AeroScout WDKEYPAD WanderGuard Indoor Keypad User Manual MobileView Analytics Patient Flow for Clinics

AeroScout WanderGuard Indoor Keypad MobileView Analytics Patient Flow for Clinics

Contents

User Manual Part 1

WANDERGUARD BLUE  WANDER MANAGEMENT SOLUTION USER AND DEPLOYMENT GUIDE
   Disclaimer The information and know-how included in this document are the exclusive property of STANLEY Healthcare and are intended for the use of the addressee or the user alone. The addressees shall not forward to another their right of using the information, know-how or document forwarded herewith, in whole or in part in all matters relating or stemming from or involved therein, whether for consideration or without consideration, and shall not permit any third party to utilize the information, know-how or the documents forwarded herewith or copies or duplicates thereof, unless at the company’s consent in advance and in writing. Any distribution, advertisement, copying or duplication in any form whatsoever is absolutely prohibited. The Company reserves the right to sue the addressee, user and/or any one on their behalves, as well as third parties, in respect to breaching its rights pertaining to the intellectual rights in particular and its rights of whatever kind or type in the information, know-how or the documents forwarded by them herewith in general, whether by act or by omission. This document is confidential and proprietary to STANLEY Healthcare and is not to be distributed to any persons other than licensed AeroScout Visibility System users or other persons appointed in writing by STANLEY Healthcare.   Copyright Notice Bluetooth is a registered trademark of Bluetooth SIG, Inc.                       © 2017 STANLEY Healthcare. All rights reserved.  Doc: 0980-349-000 Rev A     Published: 2017/07/16    KB Article: 10152.
 User and Deployment Guide        2 Table of Contents Introduction ............................................................................. 7 Document Conventions ................................................................................... 8 Reference  Documents ...................................................................................... 8 WanderGuard BLUE Documents .................................................................. 8 Accessory Documents .................................................................................. 9 Terminology, Abbreviations and Acronyms ................................................... 9 System Overview and Architecture ...................................... 11 How It Works ................................................................................................. 12 Architecture and Workflow ...........................................................................  12 WanderGuard BLUE Tag ........................................................ 14 WanderGuard BLUE Tag Battery Life ........................................................ 15 WanderGuard BLUE Tag Communication ..................................................... 15 Tag Communication with the Detector ..................................................... 15 Tag Back Label and Certifications ................................................................. 16 Tag Delivery ................................................................................................... 17 WanderGuard BLUE Securaband Starter Kit ................................................. 17 Attaching Tags ............................................................................................... 18 Removing Tags ............................................................................................... 19 Cleaning Tags ................................................................................................. 19 WanderGuard BLUE Tag Specifications ......................................................... 20 WanderGuard BLUE Tag Disposal ................................................................. 20 EX5700 Controller .................................................................. 21 Controller's Hardware Components ............................................................. 22 BLE Transceiver .......................................................................................... 23 Clock ........................................................................................................ 23 Rear Recessed Connection Panel ................................................................... 24 Cable Ports.................................................................................................. 24
 User and Deployment Guide        3 Power Supply ............................................................................................ 25 Reset Button ............................................................................................. 25 Wire Terminal Block Description ............................................................... 26 Connecting Programmable Outputs 3 and 4 ............................................ 29 Controller Modes and Relays ........................................................................ 29 Controller LED Status Indicators.................................................................... 33 External LF Antenna (ANT4200) .................................................................... 34 Slave Exciter ................................................................................................... 35 Configuring the Slave Exciter .................................................................... 36 Mounting the EX5700 Controller .................................................................. 39 WanderGuard BLUE Manager ....................................................................... 40 Integration with Arial (Phase 1) .................................................................... 41 EX5700 Controller Firmware Upgrade .......................................................... 42 Setting up the PC ....................................................................................... 42 Configuring the Engine .............................................................................. 43 Adding the Controller ................................................................................ 43 Upgrading the Firmware ........................................................................... 44 EX5700 Controller Specifications................................................................... 46 Indoor Keypad ....................................................................... 48 Overview ........................................................................................................ 49 Wired Connections ......................................................................................... 49 Communication .......................................................................................... 50 Buttons and LED Display ............................................................................... 51 Mute/Unmute Indoor Keypad Sounds ...................................................... 52 Time ............................................................................................................ 53 Help ............................................................................................................ 54 Function Button Options ........................................................................... 55 Function Button A – Access Granted .......................................................... 55 Function Button B – Alarm Reset ................................................................ 56 Function Button C ..................................................................................... 56 Function Button D ..................................................................................... 56 Keypad Display .......................................................................................... 57 Keypad LEDs ................................................................................................... 58 Indoor Keypad Firmware Upgrade ................................................................ 59
 User and Deployment Guide        4 Indoor Keypad Specifications ........................................................................  62 Outdoor Keypad .................................................................... 64 Door Opening Using the Outdoor Keypad ................................................... 65 Outdoor Keypad Specifications .....................................................................  66 Standalone Outdoor Keypad ......................................................................... 67 WanderGuard BLUE Detector ................................................ 68 Physical Characteristics .................................................................................. 69 Turning a WanderGuard BLUE Detector ON and OFF ............................... 69 LEDs ............................................................................................................ 70 USB Connector ........................................................................................... 70 Communication .............................................................................................. 71 Activating a WanderGuard BLUE Tag with the Detector ............................. 72 Checking the WanderGuard BLUE Tag Battery Level ................................... 73 Tag Scan Using the Detector ......................................................................... 73 WanderGuard BLUE Detector Firmware Upgrade ........................................ 74 Connecting the Detector to a PC ............................................................... 74 Using the TED Device Manager ................................................................. 74 Establishing a Connection to the Detector ............................................... 75 Viewing Detector’s Battery Status .................... Error! Bookmark not defined. Viewing and Updating the Detector’s Firmware ......................................  77 Cleaning the Detector ....................................................................................  79 WanderGuard BLUE Detector Specifications ................................................ 80 WanderGuard BLUE Manager ............................................... 81 Getting Started with Your Tablet ................................................................. 82 Launch WanderGuard BLUE Manager and Log in ........................................ 83 Automatic Logout .......................................................................................... 85 Scanning for Controllers and Tags ................................................................ 85 How It Works ............................................................................................. 85 Performing a Scan for Controllers and Tags ............................................. 86 Viewing Scan Results ..................................................................................... 87 Tag Scan Results ......................................................................................... 87 Controller Scan Results .............................................................................. 88 Controller Configuration ............................................................................... 89
 User and Deployment Guide        5 Controller Pages User Interface .................................................................  90 Settings ....................................................................................................... 91 List of Possible Errors from the Controller: .................................................. 93 Clock Settings ............................................................................................. 93 Daylight Savings Time: ............................................................................... 95 Outputs ....................................................................................................... 99 Users ......................................................................................................... 101 Schedule ................................................................................................... 104 Toolbar Actions ............................................................................................ 106 Start/Stop Day/Night Mode .................................................................... 107 Start/Stop Override Mode ....................................................................... 108 Copy / Paste Configuration ..................................................................... 109 Refresh Configuration.............................................................................. 111 More ......................................................................................................... 112 Apply All ................................................................................................. 113 Blink ....................................................................................................... 114 Clear Log and Save Log ........................................................................... 115 Restart .................................................................................................... 116 Restore ................................................................................................... 117 Save Log ................................................................................................. 117 Save Configuration .................................................................................. 118 Snack Bar ...................................................................................................... 119 Troubleshooting the Tablet Installation ..................................................... 120 Location services ...................................................................................... 120 Bluetooth® ............................................................................................... 120 WanderGuard BLUE Manager Access ......................................................  120 TeamViewer ............................................................................................. 120 Detector Tag ........................................................................ 121 LED Indicators............................................................................................... 122 Activating the Detector Tag and Dormant Mode ....................................... 122 Using the Detector Tag to Measure Controller Coverage .......................... 123 Detector Tag Specifications ......................................................................... 124 Appendix A: Mounting the EX5700 Controller .................. 125
 User and Deployment Guide        6 Mounting Limitations .................................................................................. 125 Fixing the Controller to a Floating Ceiling: ................................................. 125 Mounting on a Wide Grid with Flush Tiles ............................................. 126 Mounting Off-Grid ................................................................................... 127 Mounting on a Narrow-Grid T-Bar .......................................................... 131 Mounting on a Wide Grid with Recessed Tiles ....................................... 134 Mounting on a Slotted Grid..................................................................... 137 Mounting the Controller on a Wall ................... Error! Bookmark not defined. Appendix B: Mounting the EX5700 Controller (Wall-mount Bracket) ................................................................................ 140 Installation Components ............................................................................. 143 Installation Instructions ............................................................................... 144 Appendix C: Controller Default Configuration Settings ....  147
 User and Deployment Guide        7 1 Introduction The WanderGuard BLUE Wander Management Solution is STANLEY Healthcare’s new, standalone solution for monitoring and preventing at-risk-resident wandering.  This Deployment and User Guide describes the processes for successful deployment of the system and the procedures for its proper operation. This guide contains the following chapters: x Introduction xSystem Overview and Architecturex WanderGuard BLUE Tag x EX5700 Controller x Indoor Keypad x Outdoor Keypad xWanderGuard BLUE Detectorx WanderGuard BLUE Manager x Detector Tagx Appendix A: Mounting the Controller x Appendix B: Controller Mounting with Wall-mount Bracket x Appendix C: Controller Default Configuration Settings
 User and Deployment Guide        8 Document ConventionsThe following conventions are used in this guide.  Best Practice: A best practice is a recommended activity based on STANLEY Healthcare's accumulated professional knowledge and experience with the product.   Note Notes contain additional information that supplements the material in the main body of the document. Reference Documents The following relevant documents are accessible in STANLEY Healthcare's Support Community site at the following URL: www.stanleyhealthcare.com/support. WanderGuard BLUE Documents Document Name  KB Article No. Quick Reference Guide  10154 WanderGuard BLUE Wander Management Solution Release Notes 10155 WanderGuard BLUE Tag Data Sheet  10158 WanderGuard BLUE Manager Data Sheet  10161 WanderGuard BLUE Detector Data Sheet  10164 WanderGuard BLUE EX5700 Controller Data Sheet  10167 WanderGuard BLUE Indoor Keypad Data Sheet  10170
 User and Deployment Guide        9 Accessory Documents Document Name  KB Article No. AeroScout Exciter EX3210 Installation and Configuration Guide 1269 External LF Antenna Installation Guide  8380 Exciter EX5200 Installation and Configuration Guide 7814 Terminology, Abbreviations and Acronyms The following terms, abbreviations and acronyms are used in this User Guide and have the meaning and significance as described in the following table. These terms and data definitions may have slightly different meanings from their usage in the healthcare industry in general or by other healthcare companies and providers in particular. Term  Definition BD  Bidirectional BLE  Bluetooth Low Energy Door Ajar  A situation where a door remains opened for more than a preconfigured duration DST  Daylight Savings Time ID  Identification LF  Low Frequency Loitering  A situation where a Tag stays in the Door Controller exciter field for more than a preconfigured duration MAC  Media Access Control NC  Normally Closed (electrical) NO  Normally Open (electrical) PoE  Power over Ethernet REX  Request for Exit
 User and Deployment Guide        10 Term DefinitionRSSI  Received Signal Strength Indicator. RSSI is a common name for the signal strength in a wireless network environment. It is a measure of the power level that an RF client device is receiving from an access point, for example. TIF  Tag In Field or exit alarm. Applies to a Tag that is located within the exciter field and is communicating with the host device (Controller) TNIF  Tag Not In Field. A TNIF message is sent by a Tag to the Controller when it leaves the exciter field. UD  Unidirectional UI  User Interface Unsupervised Tag A Tag that transmits only within the Controller's range. The Tag does NOT transmit periodically (NOT every x seconds) Wi-Fi  Technology for wireless local area networking with devices based on the IEEE 802.11 standards.
 User and Deployment Guide        11 2 System Overview and Architecture The WanderGuard BLUE Wander Management Solution consists of the following components: x WanderGuard BLUE EX5700 Controller – is the WanderGuard BLUE door control center. The EX5700 is the repository for all system data related to controlling the door that it supervises. x WanderGuard BLUE Tag – transmits a signal to the EX5700 Controller when a monitored resident is in proximity to a controlled door. The EX5700 Controller can lock the door or sound an audible alarm if the door is opened. x WanderGuard BLUE Indoor Keypad – located inside the controlled area, the Indoor Keypad enables staff (or visitors) to exit through the door (unique codes enable cancelling any existing system alarms). x Outdoor Keypad – located outside the controlled door, the Outdoor Keypad enables entry through the door using unique codes. x WanderGuard BLUE Detector – activates the WanderGuard BLUE Tag, displays Tag battery indications and assists during WanderGuard BLUE Manager scanning for Tags. x WanderGuard BLUE Manager – is the STANLEY Healthcare dedicated mobile application for configuration and maintenance of the WanderGuard BLUE Wander Management Solution. The application is installed on an off-the-shelf Asus Tablet (ZenPad 8 Z380M).   Note Mag locks for added door protection can be purchased separately.
 User and Deployment Guide        12 How It WorksEach at-risk resident wears a WanderGuard BLUE radio frequency Tag that contains a unique ID. The Tag is usually worn on the resident's wrist but can also be worn on the ankle. STANLEY Healthcare provides a standard strap with its basic kit but offers an optional waterproof and hypoallergenic tear-proof strap to prevent unsupervised removal. Door Controllers monitor the facility doors. Typically, one Controller monitors one door and generates a low frequency (LF) field that defines a coverage area. When a Tag enters this field, the Tag is identified. An alarm is issued and the door can be automatically locked. A Loiter Alarm can also be issued if the resident does not move away from the door within a configurable period of time. An Indoor Keypad allows staff to open or close the door or cancel an existing alarm. The Indoor Keypad screen shows alarms (e.g., resident in area) and system status messages. The Outdoor Keypad has the same functionality as the Indoor Keypad, but does not have a screen. Alarms can be cleared at either Keypad. In addition, the system supports non-staff visits such as visits by relatives. Architecture and Workflow The basic system concept is that an alarm is issued and the door can be locked when a resident Tag is within the Controller field. A Controller is typically installed above a door and constantly transmits a signal in a certain frequency; a resident Tag listens in that same frequency. When the Tag is "excited" by the Controller signal (the Tag entered the Controller field), it sends a signal back to the Controller in a different frequency. When the Controller receives the message from the Tag, it can lock the door. The Controller can also be setup not to lock/unlock the door when the Tag is in field. The Tag is non-supervised, which means it transmits only when in range of the EX5700 Controller. The WanderGuard BLUE Tag has a small form factor. Tags are available with either a 90-day or 3-year battery life. The EX5700 Controller controls the door lock via dedicated relay output. It has additional relay output that is dedicated for siren control. It can be connected to a Door Sensor from which it receives input on door status (open/closed). The EX5700 has the following features: x Configurable via the WanderGuard BLUE Manager x Holds users credential information x Switches between night and day modes per configured schedule x Supports Indoor and Outdoor Keypads
 User and Deployment Guide        13 If it is necessary to extend the EX5700 Controller LF range, for example, to control two proximate doors by the same Controller, an additional EX5200 Exciter can be chained to the Controller using dedicated ports and a special cable. The WanderGuard BLUE Indoor Keypad receives power from the Controller. Communication between the Controller and Indoor Keypad is by RS485. It has a display that shows the mode of operation of the system and also reports events. The Outdoor Keypad also receives its power from the Controller. It communicates with the Controller via Wiegand output. The WanderGuard BLUE Manager application is installed on an Asus tablet (ZenPad 8 Z380M). The application can establish bi-directional BLE communication with the Controller. The communication is used to configure the Controller’s settings, day/night mode schedule, users’ credentials, and other system properties. The WanderGuard BLUE Detector is used for several activities: x Tag activation x Checking Tag battery level x Supporting scanning for Tags by WanderGuard BLUE Manager
 User and Deployment Guide        14 3 WanderGuard BLUE Tag The WanderGuard BLUE Tag's function is to transmit messages to the Controller. The Tag is triggered by signals from the Controller when it is in proximity to the door. When the Tag message is received by the Controller, the Controller can lock the door, preventing the resident from exiting the protected area. If the door is open and the Tag is in proximity to the door, the system generates an alarm. The WanderGuard BLUE Tag is provided with a standard strap that can be worn on an individual’s wrist or ankle. An optional cut-resistant WanderGuard BLUE strap (Securaband™) is also available to provide a robust physical barrier to unauthorized Tag removal. Each WanderGuard BLUE Tag is identified by its own unique ID. The ID is can be located on the side of the Tag. The WanderGuard BLUE Tag has a 125 kHz Low Frequency (LF) receiver. When the Tag is within the Controller range, it receives LF signals transmitted by the Controller's transmitter. The Tag then transmits 2.4 GHz BLE messages. The messages are received by the Controller BLE receiver. Using LF ensures that the adverse impact on Tag battery life is negligible.
 User and Deployment Guide        15 WanderGuard BLUE Tag Battery Life Two types of WanderGuard BLUE Tags are available:  x Ninety-day battery life  x Three-year battery life Tag battery life can be tested by the WanderGuard BLUE Detector. It is recommended to use the WanderGuard BLUE Detector to check the Tag battery at least once a week. Ninety-day Tag The ninety-day Tag begins sending a Low battery message to the Detector two weeks prior to the 90-day expiration date. Three-year Tag The three-year Tag indicates the low battery two months prior to the three-year term. Battery lifetime is guaranteed only if the Tag was activated prior to the ‘Activated By’ date listed on the back label. WanderGuard BLUE Tag Communication The WanderGuard BLUE Tag is initially activated by the WanderGuard BLUE Detector (for activation instructions, see here in this User Guide).  Best Practice: It is recommended to perform Tag activation when the Tag is out-of-range of the Controller and other Tags. It is OK for the Tag to be in range of the WanderGuard BLUE Manager. Tag Communication with the Detector The WanderGuard BLUE Tag sends a BLE message with the following data when it receives an LF message from the Detector: x MAC ID x Status – Dormant/Activated x Firmware version x Battery – Good/Low x Battery Type – 90 days / 3 years x Activation date x Manufacturing Date
 User and Deployment Guide        16 These Tag messages are received by both the Detector and the WanderGuard BLUE Manager: x The Tag information is displayed on the WanderGuard BLUE Manager when running a "Scan" for Tags and Controllers. x A Detector LED shows the battery status of the Tag.  Tag Back Label and Certifications The label includes the Tag SKU, Type, and Activated By date. Tag compliance and certification are also displayed.
 User and Deployment Guide        17 Tag Delivery The Tag is delivered with one (1) standard strap and the Tag User Guide. If a heavy duty band is needed, Securaband straps can be used. WanderGuard BLUE Securaband Starter Kit A WanderGuard BLUE Securaband Starter Kit with a ruggedized cut-resistant strap contains the following: x WanderGuard BLUE Tag x Sizing tool x Removal tool x WanderGuard BLUE Securaband strap – one (1) of each size x Pocket Guide x User Guide  Note The following attachment, removal, cleaning and storing procedures are applicable for the ruggedized cut-resistant Securaband strap for WanderGuard BLUE Tags.
 User and Deployment Guide        18 Attaching TagsTo attach the Tag: 1. To determine the strap size, wrap the sizing tool around the resident’s wrist or ankle, making sure that the logo is facing you. The strap size is the first number to the right of the measuring bar (in this example, size 10).   2. Select the appropriate WanderGuard BLUE strap from storage (the size is printed on the box as well as on the inside of the strap).   Note Measure carefully to ensure that the appropriate strap size is selected. Once the strap has been attached, it cannot be used again. 3. Slide a WanderGuard BLUE Tag onto the strap, making sure that both the serial number on the Tag and the size stamp on the strap are facing you.  4. Position the strap around the resident’s wrist or ankle and insert the free end of the strap into the clasp until it clicks into place.  5. Discard the sizing tool (it may be recycled but not used again).
 User and Deployment Guide        19 Removing TagsTo remove the Tag: 1. Place the removal tool over the clasp, making sure that the chevron on the clasp and the lanyard ring on the tool are facing in the same direction. 2. Squeeze the tool handles together to unlock the clasp. 3. While holding the tool handles together, pull the strap end out of the clasp.    4. Slide the Tag off the strap, clean and store the Tag, and discard the strap. Cleaning Tags Follow these recommendations for cleaning the Tag. WanderGuard BLUE straps are single-use and cannot be re-attached. x Use a mild soap and water to remove any apparent debris. x Disinfect Tags by wiping with an alcohol sanitizer or germicidal cleaner for 60 seconds. Use only cleaners marked as safe for plastics. Tags are incompatible with disinfectants containing Glycol Ether. x Dry with a soft, clean cloth. x Do not use an autoclave to clean Tags or serious damage may result.
 User and Deployment Guide        20 WanderGuard BLUE Tag SpecificationsProduct Specification Part Number  SKU for Ninety-day Tag: WGB-TAG-1000-90D SKU for Three-year Tag: WGB-TAG-1000-3Y Model  WGB-TAG-1000-90D WGB-TAG-1000-3Y LF Frequency 125 kHz BLE Frequency  2400-2483.5 MHz Battery Life Options Ninety days Three years Temperature  32° to 122°F (0 to 50°C) Humidity  0-95% RH @ 70°F (21°C), non-condensing Dimensions  Approx. 1.08 x 1.16 x 0.6” (2.74 x 2.95 x 1.5 cm) Weight  Approximately 0.26 oz. (7.5 g) WanderGuard BLUE Tag Disposal At the end of its life, contact STANLEY Healthcare for instructions regarding Tag disposal in accordance with Federal and other regulations governing this type of device.
 User and Deployment Guide        21 4 EX5700 Controller The WanderGuard BLUE EX5700 Door Controller is a main component of STANLEY Healthcare’s WanderGuard BLUE Wander Management Solution for monitoring and securing facility doors against resident wandering. The WanderGuard BLUE Door Controller controls the WanderGuard BLUE system by receiving messages from Tags, Keypads, and the WanderGuard BLUE Manager and can lock the door, as necessary. It also stores all system configuration parameters. The Controller is typically installed above or in proximity to the monitored door. The Controller does the following: x Controls the door lock x Configured via WanderGuard BLUE Manager x Holds user credentials data (up to 45 users) x Switches between night and day mode per configured schedule x Supports Indoor and Outdoor Keypads
 User and Deployment Guide        22 Controller's Hardware Components x One (1) LF (125 kHz) Transmitter x One (1) BLE Receiver to receive messages from Tags x One (1) BLE Transceiver for BLE communication with the WanderGuard BLUE Manager x Reset button x Two (2) 2 A output relays x Relay 1 – lock/unlock door x Relay 2 – alarm annunciation x 12 VDC power for Indoor/Outdoor Keypads x External LF for additional Exciter/Antenna x RS485 for Indoor Keypad x Wiegand Input for Outdoor Keypad x Real-time clock and battery x Three (3) Grounds x Four (4) 100mA output relays x 1 - Secure Door Lock (Lock) x 2 - Tag In Field (TIF) (preAlert) x 3 - Programmable x 4 - Programmable x Four (4) inputs x Door status  x Manual bypass (REX – request for exit) x Override x Alarm in
 User and Deployment Guide        23 BLE Transceiver x Sends BLE message every 3 seconds x Used as a test mechanism for the BLE receiver: x If the BLE receiver does not receive the message, it means that the Receiver is not operating properly. x This feature enables the Controller to monitor the Receiver that communicates with the Tag. This test functionality prevents a situation in which a resident could be without Tag protection due to a technical problem without the staff knowing. Clockx Maximum drift of 400 msec a day x Maximum drift of 1 minute in ~5 months period x The clock has a battery that is used only when the Controller is not powered up.  Best Practice: It is recommended to synchronize the Clock using the WanderGuard BLUE Manager once every 6 months because of the Clock drift.
 User and Deployment Guide        24 Rear Recessed Connection Panel The back of the Controller contains a recessed connection panel for all EX5700 Controller connections including power and peripheral equipment (e.g., Indoor Keypad, Outdoor Keypad, etc.) including: x Cable Ports x Reset Hole x Wire Terminal Block Cable Ports  LAN / PoE: RJ-45 connector. In a configuration with a physical Ethernet cable connection to the LAN, the network cable is attached here. Permanent connection to a wired network is not mandatory. Note PoE is currently not supported. The EX5700 supports 100 Mb full-duplex communications. The Network Switch must be configured to Auto Negotiation mode when connecting the Controller to the Network Switch, in order to use the 100 Mb communications.  Note When an Ethernet device is set to 100Mb/Full Duplex fixed, as in the EX5700, and the switch port is set to auto-negotiate, then according to the 802.3 standard, the communication from the switch side will be set to 100Mb/Half duplex. 24-48 VDC: Accepts an input voltage of 24-48 VDC. This is a standard 5 mm (outer) 2.5 mm (internal) jack connector for direct power supply. The power adapter is not supplied with the Controller and can be purchased separately.
 User and Deployment Guide        25 (#3) CHAINING IN: Not supported. CHAINING OUT: RJ-45 connector. This connector is used for distributing power and data to chained Exciters or to connect an External LF Antenna. The output voltage is 12 VDC (0.5 A maximum). Termination Switch: Defining the termination settings in a chained Exciters installation:  In regular chaining, the termination of the first and last Exciter in the chain must be set to On (o-o) and the other Exciters set to Off (-o-o-).  The EX5700 Controller supports only being the first in a chain. The EX5700 cannot serve as a slave, e.g., the EX5700 cannot be chained to another EX5700. Hence, the termination must be set to On (o-o). Power Supply The EX5700 Controller supports 24 V – 48 V power supply. Product  SKU Power Supply 24 V US  WGB-ADP-047-U Power Supply 48 V US  WGB-ADP-047-U Power Supply 48 V Europe  WGB-ADP-047-E Power Supply 48 V UK  WGB-ADP-047-UK Altronix AL600ULM (UL294 central power supply)  80602001 Altronix AL175UL (UL294 central power supply)  15560 Altronix AL1024ULACMCB (UL294 central power supply) AGECP02-024   Note It is prohibited to connect cables greater than 98.5 ft (30 m) long.
 User and Deployment Guide        26 Reset Button x Located in the back of the Controller, the label near the button is labeled "Reset." x Long press on the button (longer than 10 seconds) to restart and reset the Controller with its default configuration. x Short press on the button (shorter than 10 seconds) to restart the Controller; the Controller keeps its current configuration.  Wire Terminal Block Description The EX5700 Wire Terminal Block is accessed from the back of the Controller.
 User and Deployment Guide        27  Connector  Purpose  Comment OUT1 LOCK  Follows Relay 1  Secure door lock. Follows relay 1 (if relay 1 is activated, the output is activated) OUT2 TIF  Tag In Field  Activated when there is Tag In Field. OUT3  Programmable Output 3  Activated based on configuration OUT4  Programmable Output 4  Activated based on configuration ALARM IN  Controller moves to Alarm mode   Door is in Alarm mode OVERRIDE IN  Controller moves to Override Mode Door is in override RS485B  RS485 communication with Indoor Keypad  RS485A  RS485 communication with Indoor Keypad  N/C  Not connected  For future use. N/C  Not connected  For future use. 24-48 V IN  Power IN. Accepts 24-48 V Direct Current Used if the 24-48 VDC connector is not connected. Connected to external power supply. GND IN  Ground/Earth  Used if the 24-48 VDC connector is not connected. Connected to external power supply. R1 NC  Relay 1 normally closed connection
 User and Deployment Guide        28 Connector Purpose CommentR1 COM  Relay 1 common connection, always connect  Dedicated to Maglock control. With internal feedback control. R1 NO  Relay 1 normally open connection  Dedicated to Maglock control. With internal feedback control. R2 NC  Relay 2 normally closed connection  R2 COM  Relay 2 common connection, always connect  Dedicated to siren control. With internal feedback control. R2 NO  Relay 2 normally open connection  Dedicated to siren control. With internal feedback control. GND  Ground/Earth  GND  Ground/Earth  D1  Wiegand Data 1  For Wiegand communication with the Outdoor Keypad LED  Indication of Wiegand interface  For Outdoor Keypad 12 V OUT  Power  Used for powering Indoor and Outdoor Keypads D0  Wiegand Data 0  For Wiegand communication with the Outdoor Keypad GND  Ground/Earth  DOOR IN  Door status   Status on the door (open/closed) REX IN  Request for exit  Controller moves to Bypass mode
 User and Deployment Guide        29  Note Connect to COM and NO if you want the switched circuit to be on when the relay is on.  Connect to COM and NC if you want the switched circuit to be on when the relay is off. Connecting Programmable Outputs 3 and 4 The Controller has two programmable outputs. The outputs can be programmed by the WanderGuard BLUE Manager to be activated when the Controller enters a specific status/mode. The outputs are automatically deactivated when the Controller is no longer in that status/mode. On the Controller's Terminal Block, the programmable outputs are designated as follows: x OUT3 on the Terminal Block – refers to programmable Output 3 x OUT4 on the Terminal Block – refers to programmable Output 4 Controller Modes and Relays DAY MODE x Relay 1 is activated upon TIF in order to lock the door  x Relay 1 returns to default upon TNIF x After Bypass/Visitor code, Relay 1 gets deactivated NIGHT MODE x Relay 1 remains active during Night Mode x Relay 2 gets activated when the door is opened. TIF is not necessary. x Relay 2 returns to default when the Controller receives the reset code x If Bypass/Visitor code is entered, Relay 2 remains in default for the duration of the Bypass/Visitor Mode x If Bypass/Visitor code is entered, Relay 1 is deactivated for the duration of the Bypass/Visitor Mode
 User and Deployment Guide        30 BYPASS MODEx When the Bypass code is entered in the Keypad, Relay 1 is set to deactivated state. x When the Bypass code entered in the Keypad, Relay 2 is set to deactivated state. x During the Bypass period, multiple people (with or without Tags) are allowed to walk through the door without any restriction. x Bypass resets the alarm mode. x Bypass is terminated if the door is not opened 5 seconds after the Bypass code was entered. x Within the Bypass time out period, Bypass is terminated after door is closed. x After Bypass time out: x In night mode, if the door is opened, the Controller switches to Alarm mode. x In day mode, if the door is opened and there is TIF, the Controller switches to Alarm mode.
 User and Deployment Guide        31 VISITOR MODEx When the Visitor code is entered in the Keypad, relay 1 is set to deactivated state. x When the Visitor code is entered in the Keypad, relay 2 is set to deactivated state. x Visitor mode uses the Bypass time out period. x During the Bypass timeout period, multiple people without Tags are allowed to walk through the door x If there is TIF during Visitor mode and door is open, relay 2 is activated. x Visitor is terminated if the door is not opened 5 seconds after the visitor code is entered. x Within the Bypass time out period, Visitor mode is terminated after the door is closed. x After Bypass timeout: x In Night Mode, if the door is opened, the Controller switches to Alarm Mode xIn Day Mode, if the door is opened and there is TIF, the Controller switches to Alarm Mode x Visitor code does not reset the alarm. xIf ‘alarm in’ or TIF, the Controller switches to Visitor Mode when the Visitor code is entered and relay 1 gets deactivated.
 User and Deployment Guide        32 ALARM MODEx When not in Night Mode, Relay 2 gets activated when the door is opened and there is TIF. x When in Night Mode, Relay 2 gets activated when the door is opened. x Relay 2 returns to default when the Controller receives Reset or Bypass code from the Keypad. x After Reset: x In Night Mode, if the door is opened, the Controller switches back to Alarm Mode. x In Day Mode, if the door is opened and there is TIF, the Controller switches to Alarm mode. ALARM RESET x Reset code returns Relay 2 to its default setting (pending door status). x Reset code returns Relay 1 to its default setting (pending door status). x If there is an alarm condition (e.g., Night Mode with open door, open door and TIF), the alarm reset does not reset the alarm. x If there is "Alarm In", the alarm Reset resets it. OVERRIDE MODE x Relays 1 and 2 are deactivated. xLF transmission is disabled.x Any person with or without Tags can go through the door during the Override period.
 User and Deployment Guide        33 Controller LED Status IndicatorsThe Controller LEDs show Controller status as follows: Color  Status Solid Green  Ready – Day Mode Solid Red  Ready – Night Mode Blinking Green  Override Blinking Red  Alarm Solid Amber  Error Blinking Amber (3 sec)  Blink command  LEDs are displayed according to the following priorities: x Error supersedes Alarm. x Override supersedes Alarm and/or Error. x Blink supersedes Override, Alarm, and/or Error.
 User and Deployment Guide        34 External LF Antenna (ANT4200)An External LF Antenna connection is supported for the EX5700 Controller to extend LF range. The External Antenna Unit (ANT4200) supports one Mode: x Same ID as the Controller – the External Antenna's function is a range extender. If an External LF Antenna (ANT4200) is connected to the Door Controller as a range extender, the internal LF and External LF Antennae transmit simultaneously. The External LF range can be configured via the WanderGuard BLUE Manager between 0.25 m to 3 m in steps of 0.25 m (default 3 m). External LF can be configured even when Internal LF is disabled. For External LF Antenna mounting instructions, see the External LF Antenna Installation Guide (KB Article 8380).
 User and Deployment Guide        35 Slave Exciter A Slave Exciter can be connected to the EX5700 Controller. The Slave Exciter allows extension of the LF range in the case of double doors or proximate door that is controlled by the same EX5700 Controller as follows: Exciter EX3210 x LF Exciter with 3 meters range x Connected to the Controller via Cat5 cable x Up to 3 Exciters can be chained with a single Controller power supply  EX5200 Exciter x LF Exciter with 6.5 meters range x Connected to the Controller via Cat5 cable x Up to 2 Exciters can be chained with a single Controller power supply
 User and Deployment Guide        36 Configuring the Slave Exciter The Slave Exciter cannot be configured by the WanderGuard BLUE Manager. It needs to be configured by the Local Engine. The configuration includes:  x Setting the LF range of the Exciter. x Setting the Exciter to the Slave Exciter. Do the following to configure the Slave Exciter: 1. Set the PC with AeroScout Location Engine: x Install Engine 5.0 SP4 Manager and Server (Non-Cisco Platform). x Connect the PC to the ‘LAN’ Connection of the Exciter. x Set the PC to have static IP of the same subnet as the Exciter. x The Exciter default IP address is 192.168.1.178.
 User and Deployment Guide        37 2. Configure the Engine: x Launch Engine Manager, and connect to the Engine server. x Configure basic settings (add Campus, Building, Floor and Map).  3. Add the LF Exciter to the Engine: x Add the Exciter to the Engine configuration. x Set the Exciter’s IP to 192.168.1.178. x The Controller should appear online in ~1 minute.
 User and Deployment Guide        38 4. Set the Exciter's Properties: x Open the Exciter Properties. x Set the LF transmission Range. x Set the Exciter as slave Exciter. x Click OK.
 User and Deployment Guide        39 Configuration of the Slave Exciter: 1. The EX5700 is defined as the “Master.” Other Exciters are designated “Slave.”  2. The Master Controller is connected to the first Slave Exciter as follows: Master Chain OUT to Slave Chain IN. 3. Slave Exciters are then connected as follows: Slave OUT to Slave IN. 4. The Termination Switch of the Master and the last Slave Exciter in the chain must be set to On (o-o).  On the other Slave Exciters, it must be set to OFF (-o o-). For more information on Slave Exciter configuration and mounting, see the EX3210 and EX5200 deployment guides here. Mounting the EX5700 Controller For standard mounting with standard mounting and heavy-duty mounting kits, see Appendix A. For mounting using the Controller Wall-mount Bracket, see Appendix B.
 User and Deployment Guide        40 WanderGuard BLUE ManagerBi-directional BLE communication between the WanderGuard BLUE Manager and the Door Controller can be established from the mobile application. After establishing communication, the EX5700 Controller configuration can be set using the WanderGuard BLUE Manager. To configure the Controller via WanderGuard BLUE Manager see Controller Configuration in this User Guide.
 User and Deployment Guide        41 Integration with Arial Integration with Arial is supported in WanderGuard BLUE v1.0 by connecting Inovonics transmitter(s) to the Controller’s relays or outputs. Integration via Inovonics 54350: x Can be connected to dry contact (Relay 1 or Relay 2 – for example to NO and COM)  x Transmits an Alarm when 12 VDC is sent x Sends a clear message when the 12 VDC is removed x 54350 can also be used for output activation: x Transmits an Alarm when the 100 mA output is activated x Sends a clear message when the 100 mA output is deactivated Integration via Inovonics 14390: x Can be connected to 12 V relay and to 100 mA output (the 12 V can come from the Controller) x Transmits an Alarm when the 100 mA output is activated x Sends a clear message when the 100 mA output is deactivated
 User and Deployment Guide        42 EX5700 Controller Firmware Upgrade Controller firmware upgrade involves the following steps: x Setting up the PC from which the Controller firmware upgrade is performed and installing the AeroScout Location Engine (ALE) x Configuring the AeroScout Location Engine x Adding the Controller to the Engine configuration x Performing the upgrade Setting up the PC 1. Install Engine 5.0 SP4 Manager and Server (non-Cisco platform). 2. Connect the PC-to-LAN connector of the Controller. 3. Set the PC to static IP in the same subnet as the Controller. The Controller default IP address is: 192.168.1.178.
 User and Deployment Guide        43 Configuring the Engine 1. Launch Engine Manager, and connect to the Engine Server. 2. Configure the basic settings (add Campus, Building, Floor and Map).  Adding the Controller 1. Add the Exciter to the Engine configuration.    2. Set the Exciter with Wi-Fi Receiver enabled. 3. Set the Controller's IP to 192.168.1.178. 4. The Controller appears online after approximately one minute.
 User and Deployment Guide        44 Upgrading the Firmware 1. Open the Upload Firmware dialog from the Exciter by right-clicking the Exciter folder.    2. Select "EX5700" in the Model drop-down window. 3. Browse to the firmware file of the EX5700.
 User and Deployment Guide        45 4. Add the Controller to "Update Firmware To."    5. Click OK to begin the upgrade. 6. The upgrade takes approximately four minutes.
 User and Deployment Guide        46 EX5700 Controller SpecificationsProduct Specifications Part Number  SKU: EX-5700-NA, EX-5700-E  Dimensions  245 mm X 200 mm X 60 mm (9.6in x 7.9in x 2.4in)  Weight  865g (31oz)  Housing  Polycarbonate and ABS  Range  Adjustable from 0.5m (20in) up to 6.5m (21.3ft) in intervals of 0.5m (20in)  LF channels  125 kHz Field intensity limits: 37.3dBȝA/m at 10m (ETSI) Propagation limits: 21.8 dBȝV/m at 300m (FCC) Modulation: ASK  Power  Input voltage 24-48 VDC 48 VDC  Maximum power consumption: 8 W Maximum power consumption of External LF Antenna: 5 W  Environmental  Operating temperature: 0 to 50°C (32°F to 122°F) Humidity: 0 to 95%, non-condensing  Certification  FCC Part 15, sub-part C class B, sub-part B EN 300-330 EN 301.489 RSS210 (Canada) EMC IEC60601-1-2 (Europe) Safety: CE, cTUVus (EN60950)  Relays  Two: max. switching voltage 220 VDC/250 ACD, max. switching power 30 W/62.5 VA, max. switching current 1A, NO (Normally Open) or NC (Normally Closed)  Operational Notes: x The Controller needs to be used as described in this section. x The Controller should not be maintained and/or serviced while in use x The Controller should be installed and mounted as explained in this document x Power supply should be used per the power requirement of the Controller x If not installed and mounted, the Controller should be stored in the designated box it is shipped with. x Cleaning the Controller should be done only when it is not connected to power.
 User and Deployment Guide        47  Symbols in the Back label: x Safety 60950   x Safety 60601   x Compliance with the WEEE (Waste Electrical and Electronic Equipment) Directive  x Approved by FCC   x Approved for sale in Europe    x Double insulated electrical appliance
 User and Deployment Guide        48 5 Indoor Keypad The Indoor Keypad is used to control the door by entering commands on the keypad. The Indoor Keypad displays Controller Status – Alarm, Bypass, Day mode, Override, Error, etc. It also displays system events such as Alarm, Door Ajar, and Loitering. A PIN code can be entered to unlock the door or reset an alarm.
 User and Deployment Guide        49 Overview The Indoor Keypad does the following: x Connects to EX5700 via RS485 x Powered (12 V) by the Controller x Displays the Controller’s status/mode on its screen x Displays Controller Error(s) on its screen x Uses LEDs to indicate Controller status x Can use its built-in buzzer to indicate alarms and events x Sends the entered key to the Controller for verification Wired Connections The Indoor Keypad is physically connected to the Controller via RS485. The Outdoor Keypad can be simultaneously connected to the Controller via Wiegand. Both Keypads are powered by the Controller (12 V).      Indoor Keypad RS-485 Controller Wiegand Outdoor Keypad   Note If only an Outdoor Keypad is connected to the Controller (an Indoor Keypad is NOT connected), then an error is issued by the Controller. The Controller's LED color changes to Amber, and an error message is displayed in the WanderGuard BLUE Manager mobile application:
 User and Deployment Guide        50 Communication Power x 12 V from the Controller to +12 V x GND from the Controller to GND IN RS485 x RS485A from the Controller to RS485A x RS485B from the Controller to RS485B Wiegand input from a reader (D0, D1, LED, GND) is intended for future use of a reader that can be connected to the Keypad.
 User and Deployment Guide        51 Buttons and LED Display The buttons below the screen are used to enter a code or activate a menu item displayed on the Keypad screen (the two buttons to the right of the LED screen are intended for future use).  x The main Keypad consists of 3X4 keys: the numbers 1 – 9 and a bottom row: *, 0, #. x A vertical column on the right side contains the Function Keys: A – D. x Below the LED screen are buttons that activate the displayed LED screen menu item.  x To the right of the LED screen are two buttons. These buttons are intended for future use. x On the left side of the LED screen is the power LED. The LED is Green when power is ON and blinks RED when there is an alarm. Another LED below it is reserved for future use. The following is the typical main screen of the Indoor Keypad:  Main keypad Power LED  For future use Screen navigation buttons Function buttons
 User and Deployment Guide        52 Mute/Unmute Indoor Keypad Sounds The Indoor Keypad is used to toggle the door buzzer on/off. To Mute/Unmute Indoor Keypad sounds: 1. Press the Keypad button below Sound on the screen. The following screen opens.   2. Code (2020*) is required to be entered to modify Sound settings The following options are displayed: x Mute All – mute Key clicks and events sound x Mute Alarms – mute Alarm, Door Ajar, and Loitering events sound. x Mute Key Clicks – mute Key Click only x Unmute  3. Click SEL to select your choice. Verify that your choice is "checked." 4. Click EXIT to return to the main screen.
 User and Deployment Guide        53 Time To view the current time, press Time on the main screen.  The following screen opens:    Best Practice: When the system is initially installed at the customer site, the Indoor Keypad shows a default date of January 3, 2017. When the Indoor Keypad downloads its time settings from the Controller, it begins showing the same time settings as the Controller. The Input Keypad date and time are changed by modifying the appropriate Controller fields within the WanderGuard BLUE Manager mobile application. See the Clock Settings page of the WanderGuard BLUE Manager.
 User and Deployment Guide        54 Help The Help screen displays the Keypad Software Version and provides access to the Function Buttons menu.  To access the Function Buttons menu: 1. Click Help.  2. In the screen that opens, click Function Buttons:   3. Click SEL to select (it's the only option).  4. The Function Buttons selection screens opens. See Function Button Options.
 User and Deployment Guide        55 Function Button Options  Note The Visitor and Bypass codes and the time period that the door is open can be changed in the WanderGuard BLUE Manager. The Alarm Reset code can also be changed in the WanderGuard BLUE Manager. See Settings in the Controller Configuration chapter of this User Guide. Function buttons activate the designated function (Access Granted, Alarm Reset) after the preset PIN code is entered by a staff member on the Indoor Keypad. These functions are accessed by keying in the numerical code and then pressing the designated Letter button (A or B) on the Keypad.  Note The C and D buttons are reserved for future use.  Function Button A – Access Granted This function is used together with the Visitor Code or Bypass Code to open the door. The following are the default codes: Bypass code – 0000A Visitor code – 0001A Entering one of these codes opens the door, and the Indoor Keypad simultaneously displays an Access Granted message. The Access Granted function stays active for the designated time period (the default time period is five seconds).  x Access Granted (Visitor)
 User and Deployment Guide        56 x An "Access Denied" message is issued when the code is invalid  Function Button B – Alarm Reset This function is used to turn off the alarm (9999 + function Button "B") and return the Indoor Keypad to its READY state. An alarm is issued, for example, if the door was opened without proper authority. If a wrong code is entered, an Invalid Code message is displayed:  Function Button C For future use. Function Button D For future use.
 User and Deployment Guide        57 Keypad Display   Time and Day of the Week are displayed on the upper row of the LED display. The display shows the mode/status of the Controller and indicates any Controller error such as a communication failure with the Controller. If you make a mistake during code entry, press Clear to start over.  Indoor Keypad statuses: x Ready x Ready – Night Mode x Door Ajar x Loitering x Override x Access Granted (Visitor) x Access Granted (Staff) x Access Denied x Invalid Code x Alarm x Controller Error x Communication Failure
 User and Deployment Guide        58 Keypad LEDsThe Indoor Keypad has two left-side LEDs (looking at the Keypad): a lower LED and an upper LED.  The lower shows errors and loss of communication. The upper shows Status and Mode. The following are the color codes: Display  Upper LED (Ready / Alarm) Ready Solid GreenReady – Night Move Solid Red Override Blinking Green Bypass Solid Green Visitor Solid Green Alarm Mode Blinking Red Loitering Solid Green Door Ajar Solid Green Access Denied Solid Green Invalid Code Solid Green Error Off
 User and Deployment Guide        59 Indoor Keypad Firmware UpgradeA PC application is used to upgrade the Indoor Keypad firmware. The following are firmware upgrade preliminary steps:   x Install the application on the PC x Install the driver for the micro-USB Connect the PC to the Indoor Keypad by the micro-USB connector at the back panel of the Keypad using the dedicated cable. The cable SKU is: WGB-UPCAB-KPD-1000. Do the following to upgrade the Indoor Keypad firmware: 1. Open the application and from the main menu, select the following type of connection: Debug port  2. From the Properties menu, select virtual Com port (the adapter creates virtual COM-port on the PC). The following communication needs to be defined: x Baud-rate 115200 x 8 data bits x 1 stop bit
 User and Deployment Guide        60 x No parity  3. Select the binary file for upgrade. 4. If the file name is defined in correct format, the version number is automatically detected; if not, you need to define new version number.  5. Press the Start Upgrade button and Yes to start the upgrade.
 User and Deployment Guide        61  6. A progress bar and counter appear showing the status of the upgrade.  7. After the upgrade is completed, information regarding the upgrade and new firmware version number is displayed in the log window.
 User and Deployment Guide        62    Indoor Keypad Specifications SpecificationsPart Number  SKU: WGB-KPD-K100-IN Operating Voltage Range 11.5 to 15 VDC from a standard Controller  Input Current  Standby: 50 mA at 12 VDC Maximum: 200 mA at 12 VDC Communication with Controller RS485 Keypad  3x4 keys standard arrangement; 4-digit PIN codes entry Backlight blue keys
 User and Deployment Guide        63 SpecificationsDesign  Enclosure suitable for indoor use Audio/Visual  Graphical LCD: 128x64 + white backlight Buzzer for audio indication/alert ~90dB@10cm Tri-color indication LEDs: red, green, yellow Pin Code Format  Numerical 4-digit length PIN codes Environment  Operating temperature: 0°C to 50°C (32°F to 122°F) Storage temperature: -20°C to 50°C (-4°F to 122°F) Operating Humidity: 0 to 95%, non-condensing Physical  Dimensions: L104 mm x W22.5 mm x H125 mm (L 4.1 in. x W 0.89 in. x L 4.92 in.) Weight: 206 g (0.54 lbs.)
 User and Deployment Guide        64 6 Outdoor Keypad The Outdoor Keypad is Rosslare Security's AYC-Q54B. It sends Wiegand output to the Controller after a code is entered. The 4 digit code does not need any other keys to be entered. Verification of the code is done by the Controller. These codes include: x Bypass code x Visitor code x Alarm Reset code              The Outdoor Keypad: x Receives 12 V power from the EX5700 Controller x Communicates WITH the EX5700 Controller via Wiegand x UL294-certified
 User and Deployment Guide        65 Door Opening Using the Outdoor KeypadThe same numerical codes apply to both the Outdoor Keypad and Indoor Keypad, except that there are no Function Buttons (A, B) when using the Outdoor Keypad. Since there is no A or B key in the Outdoor Keypad, it is sufficient to enter only the numerical code. To open the door using the Outdoor Keypad: 1. Enter the appropriate code at the Outdoor Keypad.  2. As you key in the numbers, the LED blinks from red to green.  3. After the fourth digit is entered, the LED changes to green, and the door is unlocked. 4. After the door is relocked (when the door closes), the LED changes color from green back to red.
 User and Deployment Guide        66 Outdoor Keypad SpecificationsELECTRICAL SPECIFICATIONS Reader mode: 5 to 16 VDC from a standard Controller Controller mode: PS-x25T series intelligent power supplies Standby: 65 mA at 12 VDC Maximum: 110 mA at 16 VDC Tamper: Optical back tamper sensor, O.C. active low, 32 mA max. sink current Operational Specifications Keypad: 3x4 keys for local programming and 4- to 8-digit PIN codes entry Design: Epoxy potted, fully-sealed in a rugged metal enclosure; blue backlit metal keys, highly strong construction.  Suitable for extremely harsh environments. Audio/Visual: Two tri-color LED indicators, built-in buzzer Environmental Specifications Operating Environment: All weather, indoor and outdoor use, meets IP65 Operating Temperature: -35°C to 66°C (-31°F to 151°F) Operating Humidity: 0 to 95% (non-condensing) Physical Specifications Dimensions: 120 x 76 x 21 mm (4.72 x 3 x 0.83 in.) Weight:  480 g (1.05 lbs.)
 User and Deployment Guide        67 Standalone Outdoor KeypadA standalone Outdoor Keypad is not part of the WanderGuard BLUE solution but can be used with it. Unlike the Outdoor Keypad, this Keypad does not have Wiegand output. x International Electronics Inc. (IEI) 0232142- REV 3  x SKU: 15615 x Same output Keypad as used with RoamAlert (for maglocked doors). x Can be connected to the Controller via the REX input. x PIN codes can be entered into the Keypad to open the door. x PIN codes need to be programmed in the Keypad. x The Standalone Outdoor Keypad is usually connected directly to the door (the door is unlocked when PIN code is verified by the Keypad).
 User and Deployment Guide        68 7 WanderGuard BLUE Detector The WanderGuard BLUE Detector is a component of STANLEY Healthcare’s WanderGuard BLUE Wander Management Solution. This portable hand-held device is used to perform the following activities: x Tag activation x Checking Tag battery level x Support WanderGuard BLUE Manager's scanning for Tags
 User and Deployment Guide        69 Physical CharacteristicsThe WanderGuard BLUE Detector is equipped with the following: x 3 LEDs x Side button (ON/OFF) x Micro-USB connector x Power charger x Lanyard Turning a WanderGuard BLUE Detector ON and OFF To turn ON a WanderGuard BLUE Detector: 1. Short-click the power button. 2. The Power LED turns ON (Ivory color). To turn OFF a WanderGuard BLUE Detector: 1. Press the power button for 1 second. 2. The Power LED turns OFF. The WanderGuard BLUE Detector goes into Sleep Mode 10 minutes after startup if not in use (to save its battery life). When in Sleep mode, the Detector needs to be powered up in order to work.
 User and Deployment Guide        70 LEDs Power Indicators On  Ivory Off Power LED is OFF Low battery Ivory (blinking) Charging Red Fully charged Green Battery Indicators Tag with ‘Good’ battery level  Green for two seconds Tag with ‘Low’ battery level  Red for two seconds Receiving BLE messages from more than one Tag Ivory for two seconds LF Indicators When LF is transmitted  Ivory color blinking for 0.25 second When receiving a BLE message from an activated Tag Green for two seconds When receiving BLE messages from more than one Tag Ivory for two seconds USB Connector The USB Connector with power adaptor is used to connect the WanderGuard BLUE Detector to a power outlet. Alternatively, the cable can be connected to a PC -USB port.
 User and Deployment Guide        71 Communication The Detector communicates only with the Tag. The Detector transmits LF messages to the Tag every two seconds within a range of 0.3 - 0.5 m. It also receives BLE messages from the WanderGuard BLUE Tag (see the WanderGuard BLUE Tag chapter). Note The Detector does not transmit/receive when it is charging. The Detector does not directly connect to WanderGuard BLUE Manager.    LF  BLE
 User and Deployment Guide        72 Activating a WanderGuard BLUE Tag with the Detector To activate a WanderGuard BLUE Tag with your Detector: 1. Turn on WanderGuard BLUE Detector by short-clicking the power button. 2. Place a WanderGuard BLUE Tag within the Detector's LF range (less than 0.5 meter). 3. Activate the Tag – press the power button for 1.5 seconds. x Detector sends activation message via LF. x Detector beeps to indicate sending activation message. 4. Upon receiving BLE message from the Tag. x LF LED lights green for two seconds. x If more than one Tag sends a BLE message, the LF LED lights Ivory for two seconds. 5. If the WanderGuard BLUE Manager is in range of the Tag(s), the Scan feature can display the Tags and their properties in the application.
 User and Deployment Guide        73 Checking the WanderGuard BLUE Tag Battery Level To check WanderGuard BLUE Tag Battery Level: 1. Turn on WanderGuard BLUE Detector by short-clicking the power button. 2. Place the Tag within the LF range of the Detector (less than 0.5 meter). The Detector constantly sends LF messages. 3. The Detector displays the Tag Battery level by flashing the Tag Battery LED for one second after receiving the BLE message from the Tag. 4. When the Detector is in proximity to an activated Tag that has a good battery, the LF and Battery LED flash Green every 2 seconds.   Note If multiple Tags send BLE messages, the Battery LED will be Ivory color.   Best Practice: It is recommended to have the Tag battery checked at least once a week. Tag Scan Using the Detector To run a scan for Tags using the Detector: 1. Turn on WanderGuard BLUE Detector by short clicking the power button. 2. Place the Detector close to the Tag (less than 0.5m). 3. The Detector constantly sends LF messages so Tags in the vicinity will be transmitting BLE messages. 4. Run Scan in the Mobile Application. 5. View Tag properties in the WanderGuard BLUE Manager's Scan results page.
 User and Deployment Guide        74 WanderGuard BLUE Detector Firmware UpgradeThe TED Device Manager is a component of STANLEY Healthcare's Hardware Manager application and is used to upgrade WanderGuard BLUE Detector firmware. Connecting the Detector to a PC 1. Turn ON the PC or laptop. 2. Turn ON the WanderGuard BLUE Detector by short-clicking the power button. 3. Connect the Detector to your computer using the supplied micro-USB cable by inserting the USB end of the cable into an available USB port. 4. Insert the micro-USB connector into the port located in the bottom-end of the Detector.  5. The Detector power LED turns on. See LEDs.  6. Device drivers are automatically installed the first time the Detector is connected to a PC. Using the TED Device Manager The TED Device Manager component of the STANLEY Healthcare's Hardware Manager application is used to: x Connect to the Detector to view the Detector’s battery status x Upgrade the Detector firmware

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