up to 80 hours operation in complete darkness Initial operation at low light level and minimal charging time Switch selectable ranges lux (0 50 fc) and lux (0 100fc) Batteries not required, but start assist battery option available CEC- Title 24 compliant Ordering Information Description 902 MHz Model 868 MHz Model Dual Range Task Ambient Photo Sensor TAP-21U TAP-21Y echoflex Powered by ETC 1

16 TAP - 21 Dimensional Diagram 24 mm (0.9 ) 100mm (3.9 ) Functional Diagram Block Diagram TEACH / TEST Solar Cell Energy Storage Power Supply Processor Radio Battery (Optional) Solar cells under translucent lens Teach / Test Button A Equipment Profile EEP A : Light sensor Hardware Specifications Power Supply Operational Light Level Minimum charge time to begin operation Maintain charge time Maximum charge time Operating life at full charge Battery - start assist Input Outputs Communications Radio Frequency Antenna Transmission Range Integrated solar cell 40 lux (4 fc) minimum 5 minutes in 50 lux (5 fc) 3 hours per lux (48 fc) lux (96 fc) 80 0 lux CR2032 (optional - not included) Teach button for assignment to receiver Test mode LEDs - red, green and amber 902 MHz(U) or 868 MHz(Y) Integrated whip Telegram Heartbeat Light Level Timer Mechanical Specifications Operating Temperature Relative Humidity Weight Dimensions Mounting 24 m (80 ft) - commercial office spaces (typical), up to 100m (330 ft) line of sight < 50 lux (5 fc) 100 seconds > 50 lux (5 fc) linear ramp from 60 to 10 seconds (as unit approaches full charge) -25 C to 65 C (-13 F to 149 F) 5% to 92% RH (non-condensing) 77 g (2.7 oz) Agency Listing & Compliance CEC - Title 24 compliant 902 MHz models FCC Part Remote Control Transmitter IC RSS MHz models CE Marking DB_1: 0 lux lux (0-102 fc) DB_2: 0 lux lux (0-51 fc) DB_3: supply voltage 0 5.1V, linear n= x 24 mm (3.9 x 0.9 ) diameter screws or double sided tape (not supplied) Specifications are subject to change without notification. Smart Click and Simple Tap are trademarks of Echoflex Solutions, Inc. Range Confirmation Technology - Patent pending Document 8DC-0466 Revision 1.4 echoflex Powered by ETC Echoflex Solutions, Inc. #1, Queens Way Squamish BC Canada V8B 0K8 Toll Free: Phone: (778) Fax: (604) info@echoflexsolutions.com 2

17 ETC Unison Echo EchoAccess Interface Echo Interface Series ORDERING INFORMATION Product MODEL EACC-_ DESCRIPTION EchoAccess Interface Enter station color code in space provided: 1 = Cream (RAL 9001), 4 = Black (RAL 9004), 5 = Signal White (RAL 9003) Stations flush-mount (F) in industry-standard gang boxes. (By others) EchoAccess Mobile App MODEL DESCRIPTION EACC-A EchoAccess Mobile App (Android) EACC-I EchoAccess Mobile App (ios) GENERAL INFORMATION EchoAccess provides remote control and configuration of ETC Unison Echo lighting-control systems from any ios or Android mobile device. When connected you are able to set lighting levels, combine spaces, and control zones directly, as well as record, activate and deactivate presets for connected Echo stations and sensors. EchoAccess communicates to other Echo devices allowing for remote configuration of various settings such and preset timing, button functionality and sensor configuration. For added security you can assign varying levels of system access and functionality with multiple system passwords. APPLICATIONS Education Hospitality Healthcare facilities Office buildings Conference rooms Meeting rooms Retail FEATURES Provides communication from the EchoAccess mobile app to devices on the EchoConnect system bus via Bluetooth Smart Mobile app available for Android and ios Preset, zone and color control for Echo products Advanced feature configuration of Echo products EchoConnect: two-wire topology-free system gives you the freedom to easily place stations wherever they are needed GENERAL UL and cul Listed CE Marked Related EchoConnect Power Supplies MODEL DESCRIPTION E-SPM-A DRd Station Power Module with 24V Aux E-SPM-WM-A Wall-Mount Station Power Module with 24V Aux E-SPM-RM-A Rack-Mount Station Power Module with 24V Aux E-SPS Echo Station Power Supply, Knockout Mount E-APS 24V Aux Power Supply, Knockout Mount Compatible Stations and Sensors MODEL DESCRIPTION ELS Light Sensor EOCC Occupancy/Vacancy Sensor E100X Inspire Button Stations E1104 Inspire Fader Station EPS05/ EPS10 Preset Stations Compatible Output Products MODEL DESCRIPTION ERC/EDRC One/Two Zone Relay Controllers ELD/EDLD One/Two Zone 0-10V Dimming Controllers ESSC/EDSSC One/Two Zone SmartSpace Controllers ELVD 600-Watt Phase-Adaptive Dimmer ERMCX Echo Room Controllers ERP Echo Relay Panel ERP-FT Echo Relay Panel Feedthrough DRd Unison DRd with Echo Control SR3 Sensor3 Power Control System EDMXC Echo DMX Scene Controller 1 of 3

18 ETC Unison Echo EchoAccess Interface Echo Interface Series SPECIFICATIONS FUNCTIONAL Remote control of preset activation/deactivation, record, raise, lower, zone on/off control and room combine Configuration of Echo Zone Controllers, Room Controllers, Responsive Controls, Inspire and Preset Stations Configurable security levels for both connection and configuration MECHANICAL Gangable for custom applications Enclosed electronics assembly and faceplate included No visible means of attachment Flush-mount in industry standard backbox, RACO 690 or equivalent Surface-mount backboxes available from manufacture upon request Constructed of injection-molded, ABS plastic in three RAL standard colors Cream (RAL 9001), Black (RAL 9004), and White (RAL 9003) Power and Bluetooth activity indicators -- Blue power status indicatior -- Amber Bluetooth activity indicator ELECTRICAL Connects via EchoConnect control network through low-voltage Class 2 wiring + 24Vdc auxiliary power -- Topology-free wiring over Belden 8471 or equivalent and one #14 ESD drain wire -- Two #16 AWG wires for 24VDC auxiliary power Supports optional use of Belden 1583A or equivalent Ethernet control wire when used with Cat5 termination accessories Wiring may be bus, loop, homerun or any combination of these Supports up to 500 meters (1640 feet) of control wiring -- Up to 1000 feet using Cat5 MicroSD card slot for firmware maintenance UL and cul Listed, CE Marked THERMAL Ambient room temperature: 0-40 C / F Ambient humidity: 5-95% non-condensing 2 of 3

19 ETC Unison Echo EchoAccess Interface Echo Interface Series PHYSICAL Product Dimensions MODEL HEIGHT WIDTH DEPTH inches mm inches mm inches mm EACC Corporate Headquarters 3031 Pleasant View Rd, PO Box , Middleton WI USA Tel Fax London, UK Unit 26-28, Victoria Industrial Estate, Victoria Road, London W3 6UU, UK Tel +44 (0) Fax +44 (0) Rome, IT Via Ennio Quirino Visconti, 11, Rome, Italy Tel +39 (06) Fax +44 (0) Holzkirchen, DE Ohmstrasse 3, Holzkirchen, Germany Tel +49 (80 24) Fax +49 (80 24) Hong Kong Room 1801, 18/F, Tower 1 Phase 1, Enterprise Square, 9 Sheung Yuet Road, Kowloon Bay, Kowloon, Hong Kong Tel Fax Web Copyright 2016 ETC. All Rights Reserved. All product information and specifications subject to change. 7186L1015 Rev. A Printed in USA 02/16 3 of 3

20 ETC Unison Echo Inspire Control Stations Echo Control Series ORDERING INFORMATION Product MODEL E1001-_ E1002-_ E1004-_ E1006-_ E1008-_ E1104-_ DESCRIPTION Inspire 1-Button Control Station Inspire 2-Button Control Station Inspire 4-Button Control Station Inspire 6-Button Control Station Inspire 8-Button Control Station Inspire 4-Button with Fader Control Station Enter station color code in space provided: 1 = Cream (RAL 9001), 4 = Black (RAL 9004), 5 = Signal White (RAL 9003) Stations flush-mount (F) in industry-standard gang boxes. (By others) GENERAL INFORMATION The control you need right at your fingertips. These EchoConnect - powered stations are designed to initiate preset, zone, and space controls for your entire system. They communicate efficiently with dimmers, relays and power control panels to provide necessary control for any installation. You can choose your level of control with a variety of button and fader stations created with your solutions in mind. APPLICATIONS Education Hospitality Healthcare facilities Office buildings Conference rooms Meeting rooms Retail FEATURES EchoConnect: two-wire topology-free system gives you the freedom to easily place stations wherever they are needed Fastener-Free Faceplate System: no visible means of attachment Decorator style face places available in one-, two-, three- and four-gang options Color condition: rear-illuminated buttons that indicate system status using blue for active and amber or off for inactive Simple user-legend system supports use of a variety of standard nomenclature, or user-supplied inserts GENERAL UL and cul LISTED CE marked Related EchoConnect Power Supplies MODEL DESCRIPTION E-SPM(-A) DRd Station Power Module (24V Aux) E-SPM-WM(-A) Wall-Mount Station Power Module (24V Aux) E-SPM-RM(-A) Rack-Mount Station Power Module (24V Aux) E-SPS Room Station Power Supply E-APS 24V Aux Power Supply, Knockout Mount Compatible Stations, Sensors and Interfaces MODEL DESCRIPTION ELS/ EOCC Echo Responsive Controls EOCC Occupancy/ Vacancy Sensor EPS05/ EPS10 Preset Stations EACC EchoAccess Interface EDMXC Echo DMX Scene Controller E-ATC Echo TimeClock EEB Echo Expansion Bridge Compatible Output Products MODEL DESCRIPTION ERC/EDRC One/Two Zone Relay Controllers ELD/EDLD One/Two Zone 0-10V Dimming Controllers ESSC/EDSSC One/Two Zone SmartSpace Controllers ELVD 600-Watt Phase Adaptive Dimmer ERMCX Echo Room Controllers ERP/ERP-FT Echo Relay Panel/Echo Relay Panel Feedthrough DRd Unison DRd with Echo Control SR3 Sensor3 Power Control System 1 of 5

21 ETC Unison Echo Inspire Control Stations Echo Control Series SPECIFICATIONS FUNCTIONAL Button and fader functions include: preset activation/ deactivation, record, raise, lower, zone on/off control and room combine Blue button illumination for active status Amber or no button illumination for inactive status Fader halo-illumination displays actual output level Zone or preset control from any station with real-time user toggle MECHANICAL Standard configurations with 1, 2, 4, 6 and 8 buttons or 4 buttons and rotary fader Gangable for custom applications Enclosed electronics assembly and faceplate included Cantilevered switch arrays with removable button caps No visible means of attachment Flush-mount in industry standard backbox, RACO 690 or equivalent Surface-mount backboxes available from ETC upon request Constructed of injection-molded, ABS plastic in three RAL standard colors Cream (RAL 9001), Black (RAL 9004), and White (RAL 9003) User configurable legends on each button, or use standard legends that come with each station. Field configurable without the use of tools Integral LED response indicator for each button with indication of active(blue) and inactive(amber or off) state ELECTRICAL Connect via the EchoConnect control network via low-voltage Class 2 wiring Topology-free wiring over Belden 8471 or equivalent and one #14 ESD drain wire Supports optional use of Belden 1583A or equivalent Ethernet control wire when used with Cat5 termination accessories Wiring may be bus, loop, homerun or any combination of these Supports up to 500 meters (1640 feet) of control wiring -- Up to 1000 using CAT5 All station terminations utilize removable connectors UL and cul LISTED, CE marked THERMAL Ambient room temperature: 0-50 C / F Ambient humidity: 5-95% non-condensing 2 of 5

22 ETC Unison Echo Inspire Control Stations Echo Control Series SMALL SYSTEM MEDIUM SYSTEM CONFERENCE ROOM 3 of 5

23 ETC Unison Echo Inspire Control Stations Echo Control Series MEDIUM BALLROOM 4 of 5

24 ETC Unison Echo Inspire Control Stations Echo Control Series PHYSICAL Product Dimensions MODEL HEIGHT WIDTH DEPTH inches mm inches mm inches mm E100X E mm mm mm mm mm mm Corporate Headquarters 3031 Pleasant View Rd, PO Box , Middleton WI USA Tel Fax London, UK Unit 26-28, Victoria Industrial Estate, Victoria Road, London W3 6UU, UK Tel +44 (0) Fax +44 (0) Rome, IT Via Ennio Quirino Visconti, 11, Rome, Italy Tel +39 (06) Fax +44 (0) Holzkirchen, DE Ohmstrasse 3, Holzkirchen, Germany Tel +49 (80 24) Fax +49 (80 24) Hong Kong Room 1801, 18/F, Tower 1 Phase 1, Enterprise Square, 9 Sheung Yuet Road, Kowloon Bay, Kowloon, Hong Kong Tel Fax Web Copyright 2016 ETC. All Rights Reserved. All product information and specifications subject to change. 7186L1009 Rev. G Printed in USA 09/16 5 of 5

25 ETC Unison Echo-Echoflex Interface Echo Interface Series ORDERING INFORMATION Product MODEL EEI Accessories MODEL EEI-EA ECHO-DIN DESCRIPTION Echo-Echoflex Interface DESCRIPTION External Antenna Kit Echo Low-Voltage DIN-Rail Cover Kit GENERAL INFORMATION The Unison Echo-Echoflex Interface allows for wireless communication between Unison Echo and Echoflex control systems. When it s not practical to run wires between every device in your building s control system, the Echo-Echoflex Interface is the solution. Using the built-in 902 MHz radio the Echo-Echoflex Interface can transmit or receive wireless signals to communicate with any Echoflex control device within 80 feet (24 meters). And since the Echo-Echoflex Interface is a DIN-rail-mount device, you can install it nearly anywhere. APPLICATIONS Retrofits Hospitality Healthcare facilities Conference and meeting rooms Retail Houses of worship FEATURES Four Echoflex product inputs to trigger Echo Presets Four Echo zone outputs to control Echoflex power products Onboard configuration and testing tools Input and output status indicators EchoConnect : two-wire topology-free system gives you the freedom to easily place devices wherever they are needed Optional external antenna kit available GENERAL UL and cul LISTED CE Marked Related EchoConnect Power Supplies MODEL DESCRIPTION E-SPM(-A) DRd Station Power Module (24V Aux) E-SPM-WM(-A) Wall-Mount Station Power Module (24V Aux) E-SPM-RM(-A) Rack-Mount Station Power Module (24V Aux) E-SPS Room Station Power Supply E-APS 24V Aux Power Supply, Knockout Mount Compatible Stations, Sensors and Interfaces MODEL DESCRIPTION E100X Inspire Button Stations E1104 Inspire Fader Stations EPS05/ EPS10 Preset Stations ELS Light Sensor EOCC Occupancy/ Vacancy Sensor EACC EchoAccess Interface EDMXC Echo DMX Scene Controller E-ATC Echo TimeClock EEB Echo Expansion Bridge Compatible Output Products MODEL DESCRIPTION ERC/EDRC One/Two Zone Relay Controllers ELD/EDLD One/Two Zone 0-10V Dimming Controllers ESSC/EDSSC One/Two Zone SmartSpace Controllers ELVD 600-Watt Phase Adaptive Dimmer ERMCX Echo Room Controllers ERP/ERP-FT Echo Relay Panel/Echo Relay Panel Feedthrough DRd Unison DRd with Echo Control SR3 Sensor3 Power Control System 1 of 3

26 ETC Unison Echo-Echoflex Interface Echo Interface Series SPECIFICATIONS FUNCTIONAL Receives wireless trigger from Echoflex system and translates it into an Echo preset trigger Receives zone level from Echo system and translates it into a wireless Echoflex command Compatible with Echo stations, senors, interfaces and power controllers Compatible with Echoflex station, sensors and a power controllers MECHANICAL Buttons and LED indicators for wireless inputs and wired output configuration and status Din-rail mounting complies with DIN43880 (35/7.5 rail) Constructed of injection-molded black ABS plastic Connection for external antenna (provided separately) ELECTRICAL Connects via two-wire EchoConnect control network through low-voltage Class 2 wiring + 24VDC auxiliary power -- Topology-free wiring over Belden 8471 or equivalent and one #14 ESD drain wire -- Two #16 AWG wires for 24VDC auxiliary power Wiring may be bus, loop, homerun or any combination of these Supports optional use of Belden 1583A or equivalent Ethernet control wire when used with Cat5 termination accessories Supports up to 500 meters (1,640 feet) of control wiring -- Up to 300 meters (1,000 feet) using Cat5 MicroSD card slot for firmware maintenance 902 MHz wireless radio 80-foot (24-meter) open-air transmission range UL and cul Listed, CE Marked UL2043 LISTED for use in plenum THERMAL Ambient room temperature: 0-50 C / F Ambient humidity: 5-95% non-condensing 2 of 3

27 ETC Unison Echo-Echoflex Interface Echo Interface Series PHYSICAL Product Information MODEL HEIGHT WIDTH DEPTH WEIGHT inches mm inches mm inches mm lbs kgs EEI Corporate Headquarters 3031 Pleasant View Rd, PO Box , Middleton WI USA Tel Fax London, UK Unit 26-28, Victoria Industrial Estate, Victoria Road, London W3 6UU, UK Tel +44 (0) Fax +44 (0) Rome, IT Via Ennio Quirino Visconti, 11, Rome, Italy Tel +39 (06) Fax +44 (0) Holzkirchen, DE Ohmstrasse 3, Holzkirchen, Germany Tel +49 (80 24) Fax +49 (80 24) Hong Kong Room 1801, 18/F, Tower 1 Phase 1, Enterprise Square, 9 Sheung Yuet Road, Kowloon Bay, Kowloon, Hong Kong Tel Fax Web Copyright 2016 ETC. All Rights Reserved. All product information and specifications subject to change. 7186L1018 Rev. A Printed in USA 05/16 3 of 3

28 ERDRC-FD Dimming Controller F series This guide covers the F series of the Dimming Controller, model numbers ERDRC-FDU-120/277 for input voltages of 120 or 277VAC and ERDRC- FDU-120/347 for input voltages of 120 or 347VAC. Both models are equipped with a 902 MHz radio. The box contents includes the controller with lock nut and installation guide. Product Overview The ERDRC-FDU controller is intended for indoor use only. The Dimming Controller uses wireless technology to monitor any room s environment, eliminating much of the wiring normally required for distributed lighting control. This translates into quick installations with less disruption to occupants, allowing facilities to accelerate retrofit schedules and start saving money sooner. The controller has patented Smart Click and Simple Tap technology which allows installers and facility operators to manage configuration settings without any tools, reducing call-backs and installation expense.

29 Controller Operation The controller can activate lighting loads with received input from a linked sensor or switch. As a lighting controller, it operates lights based on: ambient light levels monitored by an wireless photo sensor occupancy state monitored by a wireless occupancy sensor switch action from a wireless wall switch gateway control implementing scheduled or other events The controller will fade lights up or down using the dimming output for a switched ON or OFF event. The controller can also be configured to fade lights based on an occupancy sensor ON or OFF event. The controller automatically detects when the dimming lines are connected to a current sourcing load. When the purple and gray dimming interface wires are un-connected, the dimming interface is disabled and fade timers are removed so the relay s action is immediate upon the ON/OFF event. The controller does support current sinking loads configurable using Garibaldi commissioning software. To determine if the load is current sinking or sourcing, refer to the fixture documentation under the ballast or driver specifications. Changing the fade rates is possible using the Garibaldi configuration software. Controller and Wall Switches The controller works with the wireless single and dual rocker, wave and hand held switches. A switch ON action activates the relay closed (lights on) and the dimming output will increase to the last dim level. A quick double-press ON will fade up to maximum light output and accelerate the fade period to ½ second. A press OFF action will fade the lights down and then open the relay (lights off). A quick double-press OFF will accelerate the fade period to ½ second. Echoflex switches can also be used as dimmer switches press and hold the on or off side to modulate the dimming output up or down. Controller and Timed Switches The controller can be configured so the single and dual rocker switches become timed switches. An ON action closes the relay (lights on) and a timer is set to count down. Once the timer expires, the relay opens (lights off). The time period is configurable and has 5 settings: no timer (default), 5 minutes, 15 minutes, 30 minutes and 1 hour. Additionally, if the user presses the wall switch ON multiple times ( to a total of 5 presses), the timer interval is added for each ON press. If ON is pressed while the light s are on and the timer is counting down, an additional period of time is added to the timer total. Example: if the timer setting is 1 hour and the user pressed the switch ON twice, the total timer period is 2 hours. If there is 30 minutes left on the timer and ON is pressed again, the timer is extended to 1 hour 30 minutes before the light s will turn off. 2

30 The controller will toggle the relay (flick-warn) 1 minute before the timer is due to expire to warn users of the pending OFF event. To configure, the time period, refer to the section on Configuring the Controller. Occupancy Based Lighting Applications The controller will turn the lights OFF when there is no motion detected in the room indicated by a linked motion sensor. If the application requires the lights to remain ON during vacant periods but at a dimmed level (i.e. warehouse or stairwell applications), a configuration property accessible using Garibaldi software can enable this feature. Occupancy sensors only: When only occupancy sensors are linked to the controller, the sensor will automate the lights both ON and OFF. Occupancy sensors with switches: When switches and sensors are linked, the controller will assume manual-on, auto-off operation referred to as Vacancy Sensor Mode. The controller can also be configured to turn the lights ON immediately (Auto- ON) with motion, see the section titled Configuring the Controller. Photo Inhibit: This feature requires a linked photo sensor. When photo-inhibit is enabled, the Auto-ON feature will be ignored when the natural light level measured by the light sensor is above the day-lighting set point. The photo inhibit feature will not turn lights OFF if the lights are ON. Photo Inhibit Examples: Light level is < day-lighting set point The lights do turn ON automatically when you enter the room. Light level is > day-lighting set point The lights do not turn ON automatically when you enter the room. Lights are ON and the light level increases past day-lighting set point The lights stay ON. Lights are OFF and the light level decreases past day-lighting set point The lights will turn ON upon the next motion detected by the occupancy sensor. Daylight Harvesting Applications The controller will modulate the light intensity from a dimming fixture based on the ambient light level in the room. A wireless photo sensor monitors light levels and must be linked to the controller to provide the light level in the room. The daylight control application has several variables: Maximum dimming level - the highest level the dimming output will reach. Minimum dimming level - the lowest level the dimming output will reach. Lighting set point - the daylight control set point serves two purposes, closed loop control and open loop control. 3

31 Closed Loop Control - When the controller is configured for daylight harvesting and set to closed loop control, the set point becomes the absolute value in percent of light the controller will try to attain. Closed Loop Daylight Control example: A project specification item details that a certain value of light must be measured on a desktop. The dimming light fixture providing light to the desktop is controlled. The light sensor is located over the desk facing downwards. Place a hand-held light sensor on the desktop and using a linked switch, dim the lights up or down until the sensor matches the specification value. Use Simple Tap to capture the light level as the daylight control set point. NOTE: This process is best performed when there is no natural light; either close the blinds or complete this step at night. Open Loop Control - When the controller is configured for daylight harvesting and set to open loop control, the set point is where the dimming output begins to dim the fixture as the natural light increases. NOTE: The TAP light sensor is designed to be mounted indoors to monitor reflected (not direct) natural light levels. Open Loop Daylight Control example: A project requirement item details that the open area office lights shall dim down when sufficient natural light is present. Mount the wireless light sensor so it is facing downwards and monitoring reflected natural light. The Echoflex light sensor has two ranges; lux (0-50 foot-candles) and lux (0-100 foot-candles). The lighting set point default value is 60% of the sensors Full Scale Range (FSR). If the range is set to 50FC (500 lux), the controller will begin dimming down when the sensor records 30FC (300 lux) and will reach the minimum dimming level at 100% or 50FC (500 lux). Setting the set point is covered later in this document under Configuring the Controller. The daylight harvesting application will override the Auto-ON feature of occupancy sensors if the light level is sufficient and calls for the lights to be off. The daylight harvesting application can be overridden by a manual wall switch when the light is off by clicking on. If the light level remains above the Light-OFF- Set point, the controller will turn the light off again after 250 seconds. 4

32 The daylight harvesting application does not affect the operation of the wall switch or motion sensor when the light is on. If the light is on, either the switch or motion sensor can override the light off. See the section on Occupancy Based Lighting Application - Photo-inhibit for alternative functionality. Radio Range Confirmation The F series controllers includes patent pending technology that works with all Echoflex sensors equipped with the range confirmation feature to provide visual feedback of a linked sensors signal strength for optimal sensor placement. To evaluate the radio signal strength, the sensor must be also support the test and be linked to the controller. Check the sensors documentation to find out if it supports radio range confirmation testing. Do not have any repeaters in the controllers vicinity enabled during the test. The range confirmation test is invoked at the sensor and sends unique telegrams to the controller. The controller will evaluate the signal strength from the sensor and send back a unique telegram containing the strongest signal value received. This value is displayed at the sensor using color LEDs. Consult the sensor installation guide for more details. Important Safety Instructions WARNING: ELECTRICAL SHOCK HAZARD - THE CONTROLLER USES HIGH VOLTAGE AND SHOULD ONLY BE INSTALLED BY A QUALIFIED INSTALLER OR ELECTRICIAN. FOLLOW ALL APPLICABLE ELECTRICAL CODES IN THE COUNTRY OF INSTALLATION. INDOOR USE ONLY. Preparing to Install the Controller The controller is mounted to an electrical junction box or panel with a ½ threaded nipple. The controller must be mounted on the outside of a junction box either directly at the electrical load or before the load in the circuit. The controller is for indoor use only. You will require hand tools to gain access to the junction box and remove any cover plates or other hardware. NOTE: If the circuit will have an additional hard wired switch, wire the controller in series before the switch. Installing the Controller Review these instructions completely before installing the controller. 1. Locate the circuit breaker panel and turn off the power to the circuit. 2. Remove all face plates and other hardware from the junction box so you can access the high voltage wires. 3. The controller is mounted to the exterior of the junction box or panel with the ½ threaded nipple. 4. Refer to the wiring diagram to connect the controller to the line power, neutral and load wires. Use wire nuts on all connections and cap any bare wires. 5

33 5. Replace the junction box faceplate. 6. Restore power to the circuit. 7. Refer to the section in this guide titled LEARN Button to assign a switch to the controller. Alternatively, refer to the Smart Click instructions for assigning switches remotely. Controller Wiring Diagram Line Voltage choose either Black 120V line power or Commercial Voltage (Brown - 277V on model ERDRC-FDU-120/277) or (Yellow - 347V on model ERDRC-FDU-120/347) -Low voltage wiring is optional. White (Neutral) White (Neutral) 60 Hz 5Watts Max N White 120V Black 277V OR 347V Brown Yellow / 18AWG ERDRC-FDU Red (Line) 14AWG 600V Red (Load) 0-10 V Grey Load 1 Dimming Ballast Load 2 Dimming Ballast Red (Load) HOT Additional Switched Load(s) 0-10 V Violet Orange - antenna do not cut or remove 22AWG Additional Dimming Ballast(s) TIP: To link the first switch; triple click a wireless wall switch 3 times ON, followed by triple click OFF, then again triple click ON, all within 5 seconds. Use this switch to verify the controller relay is turning the lights on and off. Wiring Instructions Power to the controller is connected between the White (Neutral) and the Black (120V) Line power. Optionally, commercial voltages can be applied between the White (Neutral) and the models commercial voltage: Brown(277V) or Yellow(347V). The controller has an orange external antenna. Do not cut, cap or connect this wire. Use only approved wire. Cap off all unused wires except the antenna wire. The violet and gray lines can be used to provide 0-10V control of a dimming ballast 6 Connection Color Specification LOAD x 2 Red 14AWG, 600V Neutral White 18AWG Line 120VAC Black 18AWG Line 277VAC Brown 18AWG Line 347VAC Yellow 18AWG Dimming 0-10V Violet 22AWG Dimming GND Grey 22AWG Diagnostic LED s and buttons LEARN button The LEARN button is used to link switches or sensors to the controller.

34 1. Press the button marked LEARN for a half second. In link mode the LEARN LED will stay ON and the POWER LED will toggle every 2 second. 2. Using the switch that will be linked to the controller, press the wall switch ON three times. If linking a sensor, press the sensors TEACH or LINK button, refer to the sensor documentation. The POWER LED will remain lit for 4 seconds while it links the new device. It will resume toggling allowing you to link another device up to a total of 20 devices. NOTE: Linking a switch or sensor that is already linked to a controller, will remove or unlink it from the controller. 3. To exit link mode, press the LEARN button on the controller again for a half second. Link mode will also time out after no activity in 30 seconds. CLEAR button The CLEAR button erases all devices linked to the controller and resets the controller to factory default settings. 1. Press the CLEAR button (approximately 5 seconds) until the green LEARN LED blinks on. LED Blink Codes and Operation The table below describes the LED activity & associated mode of the controller. Description Learn LED Power LED Relay LINK mode ON Toggle 2 sec. Toggle Storing ID ON ON 4 sec. ON 4 seconds Clearing ID ON OFF 4 sec. OFF 4 seconds CLEAR mode ON 1 sec. N/A ON 1 sec. Normal Operating Mode - number of long blinks indicates the linked device type followed by short blinks counting the number of devices linked. Description Learn LED Power LED Factory Default OFF ON Solid with linked switch(es) OFF 1 long blink followed by short blinks counting switches repeatedly with linked occupancy sensor(s) OFF 2 long blinks followed by short blinks counting sensors repeatedly with linked photo sensor(s) OFF 3 long blinks followed by short blinks counting sensors repeatedly with central command OFF 4 long blinks followed by short blinks counting sensors repeatedly Configuring the Controller There are a few methods of configuring parameters in the controller. Simple Tap is a quick method of changing a parameters setting, one at a time. For accessing the complete set of configuration parameters, use the Smart Click process on the following pages. 7

35 There are three methods of configuring parameters in the controller. 1. Simple Tap 2. Smart Click 3. Garibaldi Commissioning Software (not covered in this guide) Simple Tap Instructions Simple Tap uses the switches and sensors that are linked to the controller to set the associated configuration parameters. You must be able to access the sensors teach button or the switches to perform the Simple Tap process. If the sensor is linked to multiple controllers and you do not want to make changes to all, turn the controllers relay off (lights off) to ignore the Simple Tap changes. Simple Tap allows you to: Enable or disable the motion sensor Auto-ON feature Set the motion sensor Auto-OFF timer Select Daylight Harvesting or Photo-Inhibit mode Set the Light ON/OFF dimming set points for closed loop or open loop Disable/Enable the Auto-ON feature 1. With the light on, tap the occupancy sensors teach button followed by three quick consecutive clicks of a linked wall switch ON. 2. To enable Auto-ON, click once more ON; to disable click OFF. The light will blink once to confirm the change. Set the Motion Sensor Auto-OFF timer 1. With the light on, tap the occupancy sensors teach button to reset the timer period. There are 6 possible settings and the number of taps on the button counts the number according to the time period, see the table below. Level 1 (time out 0 seconds - demo mode) is set by tapping 3 times, consecutive taps up to a maximum of 8 taps is Level 6 (time out 25 minutes). The relay/light will blink once on the third tap and then begin counting the level set after 3 seconds. 8 Taps Occ. Sensor Timer Light Blinks 3 taps* 0 sec. 1 blink 4 taps 5 min. 2 blinks 5 taps 10 min. 3 blinks 6 taps 15 min. 4 blinks 7 taps 20 min. 5 blinks 8 taps 25 min. 6 blinks * for demonstration purposes only Daylight Harvesting or Photo Inhibit Mode You can select daylight harvesting mode (default) or photo-inhibit mode. For more information on these operating modes, see the sections at the beginning

36 of this guide titled Occupancy Based Lighting Applications Photo Inhibit and Daylight Harvesting Application. A light sensor and wall switch must be linked to the controller before proceeding. 1. Press the photo sensors TEACH button once followed by clicking the switch ON three times within 5 seconds. 2. Either: click the switch once more ON to activate Photo-Inhibit operating mode. or click the switch once OFF to activate Daylight harvesting operating mode. The set point values are a percentage of the full range of the linked photo sensor. Set the Lighting Set Point The controller will turn the light on and off or will modulate the dimming output (if enabled) based on the measured light level from the light sensor. The lighting set point is used to adjust how the dimming and relay respond to the relative light levels. There are two methods of setting the set-point. 1. Closed Loop You can use the light sensor to function as a closed loop sensor. When set as a closed loop sensor, the controller will dim the lights until the light level recorded at the sensor meets the set point value. For more information on this operating mode, see the section at the beginning of this guide titled Daylight Harvesting Application. A light sensor must be linked to the controller before proceeding. NOTE: This process is best performed when there is no natural light; either close the blinds or complete this step at night. 1. With the light on, adjust the light level from the fixture using the switch until it matches the desired light level. 2. Tap the light sensor s teach button 3 times to set the daylight harvesting parameters to a closed loop function. The light will blink once to acknowledge the change. Open Loop The lighting set-point can be set to an absolute value useful in open-loop sensor applications. If the dimming output is enabled, the absolute value selected becomes the maximum dimming set-point. If the output is disabled, the absolute value selected becomes the Light ON Set point, see the table below. 1. With the light on, tap the light sensors teach button 4 times to set the set point to 20%. 2. Tap the button additional times incrementing the set point value by 20%. Five (5) taps would equal 40%, seven (7) taps would be 80%. 3. The light will blink once at three taps and then begin blinking according to the level set to confirm the change after 3 seconds. 9

37 10 Dimming Output Enabled Taps Max. Dim SP Min. Dim SP Blinks 4 taps 20% 100% 2 blinks 5 taps 40% 100% 3 blinks 6 taps 60% 100% 4 blinks 7 taps 80% 100% 5 blinks Dimming Output Disabled Taps Light ON Light OFF Blinks 4 taps 20% 40% 2 blinks 5 taps 40% 60% 3 blinks 6 taps 60% 80% 4 blinks 7 taps 80% 100% 5 blinks Using Smart Click to Configure the Controller Configuring the controller requires that at least one wireless wall or hand held switch is linked to the controller. The Smart Click menu includes these parameters: Level 1 Learn Mode Level 2 Clear Switch/Clear All Level 3 Repeater Function Level 4 Status Telegram Function Level 5 Time out Periods Level 6 Auto-ON with Motion Function Level 7 Dimming Output Function Level 8 Daylight Harvesting Set-point Level 9 Maximum Dimming Output Level 10 Minimum Dimming Output Linking the First Switch Using this method of linking a switch will only work if the controller does not have any other linked devices. Use the learn button or Smart Click to link additional switches. 1. Press the CLEAR button until the green LEARN led blinks ON, about 6 seconds. 2. With the controller cleared or in the factory default state, click the wireless switch ON three times, OFF three times and ON three times quickly within 5 seconds. The red POWER led will begin a blinking pattern [one long followed by one short], see the section on LED blink codes. Entering Smart Click Configuration Mode It is important to have feedback (attached light) from the controller during configuration. Perform the configuration changes when the controller has been

38 installed on a lighting circuit. The switch used to configure a controller using Smart Click should only be linked to the controller you re configuring. Add an additional switch if necessary. 1. Using a linked switch (see above), turn the light OFF. 2. Press the switch OFF, and hold until the light turns on, about 10 seconds. 3. Press ON until the light blinks, about 5 seconds. The light will repeatedly blink once every 5 seconds indicating it is at level 1 of Smart Click. NOTE: You can exit Smart Click at any time by pressing OFF for 5 seconds. Level 1 - Linking an additional switch or sensor 1. Enter Smart Click configuration mode and with the light blinking once, press ON for 3 seconds. The light will begin blinking ON/OFF faster, once every second. 2. Add additional wireless switches by clicking the new switch ON 3 times quickly. Add sensors by pressing the TEACH or LINK button on the sensor. 3. To exit Smart Click press OFF for 5 seconds. Level 2 - Clear switches or sensors (restore factory defaults) 1. Enter Smart Click configuration mode and click the switch ON once so the light is blinking twice. 2. Press ON for three seconds. 3. Click the switch ON 5 times to clear the switch, click ON 5 times again to clear ALL switches and sensors and reset the controller to factory defaults. 4. Press OFF for 5 seconds to complete clearing and exit Smart Click. Level 3 - Repeater Function - repeats any telegram within range. The repeater function can be enabled/disabled by accessing the controller buttons. 1. Press the Clear button and hold, then quickly press the Learn button; once to disable, twice to enable single hop and three times to enable dual hop repeating. The learn LED will blink the corresponding value of the LEARN button presses. 2. Release the Clear button. If there is no access to the controllers buttons, follow these Smart Click steps. 1. Enter Smart Click configuration mode and click the switch ON twice until the light is blinking three times. 2. Press ON for 3 seconds. If the repeater function is enabled the light will turn ON, if disabled the light will be OFF. 3. Click ON to activate the single hop repeating function, OFF to deactivate. There is no selection for enabling dual hop repeating with Smart Click. 4. Exit Smart Click by pressing OFF for 5 seconds. Level 4 - Status Telegram - the controller can broadcast a status telegram per EEP: A The telegram will broadcast every 100 seconds.. If the controller has a wired occupancy sensor connected to the low voltage input, this sensor 11

39 status can be shared with other controllers. The controller must be first linked with the receiving controllers. Enabling the status telegram activates the shared occupancy feature and also sends the learn command to the other controllers for linking. The status telegram can be enabled/disabled by accessing the controller buttons. 1. Press the Learn button and hold, press the Clear button once to disable, twice to enable (this sends the learn telegram). 2. Release the Learn button. The learn LED will blink once when disabling, twice when enabling this telegram. If there is no access to the controllers buttons, follow these Smart Click steps. 1. Enter Smart Click Configuration Mode and click the switch three times until the light is blinking four times. 2. Click ON for 3 seconds. If the status telegram function is enabled the light will turn ON, if disabled the light will be OFF. 3. Click ON to activate this function, OFF to deactivate. 4. Exit Smart Click by pressing OFF for 5 seconds. Level 5 - Timeouts - the controller can be configured to wait a period of time after an ON event from a wireless switch or occupancy sensor before turning the load OFF (auto off). 1. Enter Smart Click Configuration Mode and click the switch ON four times until the light is blinking five times. 2. Press ON for 3 seconds. The light will turn OFF and then ON per the table settings below. 3. Using the linked switch, click ON to increase the timeout or OFF to decrease the timeout, in 5 minute increments. 4. Exit Smart Click by pressing OFF for 5 seconds. Light Timed Switch Occ. Sensor Timer OFF no auto-off 0 sec. (demo) 1 Blink 5 min. 5 min. 2 Blinks 15 min. 10 min. 3 Blinks 30 min. 15 min. 4 Blinks 60 min. 20 min. 5 Blinks N/A 25 min. Level 6 - Auto ON Function - use with a motion sensor to turn lights ON automatically when motion is detected. If a motion sensor is used with no switch then Auto-ON is enabled automatically. If a switch is linked later, Auto- ON is disabled. 1. Enter Smart Click Configuration Mode and click the switch ON five times until the light is blinking six times. 2. Press ON for 3 seconds. If the auto-on function is enabled the light will turn 12

40 ON, if disabled the light will be OFF. 3. Click ON to activate this function, OFF to deactivate. 4. Exit Smart Click by pressing OFF for 5 seconds. Level 7 - Dimming Ballast Output -Enables or disables the dimming ballast output. 1. Enter Smart Click Configuration Mode and click the switch ON or OFF until the light is blinking seven times. 2. Press ON for 3 seconds. If the dimming output is enabled the light will turn ON, if disabled the light will be OFF 3. Click ON to activate this function, OFF to deactivate. 4. Exit Smart Click by pressing OFF for 5 seconds. Level 8 - Lighting Set point - The set point is a single value that can affect how the controller manages the light output depending on if the controller is setup for daylight harvesting or photo inhibit applications. When set for photo inhibit operation, the Auto-ON feature associated with a linked occupancy sensor will be ignored when the natural light level measured by the light sensor is above the lighting set point. The photo inhibit feature will not turn lights OFF if the lights are ON. Photo Inhibit Examples: Light level is < day-lighting set point The lights do turn ON automatically when you enter the room. Light level is > day-lighting set point The lights do not turn ON automatically when you enter the room. Lights are ON and the light level increases past day-lighting set point The lights stay ON. Lights are OFF and the light level decreases past day-lighting set point The lights will turn ON upon the next motion detected by the occupancy sensor. When set for daylight harvesting operation, the set-point is used with a photo sensor (light sensor) and will automatically turn lights on and off or modulate dimming fixtures depending on ambient light levels. You can use the light sensor to function as a closed loop sensor. When set as a closed loop sensor, the controller will dim the lights until the light level recorded at the sensor meets the set-point value. For more information on this operating mode, see the section at the beginning of this guide titled Daylight Harvesting Application. If the light from the fixture does not impact the light reading at the sensor then it is an open loop application. When the dimming output is enabled, the value selected becomes the maximum dimming set point. With the dimming output disabled, the value becomes the Light-ON-Set point. 13

41 Control Response with Dimming Output Enabled In the diagram below, the blue line indicates the dimming output. The output will begin lowering as the natural light level increases (green line). The point where the light output begins dimming down is the lighting set point (default 60% sensor FSR). The minimum dimming level is set to 100% sensor FSR. Blue Green Blue Green Control Response with Dimming Output Disabled In the diagram below, the blue line indicates the fixture light output. As the natural light increases (green line), the relay will open at a level 20% greater than the set point value (default 60% sensor FSR). As the natural light decreases, the relay will close once the light level decreases past the light set point. Blue Green Blue Green To adjust the light set-point: 1. Enter Smart Click Configuration Mode and click the switch ON seven times until the light is blinking eight times. 2. Press ON for 3 seconds. Default setting is 60% of the light sensors full scale range. There are 4 steps from 20% to 80%. The light will blink the step count. (see table below). Click on to increase the set-point, off to decrease the set-point. 14

42 Dimming Output Enabled Taps Max. Dim SP Min. Dim SP Blinks 4 taps 20% 100% 2 blinks 5 taps 40% 100% 3 blinks 6 taps 60% 100% 4 blinks 7 taps 80% 100% 5 blinks Dimming Output Disabled Taps Light ON Light OFF Blinks 4 taps 20% 40% 2 blinks 5 taps 40% 60% 3 blinks 6 taps 60% 80% 4 blinks 7 taps 80% 100% 5 blinks 3. Exit Smart Click by pressing OFF for 5 seconds. Level 9 - Maximum Dimming Output Level - sets the maximum level of the dimming output. 1. Enter Smart Click Configuration Mode and click the switch ON eight times until the light is blinking nine times. 2. Press ON for 3 seconds. Default setting is 100%. Adjust the maximum light level to the brightness level desired by clicking ON to increase and OFF to decrease in 2% increments. 3. Exit Smart Click by pressing OFF for 5 seconds. Level 10 - Minimum Dimming Output Level - sets the minimum level of the dimming output. 1. Enter Smart Click Configuration Mode and click the switch ON nine times until the light is blinking ten times. 2. Press ON for 3 seconds. Default setting is 9%. Adjust the min. light level to the brightness level desired by clicking ON to increase and OFF to decrease in 2% increments. 3. Exit Smart Click by pressing OFF for 5 seconds. This concludes the configuration directions for the controller. 15

43 Default Settings for Controller Repeater disabled Status disabled Dimming Output auto-detect for current sourcing loads Motion sensor Time-out 15 minutes Switch Time-out no time out Auto-ON enabled with no linked switch, disabled with linked wall switch Light-ON-Set point 60% of sensor FSR Light-OFF-Set point 100% of sensor FSR with dimming enabled 80% of sensor FSR will dimming disabled Maximum Dimming Level 100% Minimum Dimming Level 9% Grace Timer 30 seconds Status Feedback Telegram EEP:A DB_3 Illumination 0 510lx, linear n=0 255 DB_2 illumination Set Point Min. Max., linear n=0 255 DB_1: Dimming Output Level Min. Max., linear n=0 255 DB_0.BIT_7: Repeater 0b0 disabled, 0b1 enabled DB_0.BIT_6: Power Relay Timer 0b0 disabled 0b1 enabled DB_0.BIT_5: Daylight Harvesting 0b0 disabled 0b1 enabled DB_0.BIT_4: Dimming 0b0 switching load 0b1 dimming load DB_0.BIT_3: Learn button 0b0 Teach-in telegram 0b1 Data telegram DB_0.BIT_2: Magnet Contact 0b0 open 0b1 closed DB_0.BIT_1: Occupancy 0b0 unoccupied 0b1 occupied DB_0.BIT_0: Power Relay 0b0 off 0b1 on Listings CEC Title 24 compliant ETL Listed Component Conforms to UL Standard 508 Certified to CAN/CSA Std C22.2 No.14 UL 2043 Plenum rated Regulatory Statements FCC Part Contains FCC ID: SZV-TCM320U The enclosed device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (I.) this device may not cause harmful interference and (ii.) this device must accept any interference received, including interference that may cause undesired operation. IC RSS-210 Contains IC:5713A-TCM320U 16 Copyright 2016 Echoflex Solutions, Inc. Specifications subject to change without notice. Document #8DC-5377 Revision M Rev D Echoflex Solutions, Inc. #1, Queens Way Squamish BC Canada V8B 0K8 Toll Free: Phone: (778) Fax: (604) info@echoflexsolutions.com

44 MOS-IR/DT Wireless Ceiling Mount Sensor for Occupancy / Vacancy Detection INSTALLATION GUIDE This guide covers all models of MOS-IR and MOS-DT ceiling occupancy sensor. The MOS-IR product family includes: MOS-IR-xA Motion sensor with small motion short range lens (1000 sq. ft.) MOS-IR-xB Motion sensor with large motion large range lens (1900 sq. ft.) MOS-IR-xC Motion sensor with high bay lens (6300 sq. ft.) The MOS-DT product family includes: MOS-DT-xA Motion and audio sensor with small motion short range lens (1000 sq. ft.) MOS-DT-xB Motion and audio sensor with large motion large range lens (1900 sq. ft.) Where x is the frequency of the unit: U=902 MHz, Y=868 MHz and J=928 MHz. The package includes the occupancy sensor, lens mask sticker and installation guide. These Occupancy Sensors are intended for indoor use only in a dry location. NOTE: The MOS is a solar powered device that absorbs solar energy storing it for use during low light periods. Before assigning the MOS device to a receiver/controller, the device should be exposed to a good light source for a minimum of 5 minutes or install the start assist battery.

45 MOS Sensor Description The MOS sensor (also referred to as the sensor in this guide) is a wireless, energy harvesting, ceiling mount occupancy sensor. The MOS models include a single method PIR (passive infrared) sensor or a Dual Technology method of occupancy detection using a PIR sensor and audio interface (any reference to audio in this guide implies DT model only). The combination of PIR sensor and audio sensing adds additional assurance of positive occupant detection. Passive microphone technology provides full coverage of audible human activity across the entire PIR detection range. Innovative noise filtering is used to prevent false triggers that could keep lights on in empty rooms. Used for indoor applications, the detector is optimized for ceiling heights of 8-10 feet (2.4-3 meters) for the models with A and B lenses. Models with a C lens (PIR only) are optimized for high bay applications (40 feet or 12 meters). Sensor Operation The MOS sensor monitors occupancy in interior spaces. The sensor is powered by solar energy from natural or artificial light sources. The solar energy is transformed into electrical energy which is then stored providing a continuous power source for the sensor. Powered by six solar cells, the sensor can operate without battery up to 7 days for the DT models and 9 days for the IR. The sensor will operate even with a brief exposure to light, however for best results the sensor should be mounted in a location with exposure for 2 hours of natural or artificial light (minimum of 160 lux of 15 footcandles) on a daily basis. A battery (CR2032) must be installed in the MOS-IR-XC sensor for use in high bay applications. The motion sensor supports the Occupancy Sensor EnOcean profile A The sensor must be within range of any linked receivers or controllers, installed within 80 (24m) of each other. For applications exceeding 80 (24m) range, telegram repeaters may be needed to extend reception range. Operating Sequence (dual technology models) If the monitored space is vacant for a period of time, only the PIR interface will actively monitor for occupancy. The audio interface will be disabled. Once the PIR has detected motion, an occupancy telegram is sent immediately and the audio interface is enabled. Once the audio is enabled, two timers become active that control this interface. 1. The Audio Enabled Timer is reset with each PIR event and defines the maximum duration which the audio remains active. If the timer expires, the audio will be disabled, no other action will be performed at that time. Once this timer has expired, only PIR triggers can reset the timer to keep the light on. The default setting for the Audio Enabled Timer is 60 minutes and is not configurable. 2. The Sensor Occupancy Timer is reset upon each audio or PIR trigger at the next occurrence of a telegram. It defines the time in which an occupancy trigger (PIR or audio) must be detected to keep the audio active. The default value for this timer is 20 minutes and it is configurable to values of 5, 10, 15, 20, 25 minutes or disabled. If the sensor occupancy timer expires, the MOS will send out a vacancy signal and 40 seconds later the audio will be disabled. The 40 seconds is grace time 2

46 that allows an occupant to use sound to reset the sensor occupancy timer and keep the light on. The audio interface has a sound threshold that when exceeded, will maintain the sensors occupied state while the timers are active. The threshold is slightly higher than the background noise level. The background noise level is averaged over a 30 second window and filtered out. Any other sound louder than this background level will trigger the audio. For example: If a fan is running in the background while the space is occupied, only a sound slightly louder than the fan noise will trigger the audio. Either the PIR or audio can maintain the sensors occupied state with telegrams being sent at minimum every 100 seconds. A red LED under the PIR lens will blink when an occupied state telegram is sent. A linked Echoflex controller has an occupancy timer that is reset only when receiving occupied state telegrams so the lights will remain on so long as the sensor continues to sense occupancy. See the controller install guide for details on setting up this timer and occupancy or vacancy modes of control. Operating Sequence (PIR model only) The MOS-IR behaves similarly as the dual tech model; when vacant the PIR monitors for occupancy. Once motion is detected and the occupancy state is transmitted to the receivers, the minimum period to the next telegram is > 100 seconds. If no motion is detected in 200 seconds, a vacant telegram is sent. The sensor will transmit telegrams indicating vacancy every 1000 seconds. So long as linked controllers receive an occupied state telegram before their occupancy timer expires, the lights will remain on. Wireless System Layout Hints Reception range of 24 m (80 ft) - commercial office spaces (typical), up to 100m (330 ft) line of sight Avoid locating transmitters and receivers on the same wall. Avoid locating transmitters and receivers where the telegrams must penetrate walls at acute angles. This increases the material the telegram must pass through reducing the signal power. Avoid large metal obstructions as they create radio shadows. Place receivers in alternate locations to avoid the shadow or use repeaters to go around the obstacle. Do not locate receivers close to other high frequency transmitters. Leave at least 3 between the receiver and any other source of interference including, ballasts, LED drivers, computers, video equipment, Wi-Fi/LAN routers, GSM modems and monitors. Sensor Range The sensor is offered with different lens options. There is a lens with a high sensor ray density pattern (lens A) suitable for small motion detection, however this lens has shorter detection 3

47 0 SIDE VIEW: Short Range Lens (A) ft. Dual Tech models only (A & B lenses) - Reliable audio detection > 18 ft provides overlapping coverage of monitored spaces. The second lens (B) has a broader range but is less sensitive for small motion detection. Large Range Lens (B) ft. 0 8ft (2.4m) 10ft (3.0m) 12ft (3.7m) 6.1m (20ft) 4.6m (15ft) fresnel technologies inc. 3.0m (10ft) 1.5m (5ft) 0 1.5m 3.0m 4.6m 6.1m (5ft) (10ft) (15ft) (20ft) 8ft (2.4m) 10ft (3.0m) 12ft (3.7m) 12.2m (40ft) 9.1m (30ft) 6.1m (20ft) 3.0m (10ft) 0 3.0m 6.1m 9.1m 12.2m (10ft) (20ft) (30ft) (40ft) The third lens (C) is for high ceiling applications, for example: high bay warehouses (PIR models only). 0 High Bay Lens (C) ft. 6.1m (20 ft) ( ( 9.1m (30 ft) 12.2 m (40 ft) ( 12.2m (40ft) 9.1m (30ft) 6.1m (20ft) 3.0m (10ft) 0 3.0m (10ft) 6.1m (20ft) 9.1m (30ft) 12.2m (40ft) 12.2 m (40 ft) 9.1m (30 ft) 6.1m (20 ft) 3.0m (10 ft) 0 3.0m (10 ft) 6.1m (20 ft) 9.1m (30 ft) 12.2 m (40 ft) Mounting the Sensor The mounting location of the sensor is important as this will directly affect the receivers reception of the telegrams. Before installing, refer to the sections in the guide detailing the installation of wireless devices, layout tips and test operation modes. NOTE: The sensor cannot detect motion through solid objects including items placed by a tenant, such as file cabinets or shelves. NOTE: Do not locate the sensor near forced air vents as hot moving air may cause the sensor to false trigger. Leave at least 4 (1.2 m) minimum between air vents and the sensor. NOTE: Incandescent lights may cause false trips when turning on Select a location to the mount the sensor on the ceiling by identifying the movement patterns that will be the most common in the space. For smaller office spaces where hand motion on a desktop is common, locate

48 the sensor off to one end of the desk, in line with the desk edge or slightly behind so the PIR lens has direct line-of-sight to the keyboard desktop area. Insure that the PIR lens does not have direct line-of-sight out a doorway where walk-by traffic could trigger the sensor (or apply lens mask sticker - See Lens Masking). Larger offices where larger body motion is more common, placement of the sensor is less critical. 2. For the best sensor performance, mount the sensor so at least one of the solar cells is facing a light fixture. The sensor will operate in low light levels however for best performance, a minimum of 5 foot candles (54 lux) must be maintained. If the controlled lights in the space are dimmable either manually or via daylight harvesting, insure the light level at the lowest dimmed level meets this 5 FC requirement. If the light value does not meet this requirement, install a battery. 3. Remove the cover. Using a small screwdriver for leverage, insert under the clear plastic cover at one of the relief tabs in the base plate and pull up. You will need to repeat with at least two tabs until the cover pops free. 4. Choose a mounting method. The sensor can be mounted: With the screws and anchors (not provided) to a wall-board ceiling. Use a pencil to mark the mounting base key hole locations and remove the sensor. Using a drill, bore the two holes and insert the anchors. Install the screws, leaving them loose while you place the sensor. Tighten the screws. With double sided tape or Velcro, not provided. Cut two lengths of tape and remove the backing. Place on the mounting surface of the sensors back plate, pressing down. Remove the backing from the tapes other side and place the sensor on the ceiling surface, pressing firmly. 5. Replace the sensor cover aligning the button hole with the teach button and press in place. 6. Refer to the section titled Linking the Sensor to a Receiver. Lens Masking Lens mask stickers are provided in the packaging for your convenience. 1. As needed, peel off the lens masks to fit the desired area to be blocked. 2. Apply the mask gently to the section of the lens exterior to block the required area from occupancy sensing. Linking the Sensor to a Receiver This process requires the controller or receiver to be mounted and powered and within range of the sensor to be linked. 1. Activate LEARN or LINK mode at the receiver, if necessary refer to the manufacturers documentation. 2. Tap the sensors TEACH button once. 3. Deactivate LEARN mode at the receiver. NOTE: If the sensor is already linked to a controller, linking again will un-link the sensor. Installing or Replacing the Start Assist Battery The battery is not required for normal operation of the A and B lens models. The battery (model CR2032) may be useful for installation purposes (test mode operation and linking) or for applications where there are long periods of no light. 1. Using a small screwdriver for leverage, insert under the clear plastic cover at one of the relief tabs in the base plate and pull up. You will need to repeat with at least two tabs until the cover pops free. 5

49 2. Using a finger, remove the old battery by pulling the battery free from the holder. Do not use a screwdriver. 3. Insert the new battery with the + positive side facing up and press in place with your finger. 4. Replace the cover over the sensor aligning the button hole with the teach button and press in place. Test / Setting Modes The following tests and setting can be changed when in test mode: 6 Light Level Test Range Confirmation Test Walk Test Mode, Sensor setting Mode including PIR or Audio Sensitivity and Sensor Occupancy Timer Adjust Mode LED indication disable Light Level Test This test provides visual feedback of the immediate energy produced by the solar panels. 1. To enter Light Level Test mode, press and hold the teach button until the green LED begins to blink (about 6 seconds). 2. Press and hold the teach button again until the green LED stops blinking, about 6 seconds. The green LED will start blinking faster in accordance to the light level it is detecting, see table below. Light Level Test Indication Blinks Lux / Foot candles Time to Fully Charge Discharge Time 0 0 / 0 below operating level n/a / 2-4 operational n/a / hours 100 hours / hours 150 hours / hours 200 hours / hours 225 hours The time to fully charge is based on the storage capacitor charging from a nonoperational condition. Discharge time indicates how long a fully charged sensor will operate in the dark. The test will repeat every 2 seconds and run for a duration of 100 seconds. You may quit the test at any time by pressing the teach button for 6 seconds. Range Confirmation Test This test provides visual feedback of the sensors signal strength by a linked receiver with range confirmation capability. 1. To enter Range Confirmation Test mode, press and hold the teach button until the green LED begins to blink (about 6 seconds). 2. A quick press and release of the button at this point will allow you to select between test modes. Pressing and releasing the teach button scrolls through the LED indicators. When the amber LED is blinking, go to step Press and hold the teach button again for 6 seconds to select Range Confirmation Test. NOTE: Range Confirmation is only available with F series or later Echoflex Controllers NOTE: The MOS must be at full charge and/or have the battery installed for Range Confirmation Tests energy requirements. NOTE: Only one receiver can be linked to the sensor for proper operation of the test. NOTE: Disable repeaters in range for proper test operation. All three LED s will blink (for 1 second) in this test mode when the sensor transmits

50 or receives a Range Confirmation Telegram followed by the sensor displaying the linked signal strength status for 2.5 seconds, see table below. LED Signal Strength Green - Blinking 2.5 sec -41 to -70 dbm Amber - Blinking 2.5 sec -70 to -80 dbm Red - Blinking 2.5 sec -80 to -95 dbm No LED No linked receivers detected The test will repeat every 10 seconds and run for a duration of 3 minutes. You may quit the test at any time by pressing the teach button for 6 seconds. Walk Test Mode Walk test mode allows the installer to verify areas that are within range of the motion sensor. 1. To enter walk test mode, press and hold the teach button until the green LED begins to blink (about 6 seconds). 2. A quick press and release of the button at this point will allow you to select between test modes. Pressing and releasing the teach button scrolls through the LED indicators. When the red LED is blinking, go to step Press and hold the teach button again for 6 seconds to select walk test. The red LED will blink every time a motion sensor trigger is detected. The test times out in 100 seconds. If a faster exit from walk test mode is required, press and hold the teach button for 10 seconds. Sensor Setting Mode This mode allows adjustment of the PIR Sensitivity, Audio Sensitivity and Sensor Occupancy Timer duration. False occupancy states caused by external elements can be reduced by adjusting the sensitivity levels. NOTE: New settings do not take affect until you save and exit. 1. To enter sensor setting mode, press and hold the teach button until the green LED begins to blink (about 6 seconds). 2. A quick press of the button at this level will allow you to scroll between the test/ setting modes. When the red and amber LEDs are blinking, go to step Press and hold the button again until the LEDs stop blinking to select this mode, about 6 seconds. 4. A quick press of the button at this level scrolls between: Double Green - PIR Sensitivity Double Amber - Audio Gain (DT model only) Double Red - Occupancy Sensor Timer (DT model only) 5. Press and hold the teach button again for 5 seconds to select the desired sensor setting. The corresponding LED will blink according to the current setting. Press the button to scroll through the available settings. PIR Sensitivity - green LED blinks indicate setting 1 blink = high (default); 2 blinks = medium; 3 blinks = low Audio Sensitivity - amber LED blinks indicate setting (DT model only) 1 blink = automatic (default) 2 blinks = low sensitivity 3 blinks = disabled NOTE: If the Disabled setting is selected for Audio Gain, this disables the audio input however the Sensor Occupancy Timer will remain active. 7

51 Sensor Occupancy Timer - red LED blinks indicate setting (DT model only) 1 blink = disabled 2 blinks = 5 minutes 3 blinks = 10 minutes 4 blinks = 15 minutes 5 blinks = 20 minutes (default) 6 blinks = 25 minutes NOTE: If the Disabled setting is selected for the Sensor Occupancy Timer, the audio will remain active the entire 60 minute duration of the Audio Enabled Timer. Disabling both the Sensor Occupancy Timer and Audio Sensitivity setting will have the sensor behave exactly like the IR model. 6. To save the Sensor setting, press and hold the teach button until all the LEDs double blink. The unit will now be in normal operating mode with the new setting in effect. LED Indication Enable/Disable Note: the settings do not take effect until you save and exit. 1. Enter Test mode as usual, press and hold the teach button until the green LED begins to blink (about 6 seconds). 2. A quick press and release of the button at this point will allow you to select between test modes. When the green and red LEDs are both blinking simultaneously, go to step Press and hold the teach button again for about 6 seconds until they stop blinking. 4. The red LED blinking indicates the motion detection LED is active. The green LED blinking indicates the LEDs are inactive. Tapping the teach button will toggle between these two states. 5. Save and exit by press and holding the teach button for 5 seconds. Agency Listings and Compliance CEC Title 24 Compliant Built in an ISO9001 certified facility FCC Part (902 MHz models only) Contains FCC ID: TCM300U The enclosed device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (I.) this device may not cause harmful interference and (ii.) this device must accept any interference received, including interference that may cause undesired operation. IC RSS-210 (902 MHz models only) Contains IC: 5713A-STM300U CE Marking(868 MHz models only) ARIB STDT108 (928MHz models only) Complies with the Japanese radio law and is certified according to ARIB STDT108. This device should not be modified (otherwise the granted designation number will become invalid) R Copyright 2017 Echoflex Solutions, Inc. Specifications subject to change without notice. Document # 8DC-5707 Revision M Rev D Echoflex Solutions, Inc. #1, Queens Way Squamish BC Canada V8B 0K8 Toll Free: Phone: (778) Fax: (604) info@echoflexsolutions.com 8

52 echoflex Powered by ETC RVS/RCS Resonate Wireless Vacancy/Occupancy Sensor Installation Guide This guide covers Resonate Vacancy/Occupancy sensor models, RVS-A-xW, RVS-B-xW, RCS-A-xW and RCS-B-xW. The RCS is identical to the RVS with the addition of a battery to provide power for support of auto-on occupancy sensor applications. The character x in the model number is replaced with U for 902MHz, Y for 868MHz radios, and J for 928MHz radios. The package includes the sensor, installation guide, lens mask sticker and two wire adaptor straps for soft ceiling tile mounting. The cover is removable. Please note: the cover must be fully seated for proper operation. Resonate Vacancy/ Occupancy Sensor Description The RVS/RCS (also referred to as the sensor in this guide) is a wireless, energy harvesting sensor that monitors room occupancy state using a passive infrared motion (PIR) detector. The RVS/RCS sensors are intended for indoor use only, mounted on a ceiling at 8-10 feet from the floor. NOTE: The RVS is a solar powered device that absorbs solar energy from artificial or natural light sources. Before assigning the RVS sensor to a receiver or controller, the sensor should be exposed to a good light source for a minimum of 2 minutes.

53 Sensor Operation The RVS sensor is powered by solar energy from natural or artificial light sources. The solar energy is transformed into electrical energy which is then used as a power source for the sensor. Powered by two solar cells, the sensor will begin operation without a battery within 2 minutes of being in sufficient light. The sensor will operate with 6 foot candles (65 lux) light energy. The RCS has instantaneous operation (battery powered). Wireless Telegrams The motion sensor supports the Occupancy Sensor EnOcean profile A The sensor will transmit occupancy or vacancy depending on the occupancy state of the room. The sensor will broadcast occupancy immediately upon a state change from vacant to occupied. The sensor broadcasts a telegram when movement is detected and repeats occupied telegrams with a minimum 100 second period between subsequent transmissions. After detecting motion, the sensor is shut-down to conserve energy for 100 seconds. When the sensor awakens and further motion is detected, the sensor will transmit an occupied telegram. If no motion is detected within 100 seconds, the sensor transmits a vacancy telegram, 200 seconds total since the previous transmission. The sensor will remain active until the next occupancy state is triggered by motion detection. If the sensor does not detect motion, it resends the vacancy telegram every 1000 seconds. Motion Detection The sensors use a PIR sensor element that detects motion by measuring the infrared energy emitted by objects. The sensors are calibrated to detect the temperature range of the human body. The sensor has a lens that breaks the viewing angle of the sensor into zones (movement zones), infrared energy moving in and out of a zone is how the occupied state is defined. The amount of movement that triggers the sensor is dependent upon the density of the zones where the motion takes place. A 0 8ft/2.4m 10ft/3m ft/4.5m 10ft/3m 5ft/1.5m 0 5ft/1.5m 10ft/3m 15ft/4.5m Lens A: use for small motion detection or small rooms. 8ft/2.4m 10ft/3m 2 30ft/9.1m 20ft/6m 10ft/3m 0 10ft/3m 20ft/6m 30ft/9.1m Lens B: use for large motion detection or larger rooms.

54 higher density of zones means smaller motion will trigger the sensor. For detection of small motion (typing, drinking from a coffee cup), use the A lens which has more movement zones. Place the sensor close to the location where the motion may occur. The sensor comes with a sticker that can be applied to the lens to mask off areas where motion detection is not desired. An LED under the lens will blink once every 100 seconds when the sensor is detecting motion. Additionally, the LED color indicates the status of the battery when applicable, see the following table. LED Color Red Amber Green Battery Status No battery or weak 50% discharged Full charge Mounting the Sensor The mounting location of the sensor is important as this will directly affect the receivers reception of the telegrams. Before installing, refer to the sections in the guide detailing the installation of wireless devices, layout tips and test operation modes. NOTE: The sensor cannot detect occupancy through solid objects including items placed by a tenant, such as file cabinets or shelves. NOTE: Do not locate the sensor near forced air vents as hot moving air may cause the sensor to false trigger. Leave at least 4 (1.2 m) minimum between air vents and the sensor. NOTE: Incandescent lights may cause false trips when turning on. 1. Select a location to mount the sensor on the ceiling by identifying the movement patterns that will be the most common in the space. For smaller office spaces where hand motion on a desktop is common, locate the sensor off to one end of the desk, in line with the desk edge or slightly behind so the PIR lens has direct line-of-sight to the keyboard desktop area. Insure that the PIR lens does not have direct line-of-sight out a doorway where walk-by traffic could trigger the sensor. Use the included lens mask stickers to mask off these areas. Larger offices where larger body motion is more common, placement of the sensor is less critical. 2. For the best sensor performance, mount the RVS sensor so at least one of the solar cells is facing a light fixture. The sensor will operate in low light levels however, for best performance; a minimum of 6 foot candles must be maintained. If the controlled lights in the space are dimmable either manually or via daylight harvesting, insure the light level at the lowest dimmed level meets this 6 FC requirement. If the light value does not meet this requirement, install a battery. 3

55 3. Remove the cover by inserting a small screwdriver under the white enclosures lip. Gently twist the screw driver and pull the cover away from the base. 4. Choose a mounting method. The RVS/RCS sensor can be mounted: With the integrated magnets to a steel T-bar ceiling frame or other metallic surface by placing the sensor on to the metal rail. With screws and anchors (not provided) to a wall-board ceiling. i. Use a pencil to mark the mounting base keyhole locations and remove the sensor. ii. Using a drill, bore the two holes and insert the anchors. iii. Install the screws, leaving them loose while you place the sensor. iv. Tighten the screws. With the provided wire adapter straps to a soft ceiling tile. i. Mark the sensor mounting location on the ceiling tile with a pencil. Remove the ceiling tile from the T-bar frame. ii. Insert the soft ceiling tile adapters through the pair of small holes beside both keyholes on the sensors mounting plate. iii. Poke the adapter tines through the ceiling tile, then bend each tine over in opposite directions for a secure fit. iv. Replace the ceiling tile. With double sided tape or Velcro, not provided. Cut two lengths of tape and remove the backing. Place on the mounting surface of the sensors back plate, pressing down. Remove the backing from the tapes other side and place the sensor on the ceiling surface, pressing firmly. 5. Refer to the section titled Linking the Sensor to a Receiver. 6. Once linking is complete, replace the sensor cover. Ensure the cover is fully seated. If the cover is not firmly attached, it could obstruct the lens and adversely affect operation. Lens Masking Lens mask stickers are provided in the packaging for your convenience. 1. As needed, peel off the lens masks to fit the desired area to be blocked. 2. Apply the mask gently to the section of the lens exterior to block the required area from occupancy sensing. Wire Mounts Linking the Sensor to a Receiver Lens Mask Applied This process requires the controller or receiver to be mounted, powered and within range of the sensor to be linked. 4

56 The sensor is a solar powered device that absorbs energy through a solar panel; storing it for use during low light periods. Before assigning the sensor to a receiver/controller, the RVS must be exposed to a good light source for at least 2 minutes. 1. Remove the cover by inserting a small screwdriver under the white enclosures lip. Gently twist the screw driver and pull the cover away from the base. 2. Activate LEARN or LINK mode at the receiver, if necessary refer to the manufacturers documentation. 3. Press the sensors LINK button. 4. Deactivate LEARN mode at the receiver. Installing or Replacing the Battery The battery is not required for normal operation when the RVS receives adequate natural or artificial light, minimum 6 foot candles or 65 lux. The RCS model comes with a battery (requires installation). 1. Remove the cover by inserting a small screwdriver under the white enclosures lip. Gently twist the screw driver and pull the cover away from the base. 2. To remove an old battery, use a small screwdriver as a lever and insert under the battery. Gently twist the screwdriver so the battery pops out. 3. Install or replace the battery with a new CR1632 coin cell battery insuring the positive side (+) will be facing up. 4. Place the battery in the holder and press in place with your thumb. Test Operating Modes Test modes require a battery to be installed. For RVS units, insert a CR1632 battery to run tests. NOTE: An alternative to installing a battery is to use a bright light (hand-held LED light, or Smart Phone) and shine this on the sensor while in test mode. Depending on the light used, this may provide sufficient energy to run the test selected. Do not use this method for Light Level Test, Walk Test Mode or Range Confirmation. Remove the cover for access to the test button. The following 4 tests can be selected when in test mode operation. Light Level Test: Battery Holder Link Button 1. To enter Light Level Test mode, press and hold the test button for 6 seconds. The green LED will begin to blink (LEDs are located under the lens). 2. Press the test button again for 6 seconds to select Light Level Test. The green LED will blink in accordance to the light level it is detecting. This will 5

57 6 change (2 second lag time) if you move the sensor to areas with different light levels. See blink indicator table on the next page. LIGHT LEVEL TEST TABLE The green LED will blink according to the energy produced by the solar cell Blinks Lux Foot Candles Charge Level below operating level to 9 min. operating level to 18 operational to 36 operational to 72 operational operational The test will repeat every 2 seconds and run for a duration of 100 seconds. You may quit the test at any time by pressing the Test button for 10 seconds. Range Confirmation Test: provides visual feedback of the sensors signal strength by a linked receiver with range confirmation capability (only F series controllers have range confirmation ability). Have only one receiver linked to the sensor for proper operation of the test and disable repeaters in range for proper test operation). The Range Confirmation test requires a battery to be installed. 1. To enter Range Confirmation Test mode, press and hold the test button for 6 seconds. The green LED will begin to blink. 2. A quick press and release of the button at this point will allow you to select between test modes. Pressing and releasing the test button scrolls through the LED indicators. When the amber LED is blinking, go to step Press and hold the test button again for 6 seconds to select Range Confirmation Test. 4. All three LED s will blink (for 1 second) in this test mode when the sensor transmits or receives a Range Confirmation Telegram followed by the sensor displaying the linked signal strength status for 2.5 seconds. RANGE CONFIRMATION TEST TABLE LED Green - Blinking 2.5 sec Amber - Blinking 2.5 sec Red - Blinking 2.5 sec No LED Signal Strength -41 to -70 dbm -70 to -80 dbm -80 to -95 dbm No linked receivers detected The test will repeat every 4 seconds and run for a duration of 50 seconds. You may quit the test at any time by pressing the test button for 10 seconds. Walk Test Mode: In walk test mode, the red LED will blink on every motion event. This allows an installer to verify the sensor can monitor and detect motion in an area as required. 1. To enter Walk Test mode, press and hold the Test button for 6 seconds. The green LED will begin to blink.

58 2. A quick press and release of the button at this point will allow you to select between test modes. Pressing and releasing the test button scrolls through the LED indicators. When the red LED is blinking, go to step Press and hold the test button again for 6 seconds to select Walk Test mode. The red LED will begin blinking when motion is detected. The test will run for a duration of 100 seconds. You may quit the test at any time by pressing the test button for 10 seconds. Sensitivity Adjust Mode: The sensitivity feature allows the installer to adjust the sensitivity level. False occupancy states caused by other elements can be reduced by reducing the sensitivity level. The default setting is max. sensitivity. To enter sensitivity adjust mode, press and hold the Test button for 6 seconds. The green LED will begin to blink. 1. A quick press and release of the button at this point will allow you to select between test modes. Pressing and releasing the test button scrolls through the LED indicators. When the red and amber LEDs are blinking simultaneously, go to step Press and hold the test button again for 6 seconds to select PIR sensitivity adjust mode. One of the LEDs will begin blinking based on the selected settings, see the Sensitivity Adjust Table. 3. A press and release of the button will allow you to scroll through the settings as shown in the sensitivity adjust table on page 7. SENSITIVITY ADJUST TABLE High Setting Medium Low Indication Green LED blinking Amber LED blinking Red LED blinking NOTE: The low sensitivity setting is used as the base line for the lens detection ray diagrams found on the data-sheet. 4. To select a setting press and hold the test button for 10 seconds when the desired LED is blinking. To exit without saving, allow the test to time-out in 60 seconds. Installing Wireless Devices Careful planning is needed when locating the receivers and transmitters based on the construction materials in the space and possibility of tenant s furniture disrupting the transmissions. The occupancy sensor should be installed in the space where the receiver is mounted and connected to the occupancy control equipment. The signal will travel through some material barriers. Refer to the tables on the next page for range considerations with building materials that reduce the radio signal power. 7

59 Material Attenuation Wood 0-10% Plaster 0-10% Glass 0-10% Brick 5-35% MDF 5-35% Ferroconcrete 10-90% Metal % Aluminum % Wireless System Layout Hints Avoid locating transmitters and receivers on the same wall. Avoid locating transmitters and receivers where the telegrams must penetrate walls at acute angles. This increases the material the telegram must pass through reducing the signal power. Avoid large metal obstructions as they create radio shadows. Place receivers in alternate locations to avoid the shadow or use repeaters to go around the obstacle. Do not locate receivers close to other high frequency transmitters. Leave at least 3 between the receiver and any other source of interference including, ballasts, LED drivers, computers, video equipment, Wi-Fi/LAN routers, GSM modems and monitors. Transmitters are not affected by these sources of interference. Agency Listings and Compliance CEC Title 24 Compliant Built in an ISO9001 certified facility FCC Part (902 MHz models only) Contains FCC ID: TCM300U The enclosed device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (I.) this device may not cause harmful interference and (ii.) this device must accept any interference received, including interference that may cause undesired operation. IC RSS-210 (902 MHz models only) Contains IC: 5713A-STM300U CE (868 MHz models only) CE Marking ARIB STDT108 (928MHz models only) Complies with the Japanese radio law and is certified according to ARIB STDT108. This device should not be modified (otherwise the granted designation number will become invalid) R Copyright Echoflex Solutions, Inc. Specifications subject to change without notice. Document 8DC-5543 Revision M Rev E echoflex Powered by ETC Material Line of sight: Line of sight: Plasterboard: Brick: FerroConcrete: Ceiling: Radio Range-typical 80 (24m) corridors 150 (46m)open halls 80 (24m) through 3 walls 33 (10m) through 1 wall 33 (10m) through 1 wall not recommended Echoflex Solutions, Inc. #1, Queens Way Squamish BC Canada V8B 0K8 Toll Free: Phone: (778) Fax: (604) info@echoflexsolutions.com

60 Task Ambient Photo Sensor Installation Guide TAP-21 Overview This guide covers all models of TAP-21 sensor. The TAP-21 product family includes: TAP-21U Photo Sensor with 902 MHz radio TAP-21Y Photo Sensor with 868 MHz radio TAP-21J Photo Sensor with 928 MHz radio The package includes the photo sensor and installation guide. TAP-21 Sensor Description The 21 series TAP Task Ambient Photo sensor (also referred to as the sensor in this guide) is a wireless, energy harvesting sensor that monitors light levels within interior spaces and transmits the value to lighting controllers. The sensor measures ambient light in two ranges: lux (0-50 foot candles) and lux (0-100 fc) and is intended for indoor use only. NOTE: The TAP is a solar powered device that absorbs solar energy storing it for use during low light periods. Before assigning the TAP device to a receiver/controller, the device should be exposed to a good light source for a minimum of 5 minutes or install a start assist battery.

61 2 Page Left Blank Intentionally

62 Sensor Operation The Task Ambient Photo (TAP) sensor monitors interior light levels. The TAP sensor is powered by solar energy from natural or artificial light sources. The solar energy is transformed into electrical energy which is then stored, providing a continuous power source for the sensor. The sensor will operate even with a brief exposure to light, however for best results the sensor should be mounted in a location with exposure of 3-6 hours of natural or artificial light ( lux or fc) on a daily basis. The sensor transmits telegrams containing the light level and storage capacitor voltage level. The sensor must be within range of any linked receivers or controllers, installed within 24m (80 ) of each other. For applications exceeding 24m (80 ) range, telegram repeaters may be needed to extend the reception range. The photo sensor supports the following Sensor profile: EEP A : Light Sensor DB_1: 0 lux lux DB_2: 0 lux lux DB_3: Supply Voltage 0 5.1V, linear n=0 255 Daylight Harvesting The sensor will repeatedly broadcast a telegram on a timer (heart beat timer). The time period adjusts automatically to the ambient light levels and energy charge stored on the radio. Light Level Timer < 50 lux (5 fc) 100 seconds > 50 lux (5 fc) linear ramp from 60 to 10 seconds (as device approaches full charge) Mounting the Sensor The sensor can be mounted on any surface; ceiling, wall, desk, cubicle wall, etc. The mounting location of the sensor is important as this will directly affect the receivers reception of the telegrams. Before installing, refer to the sections in the guide detailing the installation of wireless devices, layout tips and test operation modes. TIP: To get feedback on the light level where the sensor is mounted, refer to sections Test Operating Modes and Light Level Test. TIP: For range verification between the sensor and controller, refer to sections Test Operating Modes and Installing Wireless Devices. The sensor should be placed so there is direct exposure to a window. The most common mounting location for photo sensors is ceiling mount, centered with the window, about 4 from the 3

63 window. The sensor must be installed in the space where the receiving lighting controller is operating the light fixtures. See the sections on light level test and range confirmation* to aid in optimal placement. * -(requires F series Echoflex controller) The sensor can be mounted using screws (not supplied) through the back plate or using double-sided tape or Velcro (not supplied). Linking a Sensor to a Lighting Controller or Receiver This process requires the controller or receiver to be mounted and powered and within range of the sensor to be linked. 1. Activate LEARN or LINK mode at the receiver, if necessary refer to the manufacturers documentation. 2. Tap the sensors TEACH button. 3. Deactivate LEARN mode at the receiver. Selecting the Light Range on the TAP sensor 1. Using a fingernail or small flat head screwdriver, pop the rear mounting plate off the sensor to reveal the range slide switch. 2. Slide the switch to the range setting required, 512 lux (50 foot-candles) or 1024 lux (100 foot-candles). The factory default is 512 lux. 3. Press the rear mounting plate back into position. Installing or Replacing the Start Assist Battery The battery is not required for normal operation. The battery may be useful for installation purposes (when using the Range Confirmation test and Daylight Harvesting test mode, which depletes the energy stores of the TAP quickly.) 1. Using a fingernail or small flat head screwdriver, pop the rear mounting plate off the sensor. 2. To remove old battery: Using a small flat head screwdriver or pen as a lever, insert pointed end under the battery s edge and pop out of the holder. 3. Install or replace the battery in the clip with a new CR2032 coin cell battery insuring the battery edge is under the retaining clip and positive side (+) is facing up. 4. Press on the rear mounting plate until it snaps back into position. Test Operating Modes The following tests can be selected when in test mode. 1. Light level test 2. Range confirmation test 3. Daylight harvesting test mode Teach Button Light Level Test: This test provides visual feedback of the immediate energy produced by the solar panels. 4

64 1. To enter Light Level Test mode, press and hold the teach button until the green LED begins to blink (about 6 seconds - LEDs are located on right hand side of the solar panel). 2. Press and hold the teach button again until the green LED stops blinking, about 6 seconds. The green LED will start blinking faster in accordance to the light level it is detecting, see tables below. At 510 Lux (50 fc) range ( default ) blinks lux foot candles time to fully charge discharge time 0 < 50 <5 below operating level n/a 1 < 142 < hours 67.0 hours 2 < 234 < hours 82.5 hours 3 < 326 < hours hours 4 < 418 < hours hours 5 >418 > hours 90.0 hours At 1024 Lux (100 fc) range (switch selectable) blinks lux foot candles time to fully charge discharge time 0 < 50 <5 below operating level n/a 1 < 244 < hours 82.5 hours 2 < 438 < hours hours 3 < 632 < hours hours 4 < 826 < hours 91.0 hours 5 > 826 > hours hours The time to fully charge is based on the storage capacitor charging from a nonoperational condition. Discharge time indicates how long a fully charged sensor will operate in the dark. The test will repeat every 2 seconds and run for a duration of 100 seconds. You may quit the test at any time by pressing the teach button for 6 seconds. Range Confirmation Test: This test provides visual feedback of the sensors signal strength by a linked receiver with range confirmation capability. Note: Range Confirmation only available with F series Echoflex Controllers. The TAP must be at full charge and/or have the battery installed for Range Confirmation Tests energy requirements. Only one receiver can be linked to the sensor for proper operation of the test. Disable repeaters in range for proper test operation. 1. To enter Range Confirmation Test mode, press and hold the teach button until the green LED begins to blink (about 6 seconds). 2. A quick press and release of the button at this point will allow you to select between test modes. Pressing and releasing the test button scrolls through 5 5

65 the LED indicators. When the amber LED is blinking, go to step Press and hold the test button again for 6 seconds to select Range Confirmation Test. All three LED s will blink on and off (for 1 second) in this test mode, then if the sensor receives a range confirmation telegram, the sensor displays the linked signal strength status for 2.5 seconds, see table below. LED Green - blinking 2.5 sec Amber - blinking 2.5 sec Red - blinking 2.5 sec No LED Signal Strength -41 to -70 dbm -70 to -80 dbm -80 to -95 dbm No linked receivers detected The test will repeat every 10 seconds and run for a duration of 50 seconds. You may quit the test at any time by pressing the test button for 6 seconds. Commissioning Test Mode: This mode accelerates the time period between transmissions of the current light level to every 10 seconds, for a duration of 5 minutes (regardless of amount of energy stored - See Daylight Harvesting above). This test requires a start assist battery to be installed for the duration of the test. 1. To enter Commissioning Test Mode, press and hold the teach button until the green LED begins to blink (about 6 seconds). 2. A quick press and release of the button at this point will allow you to select between test modes. Pressing and releasing the test button scrolls through the LED indicators. When the red LED is blinking, go to step Press and hold the test button again for 6 seconds to select Commissioning Test Mode. You may quit the test at any time by pressing the test button for 6 seconds. 6

66 Installing Wireless Devices Careful planning is needed when locating the receivers and transmitters based on the construction materials in the space and possibility of tenant s furniture disrupting the transmissions. The sensor should be installed in the space where the receiver is mounted. The signal will travel through some material barriers. Refer to the tables below for range considerations with building materials that reduce the radio signal power. Material Wood 0-10% Plaster 0-10% Glass 0-10% Brick 5-35% MDF 5-35% Ferro concrete 10-90% Metal % Aluminum % Attenuation Material Line of sight Line of sight Plasterboard Brick Ferro concrete Range Typical 80 (24m) corridors 330 (100m) open halls 80 (24m) through 3 walls 33 (10m) through 1 wall 33 (10m) through 1 wall Ceiling Not Recommended Wireless System Layout Hints Avoid locating transmitters and receivers on the same wall. Avoid locating transmitters and receivers where the telegrams must penetrate walls at acute angles. This increases the material the telegram must pass through reducing the signal power. Avoid large metal obstructions as they create radio shadows. Place receivers in alternate locations to avoid the shadow or use repeaters to go around the obstacle. Do not locate receivers close to other high frequency transmitters. 7

67 Agency Listings and Compliance CEC Title 24 Compliant Built in an ISO9001 certified facility FCC Part (902 MHz models only) Contains FCC ID: TCM300U The enclosed device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (I.) this device may not cause harmful interference and (ii.) this device must accept any interference received, including interference that may cause undesired operation. IC RSS-210 (902 MHz models only) Contains IC: 5713A-STM300U CE (868 MHz models only) CE Marking ARIB STDT108 (928MHz models only) Complies with the Japanese radio law and is certified according to ARIB STDT108. This device should not be modified (otherwise the granted designation number will become invalid) R Copyright Echoflex Solutions, Inc. Specifications subject to change without notice. Document #8DC-5365 Revision M Rev E Echoflex Solutions, Inc. #1, Queens Way Squamish BC Canada V8B 0K8 Toll Free: Phone: (778) Fax: (604) info@echoflexsolutions.com 8

68 echoflex Powered by ETC Wireless Switches Installation Guide PTM-ETR This guide covers all Echoflex switch models. The Echoflex switch models include: PTM265n* Single Decorator style wireless switch PTM265Dn* Dual Decorator style wireless switch ETRS1n# Single Resonate Wave style switch ETRS2n# Dual Resonate Wave style switch ETRH1nW Single Resonate Handheld switch ETRH2nW Dual Resonate Handheld switch PTM265KCAnW Keycard Activated switch The character n is replaced with U for 902MHz, Y for 868MHz, C for 315MHz and J for 928 MHz radios. The character * is replaced with W for white, B for black, A for almond, V for ivory and R for brown; # available in W - white or B - black only The package includes the switch and installation guide. Note - cover plates for Decorator style switches are not included (can be ordered separately); Resonate Wave switches include double sided tape.