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1 | User Guide part1 | Users Manual | 1.07 MiB | June 03 2014 / January 05 2014 |
We.R System User Guide ESUG05022 Version 3.3 December 2013 Legal Notice Usage of this document, and all information (including product information) provided within, are subject to the following terms and conditions, and all applicable laws. If you do not agree with these terms, please do not access or use the remainder of this document. This document contains highly confidential information, which is proprietary to Essence Security International (E.S.I.) Ltd. and/or its affiliates
(hereafter, "Essence"). No part of this document's contents may be used, copied, disclosed or conveyed to any third party in any manner whatsoever without prior written permission from Essence. The information included in this document is intended for your knowledge and for negotiation purposes only. Essence makes no implicit representations or warranties with respect to such information. The information included in this document is subject to change without notice. Any decision to rely on the information contained herein shall be at your sole responsibility, and Essence will not accept any liability for your decision to use any information or for any damages resulting therefrom. Certain laws do not allow limitations on implied warranties or the exclusion or limitation of certain damages. If these laws apply to you, some or all of the above disclaimers, exclusions, or limitations may not apply to you. By using the information contained herein, you agree that the laws of the state of Israel, without regard to principles of conflict of laws, will govern any dispute of any sort that might arise between you and Essence regarding the information contained herein, and any such dispute shall be settled exclusively in the competent courts of Tel Aviv-Jaffa, Israel. All registered or unregistered trademarks, product names, logos and other service marks mentioned within this document are the property of Essence, or their respective owners. Nothing contained herein shall be construed as conferring by implication, estoppels, or otherwise any license or right, either express or implied, under any patent or trademark of Essence or any third party. No use of any trademark may be made without the prior written authorization of Essence. This document and all of its contents are protected intellectual property of Essence. Any copying, reprinting, reuse, reproduction, adaptation, distribution or translation without the prior written permission of Essence is prohibited. Please check your End User License Agreement (EULA) for terms and Conditions. 2012 All rights reserved to Essence Security International (E.S.I.) Ltd. Certification Notice NOTE: 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 or more 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. Changes or modifications to this equipment not expressly approved by the party responsible for compliance (Essence Security International
(E.S.I.) Ltd.) could void the users authority to operate the equipment. WARNING! To comply with FCC and IC RF exposure compliance requirements, the device should be located at a distance of at least 20 cm from all persons during normal operation. The antennas used for this product must not be co-located or operated in conjunction with any other antenna or transmitter. Le dispositif doit tre plac une distance d'au moins 20 cm partir de toutes les personnes au cours de son fonctionnement normal. Les antennes utilises pour ce produit ne doivent pas tre situs ou exploits conjointement avec une autre antenne ou transmetteur. This device complies with FCC Rules Part 15 and with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference that may cause undesired operation Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes:
(1) l'appareil ne doit pas produire de brouillage, et
(2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. For more information, please contact:
Essence Security International (E.S.I.) Ltd. 12 Abba Eban Avenue, Ackerstein Towers Bldg. D Herzliya Pituach, 4612001 Israel www.essence-grp.com Tel:
+972-73-2447777 Fax:
+972-9-7729962 How to Use this Guide How to Use this Guide The backbone of this guide is the We.R installation procedure following an introduction to the system concept, the guide takes you through the steps of identifying the system components and their functions, preparations, and installation of the system components
(hardware and software) in the recommended sequence ensuring smooth buildup of your We.R system. This is the largest section of this guide and includes basic understanding of the setup and operation of both the components and the whole system. The daily usage of the system (system administration) is provided in the following section, while maintenance on the next. Other required information is also provided thereafter. Complementary information covering different aspects of background knowledge related to the We.R are provided in the form of appendixes at the end of this guide as well. We.R System User Guide 3 How to Use this Guide This page was intentionally left blank 4 We.R System User Guide Table of Contents Table of Contents How to Use this Guide ........................................................................................................ 3 Table of Contents ............................................................................................................... 5 1. Introduction .............................................................................................................. 13 1.1. Foreword .............................................................................................................. 13 1.2. General Guidelines ............................................................................................... 14 1.3. Content of the Standard Kit Box ........................................................................... 14 1.4. Other Available Devices ........................................................................................ 18 2. System Theory ......................................................................................................... 21 2.1. System Topology ................................................................................................. 21 2.2. The Complete System Overview ........................................................................... 22 2.3. Unique Technologies Incorporated ....................................................................... 23 2.3.1. 2.3.2. Enhanced Controlled Open Protocol .................................................... 23 We.R RF Technology ........................................................................ 23 2.3.2.1. Radio Interface Information........................................................ 23 2.3.3. 2.3.4. Remote Software Update .................................................................... 24 We.R Cloud Services ........................................................................ 24 2.3.4.1. We.R Web Server ................................................................... 26 2.3.4.2. Information Consumption Services ............................................ 26 2.3.4.3. We.R Media Services .............................................................. 26 2.3.4.4. We.R SMS Services ................................................................ 26 2.3.4.5. We.R Database ...................................................................... 27 2.3.4.6. We.R Analysis Service ............................................................ 27 Installation of the We.R System ............................................................................... 29 3. 3.2. The Central Control Unit ES8000CP .................................................................. 31 3.2.1. 3.2.2. The Central Control Unit Function ........................................................ 32 Installing the Central Control Unit ......................................................... 32 3.2.2.1. CCU Positioning Recommendations .......................................... 33 3.2.3. Activating the Central Control Unit ....................................................... 36 3.2.3.1. Manual Access Point Name Data Registration ........................... 43 We.R System User Guide 5 Table of Contents 3.3. The We.R Web Application ................................................................................. 45 3.3.1. 3.3.2. 3.3.3. 3.3.4. 3.3.5. 3.3.6. The Web Application Function ............................................................. 45 Activating the Web Application ............................................................ 46 3.3.2.1. Prerequisites ............................................................................. 46 The Web Application Display Structure ................................................ 47 The Tool Bar ........................................................................................ 48 The Status/Activation Bar .................................................................... 51 The Data Window ................................................................................ 52 3.3.6.1. The Dashboard Page ................................................................ 52 3.3.6.2. The Devices Page ..................................................................... 56 3.3.6.3. The History Page ...................................................................... 58 3.3.6.4. The Users Page ........................................................................ 60 3.3.6.5. The Smart Home and Scenarios Pages ..................................... 61 3.3.6.6. Other Pages .............................................................................. 62 3.4. The We.R Mobile Application.............................................................................. 62 Downloading and Installing the We.R Mobile Application ................... 63 Limitations of the We.R Mobile Application ........................................ 65 3.4.1. 3.4.2. 3.4.3. Using the Mobile Application ................................................................ 66 3.4.3.1. The User Code Screen .............................................................. 66 3.4.3.2. The Home Status (Main) Screen ................................................ 67 3.5. The Remote Control Unit (KF) ES800KF ............................................................. 82 3.5.1. 3.5.2. 3.5.3. The Remote Control Unit (KF) Function ................................................ 82 Installing and Activating the Remote Control Unit (KF) .......................... 83 The Remote Control Unit (KF) Status Reporting ................................... 87 3.6. The Motion Indoor Photo Detector (IPD) ES800IPD ............................................ 88 3.6.1. The Motion Indoor Photo Detector Function ......................................... 88 3.6.1.1. The Camera Modes of Operation .............................................. 89 3.6.2. Installing the Camera ........................................................................... 90 3.6.2.1. Camera Positioning Recommendations ..................................... 91 3.6.2.2. Installing with Screws ................................................................ 92 3.6.2.3. Installing with Pre-attached Double-side Tape ........................... 93 3.6.2.4. Dismounting the Camera ........................................................... 93 6 We.R System User Guide Table of Contents 3.6.3. 3.6.4. Adding the Camera to the We.R System ........................................... 94 The Camera Operational Modes .......................................................... 99 3.6.4.1. Walk Test Mode ...................................................................... 100 3.6.4.2. Normal Operation Mode .......................................................... 100 3.7. The Motion Detector (PIR) ES800PIR ............................................................... 100 3.7.1. 3.7.2. 3.7.3. 3.7.4. The Motion Detector Function ............................................................ 101 Installing the Motion Detector............................................................. 102 3.7.2.1. Motion Detector Positioning Recommendations ...................... 103 3.7.2.2. Installing with Screws .............................................................. 105 3.7.2.3. Installing with Pre-attached Double-side Tape ......................... 105 3.7.2.4. Dismounting the Motion Detector ............................................ 105 Adding the Motion Detector to the We.R System ............................. 106 The Motion Detector Operational Modes ............................................ 111 3.7.4.1. The Walk Test Mode ............................................................... 111 3.7.4.2. The Normal Operation Mode ................................................... 112 3.8. The Door/Window Magnetic Sensor (MGL) ES800MGL ................................... 112 3.8.1. 3.8.2. 3.8.3. 3.8.4. The Magnetic Sensor Function .......................................................... 113 Installing the Magnetic Sensor ........................................................... 113 3.8.2.1. Magnetic Sensor Positioning Recommendations ..................... 114 3.8.2.2. Installing the Transmitter Unit with Screws ............................... 116 3.8.2.4. Dismounting the Magnetic Sensor ........................................... 117 Adding the Magnetic Sensor to the We.R System ........................... 118 Testing the Magnetic Sensor ............................................................. 123 3.9. The Indoor Siren (SRN) ES800SRN .................................................................. 123 3.9.1. 3.9.2. The Indoor Siren Function .................................................................. 124 Installing the Siren.............................................................................. 125 3.9.2.1. Siren Positioning Recommendations ....................................... 125 3.9.2.2. Installing with Screws .............................................................. 127 3.9.2.3. Installing with Pre-attached Double-side Tape ......................... 127 3.9.2.4. Dismounting the Indoor Siren .................................................. 127 Adding the Indoor Siren to the We.R System ................................... 128 3.9.3. 3.10. The Wireless Access Control Tag Reader (TR5) ES800TR5 .............................. 132 We.R System User Guide 7 Table of Contents 3.10.1. The Tag Reader Function .................................................................. 133 3.10.2. Installing the Tag Reader ................................................................... 134 3.10.2.1. Tag Reader Positioning Recommendations ............................. 135 3.10.2.2. Installing with Screws .............................................................. 136 3.10.2.3. Installing with Pre-attached Double-side Tape ......................... 136 3.10.2.4. Dismounting the Tag Reader ................................................... 136 Adding the Tag Reader to the We.R System.................................... 137 Adding Tags to the We.R System .................................................... 142 3.10.3. 3.10.4. 3.11. The Flood Detector (FL) ES800FL .................................................................... 146 3.11.1. The Flood Detector Function .............................................................. 147 3.11.2. Installing the Flood Detector .............................................................. 148 3.11.2.1. Flood Detector Positioning Recommendations ........................ 149 3.11.2.2. Installing the Flood Detector Transmitter Unit with Screws ....... 149 3.11.2.3. Installing the Flood Detector Sensor Unit with Screws ............. 150 3.11.2.4. Installing Transmitter Unit with Pre-attached Double-side Tape 150 3.11.2.5. Installing Sensor Unit with Pre-attached Double-side Tape ...... 151 3.11.2.6. Dismounting the Flood Detector .............................................. 151 Adding the Flood Detector to the We.R System ............................... 152 3.11.3. 3.12. The Smoke Detector (SK2) ES800SK2............................................................. 155 3.12.1. Product Function ............................................................................... 157 3.12.2. Installing the Smoke Detector ............................................................ 158 3.12.2.1. Smoke Detector Positioning Recommendations ...................... 158 3.12.2.2. Installing Smoke Detector with Screws .................................... 162 3.12.2.3. Cleaning the Smoke Detector .................................................. 164 Adding the Smoke Detector to the We.R System ............................ 165 3.12.3. 3.12.3.1. Testing the Smoke Detector .................................................... 170 3.13. The Universal Transmitter (UT) ES800UT .......................................................... 171 3.13.1. The Universal Transmitter Function .................................................... 172 3.13.2. Installing the Universal Transmitter ..................................................... 172 3.13.2.1. Universal Transmitter Positioning Recommendations ............... 173 3.13.2.2. Installing with Screws .............................................................. 173 3.13.2.3. Installing with Pre-attached Double-side Tape ......................... 174 8 We.R System User Guide Table of Contents 3.13.3. 3.13.2.4. Dismounting the Universal Transmitter ..................................... 174 Adding the Universal Transmitter to the We.R System ..................... 175 3.14. The We.R Z-Wave Controller (ZWD) ES800ZWD .......................................... 180 The Z-Wave Concept....................................................................... 180 Essence Z-Wave Controller .............................................................. 181 3.14.2.1. The We.R Z-Wave Controller Generic Device Classes ......... 182 Installing the Z-Wave Controller ........................................................ 183 3.14.1. 3.14.2. 3.14.3. 3.14.4. 3.14.3.1. Verification .............................................................................. 185 Activating the Z-Wave Controller ...................................................... 185 3.14.4.1. Adding a New Z-Wave Device ............................................... 185 3.14.4.2. Removing a Connected Z-Wave Device ................................ 188 3.14.4.3. Controlling a Z-Wave Device via the We.R System .............. 190 3.15. System Support Capabilities ............................................................................... 194 Administration of the We.R System........................................................................ 197 4. 4.1.1. Types of Security Arming Modes ....................................................... 198 4.1.1.1. Full Arm .................................................................................. 198 4.1.1.2. Day Arm .................................................................................. 199 4.1.1.3. Night Arm ............................................................................... 199 4.1.1.4. Disarm .................................................................................... 200 4.1.1.5. Arming/Disarming with We.R System Devices ....................... 200 4.1.1.6. Force Arming .......................................................................... 201 4.2. Handling Alarms ................................................................................................. 201 4.2.1. 4.2.2. 4.2.3. Security Alarms ................................................................................. 202 Safety Alarms .................................................................................... 206 Panic Alarms ..................................................................................... 208 4.3. Monitoring the Premises ..................................................................................... 213 Monitoring with the We.R Web Application ...................................... 214 Monitoring with the We.R Mobile Application ................................... 215 4.3.1. 4.3.2. 4.4. Managing Users ................................................................................................. 218 4.4.1. 4.4.2. 4.4.3. Profiling Users ................................................................................... 218 Adding Users ..................................................................................... 219 Removing Users ................................................................................ 221 We.R System User Guide 9 Table of Contents 4.4.4. Editing Users ..................................................................................... 221 4.5. Managing Devices .............................................................................................. 222 4.5.1. 4.5.2. 4.5.3. 4.5.4. Adding New Devices ......................................................................... 222 Removing Devices ............................................................................. 224 Editing Devices Properties ................................................................ 225 Advanced Configurations of the We.R Devices ................................ 226 4.5.4.1. Entry/Exit ................................................................................ 226 4.5.4.2. Devices Allowing Walk-Through .............................................. 227 4.5.4.3. Chime ..................................................................................... 228 5. Maintenance of the We.R System .......................................................................... 231 5.1. Replacing Batteries ............................................................................................ 231 5.1.1. Replacing the Central Control Unit Backup Battery ............................ 231 5.1.1.1. Removing the Old Backup Battery .......................................... 231 5.1.1.2. Installing a New Battery ........................................................... 233 5.1.2. Replacing the Camera (IPD) Batteries ................................................ 234 5.1.3. 5.1.4. 5.1.5. 5.1.6. 5.1.7. 5.1.8. 5.1.9. 5.1.2.1. Removing the Old Batteries ..................................................... 234 5.1.2.2. Installing New Batteries ........................................................... 235 Replacing the Motion Detector (PIR) Batteries .................................... 236 Replacing the Magnetic Sensor (MGL) Battery ................................... 238 5.1.4.1. Removing the Old Batteries ..................................................... 238 5.1.4.2. Removing the Old Battery ....................................................... 239 5.1.4.3. Installing a New Battery ........................................................... 239 Replacing the Indoor Siren (SRN) Batteries ........................................ 240 Replacing the Remote Control Unit (KF) Battery ................................. 243 5.1.6.1. Removing the Old Battery ....................................................... 244 5.1.6.2. Installing a New battery ........................................................... 244 Replacing the Tag Reader (TR5) Batteries .......................................... 245 Replacing the Flood Detector (FL) Battery .......................................... 247 Replacing the Smoke Detector (SK2) Batteries .................................. 249 5.1.9.1. Dismounting the Smoke Detector ............................................ 249 5.1.9.2. Removing the Old Batteries ..................................................... 250 5.1.9.3. Installing New Batteries ........................................................... 251 10 We.R System User Guide Table of Contents 5.1.10. Replacing the Universal Transmitter (UT) Battery ................................ 251 5.1.10.1. Dismounting the Universal Transmitter ..................................... 252 5.2. Cleaning the System Devices.............................................................................. 254 6. Security Aspects ..................................................................................................... 255 6.1. Secured Communication between User and Application Server .......................... 255 6.2. Communication Security between CCU and Application Server .......................... 255 6.3. Communication Security between CCU and sensors .......................................... 255 Appendix A Appendix B Appendix C Terms, Abbreviations and Acronyms ............................................... 257 End User License Agreement (EULA) ............................................... 267 Technical Specifications .................................................................. 279 Central Control Unit (CCU) ES8000CP ..................................................................... 279 Motion Indoor Photo Detector (IPD) ES800IPD ......................................................... 280 Motion Detector (PIR) ES800PIR .............................................................................. 281 Door/Window Magnetic Sensor (MGL) ES800MGL ................................................... 283 Indoor Siren (SRN) ES800SRN ................................................................................. 284 Remote Control Unit (KF) ES800KF .......................................................................... 285 Wireless Access Control Tag Reader (TR5) ES800TR5 ............................................. 286 Flood Detector (FL) ES800FL ................................................................................... 287 Smoke Detector (SK2) ES800SK2 ............................................................................ 288 Universal Transmitter (UT) ES800UT ......................................................................... 289 Z-Wave Controller (ZWD) ES800ZWD ..................................................................... 291 Appendix D Appendix E Appendix F Appendix G Port Checking ................................................................................ 293 Enable Telnet Program in Windows 7 and 8 ..................................... 295 Screws and Dowels ........................................................................ 297 Pairing and Bonding ....................................................................... 299 Motivation ................................................................................................................... 299 Implementation ........................................................................................................... 299 Appendix H Owners Records ........................................................................... 301 We.R System User Guide 11 Table of Contents This page was intentionally left blank 12 We.R System User Guide Introduction 1. Introduction Welcome to the We.R Smart Home System User Guide. The We.R Smart Home system enables consumers manage different aspects of their homes such as security, safety, home automation and energy savings from anywhere and at any time using their PCs or smart device applications. The We.R system is a self-monitoring DIY solution based on the most advanced wireless technologies that include cloud services, and remote management and automation applications from any device, coupled with unique hardware design for consumers homes. 1.1. Foreword To begin utilizing the system, it is required to link onto the We.R Web Application (link address is provided by the seller or the Security Service Provider) and register as a User. The Mobile Application, for both Apple iPhone (iOS) and Android users, may be downloaded later from the following QR-code link:
(or search within Apples App Store or Googles Play for We.R) The installation program of these applications guides the Users through all phases of the identification, installation and registration process. Once the system is accessed, the registered Users may begin enjoying its many benefits, including:
Get real time alerts in case of unpermitted access to the premises. Protect valuables and personal belongings, based on unique living habits. Monitor entrance and exit time of residence staff, such as the cleaner, babysitter, etc. Be informed when kids are back from school etc. Keep kids away from the medicine cabinet, basement and other high-risk zones. Watch over children when they are out of sight. Care for elderly parents when needed. Watch for pet left alone at home. Connect, control and manage the premises, anywhere and anytime. Remain up-to-date with all new system and components software. We.R System User Guide 13 Introduction 1.2. General Guidelines Following are some general guidelines for the installation and day-by-day usage of the We.R system:
Batteries should not be inserted into any of the system devices until a specific step in the installation process is reached. Proper order of installing the batteries ensures that the various components of the system are integrated into the system in the correct sequence. The Central Control Unit (CCU) must be positioned at least 1 meter away from other We.R system components for proper operation. There are two types of components:
The Central Control Unit, and The peripheral devices (devices triggering alarms or set Home Automation). The peripherals are referred to, within this guide, as devices. Keep the system components away from wet, hot or humid environments. Temperature ranges:
Devices with Alkaline batteries:
Storage Ambient Temperature range:
-20C 50C Operating Ambient Temperature range:
0C 50C Devices with batteries:
Storage Ambient Temperature range:
-20C 60C Operating Ambient Temperature range:
-5C 50C 1.3. Content of the Standard Kit Box The following Table 1 details the content of the Kit Box. 14 Note: Following description of the Kit Box content refers to the standard kit. Other combinations of components included in the kit are possible too. We.R System User Guide Introduction Product Central Control Unit (CCU) Essence ES8000CP Motion Indoor Photo Detector
(IPD) Essence ES800IPD Description The We.R Central Control Unit. Sometimes referred to as Control Panel (CP). Manage and communicate with system peripherals and the Cloud/Servers which provide the data to the different user applications. Generates notifications and source data streaming. It features:
Users remote access for control and management via Apples iOS and Googles Android based smartphones/tablets and web application software. Optional 3G (850/900/1800/1900MHz) modem. Automatic APN setting. Streaming of data to designated devices
(smartphone, PC, etc.). Supports large variety of peripherals and up to 32 Users (including 2 Master Users). Long term battery backup. A peripheral device combining Passive Infra-Red (PIR) motion detector along with image capturing camera. Referred to as the systems Camera. It features:
Security/Comfort motion detected images streaming to smartphone/web applications. Compress/Encrypt data with Essences proprietary ECOP protocol. Relays stream to the We.R servers, via the Cloud for distribution to designated devices
(smartphone, PC, etc.). Multi-zone spherical lens for wide coverage
(120o horizontal, 105o vertical). Sealed optics, immune to light, insects, and
(optional) pets, for reduced false alarms. Walk-through test mode. We.R System User Guide 15 Introduction Product Description Motion Detector
(PIR) Essence ES800PIR Door/Window Magnetic Sensor
(MGL) Essence ES800MGL Indoor Siren (SRN) Essence ES800SRN Remote Control Unit (RCU) Essence ES800KF 16 A Passive Infra-Red (PIR) Motion Detector peripheral device. It features:
Sealed optics, immune to light and insects for reduction of false alarms. Multi-zone spherical lens for wide detection coverage (120o horizontal, 105o vertical). Walk-through test mode. Compact design magnet detector peripheral device, with long range and easy to install. Referred to as Door/Window Sensor. It features:
Dual LED for open/close status indication. Composed of a lightweight detector and a magnet. A wireless Siren peripheral device, powerful and battery-operated. It features:
Emits loud and powerful siren of up to 95dB with adjustable volume control. Emits sound for 90 seconds upon intrusion. Dual purpose as a siren and doorbell. A Bi-directional, ultra-compact, Remote Control Unit. Also referred to as Key Fob (KF). A peripheral device serving as the We.R system Key Fob as well as personal SOS alarm (panic) button. It features:
5-button interface for setting Full, Day, Night arm/disarm. Status key/LED indication of system status. Remote deactivation in case of loss or theft. Protection against inadvertent press. We.R System User Guide Introduction Product Description LAN Cable Local Area Network (LAN) cable (Category 5). A twisted pair cable for carrying the wired data communication signals. This type of cable is mostly used in structured cabling for computer networks such as Ethernet. The cable is used for connecting the CCU to an Internet port via Switch, Hub, etc.). Power Adapter Universal Switching Power Supply converting the mains voltage into DC power required for the CCU. The adapter include electrical cord with mini-USB-
like connector providing the CCU with the power required for proper operation. The 3.7VDC, 1400mAh Lithium Polymer rechargeable battery is the backup power source for the CCU in case of mains power shortage. Provides power to the Remote Control Unit (KF). Square Battery Pack Essence MCBT05001 Coin Battery Table 1: We.R Box Content The above items, along with the Shortform User Guide comprise the complete content of the box. Remote Control Unit (KF) Motion Detector
(PIR) Siren (SRN) Central Control Unit (CCU) Camera (IPD) Door/Window Sensor (MGL) Figure 1: Components Setup in the Box We.R System User Guide 17 Introduction Note: The LAN cable, Power Adapter and the batteries are packed and stored under the box inner (black) separator. Additional devices may be purchased from local distributors as required. These are described in paragraph 1.4 and Table 2 below. 1.4. Other Available Devices The system may be expanded with accordance to the premises structure and protection methods, by purchasing additional components (up to the systems limits detailed in paragraph 3.15 below). Such additional components may include components from the basic kit (described in the above Table 1) or other available components, built to serve special purposes, which are described in Table 2 below:
Product Description Wireless Access Control Tag Reader (TR5) Essence ES800TR5 and Tag (TAG) ES800TAG The Wireless Access Control Tag Reader is an access control peripheral device. The tags are the access keys. It features:
An intuitive user-friendly human interface. Provides command options to ARM, DISARM, partial ARM, SOS alarm and pending indoor or outdoor installation doorbell or status functions. Remote deactivation of tags in case of loss/theft (via Smartphone or web access). Wall Mount Double sided tape or Screws. Uses three standard AA-size Alkaline batteries. Long operation period (up to 36 months). Tamper Alarm when detached from wall. 18 We.R System User Guide Introduction Product Description Flood Detector
(FL) Essence ES800FL Smoke Detector
(SK2) Essence ES800SK2 Universal Transmitter (UT) Essence ES800UT The Flood Detector is a water outpouring early warning peripheral device. It features:
Alarm upon water leakage. The alarm is triggered upon water running through the detection element. Fastened to the wall/frame by double-sided tape or optional screws. The Smoke Detector is a stand-alone fire early warning peripheral device. It features:
Tri-color LED for visual indication. Emits loud alarm sound of 85dB from 3 m. The Smoke Detector is fully operational even if the CCU is not. Tamper Alarm when detached from its base. Long operation life. Uses three (3) standard AA-size Alkaline batteries. The Universal Device is a peripheral device enabling legacy, hard-wired devices interface onto the We.R system. It features:
Dual LED for visual status indication. Single element a lightweight RF transmitter with 30 cm double-isolated two-conductor cable. Long operation life. Uses a single standard AA-size Alkaline battery. We.R System User Guide 19 Product Z-Wave Controller (ZWD) Essence ES800ZWD Introduction Description The Z-Wave Controller is a peripheral controller device enabling integration of Z-Wave approved Smart Home devices (i.e. Door Lock, Light Switch/Dimmer, etc.) onto the We.R system. It features:
Single element. Long operation life. Table 2: Other Available Devices 20 We.R System User Guide System Theory 2. System Theory The We.R system transforms mobile smartphones and tablets, as well as personal computers (PC) into powerful remote control devices that help increase safety and enhance the quality of life of families. All system components communicate with the Central Control Unit and the CCU communicates with system servers via the cloud. The system is based on a modular structure that is flexible in its expansion capabilities additional devices may be added to the system as needed. 2.1. System Topology The system consists of the main control component the Central Control Unit, and sensors/detectors covering all security aspects and communication components. It features a comprehensive and expandable sensor/detectors array that provides the flexibility to create an ideal solution for every Small Office/Home Office (SOHO). Users can add safety and security accessories, such as additional Cameras, for better protection and monitoring. Figure 2: We.R Home Area Network Components We.R System User Guide 21 System Theory The We.R wireless technology is based on Essence's proprietary Enhanced Controlled Open Protocol (ECOP), a complete, end-to-end proprietary protocol used throughout the We.R system. See details in paragraph 2.3.1 below. 2.2. The Complete System Overview Figure 3: The We.R Cloud Computing Network The installed system communicates via the cloud platform utilizing the following tools:
User interface software applications:
Web software application running over the Internet and a PC, or Mobile software application running over GPRS/EDGE cellular network with a smartphone. It may communicate with the server via Internet or via GPRS/EDGE cellular channels, and The Service Provider utilizes Internet for communication with the server and all of the Central Control Units. 22 We.R System User Guide System Theory 2.3. Unique Technologies Incorporated The We.R system incorporates some unique technologies and features:
2.3.1. Enhanced Controlled Open Protocol The We.R products intercommunicate with the Central Control Unit (CCU) within the HAN
(Home Area Network) using Essence proprietary Enhanced Controlled Open Protocol (ECOP) protocol. The We.R CCU serves as the gateway between the HAN and the GSM/GPRS or Internet network. Between home sensors and home control units (ECOP-R). For external networks (control unit to the world). ECOP-X The XML representation of the ECOP protocol. Several types of clients (Web Server, iPhone, Windows Mobile, etc.) parse the ECOP protocol. The ECOP-N protocol is serialized to a standard XML and is transferred to any kind of client (a distinct ECOP-N protocol parser is not needed for each kind of client). For details of the RF implementation of the ECOP protocol, please refer to paragraph 2.3.2. below. 2.3.2. We.R RF Technology 2.3.2.1. Radio Interface Information The We.R system works in a star topology where the Central Control Unit acts as the coordinator, controlling all other sensors and peripherals. License-free Band Disturbance Data is sent over the air utilizing the We.R proprietary RF protocol (ECOP) in IEEE 802.15.4 standard based on the 2.4 GHz ISM band. Gateway (GW) uses a band pass filter for out-of-band noise suppression. In-band noise is compliant with EN-300-440. Inter-systems disturbance each system uses a specific, 32bits, system identifier and filters non-conforming packets. We.R System User Guide 23 Power and Sensitivity System Theory We.R systems transmit with maximum allowed power according to standard EN 300 440
(Europe), FCC CFR47 Part 15. Pending the device, power and sensitivity are divided into two (2) main categories:
Sensitivity
-103 dBm (sensors)
-103 dBm (Central Control Unit) Power 14 dBm 20 dBm Channels, Bandwidth and Polling Using ECOP protocol, the We.R system utilizes between 1 to 16 channels. The channel bandwidth is 5MHz. The We.R systems use Beacon-enabled network intervals, about 100ms for quick response time. Modulation type: QPSK, 8 chips DSSS Baud rate: 250KBPS Low Energy Consumption ECOP protocol is an externally low-power RF protocol based on 16 years of experience in battery-operated devices. For example, the system uses a mechanism that significantly reduces listening time (one of the major drains on battery life). 2.3.3. Remote Software Update The We.R system and its components are being constantly upgraded with regards to the software embedded into them and with regards to their service software packages. There is no need for any user involvement in these upgrades as these are overall procedures automatically activated by the Service Provider. 2.3.4. We.R Cloud Services The servers of the We.R cloud services are the central applicative abstract unit designed for high availability, scalability, robustness, geo-redundancy and security. 24 We.R System User Guide System Theory The We.R Infrastructure is designed to support millions of concurrent users over multiple client platforms (web application, mobile smartphone and tablets applications, mobile phones via SMS, and 3rd parties consumer data) on various supported protocols (HTTP, SOAP, JSON, REST, TCP). We.R Cloud Services concentrate and encapsulate the entire communication and logic, allowing users to easily install and enjoy a simplified world of seamless communication between them, their homes and their mobile/web devices. Operators can exercise full real-time control over all system functions, overview the full picture regarding customer usage, analyze usage patterns and preferences and customize services and activation for each account. The We.R Cloud Services are based on a few fundamental building blocks, like:
Asynchronous messaging mechanism. Control the devices communication layer. Account management. Account activation/deactivation/suspension, user preferences. Monitoring System Logging, Tracing, Monitoring and Audit. Message handling and events logic in addition to rules engine. Archive mechanism. Protocol adapters and services. Composition of ECOP-X protocol. Video services. Live streaming services. Video history analysis. System for remote firmware update. System for OTA mobile software updates cache distribution custom adaptation. 3rd-party application adaptations. We.R System User Guide 25 System Theory 2.3.4.1. We.R Web Server The We.R Web Server is the set of services within the We.R cloud designed to:
Allow We.R security and Home Automation web application for end users. Allow the end user to receive full control over his home, including live and archived images on-demand. Allow the operator/service provider to fully control account services, view real time usage statistics and analyze usage patterns and preferences. The applications are high-end Rich Internet Applications (RIA), scalable and designed for a smooth user experience while implementing push mechanisms for seamless client/server communication. 2.3.4.2. Information Consumption Services The We.R system enables access to a special web service layer especially designed for consumer data such as mobile operators, independent central monitoring stations and other types of 3rd-party organizations that can benefit from large amounts of mobile/web data and statistics related to system usage. 2.3.4.3. We.R Media Services The We.R System provides real-time continuous-like images supporting monitoring and security usage. The system can handle on-demand requests for images. The system can also generate an automatic image request when the home is armed. If an alarm is triggered, the system stores the images captured by the Camera to be sent upon demand to the User. The system can store the media data on its servers for future access. Media data is archived, cached and optimized for best performance. 2.3.4.4. We.R SMS Services The We.R system supports handsets from all major handset manufacturers, which typically use common industry protocols and APIs (HTTP, SOAP, etc.). 26 We.R System User Guide System Theory 2.3.4.5. We.R Database The We.R system stores all data that is passed through the system. The data is archived for future use and analysis. Stored data includes:
Video events Alarms Event history (alarms, user activity, etc.) Logs of all commands and actions performed by any user 2.3.4.6. We.R Analysis Service The We.R analysis service system is designed to provide business intelligence, data mining and analysis for the operator and other consumer data. We.R System User Guide 27
1 | User Guide part2 | Users Manual | 2.53 MiB | June 03 2014 / January 05 2014 |
Installation of the We.R System 3. Installation of the We.R System 3.1. Prerequisites Prior to the installation and setup of the We.R system, the following items need to be prepared:
This document is best read with Adobe Acrobat Reader version 10.0 (or higher), available for free download at: http://get.adobe.com/reader/. An electronic format (PDF) version of this manual is available, for free download, at:
http://www.essence-grp.com/pages/WeR/WeRFullUserGuide. AA-size Alkaline batteries for the kit components (10 for the standard kit). Notes: More batteries might be needed in case additional components were purchased. Special batteries: the Central Control Units backup battery and the Remote Control Units coin-battery are included in the kit. A personal computer (PC) with internet access and up-to-date browser application software (Microsoft Internet Explorer 7 or higher, Firefox 4 or higher, Googles Chrome browser). The Microsoft Silverlight web application framework should also be installed on the PC. It is available for free download from: http://silverlight.net. The Service Providers web server address for the We.R Web Application software
(provided by the We.R distributor/Service Provider). If cellular communication is to be used a SIM-card provided by the distributor or purchased from a Service Provider. Notes: Distributor (or Service Provider) of the SIM-card should also provide a 4-digit APN code for mobile access. In special cases more APN data (see details on page 43) might be needed. We.R System User Guide 29 Installation of the We.R System A smartphone (optional) for remote system management. A small screwdriver. The Central Control Units identification serial number should be registered prior to the installation process. Stickers with the serial number can be found inside the battery/SIM-card cavity and under the Central Control Units base as illustrated in Figure 4 below. Figure 4: CCU Serial Number Locations Note: You may also want to register this serial number in Appendix H Owners Records of this User Guide (page 301) where important data of your system is aggregated for future reference. This chapter of Installation of the We.R System provides information about each and every component of the system including its installation, power-up, configuration, integration into the system and operation. 30 We.R System User Guide Installation of the We.R System It is arranged in the exact same sequence the system needs to be built-up, including the steps of software installation and registration. Therefore, it is advised to follow this sequence to ensure properly functioning system. The We.R system is based on independent components described below. The order of presenting these components is the recommended order of their installation. Note: Except for the Central Control Unit, not all the below-mentioned components must be installed for a functional alarm system. 3.2. The Central Control Unit ES8000CP The center-piece of the We.R system is the Central Control Unit (CCU or CP). Figure 5: The Central Control Unit We.R System User Guide 31 Installation of the We.R System It is a two-way, wireless Central Control Unit comprising the main element of the We.R system. 3.2.1. The Central Control Unit Function The Central Control Unit (CCU) is responsible for wireless communication with the array of We.R sensors/detectors, remote access and interface devices internally (within the premises), through the RF communication channel, as well as communications with the external cloud computing services system, through the Internet or cellular channels. The CCU incorporates the following functions:
Two-way secured communications (AES encrypted) with the We.R system's peripherals. Plug-and-Play Internet (IP) connectivity. Optional, built-in GSM/GPRS/EDGE quad-band (850/900/1800/1900MHz) modem. Supporting transfer of high quality, high resolution, color pictures. Traffic Usage Simple Event/Command: 200-300 Bytes (text), Streaming Event: 200-
250 Kbytes (25 Frames). Supports automatic over-the-air software upgrade programming and configuration. Rechargeable backup battery. 3.2.2. Installing the Central Control Unit As mentioned in the above paragraph 2.3.3, prior to the installation of the CCU the following items must be prepared:
The CCUs backup battery. A PC connected to the Internet and running browser application software. The LAN cable (in case the Internet is to be used as external CCU communication channel). The SIM-card provided by the Service Provider (in case the CCU is to be communicating via the cellular channel) with its 4-digit APN code (other APN data might be required too, see details on page 43). A smartphone (optional). 32 We.R System User Guide Installation of the We.R System Registration of the CCUs serial number (see page 30) should also be completed. 3.2.2.1. CCU Positioning Recommendations The CCU should be installed on:
A flat surface. In a central home/office location with:
Unshielded adequate cellular coverage (if cellular communication is to be used). Close to an Internet connection outlet (modem/router connection, if Internet communication is to be used). The CCU must be activated and the system must be registered with the Service Provider (or the distributer) to enable its proper operation. The following need to be executed for the setup and activation of the CCU:
1. Remove the back cover of the CCU to reveal the battery/SIM-card compartment. 2. In case cellular is intended to be used for external communication insert the SIM-card, with its contacts facing down, as illustrated in Figure 6 below. Note: Refer to the graphic representation of the SIM-card engraved onto the plastic bottom of the cavity, next to the cards designated location. Figure 6: Insertion of the SIM-card We.R System User Guide 33 Installation of the We.R System 3. In case the Internet is intend to be used as the primary external communication channel:
Plug the LAN cable into the RJ45 socket on the back panel of the CCU and its other end into a network socket (in the Internet router or modem). LED 1 LED 2 Figure 7: Insertion of LAN Cable into the CCU Socket The CCU back panel LAN (RJ45) socket provides two (2) LED status indications, active in accordance with the IEEE 802.3u standard, as a convenient means of determining the mode of operation of the network:
i. LED1 (Green) is the Link Activity LED. It will lit steady once the network transceiver detects a valid link and will blink upon link activity (transmit/receive). ii. LED2 (Amber) is the Link Speed LED. It will turn ON once the detected link speed is 100Mbit/Sec and will turn OFF once the detected link speed is 10Mbit/Sec. A blinking LED2 indicates communication collision. 4. If there is no Internet connection available or the LAN cable is not connected, the SIM-card will be used as the primary connection channel between the We.R system and the We.R server. 34 Note: If both the SIM-card and the LAN cable are installed, the Internet will be the primary communication method and the cellular channel will be used for backup. We.R System User Guide Installation of the We.R System 5. Insert the backup battery into the battery cavity, above the SIM-card. Note: Batterys label should be facing up and the batterys contacts aiming towards the base of the CCU. Figure 8: Insertion of the Backup Battery 6. Return the battery cover back to place. 7. Plug the Power Supply's cable into the mini-USB connector on the back of the CCU. 8. Plug the adapters cube into an electric power outlet socket. The LED on the front panel of the Central Control Unit should light with orange color. 9. Place the CCU in its designated location. 10. Wait for the CCUs front panel LED to switch from orange to green color before continuing to sub-paragraph 3.2.3 below. We.R System User Guide 35 Installation of the We.R System Notes: The LED switching from orange to green indicates that the CCU is properly active. It takes approximately 5 minutes for the LED to switch. The Central Control Unit is now ready for the next step of registration and setup. Note: The initial registration is a web-only procedure and therefore could be exercised utilizing the Web Application only (cannot be done with the Mobile Application). 3.2.3. Activating the Central Control Unit Notes: This paragraph details the initial registration process of the system, utilizing the We.R Web Application software. It is a one-time procedure exercised as part of the activation of the systems Central Control Unit. The We.R Web Application is a comprehensive software package dealing not only with this initial registration procedure but with all aspects of administrating the We.R system (Status reports, peripheral devices add/remove and setup, events history, etc.). It is, therefore, recommended to read paragraph 3.3 The We.R Web Application below prior to the activation of the CCU. Activation of the CCU begins with registration of the We.R system with the Service Providers web server. Besides introducing the We.R system to the server, via the cloud, it also allows the definition of method of mobile communications. 36 Note: Typing-in the login information (email address and password) and clicking over the subsequent logging onto the We.R Web Application. button will be the only action required for We.R System User Guide Installation of the We.R System The registration procedure is done via the We.R Web Application as follows:
1. Utilizing PC running web browser software, go to the We.R Web Application by entering the Service Providers server address. Note: You may want to create a short-cut link for this address for ease of future access to the Web Application. 2. The Login window will pop-up:
Figure 9: The We.R Web Application Login Window Note: If prompted, install the Microsoft Silverlight web application framework available for free download at:
http://www.microsoft.com/getsilverlight/Get-Started/Install/Default.aspx. The button allows selection of the interfacing language. For the initial registration procedure no information need to be typed into the Email and Password fields. We.R System User Guide 37 Installation of the We.R System The Application. button will be will be used for subsequent logging into the We.R Web 3. Click over the button only. A roll-down menu will be added at the bottom of the Login window:
Figure 10: The Login Window with the Roll-down Menu 11. Click over the _Go to first time registration page >>_ option. The First Time Registration (Step 1 of 2) window will pop-up:
Figure 11: CCU First Time Registration Window 38 We.R System User Guide Installation of the We.R System 12. Type-in the 8-digits serial number recorded on page 30 (and Appendix H) and click over the validation procedure to ensure the number typed is correct. button. The Web Application software performs, at this point in time, a Clicking over the 10). button will take you back to the Login window (see above Figure In case the CCU was previously incompletely registered and this procedure started before the front CCUs LED switched to green; a Panel Not Connected error message will pop-up:
Figure 12: Panel Not Connected Error Message In case this serial number was already registered with the system; an Existing Serial Number error message will pop-up:
Figure 13: Existing Serial Number Error Message In case the serial number typed was invalid; an Invalid Serial error message will pop-up:
Figure 14: Invalid Serial Error Message We.R System User Guide 39 Installation of the We.R System In all the above error cases, clicking over the button will take you back to the Login window (see above Figure 10). 13. In case the number typed is valid, the First Time Registration (Step 2 of 2) window will pop-
up:
Figure 15: First Time Registration Step 2 Window Note: You may want to record the following registration details to Appendix H Owners Records of this guide (page 301) where important data of your system is gathered for future reference. 14. Type-in your personal details as follows:
i. _Email_ Address where systems messages and notifications will be sent to via email. ii. iii. 40 This address will also be used for subsequent login (see above Figure 9). _Password_ Required for safe login. We.R System User Guide Installation of the We.R System Note: The login password is case sensitive and must have a minimum of six
(6) alphanumeric characters. This password need to be confirmed (re-typed) in the next field _Confirm Password_. The information provided for the above fields will also be used as key-codes for subsequent accesses to the Web Application (see above Figure 9). iv. _Name_ The User Name you will be identified with in the system. This is a case-
sensitive, alphanumeric characters field. v. _Enter Mobile #_ Type-in your mobile telephone number. This data is for information records only (not used at this point in time). Use digits only in international telephone number format (for example: 972522728110). vi. _User Code_ For the We.R Mobile Application to be installed on a later stage on the smartphone, you are required to initiate a four (4) digits user identification code (an extra password). vii. _TimeZone_ Select your time-zone from the roll-down menu, to synchronize the system clock for correct email messages and notifications time-stamps. Note: The Web Application servers are always set to zero (0) UTC time zone (Zulu time). 15. Acknowledge your acceptance of the Terms & Conditions of usage for this software by marking the check-box at the bottom-left side of the window. A copy of this terms and conditions is attached to this guide as Appendix B End User License Agreement (EULA). It is also accessible via the link _Terms & Conditions and the Privacy Policy_. 16. Clicking over the button terminates the process (upon completion). We.R System User Guide 41 Installation of the We.R System Clicking over the First Time Registration Page 1 window (see above Figure 11). button, throughout the above process, bounces you back to the Clicking over the Login window (see above Figure 10). button, throughout the above process, bounces you back to the 17. If no error detected during the above procedure of entering the initial registration data, the following confirmation message will pop-up:
42 Figure 16: Registration Confirmation Message Window Within a period of approximately 5 minutes, the CCUs front LED should turn green and the registration process is concluded. Notes: If the LED remains orange (does not switch to green), it means that communication could not be established (verified and registered properly), usually due to wrong APN data. Green flashing LED means the CCU is being updated by the Remote Software Upgrade (RSU) mechanism. Clicking over the button will close this message window (but the process of connecting will continue until completed as indicated by the LED switching to green). We.R System User Guide Installation of the We.R System 3.2.3.1. Manual Access Point Name Data Registration In case a problem is encountered during the initial registration procedure, with the Access Point Name (APN) data; you need to contact the SIM-cards Cellular Operator/Service Provider and get all of the APN data. This data need to be manually typed into the registration data fields. This is done by clicking over the _APN Settings Registration >>_ menu option of the roll-down menu added to the Login window (see above Figure 10). Once the _APN Settings Registration >>_ is clicked over, the APN Settings Configuration window pops-up:
Figure 17: APN Settings Window Most market available SIM-cards APN data is pre-programmed into the We.R system and being updated on a regular basis, therefore:
1. The automatic process executed following the click over the button (see line-
item 14 on page 40) should complete the registration process with no problem. In case the process does not complete properly (the LED did not turn green):
Note: A short-form explanation regarding this process is also available online by clicking over the button. We.R System User Guide 43 Installation of the We.R System i. Call your cellular Service Provider and obtain all APN data (APN name, APN user and APN password). Note: You may want to record the APN data to Appendix H of this User Guide where important data of your system is gathered for future reference. ii. Select the _Country_ and _Operator_ (Cellular Service Provider) from the roll-down menus in the APN Settings Configuration window (see above Figure 17). iii. Manually type-in all the APN data retrieved from the Cellular Service Provider. iv. In the _SIM card of the Panel:_ field, type-in the international cellular telephone number of the SIM-card (digits only, no prefix, for example: 972522728110) and the CCUs serial number (see page 30 and Appendix H) and click over the button. v. Wait for the front panel LED to turn green (may take up to 15 minutes). In case the manual entry of APN data is done for a CCU which was already registered
(i.e. upon replacing a faulty SIM-card), the APN Settings Configuration window shown in the above Figure 17 will pop-up with the CCUs Serial Number already typed-in (but greyed-out) as illustrated in Figure 18 below:
Figure 18: APN Settings Window for a Registered CCU 44 We.R System User Guide Installation of the We.R System 2. Once the system is registered, it is recommended to add Users before proceeding to the next step of installation. See details in the below paragraph 3.3.6.4. 3.3. The We.R Web Application The We.R Web Application is classic cloud-computing software application based on the latest RIA (Rich Internet Application) technologies and utilizes Microsoft Silverlight technology. It provides smooth, fast and responsive experience along a set of tools for home security and management. The run-time environment for Silverlight is available as a plug-in for most web browsers based on the Microsoft Windows OS (Operating System). It is available for free download from:
http://www.microsoft.com/getsilverlight/Get-Started/Install/Default.aspx. Note: The previous paragraph already dealt with the Web Application, with respect to the first-time system registration only. It was a one-time procedure exercised as an action item within the process of the activation/registration of the systems CCU. This paragraph details all other aspects of the We.R Web Application. 3.3.1. The Web Application Function The Web Application provides the user with access to the following system functions:
Home monitoring, safety, security and smart home management. Self-installation and activation via the web. Dashboard page Presents:
We.R System User Guide 45 Installation of the We.R System System Status, System Activation, Device Overviews, Recent Events, Look-in via Camera. Devices page Manages system devices. History page Allows investigation of recent events including video as well as filtering of the event history log. Users page Manage Users (Master User, Standard User). Central Control Unit Signal Strength Indicator Displays the GSM signal strength (for Central Control Units with a SIM-card). APN Activation Automatic APN activation. Available for any SIM-card supporting SMS and data transfer. Notifications Tamper, Low battery, Connection Lost, power failure/restore. Chime Optional siren feature. Multilingual support. 3.3.2. Activating the Web Application Being a classic cloud-computing application, the We.R Web Application requires only a PC with an Internet browser to access and use. There is no need to download and/or install any software. 3.3.2.1. Prerequisites The following items need to be prepared before installing the We.R Web Application:
A personal computer (PC) with internet access and up-to-date browser application software (Internet Explorer 7 or higher, or Firefox 4 or higher, or Chrome browser). 46 We.R System User Guide Installation of the We.R System The Microsoft Silverlight web application framework should also be installed on the PC. It is available for free download and installation at:
http://www.microsoft.com/getsilverlight/Get-Started/Install/Default.aspx. The Service Providers web address (URL) for the We.R Web Application software. Note: You may want to create a short-cut link for this address for future ease of access to the Web Application. A smartphone (optional) for remote system management. 3.3.3. The Web Application Display Structure The screen of the We.R Web Application is divided into functional areas where:
1 Tool Bar presents some basic control tools for the We.R Web Application. 2 Status/Activation Bar For the We.R systems status display and setting of mode of operation. Displayed Data Selection Tabs used to select the type of information displayed. Data different data types selected by the tabs, for display and manipulation. 3 4 4 We.R System User Guide 47 Installation of the We.R System 1 3 2 4 Figure 19: The Web Application Display 3.3.4. The Tool Bar The Tool bar provides access to the global most common Web Application setting tools:
Figure 20: The Tool Bar The icon provides information regarding the strength of the CCUs cellular signal. It could display:
We.R System User Guide 48 Installation of the We.R System or or Signal strength meter indicating the CCUs cellular or or signal strength. No SIM-card installed in the CCU. Cellular channel communication lost. The icon provides information regarding the charge capacity of the CCU backup battery. It could display:
Battery dead Battery critical Battery low Battery normal Battery full The button launches the Settings Configuration window:
Figure 21: The Settings Configuration Window We.R System User Guide 49 50 Installation of the We.R System This window is a sub-set of the initial registration procedure (see paragraph 3.2.3. above) which allows (by tab selection):
Re-setting of the Time Zone defined in the initial registration procedure (see page 41) by selecting it from the roll-down selection menu which opens upon clicking over the button. Any change made to the previously defined Time Zone need to be saved by clicking over the button. Termination of this activity is done by clicking over the button. Manual entry of APN data; a similar process to the one described in the above sub-paragraph 3.2.3.1. Note that the CCUs _Serial #_ appears grey and cannot be edited, since we are dealing, at this point in time, with a formerly registered system. The button brings up a quick help file for APN data entry. Following the entry of all APN data, there is a need to click over the button to transfer the data onto the CCUs memory. Termination of this process is done by clicking over the button. Figure 22: Manual Entry of APN Data Window We.R System User Guide Installation of the We.R System The The button opens this We.R System User Guide document. button logs out of the Web Application and terminates its operation. 3.3.5. The Status/Activation Bar The Status/Activation bar provides, at a glance, real-time information about the system status as well as enabling basic system arming commands. Figure 23: The Status/Activation Bar Clicking over any of the three mode called for (Full Arm, Day Arm or Night Arm). arming buttons will trigger the system into the operation The system status is reflected by the image and color of the central icon as follows:
System Disarmed System (fully) Armed
(green) Burglary Alarm System Day Armed
(green)
(grey)
(red) Safety Hazard System Night Armed
(yellow)
(green) We.R System User Guide 51 Installation of the We.R System The text messages to the left of this icon word-out the meaning of the image on display. 3.3.6. The Data Window The data window allows in-depth system setup, monitoring and control. The type of data to be displayed and dealt with is presented over four (4) or six (6) pages (pending the inclusion of a Z-Wave Controller), selected by a tab bar with the following four (4) basic tab options:
Figure 24: Data Window 4-Tab Bar In case a Z-Wave controller (a Smart Home application) is installed, the basic four (4) tab bar is expanded to include two (2) more tabs dealing with the setup of Z-Wave devices and their scenarios of operation. Figure 25: Data Window 6-Tab Bar These cases will be discussed within the relevant paragraphs below. 3.3.6.1. The Dashboard Page The Dashboard page is the main (and default) page of the We.R Web Application providing an at-a-glance overview of the We.R system status. 52 We.R System User Guide Installation of the We.R System Figure 26: The Dashboard Page This data window divides into three (3) panes:
The Devices (left) pane an overview pane graphically (using icons) presenting all system defined components, their system given name and, sometimes, an additional sub-icon presenting their event or status information. System status presentation could be sorted by Device Name or Device Type by clicking over the
/
switching button. The reported items are presented by icon images, within all panes, as follows:
Central Control Unit Remote Control Unit (KF) Motion Indoor Photo Detector Indoor Siren We.R System User Guide 53 54 Installation of the We.R System Motion Detector Flood Detector Wireless Access Control Tag Reader Universal Transmitter Master User Door/Window Magnetic Sensor Smoke Detector Tag Z-Wave Controller Normal User Three (3) more devices icons are used for the Z-Wave devices presented on the Smart Home and Scenarios pages:
Z-Wave device type Doorlock Z-Wave device type Switch or Dimmer Z-Wave device type Thermostat These icons may:
Change their color in accordance with their reported event/status (i.e. turn red upon tampered event). Presented with colored items:
Door/Window Magnetic Sensor CLOSED Door/Window Magnetic Sensor OPENED Power failure Power restored We.R System User Guide Installation of the We.R System Universal Transmitter CLOSED Universal Transmitter OPENED Presented with (or by) additional sub-icon symbolizing the status or event. These additional event/status sub-icons could be:
APN failure Broken (Connection Lost) Low battery Battery FULL event Battery LOW event Battery DEAD event APN restored Connection restored Low Connection Battery NORMAL event Battery CRITICAL event Warning (i.e. tamper, power failure, etc.) The Recent Events (right) pane a detailed pane graphically (utilizing icons) presenting a log of all system defined components which participated in the last events. Data presented include time stamp (date and time) of the event and some additional text explaining the nature of the event. The presentation icons are similar to the above mentioned Devices Pane icons. The Cameras (middle) pane (sub divided into upper and lower sub-panes) is used for presentation of the images captured by the Camera devices of the system. The lower part presents a graphical (utilizing icons) list of all system defined Cameras with their system name. Clicking over one of them will present its captured images in the upper sub-pane. Clicking over the button will run them in video-like mode. In cases of special interfaces or applications (i.e. the Z-Wave Controller), not only that the Tab bar will be expanded to include two (2) additional Smart Home tabs, but the Dashboard page Devices pane will display an icon presenting the interface/application. For example, in the case of a Z-Wave Controller, the following icon will present the Z-Wave Controller:
We.R System User Guide 55 Installation of the We.R System Figure 27: The Z-Wave Controller Icon And the Dashboard would look like:
Figure 28: The Dashboard Page with Z-Wave Controller 3.3.6.2. The Devices Page The Devices page provides an overview of the We.R system defined devices and allows:
Addition or removal of Devices to the system (by Master User only). Editing (by Master User only) of their operational characteristics. 56 We.R System User Guide Installation of the We.R System Figure 29: The Devices Page This page divides into two (2) panes:
The Devices (left) pane an overview pane presenting all system defined components, their icon image (for type), their system given name/location and their current status including icon indication of their signal strength and battery level. Details of operational characteristics of the highlighted line-item (device) in the Devices pane are displayed in the pane to the right the details pane. These may be edited (by a Master User only). Any change made to these details must be saved by clicking over the button. There is an extension of operational characteristics information for the sensor devices
(i.e. IPD, PIR, MGL etc.) which may be revealed and edited by clicking over the button. This button is available only when sensor devices are selected on the left Devices pane. We.R System User Guide 57 Installation of the We.R System Master User(s) may also add new device(s) to the system by clicking over the button. A detailed explanation of such a procedure is provided within every component installation paragraph in this guide. Master User(s) may also remove device(s) from the system by selecting a device (line item in the Devices pane) and clicking over the explanation of such a procedure is provided within every component installation button. A detailed paragraph in this guide. 3.3.6.3. The History Page The History page presents the system log of events. Figure 30: The History Page This page divides into two (2) panes in addition to a log-file filter definition tool bar:
58 We.R System User Guide Installation of the We.R System The Events (left) overview left pane displaying, in sequential order, all recorded system events with:
Icon images of the items the event relates to, Description of the event, and A time-stamp (date and time) of the event. Above the Events pane there is a History filter definition toolbar enabling definition of filtered data to be displayed in the Events pane. Figure 31: The History Filter Toolbar This toolbar include the following tools to define the filter:
1) _Date From:_ defines the date from which the filter will allow pass data for display. Date is selected by clicking over the calendar-like menu for selection of the desired date. button which opens 2) _Date To:_ defines the last date allowed for the filter to pass data for display. Date is selected by clicking over the button which opens calendar-like menu for selection of the desired date. 3) _Device Name:_ allowing selection of which Devices will be presented by the filter by Devices system (given) name. The specific Device(s) are selected by clicking over the where the desired Device(s) need to be marked. button which opens a selection roll-down menu 4) _Event Type:_ allows selection of which event type(s) data will be passed by the filter for display. The specific Event(s) are selected by clicking over the button which opens a selection roll-down menu where the desired Event(s) need to be marked. We.R System User Guide 59 Installation of the We.R System 5) _User Name:_ allows selection of which of the Users related devices will be passed by the filter for display. The specific User(s) are selected by clicking over the desired User(s) need to be marked. button which opens a selection roll-down menu where the Once these filters criteria are completely defined, applying them to see the filtered results is done by clicking over the button. To clear previous filter data click over the button. The characteristics of the highlighted line-item (Event) in the Event pane are presented in the pane to the right. 3.3.6.4. The Users Page The Users page provides the system Users information. The window divides into two (2) panes:
The left overview pane provides the User name and type. The right details pane provides all required data of the highlighted User line-
item in the left pane. This data include:
The User name. The User Email address (for notifications). The User Profile Standard or Master. Notes: Unlike a Standard User, a Master User may modify the system configuration data, system Users data etc. Up to two (2) Master Users may be defined in a single system. Maximum total of 32 Users are supported by a single system. The Notification Language. The User Code (four digits) for the Mobile Application. The ability to edit the Users password. We.R System User Guide 60 Installation of the We.R System Figure 32: The Users Page Once any of the above data fields have been changed; there is a need to click over the button to store the new data into the system configuration files. New Users may be added (up to the system limits, see Table 5 on page 194) by clicking over the empty data fields on the right one to be typed-in. button. This will initiate a new line item on the left pane and Users may also be removed from the system by clicking over the specific User line item and then over the button. 3.3.6.5. The Smart Home and Scenarios Pages The Smart Home page and its associated Scenarios page, deals with Smart Home controllers like the We.R Z-Wave Controller and will be explained in paragraph 3.14.4. Activating the Z-
Wave Controller below. We.R System User Guide 61 Installation of the We.R System 3.3.6.6. Other Pages As the We.R system gains more and more applications and interfaces, special purpose pages are (and will be) added to the Data Window to provide User Interfaces for such special purposes. The explanations for these additional pages, within this User Guide, are provided in the paragraphs discussing such applications and interfaces (i.e. the Scenarios page in the We.R Z-Wave Controller). 3.4. The We.R Mobile Application Note: The We.R Mobile Application is based on the We.R Web Application and built to allow mobile (smartphones and tablet computers) administration of the We.R system. Its details below are added at this point in time, since this knowledge could serve as a helpful tool for the installation process of the system devices by allowing mobility of the installer around the premises. The We.R Mobile Application is designed for reliability and low latency, top-tier home management solution for controlling and managing the We.R system via mobile devices. It contains a communication engine ensuring everlasting connectivity to the server and a push-
notification message mechanism in case of alarms and events. The application is designed to consume minimal amount of power for battery preservation for longer time of operation. The We.R Mobile Application is available for iPhone iOS operating system (OS) for smartphones and tablets as well as for Google Android OS for smartphones and tablets. 62 Note: Differences between the Android and the iOS operating systems and smartphones might result with some minor dissimilarity between the screens captures presented below. We.R System User Guide Installation of the We.R System It features the following home management functions:
Push notifications for triggered events System status Arm activation (Full Arm, Day Arm, Night Arm) Look-in via live imaging Events history and filtering of events history View GSM signal strength (for CCU model with a SIM-card) Multilingual support Device statuses Smart Home control via Z-Wave devices (i.e. thermostat, dimmer, doorlock) 3.4.1. Downloading and Installing the We.R Mobile Application The Mobile Application, for both Apple iPhone (iOS) and Android users, may be downloaded later from the following QR-code link:
(or search within Apples App Store or Googles Play for We.R) These applications guide the user through all phases of the identification, installation and registration process. Once the software is downloaded and the installation process has ended, the following Login screen will pop-up:
We.R System User Guide 63 Installation of the We.R System Figure 33: The Login Screen Similar to the First Time Registration procedure (see above page 40), in this screen you need to type-in the following information:
1. _Email:_ Your email address for push messages and notifications. This need to be the same address provided within the above-mentioned First Time Registration procedure. 2. _Password:_ Your password. This need to be the same password provided within the above-mentioned First Time Registration procedure. 3. _User Code:_ User Code initiated within the above First Time Registration procedure. 4. _IP/Hostname:_ The Service Providers URL. This IP address (or Hostname) is provided to you by the We.R dealer where you purchased the We.R system, usually on a sticker attached to the box. The last two items has an additional explain the content of the field. icon which, by clicking over it, provides help text to The virtual keyboard on this screen has some special keys:
64 We.R System User Guide Installation of the We.R System Key Name Icon Description Backspace Uppercase Numeric Language Used to erase characters. Used for globally switching the keyboard between upper and lower case characters. Used for globally switching the keyboard between alphabetic keys and numeric keys. Used for globally switching the keyboard character-set between languages. COM Shortcut This is a shortcut key inserting the .COM extension for Email and IP/Hostname fields. Once all data is properly typed-in, this key terminates the Login data entry process and sends the data to the servers. Table 3: Special Keys on the Login Virtual Keyboard Go In addition to the above-mentioned keys, there is another special key, on the top-right end of the screen, allowing immediate login following entry of all data fields
. 3.4.2. Limitations of the We.R Mobile Application As mentioned before, the We.R Mobile Application is an extension of the Web Application. But, being a mobile application running over the limited resources of mobile devices and their operating systems, some of the Web Applications features had to be omitted. These are:
The Mobile Application does not allow settings (adding/modifying) of system Users. The Mobile Application does not allow settings (adding/modifying) of system Devices. In addition, if the We.R Mobile Application is installed on multiple mobile devices for a specific User, the push notifications might not be received by all of them. We.R System User Guide 65 Installation of the We.R System 3.4.3. Using the Mobile Application The installation of the We.R Mobile Application creates, among other things, an icon on the mobile devices main screen. Tapping over this icon will activate the We.R Mobile Application. Figure 34: The Mobile Application Icon If never registered before, the first screen to pop-up is presented in Figure 33 above. The registration need to be completed (see paragraph 3.4.1 above) prior to the usage of the Mobile Application. 3.4.3.1. The User Code Screen In case the Mobile Application was properly installed and registered, the first screen to pop-up is:
66 Figure 35: The User Code Login Screen We.R System User Guide Installation of the We.R System Type-in the 4-digits User Code set during the registration procedure described in the above paragraph 3.4.1. The virtual keyboards backspace button may be used for deletion of erroneous input while the button allows termination of the Login process. 3.4.3.2. The Home Status (Main) Screen Once the correct User Code is typed-in, the Mobile Application logs onto the Service Providers servers and becomes fully functional. The opening screen to pop-up next is the Home Status (Main) screen:
Figure 36: The Home Status Screen The Home Status is similar, in appearance and functionality, to the Web Applications We.R Dashboard Page (see above sub-paragraph 3.3.6.1):
1. The icon on the top-left side of the screen is a RF signal strength meter of the CCUs cellular signal. It could display:
We.R System User Guide 67 Installation of the We.R System or or or or Signal strength meter indicating the CCUs cellular signal strength. No SIM-card installed in the CCU. Cellular channel communication lost. 2. Tapping over the button at the top-right side of the screen, will switch the mobile device into the Settings screen (see Figure 38 below) where you may:
i. Log out of the We.R Mobile Application by tapping over the
. ii. Select temperate display units between Celsius and Fahrenheit with the
. iii. Bring up the system information page by tapping over the
. This will open the following screen:
Figure 37: The About Screen This page provides the We.R Mobile Application software version, the registered User email address and the CCU (Panel) type. 68 We.R System User Guide Installation of the We.R System Tapping over the button will switch the screen back to the Settings screen. iv. View the Service Providers servers address (URL) with Figure 38: The Settings Screen Upon completion of settings, terminate the session by tapping over the button. 3. The center piece is similar, in appearance and functionality, to the Web Applications Status/Activation Bar (see above paragraph 3.3.5) providing, at a glance, real-time information about the system status as well as enabling basic system arming commands;
Tapping over any of the three arming buttons (
,
,
) will trigger the system into the operation mode called for (Full Arm, Day Arm or Night Arm), just like the arming buttons in the Status/Activation Bar. We.R System User Guide 69 Installation of the We.R System Note: Definition of arming modes is set via the We.R Web Application only, utilizing the Devices Page. See paragraph 4.5. Managing Devices below The system status is reflected by the image and color of the central icon as follows:
System Disarmed System (fully) Armed
(green) Burglary Alarm System Day Armed
(green)
(grey)
(red) Safety Hazard System Night Armed
(yellow)
(green) The text messages, on top of this icon, word-out the meaning of the image on display. 4. The Tab Bar at the bottom of the screen provides similar functionality to the Tab Bar of the We.R Web Application allowing quick access to the different display functions (screens) of the We.R Mobile Application. 70 Figure 39: The Home Status Screen Tab Bar The Status Tab/screen returns the mobile devices display to the Home Status (Main) screen (see above Figure 36). We.R System User Guide Installation of the We.R System The Video Tab/screen allows comfort (non-alarm triggered, initiated by the User) view of the environment where the camera is installed. Tapping over the Video Tab will switch the display to the Take Video screen (see Figure 40 below). This screen displays all cameras included in your system and the desired camera should be selected out of this list. Figure 40: The Take Video Screen To refresh the Available Cameras list tap over the button. Tapping over one of the cameras in the list will select it and will switch the screen into a camera display screen presenting the view in front of the camera. The square button at the bottom of this screen is your Play/Pause switch. Tapping over the button will terminate the comfort video session and return the display to the Home Status (Main) screen (see above Figure 36). We.R System User Guide 71 Installation of the We.R System Figure 41: Comfort View of Camera The Devices Tab/screen opens a status screen presenting all system devices and their events/status icons similar to the Devices Page of the We.R Web Application:
Figure 42: Devices Screen 72 We.R System User Guide Installation of the We.R System Tapping over the button refreshes the content of this status screen. The devices icons are similar to the icons used in the We.R Web Application:
Central Control Unit Remote Control Unit (KF) Motion Indoor Photo Detector Motion Detector Flood Detector Wireless Access Control Tag Reader Universal Transmitter Master User Indoor Siren Door/Window Magnetic Sensor Smoke Detector Tag Z-Wave Controller Normal User Three (3) more devices icons are used for the Z-Wave devices presented on the Smart Home and Scenarios pages:
Z-Wave device type Doorlock Z-Wave device type Thermostat Z-Wave device type Switch or Dimmer We.R System User Guide 73 74 Installation of the We.R System These icons may:
Change their color in accordance with their reported event/status (i.e. turn red upon tampered event). Presented with colored items:
Door/Window Magnetic Door/Window Magnetic Sensor CLOSED Power failure Sensor OPENED Power restored Universal Transmitter Universal Transmitter CLOSED OPENED Presented with (or by) additional sub-icon symbolizing the status or event. These additional event/status sub-icons could be:
APN failure Broken (Connection Lost) Low battery Battery FULL event Battery LOW event APN restored Connection restored Low Connection Battery NORMAL event Battery CRITICAL event Battery DEAD event Warning We.R System User Guide Installation of the We.R System Note: As mentioned before, the We.R Mobile Application allows devices status display only and cannot be used for their setup. The Smart Home Tab/screen opens a status screen for all system Z-Wave devices with their events/status icons similar to the Smart Home Page of the We.R Web Application:
Figure 43: Smart Home Screen Tapping over the button refreshes the content of this screen. The devices icons are similar to the icons used in the We.R Web Application:
Z-Wave device type Doorlock Z-Wave device type Thermostat Z-Wave device type Switch or Dimmer We.R System User Guide 75 76 Installation of the We.R System For switch-mode devices (Z-Wave Switch and Dimmer class), switching the device ON and OFF is possible directly from this screen by tapping over the button. For devices which may present more details, an is added to the right. Tapping over this will switch the display into a new screen expanding on the information related to the specific device. For example:
Expansion screen for Dimmer class devices:
Figure 44: Dimmer Class Device Expansion Screen The button provides device ON/OFF switching function (similar to the above mentioned button). The level. slide control provides analog control of the dimmer Once all features are set, going back to the Smart Home screen is done by tapping over the button. We.R System User Guide Installation of the We.R System Expansion screen for Thermostat class devices:
Figure 45: Thermostat Class Device Expansion Screen The button provides device ON/OFF switching function (similar to the above mentioned button). The heating. switch provides selection between cooling and The is a multi-level fan speed selector where each tap progress the speed in one step. The temperature display is set by the Settings screen (see Figure 38 above). is an up/down temperature setting selector where the Once all features are set, going back to the Smart Home screen is done by tapping over the button. We.R System User Guide 77 Installation of the We.R System The History Tab/screen opens a screen presenting the complete log of the system events:
Figure 46: History of Events Log Screen Note: Devices which may present history with more details are marked with icon on the right. Tapping over the icon will switch the display into a new screen expanding the history information related to the specific device and event. You may refresh this screen by tapping over the button. You may also limit the amount of data displayed by filtering it. To filter the data, tap over the
(see Figure 47 below). button. A filter tool bar will pop up above the log We.R System User Guide 78 Installation of the We.R System Figure 47: Events History Screen with Filter Tool Bar The tool bar provides four (4) filtering criteria:
Figure 48: Filter Criteria From Date defines the first date to be included on display. Tapping over this button will open a calendar-style menu, out of which the first date to be included in the report should be selected. To Date defines the last date to be included on display. Tapping over this button will open a calendar-style menu, out of which the last date to be included in the report should be selected. We.R System User Guide 79 80 Installation of the We.R System All Devices defines which devices events will be included on display. Tapping over this button will open the following screen:
Figure 49: Devices Criteria Selection Screen Presented in this screen are all system defined devices, out of which you may select those that you want to be included in the Events History report screen
(i.e. Sirens only, PIRs + Sirens, etc.). Selection may be done either by tapping over each device you need or by tapping over the button to select all devices. Once selection was made, you need to tap over the button to go back to the Events History screen (see Figure 47 above). All Events defines which types of events will be included on display. Tapping over this button will open the following screen:
We.R System User Guide Installation of the We.R System Figure 50: Events Criteria Selection Screen Presented in this screen is a log of all system events, out of which you may select those that you want to be included in the Events History report screen
(i.e. Panic Alarms, Low Batteries + New Batteries events, etc.). Selection may be done either by tapping over each event you need or by tapping over the button to select all events. Once selection was made, you need to tap over the button to go back to the Events History screen (see Figure 47 above). Once all filter criteria are set, the Events History report screen need to be refreshed, by tapping over the button, to see the filtered report. Logical conjunction results (filtered results) of ALL the above criteria will be displayed on this screen as soon as these criteria are defined and the upon. button is tapped We.R System User Guide 81
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Installation of the We.R System 3.5. The Remote Control Unit (KF) ES800KF The Remote Control Unit (KF) is a bi-directional ultra-compact We.R system control device with advanced functions for security and automation. Figure 51: The Remote Control Unit (KF) 3.5.1. The Remote Control Unit (KF) Function The Remote Control Unit (KF) incorporates the following functions:
End-to-End bi-directional Essence proprietary communication protocol. LED visual indication of system status (Armed/Alarm triggered). Serves as personal SOS alarm device (panic button). 5 command keys to perform:
82 Status ARM DISARM Night ARM Day ARM SOS (panic) Figure 52: The Remote Control Units Command Keys We.R System User Guide Installation of the We.R System Remote deactivation in case of loss or theft. Powered by a single 3V CR2450 lithium battery. Long operation period (over 24 months). Protection mechanisms against inadvertent activation. Supports automatic over-the-air software upgrade programming and configuration. 3.5.2. Installing and Activating the Remote Control Unit (KF) Prepare the 3V CR2450 lithium (coin) battery for the KF device before adding it to the system. Note: You may also want to refer to paragraph 5.1 below to get acquainted with the process of installing/replacing a battery in the KF. 1. Press any of the KFs keys for a while to discharge its circuit. 2. Release the cover of the KF battery compartment by inserting a coin into the slot and turning the cover a quarter of a circle (90o) counter-clockwise until the two small bumps align (facing each other) as presented in Figure 53 below:
Figure 53: Releasing the Remote Control Units Battery Cover We.R System User Guide 83 3. Remove the cover. 4. Activate the Web Application. Installation of the We.R System 5. Click over the Devices tab and then over the button. 6. A roll-down menu will open where you need to select Add Key Fob. Figure 54: Add Device Roll-down Menu Figure 55: First Steps of Adding a New Device We.R System User Guide 84 Installation of the We.R System 7. Add Device window will pop-up (see Figure 56 below). 8. Verify that Device Type is Key Fob. Figure 56: Add Device Window Key Fob 9. Click over the button to open the list of all pre-defined system Users (see paragraph 3.3.6.4 above). Note: The Remote Control Unit is a specific User device therefore; its User need to be defined/added prior to the following described User assignment. 10. Select the specific User this Remote Control Unit (KF) should be assigned by clicking over its name. 11. Click over the button to assign the Remote Control Unit (KF) to its specified User. 12. The assigned User name will be displayed on the Add Device window (above Figure 56). 13. The timer will start its count-down. It provides a time-frame of three (3) minutes within which the battery should be installed. We.R System User Guide 85 Installation of the We.R System Note: In case the installation of the battery could not be completed within the three (3) minutes period, it is possible to restart the process by applying steps 3 (page 84) and onwards again. 14. Insert the battery into the Key Fobs cavity with its pole facing out/up as demonstrated in Figure 57 below. Figure 57: Inserting the Remote Control Units Battery 18. Seal the cover by turning it a quarter of a circle (90o) clockwise. 19. A built-in software will:
i. ii. Trigger a self-test program which will cause the Remote Control Units entire front panel LEDs to blink twice to indicate that the battery was properly installed. Triggers an automatic software handshake procedure in which the KF communicates with the Central Control Unit to flag its presence. 20. Other ways to verify that the Remote Control Unit (KF) was properly added to the system are:
i. By pressing the Status key to see the right status LED turning ON (see sub-
paragraph 3.5.3 below), or, 86 We.R System User Guide Installation of the We.R System ii. By checking the details of the We.R Web Applications Devices page to see that the Key Fob icon is on display. 3.5.3. The Remote Control Unit (KF) Status Reporting Table 4 below summarizes all possible states of the Key Fob LED display, presented following press over the Status Key. LED (under key) Status Duration Description Status Disarm Night Arm Day Arm
(full) Arm All LEDs We.R System User Guide Short A quick press on the Status key will turn ON the status LED correlating with the current system status. Blinking LED following an additional press over another key means the KFs battery is low. Short System fully dis-armed. Short System partially armed in accordance with night scenario defined from within the Web Application. Short System partially armed in accordance with day scenario defined from within the Web Application. Short System is fully armed. Five (5) times An alarm was triggered (burglary in progress). ON red ON red ON red ON red ON red Blinks red Table 4: Remote Control Unit (KF) LED Indications 87 Installation of the We.R System 3.6. The Motion Indoor Photo Detector (IPD) ES800IPD The Motion Indoor Photo Detector (referred to as Camera or IPD) is a We.R indoor sensor combining Passive Infrared (PIR) motion detector with a video-like, high-resolution, full-color, JPEG images capturing camera. Accessories available for the Camera:
Double-sided adhesive tape. Pet immune lens (upon request). Figure 58: The Motion Indoor Photo Detector 3.6.1. The Motion Indoor Photo Detector Function The Motion Indoor Photo Detector (IPD) incorporates the following functions:
88 We.R System User Guide Installation of the We.R System Both security and comfort look-in motion detected image sequences via a smartphone and the Web Applications. On-demand or PIR-triggered photo verification capabilities captures high resolution, full-color JPEG images at rate of up to 5 frames per second, with automatic selection of quality/resolution from 80x60 to 640x480. Compresses the photos data streams sent in real-time via ECOP RF to the CCU. These streams are relayed to a designated device (smartphone, computer, etc.). On-board Flash Memory for Video clip re-transmissions. Data security is ensured with 128-bit AES encryption. Up to 500m (1640 feet) RF range (open air) communication. Employs sealed optics and temperature compensation for the PIR to become immune to direct light, insects, and pets (optional) for reduction of false alarms. Utilizes multi-zone spherical lens for exceptional detection coverage (120o horizontal, 105o vertical) and detection range of about 12m (40ft). Supports automatic over-the-air software upgrade programming and configuration. Tamper Alarm when the unit is tilted. Provides long operation period (pending video look-in usage) while powered by three
(3) standard AA-size Alkaline batteries. Super bright white LED (flash) for intruder pre-emption in total darkness. Shooting Angle: 67. Shooting Range: Up to 10m (33ft). 3.6.1.1. The Camera Modes of Operation The Camera can be used in two different modes of operation:
Security Mode Captures images of intruders caught "red-handed". Comfort Mode Remotely activated allowing users to see (via Web Application or the mobile devices) what happens within the premises, whenever desired. We.R System User Guide 89 3.6.2. Installing the Camera Installation of the We.R System Note: Rattling sounds might be heard during the installation process of the Camera. This is the internal tampering prevention mechanism and no damage was made to the Camera. The Camera can be mounted on a wall or the corner of a room using the mounting base. The mounting base is the Camera back cover which should be disassembled from the Camera, as demonstrated in Figure 59 below, and attached to the wall either by the double-
sided tape (pre-attached to the base) or using screws as demonstrated in Figure 60 below. 90 Figure 59: Releasing the Camera Wall Mounting Base We.R System User Guide Installation of the We.R System 3.6.2.1. Camera Positioning Recommendations Note: The Camera MUST always be installed with the lens pointing down. For optimal surveillance, the following factors must be taken into consideration when selecting the Camera mounting position:
A flat vertical wall surface, or In a corner of a room (between two walls). Attach the Camera to a surface that is clean, dry, flat and smooth. The Camera must be installed with the spherical lens pointing down. The Camera should not be facing sunlight or other strong light sources including installation opposite to a window. The Camera should be placed in a position where it will capture images from the main point of entry. For maximal effective detection range, the center of the Camera should be installed 2.1 meters (6.9ft) to 2.3m (7.5ft) above the floor. Note: Lower positioning of the Camera will limit its detection range. For daytime coverage the Camera must be mounted within 10m (33ft) of the desired coverage area. For both day and nighttime coverage the Camera must be mounted within 6m (20ft) of the desired coverage area. The Camera must be mounted within 700m (2300ft) (open air nominal) of the CCU. The wall mounting base includes eight (8) holes to allow maximum flexibility of installation. We.R System User Guide 91 Installation of the We.R System Extra holes are punch-outs (covered with thin plastic) that may be removed if necessary. 3.6.2.2. Installing with Screws 1. Release the Camera wall mounting back cover by lifting the tab and pushing it forward as illustrated in Figure 40 above. 2. For Flat Wall Mounting:
i. Use a flat screwdriver to remove the punch-outs 1 and 2 (see Figure 41 above). ii. Place and hold the base on the desired mounting location and mark the drilling locations (the above-mentioned punch-outs 1 and 2). iii. Drill the holes; insert two (2) dowels if needed, place the base over them and screw in the two (2) screws. 8 7 6 3 4 5 1 2 Figure 60: Camera Wall-mounting Base with Screws 92 We.R System User Guide Installation of the We.R System 3. For Corner Mounting:
i. Repeat the above while using punch-outs 3 to 8 as required. 3.6.2.3. Installing with Pre-attached Double-side Tape 1. Release the Camera wall mounting base (above Figure 59). 2. Peel the tapes protective covers where needed (position pending). 3. Clean the surfaces were the Camera should be installed. 4. Attach the wall mounting base to its designated location while applying slight pressure. 5. Slide the Camera into the wall mounting base. 3.6.2.4. Dismounting the Camera Figure 61: Dismounting the Camera We.R System User Guide 93 Installation of the We.R System 3.6.3. Adding the Camera to the We.R System The Camera need to be functionally added to the system following the above described physical installation procedure. The addition of the Camera is a standard Add Device procedure performed as follows:
Note: You may also want to refer to paragraph 5.1 below to get acquainted with the process of installing/ replacing a battery in the Camera. 1. Prepare the three (3) AA-size Alkaline batteries required to power the Camera. 2. Assuming the wall mounting base is already installed release the batteries (inner) cover. The release is done by pressing against the inner base (battery cover) tab and twist-lift of the cover up as demonstrated in Figure 62 below:
94 Figure 62: Opening the Camera Inner Batteries Cover We.R System User Guide Installation of the We.R System 3. Activate the We.R Web Application. 4. Select the Devices page (tab) and click over the button. 5. A roll-down selection menu will open. 6. Click over the _Add Camera_ option of the menu as illustrated in Figure 63 below:
Figure 63: Add Camera Device Utilizing Web Application 7. An Add New Device (Camera) window will pop-up and its timer will start running. 8. Verify that the Device Type is Camera. We.R System User Guide 95 Installation of the We.R System Figure 64: Add Camera Window 9. The down-counter provides a time-frame of three (3) minutes within which the batteries should be installed to power-up the camera, as demonstrated in Figure 65 below (the poles aiming towards the lens):
96 Figure 65: Inserting Batteries into the Camera We.R System User Guide Installation of the We.R System Note: In case the installation of the batteries could not be accomplished within the three (3) minutes period, it is possible to restart the process by applying step 3 (on page 95) and onwards again. 10. Batteries insertion triggers a handshake process in which the Camera communicates with the CCU to inform it of its presence and the CCU add it to its peripherals inventory. 11. If the CCU did not detect the new Camera within this time-frame, the following error (
) message will appear within the Add New Device window:
Figure 66: Add New Camera Timeout Error Message Click over the button to re-initiate the Add New Device process by. Clicking over the button will terminate the Add New Device process. 12. If the new Camera was properly detected by the CCU within this time-frame, the counter will freeze and a Device Properties sub-window will appear within the Add New Device window, where the Cameras system name/location needs to be typed-in. We.R System User Guide 97 Installation of the We.R System Figure 67: Add New Camera Device Properties Clicking over the Camera is added onto the system configuration. button will end the Add New Device process while the new 13. Clicking over the button will enlarge this sub-window for further possible definitions of the Cameras operation modes. 98 Figure 68: Add New Camera Detailed Device Properties We.R System User Guide Installation of the We.R System In the case of a Camera, these definitions include:
Camera arming scenarios Armed Camera detection response Unarmed Camera detection response These details may be added or edited later, by a Master User, from within the We.R Web Applications Devices page. Note: Paragraph 4 below discuss details of such definitions. Clicking over the Camera is added onto the system configuration with more detailed definitions. button will end the Add New Device process while the new 14. Carefully insert the batteries cover back to place and firmly close it down. 15. You may verify that the Camera (IPD) was properly added by checking the details of the We.R Web Applications Devices page. Note: Advanced Configuration of the Camera can be found in paragraph 4.5.4 below. 3.6.4. The Camera Operational Modes The We.R system has two operational modes for the IPD devices:
Walk Test Mode Normal Operation Mode We.R System User Guide 99 Installation of the We.R System 3.6.4.1. Walk Test Mode The Walk Test Mode is a test mode used following a device power-up (replacement of a battery or once a new Camera was added) for initial testing of the system functionality. This test runs for about 10-minutes and during this period the device sends an event to the Central Control Unit following detecting an actual event. 3.6.4.2. Normal Operation Mode Following the termination of the Walk Test Mode (i.e. after 10 minutes), the system switches the Camera into Normal Operation Mode. This mode saves Camera battery power. In this mode, the Camera switches into 2 minutes hibernation period following a detection event. This means that the Camera will not transmit events to the Central Control Unit during this period. If a detection event occurs during this hibernation, the timer counting the 2 minutes will restart and count the 2 minutes period again. This process will repeat itself until there is no detection for the entire 2 minutes. Following the 2 minutes hibernation period, the Camera will be switched back to normal triggering mode of operation. Note: Advanced Configuration of the Camera can be found in paragraph 4.5.4 below. 3.7. The Motion Detector (PIR) ES800PIR The Motion Detector is a battery operated bi-directional wireless Passive Infrared Detector
(PIR). It utilizes Essences unique white 4th generation DragonflyEye Multi-Zone spherical lens with a optional pet immune feature and advanced detection algorithms for false alarm suppression and excellent detection. The Motion Detector's ease of installation and long battery life result in reduced operational costs. 100 We.R System User Guide Installation of the We.R System Accessories available for the Motion Detector:
Double-sided adhesive tape. Pet immune lens (upon request). Figure 69: The Motion Detector 3.7.1. The Motion Detector Function The Motion Detector incorporates the following functions:
Data security is ensured with 128-bit AES encryption. Up to 500m (1640 feet) RF range (open air) communication. We.R System User Guide 101 Installation of the We.R System Employs sealed optics and temperature compensation for the Motion Detector to become immune to direct light, insects and pets (optional) for reduction of false alarms. Utilizes multi-zone spherical lens for exceptional detection coverage (90o horizontal, 105o vertical) and detection range of about 12m (39ft). Supports automatic over-the-air software upgrade programming and configuration. Walk test mode. Tamper Alarm when the unit is tilted. Provides long operation period while powered by two (2) standard AA-size Alkaline batteries. 3.7.2. Installing the Motion Detector Note: Rattling sounds might be heard during the installation process of the Motion Detector. This is the internal tampering prevention mechanism and no damage was made to the Motion Detector. The Motion Detector can be mounted on a wall, or the corner of a room using the mounting base. The mounting base is the Motion Detector back cover (also serving the purpose of batteries cover), which should be disassembled from the Motion Detector, as demonstrated in Figure 70 below, and attached to the wall either by the double-sided tape (pre-attached to the base) or using screws as demonstrated in Figure 71 below. 102 We.R System User Guide Installation of the We.R System Figure 70: Releasing the Motion Detector Wall Mounting Base 3.7.2.1. Motion Detector Positioning Recommendations Note: The Motion Detector MUST always be installed with the spherical lens pointing down. For optimal surveillance, the following factors must be taken into consideration when selecting the Motion Detector mounting position:
A flat vertical wall surface, or In a corner of a room (between two walls). Attach the Motion Detector to a surface that is clean, dry, flat and smooth. We.R System User Guide 103 Installation of the We.R System The Motion Detector must be installed with the spherical lens pointing down. The Motion Detector should not be facing sunlight or other strong light sources including installation opposite to a window. For maximal effective detection range, the center of the Motion Detector should be installed 2.1 meters (6.9 ft.) to 2.3m (7.5 ft.) above the floor. Note: Lower positioning of the Motion Detector will limit its detection range. The Motion Detector must be mounted within 700m (2300ft) (open air nominal) of the CCU. The wall mounting base includes eight (8) holes to allow maximum flexibility of installation. Six out of these eight are extra holes (punch-outs covered with thin plastic) that may be removed if necessary. 8 7 6 3 4 5 1 2 Figure 71: Motion Detector Wall-mounting Base with Screws We.R System User Guide 104 Installation of the We.R System 3.7.2.2. Installing with Screws 1. Release the Motion Detector wall mounting base by lifting the tab and pushing it forward as demonstrated in Figure 70 above. 2. For Flat Wall Mounting:
i. Use a flat screwdriver to remove the punch-outs 1 and 2 (see Figure 71 above). ii. Clean the surface where the Motion Detector is to be installed. iii. Place and hold the base on the desired mounting location and mark the drilling locations (the above-mentioned punch-outs 1 and 2). iv. Drill the holes; insert two (2) dowels if needed, place the base over them and screw in the two (2) screws. 3. For Corner Mounting:
i. Repeat the above while using punch-outs 3 to 8 as required. 3.7.2.3. Installing with Pre-attached Double-side Tape 1. Release the Motion Detector wall mounting base (above Figure 70). 2. Peel the tapes protective covers where needed (position pending). 3. Attach the wall mounting base to its designated location while applying slight pressure. 4. Slide the Motion Detector into the wall mounting base. 3.7.2.4. Dismounting the Motion Detector For dismounting the Motion Detector from the wall (i.e. in case of battery replacement), press the wall mounting base's tab at the bottom of the Motion Detector and slide it downwards simultaneously, as demonstrated in the below Figure 72. We.R System User Guide 105 Installation of the We.R System Figure 72: Dismounting the Motion Detector 3.7.3. Adding the Motion Detector to the We.R System The Motion Detector need to be functionally added to the system following the above described physical installation procedure. Addition of Motion Detector device is a standard Add Device procedure performed as follows:
106 We.R System User Guide Installation of the We.R System Figure 73: Add Motion Detector Device Utilizing Web Application Note: You may also want to refer to paragraph 5.1 below to get acquainted with the process of installing/ replacing a battery in the Motion Detector. 1. Prepare the two (2) AA-size Alkaline batteries required to power the Motion Detector. 2. Activate the We.R Web Application. 3. Select the Devices page (tab) and click over the button. 4. A roll-down selection menu will open. 5. Click over the _Add Motion Detector_ option of the menu as illustrated in Figure 73 above:
We.R System User Guide 107 Installation of the We.R System 6. An Add New Device (Motion Detector) window will pop-up and its timer will start running. Figure 74: Add Motion Detector Window 7. Verify that the Device Type is Motion Detector. 8. The down-counter provides a time-frame of three (3) minutes within which the batteries should be installed to power-up the camera, as demonstrated in Figure 75 below (the poles aiming towards the top end of the device):
108 Figure 75: Inserting Batteries into the Motion Detector We.R System User Guide Installation of the We.R System Note: In case the installation of the batteries could not be accomplished within the three (3) minutes period, it is possible to restart the process by applying step 1 (on page 107) and onwards again. 9. The insertion of batteries into the Motion Detector triggers a handshake process in which the Motion Detector communicates with the CCU to inform it of its presence and the CCU add it to its peripherals inventory. 10. If the CCU did not detect the new Motion Detector within this time-frame, the following error (
) message will appear within the Add New Device window:
In such a case, it is possible to re-initiate the Add New Device process by clicking over the button. Clicking over the button will terminate the Add New Device process. Figure 76: Add New Motion Detector Timeout Error Message 11. If the new Motion Detector was properly detected by the CCU within this time-frame, the counter will freeze and a Device Properties sub-window will appear within the Add New Device window, where the Motion Detectors system name/location needs to be typed-in. We.R System User Guide 109 Installation of the We.R System Figure 77: Add New Motion Detector Device Properties Clicking over the Motion Detector is added onto the system configuration. button will end the Add New Device process while the new 12. Clicking over the button will enlarge this sub-window for further possible definitions of the Motion Detectors operation modes. 110 Figure 78: Add New Camera Detailed Device Properties We.R System User Guide Installation of the We.R System In the case of a Motion Detector these definitions include:
Motion Detector arming scenarios Armed Motion Detector response Unarmed Motion Detector response These details may be added or edited later, by a Master User, from within the We.R Web Applications Devices page. Clicking over the button will end the Add New Device process while the new Motion Detector is added onto the system configuration with more detailed definitions. 16. You may verify that the Motion Detector (PIR) was properly added by checking the details of the We.R Web Applications Devices page. Note: Advanced Configuration of the Motion Detector can be found in paragraph 4.5.4 below. 3.7.4. The Motion Detector Operational Modes The We.R system has two operation modes for the Motion Detector devices:
Walk Test Mode Normal Operation Mode 3.7.4.1. The Walk Test Mode The Walk Test Mode is a test mode used following a device power-up (replacement of a battery or after adding the Motion Detector as a new system device) for initial testing of the system functionality. We.R System User Guide 111 Installation of the We.R System This test runs for about 10-minutes and during this period the device sends an event to the Central Control Unit following detecting an actual event. 3.7.4.2. The Normal Operation Mode Following the termination of the Walk Test Mode (i.e. after 10 minutes), the system switches the Motion Detector into Normal Operation Mode. This mode saves Motion Detector battery power. In this mode, the Motion Detector switches into 2 minutes hibernation period following a detection event. This means that the Motion Detector will not transmit events to the Central Control Unit during this period. If a detection event occurs during this hibernation, the timer counting the 2 minutes will restart counting the 2 minutes. This process will repeat itself until there is no detection for the entire 2 minutes. Following the 2 minutes hibernation period, the Motion Detector will be switched back to normal triggering mode of operation. Note: Advanced Configuration of the Motion Detector can be found in paragraph 4.5.4 below. 3.8. The Door/Window Magnetic Sensor (MGL) ES800MGL The Magnetic Sensor (MGL) is a We.R Door/Window Magnetic Sensor/Detector. This sensor device consists of two (2) parts a smaller passive magnet unit (the Magnet) and a larger magnetic detector with a RF transmitter unit (the Transmitter). Accessories available for the Magnetic Sensor:
112 Double-sided adhesive tape on both the Transmitter and the Magnet. We.R System User Guide Installation of the We.R System Figure 79: The Magnetic Sensor 3.8.1. The Magnetic Sensor Function The Magnetic Sensor incorporates the following functions:
Bi-directional wireless sensor. Detect opening and closing of doors, windows, cabinets, etc. Dual-LED indication for Open (red) and Close (green) status. Data security is ensured with 128-bit AES encryption. Up to 500m (1640 feet) RF range (open air) communication. Unique electronic serial number. Supports automatic over-the-air software upgrade programming and configuration. Tamper Alarm when the transmitter unit is ripped off its base. Provides long operation period while powered by a single standard AA-size Alkaline battery. 3.8.2. Installing the Magnetic Sensor The Magnetic Sensor can be mounted on a door or a window using the mounting bases. We.R System User Guide 113 Installation of the We.R System Figure 80: Releasing the Transmitter Base Installation instructions will be divided into two parts:
The installation of the Transmitter The installation of the Magnet The mounting base, of both parts, is the Magnetic Sensor back cover (in the Transmitter unit it also serves the purpose of battery cover). For the Transmitter unit, the base should be disassembled from the Transmitter body, as demonstrated in Figure 80 above, and attached to the wall either by the double-sided tape
(pre-attached to the base) or using screws as demonstrated in Figure 83 below. 3.8.2.1. Magnetic Sensor Positioning Recommendations For optimal surveillance, the following factors must be taken into consideration when selecting the Magnetic Sensor mounting position:
A flat vertical window or door surface. Attach the Magnetic Sensor (applicable for both parts) to a surface that is clean, dry, flat and smooth. 114 We.R System User Guide Installation of the We.R System The Magnetic Sensor must be mounted within 700m (2300ft) (open air nominal) of the CCU. Typically, the Transmitter unit will be attached onto the fixed frame of the window/door while the Magnet unit to the moving edge. Figure 81: Typical Location for Magnetic Sensor Installation Special attention should be given, throughout the installation process of the Magnetic Sensor, to the final arrangement of the two units they should end up aligned to each other (dot-to-dot) as demonstrated in Figure 82 below, as well as mounted with 1-2mm
(0.04-0.08 in.) gap between them when door/window is closed. Figure 82: Dot Alignment of the Magnetic Sensor Units We.R System User Guide 115 Installation of the We.R System 3.8.2.2. Installing the Transmitter Unit with Screws 1. Release the Transmitter units base by inserting a coin into one of the edge slots, as demonstrated in the above Figure 80, and twist it to open the cover. 2. Use a flat screwdriver to remove the punch-outs 1 and 2 (see Figure 83 below). 1 2 Figure 83: Magnetic Sensor Transmitter Unit Base with Screws 3. Place and hold the base on the desired mounting location on the window/door frame and mark the drilling locations (the above-mentioned punch-outs 1 and 2). 4. Drill the holes; insert two (2) dowels if needed, place the base over them and screw in the two (2) screws. 5. Attach the Transmitter Unit back to its base. 3.8.2.3. Installing with Pre-attached Double-side Tape Due to the common installation (door/window) of the Magnetic Sensor, the pre-attached double-sided tape will be mostly used for both the Transmitter and the Magnet units. 1. For the Transmitter unit release the base (see above Figure 80). 116 We.R System User Guide Installation of the We.R System 2. No need to release the base of the Magnet unit. 3. Peel the tapes protective covers of both units. 4. Attach the base of each unit to its designated location while applying slight pressure. 5. Attach the Transmitter back into the base. 3.8.2.4. Dismounting the Magnetic Sensor For dismounting the Magnetic Sensor (Transmitter unit only) from the door/window (i.e. in case of battery replacement):
1. Insert a flat screw driver (or coin) into one of the edge slots as demonstrated in Figure 84 below. 2. Twist it to raise the cover (body) edge. 3. Pull the body strait out of the bases shoulders. Figure 84: Dismounting the Magnetic Sensors Transmitter We.R System User Guide 117 Installation of the We.R System 3.8.3. Adding the Magnetic Sensor to the We.R System The Magnetic Sensor need to be functionally added to the system following the above described physical installation procedure. The addition of the Magnetic Sensor is a standard Add Device procedure as follows:
Note: You may also want to refer to paragraph 5.1 below to get acquainted with the process of installing/ replacing a battery in the Magnetic Sensor. 1. Prepare a single AA-size Alkaline battery required to power the Magnetic Sensor. 2. Activate the We.R Web Application. 3. Select the Devices page (tab) and click over the button. 118 Figure 85: Add Magnetic Sensor Device Utilizing Web Application We.R System User Guide Installation of the We.R System 4. A roll-down selection menu will open. 5. Click over the _Add Window/Door Sensor_ option of the menu as illustrated inn Figure 85 above:
6. An Add New Device (Window/Door Sensor) window will pop-up and its timer will start running. Figure 86: Add Magnetic Sensor Window 7. Verify that the Device Type is Window/Door Sensor. 8. The down-counter provides a time-frame of three (3) minutes within which the battery should be installed, as demonstrated in Figure 87 below (the pole as marked within the device body), to power-up the Magnetic Sensor. Verify battery polarity match to marking within the unit body. Note: In case the installation of the batteries could not be accomplished within the three (3) minutes period, it is possible to restart the process by applying step 2 (on page 118) and onwards again. We.R System User Guide 119 Installation of the We.R System Figure 87: Inserting a Battery into the Transmitter Unit 9. The insertion of the battery into the Magnetic Sensor triggers a handshake process in which the Magnetic Sensor communicates with the CCU to inform it of its presence and the CCU add it to its peripherals inventory. 10. If the CCU did not detect the new Magnetic Sensor within this time-frame, the following error (
) message will appear within the Add New Device window:
120 Figure 88: Add New Magnetic Sensor Timeout Error Message We.R System User Guide Installation of the We.R System In such a case, it is possible to re-initiate the Add New Device process by clicking over the button. Clicking over the button will terminate the Add New Device process. 11. If the new Magnetic Sensor was properly detected by the CCU within this time-frame, the counter will freeze and a Device Properties sub-window will appear within the Add New Device window, where the Magnetic Sensors system name/location needs to be typed-in. Figure 89: Add New Magnetic Sensor Device Properties Clicking over the Magnetic Sensor is added onto the system configuration. button will end the Add New Device process while the new 12. Clicking over the button will enlarge this sub-window for further possible definitions of the Magnetic Sensors operation modes. We.R System User Guide 121 Installation of the We.R System Figure 90: Add New Magnetic Sensor Device Properties In the case of a Magnetic Sensor these definitions include:
Magnetic Sensor arming scenarios Armed Magnetic Sensor response Unarmed Magnetic Sensor response These details may be added or edited later, by a Master User, from within the We.R Web Applications Devices page. Note: Paragraph 4 below discuss details of such definitions. button will end the Add New Device process while the new Clicking over the Magnetic Sensor is added onto the system configuration with more detailed definitions. 122 We.R System User Guide Installation of the We.R System 13. You may verify that the Magnetic Sensor (MGL) was properly added by checking the details of the We.R Web Applications Devices page. Note: Advanced Configuration of the Magnetic Sensor can be found in paragraph 4.5.4 below. 3.8.4. Testing the Magnetic Sensor To verify proper operation of the Magnetic Sensor simply open and close the window/door and watch the Magnetic Sensors LED which should turn red for open window/door or green for closed window/door. 3.9. The Indoor Siren (SRN) ES800SRN The Indoor Siren is a battery operated, wireless, passive, powerful siren for indoor alarm applications. Within the We.R system, the Indoor Siren also serves the purpose of a door bell. Accessories available for the Indoor Siren:
Double-sided adhesive tape. It features:
Battery-operated, wireless, powerful siren for explicit alarm indication Emits more than 85dBA sound at 1 meter Adjustable volume level Dual purpose may also be used as a door bell (chime) Wall Mount with double sided tape or screws We.R System User Guide 123 Installation of the We.R System Figure 91: The Indoor Siren Uses four (4) standard AA-size Alkaline batteries Long operation up to 24 months Tamper Alarm when the unit is detached from its base 3.9.1. The Indoor Siren Function The Indoor Siren has two (2) functions:
1. Indoor siren for burglary events. 2. Systems doorbell when used in conjunction with the Wireless Access Control Tag Reader
(see paragraph 3.10. below). 124 We.R System User Guide Installation of the We.R System 3.9.2. Installing the Siren The Indoor Siren is designed be mounted on a vertical wall using the mounting base. Figure 92: Releasing the Indoor Siren Mounting Base The mounting base should be disassembled from the Indoor Siren body, as demonstrated in Figure 92 above, and attached to the wall either by the double-sided tape (pre-attached to the base) or using screws as demonstrated in Figure 93 below. Slightly press on the mounting bases tab and slide it in the tabs direction to release it from the Indoor Siren body. 3.9.2.1. Siren Positioning Recommendations For optimal surveillance, the following factors must be taken into consideration when selecting the Indoor Siren mounting position:
We.R System User Guide 125 Installation of the We.R System A flat vertical wall surface. Attach the Siren to a surface that is clean, dry, flat and smooth. Location should be selected for best sound spreading around the house. The mounting base includes three (3) wide punch-outs to allow maximum flexibility of installation. 1 3 2 Figure 93: Indoor Siren Mounting Base with Screws Note: The Indoor Siren should always be installed with the latch tab pointing down. 126 We.R System User Guide Installation of the We.R System 3.9.2.2. Installing with Screws 1. Release the Indoor Siren mounting base by lifting the tab and sliding the base in the tabs direction as demonstrated in Figure 93 above. 2. Use a flat screwdriver to remove the punch-outs (see Figure 93 above). 3. Place and hold the base on the desired mounting location and mark the drilling locations
(the above-mentioned punch-outs). 4. Drill the holes; insert three (3) dowels if needed, place the base over them and screw in the three (3) screws. 3.9.2.3. Installing with Pre-attached Double-side Tape 1. Release the Indoor Siren mounting base (above Figure 92). 2. Peel the tapes protective covers. 3. Attach the mounting base to its designated location while applying slight pressure. 4. Slide the Indoor Siren into the mounting base. 3.9.2.4. Dismounting the Indoor Siren For dismounting Siren from its designated installation site (i.e. in case of battery replacement):
1. Press over the tab 2. Slide the Indoor Siren body upwards as demonstrated in Figure 120 below. We.R System User Guide 127 Installation of the We.R System Figure 94: Dismounting the Indoor Siren 3.9.3. Adding the Indoor Siren to the We.R System The Siren need to be functionally added to the system following the above described physical installation procedure. The addition of the Indoor Siren is a standard Add Device procedure performed as follows:
128 We.R System User Guide Installation of the We.R System Note: You may also want to refer to paragraph 5.1 below to get acquainted with the process of installing/replacing a battery in the Indoor Siren. 1. Prepare four (4) AA-size Alkaline batteries required to power the Siren. 2. Activate the We.R Web Application. 3. Select the Devices page (tab) and click over the button. 4. A roll-down selection menu will open. Figure 95: Add Siren Device Utilizing Web Application 5. Click over the _Add Siren_ option of the menu as illustrated in Figure 95 above:
6. An Add New Device (Siren) window will pop-up and its timer will start running. We.R System User Guide 129 Installation of the We.R System Figure 96: Add Indoor Siren Window 7. Verify that the Device Type is Siren. 8. The down-counter provides a time-frame of three (3) minutes within which the batteries should be installed to power-up the Siren, as demonstrated in Figure 97 below:
130 Figure 97: Inserting the Batteries into the Siren We.R System User Guide Installation of the We.R System Note: The Siren will double-beep following the insertion of the first two (2) consecutive batteries to indicate proper power-up sequence. Verify batteries polarity to match marking within the batteries compartment. Note: In case the installation of the batteries could not be accomplished within the three (3) minutes period, it is possible to restart the process by applying step 2 (on page 129) and onwards again. 9. The insertion of batteries into the Siren triggers a handshake process in which the Siren communicates with the CCU to inform it of its presence and the CCU add it to its peripherals inventory. 10. If the CCU did not detect the new Siren within this time-frame, the following error (
) message will appear within the Add New Device window:
Figure 98: Add New Siren Timeout Error Message In such a case, it is possible to re-initiate the Add New Device process by clicking over the button. We.R System User Guide 131
1 | User Guide part7 | Users Manual | 1.28 MiB | June 03 2014 / January 05 2014 |
Installation of the We.R System Note: Each Smoke Detector must be tested once a month or any time suspected as not working properly. Press the center Test/Mute button In order to test the device. 3.13. The Universal Transmitter (UT) ES800UT The Universal Transmitter (UT) is the We.R interface onto legacy wired devices. It connects with ON/OFF type devices, enabling incorporation of 3rd party wired peripherals into the We.R system. Figure 139: The Universal Transmitter We.R System User Guide 171 Installation of the We.R System Accessories available for the Universal Transmitter:
Double-sided adhesive tape. 3.13.1. The Universal Transmitter Function The Universal Transmitter incorporates the following functions:
Bi-directional wireless device. Flexible application definition as Security Device, Flood/Fire/Gas Detector, Panic Button, etc. May be configured, via the We.R Web Application, to Normally Open or Normally Close modes. Dual-LED (green/red) for open/close status indication. 30 cm (1 feet) cable. Data security is ensured with 128-bit AES encryption. Up to 500m (1640 feet) RF range (open air) communication. Unique electronic serial number. Supports automatic over-the-air software upgrade programming and configuration. Provides long operation period while powered by a single standard AA-size Alkaline battery. 3.13.2. Installing the Universal Transmitter The Universal Transmitter should be mounted near the device it is interfacing with. The Universal Transmitter mounting base is the units back cover (where it also serves the purpose of battery cover). The base should be disassembled from the Universal Transmitter body, as demonstrated in Figure 140 below, and attached either by the double-sided tape (pre-attached to the base) or using screws as demonstrated in Figure 141 below. 172 We.R System User Guide Installation of the We.R System Figure 140: Releasing the Universal Transmitter Base 3.13.2.1. Universal Transmitter Positioning Recommendations For optimal safety, the following factors must be taken into consideration when selecting the Universal Transmitter mounting position:
A flat vertical surface. Attach the Universal Transmitter to a surface that is clean, dry, flat and smooth. The Universal Transmitter must be mounted within 700m (2300ft) (open air nominal) of the CCU. 3.13.2.2. Installing with Screws 1. Release the Universal Transmitter base by inserting a coin into one of the edge slots, as demonstrated in the Figure 140 above, and twist it to open the cover. 2. Use a flat screwdriver to remove the punch-outs 1 and 2 (see Figure 141 below). We.R System User Guide 173 Installation of the We.R System 1 2 Figure 141: Universal Transmitter Base with Screws 3. Place and hold the base on the desired mounting location and mark the drilling locations
(the above-mentioned punch-outs 1 and 2). 4. Drill the holes; insert two (2) dowels if needed, place the base over them and screw in the two (2) screws. 3.13.2.3. Installing with Pre-attached Double-side Tape The pre-attached double-sided tape will be mostly used in installations of the Universal Transmitter. 1. Release the base (see Figure 140 above). 2. Peel the tapes protective covers. 3. Attach the base to its designated location while applying slight pressure. 4. Attach the Universal Transmitter body back into the base. 3.13.2.4. Dismounting the Universal Transmitter For dismounting the Universal Transmitter (i.e. in case of battery replacement):
174 We.R System User Guide Installation of the We.R System 1. Insert a coin (or flat screw driver) into one of the edge slots as demonstrated in Figure 142 below. 2. Twist it to raise the cover (body) edge. 3. Pull the body strait out of the bases shoulders. Figure 142: Dismounting the Universal Transmitter 3.13.3. Adding the Universal Transmitter to the We.R System The Universal Transmitter need to be functionally added to the system following the above described physical installation procedure. The addition of the Universal Transmitter is a standard Add Device procedure performed as follows:
Note: You may also want to refer to paragraph 5.1 below to get acquainted with the process of installing/ replacing a battery in the Flood Detector. 1. Prepare a single AA-size Alkaline battery required to power the Universal Transmitter. We.R System User Guide 175 2. Activate the We.R Web Application. Installation of the We.R System Figure 143: Add Universal Transmitter Device Utilizing Web Application 3. Select the Devices page (tab) and click over the button. 4. A roll-down selection menu will open. 5. Click over the _Add Universal Transmitter_ option of the menu as illustrated in Figure 143 above. 6. A window defining the function performed by the legacy wired device opens (see Figure 144 below) where you need to:
Select the device type. Define its mode of operation (normally closed or normally open). Optionally mark a request for notification regarding device reset. 176 We.R System User Guide Installation of the We.R System Figure 144: Definition of Function of the Legacy Wired Device 7. Click over the button once all data is selected or marked. Click over the button if you need to terminate this process. 8. Once the button was clicked over, an Add New Device (Universal Transmitter) window will pop-up and its timer will start running. Figure 145: Add Universal Transmitter Window 9. Verify that the Device Type is Universal Transmitter. We.R System User Guide 177 Installation of the We.R System 10. The down-counter provides a time-frame of three (3) minutes within which the battery should be installed to power-up the Universal Transmitter, as demonstrated in Figure 146 below:
Figure 146: Inserting a Battery into the Universal Transmitter 11. Verify battery polarity to match marking within the unit body. Note: In case the installation of the batteries could not be accomplished within the three (3) minutes period, it is possible to restart the process by applying step 2 (on page 176) and onwards again. 12. The insertion of the battery into the Universal Transmitter triggers a handshake process in which the Universal Transmitter communicates with the CCU to inform it of its presence and the CCU add it to its peripherals inventory. 13. If the CCU did not detect the new Universal Transmitter within this time-frame, the following error (
) message will appear within the Add New Device window:
178 We.R System User Guide Installation of the We.R System Figure 147: Add New Universal Transmitter Timeout Error Message In such a case, it is possible to re-initiate the Add New Device process by clicking over the button. Clicking over the button will terminate the Add New Device process. 14. If the new Universal Transmitter was properly detected by the CCU within this time-frame, the counter will freeze and a Device Properties sub-window will appear within the Add New Device window, where the Flood Detectors system name/location needs to be typed-in. Figure 148: Add New Flood Detector Device Properties We.R System User Guide 179 Installation of the We.R System Clicking over the Flood Detector is added onto the system configuration. button will end the Add New Device process while the new 15. You may verify that the Flood Detector (FL) was properly added by checking the details of the We.R Web Applications Devices page. 3.14. The We.R Z-Wave Controller (ZWD) ES800ZWD 3.14.1. The Z-Wave Concept Z-Wave, from Sigma Designs, is a proprietary wireless protocol oriented towards the residential control and automation (Smart Home) market. It allows wireless remotely controlled home appliances, products and systems, to be integrated and work well together in a mesh network modular topology. Z-Wave application uses simple, reliable, low-power radio frequency (RF) communication channel and high reliability protocol to unify home electronics into an integrated wireless network. Z-Wave operates within the Industrial, Scientific, and Medical (ISM) band on a single frequency using frequency-shift keying (FSK) radio and its throughput is suitable for control and sensor interface applications. Each Z-Wave network (mesh topology) may include up to 232 nodes and consists of two sets of nodes: controllers and slave devices. Nodes may be configured to retransmit the message in order to guarantee connectivity in multi-path environment of the residential house. Average communication distance between two nodes is 100 feet (30 meters), and with message ability to hop up to four times between nodes, it gives enough coverage for most residential houses. The Z-Wave interface may be added to almost any electronic device in the house, including devices that were not meant to be intelligent such as appliances, window shades, thermostats and home lighting. 180 We.R System User Guide Installation of the We.R System All Z-Wave-certified products speak the same language to provide true Z-Wave interoperability. A given device must be added to the Z-Wave network before it can be controlled via Z-
Wave controller. This process (also known as pairing see Appendix G on page 299) is usually achieved by pressing a button on the device, an operation which must be performed once, after which the device will always be recognized by the controller. Devices can also be removed from the Z-Wave network through a similar process of button strokes. 3.14.2. Essence Z-Wave Controller Unlike all other We.R peripheral devices, the We.R Z-Wave Controller is classified as a controller (just like the systems Central Control Unit) and not as a peripheral device. The Z-Wave Controller is the We.R system interface to Z-Wave approved Smart Home devices allowing control of such devices via the We.R system thus expanding the We.R systems capabilities and devices portfolio beyond Essence ECOP RF protocol capabilities. The dongle connects to the We.R Central Control Unit (CCU) as an add-on. Figure 149: The Essence Z-Wave Controller Dongle The Z-Wave Controller incorporates two connecting points:
A cable with a mini-USB type connector which connects to the We.R Central Control Units mini-USB back-panel socket, and A mini-USB socket, on its other end, for the Central Control Units power adaptor connector. We.R System User Guide 181 Installation of the We.R System 3.14.2.1. The We.R Z-Wave Controller Generic Device Classes In theory, every controllable or controlling device at home can be equipped with Z-Wave technology. Therefore, a broad variety of different devices and functions should be expected. However, there are some basic functionality patterns that allow categorizing different devices:
Each device will either control other devices or being controlled by other devices. In the Z-Wave terminology, controlling devices are called controllers, reporting devices are called sensors and controlled devices are called actuators. It is also possible to combine a logical sensor controller or actor function within one physical device. Actors switch either digital (i.e. ON/OFF for an electrical switch) or analog signals (i.e. 0 to100% for a dimmer). Sensors deliver either a digital signal (i.e. door, glass breaking and motion detector) or an analogue signal (i.e. temperature, humidity, power). The Essence We.R Z-Wave Controller was developed to serve as a generic controller covering all Z-Wave supported generic device classes. Four (4) different end-devices were implemented insofar:
Binary Switches ON/OFF. Multilevel Switches like a Dimmer. Thermostats like Climate Controllers. Door Locks. 182 Notes: Once integrated into the We.R systems configuration, the Z-
Wave Controller will accommodate all devices based on these categories, regardless their manufacturer. We.R System User Guide Installation of the We.R System 3.14.3. Installing the Z-Wave Controller Notes: The following procedure of installing the We.R Z-Wave Controller is based on the assumption that the Z-Wave Controller is being added onto a fully operational We.R system. Due to the installation procedure, a Power Failure event will be logged and a notification should be expected. 1. Disconnect the Central Control Unit (CCU) from power by plugging-out the power adaptor cube from the electric power
(mains) socket. 2. Disconnect the power cord from the CCU:
Note: The mini-USB socket is for the We.R power cord only. Do not connect other USB equipment to this socket. We.R System User Guide 183 3. Plug the We.R Z-Wave dongles mini-USB connector into the Central Control Units mini-USB socket (now vacant from the power cord). 4. Plug the power adaptors cord
(previously disconnected from the CCU) into the dongles mini-
USB socket. 5. Plug the power adaptor cube back into the mains socket. Installation of the We.R System 184 We.R System User Guide Installation of the We.R System The CCU should be back in full-operational mode (front panel LED turns green) within about 30 seconds. This could be verified as described in paragraph 3.14.3.1 below. Note: The We.R Z-Wave Controller is powered by the We.R Central Control Units power adaptor only and will not be powered by the We.R CCUs backup battery In case of mains power failure. 3.14.3.1. Verification Verification of Central Control Unit returned into its fully-operational mode is required following the installation procedure as well as the addition of the We.R Z-Wave Controller reported by the system. The verification is done by activating the We.R Web Application software (described above in paragraph 3.3. The We.R Web Application) and checking for the We.R Z-Wave Controller status row in the Dashboard page (see Figure 28 on page 56). 3.14.4. Activating the Z-Wave Controller Once the Z-Wave Controller is installed, it is time to add the definitions of the Z-Wave remotely controlled devices to configure the system to work with them properly. The next paragraphs detail how to:
Add new Z-Wave remotely controlled devices. Remove previously added Z-Wave remotely controlled devices. Control Z-Wave remotely controlled devices via the We.R system. 3.14.4.1. Adding a New Z-Wave Device Prior to the process of adding a new Z-Wave remotely controlled device, you need to get familiar with the additional Smart Home page in the We.R Web Application Data Window. We.R System User Guide 185 Installation of the We.R System The Smart Home page is similar to the previously discussed Devices page (see paragraph 3.3.6.2 above):
Note: Being central to the We.R system configuration, the Z-Wave Controller, just like the CCU, is not enumerated as a supported device. Figure 150: The Smart Home Page Clicking over the which enables auto-detection of the paired Z-Wave device:
button will open an _Add Z-Wave Device_ selection button 186 Figure 151: The Smart Home Page Add Z-Wave Device We.R System User Guide Installation of the We.R System Once selected, the following Add New Device window will pop-up:
Figure 152: Add Z-Wave Device Installation Stopwatch Similar to the standard We.R Add Device procedure described above, this is a count-down stopwatch which counts a period of 3 minutes, within which the pairing button (switch) on the Z-Wave remotely controlled device must be pressed to initiate the pairing process
(see Appendix G Pairing and Bonding for details of the pairing process). Once paired-up, the device will communicate with the We.R Z-Wave Controller and be configured, according to its features, onto the We.R system. Once communicating properly with the Z-Wave Controller;
The stopwatch will freeze, and The device will be added to the We.R database and will be displayed in the Smart Home Data Window page. The device will appear in the Devices (left) pane and its details, to be manually typed-in, within the data fields of the right pane. Any change made to the data fields in the right pane must be saved by clicking over the button. We.R System User Guide 187 Installation of the We.R System Figure 153: A Dimmer Device Added 3.14.4.2. Removing a Connected Z-Wave Device Removing a previously added Z-Wave remotely controlled device from the We.R system is a similar process to the removal of a We.R device:
1. The device to be removed must be selected by clicking over its row in the Device (left) pane of the Smart Home Data Window. 2. The removal is triggered by clicking over the button. A window message will pop-up requesting press on the pairing button on the Z-Wave remotely controlled device destined for removal:
188 We.R System User Guide Installation of the We.R System Figure 154: Removal Message for a Z-Wave Device In case the device to be removed participates in a scenario (see example in paragraph 3.14.4.3 below), the following error message will pop-up instead:
Figure 155: Removal of Z-Wave Device Participating in a Scenario The Z-Wave remotely controlled device. button need to be clicked upon following the press on the pairing button on the The device selected will be removed from the system and its row, in the left pane, will be deleted. For example:
The system presented in Figure 156 below has four (4) Z-Wave remotely controlled devices a dimmer, a door lock, a thermostat and a switch. Assuming the dimmer need to be removed:
1. Click over the first row in the left pane (the dimmer row) to select it. 2. The row will be highlighted. We.R System User Guide 189 Installation of the We.R System 3. Click over the button. 4. The removal message (see above Figure 154) pops-up. 5. Press the pairing button on the dimmer device. 6. Click over the button on the removal message. 7. The dimmer will be removed from the system and the row will be deleted. Figure 156: A Z-Wave System with Dimmer and Switch Devices 3.14.4.3. Controlling a Z-Wave Device via the We.R System Following are some examples of setting up typical Z-Wave devices (scenarios):
Setting up Z-Wave devices to turn ON upon We.R system being disarmed:
190 We.R System User Guide Installation of the We.R System The system enables setting devices to turn ON as soon as the We.R system is turned into disarm mode of operation (for example: turning the light and the air-condition ON as soon as you walk into your home). To set up such a scenario:
a) Click over the Scenarios tab to open the Scenarios page. b) Select which scenario is to be set (i.e. turn ON / turn OFF). c) Select the devices you want to turn ON upon disarm mode of operation by marking their rows. Figure 157: Setting up Z-Wave Devices to Turn ON upon Disarmed Setting up Z-Wave devices to turn OFF upon We.R system being armed:
The system enables setting devices to turn OFF as soon as the We.R system is armed (for example: turning the living room light off and locking the door as soon as you walk out of your home). We.R System User Guide 191 Installation of the We.R System To set up such a scenario:
a) Click over the Scenarios tab to open the Scenarios page. b) Select which scenario is to be set (i.e. turn ON / turn OFF). c) Select the devices you want to turn OFF upon arm mode of operation by marking their rows. Figure 158: Setting up Z-Wave Devices to Turn OFF upon Arming the System Following is an example of controlling typical Z-Wave device:
To control a thermostat:
a. Click over the Smart Home tab to open the Smart Home page. 192 We.R System User Guide Installation of the We.R System b. Select which device is to be controlled (i.e. switching ON an air condition appliance and setting up its temperature and fan speed). c. Select the device you want to control by marking it row on the left (Device Type) pane. d. The selected device details will be displayed in the right pane, in a case of a thermostat its ON/OFF switch, Heat/Cool selector, Fan Speed selector, measured temperature display and Target Temperature setting dial. e. Accordingly, you can manually turn the air condition ON or OFF, select between heating or cooling operation, set up the fan speed and set up the desired temperature. Figure 159: Controlling a Z-Wave Thermostat We.R System User Guide 193 Installation of the We.R System Note: Each FLiRS device (i.e. Door Lock, Thermostat, etc.) has a battery icon added in the status column to indicate its charging level for operation safety. 3.15. System Support Capabilities The We.R Central Control Unit can support up to a total of 64 devices as detailed in Table 5 below:
Item Essence P/N Number of devices Motion Indoor Photo Detector (IPD) ES800IPD Up to 8 Motion Detector (PIR) ES800PIR Up to 64 total Security Door/Window Magnetic Sensor (MGL) ES800MGL Up to 64 total Security Indoor Siren (SRN) ES800SRN Up to 3 Remote Control Unit (KF) ES800KF Up to 8 Wireless Access Control Tag Reader (TR5) ES800TR5 Up to 8 in total Security. Up to total of 8 Tags Smoke Detector (SK2) ES800SK2 y t e a S f i e c v e D Flood Detector (FL) Universal Transmitter (UT) Z-Wave Controller (ZWD) ES800FL ES800UT ES800ZWD Users Up to 16 (total Safety) One (1) Controller and up to 232 Z-Wave devices Up to 32 (out of which two are designated as Master users, where 1 is a MUST) 194 Table 5: System Support Capabilities We.R System User Guide Installation of the We.R System Total number of supported peripheral devices is limited by the number of other peripheral devices already installed in the system. For example:
If there are two sirens in the system, the CCU can support only 62 more PIRs
(assuming no other peripherals are defined for the system). If there are four PIRs and two Key Fobs, only 58 more peripherals may be supported. Note: Being central to the We.R system configuration, the CCU is not enumerated as a supported device. Only one CCU is supported per We.R system installation. Out of the 32 possible Users the system designates up to two Master Users; users with privileges to change the systems setup (i.e. add/remove a device, add/remove Users, etc.), but a minimum of one (Master) must be defined to allow the initial setup and control of the system. We.R System User Guide 195
1 | User Guide part8 | Users Manual | 2.94 MiB | June 03 2014 / January 05 2014 |
Administration of the We.R System 4. Administration of the We.R System Daily usage of the We.R system involves:
Basic terms of operation:
Arming modes of operation Handling alarms Receiving notifications Panic situations Monitoring the premises Managing Users Managing Devices Log of Events (System History) 4.1. Arming Modes of Operation The We.R system supports four (4) security arming modes for the system. These arming modes are set individually for each system device participating in the security arena (see details in paragraph 4.5. Managing Devices below). Such a setup is done utilizing the We.R Web Applications Devices Page as detailed in paragraph 4.5. Managing Devices below. The We.R Web Applications Status/Activation Bar (see Figure 160 below) and the We.R Mobile Applications Home Status (Main) screen (see Figure 161 below) as well as the Remote Control Unit (Key Fob) and the Wireless Access Control Reader, provide the tool for triggering the system arming commands as well as provide the visual status feedback for the User. Figure 160: The We.R Web Applications Status/Activation Bar We.R System User Guide 197 Administration of the We.R System Figure 161: The We.R Mobile Applications Home Status Screen 4.1.1. Types of Security Arming Modes The We.R system provides four (4) possible security arming modes of operation:
4.1.1.1. Full Arm Simply referred to as Arm. Full arm is triggered by clicking over the _Full Arm_ button in the We.R Web Applications Status/Activation Bar, or by tapping over the button in the We.R Mobile Applications Home Status screen. 198 We.R System User Guide Administration of the We.R System Change of arming status is acknowledged by the status icon. In this mode of operation, the We.R system protects ALL zones. This mode arms all of the sensor devices on the premises and an alarm will be triggered by any of them upon detecting an intrusion. 4.1.1.2. Day Arm Day arm is triggered by clicking over the _Day Arm_ button in the We.R Web Applications Status/Activation Bar, or, tapping over the button in the We.R Mobile Applications Home Status screen. Change of arming status is acknowledged by the status icon. In this mode of operation, the We.R system protects and monitors designated hazardous zones. This scenario is used mostly for childcare and safety applications, allowing the user to monitor and protect zones like medicine cabinet, swimming pools, basements, etc. 4.1.1.3. Night Arm Night arm is triggered by clicking over the _Night Arm_ button in the We.R Web Applications Status/Activation Bar, or, tapping over the Applications Home Status screen. button in the We.R Mobile Change of arming status is acknowledged by the status icon. In this mode of operation, the We.R system protects and monitors designated area on the premises from intruders. This scenario can arm, for example, only the front door, back door and balcony. We.R System User Guide 199 4.1.1.4. Disarm Administration of the We.R System In addition to the above described status icon changing its face and color to acknowledge the trigger of specific arming mode, the buttons used for the triggering also changes:
The left-most arming button in the We.R Web Applications Status/Activation Bar will change its color to green and its title text will change into _Disarm_. Once changed, clicking over this button again will disarm the system from the specific arming mode it was triggered for. Change to disarm mode of operation is acknowledged by the status icon as well as the triggering buttons returning to the disarm indication (color and text). When triggering the system into any of the three security arm modes via the We.R Mobile Application, the three arming buttons at the bottom of the We.R Mobile Applications Home Status screen (
) will turn into the button. Disarming the system via the We.R Mobile Application is done by tapping over this button. 4.1.1.5. Arming/Disarming with We.R System Devices The above detailed security arming modes of operation can also be triggered by the Remote Control Unit (Key Fob) or the Wireless Access Control Tag Reader devices simply by attaching the Tag to the Tag Reader (in case a TR5 is used in the system) and or pressing the relevant keys as demonstrated in Figure 162 below:
200 We.R System User Guide Administration of the We.R System Full Arm Disarm Day Arm Night Arm Figure 162: Triggering Arm Modes with Devices Disarming with the Wireless Access Control Tag Reader device is done by putting the Tag in close proximity with the Tag Reader. 4.1.1.6. Force Arming If attempt is made to arm the system (full arm, night arm and day arm), where one or more of the sensor devices is opened (i.e. a window/door with a Magnetic Sensor is opened), a notification about these devices will be given and the system will allow performing a forced arm. In case of forced alarm, such an opened device will be bypassed by the system. 4.2. Handling Alarms The We.R system may alarm the User with three (3) different types of alarms:
Security Alarms Safety Alarms We.R System User Guide 201 Administration of the We.R System Panic Alarms 4.2.1. Security Alarms Once the system is armed (full arm or night arm or day arm), an alarm will be triggered in the following security events:
A Magnetic Sensor (MGL) monitored window/door was opened. A Motion Detector (PIR) or a Motion Indoor Photo Detector (IPD) detected some motion within its detection range, or, if any device is tampered while the system is armed. If a Security Alarm was triggered, the User will receive an Alarm Notification on his We.R Web Application (assuming the User is logged in) and on his smartphone (where the We.R Mobile Application software was installed). On the We.R Web Applications Status/Activation Bar:
Figure 163: Security Alarm Notification on the We.R Web Application The status icon will blink in red, and Two buttons will lit in red allowing the User to:
Stop the Siren sound, Disarm the system. On the We.R Mobile Application, the following notification message window will pop-up to draw the Users attention:
202 We.R System User Guide Administration of the We.R System Figure 164: Security Alarm Notification on the We.R Mobile Application The Home Status screen will display:
Figure 165: Security Alarm Screen on the We.R Mobile Application Where:
A Burglary Alarm title will be presented along with the triggering device identification and a time stamp. The status icon will blink in red, and We.R System User Guide 203 Administration of the We.R System Three (3) new buttons will be presented at the bottom of the screen to allow:
monitor the premises by watching video-like images taken if the triggering device was a Motion Indoor Photo Detector (Camera). Alarms triggered by a Camera allow monitoring of the premises by the image presentation screen which, upon tapping this button, opens to display the area in front of the Camera. Figure 166: Security Alarm Image Presentation Screen button at the bottom of the screen switches the display between video-like The and freeze modes of display. The button sends the captured images to the User email address. Tapping over this button will pop-up the acknowledgement window:
204 We.R System User Guide Administration of the We.R System Figure 167: Sending Images to Email Acknowledgement Window Tapping over the button will terminate the email operation. Tapping over the button will send the images via email to the User. Upon completion, the following confirmation message window will pop-up:
Figure 168: Email Confirmation Message Window Tapping over the button will conclude the send images by mail operation and return the screen to the Security Alarm Image Presentation Screen
(see above Figure 166). In the Security Alarm Image Presentation Screen, tapping over the button will terminate the Camera captured image presentation session and return the screen to the Security Alarm Screen (see above Figure 165). making emergency phone calls from the smartphone, We.R System User Guide 205 Administration of the We.R System disarming the system. 4.2.2. Safety Alarms Beside security, the We.R system also provides for safety features, utilizing devices like the:
Smoke Detector (SK2) Flood Detector (FL), and Universal Transmitter interfacing between the We.R system and safety device from 3rd party manufacturers. Setup, scenarios of operation and alarm notifications of these safety devices are incorporated into the system by means similar to the security devices. See details in paragraph 4.5. Managing Devices below. If a Safety Alarm was triggered, the User will receive an Alarm Notification on his We.R Web Application (assuming the User is logged in) and on his smartphone (where the We.R Mobile Application software was installed). On the We.R Web Applications Status/Activation Bar:
206 Figure 169: Safety Alarm Notification on the We.R Web Application The status icon will blink in orange, and Two buttons will lit in orange allowing the User to:
Stop the Siren sound, Dismiss the alarm and, if the system was armed disarm it. We.R System User Guide Administration of the We.R System On the We.R Mobile Application, the following notification message window will pop-up to draw the Users attention:
Figure 170: Safety Alarm Notification on the We.R Mobile Application The Home Status screen will display:
Figure 171: Safety Alarm Screen on the We.R Mobile Application Where:
A Flood (or Smoke) Alarm title will be presented along with the triggering device identification and a time stamp. We.R System User Guide 207 Administration of the We.R System The status icon will blink in orange, and Two (2) new buttons will be presented at the bottom of the screen to allow:
making emergency phone calls from the smartphone, dismissing the alarm and, if the system was armed disarm it. 4.2.3. Panic Alarms The We.R system also supports panic alarming for personal emergency cases. Triggering of panic alarm is done manually by the User either by simultaneously pressing the Remote Control Unit (Key Fob) two buttons marked with red or by pressing the Wireless Access Control Tag Readers button marked with SOS. Figure 172: Panic Alarm Triggering Devices and Buttons No setup or scenarios of operation need to be established for this type of alarms. 208 We.R System User Guide Administration of the We.R System If a Panic Alarm was triggered, the User will receive an Alarm Notification on his We.R Web Application (assuming the User is logged in) and on his smartphone (where the We.R Mobile Application software was installed). On the We.R Web Applications Status/Activation Bar:
Figure 173: Panic Alarm Status Display on the We.R Web Application The status icon will blink in red, and Two buttons will lit in red allowing the User to:
Stop the Siren sound, Disarm the triggering device and the system. On the We.R Mobile Application, the following notification message window will pop-up to draw the Users attention:
Figure 174: Panic Alarm Notification in the We.R Mobile Application The Home Status screen will display:
We.R System User Guide 209 Administration of the We.R System Figure 175: Panic Alarm Home Status Screen Where:
A Panic Alarm title will be presented along with the triggering device identification and a time stamp. The status icon will blink in red, and Three (3) new buttons will be presented at the bottom of the screen to allow:
monitoring the premises by watching video-like images taken by the Motion Indoor Photo Detectors (Cameras). Panic Alarms allow monitoring of the premises by a process similar to the Monitoring the Premises process (comfort video, see paragraph 4.3. below). Tapping over this button will open the Last Security Videos selection screen:
210 We.R System User Guide Administration of the We.R System Figure 176: Last Security Videos Selection Screen Where:
Tapping over the button refreshes the displayed list of available videos and their related data (triggering device, time stamp, etc.). Tapping over the button terminate this Watch Video procedure and switches the display back to the Home Status Panic Alarm Screen (see Figure 175 above). Tapping over the arrow () to the right of the selected last taken video will open the Camera Display screen (see Figure 177 below) and present the selected images/video:
We.R System User Guide 211 Administration of the We.R System Figure 177: Camera Display Screen button at the bottom of the screen switches the display between video-like The and freeze modes of display. The Tapping over this button will pop-up the acknowledgement window:
button sends the captured images to the User email address. Figure 178: Sending Images to Email Acknowledgement Window Tapping over the button will terminate the email operation. 212 We.R System User Guide Administration of the We.R System Tapping over the button will send the images via email to the User. Upon completion, the following confirmation message window will pop-up:
Figure 179: Email Confirmation Message Window Tapping over the operation and return the screen to the Camera Display screen (see above Figure button will conclude the send images by mail 177). In the Camera Display screen, tapping over the button will terminate the Camera captured image presentation session and return the screen to the Panic Alarm Screen (see above Figure 175). making emergency phone calls from the smartphone, disarming the system. 4.3. Monitoring the Premises Utilizing the systems installed camera(s), the We.R also allows its users to willfully monitor
(non-alarm triggered, initiated by the User) the premises, using the We.R Web Application or the We.R Mobile Application. We.R System User Guide 213 Administration of the We.R System This type of system usage is usually referred to as Comfort Video. 4.3.1. Monitoring with the We.R Web Application The center pan of the main screen (the Dashboard) data zone provides the means for comfort video:
Figure 180: The Dashboards Camera Presentation The bottom half of the center pane presents all system available cameras, out of which the desired camera need to be selected by clicking once over its icon. Upon selection, the system activates this camera and sends the images captured for viewing within the frame at the top half of this pane (see Figure 181 below). 214 We.R System User Guide Administration of the We.R System To see these images in video-like mode, click over the about 40 seconds, in sequential mode, providing realistic monitoring of the premises. button. It will run the images for Figure 181: Cameras Captured Images Presentation Once clicked upon, the presentation. button turns into a button allowing the User to halt the 4.3.2. Monitoring with the We.R Mobile Application Similar to the We.R Web Application, the Video Tab/screen of the We.R Mobile Application allows comfort view of the environment where the camera is installed. Tapping over the Video Tab will switch the display to the Take Video screen (see Figure 182 below). This screen displays all cameras included in the system and the desired camera should be selected out of this list. We.R System User Guide 215 Administration of the We.R System Figure 182: The Take Video Screen To refresh the Available Cameras list tap over the button. Tapping over one of the cameras in the list selects the camera and switches the screen into a camera display screen presenting the view in front of the camera:
Figure 183: Comfort View of Camera 216 We.R System User Guide Administration of the We.R System The button at the bottom of this screen is the Play/Pause switch. Tapping over the button will terminate the comfort video session. The images presented by the comfort view may be sent to the email address provided during the We.R Mobile Application Registration procedure by clicking over the button. Confirmation window will pop-up:
Figure 184: Confirmation of Image Transfer Confirmation for sending the images via email is done by tapping over the button or canceled by tapping over the button. Success of the image transfer is acknowledged by the following message window:
Figure 185: Acknowledgement of Image Transfer We.R System User Guide 217 Administration of the We.R System Tapping over the We.R Mobile Application to the Comfort View of Camera screen (see above Figure 183) button will terminate the email process and return the where tapping over the display to the Home Status (Main) screen. button will terminate the comfort video session and return the 4.4. Managing Users Note: Managing Users is possible only through the We.R Web Application and by Master User only. The We.R system requires definition of the Users allowed to control and use its operation. For this purpose, Users need to be profiled and their data and types of control devices need to be carefully defined in the system. 4.4.1. Profiling Users Prior to adding a new User (or editing its setup) into the We.R system, an analysis of the Users requirements must be done to determine the reasons of its participation in the system control and usage. This process is called Profiling Users. 1. The User need to be defined as either Master User (indicated by the system with icon) or standard User (indicated by the system with icon). The following considerations need to be applied:
a) Unlike a Standard User, a Master User may modify the system configuration data, system Users data, delete/add Device/User, etc. b) Up to two (2) Master Users may be defined in a single system. 218 We.R System User Guide Administration of the We.R System c) Maximum total of 32 Users are supported by a single system (the two Masters included). 2. Is the User going to use a Remote Control Unit (Key Fob) or a Tag to activate the system?
3. Does this User has a smartphone and is he going to use the We.R Mobile Application?
4. What language does this User need for his notifications and push-messages?
Also, there is a need to prepare password and User Code for this User. 4.4.2. Adding Users There are two panes in the Users page:
The left (overview) pane provides the User name and type (Master/Standard). The right (details) pane provides all required data of the highlighted User line-item in the left pane. Figure 186: The We.R Web Application Users Page We.R System User Guide 219 Administration of the We.R System To add a new User, click over the button. A new empty row will open in the left pane while its empty data fields in the right pane. Type-in the Users data as follows:
The User name. The User Email address (for notifications). Figure 187: The Users Page Data Pane The User Password (minimum of six alpha-numeric characters, case sensitive). This password needs to be re-typed in the next row for confirmation. The User Profile select Standard or Master. The Notification Language select from the list of supported languages. The User cellular phone number (international format, digits only). The User Code (four digits) for the Mobile Application. 220 We.R System User Guide Administration of the We.R System Once all the above data fields have been filled; click over the data into the system configuration files. The new empty row opened on the left pane will button to store the new display the User name and type once the new User data is accepted by the system. Note: Assigning Remote Control Unit (Key Fob) or a Tag to this User is done via the Devices page (see paragraph 4.5. below). 4.4.3. Removing Users Users may be removed from the system (by Master User only) by highlighting the specific User line-item (row) in the left pane of the Users page (clicking over it), and then clicking over the button. Once the change is accepted by the system, the Users row on the left pane will be deleted. 4.4.4. Editing Users Standard Users may partially edit their data (right pane fields). Such editing may be done on the following fields only:
User name Users email address Users mobile number Users Code Standard Users may also change their password by marking the check-box and typing-in the new password (twice). Other fields are restricted for editing by Master Users only. Once any of the data fields have been changed; click over the new data into the system configuration files. button to store the We.R System User Guide 221 4.5. Managing Devices Administration of the We.R System Note: Managing Devices is possible only with the We.R Web Application. The We.R system requires detailed definition of the Devices included in the system. 4.5.1. Adding New Devices Note: Adding Devices is possible only by a Master User utilizing the We.R Web Application. New Devices may be added (up to the systems limitation, see Table 5 on page 194), to the system at any time following its initial installation. The process of adding a new Device is detailed, for each Device type, in paragraph 3. Installation of the We.R System above, but, could be generally described as follows:
1. Clicking over the button opens a roll-down selection menu:
Figure 188: The Devices Selection Roll-down Menu 222 We.R System User Guide Administration of the We.R System 2. The Device to be installed should be selected out of the menu list. 3. Once selected, the Add New Device window will pop-up and its timer will start running. 4. Use this windows title to verify that the Device Type is the type selected from the roll-down menu. Figure 189: Add New Device Timer Window 5. The down-counter provides a time-frame of three (3) minutes within which the batteries should be installed to power-up the Device. Note: In case the installation of the batteries could not be accomplished within the three (3) minutes period, it is possible to restart the process. 6. The batteries insertion triggers a pairing process in which the Device communicates with the CCU to inform it of its presence and the CCU add it to its peripherals inventory. 7. If the CCU did not detect the new Device within this time-frame, the following error (
) message will appear within the Add New Device window:
We.R System User Guide 223 Administration of the We.R System Figure 190: Add New Device Timeout Error Message Click over the button to re-initiate the Add New Device process. Clicking over the button will terminate the Add New Device process. 8. If the new Device was properly detected by the CCU, the counter will freeze and a Device Properties sub-window will appear where the Devices system name/location needs to be typed-in as well as other features data (see paragraph 4.5.3 below) upon clicking over the button. 9. Clicking over the button will end the Add New Device process. The new device is added with its default operational details (i.e. Name/Location, arming scenarios, etc.). These details might be edited, during the Add Device procedure or later on, as described in paragraph 4.5.3 below. 4.5.2. Removing Devices 224 Note: Removing Devices is possible only by a Master User and with the We.R Web Application. We.R System User Guide Administration of the We.R System A Device may be removed by selecting its row in the left pane of the Devices page and clicking over the button. 4.5.3. Editing Devices Properties Note: Editing Devices properties is possible only by a Master User and with the We.R Web Application. The We.R Web Application also enables editing of Devices already installed. The editable data include the Devices Name/Location as well as the Devices operational data
(Arming/Disarming Scenarios and special features). Fields for such operational data are revealed/covered upon clicking over the
/
button. These fields might include:
Arming scenarios to define if the Device will be included in the Day and/or Night arming scenarios. Arming Scenarios what would the Device trigger (detection response) in case armed. Non-armed Scenarios some devices might also be functional even if not armed (i.e. the Door/Window Magnetic Sensor may chime upon detection even if not armed to inform the User of entries to the premises) and this data fields define such functionalities. Special features if the Device has other data to be considered for proper system operation (i.e. the Wireless Access Control Tag Reader can be installed indoor or outdoor where indoor it is used for system arming like the Remote Control Unit and outdoor as a door bell), the operation data (scenarios) need to be defined. A right pane demonstrating all the above is the Door/Window Magnetic Sensor installation pane:
We.R System User Guide 225 Administration of the We.R System Name/Location Disarm Scenarios Arm Scenarios Special Features Figure 191: Right Pane of Door/Window Magnetic Sensor Once all Device definitions are provided, the store the data in the system. button needs to be clicked upon to 4.5.4. Advanced Configurations of the We.R Devices 4.5.4.1. Entry/Exit This feature provides the owner with time gap to arm (or disarm) the system while entering (or exiting) the premises without triggering an alarm. Note: This configuration may be enabled, per device, for the security devices (PIR/IPD/MGL). Once the Entry/Exit feature is enabled:
A premises entry delay of 30 seconds will be triggered upon detection event, allowing the User to disarm the system prior to triggering an alarm. In case a Siren is installed in the system, the delay will be accompanied by short beeps to notify the User about the delay. 226 We.R System User Guide Administration of the We.R System In case the system was not disarmed within the 30 seconds delay period an alarm will be triggered and a burglary alarm flow will start (notifications, emails etc.) A premises exit delay of 30 seconds will be triggered only once the system was armed via a Tag Reader. This delay allows the User to arm the system and leave the premises without triggering an alarm on the way out. The Tag Reader and Siren (if installed) will sound short beeps to notify the User of this delay. Common use of the Entry/Exit feature usually enabled for a Magnetic Sensor (MGL) installed on the main entrance door, or for a Motion Detector (PIR) or Camera (IPD) which installed in the entrance. Note: Also please refer to paragraph 4.5.4.2 below regarding more complex installations combining multiple sensors. 4.5.4.2. Devices Allowing Walk-Through This feature is provided for cases where a Camera (or Motion Detector) device is installed in close proximity to a premises entry door equipped with a Magnetic Sensor and defined as Entry/Exit, where such device might trigger an alarm within the delay period. Notes: The Walk-Through configuration may be enabled, per device, for the security devices (PIR/IPD/MGL). This feature will become operational only if another security device in the system is configured as Entry/Exit. Configuring a device as Walk-Through with no other device configured as Entry/Exit is feasible, but will have no functional value in the system. A single device may be defined as either Entry/Exit or Walk-Through. We.R System User Guide 227 Administration of the We.R System Once the Walk-Through feature is enabled:
Throughout the 30 seconds delay period of an Entry/Exit configured device, the device configured as Walk-Through will trigger an alarm only if triggered before the device defined as Entry/Exit. The detection of the Walk-Through device will be logged in the Recent Events report. In case of Entry/Exit if the system is not disarmed within the 30 seconds delay period, the Walk-Through device will trigger an alarm. In case a Walk-Through device is directly triggered (the Entry/Exit device was not triggered first) an alarm will immediately be triggered. In case the Walk-Through devices is a Camera (IPD) and was triggered following an Entry/Exit device and the system was disarmed a security image capturing event will be logged, however, no security clip will be available for view since eventually no alarm was triggered. Common use of the Walk-Through feature if a Magnetic Sensor (MGL) is installed on the main-entry door and defined as Entry/Exit, and a Camera (IPD) or Motion Detector (PIR) is installed in front of the door or in close proximity; the Camera or Motion Detector should be configured as a Walk-Through device. 4.5.4.3. Chime This feature provides audible warning for a door being opened when the system is disarmed. 228 Notes: This feature may be enabled for Magnetic Sensor (MGL) only, and is possible only when a Siren is installed as well. Configuring a Magnetic Sensor as Chime with no Siren installed is feasible, but will have no functional value in the system. A Magnetic Sensor may be defined as Entry/Exit or Walk-Through and as Chime simultaneously. We.R System User Guide Administration of the We.R System Once the Chime feature is enabled:
Whenever the system is disarmed, the Siren will emit a bell-like sound whenever the Magnetic Sensor is opened. Common use of the Chime feature if a Magnetic For Users who likes to get an audible warning upon a door being opened (i.e. in small shops/offices). We.R System User Guide 229 Administration of the We.R System This page was intentionally left blank 230 We.R System User Guide Maintenance of the We.R System 5. Maintenance of the We.R System The We.R system is almost maintenance-free; the only maintenance-oriented activities required for its continuous operation are:
1. Replacing Batteries an indication of the need for batteries replacement is provided by both the We.R Web Application and the We.R Mobile Application utilizing their different status displays. 2. Cleaning the Smoke Detectors filter on a monthly basis, to remove dust that might block the path to the sensor. Other than that, there is no other maintenance activity required for proper operation of the We.R system. 5.1. Replacing Batteries 5.1.1. Replacing the Central Control Unit Backup Battery For its operation, the Central Control Unit (CCU) needs a special 3.7VDC, 1400mAh Lithium Polymer rechargeable battery (Essence P/N MCBT05001) and a Power Adapter. 5.1.1.1. Removing the Old Backup Battery To remove an old battery from the CCU:
1. Remove the Power Supply from the mains socket and disconnect its cable and mini-USB connector from the CCU. 5. Remove the CCUs back cover, to reveal the batterys and SIM-card compartment, by inserting a finger nail between the cover and its frame and lift it as demonstrated in Figure 192 above. 6. Remove the battery by lifting its top-facing edge (note that a special bay is provided for this purpose) and pulling the battery out of the battery cavity, as demonstrated in Figure 193 below. We.R System User Guide 231 232 Maintenance of the We.R System Figure 192: Releasing the Back Cover Figure 193: Removing the Battery We.R System User Guide Maintenance of the We.R System 5.1.1.2. Installing a New Battery 1. Insert the new backup battery into the battery compartment, above the SIM-card, as demonstrated in Figure 194 below:
Note: Batterys label should be facing up and the batterys contacts should be aiming towards the base of the CCU. Figure 194: Insertion of the Backup Battery 2. Return the battery cover back to place and click it firmly in. 3. Plug the Power Adapter's cable into the mini-USB connector on the back of the CCU and plug the adapters cube into the mains socket. The LED on the front panel of the Central Control Unit should turn ON in orange color. 4. Place the CCU in its designated location and wait for the front panel LED to switch from orange to green color. Notes: The green LED indicates that the CCU is properly active. It takes approximately 5 minutes for the LED to turn green. Once the LED turns green the system is up and running as before and there is no need for any further action. We.R System User Guide 233 Maintenance of the We.R System 5.1.2. Replacing the Camera (IPD) Batteries For its operation, the Camera needs three (3) 1.5V AA-size Alkaline batteries (not supplied with the Camera). Note: Rattling sounds might be heard during the batteries replacement process. Nothing to worry about it is the tampering prevention mechanism. 5.1.2.1. Removing the Old Batteries Figure 195: Dismounting the Camera 234 We.R System User Guide Maintenance of the We.R System To replace the old batteries of the Camera, first, there is a need to dismount it from its install site (the wall). 1. To dismount the Camera, press the wall mounting base's tab at the bottom of the Camera and slide it downwards simultaneously as demonstrated in Figure 195 above. 2. Release the batteries (inner) cover by pressing against the inner batteries cover tab and Lift/twist of the cover up as demonstrated in Figure 196 below:
Figure 196: Releasing the Camera Inner Batteries Cover 3. Remove the batteries by pressing them slightly towards the negative () pole (towards the top end of the Camera) and extracting them out, one at a time. 5.1.2.2. Installing New Batteries 1. Install the new batteries as demonstrated in Figure 197 below (the positive () poles aiming towards the lens):
Figure 197: Inserting Batteries into the Camera We.R System User Guide 235 Maintenance of the We.R System 2. Close the inner batteries cover and click it back to place. 3. Return the Camera back onto its mounting base. The insertion of batteries into the Camera triggers a bonding process in which the Camera communicates with the CCU to re-instate it into the CCU peripherals inventory. Note: There is no need to perform Add Device process following batteries replacement since the Camera is already defined in the We.R system. But, replacing the batteries will trigger the Walk Test Mode (see paragraph 3.6.4.1 above) to ensure proper battery replacement. 5.1.3. Replacing the Motion Detector (PIR) Batteries For its operation, the Motion Detector needs two (2) 1.5V AA-size Alkaline batteries. Note: Rattling sounds might be heard during the batteries replacement process. Nothing to worry about it is the tampering prevention mechanism. 5.1.3.1. Removing the Old Batteries To replace the old batteries of the Motion Detector, first, there is a need to dismount it from its install site (the wall). 1. To dismount the Motion Detector, press the wall mounting base's tab at the bottom of the Motion Detector and slide it downwards simultaneously as demonstrated in Figure 198 below. 236 We.R System User Guide Maintenance of the We.R System Figure 198: Dismounting the Motion Detector 2. The batteries (back) cover is the mounting base of the Motion Detector therefore dismounting it also reveals the Motion Detector batteries compartment. 3. Remove the batteries by pressing them slightly towards the negative () pole (towards the bottom end of the Motion Detector) and extracting them out, one at a time. 5.1.3.2. Installing New Batteries 1. Install the new batteries as demonstrated in Figure 199 below (the positive () poles aiming towards the top end of the device):
We.R System User Guide 237 Maintenance of the We.R System Figure 199: Inserting Batteries into the Motion Detector 2. Return the Motion Detector back onto its mounting base. The insertion of batteries into the Motion Detector triggers a bonding process in which the Motion Detector communicates with the CCU to re-instate it into the CCU peripherals inventory. Note: There is no need to perform Add Device process following batteries replacement since the Motion Detector is already defined in the We.R system. But, replacing the batteries will trigger the Walk Test Mode (see paragraph 3.7.4.1 above) to ensure proper battery replacement. 5.1.4. Replacing the Magnetic Sensor (MGL) Battery For its operation, the MGL needs single 1.5V AA-size Alkaline battery. 5.1.4.1. Removing the Old Batteries There is a need to dismount the Magnetic Sensor (Transmitter unit only) to allow replacement of the battery. To dismount the Magnetic Sensor:
238 We.R System User Guide Maintenance of the We.R System 1. Insert a flat screw driver (or coin) into one of the edge slots as demonstrated in Figure 200 below. 2. Twist it to raise the cover (body) edge. 3. Pull the body strait out of the bases shoulders. Figure 200: Dismounting the Magnetic Sensors Transmitter 5.1.4.2. Removing the Old Battery Once opened, the Magnetic Sensors battery is free to be removed out of the case. Apply slight pressure on the battery towards the negative () pole to ease the release of the battery. 5.1.4.3. Installing a New Battery 1. The battery should be installed, as demonstrated in Figure 201 below (the positive () pole as marked within the device body). 2. Verify battery polarity match to marking within the unit body. 3. Return the cover onto the base and click it in. We.R System User Guide 239 Maintenance of the We.R System Figure 201: Inserting a Battery into the Transmitter Unit The insertion of battery into the Magnetic Sensor triggers a bonding process in which the Magnetic Sensor communicates with the CCU to re-instate it into the CCU peripherals inventory. Note: There is no need to perform Add Device process following battery replacement since the Magnetic Sensor is already defined in the We.R system. 5.1.5. Replacing the Indoor Siren (SRN) Batteries For its operation, the Siren needs four (4) 1.5V AA-size Alkaline batteries. 5.1.5.1. Removing the Old Batteries To replace the old batteries of the Siren, first, there is a need to dismount it from its install site
(the wall). 1. To dismount the Siren, press the wall mounting base's tab at the bottom of the Siren and slide the body upwards as demonstrated in Figure 202 below. 240 We.R System User Guide Maintenance of the We.R System Figure 202: Dismounting the Siren 2. The mounting base (back cover) of the Siren is the batteries cover as well and, therefore, dismounting the Siren also reveals its batteries compartment. 3. Remove the batteries by pressing them slightly towards the negative () pole (note that each battery is in opposite direction to the adjoining battery) and extracting them out, one at a time. 5.1.5.2. Installing New Batteries Prior to the installation of the new batteries in the Siren, it is advised to discharge its electronic circuit from accumulated static charges. We.R System User Guide 241 Maintenance of the We.R System To discharge the Siren, insert the back covers tab into the niche at the bottom of the batteries compartment as demonstrated in Figure 203 below. Figure 203: Discharging the Sirens Electronic Circuit 1. Install the new batteries as demonstrated in Figure 204 below. Note: Each battery is in opposite direction to the adjoining battery and the correct polarity is engraved onto the bottom of the batteries compartment. 2. Return the Siren back onto its mounting base. 242 We.R System User Guide Maintenance of the We.R System Figure 204: Inserting Batteries into the Siren The insertion of batteries into the Siren triggers a bonding process in which the Siren communicates with the CCU to re-instate it into the CCU peripherals inventory. Note: There is no need to perform Add Device process following batteries replacement since the Siren is already defined in the We.R system. 5.1.6. Replacing the Remote Control Unit (KF) Battery For its operation, the Remote Control Unit (KF) needs single 3V CR2450 lithium (coin) battery. We.R System User Guide 243 Maintenance of the We.R System 5.1.6.1. Removing the Old Battery 1. Release the cover of the KF battery compartment by inserting a coin into the slot and turning the cover a quarter of a circle (90o) counter-clockwise until the two small bumps face each other as demonstrated in Figure 205 below. Figure 205: Releasing the KFs Battery Cover 2. Remove the cover by tapping it upside-down on your palm. 3. Remove the old battery. 5.1.6.2. Installing a New battery Note: It is advised to release stored charges within the KF electronic circuit by clicking on any of the front panel keys a few times before the installation of the new battery. 1. Insert the new battery into the KFs cavity with its positive () pole facing out/up. 2. Seal the cover by turning it a quarter of a circle (90o) clockwise. 244 We.R System User Guide Maintenance of the We.R System Figure 206: Inserting the New KFs Battery Note: There is no need to perform Add Device process following battery replacement since the KF is already defined in the We.R system. 5.1.7. Replacing the Tag Reader (TR5) Batteries For its operation, the Tag Reader needs three (3) 1.5V AA-size Alkaline batteries. 5.1.7.1. Removing the Old Batteries To replace the old batteries of the Tag Reader, first, there is a need to dismount it from its install site (the wall). 1. To dismount the Tag Reader, press the wall mounting base's tab at the bottom of the Tag Reader and slide the body upwards as demonstrated in Figure 207 below. 2. The mounting base (back cover) of the Tag Reader is the batteries cover as well and, therefore, dismounting the Tag Reader also reveals its batteries compartments (three off). 3. Remove the batteries by pressing them slightly towards the negative () pole and extracting them out, one at a time. We.R System User Guide 245 Maintenance of the We.R System Figure 207: Dismounting the Tag Reader Note: The Tags are passive components and need no power source
(battery). Therefor there is no maintenance required for the Tags. 5.1.7.2. Installing New Batteries 1. Install the new batteries as demonstrated in Figure 208 below. Note that the correct polarity is engraved onto the bottom of each of the batteries compartment. 246 We.R System User Guide Maintenance of the We.R System Figure 208: Inserting Batteries into the Tag Reader 2. Return the Tag Reader back onto its mounting base. The insertion of batteries into the Tag Reader triggers a bonding process in which the Tag Reader communicates with the CCU to re-instate it into the CCU peripherals inventory. Note: There is no need to perform Add Device process following batteries replacement since the Tag Reader is already defined in the We.R system. 5.1.8. Replacing the Flood Detector (FL) Battery For its operation, the Flood Detector needs single 1.5V AA-size Alkaline battery. There is a need to dismount the Flood Detector (Transmitter unit only) to allow replacement of the battery. To dismount the Flood Detector:
1. Insert a flat screw driver (or coin) into one of the edge slots as demonstrated in Figure 209 below. 2. Twist it to raise the cover (body) edge. 3. Pull the body strait out of the bases shoulders. We.R System User Guide 247 Maintenance of the We.R System Figure 209: Dismounting the Flood Detectors Transmitter 5.1.8.1. Removing the Old Battery Once opened, the Flood Detectors battery is free to be removed out of the case. Apply slight pressure on the battery towards the negative () pole to ease the release of the battery. 5.1.8.2. Installing a New Battery 1. The battery should be installed, as demonstrated in Figure 210 below (the positive () pole as marked within the device body):
Figure 210: Inserting a Battery into the Transmitter Unit 248 We.R System User Guide Maintenance of the We.R System 2. Verify battery polarity match to marking within the unit body. 3. Return the cover onto the base and click it in. The insertion of battery into the Flood Detector triggers a bonding process in which the Flood Detector communicates with the CCU to re-instate it into the CCU peripherals inventory. Note: There is no need to perform Add Device process following battery replacement since the Flood Detector is already defined in the We.R system. 5.1.9. Replacing the Smoke Detector (SK2) Batteries For its operation, the SK2 needs two (2) 1.5V AA-size Alkaline batteries. There is a need to dismount the Smoke Detector to allow replacement of the batteries. Note: The Smoke Detector is equipped with a special mechanism designed to prevent insertion of the Detectors body into its base without the batteries properly installed as well as provide omni-directional assembly and ensure secured assembly. 5.1.9.1. Dismounting the Smoke Detector To dismount the Smoke Detector:
1. Hold the Smoke Detectors body with three-four (3-4) fingers as demonstrated in Figure 211 below. 2. Twist it slightly in counter clockwise direction. We.R System User Guide 249 3. Pull the body strait out of the base. Maintenance of the We.R System Figure 211: Dismounting the Smoke Detector 5.1.9.2. Removing the Old Batteries Remove the batteries by pressing them slightly towards the negative () pole and extract them out, one at a time. 250 We.R System User Guide Maintenance of the We.R System 5.1.9.3. Installing New Batteries 1. Install the new batteries as demonstrated in Figure 212 below. Note that the correct polarity is engraved onto the bottom of each of the batteries compartment. Figure 212: Inserting Batteries into the Smoke Detector 2. Return the Smoke Detector back onto its mounting base. The insertion of batteries into the Smoke Detector triggers a bonding process in which the Smoke Detector communicates with the CCU to re-instate it into the CCU peripherals inventory. Note: There is no need to perform Add Device process following batteries replacement since the Smoke Detector is already defined in the We.R system. 5.1.10. Replacing the Universal Transmitter (UT) Battery For its operation, the Universal Transmitter needs single 1.5V AA-size Alkaline battery. We.R System User Guide 251 Maintenance of the We.R System 5.1.10.1. Dismounting the Universal Transmitter There is a need to dismount the Universal Transmitter (Transmitter unit only) to allow replacement of the battery. To dismount the Universal Transmitter:
1. Insert a flat screw driver (or coin) into one of the edge slots as demonstrated in Figure 213 below. 2. Twist it to raise the cover (body) edge. 3. Pull the body strait out of the bases shoulders. Figure 213: Dismounting the Universal Transmitters Transmitter Unit 5.1.10.2. Removing the Old Battery Once opened, the Universal Transmitters battery is free to be removed out of the case. Apply slight pressure on the battery towards the negative () pole to ease the release of the battery. 252 We.R System User Guide Maintenance of the We.R System 5.1.10.3. Installing a New Battery 1. The battery should be installed, as demonstrated in Figure 214 below (the positive () pole as marked within the device body):
Figure 214: Inserting a Battery into the Transmitter Unit 2. Verify battery polarity match to marking within the unit body. 3. Return the cover onto the base and click it in. The insertion of battery into the Universal Transmitter triggers a bonding process in which the Universal Transmitter communicates with the CCU to re-instate it into the CCU peripherals inventory. Note: There is no need to perform Add Device process following battery replacement since the Universal Transmitter is already defined in the We.R system. We.R System User Guide 253 Maintenance of the We.R System 5.2. Cleaning the System Devices The Smoke Detectors sensor is protected from dust and other particles with a metal filter. This filter accumulates dirt which must be removed periodically Carefully remove any dust residing on the Smoke Detector's components applying special attention to the openings of the detection chamber. Clean here Figure 215: Cleaning the Smoke Detector After cleaning, replace the batteries, and then test the smoke alarm to make sure it is functioning properly. 254 We.R System User Guide Security Aspects 6. Security Aspects 6.1. Secured Communication between User and Application Server Authentication:
Mobile authentication is performed via email, password and User Code for the activation of the Mobile Application. Password and User codes are encrypted on the mobile handset utilizing SHA1 algorithm. The encrypted value is calculated and sent as identifying credentials. The server generates the encrypted value locally, based on stored user details, and then authenticates the value by comparison. 6.2. Communication Security between CCU and Application Server Data is encrypted and secured using SSL between the web/smartphone applications and the ECS. Data is authenticated using a proprietary protocol. 6.3. Communication Security between CCU and sensors All communication between the Central Control Unit and the sensors are encrypted with an AES algorithm, 128 bit and varying keys. We.R System User Guide 255 Security Aspects This page was intentionally left blank 256 We.R System User Guide Security Aspects Appendix A Terms, Abbreviations and Acronyms Term 3G Description 3G is a short for 3rd Generation. This is a term used to represent the 3rd generation of mobile telecommunications technology. Also called Tri-Band 3G. This is a set of standards used for mobile devices and mobile telecommunication services and networks that comply with the International Mobile Telecommunications-2000 (IMT-2000) specifications issued and maintained by the International Telecommunication Union. AES Advanced Encryption Standard. A specification for the encryption of electronic data in a symmetric-key encryption format based on a design principle known as a substitution-
permutation network, and is fast in both software and hardware. API Application Programming Interface. A specification of how some software components should interact with each other. In practice in most of the cases an API is a library that usually includes specification for routines, data structures, object classes, and variables. APN Access Point Name. The name of a gateway between a GPRS (or 3G, etc.) mobile network and another computer network, frequently the public Internet. APNS Apple Push Notification Service. A service created by Apple Inc. It uses push technology through a constantly open IP connection to forward notifications from the servers of third party applications to the Apple devices;
such notifications may include badges, sounds or custom text alerts. ASP.NET Web-services Source file for web application framework. Active Server Pages. Microsoft's first server-side script engine for dynamically generated web pages. ASMX ASP Association A Z-Wave Term. Linking together two nodes (units) so that one of them will send information to the other automatically when a value or level changes. The sending node is the source node and the node receiving the information is the target node. ATP Automatic Test Plan We.R System User Guide 257 Term C2DM CCU Terms, Abbreviations and Acronyms Description Android Cloud to Device Messaging. C2DM, which is now deprecated (GCM replaces the beta version of Android C2DM), is a push notification service that helps developers send data from servers to their applications on Android devices and launched together with Android 2.2 by Google. An Essence Term. A We.R system Central Control Unit. Also referred to as Control Panel (CP). CP An Essence Term. Control Panel. See Central Control Unit (CCU). Direct Current Do-It-Yourself Demilitarized Zone. DC DIY DMZ In computer security, a DMZ (sometimes referred to as a perimeter network) is a physical or logical sub-network that contains and exposes an organization's external-facing services to a larger and untrusted network, usually the Internet. The purpose of a DMZ is to add an additional layer of security to an organization's local area network (LAN). An external attacker only has access to equipment in the DMZ, rather than any other part of the network. DNS Domain Name System. Driver A hierarchical distributed naming system for computers, services, or any resource connected to the Internet or a private network. It associates different types of information with domain names assigned to each of the participating entities. A Domain Name Service resolves queries for these names into IP addresses for the purpose of locating computer services and devices worldwide. A Z-Wave Term. Typically, each serial port device used for controlling the Z-Wave network requires a driver to also be installed to operate the USB stick. However, some controller devices that plug into the serial port also have NO driver and will communicate with standard serial port commands. DUT ECOP Device Under Test An Essence Term. Enhanced Controlled Open Protocol. Essence proprietary bi-directional compressing and encrypting over-radio protocol. 258 We.R System User Guide Security Aspects Term ECS Description An Essence Term. Essence Connect Server. EDGE Enhanced Data rates for GSM Evolution. Also known as Enhanced GPRS (EGPRS), or IMT Single Carrier (IMT-SC), or Enhanced Data rates for Global Evolution. This is a digital mobile phone technology that allows improved data transmission rates as a backward-compatible extension of GSM. An Essence Term. The protocol used to send encrypted messages between We.R CCUs and the We.R servers. Federal Communications Commission. An institute that regulates interstate (USA) and international communications via radio. An Essence Term. A We.R system Flood Detector peripheral device. Frequency-Shift Keying. A frequency modulation scheme in which digital information is transmitted through discrete frequency changes of a carrier wave. ESIX FCC FL FSK FTP File Transfer Protocol. A standard network protocol used to transfer files from one host to another host over a TCP-based network, such as the Internet. GCM Google Cloud Messaging. GCM is a service that helps developers sends data from servers to their Android applications on Android devices, or from servers to their Chrome applications and extensions. GCM replaces a previous beta version of Android Cloud to Device Messaging GPRS Group
(C2DM). General Packet Radio Service. A packet oriented mobile data service on the 2G and 3G cellular communication system's global system for mobile communications (GSM). A Z-Wave Term. Nodes/Modules combined into a single logical group to collectively operate so that when a command is sent to the group (i.e. turn ON), all modules included in that group will respond and turn ON together. Dimmer devices will return to their previous level (varies from module to module), and basic binary switches will either turn ON or OFF. We.R System User Guide 259 Term GSM Description Global System for Mobile Communications. Terms, Abbreviations and Acronyms A standard set developed by the European Telecommunications Standards Institute (ETSI). The GSM standard describes protocols developed for second generation (2G) digital cellular networks which are used by mobile phones. HTTP Hypertext Transfer Protocol. This is an application protocol developed for distributed, collaborative, hypermedia information systems. HTTP is the most basic building-block and foundation of data communication for the WWW. Hypertext is a multi-linear set of objects, building a network by using logical links (the so-called hyperlinks) between the nodes (like text or words). HTTPS HTTP Secure. HTTPS is a communications protocol for secure communication over a computer network, IIS Internet Information Services. Internet Information Services, formerly Internet Information Server, is a Microsoft web server software application and set of feature extension modules created by Microsoft for use with Microsoft Windows. IIS 7.5 supports HTTP, HTTPS, FTP, FTPS, SMTP and NNTP. It is an integral part of the Windows Server family of products (and their client counterparts in the cases of Windows NT 4.0 and Windows 2000), as well as certain editions of Windows XP, Windows Vista and Windows 7. Internet Protocol. The primary Internet communications protocol. This protocol is used for relaying datagrams (also known as network packets) across an internetwork using the Internet Protocol Suite responsible for routing packets across network boundaries. An Essence Term. A We.R system Motion Indoor Photo Detector peripheral device. Also referred to as Camera. IP IPD ISM JSON Industrial, Scientific, and Medical JavaScript Object Notation. A text-based open standard designed for human-readable data interchange. It is derived from the JavaScript scripting language for representing simple data structures and associative arrays, referred to as objects. An Essence Term. A We.R system Key Fob peripheral device. We.R System User Guide KF 260 Security Aspects Term LAN Description Local Area Network. LED LSU MGL MZ NAT NET A computer network interconnecting computers in a limited area (i.e. home, laboratory or office) using network media. Light Emitting Diode. An Essence Term. Local Software Update. An Essence Term. A We.R system Indoor window/door Magnetic Sensor peripheral device. Militarized Zone. See DMZ. Network Address Translation. Software process of modifying IP address information in IPv4 (IP version 4.0) headers while in transit across a traffic routing device. A software framework developed by Microsoft that runs primarily on Microsoft Windows. It includes a large library and provides language interoperability (each language can use code written in other languages) across several programming languages. Node (Unit or module) Programs written for the .NET Framework execute in a software environment known as the Common Language Runtime (CLR). A Z-Wave Term. Single module entity within the Z-Wave network (i.e. plug in switch, light dimmer, controller, etc.). The main controller is typically node #1 and is also considered a device. OS Operating system. A collection of software that manages computer hardware resources and PIR RF provides common services for computer programs. An Essence Term. A We.R system Motion Detector peripheral device. Radio Frequency. A rate of oscillation in the range of about 3 kHz to 300 GHz. This range corresponds to the frequency of radio waves, and the alternating currents which carry radio signals. RFID Radio-Frequency Identification. Wireless non-contact system using radio-frequency electromagnetic fields to transfer data from a tag attached to an object for automatic identification. We.R System User Guide 261 Terms, Abbreviations and Acronyms Term Replicate Description A Z-Wave Term. To transfer or copy the setup and configuration information between a handheld Primary Controller and a Secondary Controller. RIA Rich Internet Application. Route Web application with many characteristics of desktop application software, typically delivered by way of a site-specific browser, a browser plug-in, an independent sandbox, extensive use of JavaScript, or a virtual machine. A Z-Wave Term. If two devices cannot communicate due to physical distance or other radio interference, Z-Wave automatically repeats or passes the signal from one device to the next utilizing them as temporary hubs. This way it effectively extends the range of the network by passing the request from one node to another (can be done up to a maximum of 4 hops). Likewise, if two devices are not within range of one another, a route can be manually assigned to the source module (the module sending the information). This essentially enables devices to communicate at long ranges since the signal is repeated or bounced until it reaches the receiving module. RSU Scene Remote Software Update A Z-Wave Term. Link or associate one or more modules, except that the controller stores not only the association, but also the dim level for each Module. Dim level is stored while a Module is added to a scene. Consequently, when a scene is activated, the Modules will all go to their previously defined dim levels regardless of what their most recent dim level may have been. Some Modules may get brighter while others may be pre-programmed by the user to become dimmer. Due to the fact that appliance and wall switch modules are switching devices without dimming capability, they will either be defined as default ON or OFF status when added to a scene. SHA-1 Secure Hash Algorithm. In cryptography, SHA-1 is a cryptographic hash function designed by the US National Security Agency and published by the US NIST as a U.S. Federal SIM Information Processing Standard. Subscriber Identification Module. An integrated circuit that securely stores the International Mobile Subscriber Identity (IMSI) and the related key used to identify and authenticate subscribers on mobile telephony devices (such as mobile phones and computers). 262 We.R System User Guide Security Aspects Term SK2 SMPP Description An Essence Term. A We.R system Smoke Detector peripheral device. Short Message Peer-to-Peer. An open, industry standard protocol designed to provide a flexible data communication interface for the transfer of short message data between External Short Messaging Entities (ESME), Routing Entities (RE) and Message Centers. SMS Short Message Service. A text messaging service component of phone, web, or mobile communication systems. It uses standardized communications protocols that allow the exchange of short text messages between fixed line or mobile phone devices. SMSC Short Message Service Center. A cellular operators infrastructure for sending/receiving SMS messages. When sending SMS messages, the user may connect directly to a providers SMTP infrastructure for this purpose. Simple Mail Transfer Protocol. An Internet standard for electronic mail (e-mail) transmission across Internet Protocol (IP) networks. SOAP Simple Object Access Protocol. A protocol specification created for exchanging structured information in the implementation of Web Services in computer networks. It relies on XML for its message format. It usually relies on other Application Layer protocols, most notably HTTP and Simple Mail Transfer Protocol (SMTP), for message negotiation and transmission. SOHO SRN SSL Small Office Home Office. An Essence Term. A We.R system Indoor Siren peripheral device. Secure Sockets Layer. A cryptographic protocol that provide communication security over the Internet. SSL encrypt the segments of network connections at the Application Layer for the Transport Layer. The Secure Sockets Layer uses asymmetric cryptography for key exchange, symmetric encryption for confidentiality, and message authentication codes for message integrity. We.R System User Guide 263 Term Status Reply A Z-Wave Term. Description Terms, Abbreviations and Acronyms The process of a device transmitting its current state (ON, OFF, DIM, etc.) in response to an individual node or unit change command from a controller. At the present time, Z-Wave devices ONLY respond with their status to the specific controller which generated the command for their change. Secondly, Z-Wave devices DO NOT respond with their status when a Group or Scene command is issued. STUN Session Traversal Utilities for NAT. STUN is a standardized set of methods and a network protocol to allow an end host to discover its public IP address if it is located behind a NAT. STUN is used to permit NAT traversal for applications of real-time voice, video, messaging, and other interactive IP communications. STUN is documented in RFC 5389. STUN is intended to be a tool to be used by other protocols, such as ICE. TCCU Transmission Control Protocol. One of the core protocols of the Internet Protocol Suite. TCCU is one of the two original components of the suite, complementing the IP and therefore the entire suite is commonly referred to as TCCU/IP. TCP Transmission Control Protocol. TCP is one of the core protocols of the Internet protocol suite (IP), and is so common that the entire suite is often called TCP/IP. Telnet Telnet is a network protocol used on the Internet or local area networks (LANs). It provides a bidirectional interactive text-oriented communication facility using a virtual terminal connection. User data is interspersed in-band with Telnet control information in an 8-bit byte oriented data connection over the TCCU. An Essence Term. A We.R system Tag Reader wireless access control. User Datagram Protocol. One of the core members of the Internet protocol suite. With User Datagram Protocol, computer applications can send messages, in this case referred to as datagrams, to other hosts on an Internet Protocol (IP) network without prior communications to set up special transmission channels or data paths. An Essence Term. A We.R system Universal Transmitter peripheral device. We.R System User Guide TR5 UDP UT 264 Security Aspects Term UTC Description Universal Time Coordinated. This is the primary time standard by which the world regulates clocks and time. It is one of several closely related successors to Greenwich Mean Time (GMT). URL Uniform Resource Locator. Also known as Web Address. A specific character string that constitutes a reference to a resource. In most web browsers, the URL of a web page is displayed on top inside an address bar. An example of a typical URL would be "http://en.example.org/wiki/Main_Page". USB Universal Serial Bus. An industry standard defining the cables, connectors and communications protocols used in a bus for connection, communication and power supply between computers and electronic devices. VPN Virtual Private Network. VPN extends a private network across a public network, such as the Internet. The Virtual Private Network enables a computer to send and receive data across shared or public networks as if it were directly connected to the private network, while benefitting from the functionality, security and management policies of the private network. WCF Windows Communication Foundation. A framework for building service-oriented applications. WCCU WMI An Essence Term. A We.R system Smart Plug peripheral device. Windows Management Instrumentation. A set of extensions to the Windows Driver Model that provides an operating system interface through which instrumented components provide information and notification. WWW, Web World Wide Web. Also abbreviated as WWW or W3 and known as the Web. The World Wide Web is a system of interlinked hypertext documents accessed via the Internet. Using a web browser, web pages that may contain text, images, videos, and other multimedia, may viewed, and navigated in between via hyperlinks. Wi-Fi
(Also spelled: Wifi, wi-fi or WiFi) is a popular technology that allows an electronic device to exchange data wirelessly over a computer network, including high-
speed Internet connections. We.R System User Guide 265 Terms, Abbreviations and Acronyms Description Extensible Markup Language. A markup language that defines a set of rules for encoding documents in a format that is both human-readable and machine-readable. Table 6: Terms, Abbreviations and Acronyms Term XML 266 We.R System User Guide Security Aspects Appendix B End User License Agreement (EULA) Definitions The following terms will have the meaning ascribed to them in this EULA:
"The Company": Essence Security International (E.S.I.) Ltd.
"The System": Security systems or any control systems or any part thereof.
"Device": A mobile phone, personal computer, tablet or any other device or any other application interface that you own and/or use and/or hold and/or control, which may enable access to third parties services and applications.
"Service Provider": an entity (excluding the Company) that provides you services and/or call center services and/or other services that enable you to use the Service (as defined below). The Company provides a user interface application (including any updates and/or upgrades and/or patches thereto) for monitoring and/or controlling the System via your Device(s)
(hereinafter, respectively, the "Application", and the "Service"). By using the Service, downloading the Application, installing or using the Application or any part thereof, you irrevocably agree to the following terms and conditions (the "Terms and Conditions"). Certain information about you is subject to our Privacy Policy; for more information, see our full Privacy Policy at ADDENDUM A. Article I SCOPE OF USE a. The Company grants you non-exclusive, non-transferable, non-sub-licensable limited right and license to install and use the Application solely and exclusively for your personal use via your Device(s) (the "License"). For the avoidance of doubt, the License allows you to install and use the Application on several Devices owned by you and/or by your direct household members; however, such additional individuals may not further distribute the Application, and you are responsible for the usage of the Application by such additional individuals in full accordance with this License. b. You agree that you shall be solely responsible for (and that the Company has no responsibility to you or to any third party) the use of the Application and/or the Service, for any breach of the obligations under the Terms and Conditions, and for the consequences
(including any loss or damage which the Company and/or you and/or any third party may suffer and/or incur) as a result of any such breach. We.R System User Guide 267 End User License Agreement (EULA) c. As a condition to using the Application and/or the Service, you agree that certain updates, upgrades and/or patches to the Application may be automatically received and installed on your system from time to time, and the Company will attempt to ensure that the interference to your daily use of the application by such installments is kept to a necessary minimum. d. As a condition to using the Application and/or the Service, you agree that you will receive certain messages from the Company, including notifications sent from the System to your Device(s); modifications, improvements and patches of the Application and/or Service;
information with respect to the Company's other products; personalized information, including advertisements, from third parties, unless you elect not to receive such third party contents
("opt out"); and such other messages as the Company believes may be to your benefit or interest from time to time. Article II PROPRIETARY RIGHTS a. You hereby agree and acknowledge that (a) the Application and/or Service contains proprietary and confidential information that is protected by applicable intellectual property and other laws, and (b) The Company and/or third parties own all right, title and interest in and to the Application and/or the Service and content, excluding content provided by you, that may be presented or accessed through the Application and/or the Service, including without limitation all Intellectual Property Rights therein and thereto. "Intellectual Property Rights"
means any and all rights existing from time to time under patent law, copyright law, trade secret law, trademark law, unfair competition law, and any and all other proprietary rights, and any and all applications, renewals, extensions and restorations thereof, now or hereafter in force and effect worldwide. You agree that you will not, and will not allow any third party to, (1) copy, sell, license, distribute, transfer, modify, adapt, translate, prepare derivative works from, decompile, reverse engineer, disassemble or otherwise attempt to derive source code from the Application or content that may be presented or accessed through the Application and/or the Service for any purpose, without the express written consent of the Company, (2) take any action to circumvent or defeat the security or content usage rules provided, deployed or enforced by any functionality (including without limitation digital rights management functionality) contained in the Application and/or the Service, (3) use the Application and/or the Service to access, copy, transfer or retransmit content in violation of any law or third party rights, or (4) remove, obscure, or alter the Company's copyright notices, trademarks, logos or other proprietary rights notices affixed to or contained within or accessed in conjunction with or through the Application and/or the Service. b. USERNAME AND PASSWORD: In order to access and use the Application and/or the Service you must obtain a valid username and password. You are solely responsible for maintaining the confidentiality of your username and password. For security reasons and to 268 We.R System User Guide Security Aspects avoid unauthorized access, you are required to logout in an orderly manner from the Application at the end of each session. In any case, the Company shall not be liable for any damage or loss of any kind or nature incurred and/or suffered by you and/or by any third party as a result of the Application and/or the Service being accessed and/or used by unauthorized user/s. c. TERMINATION: The License is effective until terminated by you or by the Company by written notice. Your rights under the License will terminate automatically without prior notice from the Company if you fail to comply with any Terms and Conditions, or if the term of the Service expires or terminates; in such event the Company may block you from using and/or accessing the Application and/or the Service and you shall not have any claim against the Company in connection with such restriction. Upon termination of the License, you shall cease all use of the Application and/or the Service, and destroy all copies, full or partial, of the Application. d. INDEMNITY: To the maximum extent permitted by law, you agree to defend, indemnify and hold harmless the Company, its affiliates and their respective directors, officers, employees and agents from and against any and all claims, actions, suits or proceedings, as well as any and all losses, liabilities, damages, costs and expenses (including attorneys fees) arising out of or accruing from your use of the Application and/or the Service, including your downloading, installation, or use of the Application and/or the Service, or your violation of the Terms and Conditions. Article III DISCLAIMER OF WARRANTIES a. YOU EXPRESSLY ACKNOWLEDGE AND AGREE THAT USE OF THE APPLICATION AND/OR THE SERVICE IS AT YOUR SOLE RISK AND THAT THE ENTIRE RISK AS TO SATISFACTORY QUALITY, PERFORMANCE, ACCURACY AND EFFORT IS WITH YOU. TO THE MAXIMUM EXTENT PERMITTED BY APPLICABLE LAW, THE APPLICATION AND THE SERVICE ARE PROVIDED "AS IS" AND AS AVAILABLE, WITH ALL FAULTS AND WITHOUT WARRANTY OF ANY KIND, AND THE COMPANY HEREBY DISCLAIMS ALL WARRANTIES AND CONDITIONS WITH RESPECT TO THE APPLICATION AND/OR THE SERVICE, EITHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES AND/OR CONDITIONS OF MERCHANTABILITY, OF SATISFACTORY QUALITY, OF FITNESS FOR A PARTICULAR PURPOSE, OF ACCURACY, OF QUIET ENJOYMENT, AND NON-INFRINGEMENT OF THIRD PARTY RIGHTS. THE COMPANY DOES NOT WARRANT AGAINST INTERFERENCE WITH YOUR ENJOYMENT OF THE APPLICATION AND/OR THE SERVICE, THAT THE FUNCTIONS CONTAINED IN, OR SERVICE PERFORMED OR PROVIDED BY THE APPLICATION AND/OR THE SERVICE WILL MEET YOUR REQUIREMENTS, THAT THE OPERATION OF THE APPLICATION AND/OR THE SERVICE We.R System User Guide 269 End User License Agreement (EULA) WILL BE UNINTERRUPTED OR ERROR-FREE, OR THAT DEFECTS IN THE APPLICATION AND/OR THE SERVICE WILL BE CORRECTED. THE COMPANY DOES NOT WARRANT THAT THE APPLICATION SHALL BE COMPATIBLE WITH EACH WEB BROWSER (AND EACH VERSION THEREOF) AND YOU ARE SOLELY RESPONSIBLE FOR OBTAINING A BROWSER SUPPORTING THE APPLICATION FROM YOUR SERVICE PROVIDER. USAGE OF THE APPLICATION MAY REQUIRE DOWNLOADING AND INSTALLMENT OF THIRD PARTY SOFTWARE (E.G., MICROSOFT SILVERLIGHT), AND YOU ARE SOLELY RESPONSIBLE FOR OBTAINING SUCH THIRD PARTY SOFTWARE, WITH COMPANY ASSUMING NO LIABILITY WHATSOEVER IN CONNECTION WITH SUCH SOFTWARE INCLUDING ITS AVAILABILITY
(OR LACK THEREOF), PERFORMANCE, COST, OR ANY RESULTS CAUSED BY THE OPERATION OF SUCH SOFTWARE. NO ORAL OR WRITTEN INFORMATION OR ADVICE GIVEN BY THE COMPANY OR ITS AUTHORIZED REPRESENTATIVE SHALL CREATE A WARRANTY. SHOULD THE APPLICATION AND/OR THE SERVICE PROVE DEFECTIVE, YOU ASSUME THE ENTIRE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION. b. YOU ARE SOLELY RESPONSIBLE FOR ANY DAMAGE TO YOUR DEVICE(S), OR LOSS OF DATA THAT RESULTS FROM USING THE APPLICATION AND/OR THE SERVICE. c. YOU EXPRESSLY UNDERSTAND AND AGREE THAT THE COMPANY CANNOT ASSURE AND TAKES NO RESPONSIBILITY THAT SOME OR ALL OF THE INFORMATION SENT VIA THE APPLICATION AND/OR THE SERVICE WILL BE SENT AND/OR REACH THE INTENDED RECIPIENT AND/OR NOT BE SENT AND/OR NOT REACH OTHER THIRD PARTIES, IN WHICH CASE THE COMPANY WILL NOT BE LIABLE FOR ANY DAMAGE AND/OR LOSS OF ANY KIND OR NATURE INCURRED AND/OR SUFFERED BY YOU AND/OR BY ANY THIRD PARTY AS A RESULT THEREOF. d. YOU EXPRESSLY UNDERSTAND AND AGREE THAT THE COMPANY CANNOT ASSURE AND TAKES NO RESPONSIBILITY THAT THE APPLICATION AND/OR THE SERVICE WILL SUCCESSFULLY ARM AND/OR DISARM THE SYSTEM AND/OR ANY PART OF THE SYSTEM, IN WHICH CASE THE COMPANY WILL NOT BE LIABLE FOR ANY DAMAGE AND/OR LOSS OF ANY KIND OR NATURE INCURRED AND/OR SUFFERED BY YOU AND/OR BY ANY THIRD PARTY AS A RESULT THEREOF. e. YOU EXPRESSLY UNDERSTAND AND AGREE THAT THE INFORMATION GATHERED AND/OR STORED BY THE SYSTEM (THE "INFORMATION") (INCLUDING BUT NOT LIMITED TO VIDEO SEGMENTS FILMED AND/OR STORED AND OR GATHERED BY THE SYSTEM
(THE "VIDEO SEGMENTS") (THE "INFORMATION" AND THE "VIDEO SEGMENTS"
COLLECTIVELY TOGETHER: THE "SYSTEM INFORMATION") IS STORED ON THE COMPANY'S SERVERS, AND IS THE SOLE PROPERTY OF THE COMPANY, AND YOUR SERVICE PROVIDER MAY HAVE ACCESS TO SOME OR ALL OF THE INFORMATION 270 We.R System User Guide Security Aspects
(EXCLUDING THE VIDEO SEGMENTS). HOWEVER, THE COMPANY WILL NOT REVIEW OR LET OTHER PARTIES REVIEW THE VIDEO SEGMENTS, WITHOUT YOUR PRIOR CONSENT, EXCLUDING DISCLOSURE THAT IS REQUIRED BY LAW, REGULATION OR ORDER OF A COMPETENT AUTHORITY. f. YOU EXPRESSLY UNDERSTAND AND AGREE THAT THE COMPANY CANNOT ASSURE AND TAKES NO RESPONSIBILITY FOR MEASURES TAKEN AND/OR NOT TAKEN BY YOUR SERVICE PROVIDER IN ORDER TO PROTECT THE SYSTEM INFORMATION, AND IN NO CASE WILL THE COMPANY BE LIABLE FOR ANY DAMAGE AND/OR LOSS OF ANY KIND OR NATURE INCURRED AND/OR SUFFERED BY YOU AND/OR BY ANY THIRD PARTY IN CASE THE SYSTEM INFORMATION GATHERED AND/OR STORED BY YOUR SERVICE PROVIDER IS EXPOSED TO THIRD PARTIES. g. YOU EXPRESSLY UNDERSTAND AND AGREE THAT ALTHOUGH THE COMPANY WILL TAKE REASONABLE MEASURES IN ORDER TO PROTECT THE SYSTEM INFORMATION STORED ON THE COMPANY'S SERVERS AND PREVENT PENETRATION OF THE COMPANY'S SERVERS BY THIRD PARTIES, THERE IS A POSSIBILITY THAT SOME OR ALL OF THE SYSTEM INFORMATION MAY, FOR WHATEVER REASON, WITHOUT THE COMPANY'S AND/OR YOUR SERVICE PROVIDER'S CONSENT, BE EXPOSED TO THIRD PARTIES, IN WHICH CASE THE COMPANY WILL NOT BE LIABLE FOR ANY DAMAGE AND/OR LOSS OF ANY KIND OR NATURE INCURRED AND/OR SUFFERED BY YOU AND/OR BY ANY THIRD PARTY AS A RESULT THEREOF. Article IV SYSTEM AND SERVICE LIMITATIONS a. The Application is designed to integrate with your We.R security system which has not been installed by Company. The We.R equipment transmits data via high speed Internet, cellular or radio communication. Provided that you are current in your payments to Company, the Company will permit access, via the Applications, to your We.R security system. Company shall have no responsibility for failure of data transmission, corruption or unauthorized access. b. You are responsible for supplying high speed Internet access at your premises where your We.R security system is installed. Company does not provide Internet service; maintain Internet connection, wireless access or communication pathways, computer, smart phone, electric current connection or supply. In consideration of Subscriber making its monthly payments for remote access to the We.R system, Company will authorize your access. Company is not responsible for your access to the Internet or any interruption of service or down time of remote access caused by loss of Internet service, radio or cellular or any other mode of communication used by you for the Applications and the access of the system. You We.R System User Guide 271 End User License Agreement (EULA) acknowledge that your We.R security system can be non-functional or compromised if the Internet codes or devices used for access are lost or accessed by others and Company shall have no liability for such third party unauthorized access. Company is not responsible for the security or privacy of any wireless network system or router. Wireless systems can be accessed by others, and it is your responsibility to secure access to the system with pass codes and lock outs. c. The Application is designed to utilize your enabled cellular device to access the We.R system. The device will work only in areas where the cellular service has coverage and Company has no control over such coverage. Company is authorized to record and maintain audio transmissions, data and communications, and shall be the exclusive owner of such property. You are responsible for all permits and permit fees, if any, and agree to file for and maintain any permits required by applicable law and indemnify or reimburse Company for any fines relating to permits. Should Company be required by existing or hereafter enacted law to perform any service or furnish any material not specifically covered by the terms of this agreement you agree to pay Company for such service or material. Company does not monitor signals and communications received by from your enabled cellular device. d. You acknowledge that signals which are transmitted over telephone lines, wire, air waves, internet, VOIP, or other modes of communication pass through communication networks wholly beyond the control of Company and are not maintained by Company and Company shall not be responsible for any failure which prevents transmission signals from reaching your Internet enable device or damages arising therefrom, or for data corruption, theft or viruses to your Internet enabled device. Article V EXCULPATORY AND LIMITATION OF LIABILITY PROVISIONS a. EXCULPATORY CLAUSE: You agree that Company is not an insurer and no insurance coverage is offered herein. Your payments to Company are for the use of Company's Application and remote access to your We.R security system designed to reduce certain risks of loss, though Company does not guarantee that no loss will occur. Company is not assuming liability and therefore shall not be liable to you for any loss or injury sustained by you as a result of any cause whatsoever, regardless of whether or not such loss or injury was caused by or contributed to by Company's negligent performance to any degree or failure to perform any obligation or strict products liability. You release Company from any claims for contribution, indemnity or subrogation. b. LIMITATION OF LIABILITY: You agree that the Application, the service it offers and the We.R system is not designed or guaranteed to prevent any loss or injury. If, notwithstanding the terms of this agreement, there should arise any liability on the part of Company as a result 272 We.R System User Guide Security Aspects of any cause whatsoever, regardless of whether or not such loss, damage, or personal injury was caused by or contributed to by Company's negligence to any degree or failure to perform any obligation or strict products liability, such liability will be limited to an amount equal to six (6) times the monthly payment paid by you to Company at the time such liability is fixed, or to the sum of $250.00, whichever is greater. If Subscriber wishes to increase Company's maximum amount of such limitation of liability, Subscriber may, as a matter of right, at any time, by entering into a supplemental agreement, obtain from Company a higher limit by paying an additional amount consonant with the increase of liability. This shall not be construed as insurance coverage. Article VI LEGAL ACTION/ARBITRATION/WAIVER OF CERTAIN RIGHTS a. You and the Company waive trial by jury in any action between us. Any action by you against Company must be commenced within one year of the accrual of the cause of action or shall be barred. All actions or proceedings against Company must be based on the provisions of this agreement. Any other action that you may have or bring against Company in respect to other services rendered in connection with this agreement shall be deemed to have merged in and be restricted to the terms and conditions of this agreement. You agree that any claim against Company shall be maintained solely by you and that you shall neither initiate nor participate in any class action against Company, its subcontractors, distributors, licensees or licensors. b. Any dispute between you and Company or arising out of this contract, including issues of arbitrability, shall, at the option of any party, be determined by arbitration administered by Arbitration Services Inc., under its Commercial Arbitration Rules http://www.arbitr8ors.com/. c. You and the Company submit to the jurisdiction and laws of New York and agree that any litigation or arbitration between the parties must be commenced and maintained exclusively in Nassau County, New York. Article VII MODIFICATION The Company reserves the right to modify without prior notice the Application and/or the Service, and the Terms and Conditions governing its use, at any time, including but not limited to charge fees in order to access and/or use the Application and/or the Service. The Company also reserves the right to terminate any or part of the Application and/or the Service at any time on its sole discretion without prior notice. Article VIII LICENSE CHANGES a. The Company reserves the right to update and change, from time to time, this License and We.R System User Guide 273 End User License Agreement (EULA) all documents incorporated by reference. At all times, you can find the most recent version of this License at http://www.essence-grp.com/vault/documents/EULA.pdf .The Company may change this License by posting a new version and sending you notice by e-mail (to the address listed with the Company). Use of the Application or Service after such change constitutes acceptance of such changes. b. This Agreement, and any new versions, between the Company and you, covers all your use of the Service, including, without limitation, the Application. You can accept this Agreement by clicking on such acceptance buttons or links as may be designated by the Company. If you disagree with any of the terms below, the Company does not grant you a license to use the Service and/or the Application. Article IX MISCELLANEOUS a. Your contractual relationship with your Service Provider and/or other third parties, including payment, delivery of goods or services, and any other terms, conditions, privacy policies, warranties or representations associated with such dealings, are solely between you and such provider and/or third party. You agree that the Company will not be responsible or liable for any loss and/or damage of any kind or nature incurred and/or suffered by you and/or any third party as a result of the presence of such provider and/or third parties on the Application and/or the Service. b. These Terms and Conditions constitute the entire Agreement between you and the Company relating to the Application and/or the Service and govern your use of the Application and/or the Service, and completely replace and supersede any prior or contemporaneous agreements between you and the Company regarding the Application and/or the Service. c. The failure of the Company to exercise or enforce any right or provision of these Terms and Conditions does not constitute a waiver of such right or provision, which will still be available to the Company. d. The provisions of these Terms and Conditions are independent of and severable from each other. If any provision is found to be invalid or unenforceable for any reason, that provision shall be deemed modified to the extent necessary to make it valid and operative, or if it cannot be so modified, eliminated, and the remainder of these Terms and Conditions shall continue in full force and effect as if these Terms and Conditions had been signed with the invalid portion so modified or eliminated. e. These Terms and Conditions and your relationship with the Company under these Terms and Conditions will be governed by the laws of the State of Israel without regard to its conflict of laws provisions. You and the Company agree to submit to the exclusive jurisdiction of the courts located within the Tel-Aviv district, Israel, to resolve any legal matter arising from these 274 We.R System User Guide Security Aspects Terms and Conditions. ADDENDUM A PRIVACY POLICY Essence Security International (E.S.I.) Ltd. ("Essence" or "we") is providing this Privacy Policy to inform you of our policies and procedures regarding the collection, use and disclosure of information we receive when you do either of the following ("Services"):
(i) You download and use Essence's user interface application ((including any updates and/or upgrades and/or patches thereto) (the "Application") for monitoring and/or controlling Essence Security systems, control systems or any part thereof (the "System") via one or more mobile phone, personal computer, tablet or any other device or application interface that you own and/or use and/or hold and/or control (each, a "Device"), which may enable access to third parties services and applications; or,
(ii) You visit the Essence website at www.essence-grp.com (the "Site"). By downloading or using the Application or by entering the Site, you fully understand and unambiguously consent to the collection and processing of such information and to the terms of this Privacy Policy. If you do not agree to the terms of this Privacy Policy, you must not use the Application or Site. This Privacy Policy may be amended or updated from time to time. If we make any material changes to this Privacy Policy, we will post a notice of these changes on our website and in this Privacy Policy. You are advised to consult this Privacy Policy regularly for any changes. Information Collection Personally Identifiable Information In the course of using the Services, we might ask you to provide us with certain personally identifiable information that can be used to contact or identify you ("Personal Information"). Personal Information may include, but is not limited to, your name, country of residence, email address and website address. Non-Personally Identifiable Information When you use the Services (whether such use is performed on the System or a Device, on the Site or on a website of one of our partners or other third parties), we collect information regarding your use of the Services, and information that your browser sends whenever you visit a site or online service, including, without limitation, your computer's Internet Protocol (IP) address, browser type, the web page you were visiting before, and information for which you search. We.R System User Guide 275 End User License Agreement (EULA) When you use a widget or any other tool offered by us, whether on the System or a Device, on the Site or on a third party website, including a website owned or operated by you, we may record data related to that activity, the deployment of the widget or tool and any other account related data. Like many websites, we use "cookies" to collect information. A cookie is a small data file that we transfer to your computer's hard disk for record-keeping purposes. You can instruct your browser, by changing its options, to stop accepting cookies or to prompt you before accepting a cookie from the website you visit. If you do not accept cookies, however, you may not be able to use all portions of the Site or all functionality of the Services. We may present links in a format that enables us to keep track of whether these links have been followed. Third Party Sites This Privacy Policy applies only to Services provided on the System or a Device under your control, or on the Site. The Site may include links and references to the websites of others or third party advertises. These other sites may place their own cookies or other files on your computer, collect data or solicit personal information from you. Other websites follow different rules regarding the use or disclosure of the Personal Information that you submit. We encourage you to read the privacy policies and other terms of the other websites. We do not review, approve, monitor, endorse, warrant, or make any representations with respect to such websites. In no event will we be responsible or liable, directly or indirectly, to anyone for any loss or damage arising from such sites, including without limitation for your use of such website and for any information submitted by you, or otherwise collected by such websites. 1. Our Policy toward Children We do not knowingly collect personally identifiable information from children under the age of 18. If a parent or guardian becomes aware that his or her child has provided us with Personal Information without their consent, he or she should contact us at info@essence-grp.com. If we become aware that a child under 18 has provided us with Personal Information, we will delete such information from our files. 2. Security We are concerned with safeguarding your information. We employ a variety of safety measures designed to protect your information from unauthorized access and disclosure. However, we cannot guarantee that your personal information or private communications will always remain private and secure. 276 We.R System User Guide Security Aspects 3. International Processing or Transfer Your information may be processed or transferred outside of your state, where the privacy laws may not be as protective as those in your jurisdiction. 4. Disclosure We reserve the right to disclose any information obtained by us, including but not limited to Personal Information and Non Personally Identifiable Information, (i) if required by law or by any governmental authority; or (ii) in case of emergency; or (iii) to a successor entity in connection with a merger, acquisition, bankruptcy or sale of all or substantially all of our assets. 5. Contacting Us If you have any concerns or questions about this Privacy Policy, please contact us at info@essence-grp.com. Copyright 2013, Essence Security International (E.S.I.) Ltd., All rights reserved. We.R System User Guide 277 End User License Agreement (EULA) This page was intentionally left blank 278 We.R System User Guide Security Aspects Appendix C Technical Specifications Central Control Unit (CCU) ES8000CP Communication Maximum RF range 600m (1968ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz Ethernet and optional GSM/EDGE/2G cloud communication Security Data Security 128-bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade programming and configuration Power Consumption 100-240VAC to 5VDC Power Adapter/Charger and 3.7V/1.4Ah Li-polymer rechargeable backup battery (providing up to 5 hours) Efficient power consumption to extend the operation period Size and Weight H: 40.8mm (1. 61in.), L: 141mm (5.55in.), W: 74.8mm (2.94in.) Weight 125 grams (0.27lbs.) + 35 grams (0.08lbs.) backup battery Environment Storage Ambient Temperature range: -20oC +60oC (-4oF +140oF) Operating Ambient Temperature range with battery: -5oC +50oC (+23oF +122oF) Humidity: Up to 95% non-condensing We.R System User Guide 279 Technical Specifications IC Comments no cellular version Y4I-ES8000CP YXG-ES8000GP 11061A-ES8000GP cellular (3G) version Certification FCC Motion Indoor Photo Detector (IPD) ES800IPD Communication Maximum RF range 500m (1640ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz Security 4G DragonFlyEye technology Tamper Alarm when unit is tilted Data Security 128-bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade (RSU) programming and configuration Temperature compensation for the PIR element Optional up to 30Kg (66lb.) pet immune lens Detecting Range up to 12m (39.4ft.) Image Capture Captures color Motion-JPEG photos (up to 5 frames per second) Multi-resolution 80x60 to 640x480 VGA color CMOS camera Illumination (for night or in low-light capturing) auto-activated super-bright white LED 280 We.R System User Guide Security Aspects Diagonal shooting angle: 67o Shooting Range up to 10m (32.8ft.) Power Consumption Efficient power consumption to extend the operation period Three (3) AA-size alkaline batteries Up to one year batteries lifetime Optional 5VDC power adaptor Size and Weight H: 60mm (2.36in.), L: 122.7mm (4.84in.), W: 58mm (2.36in.) Weight 160 grams (0.35lbs.) + 45 grams (0.1lbs.) batteries Environment Storage Ambient Temperature range: -20oC +50oC (-4oF +122oF) Operating Ambient Temperature range with battery: 0oC +50oC (+32oF +122oF) RF transmitter humidity: Up to 95% non-condensing Certification FCC IC Comments Y4I-M800IPD 11061A-ES800IPD Motion Detector (PIR) ES800PIR Communication Maximum RF range 500m (1640ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz We.R System User Guide 281 Technical Specifications Security 4G DragonFlyEye technology Tamper Alarm when unit is tilted Data Security 128-bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade (RSU) programming and configuration Temperature compensation for the PIR element Optional up to 30 Kg (66lb.) pet immune lens Detecting Range up to 12m (39.4ft.) Power Consumption Efficient power consumption to extend the operation period Two AA-size alkaline batteries Three years batteries lifetime Size and Weight H: 50mm (1.97in.), L: 114mm (4.49in.), W: 60mm (2.36in.) Weight 90 grams (0.2lbs.) + 30 grams (0.07lbs.) batteries Environment Storage Ambient Temperature range: -20oC +50oC (-4oF +122oF) Operating Ambient Temperature range with battery: 0oC +50oC (+32oF +122oF) RF transmitter humidity: Up to 95% non-condensing Certification FCC IC Comments Y4I-M800PIR 11061A-ES800PIR We.R System User Guide 282 Security Aspects Door/Window Magnetic Sensor (MGL) ES800MGL Communication Maximum RF range 500m (1640ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz Security Data Security 128-bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade (RSU) programming and configuration Power Consumption Efficient power consumption to extend the operation period One AA-size alkaline battery Up to two years batterys lifetime Size and Weight Detector size H: 25mm (0.98in.), L: 72mm (2.83in.), W: 30mm (1.18in.) Weight 25 grams (0.55lbs.) + 15 grams (0.33lbs.) battery Magnet size H: 18mm (0.71in.), L: 52mm (2.05in.), W: 24mm (0.94in.) Weight 25 grams (0.55lbs.) Environment Storage Ambient Temperature range: -20oC +50oC (-4oF +122oF) Operating Ambient Temperature range with battery: 0oC +50oC (32oF +122oF) RF transmitter humidity: Up to 95% non-condensing We.R System User Guide 283 Technical Specifications Certification FCC IC Comments Y4I-M800MGL 11061A-ES800MGL Indoor Siren (SRN) ES800SRN Communication Maximum RF range 500m (1640 ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz Security Tamper Alarm if removed from back bracket Data Security 128bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade (RSU) programming and configuration Power Consumption Efficient power consumption to extend the operation period Four AA-size alkaline batteries Two years batteries lifetime Size and Weight H: 39mm (1.54in.), Diameter: 120mm (4.72in.). Weight 150 grams (0.33lbs.) + 100 grams (0.22lbs.) batteries Environment Storage Ambient Temperature range: -20oC +50oC (-4oF +122oF) 284 We.R System User Guide Security Aspects Operating Ambient Temperature range with battery: 0oC +50oC (32oF +122oF) RF transmitter humidity: Up to 95% non-condensing Certification FCC IC Comments Y4I-M800SRN 11061A-ES800SRN Remote Control Unit (KF) ES800KF Communication Maximum RF range 600m (1968ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz Security Data Security 128-bit AES encryption Unique electronic serial number Power Consumption Efficient power consumption to extend the operation period One 3V CR2450 lithium battery Three years batterys lifetime Size and Weight H: 12.3mm (0.48in.), L: 87.3mm (3.44in.), W: 61mm (2.40in.) Weight 25 grams (0.055lbs.) including the battery Environment Storage Ambient Temperature range: -10oC +55oC (14oF +131oF) We.R System User Guide 285 Technical Specifications Operating Ambient Temperature range with battery: -5oC +55oC (23oF +131oF) Humidity: Up to 95% non-condensing Certification FCC IC Comments Y4I-M801EKF 11061A-ES800KF Wireless Access Control Tag Reader (TR5) ES800TR5 Communication Maximum RF range 500m (1640ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz RFID band: ISO 14443A/MiFare, 106kbps, 13.56MHz Security Tamper Alarm when detached from wall Data Security 128-bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade (RSU) programming and configuration Power Consumption Efficient power consumption to extend the operation period Three AA-size alkaline batteries (Reader only) Up to nine months batteries lifetime Size and Weight Reader H: 27.6mm (1.09in.), L: 97.8mm (3.85in.), W: 97.8mm (3.85in.) 286 We.R System User Guide Security Aspects Weight 135 grams (0.3lbs.) + 45 grams (0.1lbs.) batteries Tag H: 9.9mm (0.39in.), L: 46.7mm (1.84 in.), W: 33.4mm (1.31in.) Weight 10 grams (0.02lbs.) Environment Storage Ambient Temperature range: -20oC +50oC (-4oF +122oF) Operating Ambient Temperature range with battery: 0oC +50oC (+32oF +122oF) RF transmitter humidity: Up to 95% non-condensing Certification FCC IC Comments YXG-ES800TR5 11061A-ES800TR5
(In lab.) Flood Detector (FL) ES800FL Communication Maximum RF range 500m (1640ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz Security Data Security 128-bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade (RSU) programming and configuration Power Consumption Efficient power consumption to extend the operation period One AA-size alkaline battery We.R System User Guide 287 Up to two years batterys lifetime Size and Weight Technical Specifications RF Transmitter size H: 29.2mm (1.15in.), L: 71.9mm (2.83in.), W: 24.6mm (0.97in.) Weight 25 grams (0.55lbs.) + 15 grams (0.33lbs.) battery Detector size H: 22.4mm (0.88in.), D: 49.9mm (1.96in.) Weight 25 grams (0.55lbs.) Cable length 30cm (11.8in.) Environment Storage Ambient Temperature range: -20oC +50oC (-4oF +122oF) Operating Ambient Temperature range with battery: 0oC +50oC (32oF +122oF) RF transmitter humidity: Up to 95% non-condensing Certification FCC IC Comments YXG-ES800FL 11061A-ES800FL
(In lab.) Smoke Detector (SK2) ES800SK2 Communication Maximum RF range 500m (1640ft.) open air ECOP bi-directional radio protocol Modulation and Frequency: DSSS, 2.4GHz Security Tamper Alarm when detached from base Mechanism prevents installation without battery Buzzer operates even if the Central Control Unit is not functional 288 We.R System User Guide Security Aspects Data Security 128-bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade (RSU) programming and configuration Power Consumption Efficient power consumption to extend the operation period Two AA-size alkaline batteries Over two years batterys lifetime Size and Weight H: 46.7mm (1.84in.), Diameter: 135mm (5.32in.) Weight 210 grams (0.46lbs.) including batteries Environment Storage Ambient Temperature range: -20oC +50oC (-4oF +122oF) Operating Ambient Temperature range with battery: 0oC +50oC (32oF +122oF) RF transmitter humidity: Up to 85% non-condensing Certification EN14604 FCC IC Comments YXG-ES800SK2 11061A-ES800FL Universal Transmitter (UT) ES800UT Communication Maximum RF range 500m (1640ft.) open air ECOP bi-directional radio protocol We.R System User Guide 289 Technical Specifications Modulation and Frequency: DSSS, 2.4GHz Security Data Security 128-bit AES encryption Unique electronic serial number Supports automatic over-the-air software upgrade (RSU) programming and configuration Power Consumption Efficient power consumption to extend the operation period One AA-size alkaline battery Up to two years batterys lifetime (based on usage) Size and Weight H: 29.3mm (1.15in.), L: 71.9mm (2.83in.), W: 24.6mm (0.97in.) Weight 25 grams (0.55lbs.) + 15 grams (0.33lbs.) battery Cable length 30cm (11.8in.) Environment Storage Temperature:-20oC +50oC (-4oF+122oF) Operating Ambient Temperature range with battery: 0oC +50oC (32oF +122oF) Humidity: Up to 95% non-condensing Certification FCC IC Comments YXG-ES800UT 11061A-ES800UT
(in lab.) We.R System User Guide 290 Security Aspects Z-Wave Controller (ZWD) ES800ZWD Communication Maximum RF range 500m (1640ft.) open air Z-Wave bi-directional radio protocol (onboard) Frequency: 868.4/908.4/921.4MHz Bit Rate: 9.6/40kbps Security Data Security 128-bit AES encryption Unique electronic serial number Power Consumption Efficient power consumption to extend the operation period Size and Weight Z-Wave controller: H: 5mm (0.2in.), L: 58mm (2.28in.), W: 24mm (0.94in.) Cable length: 15cm (5.9in.) Z-Wave controller: 10 grams (0.03lb.) Environment Storage Temperature: -20oC +50oC (-4oF+122oF) Operating Ambient Temperature range: 0oC +50oC (+32oF +122oF) Humidity: Up to 95% non-condensing Certification FCC IC Comments YXG-ES800ZWD 11061A-ES800ZWD We.R System User Guide 291 Technical Specifications This page was intentionally left blank 292 We.R System User Guide Security Aspects Appendix D Port Checking To check the availability of port 43001, exercise the following steps:
1. Click over the Start button. a) Click over the Run menu option. b) Type: cmd in the command box. Figure 216: Staring a COMMAND mode (cropped) c) Press the Enter key. The Terminal screen's Window will open. Figure 217: COMMAND Window (cropped) d) Type telnet wersys.com 43001 in the command line. We.R System User Guide 293 294 Figure 218: Telnet Search Command e) Press the Enter key. If the port check is successful, a blank window will open. Port Checking Figure 219: Telnet Blank Window If the port check is not successful an error message will pop-up. This means that port 43001 is blocked and needs to be opened on the router. To unblock the port please refer to the router's configuration documentation. Note: For Windows 7 make sure the Telnet program is enabled;
see the below Appendix E Enable Telnet Program in Windows 7. We.R System User Guide Security Aspects Appendix E Enable Telnet Program in Windows 7 and 8 Exercise the following steps to enable the Telnet Program:
1. Click over the Start button. 2. Click over the Central Control Unit menu option. 3. Click over the Programs and Features icon. 4. Click over the Turn Windows features on or off menu option. The Turn Windows features on or off dialog window will open. Note: If prompted for an administrator password or confirmation, type the password and/or confirm the action. 5. Mark the check box next to the Telnet Client feature. Figure 220: Telnet Client Enable 6. Click over the button. The Telnet program is enabled. We.R System User Guide 295 Enable Telnet Program in Windows 7 and 8 This page was intentionally left blank 296 We.R System User Guide Security Aspects Appendix F Screws and Dowels Except for the Central Control and its Remote Control Units, as well as the Z-Wave Controller, all We.R devices have the option to be installed with screws (not the pre-attached double-
sided tapes). The following Table 7 is a summary of Essence recommendations regarding these optional parts. Product Motion Indoor Photo Detector (IPD) Motion Detector (PIR) Door/Window Magnetic Sensor (MGL) Indoor Siren (SRN) Transmitter Magnet Wireless Access Control Tag Reader (TR5) Flood Detector (FL) Transmitter Sensor Quantity per Device Screw Type Dowel Type 2-4 2-4 2 0 3 4 2 2 Smoke Detector (SK2) 2-4 Philips Cross Recessed Flat Plastic Series 108 Countersunk Head screws type Dowels Drill Hole Diameter 5mm DIN7892C ST3.5x32 length 25mm Universal Transmitter (UT) 2 Table 7: Screws and Dowels We.R System User Guide 297 Screws and Dowels This page was intentionally left blank 298 We.R System User Guide Security Aspects Appendix G Pairing and Bonding Motivation Many of the services offered over wireless communication such as Bluetooth and Z-Wave can expose private data or allow the connecting party to control the involved devices. For security and reliability reasons it is necessary to be able to recognize specific devices and thus enable control over which devices are allowed to connect to a given device. To resolve this conflict wireless communication systems like Bluetooth and Z-Wave uses a process called bonding, and a bond is created through a process called pairing. The pairing process is triggered either by a specific request from a user to create a bond (for example, the user explicitly requests to Add a Z-Wave device), or it is triggered automatically when connecting to a service where (for the first time) the identity of a device is required for security purposes. These two cases are referred to as dedicated bonding and general bonding respectively. Pairing often involves some level of user interaction; this user interaction is the basis for confirming the identity of the devices. Once pairing successfully completes, a bond will have been formed between the two devices, enabling those two devices to connect to each other in the future without requiring the pairing process in order to confirm the identity of the devices. When desired, the bonding relationship can later be removed by the user. Implementation During the pairing process, the two devices involved establish a relationship by creating a shared secret known as a link key. If a link key is stored by both devices they are said to be paired or bonded. A device that wants to communicate only with a bonded device can cryptographically authenticate the identity of the other device, and so be sure that it is the same device it previously paired with. Once a link key has been generated, an authenticated Asynchronous Connection-Less (ACL) link between the devices may be encrypted so that the data that they exchange over the airwaves is protected against snooping. Link keys can be deleted at any time by either device. If done by either device this will implicitly remove the bonding between the devices; so it is possible for one of the devices to have a link key stored but not be aware that it is no longer bonded to the device associated with the given link key. We.R System User Guide 299 Pairing and Bonding Wireless services generally require either encryption or authentication, and as such require pairing before they allow a remote device to use the given service. Some services, such as the Object Push Profile, elect not to explicitly require authentication or encryption so that pairing does not interfere with the user experience associated with the service use-cases. 300 We.R System User Guide Security Aspects Appendix H Owners Records This appendix was added for the system owner to concentrate all records of the system. Item CCU Serial Number User Email User Password User Name User Mobile Phone Number User Code for We.R Mobile Application APN Name APN User APN Password SIM-Card Telephone Number Data Table 8: Owners Records We.R System User Guide 301 Owners Records This page was intentionally left blank 302 We.R System User Guide
frequency | equipment class | purpose | ||
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1 | 2014-03-10 | 2425 ~ 2425 | DTS - Digital Transmission System | Original Equipment |
app s | Applicant Information | |||||
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1 | Effective |
2014-03-10
|
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1 | Applicant's complete, legal business name |
Essence Security International ltd.
|
||||
1 | FCC Registration Number (FRN) |
0018112599
|
||||
1 | Physical Address |
Abba Eban Avenue 12, Ackerstein Tower Bldg. D
|
||||
1 |
2073
|
|||||
1 |
Herzeliya, N/A 4612001
|
|||||
1 |
Israel
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
c******@telefication.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
YXG
|
||||
1 | Equipment Product Code |
ES800UT
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
T**** C****
|
||||
1 | Title |
Certification Manager
|
||||
1 | Telephone Number |
+9727********
|
||||
1 | Fax Number |
+9729********
|
||||
1 |
t******@essence-grp.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
Hermon Laboratories Ltd.
|
||||
1 | Name |
M**** N********
|
||||
1 | Physical Address |
Israel
|
||||
1 | Telephone Number |
972 4********
|
||||
app s | Non Technical Contact | |||||
1 | Firm Name |
Essence Security International Ltd.
|
||||
1 | Name |
L**** Z********
|
||||
1 | Physical Address |
Israel
|
||||
1 | Telephone Number |
972-7********
|
||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 05/01/2014 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DTS - Digital Transmission System | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Universal transmitter | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Power output listed is conducted. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Hermon Laboratories
|
||||
1 | Name |
G**** S********
|
||||
1 | Telephone Number |
972-4********
|
||||
1 | Fax Number |
+972 ********
|
||||
1 |
g******@hermonlabs.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2425.00000000 | 2425.00000000 | 0.0120000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC