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IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide IOIOI Serial Service Port 10/100 48 VDC Radio power/Sync Network Link Activity Part Number: 453564414871 Printed in the U.S.A. April, 2017 Second Edition 453564414871 Proprietary Information This document contains proprietary information that is protected by copyright. Copyright Copyright 2017 Koninklijke Philips N.V. All Rights Reserved. Manufacturer Philips Medical Systems 3000 Minuteman Road Andover, MA 01810-1099
(+1) 978-687-1501 This document was printed in the United States of America. Trademark Acknowledgments All trademarks, trade names and company names referenced herein are used for identification purposes only and are the property of their respective owners. FCC Notice These devices comply with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) these devices may not cause harmful interference, and (2) these devices must accept any interference received, including interference that may cause undesired operation. Pursuant to Part 15.21 of the FCC Rules, any changes or modifications to this equipment not expressly approved by Philips Medical Systems may cause harmful radio frequency interference, and void your authority to operate this equipment. This device has been designed to operate with the antenna having the part number 453564079561 and having a maximum gain of 3.2 dB. Antennas not included in this approved list or having a gain greater than 3.2 dB are strictly prohibited for use with this device. The required antenna impedance is 50 ohms. Warranty The information contained in this document is subject to change without notice. Philips Medical Systems makes no warranty of any kind with regard to this material, including, but not limited to, the implied warranties or merchantability and fitness for a particular purpose. Philips Medical Systems shall not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing, performance, or use of this material. Printing History New editions of this document will incorporate all material updated since the previous edition. The documentation printing date and part number indicate its current edition. The printing date and edition number change when a new edition is printed. The document part number changes when extensive technical changes are incorporated. First Edition...................................................................................................................................................August, 2013 Second Edition ................................................................................................................................................................... April, 2017 ii Contents Introduction . 1-2 A General Description of the IntelliVue Smart-hopping Core Access Point . 1-3 Core AP Mounting Options . 1-4 Power Source . 1-4 Synchronization Signal . 1-4 IntelliVue Patient Monitor Mobility. 1-5 Technical Alerts . 1-5 Firmware Updates. 1-5 Management Interfaces . 1-6 Connectors and Status Indicators (ITS4834D) . 1-6 IntelliVue Smart-hopping Core AP Connectors . 1-7 Remote AP Connectors. 1-7 Connectors and Status Indicators (ITS4834B and ITS4834C) . 1-9 IntelliVue Smart-hopping Core AP Connectors . 1-9 Remote AP Connectors. 1-10 IntelliVue Smart-hopping Core AP Status LEDs. 1-11 Remote Antenna Status LEDs . 1-11 Specifications. 1-12 Ordering Information . 1-15 Regulatory Information . 1-16 FCC Compliance . 1-16 Access Point Placement Guidelines . 2-2 ITS4843D Installation Procedure . 2-3 ITS4843B and ITS4843C Installation Procedure . 2-6 Mounting the IntelliVue Smart-hopping Core AP to a Wall (Fixed Mount) . 2-9 Mounting the IntelliVue Smart-hopping Core AP to a Wall
(CA Earthquake Rated) . 2-10 Mounting the IntelliVue Smart-hopping Core AP Above a Ceiling Tile . 2-12 Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile
(Fixed Mount) . 2-15 Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile
(Quick Release) . 2-19 Mounting the IntelliVue Smart-hopping Remote Antenna to a Wall
(Fixed Mount) . 2-24 IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide iii Mounting the IntelliVue Smart-hopping Remote Antenna to a Wall
(CA Earthquake Rated) . 2-26 Mounting the IntelliVue Smart-hopping Remote Antenna Above a Ceiling Tile
(Mounting Rails). 2-28 Mounting the IntelliVue Smart-hopping Remote Antenna Above a Ceiling Tile
(Tether Mount) . 2-31 Mounting the IntelliVue Smart-hopping Remote Antenna Below a Ceiling Tile
(Fixed Mount) . 2-33 Mounting the IntelliVue Smart-hopping RA Below a Ceiling Tile
(Quick Release) . 2-37 AP Configuration Information . 2-40 Access Point Startup Sequence . 2-40 Maintenance Procedure . 3-2 Troubleshooting the Core AP Using its LEDs . 3-2 Troubleshooting the Remote Antenna Using its LEDs . 3-4 Replacing a Core AP or Remote Antenna. 3-5 Ordering Replacement Parts. 3-5 Philips Sales and Support Offices Worldwide . 3-8 CORPORATE HEADQUARTERS: . 3-8 UNITED STATES: . 3-8 CANADA:. 3-8 EUROPE, MIDDLE EAST AND AFRICA: . 3-8 LATIN AMERICA HEADQUARTERS: . 3-8 ASIA PACIFIC HEADQUARTERS: . 3-8 Contents iv About This Guide This IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide provides complete instructions and procedures for installing the Philips IntelliVue Smart-hopping 1.4 GHz Core Access Point and Remote Antennas. This section describes the document and includes:
Audience Document Organization Notational Conventions Related Documentation Terminology IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide v About This Guide Audience The IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide is written for trained service personnel who will install the IntelliVue Smart-
hopping 1.4 GHz Core Access Point as part of an overall IntelliVue Smart-
hopping deployment. Document Organization The information in this guide is organized and presented as follows:
Chapter 1, Overview, describes the IntelliVue Smart-hopping 1.4 GHz Core Access Point and how it is used to provide a bi-directional data flow between the IntelliVue Information Center and IntelliVue Patient Monitors. Chapter 2, Installing the IntelliVue Smart-hopping 1.4 GHz Access Point, provides procedures to physically install the Philips IntelliVue Smart-hopping 1.4 GHz Core Access Point and includes instructions for mounting the Core AP and Remote Antennas to a wall, above a ceiling tile, and below a ceiling tile. Chapter 3, Maintaining the IntelliVue Smart-hopping 1.4 GHz Core Access Point, provides procedures to maintain and troubleshoot operation of the Philips IntelliVue Smart-hopping 1.4 GHz Core Access Point. Notational Conventions This guide uses the following notational conventions to convey information:
Note Notes call attention to important information. Caution Cautionary statements call attention to a condition that could result in loss of data or damage to equipment. Warning Warnings call attention to a condition that could result in physical injury. vi Related Documentation About This Guide Please refer to these other documents for additional installation service information about the IntelliVue Smart-hopping infrastructure:
IntelliVue Smart-hopping Access Point Controller Installation Guide -
provides procedures to physically install and power the IntelliVue Smart-hopping Access Point Controller at the clinical site. IntelliVue Smart-hopping 2.4 GHz Access Point Installation Guide -
gives procedures to install the IntelliVue Smart-hopping 2.4 GHz AP at the clinical site to a wall, or above or below a ceiling tile. IntelliVue Smart-hopping Infrastructure Installation and Service Guide
- provides complete information and procedures to install, configure, inter-connect, and deploy the IntelliVue Smart-hopping infrastructure at the clinical site. This document includes site planning guidelines, procedures for use of the APC command line and graphical user interfaces, AP configuration procedures, and APC and AP firmware deployment procedures. IntelliVue Smart-hopping Sync Unit Installation Guide - lists procedures to install the IntelliVue Smart-hopping Sync Unit at the clinical site. Upgrading IntelliVue Smart-hopping Access Point Controllers and Access Points - gives procedures to use the Philips IntelliVue Smart-
hopping APC and AP Upgrade Tool to install and synchronize the firmware version on IntelliVue Smart-hopping APCs and APs. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide vii About This Guide Terminology viii Please note the following terms, acronyms, and abbreviations used throughout this document and in related documentation:
Access Point (AP) - An IntelliVue Smart-hopping component that provides bi-directional wireless access to the monitoring network for IntelliVue Patient Monitors. Access Point Controller (APC) - An IntelliVue Smart-hopping component used to manage the operation of the Access Points. One APC is elected the Master APC. The Master APC supports the web interface to the system and manages the master configuration. Access Point Group/AP Group - A logical grouping of APs. AP members of the same AP Group will inherit common configuration settings
(defaults). AP groups will often map logically to the clinical units in which the IntelliVue Smart-hopping Infrastructure is being installed. Database Domain (DBSD) - This term is used to describe the network that contains the Standalone IntelliVue Information Center, or the IntelliVue Database Server and its connected Information Centers, Clients, bedsides, and infrastructure. This term applies to both routed and non-routed topologies. IntelliVue Network - This term refers to the entire IntelliVue network. In a routed topology, the IntelliVue Network includes the routers and all inter-connected Database Domain(s) and the IntelliVue Smart-hopping Infrastructure wireless subnet. IntelliVue Patient Monitor (IPM) - The IntelliVue Patient Monitor relays real-time physiological waveforms and trends to the Philips IntelliVue Information Center (PIIC) or Philips IntelliVue Information Center iX
(PIIC iX). IntelliVue Smart-hopping infrastructure - Philips proprietary wireless network designed for continuous monitoring that provides two-way communications between IntelliVue Patient Monitors, and the IntelliVue Information Center. IntelliVue Smart-hopping Infrastructure Service Tool - The software used to upgrade IntelliVue Smart-hopping APCs and APs, verify that APCs on your network are configured correctly, and display warning and error messages that you may use to troubleshoot any configuration errors that may exist on your IntelliVue Smart-hopping network. The IntelliVue Smart-hopping Infrastructure Service Tool is also referred to as the Upgrade Tool. This tool was previously referred to as the Upgrade Wizard. IntelliVue Telemetry System (ITS) - Deprecated term for the cellular wireless architecture that provides two-way communications between IntelliVue Patient Monitors, and the IntelliVue Information Center. See IntelliVue Smart-hopping infrastructure. IntelliVue Wireless Subnet - This term is used to describe the IntelliVue Smart-hopping Infrastructure network that contains the About This Guide infrastructure used in a routed topology to connect IntelliVue Smart-
hopping Infrastructure devices. Partnered APC - Configurable element within an AP Group used to determine which APC will manage the operation of the AP members of a particular AP Group. Power over Ethernet (PoE) Switch - The Power over Ethernet (PoE) Switch is a 24-port Power-over-Ethernet device that provides 48 VDC power to IntelliVue Access Points (and also remote Sync Units if connected) via 100-Base-TX Ethernet LAN cabling. For systems using a Power over Ethernet Switch, the ITS4844A Tele Synchronization Unit is required to use the PoE feature of the PoE Switch. Power over Ethernet (PoE) Unit - The Power over Ethernet (PoE) Unit is a 6- or 12-port Power-over-Ethernet device that provides 48 VDC power to IntelliVue Access Points (and also remote Sync Units if connected) via 100-Base-TX Ethernet LAN cabling. RF Access Code - Configurable element in the IntelliVue Smart-
hopping AP defaults shared among APs and IntelliVue Patient Monitors to control wireless access to the monitoring network. Portable devices will only connect to access points with which they share access codes. The RF Access Code allows a specific wireless client that is programmed with a matching Access Point RF Access Code to connect to that Access Point. Synchronization (Sync) Unit - The IntelliVue Smart-hopping Sync Unit provides a necessary common clock signal to synchronize all the IntelliVue Access Points in the system. As patients ambulate around the hospital coverage area their transmitted data are handed over from one AP to another seamlessly without interruption or data loss. The ITS4844A (866212) IntelliVue Smart-hopping Synchronization Unit provides the same features as the M4844A (862114) Sync Unit, but is required to use the PoE feature of the PoE Switch. System ID - Configurable element in the APC Configuration to logically associate Access Points and Access Point Controllers operating within the same IntelliVue Smart-hopping Infrastructure. Uninterruptible Power Supply (UPS) - The UPS supplies backup power to protect against hospital generator changeover interruptions, and short power line transients. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide ix About This Guide x 1 Overview This chapter provides a high-level overview of the IntelliVue Smart-hopping ITS4843B, ITS4843C, and ITS4843D 1.4 GHz Core Access Points and includes:
Introduction A General Description of the IntelliVue Smart-hopping Core Access Point Connectors and Status Indicators (ITS4834D) Specifications Ordering Information Warning You must use the ITS4843D 1.4 GHz Core Access Point and the ITS4846B RTX Remote Antenna with each other. This Access Point and Remote Antenna are not supported for use with other 1.4 GHz Access Points and Remote Antennas. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 1-1 Chapter 1: Overview Introduction The IntelliVue Smart-hopping infrastructure uses a cellular wireless architecture to provide two-way communications between IntelliVue Patient Monitors and the IntelliVue Information Center. Using the IntelliVue Smart-hopping wireless protocol, the IntelliVue Smart-hopping infrastructure provides monitoring capabilities for ambulatory patients within a wide coverage area. The IntelliVue Smart-hopping IntelliVue Patient Monitors and infrastructure operate on the 1.4 GHz US Wireless Medical Telemetry Service Access Point Controller Access Point Controller Power over Ethernet Switch 1.4 GHz IntelliVue Smart-hopping Access Points Synchronization Unit 1.4 GHz Remote Antenna 1.4 GHz Core Access Point 1.4 GHz Core Access Point 1.4 GHz IntelliVue Patient Monitors Figure 1-1: 1.4 GHz IntelliVue Smart-hopping infrastructure You can configure the Access Point Controller to communicate with IntelliVue 1.4 GHz IntelliVue Smart-hopping Access Points (APs). IntelliVue 1.4 GHz APs can only communicate with 1.4 GHz IntelliVue Patient Monitors. IntelliVue Smart-hopping networks utilize a cognitive radio that senses the RF environment and adapt to it. Dynamic wireless channel allocation ensures best use of available wireless spectrum. The IntelliVue Smart-hopping infrastructure is designed to co-exist with other 802.11 wireless deployments. 1-2 A General Description of the IntelliVue Smart-hopping Core Access Point A General Description of the IntelliVue Smart-hopping Core Access Point The IntelliVue Smart-hopping Core Access Point (AP), Model ITS4843B, ITS4843C, and ITS4843D (Radiohead) (Figure 1-2), provides an air-link to transmit and receive data between IntelliVue Smart-hopping IntelliVue Patient Monitors and the Philips IntelliVue Information Center via the IntelliVue Smart-hopping infrastructure. Core AP Remote Antenna Remote Antenna 74 ft. Fiber and Ferrule Cable Bundle ITS4843D IntelliVue Smart-hopping Core Access Point with ITS4846B Remote Antennas Core AP Remote Antenna Remote Antenna 74 ft. UTP and Coaxial Cable Bundle ITS4843B/C IntelliVue Smart-hopping Core Access Point with ITS4846A Remote Antennas Figure 1-2: IntelliVue Smart-hopping Core Access Point IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 1-3 Chapter 1: Overview The ITS4843B/C Core AP is a modular antenna infrastructure consisting of a Core AP (CAP) with up to two connected Model ITS4846A Remote Antennas (RAs). A 74-
foot (22.6 m) coaxial and unshielded twisted pair (UTP) cable bundle is used to connect a Remote Antenna to a Core AP. Core APs are only available for the 1.4 GHz IntelliVue Smart-hopping infrastructure. The ITS4843D Radiohead Core AP is a modular antenna infrastructure consisting of a Core AP (CAP) with up to two connected Model ITS4846B Remote Antennas (RAs). A 74-foot (22.6 m) coaxial and unshielded twisted pair (UTP) cable bundle is used to connect a Remote Antenna to a Core AP. Core APs are only available for the 1.4 GHz IntelliVue Smart-hopping infrastructure. The effective range of the Core AP and of each Remote Antenna is typically 32 feet. The Core AP always supports a maximum of 18 IntelliVue Patient Monitors regardless of its component configuration. A Core AP alone supports 18 IntelliVue Patient Monitors. When used with a single RA, the Core AP supports nine IntelliVue Patient Monitors and its connected RA supports nine IntelliVue Patient Monitors
(9+9=18). When used with two RAs, the Core AP supports six IntelliVue Patient Monitors and its connected RAs each support six IntelliVue Patient Monitors
(6+6+6=18). When monitored patients are ambulatory, data roaming is handled seamlessly between the other IntelliVue Access Points in the coverage area. The Core AP and each RA are always used with their two supplied antennas installed. The Core AP and its attached Remote Antennas can be mounted out of the way on corridor walls, or above or below ceiling tiles. Core AP Mounting Options Wall-mounting hardware is standard. An optional above/below ceiling tile mount kit
(P/N 862415 Option K05 (453564052201)) is available that can be used with both the Core AP and its Remote Antennas. Power Source The IntelliVue Smart-hopping 1.4 GHz Core Access Point receives its 48 VDC operating power source via its Ethernet LAN cabling from Power over Ethernet via the IntelliVue Smart-hopping Sync Unit. The AP is not equipped with a power socket. The AP consumes less than 13.8W, and internally generates a variety of voltages used for its internal components. The CAT-5 UTP cable within the 74 ft.-cable bundle carries 5.5 VDC power, Transmit and Receive control signals, and Antenna Diversity signals from the Core AP to a connected Remote Antenna. The 75 Ohm coaxial cable within the 74 ft.-cable bundle carries RF and DC sense signals from the Core AP to a connected Remote Antenna. Synchronization Signal The IntelliVue Smart-hopping 1.4 GHz Core Access Point receives a synchronization signal from a network of Sync Units that enables an IntelliVue Patient Monitor to hand over data seamlessly between APs within the coverage area when a patient is ambulatory and to transfer data to the IntelliVue Information Center without 1-4 A General Description of the IntelliVue Smart-hopping Core Access Point interruption. Each Sync Unit provides synchronization for up to 12 APs. The Sync Unit also distributes the common reference clock signal needed by the IntelliVue Smart-hopping infrastructure as a whole. IntelliVue Patient Monitor Mobility The IntelliVue Smart-hopping infrastructure supports seamless roaming of IntelliVue Patient Monitors within the area of coverage. This roaming is accomplished via communications between the IntelliVue Patient Monitors and the Access Points (AP) as follows. As an IntelliVue Patient Monitor is moved around a building, it automatically monitors the quality of the wireless link to its current AP (and it also detects the presence of other APs). When the quality starts to deteriorate, the IntelliVue Patient Monitor automatically establishes a new connection to another AP. The IntelliVue Patient Monitor remains connected to two APs for a finite time, and thus the same data is received by these APs. During this time, information for header compression and other data for the connection is routed to the new AP. One of the two APs subsequently releases the radio connection. If a packet is in progress when a handover occurs, then the packet is reassembled co-operatively between the two APs. The PIIC or PIICix receives an unbroken flow of complete IP packets. Technical Alerts Each AP is configured to signal alert conditions that are viewed at the IIC in the wireless status log. The IntelliVue Access Point is configured to raise alerts on error conditions. The alerts are sent over the IntelliVue Smart-hopping/ICN Ethernet LAN infrastructure to a monitoring station or Database Sever. The Access Point raises an alert if:
if data loss exceeds the configured threshold it loses its synchronization signal For small systems having only one AP and no Sync Unit, the AP can be configured to suppress the loss of synchronization signal alert. Note that the IntelliVue Smart-hopping APC provides System Alerts such as loss of synchronization, high data loss, AP hardware failure, and over capacity. Additionally, when redundant APCs are installed, the APC will provide a System Alert for APC hardware or software failure. Firmware Updates Firmware on the IntelliVue Smart-hopping 1.4 GHz Core Access Point is upgraded from the Access Point Controller by using the Upgrade Tool. Refer to the service document entitled IntelliVue Smart-hopping Infrastructure Installation and Service Guide for details. The AP firmware image is provided on the Smart-hopping Telemetry Service Tool CD-ROM. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 1-5 Chapter 1: Overview Management Interfaces The Access Point supports the full range of management interfaces via the IntelliVue Smart-hopping Access Point Controller (APC). These interfaces also enable you to view the status of the Access Point including the following information:
System configuration such as firmware version Connection information such as numbers of packets received and transmitted, and number of errors Wave data information such as total number of seconds of data sent and lost The AP statistics can be read by remote devices (e.g., an IntelliVue Database Server), using the Scaleable Node Address Protocol (SNAP). The following status items can be displayed using the APC web interface:
AP Name Physical Address Partnered AP Controller IP Address Subnet Mask Default Gateway AP Type Connectors and Status Indicators (ITS4834D) Figure 1-3 shows the ITS4843D and Figure 1-4 shows the ITS4843B/C controls and connectors on the 1.4 GHz IntelliVue Smart-hopping Core AP and Remote Antenna IntelliVue Smart-
hopping Core Access Point Ferrule Cable Connectors to Remote Antennas (2 & 1) Link LED Activity LED Ethernet Interface to IntelliVue Smart-hopping Sync Unit Power/Sync, Radio, and Network Status LEDs RA 2 RA 1 Serial Port Ferrule Cable Connector to IntelliVue Smart-hopping Core Access Point IntelliVue Smart-hopping Remote Antenna RA 2 RA 1 Fiber Cable Connectors to Remote Antennas (2 & 1) with RA Status LEDs Fiber Cable Connector to IntelliVue Smart-hopping Core AP Connection LED
(Green) Power LED
(Yellow) Figure 1-3: ITS4843D 1.4 GHz IntelliVue Smart-hopping Core AP and Remote Antenna Controls and Connectors 1-6 Connectors and Status Indicators (ITS4834D) IntelliVue Smart-hopping Core AP Connectors Note the following connectors on the IntelliVue Smart-hopping Core AP:
Ethernet Interface - The AP provides a 100 Base-T Ethernet interface with an RJ-45 connector to connect the Core AP to the IntelliVue Smart-hopping Sync Unit. The AP Ethernet interface provides data communications to and from the IntelliVue Information Center over the IntelliVue Smart-hopping LAN infrastructure. It also presents the 48Vdc power and synchronization signals required by the Core AP. The synchronization signal is superimposed on the power supply voltage. Attach the provided ferrite block to the CAT 5 cabling
(from the Sync Unit) no more than 20 inches (50 cm) from the RJ-45 connector as shown in Figure 2-2 to reduce electromagnetic (radiation) interference. Table 1-2 lists the pin signals for the AP Ethernet interface. Table 1-1: AP Ethernet Interface Pin Signals Pin Signal Description 1 2 3 4 5 6 7 8 Transmit Pair TX + Conductor Transmit Pair TX - Conductor Receive Pair RX + Conductor
+ 48Vdc Power and Synchronization
+ 48Vdc Power and Synchronization Receive Pair RX - Conductor 0V Power Return 0V Power Return Serial Port - The serial port is used only for manufacturing purposes. Coaxial Cable Connectors to Remote Antennas - Two standard coaxial connectors are provided for the UTP cables that connect the Core AP to its Remote Antennas.Each coaxial cable carries 5.5 VDC power, Transmit, Receive and Antenna Diversity Control signals to the Remote Antenna. Ferrule Cable Connectors to Remote Antennas - Two standard 75 Ohm connectors are provided for the cables that connect the Core AP to its Remote Antennas. Each cable carries RF and DC sense signals from the Remote Antenna. Remote AP Connectors Note the following connectors on the Remote Antenna:
Coaxial Cable Connector to Core AP - A standard coaxial connector is provided for the cables that connect the Remote Antenna to its Core AP. The cables carry 5.5 VDC power, Transmit, Receive and Antenna Diversity Control signals to the Remote Antenna. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 1-7 Chapter 1: Overview Ferrule Cable Connector to Core AP - A standard 75 Ohm connector is provided for the cable that connects the Remote Antenna to its Core AP. The cable carries RF and DC sense signals from the Core AP. Note If an installed, powered Remote Antenna becomes disconnected from its Core AP via its Coax/UTP cable bundle, you must reconnect the Coax/UTP cable bundle to the RA and Core AP, and then cycle power to the connected Core AP before the RA will re-establish communications with the Core AP. 1-8 Connectors and Status Indicators (ITS4834B and ITS4834C) Connectors and Status Indicators (ITS4834B and ITS4834C) Figure 1-4 shows the controls and connectors on the 1.4 GHz IntelliVue Smart-
hopping Core AP and Remote Antenna. Link LED Activity LED IntelliVue Smart-
hopping Core Access Coaxial Cable Connectors to Remote Antennas (1 & 2) Ethernet Interface to IntelliVue Smart-hopping Power/Sync, Radio, and Network Status LEDs Serial Port IntelliVue Smart-hopping Remote Antenna Connection LED
(Green) UTP Cable Connectors to Remote Antennas (1 & 2) with RA Status LEDs Power LED
(Yellow) UTP Cable Connector to IntelliVue Smart-hopping Coaxial Cable Connector to IntelliVue Smart-hopping Core Access Point Figure 1-4: 1.4 GHz IntelliVue Smart-hopping Core AP and Remote Antenna Controls and Connectors IntelliVue Smart-hopping Core AP Connectors Note the following connectors on the IntelliVue Smart-hopping Core AP:
Ethernet Interface - The AP provides a 100 Base-T Ethernet interface with an RJ-45 connector to connect the Core AP to the IntelliVue Smart-hopping Sync Unit. The AP Ethernet interface provides data communications to and from the IntelliVue Information Center over the IntelliVue Smart-hopping LAN infrastructure. It also presents the 48Vdc power and synchronization signals required by the Core AP. The synchronization signal is superimposed on the power supply voltage. Attach the provided ferrite block to the CAT 5 cabling
(from the Sync Unit) no more than 20 inches (50 cm) from the RJ-45 connector as shown in Figure 2-2 to reduce electromagnetic (radiation) interference. Table 1-2 lists the pin signals for the AP Ethernet interface. Table 1-2: AP Ethernet Interface Pin Signals Pin 1 2 3 4 5 Signal Description Transmit Pair TX + Conductor Transmit Pair TX - Conductor Receive Pair RX + Conductor
+ 48Vdc Power and Synchronization
+ 48Vdc Power and Synchronization IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 1-9 Chapter 1: Overview Table 1-2: AP Ethernet Interface Pin Signals Signal Description Receive Pair RX - Conductor 0V Power Return 0V Power Return Pin 6 7 8 Serial Port - The serial port is used only for manufacturing purposes. UTP Cable Connectors to Remote Antennas - Two standard RJ-45 connectors are provided for the UTP cables that connect the Core AP to its Remote Antennas.Each UTP cable carries 5.5 VDC power, Transmit, Receive and Antenna Diversity Control signals to the Remote Antenna. Coaxial Cable Connectors to Remote Antennas - Two standard 75 Ohm connectors are provided for the coaxial cables that connect the Core AP to its Remote Antennas. Each coaxial cable carries RF and DC sense signals from the Remote Antenna. Remote AP Connectors Note the following connectors on the Remote Antenna:
UTP Cable Connector to Core AP - A standard RJ-45 connector is provided for the UTP cable that connect the Remote Antenna to its Core AP. The UTP cable carries 5.5 VDC power, Transmit, Receive and Antenna Diversity Control signals to the Remote Antenna. Coaxial Cable Connector to Core AP - A standard 75 Ohm connector is provided for the coaxial cable that connects the Remote Antenna to its Core AP. The coaxial cable carries RF and DC sense signals from the Core AP. Note If an installed, powered Remote Antenna becomes disconnected from its Core AP via its Coax/UTP cable bundle, you must reconnect the Coax/UTP cable bundle to the RA and Core AP, and then cycle power to the connected Core AP before the RA will re-establish communications with the Core AP. 1-10 Connectors and Status Indicators (ITS4834B and ITS4834C) IntelliVue Smart-hopping Core AP Status LEDs The IntelliVue Smart-hopping Core AP provides the following status LEDs. Wired/Ethernet Activity - The Core AP provides two LEDs to indicate wired/
Ethernet activity to the IntelliVue Smart-hopping infrastructure. During normal operation, these LEDs indicate the following information:
Link LED - Link present/Ethernet connection. Lights GREEN (ON) when a pass-through link is present - OFF when not present.
- Act LED - Wired network activity. Flashes YELLOW (ON) when there is activity over the wired network. Wireless/RF Activity - The Core AP provides three LEDs to indicate wireless/RF activity. During normal operation, these LEDs indicate the following information:
- Power/Sync LED - GREEN (ON) when power and synchronization signal is present.
- Radio LED - Normally OFF (not lit) - flashes green to indicate wireless network activity.
- Network LED - Normally OFF (not lit) - flashes green to indicate wired network activity. At initial power on the AP runs a Power On Self-Test (POST). During the POST, the above LEDs indicators flicker and then all three will illuminate continuously
(AMBER) to indicate correct startup operation. Then, the Power ON LED will illuminate (GREEN) continuously to indicate that the 48Vdc power and sync signal are being supplied, and the other two (AMBER) LEDs turn off (not lit). Remote Antenna - The Core AP provides two LEDs on each RJ-45 UTP cable connector that provides status on a connected Remote Antenna:
- RA Connection - Lights GREEN to indicate a RA is connected to the Core AP.
- RA Power - Lights YELLOW to indicate connected RA is receiving power from the Core AP. Remote Antenna Status LEDs The Remote Antenna provides the following status LEDs. Remote Antenna Status LEDs - The green and yellow LEDs above the RJ-45 UTP cable connector to the Core AP provide status on the Remote Antenna as summarized below. Table 1-3: Remote Antenna Status LEDs Green/Yellow LEDs Remote Antenna Status Off/Off No connection to or power from Core AP/Self-test Failed. Flash Green/Yellow Remote Antenna is running self-test/Power on. Solid Green/Yellow Connection to Core AP is Successful/Power On. This is the expected normal operational status. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 1-11 Chapter 1: Overview Specifications Table 1-4: Model ITS4843B, ITS4843C, and ITS4843D (Radiohead) 1.4 GHz Core Access Point Specifications Specification Value Physical:
Chassis (only) Dimensions (H x W x L) 30 mm x 204 mm x 243 mm
(1.2 in x 8.0 in x 9.6 in) Local Antenna (only) Dimensions 160 mm (6.3 inches L) Sleeve Dipole Weight with Antenna
<.79g (1.8 lb) Mounting Environmental:
Operating Temperature Storage Temperature Above Ceiling, Below Ceiling, or Wall Mount, Below Ceiling with quick release, or Wall Mount with bracket 0 to +55o C (32 to 131oF)
-40 to +60o C (-4 to 140oF) Humidity Range (Operating)
< 95% RH @ 40o C non-condensing Humidity Range (Storage)
< 90% RH @ 60o C Altitude Electrical:
Power ITS4843B, RF Power ITS4843C, RF Power
(High Power AP) ITS4843D, RF Power
(Radiohead High Power AP) Power Sensing RF Diversity Operating and Storage up to 3048 m (10,000 ft) 48 VDC nominal (44 - 52 VDC), from PoE Unit via Sync Unit) 8 Watts, 287 mA 8.5 dBm +2/-1.5dB (4.5 mW to 11.2 mW) into Antenna load. 12.5 dBm +/-1.5dB (12.6 mW to 25 mW) into Antenna load. 12.5 dBm +/-1.5dB (12.6 mW to 25 mW) into Antenna load. Auto sensing POE, compliant with 802.3af Uses Dual Antenna, selects antenna with best signal. Frequency Diversity Dynamic, selects RF channels for best signals. Antenna Type LED Indicators Electrical Installation:
Sleeve Dipole > 10dB over 1395MHz to 1432MHz in 50 Ohms. Two LEDs for LAN activity, part of LAN RJ-45 connector. Three LEDs for Radio Activity, Sync, Network status. Two LEDs on Remote Antenna Ports provide Power and Fault status (part of RA RJ-45 connector). 1-12 Specifications Table 1-4: Model ITS4843B, ITS4843C, and ITS4843D (Radiohead) 1.4 GHz Core Access Point Specifications Specification Value Fire Safety Model ITS4843B/C/D 1.4 GHz Core Access Points are Listed for use within
"Other Spaces Used for Environmental Air (Plenum)" per NFPA70: 2011, Article 300.22. Note: The term "plenum" as used in Article 300.22 Section C correlates with the use of the term "plenum" in NFPA 90A-2009, Standard for the Installation of Air-
Conditioning and Ventilating Systems, and other mechanical codes where the plenum is used for return air purposes, as well as some other air-handling spaces. The area above dropped ceilings is an example of plenum space. Interface Connections:
LAN Input (Data): 1 Port; Ethernet 100 Base-T (only 100 Mbps Full Duplex) RJ-45 Female Socket. LAN Cable to Network Switch CAT-5 or better, up to 100m (328 ft.). Remote Antenna UTP Cable Connectors Two RJ-45 Female Socket Connectors are provided to connect the UTP cables on which 5.5 VDC power, Transmit and Receive control signals, and Antenna Diversity signals to the remote Antennas are carried. Connectors are protected against damage from unexpected connection to LAN with PoE Remote Antenna 75 Ohm Coaxial Cable Connectors Two standard 75 Ohm connectors are provided for the coaxial cables on which RF and DC sense signals are carried to the Remote Antenna. Local Antenna Connections (two) Two SMA-style connectors. Table 1-5: Model ITS4846A 1.4 GHz Remote Antenna Specifications Specification Value Physical:
Chassis (only) Dimensions (H x W x L) 30 mm x 100 mm x 174 mm
(1.2 in x 4.0 in x 6.9 in) Local Antenna (only) Dimensions 160 mm (6.3 inches L) Sleeve Dipole Weight with Antenna
<.32kg (0.7 lb) Mounting Environmental:
Operating Temperature Storage Temperature Above Ceiling, Below Ceiling, or Wall Mount 0 to +55o C (32 to 131oF)
-40 to +60o C (-4 to 140oF) Humidity Range (Operating)
< 95% RH @ 40o C non-condensing Humidity Range (Storage)
< 90% RH @ 60o C Altitude Electrical:
Power Operating and Storage up to 3048 m (10,000 ft) 5.0 VDC nominal input via Core AP RJ-45 Cable Connector IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 1-13 Chapter 1: Overview Table 1-5: Model ITS4846A 1.4 GHz Remote Antenna Specifications Specification Value Power Sensing RF Diversity Antenna Type LED Indicators Electrical Installation:
Fire Safety 802.3af-compliant Uses Dual Antenna, selects antenna with best signal. Sleeve Dipole > 10dB over 1395MHz to 1432MHz in 50 Ohms. Power and Connection LED notification on RJ-45 connector. Model ITS4846A 1.4 GHz Remote Antennas are Listed for use within "Other Spaces Used for Environmental Air (Plenum)" per NFPA70: 2011, Article 300.22. Note: The term "plenum" as used in Article 300.22 Section C correlates with the use of the term "plenum" in NFPA 90A-2009, Standard for the Installation of Air-
Conditioning and Ventilating Systems, and other mechanical codes where the plenum is used for return air purposes, as well as some other air-handling spaces. The area above dropped ceilings is an example of plenum space. Interface Connections:
Control Signals RJ-45 Female Socket. Core AP 75 Ohm Coaxial Cable Connector One standard 75 Ohm connector is provided for the coaxial cable on which RF and DC sense signals are carried to the Remote Antenna. Local Antenna Connections (two) Two SMA-style connectors. Table 1-6: Model ITS4846B 1.4 GHz RTX Remote Antenna Specifications Specification Value Physical:
Chassis (only) Dimensions (H x W x L) 30 mm x 100 mm x 174 mm
(1.2 in x 4.0 in x 6.9 in) Local Antenna (only) Dimensions 160 mm (6.3 inches L) Sleeve Dipole Weight with Antenna
<.32kg (0.7 lb) Mounting Environmental:
Operating Temperature Storage Temperature Above Ceiling, Below Ceiling, or Wall Mount 0 to +55o C (32 to 131oF)
-40 to +60o C (-4 to 140oF) Humidity Range (Operating)
< 95% RH @ 40o C non-condensing Humidity Range (Storage)
< 90% RH @ 60o C Altitude Electrical:
Power Power Sensing RF Diversity 1-14 Operating and Storage up to 3048 m (10,000 ft) 5.0 VDC nominal input via Core AP RJ-45 Cable Connector 802.3af-compliant Uses Dual Antenna, selects antenna with best signal. Table 1-6: Model ITS4846B 1.4 GHz RTX Remote Antenna Specifications Specification Value Ordering Information Antenna Type LED Indicators Electrical Installation:
Fire Safety Sleeve Dipole > 10dB over 1395MHz to 1432MHz in 50 Ohms. Power and Connection LED notification on RJ-45 connector. Model ITS4846B 1.4 GHz Remote Antennas are Listed for use within "Other Spaces Used for Environmental Air (Plenum)" per NFPA70: 2011, Article 300.22. Note: The term "plenum" as used in Article 300.22 Section C correlates with the use of the term "plenum" in NFPA 90A-2009, Standard for the Installation of Air-
Conditioning and Ventilating Systems, and other mechanical codes where the plenum is used for return air purposes, as well as some other air-handling spaces. The area above dropped ceilings is an example of plenum space. Interface Connections:
Control Signals RJ-45 Female Socket. Core AP 75 Ohm Coaxial Cable Connector One standard 75 Ohm connector is provided for the coaxial cable on which RF and DC sense signals are carried to the Remote Antenna. Local Antenna Connections (two) Two SMA-style connectors. Ordering Information Table 1-7: IntelliVue Smart-hopping 1.4 GHz Access Point Part Numbers Device/Option Part Number/Option Number ITS4843B 1.4 GHz Enhanced IntelliVue Smart-hopping Access Point 989803171211 ITS4843C 1.4 GHz Enhanced IntelliVue Smart-hopping Access Point
(High power AP) 989803171211 ITS4843D Radiohead 1.4 GHz Enhanced IntelliVue Smart-hopping Access Point (High power AP) with RTX Remote Antenna 866394 IntelliVue ITS4846A Remote Antenna 865052, 866394 IntelliVue ITS4846B 1.4 GHz RTX Remote Antenna 867151 IntelliVue Smart-hopping Mounting Options:
Above & Below Ceiling Tile-mount Option for the following:
989803171211 865052 866394 453564052201 or 862415/K05 IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 1-15 Chapter 1: Overview Regulatory Information Table 1-8: IntelliVue Smart-hopping 1.4 GHz Access Point Regulatory Information Description Philips part#:
FCC ID:
Model#
Software 1.4 GHz Enhanced IntelliVue Smart-hopping Access Point 989803171211 PQC-4843B ITS4843B C.00.07 1.4 GHz Enhanced IntelliVue Smart-hopping High power Access Point 989803171211 PQC-4843C ITS4843C C.00.08 or greater, or D.0 Radiohead 1.4 GHz Enhanced IntelliVue Smart-
hopping High power Access Point with RTX Remote Antenna 866394 PQC-4843D ITS4843D D.0 or greater RTX Remote Antenna 867151 PQC-4843D ITS4846B D.0 or greater FCC Compliance Operation of this equipment requires the prior coordination with a frequency coordinator designated by the FCC for the Wireless Medical Telemetry Service. The transceiver and the IntelliVue Smart-hopping infrastructure are subject to radio frequency interference. In the event of suspected radio frequency interference with your device, contact your service provider. This device complies with Parts 15 and 95H of the Federal Communications Commission (FCC) Rules. Operation is subject to the condition that this device does not cause harmful interference. 1-16 2 Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point This chapter provides procedures to physically install the Philips IntelliVue Smart-hopping 1.4 GHz Core Access Point and includes:
Access Point Placement Guidelines ITS4843D Installation Procedure ITS4843B and ITS4843C Installation Procedure Mounting the IntelliVue Smart-hopping Core AP to a Wall (Fixed Mount) Mounting the IntelliVue Smart-hopping Core AP to a Wall (CA Earthquake Rated) Mounting the IntelliVue Smart-hopping Core AP Above a Ceiling Tile Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile
(Fixed Mount) Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile
(Quick Release) Mounting the IntelliVue Smart-hopping Remote Antenna to a Wall
(Fixed Mount) Mounting the IntelliVue Smart-hopping Remote Antenna to a Wall (CA Earthquake Rated) Mounting the IntelliVue Smart-hopping Remote Antenna Above a Ceiling Tile (Mounting Rails) Mounting the IntelliVue Smart-hopping Remote Antenna Above a Ceiling Tile (Tether Mount) Mounting the IntelliVue Smart-hopping Remote Antenna Below a Ceiling Tile (Fixed Mount) Mounting the IntelliVue Smart-hopping RA Below a Ceiling Tile (Quick Release) AP Configuration Information Access Point Startup Sequence IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-1 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Access Point Placement Guidelines Warning You must use the ITS4843D 1.4 GHz Core Access Point and the ITS4846B RTX Remote Antenna with each other. This Access Point and Remote Antenna are not supported for use with other 1.4 GHz Access Points and Remote Antennas. Note the following important guidelines when locating IntelliVue Smart-hopping Access Points:
Consider building construction when placing APs to account for interference from ceramic wall tile, lead lined walls, elevator shafts, reinforced windows, and other obstacles which may cause signal degradation. APs should not be placed in locations with more than one wall between the AP and the coverage area. Ensure that the coverage area takes into account bathrooms, hallways, and windows. AP antennas must be more than four inches (10 cm) away from metal structures. If the antennas are too close to the structure, antenna performance can be degraded. A Core AP alone supports 18 IntelliVue Patient Monitors. When used with a single RA, the Core AP supports nine IntelliVue Patient Monitors and its connected RA supports nine IntelliVue Patient Monitors (9+9=18). When used with two RAs, the Core AP supports six IntelliVue Patient Monitors and its connected RAs each support six IntelliVue Patient Monitors (6+6+6=18). If there is a need to support more than 18 IntelliVue Patient Monitors within a single Radius-of-Coverage cell, Access Points/Remote Antennas can be moved closer together until the desired density is achieved. APs or Remote Antennas shall not be placed closer than three feet (1 m) from other APs or RAs to prevent signal overload conditions. Each IntelliVue Smart-hopping Access Point requires a 100Mbps/Full Duplex switch port connection. Try to avoid placing APs close to other electrical devices (exit lights, light fixtures, speakers, etc.). Devices like florescent light ballasts can create a significant amount of interference that can impact system performance. Orient the antennas on IntelliVue Smart-hopping APs so that they are perpendicular to the floor. 2-2 ITS4843D Installation Procedure ITS4843D Installation Procedure To install the ITS4843D IntelliVue Smart-hopping 1.4 GHz Core Access Point:
1. Mount the IntelliVue Smart-hopping 1.4 GHz Core Access Point and Remote Antennas within the clinic where they can communicate with 1.4 GHz IntelliVue Patient Monitors. Note these guidelines when installing the IntelliVue Smart-
hopping Core Access Point and Remote Antennas:
You may mount each IntelliVue Smart-hopping Core Access Point as follows:
to a wall (fixed mount) as described on page 2-9 to a wall (CA earthquake rated) as described on page 2-10 above a ceiling as described on page 2-12
- below a ceiling (fixed mount) as described on page 2-15
- below a ceiling (quick release) as described on page 2-19 You may mount each IntelliVue Smart-hopping Remote Antenna as follows:
to a wall (fixed mount) as described on page 2-24 to a wall (ca earthquake rated) as described on page 2-26 above a ceiling as described on page 2-28 above a ceiling (tether mount) as described on page 2-31
- below a ceiling (fixed mount) as described on page 2-33
- below a ceiling (quick release) as described on page 2-37 Use category 5e (or better) Shielded Twisted Pair (STP) cable to connect each IntelliVue Smart-hopping Core Access Point to the IntelliVue Smart-
hopping infrastructure. The total length of UTP cable from the IntelliVue Smart-hopping access point-to the IntelliVue Smart-hopping Synchronization Unit-to the IntelliVue Smart-hopping Power over Ethernet Unit-to ICN Network Switch cannot exceed 328 ft. (100 m). Use only the supplied, unmodified 74 ft. (22.6m) Coax and UTP cable bundle when connecting Remote Antennas to the Core AP. 2. Attach each supplied local antenna to the Core AP chassis by inserting the antenna into the socket connector. Orient the antenna (either straight for wall mounting or rotate downward for ceiling tile mounting) and then screw on its collar until the antenna is secure to the chassis. 3. Attach each supplied antenna to the Remote Antenna chassis by inserting the antenna into the socket connector. Orient the antenna (either straight for wall mounting or rotate downward for ceiling tile mounting) and then screw on its collar until the antenna is secure to the chassis. 4. If you have installed Remote Antennas, connect each IntelliVue Smart-hopping Core Access Point to its installed Remote Antenna(s) using the supplied, unmodified 74 ft. (22.6m) Coax and UTP cable bundle(s). IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-3 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Caution Do not kink the RA Coax-and-UTP-cable-bundle during installation. You must maintain a minimum 2.5-inch (64-mm) bend radius for the RA Coax-and-UTP-cable-
bundle throughout the installation. a) Connect the first Remote Antenna to the Core AP using the Fiber and Ferrule cable connectors labeled RA 1 in Figure 2-1. b) Connect the second Remote Antenna to the Core AP using the Fiber and Ferrule cable connectors labeled RA 2 in Figure 2-1. c) Be sure to label the UTP cable bundles and the Remote Antennas themselves as RA 1 and RA 2 corresponding to the cable connections you made in steps a and b. IntelliVue Smart-
hopping Core Access Point Link LED Activity LED Ethernet Interface to IntelliVue Smart-hopping Sync Unit Power/Sync, Radio, and Network Status LEDs RA 2 RA 1 Serial Port Ferrule Cable Connector to IntelliVue Smart-hopping Core Access Point IntelliVue Smart-hopping Remote Antenna Ferrule Cable Connectors to Remote Antennas (2 & 1) RA 2 RA 1 Fiber Cable Connectors to Remote Antennas (2 & 1) with RA Status LEDs Fiber Cable Connector to IntelliVue Smart-hopping Core AP Connection LED
(Green) Power LED
(Yellow) Figure 2-1: 1.4 GHz IntelliVue Smart-hopping Core AP and Remote Antenna Controls and Connectors 5. Route a Category 5e (or higher) RJ-45 cable between each IntelliVue Smart-
hopping Core Access Point and the equipment closet in which the IntelliVue Smart-hopping infrastructure devices are installed.
ITS4843B and ITS4843C Access Points use Unshielded Twisted Pair cables. ITS4843D Access Points require Shielded Twisted Pair cables to protect the system from power line transients. 6. Install a ferrite block on the RJ-45 cable within 20 inches (50 cm) of the RJ-45 connector that connects to the Core Access Point as shown in Figure 2-2. 2-4 ITS4843D Installation Procedure Distance = less than 20 inches (50cm) Figure 2-2: Installing a Ferrite Block on the UTP Cable to the IntelliVue Smart-hopping Infrastructure 7. Connect the Access Point to the IntelliVue Smart-hopping Sync Unit only when appropriate as part of the overall IntelliVue Smart-hopping installation. a) After initially connecting and powering the Core AP, verify that the two status LEDs on each of its connected Remote Antennas are lit. You can verify this by viewing the APs Status page presented in the APC web interface. Note If after connecting and powering the Core AP, its LEDs are lit red and the Remote Antenna LEDs do not light at all, open the APC web interface, click System in the View Device tree, click Configure and then select the Advanced tab. Verify that the Allow new APs to be added automatically option is set to True. This option must be set to True for the Core AP and Remote Antenna LEDs to light properly. b) Reboot the Core AP. The Core AP and its connected Remote Antennas should now be listed in the APC web interface. Press F5 to refresh the web interface display if the Core AP and RAs are not listed. General AP configuration information is given on page 2-40. See page 2-40 for the AP startup sequence. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-5 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point ITS4843B and ITS4843C Installation Procedure To install the IntelliVue Smart-hopping 1.4 GHz Core Access Point:
1. Mount the IntelliVue Smart-hopping 1.4 GHz Core Access Point and Remote Antennas within the clinic where they can communicate with 1.4 GHz IntelliVue Patient Monitors. Note these guidelines when installing the IntelliVue Smart-
hopping Core Access Point and Remote Antennas:
You may mount each IntelliVue Smart-hopping Core Access Point as follows:
to a wall (fixed mount) as described on page 2-9 to a wall (CA earthquake rated) as described on page 2-10 above a ceiling as described on page 2-12
- below a ceiling (fixed mount) as described on page 2-15
- below a ceiling (quick release) as described on page 2-19 You may mount each IntelliVue Smart-hopping Remote Antenna as follows:
to a wall (fixed mount) as described on page 2-24 to a wall (ca earthquake rated) as described on page 2-26 above a ceiling as described on page 2-28 above a ceiling (tether mount) as described on page 2-31
- below a ceiling (fixed mount) as described on page 2-33
- below a ceiling (quick release) as described on page 2-37 Use category 5e (or better) Unshielded Twisted Pair cable to connect each IntelliVue Smart-hopping Core Access Point to the IntelliVue Smart-hopping infrastructure. The total length of UTP cable from the IntelliVue Smart-hopping access point-to the IntelliVue Smart-hopping Synchronization Unit-to the IntelliVue Smart-hopping Power over Ethernet Unit-to ICN Network Switch cannot exceed 328 ft. (100 m). Use only the supplied, unmodified 74 ft. (22.6m) Coax and UTP cable bundle when connecting Remote Antennas to the Core AP. 2. Attach each supplied local antenna to the Core AP chassis by inserting the antenna into the socket connector. Orient the antenna (either straight for wall mounting or rotate downward for ceiling tile mounting) and then screw on its collar until the antenna is secure to the chassis. 3. Attach each supplied antenna to the Remote Antenna chassis by inserting the antenna into the socket connector. Orient the antenna (either straight for wall mounting or rotate downward for ceiling tile mounting) and then screw on its collar until the antenna is secure to the chassis. 4. If you have installed Remote Antennas, connect each IntelliVue Smart-hopping Core Access Point to its installed Remote Antenna(s) using the supplied, unmodified 74 ft. (22.6m) Coax and UTP cable bundle(s). 2-6 ITS4843B and ITS4843C Installation Procedure Caution Do not kink the RA Coax-and-UTP-cable-bundle during installation. You must maintain a minimum 2.5-inch (64-mm) bend radius for the RA Coax-and-UTP-cable-
bundle throughout the installation. a) Connect the first Remote Antenna to the Core AP using the UTP and Coaxial cable connectors labeled RA 1 in Figure 2-1. b) Connect the second Remote Antenna to the Core AP using the UTP and Coaxial cable connectors labeled RA 2 in Figure 2-1. c) Be sure to label the UTP cable bundles and the Remote Antennas themselves as RA 1 and RA 2 corresponding to the cable connections you made in steps a and b. Link LED Activity LED IntelliVue Smart-
hopping Core Access Coaxial Cable Connectors to Remote Antennas (2 & 1) RA 2 RA 1 Ethernet Interface to IntelliVue Smart-hopping Power/Sync, Radio, and Network Status LEDs RA 2 RA 1 Serial Port UTP Cable Connectors to Remote Antennas (2 & 1) with RA Status LEDs Connection LED
(Green) IntelliVue Smart-hopping Remote Antenna Power LED
(Yellow) UTP Cable Connector to IntelliVue Smart-hopping Coaxial Cable Connector to IntelliVue Smart-hopping Core Access Point Figure 2-3: 1.4 GHz IntelliVue Smart-hopping Core AP and Remote Antenna Controls and Connectors 5. Route a Category 5e (or higher) RJ-45 cable between each IntelliVue Smart-
hopping Core Access Point and the equipment closet in which the IntelliVue Smart-hopping infrastructure devices are installed.
ITS4843B and ITS4843C Access Points use Unshielded Twisted Pair cables. ITS4843D Access Points require Shielded Twisted Pair cables to protect the system from power line transients. 6. Install a ferrite block on the RJ-45 cable within 20 inches (50 cm) of the RJ-45 connector that connects to the Core Access Point as shown in Figure 2-2. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-7 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Distance = less than 20 inches (50cm) Figure 2-4: Installing a Ferrite Block on the UTP Cable to the IntelliVue Smart-hopping Infrastructure 7. Connect the Access Point to the IntelliVue Smart-hopping Sync Unit only when appropriate as part of the overall IntelliVue Smart-hopping installation. a) After initially connecting and powering the Core AP, verify that the two status LEDs on each of its connected Remote Antennas are lit. You can verify this by viewing the APs Status page presented in the APC web interface. Note If after connecting and powering the Core AP, its LEDs are lit red and the Remote Antenna LEDs do not light at all, open the APC web interface, click System in the View Device tree, click Configure and then select the Advanced tab. Verify that the Allow new APs to be added automatically option is set to True. This option must be set to True for the Core AP and Remote Antenna LEDs to light properly. b) Reboot the Core AP. The Core AP and its connected Remote Antennas should now be listed in the APC web interface. Press F5 to refresh the web interface display if the Core AP and RAs are not listed. General AP configuration information is given on page 2-40. See page 2-40 for the AP startup sequence. 2-8 Mounting the IntelliVue Smart-hopping Core AP to a Wall (Fixed Mount) Mounting the IntelliVue Smart-hopping Core AP to a Wall (Fixed Mount) You can mount the IntelliVue Smart-hopping Core Access Point to a wall using the mounting screws and screw anchors supplied with the AP. We recommend that you mount the Core AP high on the wall as close to the ceiling as possible. To mount the 1.4 GHz IntelliVue Smart-hopping Core AP to a wall:
1. Using a 3/16-inch drill bit, drill a pilot hole 0.188 inches (5 mm) in diameter at the locations shown in Figure 2-5. 2. Tap a supplied plastic screw anchor into each pilot hole until it is flush with the wall surface. This step is not necessary if mounting the IntelliVue Smart-hopping Core AP on a wood surface. 3. Screw a supplied #6 x 1 1/4 inch self-tapping screw into each screw anchor (or pilot hole) as shown in Figure 2-5. Tighten each screw until a 1/16-inch (2 mm) gap remains between the screw head and the mounting surface. Units: millimeters inches Figure 2-5: Mounting the IntelliVue Smart-hopping 1.4 GHz Core AP to a Wall (Fixed Mount) 4. While holding the AP chassis with its antennas pointing down as shown in Figure 2-5, fit the holes in the back of the AP chassis over the screw heads that protrude from the wall. Slide the AP chassis down so that the screw heads are securely in the grooves in the back of the AP chassis. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-9 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Mounting the IntelliVue Smart-hopping Core AP to a Wall (CA Earthquake Rated) You can mount the IntelliVue Smart-hopping Core Access Point onto walls using an optional California (CA) earthquake-rated wall plate. We recommend that you mount the Core AP high on the wall as close to the ceiling as possible. To mount the 1.4 GHz IntelliVue Smart-hopping Core AP to a wall:
1. Using a 3/16-inch drill bit, drill two pilot holes 0.188 inches (5 mm) in diameter at the locations shown in Figure 2-6. Units: millimeters inches Figure 2-6: Mounting the IntelliVue Smart-hopping 1.4 GHz Core AP to a Wall (CA Earthquake Rated) 2. Tap a supplied plastic screw anchor into each pilot hole until flush with the wall surface. This step is not necessary if mounting the IntelliVue Smart-hopping Core AP on a wood surface. 3. Secure the quick release wall plate to the wall by screwing a supplied #6 x 1 1/4 inch self-tapping screw through the wall plate into each screw anchor (or pilot hole) as shown in Figure 2-6. Tighten each screw until the wall plate is fixed securely in place. 2-10 Mounting the IntelliVue Smart-hopping Core AP to a Wall (CA Earthquake Rated) 4. Using a 5/64-inch (2 mm) Allen (i.e., hexagonal) wrench, secure the four supplied M3 X 0.5 hex-head shoulder screws to the back of the Core AP as shown in Figure 2-6. Torque-tighten each shoulder screw to 8-inch lbs. 5. Mount the Core AP to the wall plate by inserting the head of each shoulder screw into the four mounting holes provided in the wall plate and then sliding the Core AP down so that the shoulder screw heads are securely in the grooves of the wall plate. 6. Using a Torx T10 screw driver, secure the Core AP to the wall plate by screwing the supplied M3.5 X 0.6 T-10 Torx Head security screw into the PEM nut in the wall plate as shown in Figure 2-7. Torque-tighten the screw to 10-inch lbs. Note that this safety screw is used to prevent the Core AP from sliding out of the wall plate. Insert M3.5 Security Screw through this View Port and Tighten Using a Torx T10 Screwdriver. Figure 2-7: Securing the Core AP to its Quick Release Wall Plate IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-11 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Mounting the IntelliVue Smart-hopping Core AP Above a Ceiling Tile You can mount the IntelliVue Smart-hopping Core Access Point above a ceiling tile by using the mounting rails provided in the Above & Below Ceiling Tile Mount Kit
(862415-K05) for the Core AP and Remote Antennas. Caution When installing the IntelliVue Access Point onto a suspended ceiling, make certain the ceiling grid is structurally rated to support the weight of the Core Access Point, 0.79 kg (1.8 lbs), and any extra cabling. To mount the 1.4 GHz IntelliVue Smart-hopping Core AP above a ceiling tile:
1. Determine which ceiling tile the Core AP is be mounted onto, and the approximate Core AP placement and orientation of the antennas on the tile. Also, check for adequate clearance above the Core AP. 2. Remove the ceiling tile to which the Core AP will be mounted (and also an adjacent tile to facilitate installation). 3. Orient the antenna(s) on the Core AP chassis so they bend downward at right angles to the chassis. Unscrew the collar and rotate the antenna into position and then retighten the collar to secure the antenna in place. 4. Determine where the two holes for the antennas are going to be located on the tile and mark the centers of the holes. The Core AP chassis can be rotated 90 degrees to the mounting rails. Choose the best placement of the Core AP to facilitate where the antennas will go through the ceiling tile. Note that there are additional holes in the mounting rails to allow for tethering to other permanent structures where local building codes require this type of installation. Refer to Figure 2-8 or Figure 2-9 for the dimensions used to locate the antenna holes in the tile. 5. Drill out two 3/4-inch (19 mm) diameter holes in the ceiling tile for the antennas. Lightly coat both plastic grommets with silicone adhesive and insert them into both holes in the tile (Insert grommets from the outside of the tile). 6. Secure the mounting rails to the AP. Insert the four (4) M3 x 0.5 (8 mm LG) screws into the Core AP mounting rail holes, and into the mating holes in the back of the Core AP as shown in Figure 2-8 or Figure 2-9. Torque-tighten each shoulder screw to 8-inch lbs. 7. Place the Core AP with mounting rails across the top of the tile. 8. Replace the tile back onto the ceiling frame structure with the Core AP antennas hanging down through the ceiling. Wiring connections to the Core AP can be accessed via the open adjacent tile. 9. Replace other adjacent ceiling tiles if necessary. 2-12 Mounting the IntelliVue Smart-hopping Core AP Above a Ceiling Tile Use These Holes Marked AM2 Bend Down Tighten Collar Grommets Units: millimeters inches Figure 2-8: Possible Above the Ceiling Core AP Mounting Position IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-13 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Bend Down Tighten Collar Use These Holes Marked AM4 Grommets Units: millimeters inches Figure 2-9: Alternative Above the Ceiling Core AP Mounting Position 2-14 Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile (Fixed Mount) Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile (Fixed Mount) You can mount the IntelliVue Smart-hopping Access Point below a ceiling tile by using the mounting rails provided in the Above & Below Ceiling Tile Mount Kit
(862415-K05) for the Core AP and Remote Antennas. Caution When installing the IntelliVue Access Point onto a suspended ceiling, make certain the ceiling grid is structurally rated to support the weight of the Access Point, 0.7kg
(1.5 lbs), and any extra cabling. To mount the 1.4 GHz IntelliVue Smart-hopping Core AP below a ceiling tile:
1. Determine which ceiling tile the Core AP is be mounted onto, and the approximate placement of the Core AP and orientation of the antennas hanging down from the ceiling tile. 2. Remove the ceiling tile the Core AP will be mounted to (and also the adjacent tile to facilitate installation). 3. Refer to Figure 2-10 for all dimensions and hole locations. Place the mounting rails across the tile (underside of tile). For ceiling tiles that are smaller than standard 2 x 4 size ceiling tile, the mounting rails can be cut down in length at the u-shaped cutouts. 4. Mark the location of the AB screw holes in the mounting rails on the ceiling tile where the holes will be drilled through the tile as shown in Figure 2-11. Drill four
.375-inch (10 mm) diameter holes in the ceiling tile. 5. Determine where the two holes for the Remote Antenna cables are going to be located on the tile and mark the centers of the hole. Note that one of these holes will also be used to route the CAT 5 cable that connects the Core AP to the Sync Unit on the IntelliVue Smart-hopping infrastructure. 6. Drill or cut out two .813-inch (21 mm) diameter holes for the Remote Antenna cables to be connected to the Core AP. Lightly coat a plastic grommet with silicone adhesive and insert it into each hole in the tile (insert grommet from the outside of the tile). 7. Insert the four (4) M3-.5 X 30 lobe screws into the Core AP mounting rail holes, through the provided plastic spacers, through the tile, and into the mating holes in the back of the Core AP as shown in Figure 2-12. Torque-tighten each screw to 8-inch lbs. Note that the Core AP mounting rails and spacers allow for sufficient airflow between the Core AP and the ceiling tile. 8. Orient the antenna(s) on the Core AP chassis so they bend upward at right angles to the chassis. Unscrew the collar and rotate into position and then retighten the collar to secure the antenna in place. 9. Replace the tile back onto the ceiling frame structure with the Core AP antennas hanging down from the ceiling. Cabling connections to the Core AP can be accessed via the open holes in the tile. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-15 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Units: millimeters inches Figure 2-10: Core AP Below Ceiling Tile Hole Locations and Dimensions 2-16 Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile (Fixed Mount) Use the Screw Locations Marked AB Figure 2-11: Core AP Below Ceiling Tile Mounting Rail Screw Locations IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-17 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Bend Down Tighten Collar Figure 2-12: Mounting the Core AP Below a Ceiling Tile (Fixed Mount) Note that there are additional holes in the mounting rails to allow for tethering to other permanent structures where local building codes require this type of installation. 10. Replace other adjacent ceiling tiles if necessary. 2-18 Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile (Quick Release) Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile (Quick Release) You can mount the IntelliVue Smart-hopping Access Point below a ceiling tile by using an optional quick release wall plate along with the mounting rails provided in the Above & Below Ceiling Tile Mount Kit for the Core AP and Remote Antennas
(862415-K05). Use of this wall plate enables you to relocate 1.4 GHz IntelliVue Smart-hopping Core APs within your facility quickly and easily. Caution When installing the IntelliVue Access Point onto a suspended ceiling, make certain the ceiling grid is structurally rated to support the weight of the Access Point, 0.7kg
(1.5 lbs), and any extra cabling. To mount the 1.4 GHz IntelliVue Smart-hopping Core AP below a ceiling tile:
1. Determine which ceiling tile the Core AP is be mounted onto, and the approximate placement of the Core AP and orientation of the antennas hanging down from the ceiling tile. 2. Remove the ceiling tile to which the Core AP will be mounted (and also the adjacent tile to facilitate installation). 3. Refer to Figure 2-13 for all dimensions and hole locations. Place the mounting rails across the tile (underside of tile). For ceiling tiles that are smaller than standard 2 x 4 size ceiling tile, the mounting rails can be cut down in length at the u-shaped cutouts. 4. Mark the location of the AB screw holes in the mounting rails on the ceiling tile where the holes will be drilled through the tile as shown in Figure 2-14. Drill four
.375-inch (10 mm) diameter holes in the ceiling tile. 5. Determine where the two holes for the Remote Antenna cabling are going to be located on the tile and mark the centers of the hole. Note that one of these holes will also be used to route the CAT 5 cable that connects the Core AP to the Sync Unit on the IntelliVue Smart-hopping infrastructure. 6. Drill or cut out two .813-inch (21 mm) diameter holes for the Remote Antenna cables to be connected to the Core AP. Lightly coat a plastic grommet with silicone adhesive and insert it into each hole in the tile (insert grommet from the outside of the tile). 7. Place the AP wall plate over the four holes drilled on the bottom of the tile. Note:
The top of the tile is the side facing up when the tile is in its installed position. 8. Insert the four (4) M3 .5 x 0.6 x 30mm screws into the AP wall plate, through the tile, and into the mating holes in the mounting rails on top of the tile. Hand tighten the four locking hex nuts onto the screws, and then torque-tighten each nut to 10-inch lbs (#1 Pozidrive). 9. Using a 5/64-inch (2 mm) Allen (i.e., hexagonal) wrench, secure the four supplied M3 X 0.5 hex-head shoulder screws to the back of the Core AP as shown in Figure 2-15. Torque-tighten each shoulder screw to 8-inch lbs. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-19 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Units: millimeters inches Figure 2-13: Core AP Below Ceiling Tile Hole Locations and Dimensions 2-20 Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile (Quick Release) Use the Screw Locations Marked AB Figure 2-14: Core AP Below Ceiling Tile Mounting Rail Screw Locations IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-21 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Bend Down Tighten Collar Insert M3.5 Security Screw through this View Port and Tighten Using a Torx T10 Screwdriver. Figure 2-15: Mounting the Core AP Below a Ceiling Tile (Quick Release 10. Mount the Core AP to the wall plate by inserting the head of each shoulder screw into the four mounting holes provided in the wall plate and then sliding 2-22 Mounting the IntelliVue Smart-hopping Core AP Below a Ceiling Tile (Quick Release) the Core AP so that the shoulder screw heads are securely in the grooves of the wall plate. 11. Using a Torx T10 screw driver, secure the Core AP to the wall plate by screwing the supplied M3 0.5 X 0.6 T-10 Torx Head security screw into the PEM nut in the wall plate as shown in Figure 2-15. Torque-tighten the screw to 10-inch lbs. Note that this safety screw is used to prevent the Core AP from sliding out of the wall plate. 12. Orient the antenna(s) on the Core AP chassis so they bend upward at right angles to the chassis. Unscrew the collar, rotate the antenna into position, and then retighten the collar to secure the antenna in place. 13. Replace the tile back onto the ceiling frame structure with the Core AP antennas hanging down from the ceiling. Wiring connections to the Core AP can be accessed via the open hole in the tile. 14. Replace other adjacent ceiling tiles if necessary. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-23 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Mounting the IntelliVue Smart-hopping Remote Antenna to a Wall (Fixed Mount) You can mount the IntelliVue Smart-hopping Remote Antenna (RA) to a wall using the mounting screws and screw anchors supplied with the RA. We recommend that you mount the RA high on the wall as close to the ceiling as possible. To mount the 1.4 GHz IntelliVue Smart-hopping RA to a wall:
1. Using a 3/16-inch drill bit, drill two pilot holes 0.188 inches (5 mm) in diameter at the locations shown in Figure 2-16. 2. Tap a supplied plastic screw anchor into each pilot hole until it is flush with the wall surface. This step is not necessary if mounting the IntelliVue Smart-hopping RA on a wood surface. 3. Screw a supplied #6 x 1 1/4 inch self-tapping screw into each screw anchor (or pilot hole) as shown in Figure 2-16. Tighten each screw until a 1/16-inch (2 mm) gap remains between the screw head and the mounting surface. Units: millimeters inches Figure 2-16: Mounting the IntelliVue Smart-hopping 1.4 GHz Remote Antenna to a Wall 4. While holding the RA chassis with its antennas pointing down as shown in Figure 2-16, fit the holes in the back of the RA chassis over the screw heads 2-24 Mounting the IntelliVue Smart-hopping Remote Antenna to a Wall (Fixed Mount) that protrude from the wall. Slide the RA chassis down so that the screw heads are securely in the grooves in the back of the RA chassis. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-25 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Mounting the IntelliVue Smart-hopping Remote Antenna to a Wall (CA Earthquake Rated) You can mount the IntelliVue Smart-hopping Remote Antenna onto walls using an optional California (CA) earthquake-rated wall plate. Use of this quick release wall plate enables you to relocate 1.4 GHz IntelliVue Smart-hopping RAs within your facility quickly and easily. To mount the 1.4 GHz IntelliVue Smart-hopping RA to a wall:
1. Using a 3/16-inch drill bit, drill two pilot holes 0.188 inches (5 mm) in diameter at the locations shown in Figure 2-17. Units: millimeters inches Figure 2-17: Mounting the IntelliVue Smart-hopping 1.4 GHz RA to a Wall (CA Earth-
quake Rated) 2. Tap a supplied plastic screw anchor into each pilot hole until flush with the wall surface. This step is not necessary if mounting the IntelliVue Smart-hopping RA on a wood surface. 3. Secure the quick release wall plate to the wall by screwing a supplied #6 x 1 1/4 inch self-tapping screw through the wall plate into each screw anchor (or pilot hole) as shown in Figure 2-17. Tighten each screw until the wall plate is fixed securely in place. 2-26 Mounting the IntelliVue Smart-hopping Remote Antenna to a Wall (CA Earthquake Rated) 4. While holding the RA chassis with its antennas pointing down as shown in Figure 2-17, fit the openings in the back of the RA chassis over the two mounting studs that protrude from the wall plate, and then slide the RA chassis down so that the mounting studs are securely in the grooves in the back of the RA chassis. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Mounting the IntelliVue Smart-hopping Remote Antenna Above a Ceiling Tile
(Mounting Rails) You can mount the IntelliVue Smart-hopping Remote Antenna (RA) above a ceiling tile by using the mounting rails provided in the Above & Below Ceiling Tile Mount Kit
(862415-K05) for the Core AP and Remote Antennas. Caution When installing the IntelliVue Smart-hopping Remote Antenna onto a suspended ceiling, make certain the ceiling grid is structurally rated to support the weight of the Remote Antenna, 0.32 kg (.7 lbs), and any extra cabling. To mount the 1.4 GHz IntelliVue Smart-hopping RA above a ceiling tile:
1. Determine which ceiling tile the RA will be mounted onto, and the approximate RA placement and orientation of the antennas on the tile. Also, check for adequate clearance above the RA. 2. Remove the ceiling tile to which the RA will be mounted (and also an adjacent tile to facilitate installation). 3. Orient the antenna(s) on the RA chassis so they bend downward at right angles to the chassis. Unscrew the collar and rotate the antenna into position and then retighten the collar to secure the antenna in place. 4. Determine where the two holes for the antennas are going to be located on the tile and mark the centers of the holes. The RA chassis can be rotated 90 degrees to the mounting rails. Choose the best placement of the RA to facilitate where the antennas will go through the ceiling tile. Note that there are two holes in the RA chassis to allow for tethering to other permanent structures where local building codes require this type of installation. Refer to Figure 2-18 or Figure 2-19 for the dimensions to locate the antenna holes in the ceiling tile. 5. Drill out two 3/4-inch (19 mm) diameter holes in the ceiling tile for the antennas. Lightly coat both plastic grommets with silicone adhesive and insert them into both holes in the tile (insert grommets from the outside of the tile). 6. Secure the mounting rails to the RA. Insert the four (4) M3 X 0.5 (8 mm LG) screws into the RA mounting rail holes, and into the mating holes in the back of the RA chassis as shown in Figure 2-19 or Figure 2-20. Torque-tighten each screw to 8-inch lbs. 7. Place the RA with mounting rails across the top of the tile. 8. Replace the tile back onto the ceiling frame structure with the RA antennas hanging down through the ceiling. Wiring connections to the RA can be accessed via the open adjacent tile. 9. Replace other adjacent ceiling tiles if necessary. 2-28 Mounting the IntelliVue Smart-hopping Remote Antenna Above a Ceiling Tile (Mounting Rails) RM2 RM2 AM2 Unmarked Use These Holes Marked as Noted Grommets Units: millimeters inches Figure 2-18: Possible Above the Ceiling Remote Antenna Mounting Position IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-29 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Use These Holes Marked RM4 Grommets Units: millimeters inches Figure 2-19: Alternative Above the Ceiling Remote Antenna Mounting Position 2-30 Mounting the IntelliVue Smart-hopping Remote Antenna Above a Ceiling Tile (Tether Mount) Mounting the IntelliVue Smart-hopping Remote Antenna Above a Ceiling Tile
(Tether Mount) You can mount the IntelliVue Smart-hopping Remote Antenna (RA) above a ceiling tile without the use of mounting rails if the following conditions are met:
The ceiling tile can support the weight of the RA, 0.32 kg (.7 lbs), and any extra cabling. The RA is tethered securely to a permanent structure within the ceiling. A minimum of 12-gauge galvanized soft annealed mild steel wire conforming to ASTM A 641 is used to tether the RA chassis to a permanent structure within the ceiling. To mount the 1.4 GHz IntelliVue Smart-hopping RA above a ceiling tile:
1. Determine which ceiling tile the RA is be mounted onto, and the approximate RA placement and orientation of the antennas on the tile. Also, check for adequate clearance above the RA. 2. Remove the ceiling tile to which the RA will be mounted (and also an adjacent tile to facilitate installation). 3. Orient the antenna(s) on the RA chassis so they bend downward at right angles to the chassis. Unscrew the collar and rotate the antenna into position and then retighten the collar to secure the antenna in place. 4. Determine where the two holes for the antennas are going to be located on the tile and mark the centers of the holes. Note that the RA antennas can be placed, and oriented in a variety of places to accommodate positioning the antennas through the tile (e.g., close to a side wall). Also, the RA chassis can be rotated 90 degrees. Choose the best placement of the RA to facilitate where the antennas will go through the ceiling tile. Refer to Figure 2-18 or Figure 2-19 for the dimensions to locate the antenna holes in the ceiling tile. 5. Drill out two 3/4-inch (19 mm) diameter holes in the ceiling tile for the antennas. Lightly coat both plastic grommets with silicone adhesive and insert them into both holes in the tile (insert grommets from the outside of the tile). 6. Insert the tether wire through the two holes located at the corner of the RA chassis. The tether wire should have three tight turns of the wire within 1.5 inches of the end of the wire. 7. Connect the other end of the tether wire to a permanent structure within the ceiling. The tether wire may be attached to any of the following:
wood or metal stud framing blocking attached to wood or metal framing plywood adequately attached to wood or metal stud framing, reinforced concrete, or reinforced masonry reinforced concrete reinforced masonry IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 31 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point 8. Place the RA across the top of the tile. 9. Replace the tile back onto the ceiling frame structure with the RA antennas hanging down through the ceiling. Wiring connections to the RA can be accessed via the open adjacent tile. 10. Replace other adjacent ceiling tiles if necessary. 2-32 Mounting the IntelliVue Smart-hopping Remote Antenna Below a Ceiling Tile (Fixed Mount) Mounting the IntelliVue Smart-hopping Remote Antenna Below a Ceiling Tile
(Fixed Mount) You can mount the IntelliVue Smart-hopping Remote Antenna (RA) below a ceiling tile by using the mounting rails provided in the Above & Below Ceiling Tile Mount Kit
(862415-K05) for the Core AP and Remote Antennas. Caution When installing the IntelliVue Smart-hopping Remote Antenna onto a suspended ceiling, make certain the ceiling grid is structurally rated to support the weight of the Remote Antenna, 0.32 kg (.7 lbs), and any extra cabling. To mount the 1.4 GHz IntelliVue Smart-hopping RA below a ceiling tile:
1. Determine which ceiling tile the RA is be mounted onto, and the approximate placement of the RA and orientation of the antennas hanging down from the ceiling tile. 2. Remove the ceiling tile the RA will be mounted to (and also the adjacent tile to facilitate installation). 3. Refer to Figure 2-20 for all dimensions and hole locations. Place the mounting rails across the tile (underside of tile). For ceiling tiles that are smaller than standard 2 x 4 size ceiling tile, the mounting rails can be cut down in length at the u-shaped cutouts. 4. Mark the location of the RB screw holes in the mounting rails on the ceiling tile where the holes will be drilled through the tile as shown in Figure 2-21. Drill four 0.25-inch (6 mm) diameter holes in the ceiling tile. 5. Determine where the hole for the Core AP cable is going to be located on the tile and mark the center of the hole. 6. Drill or cut out a 0.813-inch (21 mm) diameter hole for the Core AP cable to be connected to the RA. Lightly coat a plastic grommet with silicone adhesive and insert it into the hole in the tile (insert grommet from the outside of the tile). 7. Insert the four (4) M3-.5 x 30 lobe screws into the RA mounting rail holes, through the ceiling tile, through the provided plastic spacers, and into the mating holes in the back of the RA chassis as shown in Figure 2-22. Torque-
tighten each screw to 8-inch lbs. Note that the RA mounting rails and spacers allow for sufficient airflow between the RA and the ceiling tile. 8. Orient the antenna(s) on the RA chassis so they bend upward at right angles to the chassis. Unscrew the collar and rotate into position and then retighten the collar to secure the antenna in place. 9. Replace the tile back onto the ceiling frame structure with the RA antennas hanging down from the ceiling. Cabling connections to the RA can be accessed via the open holes in the tile. Note that there are additional holes in the mounting rails to allow for tethering to other permanent structures where local building codes require this type of installation. 10. Replace other adjacent ceiling tiles if necessary. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-33 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Units: millimeters inches Figure 2-20: RA Below Ceiling Tile Hole Locations and Dimensions 2-34 Mounting the IntelliVue Smart-hopping Remote Antenna Below a Ceiling Tile (Fixed Mount) Use the Screw Locations Marked RB Figure 2-21: RA Below Ceiling Tile Mounting Rail Screw Locations IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-35 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Bend Down Tighten Collar Figure 2-22: Mounting the RA Below a Ceiling Tile (Fixed Mount) 2-36 Mounting the IntelliVue Smart-hopping RA Below a Ceiling Tile (Quick Release) Mounting the IntelliVue Smart-hopping RA Below a Ceiling Tile (Quick Release) You can mount the IntelliVue Smart-hopping Remote Antenna below a ceiling tile by using an optional quick release wall plate along with the mounting rails provided in the Above & Below Ceiling Tile Mount Kit (862415-K05) for the Core AP and Remote Antennas. Use of this wall plate enables you to relocate 1.4 GHz IntelliVue Smart-
hopping RAs within your facility quickly and easily. Caution When installing the IntelliVue Access Point onto a suspended ceiling, make certain the ceiling grid is structurally rated to support the weight of the Access Point, 0.7kg
(1.5 lbs), and any extra cabling. To mount the 1.4 GHz IntelliVue Smart-hopping RA below a ceiling tile:
1. Determine which ceiling tile the RA will be mounted onto, and the approximate placement of the RA and orientation of the antennas hanging down from the ceiling tile. 2. Remove the ceiling tile to which the RA will be mounted (and also the adjacent tile to facilitate installation). 3. Refer to Figure 2-23 for all dimensions and hole locations. Place the mounting rails across the tile (underside of tile). For ceiling tiles that are smaller than standard 2 x 4 size ceiling tile, the mounting rails can be cut down in length at the u-shaped cutouts. 4. Mark the location of the RB screw holes in the mounting rails on the ceiling tile where the holes will be drilled through the tile as shown in Figure 2-24. Drill four 0.25-inch (6 mm) diameter holes in the ceiling tile. 5. Determine where the two holes for the Remote Antenna cabling are going to be located on the tile and mark the centers of the hole. 6. Drill or cut out a 0.813-inch (21 mm) diameter hole for the Core AP cable to be connected to the RA. Lightly coat a plastic grommet with silicone adhesive and insert it into each hole in the tile (insert grommet from the outside of the tile). 7. Place the wall plate over the four holes drilled on the bottom of the tile. Note:
The top direction is as when the tile is in its installed position. 8. Insert the four (4) M3-.5 x 30 lobe screws into the RA mounting rail holes, through the ceiling tile, through the provided plastic spacers, and into the mating holes in the back of the wall plate. 9. Fit the openings in the back of the RA chassis over the two mounting studs that protrude from the wall plate and then slide the RA chassis so that the mounting studs are securely in the grooves in the back of the RA chassis. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-37 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Units: millimeters inches Figure 2-23: RA Below Ceiling Tile Hole Locations and Dimensions 2-38 Mounting the IntelliVue Smart-hopping RA Below a Ceiling Tile (Quick Release) Use the Screw Locations Marked RB Figure 2-24: RA Below Ceiling Tile Mounting Rail Screw Locations IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 2-39 Chapter 2: Installing the IntelliVue Smart-hopping 1.4 GHz Core Access Point Bend Down Tighten Collar Figure 2-25: Mounting the RA Below a Ceiling Tile (Quick Release AP Configuration Information Refer to the IntelliVue Smart-hopping Infrastructure Installation and Service Guide for complete details about configuring the IntelliVue Smart-hopping AP. Access Point Startup Sequence Upon power on/start up, the IntelliVue Smart-hopping Core Access Point will perform a Power-on-Self-Test (POST) to ensure that its basic components are fully functional. This test detects critical system failures. As the test progresses the state of the system is displayed through a series of color combinations on the Power/Sync, Radio, and Network LEDs on the front of the AP. All three LEDs illuminate AMBER color, then the Power/Sync LED illuminates GREEN and the other two LEDs turn off
(not illuminated) indicating correct startup. Should a test fail the LEDs are left in a state which indicates the point at which the test failed. When the system is transmitting data the radio and network LEDs on the AP will flicker on and off as data is transmitted. 2-40 3 Maintaining the IntelliVue Smart-hopping 1.4 GHz Core Access Point This chapter provides procedures and information for maintaining the Philips IntelliVue Smart-hopping 1.4 GHz Core Access Point and includes:
Maintenance Procedure Troubleshooting the Core AP Using its LEDs Replacing a Core AP or Remote Antenna Ordering Replacement Parts IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 3-1 Chapter 3: Maintaining the IntelliVue Smart-hopping 1.4 GHz Core Access Point Maintenance Procedure To ensure that IntelliVue Smart-hopping 1.4 GHz Core Access Point (AP) and Remote Antenna (RA) continue to operate properly, you should perform the following maintenance tasks periodically:
Ventilation - The IntelliVue Smart-hopping 1.4 GHz Core Access Point and RA cases are vented to provide air circulation and cooling for the devices. Keep the immediate area around the AP and RA open to allow for natural air circulation around the devices. Periodically, dust the AP and RA cases to keep their ventilation holes open. Antenna Orientation - Under normal operation the AP or RA antennas may get bumped by cleaning crews and/or construction crews and causing the antennas to move from their original position set at installation. Periodically check the antennas on all of the APs and RAs at the installation site for correct orientation, alignment, direction, and placement. If necessary, loosen the collar on the antenna and adjust the antenna for proper placement, orientation, and direction. Then, re-tighten the antenna collar to secure the antenna in place. Generally, you should orient the two local antennas on each Core AP and RA such that they are perpendicular to the floor. Troubleshooting the Core AP Using its LEDs Complete test and inspection procedures for the IntelliVue Smart-hopping 1.4 GHz Core Access Point are given in Chapter 5 of the IntelliVue Smart-hopping Infrastructure Installation and Service Guide. You must perform these procedures when the IntelliVue Smart-hopping Access Point is initially installed and after any service event. 3-2 Troubleshooting the Core AP Using its LEDs Figure 3-1 shows the location of the IntelliVue Smart-hopping 1.4 GHz Core Access Point LEDs. Ferrule Cable Connectors to Remote Antennas (2 & 1) RA 2 RA 1 RA 2 RA 1 Serial Port Fiber Cable Connectors to Remote Antennas (2 & 1) with RA Status LEDs ITS4843D Core Access Point Link LED Activity LED Power/Sync, Radio, and Network Status LEDs Ethernet Interface to IntelliVue Smart-hopping Sync Unit Ethernet Interface to IntelliVue Smart-hopping Sync Unit Link LED Activity LED RA Power LEDs Power/Sync, Radio, Network Status LEDs RA Connection LEDs ITS4843B/C Core Access Point Figure 3-1: IntelliVue Smart-hopping Core Access Point LEDs A summary of the Core AP system status LEDs is given below to help you troubleshoot any AP operational problems that may arise. The IntelliVue Smart-hopping Core AP provides the following status LEDs. Wired/Ethernet Activity - The Core AP provides two LEDs to indicate wired/
Ethernet activity to the IntelliVue Smart-hopping infrastructure. During normal operation, these LEDs indicate the following information:
Link LED - Link present/Ethernet connection. Lights GREEN (ON) when a pass-through link is present - OFF when not present.
- Act LED - Wired network activity. Flashes GREEN (ON) when there is activity is over the wired network. Wireless/RF Activity - The AP provides three LEDs to indicate wireless/RF activity. During normal operation, these LEDs indicate the following information:
- Power/Sync LED - GREEN (ON) when power and synchronization signal is present.
- Radio LED - Normally OFF (not lit) - flashes green to indicate wireless network activity.Network LED - Normally OFF (not lit) - flashes green to indicate wired network activity. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 3-3 Chapter 3: Maintaining the IntelliVue Smart-hopping 1.4 GHz Core Access Point Remote Antenna - The Core AP provides two LEDs on each RJ-45 UTP cable connector that provides status on a connected Remote Antenna:
- RA Connection - Lights GREEN to indicate a RA is connected to the Core AP.
- RA Power - Lights YELLOW to indicate connected RA is receiving power from the Core AP. If the Status LED indicators are not functioning properly as indicated then perform the appropriate troubleshooting procedures. If you cannot resolve the problem with the LEDs, then make written note of the LED lighting and sequence of colors, replace the unit, and send the defective unit back to Philips with the explanation of LEDs sequence and colors displayed. Refer to Chapter 4 of the IntelliVue Smart-
hopping Infrastructure Installation and Service Guide for complete AP replacement procedures. Troubleshooting the Remote Antenna Using its LEDs Complete test and inspection procedures for the IntelliVue Smart-hopping 1.4 GHz Remote Antenna are given in Chapter 5 of the IntelliVue Smart-hopping Infrastructure Installation and Service Guide. You must perform these procedures when the Remote Antenna is initially installed and after any service event. Figure 3-2 shows the location of the IntelliVue Smart-hopping 1.4 GHz Remote Antenna LEDs. Ferrule Cable Connector to Core AP Power LED
(Yellow) Connection LED
(Green) Connection LED
(Green) ITS4846B Core AP Remote Antenna Power LED
(Yellow) UTP Cable Connector to Core AP ITS4846A Core AP Remote Antenna Figure 3-2: IntelliVue Smart-hopping Remote Antenna LEDs A summary of the Remote Antennas status LEDs is given below to help you troubleshoot any operational problems that may arise. Remote Antenna - The Core AP provides two LEDs on each RJ-45 UTP cable connector that provides status on a connected Remote Antenna:
3-4 Replacing a Core AP or Remote Antenna
- RA Connection - Lights GREEN to indicate a RA is connected to the Core AP.
- RA Power - Lights YELLOW to indicate connected RA is receiving power from the Core AP. If the Status LED indicators are not functioning properly as indicated, then refer to the sections that follow and Chapter 4 of the IntelliVue Smart-hopping Infrastructure Installation and Service Guide for complete Remote Antenna replacement procedures. Replacing a Core AP or Remote Antenna The repair strategy for the IntelliVue Smart-hopping Core Access Point or Remote Antenna is unit replacement. No repairs are to be made to the Core AP or RA. Individual AP or RA components, PC assemblies, or sub-assemblies are not available for purchase. If a IntelliVue Smart-hopping Core AP or RA is determined to be defective/non-
operational, call your local Philips Field Service Engineer/Customer Engineer or the Philips Customer Care Solutions Center for information on ordering a replacement unit and returning the defective unit. Use the following toll-free number to contact the Philips Customer Care Solutions Center:
Telephone: (+1) 800-722-9377 When replacing defective equipment on your IntelliVue Smart-hopping infrastructure, be sure to follow the procedures given in Chapter 5 of the IntelliVue Smart-hopping Infrastructure Installation and Service Guide. Ordering Replacement Parts This section contains information for ordering replaceable parts and assemblies for the IntelliVue Smart-hopping 1.4 GHz Core Access Point and Remote Antenna. The parts are listed in tables by major assemblies. Each table contains the orderable part number (New or Exchange) and a description of the part. Only the part numbers listed are orderable. Any unlisted part numbers and part descriptions are not orderable from Philips. To order a replacement part, first identify the faulty component, part, subassembly or assembly, then look in the associated table for that major assembly and find (and record) the part description and replaceable part number. Order replaceable parts from your nearest Philips Sales/Service office or from the Philips Support Materials Organization. A complete listing of the Philips Sales/Service Offices addresses with phone numbers can be found at the end of this chapter. IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 3-5 Chapter 3: Maintaining the IntelliVue Smart-hopping 1.4 GHz Core Access Point Table 3-1: Ordering Core Access Point Replacement Parts (ITS4843D) New Part Number 453564235171 Description Radiohead 1.4 GHz Enhanced IntelliVue Smart-hopping High power Access Point with RTX Remote Antenna, 1.4 GHz. Complete AP unit includes the following: AP Case (top cover and shell), Main PC Board, Radio Module PC Board, and Two External Antennas. 453564079561 1.4 GHz Antenna with SMA-style Connector 453564052201 Core AP/Remote Antenna Ceiling Mount Kit 453564090571 Ferrite Core Block Table 3-2: Ordering Remote Antenna Replacement Parts New Part Number 453564036561 Description IntelliVue RTX Remote Antenna, 1.4 GHz. Complete unit includes the following: RA Case (top cover and shell), Main PC Board, Radio Module PC Board, and Two External Antennas. 453564079561 RTX 1.4 GHz Antenna with SMA-style Connector 453564056081 Plenum, 74 ft. (22.6m), Coax & Data Cable Assembly 453564052201 Core AP/Remote Antenna Ceiling Mount Kit 3-6 Ordering Replacement Parts Table 3-3: Ordering Core Access Point Replacement Parts (ITS4843B and ITS4843C) New Part Number 453564235171 Description IntelliVue Core Access Point, 1.4 GHz. Complete AP unit includes the following: AP Case (top cover and shell), Main PC Board, Radio Module PC Board, and Two External Antennas. 453564079561 1.4 GHz Antenna with SMA-style Connector 453564052201 Core AP/Remote Antenna Ceiling Mount Kit 453564090571 Ferrite Core Block Table 3-4: Ordering Remote Antenna Replacement Parts New Part Number 453564036561 Description IntelliVue Remote Antenna, 1.4 GHz. Complete unit includes the following: RA Case (top cover and shell), Main PC Board, Radio Module PC Board, and Two External Antennas. 453564079561 1.4 GHz Antenna with SMA-style Connector 453564056081 Plenum, 74 ft. (22.6m), Coax & Data Cable Assembly 453564052201 Core AP/Remote Antenna Ceiling Mount Kit IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide 3-7 Chapter 3: Maintaining the IntelliVue Smart-hopping 1.4 GHz Core Access Point Philips Sales and Support Offices Worldwide Please call your local sales office listed in your telephone directory or a regional office listed below for the location of your nearest sales office. CORPORATE HEADQUARTERS:
Philips Medical Systems Netherlands B.V. Postbus 10.000 5680 DA Best Netherlands UNITED STATES:
Philips Medical Systems 3000 Minuteman Road Andover, MA 01810
(800) 934-7372 CANADA:
Philips Medical Systems 281 Hillmount Road Markham, ON L6C 2S3
(800) 291-6743 EUROPE, MIDDLE EAST AND AFRICA:
Philips Medizin Systeme Bblingen GmbH Cardiac and Monitoring Systems Hewlett-Packard Str. 2 71034 Bblingen Germany Fax: (+49) 7031 463 1552 LATIN AMERICA HEADQUARTERS:
Philips Medical Systems 1550 Sawgrass Corporate Parkway #300 Sunrise, FL 33323 Tel: 954-835-2600 Fax: 954-835-2626 ASIA PACIFIC HEADQUARTERS:
Philips Medical Systems 30/F Hopewell Centre 17 Kennedy Road Wanchai Hong Kong Tel: (852) 2821 5888 Fax: (852) 2527 6727 3-8 Index A Access points cluster AP descriptions 1-3 Ethernet interface on cluster APs 1-7, 1-9 illustration of 3-3, 3-4 illustration of cluster AP 1-3 mounting options for cluster AP 1-4 overview of Cluster APs 1-3 placement guidelines 2-2 serial port 1-7, 1-10 status LEDs 1-11, 3-3 Act LED 1-11, 3-3 C Coaxial Cable Connectors on Core AP 1-7, 1-10 Coaxial Cable Connectors on remote antenna 1-8, 1-10 Core AP description 1-4 Core APs description of 1-3 E Ethernet interface, on cluster APs 1-7, 1-9 F Ferrite block, installing on AP cable 2-4, 2-7 I IntelliVue Telemetry System (ITS) overview of 1-2 L LEDs access point 1-11, 3-3 Remote Active Antenna 1-11 Link LED 1-11, 3-3 M Mounting options, access point 1-4 Mounting the ITS Core AP above a ceiling tile 2-12 below a ceiling tile (fixed mount) 2-15 below a ceiling tile (quick release) 2-19 IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide Index-1 to a wall (CA earthquake rated) 2-10 to a wall (fixed mount) 2-9 Mounting the ITS Remote Antenna above a ceiling tile (mounting rails) 2-28 above a ceiling tile (tether mount) 2-31 below a ceiling tile (fixed mount) 2-33 below a ceiling tile (quick release) 2-37 to a wall (CA earthquake rated) 2-26 to a wall (fixed mount) 2-24 N Network LED 1-11, 3-3 O Overview of the ITS 1-2 P Philips Customer Care Solutions Center, contacting 3-5 Power over Ethernet (PoE) Unit description of 1-ix Power source 1-4 Power/Sync LED 1-11, 3-3 R Radio LED 1-11, 3-3 Remote Antenna description 1-4 Replacement parts, ordering 3-5 Replacing a Core AP or Remote Antenna 3-5 S Serial port, on AP 1-7, 1-10 Startup sequence 2-40 Synchronization signal 1-4 T Troubleshooting the Core AP 3-2 Troubleshooting the Remote Antenna 3-4 U UL 2043 compliance 1-13, 1-14, 1-15 Uninterruptible Power Supply (UPS) overview of 1-ix UTP Cable Connectors on Core AP 1-7, 1-10 UTP Cable Connectors on remote antenna 1-7, 1-10 Index-2 W Wireless Medical Telemetry Service (WMTS) band 1-2 IntelliVue Smart-hopping 1.4 GHz Access Point Installation Guide Index-3 Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 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. This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body. Index-4
1 | Agent Authorization Rev 1.0 | Cover Letter(s) | 116.74 KiB | October 20 2021 |
TerreStar Corporation Agent Authorization Company: TerreStar Corporation Address: 344 Maple Avenue NW, #275 Vienna VA 22180 USA Product Name: Access Point Model Number(s): AP1400A Product Description: Access Point We authorize MiCOM Labs Inc., 575 Boulder Court, Pleasanton, California 94566, USA, to act on our behalf on all matters concerning the certification of above named equipment. We declare that MiCOM Labs Inc. is allowed to forward all information related to the approval and certification of equipment to the regulatory agencies as required and to discuss any issues concerning the approval application. Any and all acts carried out by MiCOM Labs on our behalf shall have the same effect as acts of our own. Signature:
Date: 2021.10.09 Name:
John Dooley Title:
Managing Director Company: TerreStar Corporation
1 | Authorization Letter | Cover Letter(s) | 241.31 KiB | October 20 2021 |
TerreStar Corporation Authorization Letter We,
(the approval holder) Company name TerreStar Corporation Addresss 344 Maple Avenue NW, #275 Vienna VA 22180 USA declare that the following representative (agent):
Name (person) Bovey Yang Company name Shenzhen STS Test Services Co., Ltd. Addresss City Country 1/F., Building B, Zhuoke Science Park, No.190, Chongqing Road, Fuyong Street, Baoan District, Shenzhen, Guangdong,China Shenzhen China to act on our behalf on all matters concerning the application and documents submitted to Micom Labs for product certification below Product Description Access Point Type or Model(s) AP1400A Tradename or Brand(s) N/A Attestation:
City:
Date:
Name:
(this must be a person) Function:
Signature:
(or official company stamp) Vienna 2021.10.09 John Dooley Managing Director
1 | FCC Short & Long Term Confidentiality Request Rev4.1 | Cover Letter(s) | 189.56 KiB | October 20 2021 |
TerreStar Corporation Office of Engineering Technology Federal Communications Commission 7435 Oakland Mills Road Columbia, MD 21046 USA Subject; Request for Confidentiality FCC ID: 2A24SAP1400A Date: 2021.10.09 To Whom It May Concern, Pursuant to the provisions of the Commissions rules Title 47 Sections 0.457 and 0.459, we are requesting the Commission to withhold the following attachment(s) as confidential documents from public disclosure indefinitely. These documents contain detailed system and equipment descriptions and are considered as proprietary information in operation of the equipment. The public disclosure of these documents might be harmful to our company and would give competitors an unfair advantage in the market. Schematic Diagram Block Diagram Parts List Operational Description Tune-up Procedure SOFTWARE SECURITY REQUIREMENTS FOR U-NII DEVICES In additional to above mentioned documents, in order to comply with the marketing regulations in Title 47 CFR 2.803 and the importation rules in Title 47 CFR 2.1204, while ensuring that business sensitive information remains confidential until the actual marketing of newly authorized devices, we request Short Term Confidentiality of the following attachment(s);
External Photos Test Setup Photos Internal Photos User Manual For 45 days, pursuant to Public Notice DA 04-1705. OR For 180 days pursuant to KDB 726920 D01. It is our understanding that all measurement test reports, FCC ID label format and correspondence during the certification review process cannot be granted as confidential documents and this information will be available for public review once the grant of equipment authorization is issued. Sincerely, Signature:
Name: John Dooley Title: Managing Director
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2021-10-20 | 1433.544 ~ 1433.544 | TNB - Licensed Non-Broadcast Station Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2021-10-20
|
||||
1 | Applicant's complete, legal business name |
TerreStar Corporation
|
||||
1 | FCC Registration Number (FRN) |
0022101851
|
||||
1 | Physical Address |
344 Maple Avenue NW Suite 275
|
||||
1 |
344 Maple Avenue NW
|
|||||
1 |
Vienna, VA
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
c******@micomlabs.com
|
||||
1 | TCB Scope |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
2A24S
|
||||
1 | Equipment Product Code |
AP1400A
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
J**** D********
|
||||
1 | Telephone Number |
63168********
|
||||
1 | Fax Number |
61739********
|
||||
1 |
j******@jarvinian.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
TerreStar Corporation
|
||||
1 | Physical Address |
United States
|
||||
1 |
j******@jarvinian.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
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?: | No | ||||
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 | TNB - Licensed Non-Broadcast Station Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Access Point | ||||
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 EIRP. The antenna used with this transmitter must be installed to provide a minimum 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, except in accordance with FCC multi- transmitter product procedures. End-users must be provided with operating procedures 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 |
SHENZHEN STS TEST SERVICES CO.,LTD.
|
||||
1 | Name |
B******** Y********
|
||||
1 | Telephone Number |
+86 7********
|
||||
1 |
B******@stsapp.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 27 | 1391.65 | 1391.65 | 0.043 | 2.5 ppm | 1M13G7D | ||||||||||||||||||||||||||||||||||
1 | 2 | 27 | 1433.544 | 1433.544 | 0.037 | 2.5 ppm | 1M08G7D |
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