Honeywell 202111TXR Switch User Manual EVORA Datasheet v2 0

INNCOM International Inc. Switch EVORA Datasheet v2 0

Manual.pdf

   Confidential Copyright © 2012 INNCOM EVORA Series Datasheet Overview  The EVORA family of switches offers an elegantly designed, easy to use, feature-rich user interface and control system providing a state-of-the-art guestroom automation experience. EVORA allows guest control of multiple lighting loads, temperature, drapes, and guest annunciation from multiple switch locations in the guestroom. EVORA offers three different user interface modules and multiple different Load Assemblies that include wired and wireless communications, dimmers, and programmable controls designed to operate within INNCOM’s Integrated Room Automation System (IRAS). The EVORA system brings all guestroom control features into a sleekly designed traditional keypad user interface. Features • Up to 7 key configurations with up to 5 position key pad for programmable control of any IRAS feature • Nightlight configuration with 2 key positions  • Doorbell configuration with 2 key positions  • Optional multifunction key for up to 10 grouped features per device • Backlight illuminated keys and text • TRIAC dimmer • FET dimmer • Relay actuator • Master contactor application • 12VDC power supply • Low-voltage adapter for load center applications • 2.4Ghz 802.15.4 wireless RF network communications • S5bus wired network communications • Digital input for door switch contact / integration with the INNCOM energy management system (EMS)  • Software programmable for any CBL feature Application EVORA was developed to extend INNCOM switch capabilities beyond those offered in the well-established S-Series (S217 and S5XX) product families and the innovative MODEVA series. The EVORA series uses a modular, cross functional hardware platform that allows each of the three main products (multifunctional switch, nightlight, and doorbell ) to share features in both hardware and software that were previously available only as uniquely designed sub-assemblies in the legacy S-Series products.  EVORA has at its core the same Load Assembly (WBI) architecture used by INNCOM’s MODEVA line. The Load Assembly is available in six configurations—500W relay, 500W TRIAC dimmer, 350W FET dimmer, 30A master contactor, 200mA power supply, and a low-voltage adapter (LVA)—that provide the mechanical platform and load bearing capability for the EVORA system. The EVORA series differs from MODEVA in several ways. It uses a Figure 1 EVORA Switch
E V O R A   D a t a s h e e t   P a g e   2   o f   1 0    standard dimension mounting bracket, for instance, allowing EVORAs to be ganged with other products (similar to the S-Series). EVORA products come factory assembled. Categories of Load Assembly Load Switching  • TRIAC dimmer provides dimming control of resistive light loads such as incandescent, halogen, and TRIAC dimmable LEDs. The TRIAC dimmer can dim 100–120VAC loads up to 500W. • FET dimmer dims capacitive loads such as dimmable fluorescent lamps and electronic ballasts. It can also dim resistive loads such as incandescent, halogen, and dimmable LEDs. The FET dimmer is designed to dim 100–120VAC up to 350W.  • Relay power supply switches capacitive, inductive, resistive, and general purpose loads up to 500W.  • Master contactor controls 30A relay at 120–240VAC. • 200mA power supply used for applications where EVORA must be line powered but does not require load dimming or switching. • Low-voltage adapter allows the EVORA products to run in a +12VDC powered device that does not actuate a load. This is very similar to the legacy S5XX product. Load Assembly Parallel Power Supplies The WBI actuators operate in parallel to supply a higher load capacity on the +12VDC rail than that achievable by a single actuator. The total output power of the actuators in parallel is based on the voltage specifications at maximum load versus the output current at maximum load and nominal recovery time after a foldback condition occurs. This design can aggregate up to 6 actuators into a system that permits up to a combined 990mA (~1A) +12VDC output. See Class 2 Output table below. Additional Load Assembly Technical Features • Air-gap relay required (for dimmers meeting UL 508). Where solid state dimmers are used, disengages the load from the line power in the event that a failed actuator causes a short or a closed circuit (as with a FET dimmer), a possible electric shock risk during routine maintenance or lamp replacement. • Additional overload detection circuit for FET dimmer that senses a catastrophic overload / short and shuts down the dimmer to protect the solid state circuitry.  • Dimming linearization curve may be set by application engineer to calibrate the duty cycle of a Pulse Width Modulated signal driving the various lamp types that could be used.  • Self contained actuator that can be used without the user interface. This is useful during installation (with EVORA) and in repair to isolate symptoms related specifically to the actuator. Load Assembly Installation  Locate the fuse panel and remove fuses or ensure the breaker is in the OFF position before installing the Load Assembly. 1. Pull the class-2 wires for Ground (Brown), +12VDC (Red) and S5bus (Orange) and digital inputs into the wall box (See Wiring Diagrams). Make the connections using a dolphin DC-1000P Super B connector or equivalent type connector to the S5bus or digital input harnesses and connect them to the appropriate header on the Load Assembly. 2. Prepare the line voltage wiring by stripping back the insulation 16mm (5/8th inch). 3. Connect the Green (Earth) Cable attached to the Load Assembly Strap to Earth.
E V O R A   D a t a s h e e t   P a g e   3   o f   1 0    4. Wire the Load Assembly as described in the Wiring Diagrams. Depending on gang assembly using the appropriate 10, 12, 14, 16, or 18 AWG wire nut.  5. Push all wires back into the wall box and fasten the control to the wall box using the supplied mounting screws. Be sure not to pinch or disconnect any of the wires. 6. Ensure the intended load(s) are connected to the circuit. 7. Replace the fuses in the fuse panel or move the breaker to ON before continuing. Note: EVORA self test may require that an I/O map is configured. The following steps are general guidance  only.  Installers  should  refer  to  the  property-specific  install  and  commissioning documents for further guidance.  8. Allow the EVORA switch to power up. To verify power, observe whether indicator light or backlight illuminate or blink. 9. Testing EVORA depends on the specific software configuration.  10. The EVORA User Interface will display start up behavior (refer to the property-specific installation and commissioning guide(s) and then enter a self test mode for the first 20 seconds of operation.           Figure 2 Mounting Screw Holes Figure 3 Decora Notch
E V O R A   D a t a s h e e t   P a g e   4   o f   1 0    The EVORA and Load Assembly is supplied with two 1¼" 6/32 screws, two 3-pin S5bus harnesses and a two-pin pig-tail harness for the digital input.  Wiring Diagrams                                Figure 4 EVORA WBI Single Wiring Figure 5 EVORA WBI Double Wiring
E V O R A   D a t a s h e e t   P a g e   5   o f   1 0                        In double and triple configurations, refer to the wiring diagram for S5bus and digital input connections. Daisy chaining is required only if all EVORA units need to be on the same S5bus or a parallel power design is needed for higher load capacity (See Class 2 Output table below). Master Contactor Use for master contactor applications up to 30A. This assembly requires an external +12VDC source.                       Figure 6 EVORA WBI Triple Wiring Figure 7 EVORA WBI Master Contactor Wiring
E V O R A   D a t a s h e e t   P a g e   6   o f   1 0    WBI Power Supply Use for applications where EVORA must be line powered but does not require load dimming or switching. 200mA DC output.                         Low Voltage Adapter The EVORA can be equipped with the Low Voltage Adapter (LVA). This allows the EVORA to act as a remote, +12VDC powered device only.              Figure 8 EVORA WBI Power Supply Wiring Figure 9 EVORA WBI Low Voltage Adapter Wiring
E V O R A   D a t a s h e e t   P a g e   7   o f   1 0     Technical Specifications User Interface  Tactile input Maximum # of  inputs  1-7 tactile keys Alternate User Interface  Keypad—traditional mechanical switches Communications  Wired S5bus 2.4Ghz RF  Input Power  12VDC, up to 250mA* Audio  8 ohm, 0.5W speaker for door bell chime Micro controller  16Mhz, 32-bit ARM based MCU Dimensions  1 3/4” W x 1 3/4” D x4” H (including brackets) 45 mm W x 45 mm D x 100 mm H (including brackets) FCC ID: GTC202111TXR This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential  installation.  This  equipment  generates  uses  and  can  radiate  radio  frequency  energy  and,  if  not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures: — Reorient or relocate the receiving antenna. — Increase the separation between the equipment and receiver. — Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. — Consult the dealer or an experienced radio/TV technician for help. Any  changes  or  modifications  not  expressly  approved  by  the  party  responsible  for  compliance  could  void  the user's authority to operate this equipment.  IC: 1609A-201217TXR This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Le présent appareil est conforme aux CNR d’industrie Canada applicables aux appareils radio exempts de licence. L’exploitation est autorisée aux deux conditions suivantes: (1) l’appareil ne doit pas produire de brouillage, et (2) l’utilisateur de l’appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d’en compromettre le fonctionnement.
E V O R A   D a t a s h e e t   P a g e   8   o f   1 0    Load Specifications Single Gang Installation The following table provides the load ratings at absolute maximum based on the load type in a single gang wall box. Actuator  Ratings  Voltage  Frequency  Power / Amperes  Load Type SMPS  120-240Vac  50/60Hz  200mA   +12VDC Output Only 120-240 Vac  50/60 Hz  4.1 A  Resistive 120-240 Vac  50/60 Hz  4.1 A  General Purpose 120-240 Vac  50/60 Hz  500 W  Tungsten / ELV 120-240 Vac  50/60 Hz  250 VA  Electric Ballast Relay Actuator 120 Vac   50/60 Hz  1/10 HP  Motor 120 Vac  60 Hz  2.9 A  Resistive 120 Vac  60 Hz  500 W  Tungsten / ELV 120 Vac   60 Hz  250 VA  Electronic Ballast TRIAC Dimmer 120 Vac   60 Hz  1/10 HP  Motor 120 Vac  60 Hz  2.9 A  Resistive 120 Vac   60 Hz  2.9 A  General Purpose 120 Vac   60 Hz  350 W  Tungsten / ELV MOSFET Dimmer 120 Vac   60 Hz  250 VA  Electronic Ballast 120-240 Vac  50/60 Hz  7200VA  General Purpose 120-240 Vac  50/60 Hz  960W  Tungsten / ELV 120-240 Vac  50/60 Hz  800VA  Electronic Ballast Master Contactor 120-240 Vac  50/60 Hz  30A  Resistive Class-2 Output The Load Assembly has been designed to provide +12VDC power to devices connected to the S5bus. The Load Assemblies can operate in parallel to supply a higher total load capacity than that achievable by a single Load Assembly. However, the total output is derated as per the table below for accommodating the stability of the power supply circuitry. The total available output power must be shared with the EVORA User Interface. Refer to the following table for Class-2 Output ratings. Number of Load Assemblies Nominal Voltage  Voltage at Maximum Load Output Rating 1  +12VDC  +11.0VDC  200mA 2  +12VDC  +11.0VDC  375mA 3  +12VDC  +11.1VDC  550mA 4  +12VDC  +11.1VDC  660mA 5  +12VDC  +11.2VDC  880mA 6  +12VDC  +11.2VDC  990mA
E V O R A   D a t a s h e e t   P a g e   9   o f   1 0    Operating Conditions Table Header  Table Header Storage  68-176 degrees F; 20–80 degrees C, non-condensing Operating  50-122 degrees F; 10–50 degrees C, non-condensing Ordering Information The highly configurable EVORA product line features many options for function (programmable control, doorbell, nightlight), appearance, user interface, and Load Assembly. The Ordering Guide below is for the EVORA final assembly. For detailed ordering information for all EVORA components, see the EVORA Ordering Guide.              Final Assembly Description  OPN  Part Number Multifunction/Doorbell    201-217 Nightlight    201-564 Power Supply Description  OPN  Part Number 500W TRIAC Dimmer  T5  03-7051 350W FET Dimmer  F3  03-7052 500W Relay Actuator  R5  03-7050 30A Master Contactor  3M  03-0310 200mA Power Supply  PS  03-7053 Low Voltage Adapter  LVA  03-7073
E V O R A   D a t a s h e e t   P a g e   1 0   o f   1 0    Logic Description  OPN  Part Number 1–5 button logic board w/radio  MB  202-111 2 button nightlight logic board w/ radio NL  202-113 2 button logic board w/radio  DB  202-114 Button Description  OPN  Part Number 1, 2, 3, 3b, 4, 4b, 5 button (Nightlight and Doorbell are 2 button only) -  - Housing Color Description  OPN  Part Number White  WH   Black  BK   Light Almond  LA   Eagle Almond  EA   Document Revision History Revision  Date Issued  Reason 0.1  10-Mar-2012  First draft 0.2  15-Mar-2012  Incorporated R&D review comments 0.3  22-Mar-2012  Updated drawings and Load Assembly text 1.0  23-Mar-2012  Incorporated Marketing comments and released 1.01  29-Jun-2012  Incorporate new load assemblies, order guide, IC statement 2.0  07-Sep-2012  Incorporate FCC statement changes and republish

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