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SMR 700 800 High Power PS NFPA Signal Booster Class A User Manual 00068CDUM Rev. 2.3 The most important thing we build is trust This manual is relevant for the following Class A booster models:
D-MBR 3707/3708 PS NFPA, D-SBR 3707 PS NFPA, D-SBR 3708 PS NFPA, D-SBR 4008 PS NFPA SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Copyright 2016 Axell Wireless Limited trading as Cobham Wireless All rights reserved. No part of this document may be copied, distributed, transmitted, transcribed, stored in a retrieval system, or translated into any human or computer language without the prior written permission of Axell Wireless Limited trading as Cobham Wireless. The manufacturer has made every effort to ensure that the instructions contained in this document are adequate and free of errors and omissions. The manufacturer will, if necessary, explain issues which may not be covered by this document. The manufacturer's liability for any errors in the document is limited to the correction of errors and the aforementioned advisory services. This document has been prepared to be used by professional and properly trained personnel, and the customer assumes full responsibility when using them. The manufacturer welcomes customer comments as part of the process of continual development and improvement of the documentation in the best way possible from the user's viewpoint. Please submit your comments to the nearest Cobham Wireless sales representative. Contact Information Headquarters Commercial inquiries Website Support issues Technical Support Line, English speaking Axell Wireless trading as Cobham Wireless Aerial House, Asheridge Road Chesham, Buckinghamshire HP5 2QD, United Kingdom Tel: +44 1494 777000 Fax: +44 1494 777002 cw.coverage@cobham.com www.cobham.com/wireless cw.support@cobham.com
+44 1494 777 747 About This Manual This Product Manual provides the following information:
Description of the Repeater unit Maintenance and troubleshooting procedures Procedures for setup, configuration and checking the proper operation of the unit For whom it is intended This Product Manual is intended for experienced technicians and engineers. It is assumed that the customers installing, operating, and maintaining Cobham Wireless Repeaters are familiar with the basic functionality of Repeaters. Notice Confidential - Authorized Customer Use This document may be used in its complete form only and is solely for the use of Cobham Wireless employees and authorized Cobham Wireless channels or customers. The material herein is proprietary to Cobham Wireless. Any unauthorized reproduction, use or disclosure of any part thereof is strictly prohibited. All trademarks and registered trademarks are the property of their respective owners. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | II SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Disclaimer of Liability Contents herein are current as of the date of publication. Cobham Wireless reserves the right to change the contents without prior notice. The information furnished by Cobham Wireless in this document is believed to be accurate and reliable. However, Cobham Wireless assumes no responsibility for its use. In no event shall Cobham Wireless be liable for any damage resulting from loss of data, loss of use, or loss of profits and Cobham Wireless further disclaims any and all liability for indirect, incidental, special, consequential or other similes damages. This disclaimer of liability applies to all products, publications and services during and after the warranty period. Safety Instructions and Warnings Throughout this manual, important safety warnings and admonishments are included to warn of possible hazards to persons or equipment. A safety warning identifies a possible hazard and then describes what may happen if the hazard is not avoided. The safety warnings in the form of Dangers, Warnings and Cautions must be followed at all times. These warnings are flagged by the use of a warning icon, usually the triangular alert icon seen below. The exclamation point within the triangular alert icon is intended to warn the operator or service personnel of operation and maintenance from factors relating to the product and its operating environment, which could pose a safety hazard. Guarantees All antennas must be installed with lightning protection. Damage to power modules, as a result of lightning are not covered by the warranty. Switching on AC or DC power prior to the connection of antenna cables is regarded as faulty installation procedure and therefore not covered by the Cobham Wireless warranty. Repeater enclosures should be closed using the two screws. The screws must be fully tightened. Failure to do so may affect the IP65 compliancy and therefore any warranty. Unauthorized Changes to Equipment Changes or Modifications not expressly approved by the manufacturer responsible for compliance could void the users authority to operate the equipment Exclusive Remedies The remedies provided herein are the Buyers sole and exclusive remedies. Cobham Wireless shall not be viable for any direct, incidental, or consequential damages, whether based on contract, tort, or any legal theory. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | III SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL General Safety Warnings Concerning Use of System Always observe standard safety precautions during installation, operation and maintenance of this product. Caution labels!
Throughout this manual, there are "Caution" warnings. "Caution" calls attention to a procedure or practice, which, if ignored, may result in injury or damage to the system, system component or even the user. Do not perform any procedure preceded by a
"Caution" until the described conditions are fully understood and met. This equipment can either be installed indoors or outdoors. When installed outdoors - wet conditions increase the potential for receiving an electric shock when installing or using electrically powered equipment. To prevent electrical shock when installing or modifying the system power wiring, disconnect the wiring at the power source before working with un insulated wires or terminals. Before installing or replacing any of the equipment, the entire manual should be read and understood. The user needs to supply the appropriate AC or DC power to the booster. Incorrect power settings can damage the Booster and may cause injury to the user. Please be aware that the equipment may, during certain conditions become very warm and can cause minor injuries if handled without any protection, such as gloves. When installing, replacing or using this product, observe all safety precautions during handling and operation. Failure to comply with the following general safety precautions and with specific precautions described elsewhere in this manual violates the safety standards of the design, manufacture, and intended use of this product. Cobham Wireless assumes no liability for the customer's failure to comply with these precautions. This entire manual should be read and understood before operating or maintaining the booster. Access to the unit installation location is restricted to SERVICE PERSONNEL who have been instructed on the restrictions and the required precautions to be taken. Danger: Electrical Shock Caution: Safety to personnel Caution: Safety to equipment Warning: Restricted Access Location Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | IV SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Compliance with FCC FCC Part 90 Part 90 Signal boosters THIS IS A 90.219 CLASS A DEVICE WARNING!!! This is NOT a CONSUMER device. This device is designed for installation by FCC LICENCEES and QUALIFIED INSTALLERS. You must have an FCC LICENCE or express consent of an FCC Licensee to operate this device. (You MUST register Class B signal boosters (as defined in 47 CFR 90.219) online at www.fcc.gov/signal-boosters/registration.) Unauthorized use may result in significant forfeiture penalties, including penalties in excess of
$100,000 for each continuing violation. This repeater must be operated as a Part 90 Class A repeater. The installation procedure must result in the signal booster complying with FCC requirements 90.219(d). In order to meet FCC requirements 90.219(d), it may be necessary for the installer to reduce the UL and/or DL output power for certain installations. FCC Part 90 for 700/800MHz FCC Part 90 is valid ONLY for SMR 700/800 high power Class A booster models supporting up to 10MHz bandwidth as follows:
FCC Part 90 is valid ONLY for SMR 700 high power Class A booster models supporting the following (maximum) bandwidths: 758 - 775MHz, 788 805MHz FCC Part 90 is valid ONLY to SMR 800 high power Class A repeater models supporting the following (maximum) bandwidths: 806 - 817MHz, 851 862MHz FCC Part 15 This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
1. This device may not cause harmful interference, and 2. This device must accept any interference received, including interference that may cause undesired operation. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at their own expense. FCC Part 20 for CMRS applications FCC Part 20 is applied for 800MHz high power Class A Booster models running CMRS services under the following bands:
817 824MHz, 862 869MHz. FCC RF Exposure Limits This unit complies with FCC RF exposure limits for an uncontrolled environment. This equipment must be installed and operated with a minimum distance of 28cm between the radiator and any persons body. Antenna Installation Installation of an antenna must comply with the FCC RF exposure requirements. The antenna used for this transmitter must be mounted on outdoor or indoor permanent structures. The maximum antenna gain for indoor operation is 2.2 dBi and for the external antenna is 7dBi. Cable loss of at least 2dB is taken into account for all cases. Antennas having a gain greater than these are strictly prohibited for use with this device. In indoor applications the antenna must be installed at a minimum separation distance of 28cm from all nearby persons. Note the following:
In a DAS system, the loss due to cable insertion, splitter, etc., is assumed to be approximately 9 dB. Gmax antenna gain (dBi) = EIRP Pout + Insertion Loss = 38 40 + 9 = 7 dBi EIRP = Pout insertion Loss + Gmax antenna gain (dBi) = 40 9 +7 = 38 dBm ERP = 38 -2.15 = 35.85 dBm = 3.85 W < 5 W ERP Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | V SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Compliance with IC Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum
(or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. The Manufacturer's rated output power of this equipment is for single carrier operation. For situations when multiple carrier signals are present, the rating would have to be reduced by 3.5 dB, especially where the output signal is re-
radiated and can cause interference to adjacent band users. This power reduction is to be by means of input power or gain reduction and not by an attenuator at the output of the device. This equipment complies with IC RSS-102 radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 42 cm between the antenna and your body, Conformment la rglementation d'Industrie Canada, le prsent metteur radio peut fonctionner avec une antenne d'un type et d'un gain maximal (ou infrieur) approuv pour l'metteur par Industrie Canada. Dans le but de rduire les risques de brouillage radiolectrique l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope rayonne quivalente (p.i.r.e.) ne dpasse pas l'intensit ncessaire l'tablissement d'une communication satisfaisante. La puissance de sortie nominale indique par le fabricant pour cet appareil concerne son fonctionnement avec porteuse unique. Pour des appareils avec porteuses multiples, on doit rduire la valeur nominale de 3.5 dB, surtout si le signal de sortie est retransmis et qu'il peut causer du brouillage aux utilisateurs de bandes adjacentes. Une telle rduction doit porter sur la puissance d'entre ou sur le gain, et ne doit pas se faire au moyen d'un attnuateur raccord la sortie du dispositif. Cet appareil est conforme aux limitations de la norme IC RSS-102 concernant lexposition aux radiations dans un environnement non contrl. Cet appareil doit tre install et utilis avec une distance minimale de 42 cm entre lantenne et le corps de lutilisateur. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | VI Table of Contents 1 INTRODUCTION ............................................................................................................. 1 1.1 Main Features ......................................................................................................... 1 1.2 Booster Interfaces ................................................................................................... 2 1.3 Architecture ............................................................................................................ 3 1.4 Smart-ALC Function ................................................................................................ 4 1.5 Power Feeder and Battery Charger .......................................................................... 4 2 BOOSTER PRE-INSTALLATION REQUIREMENTS AND GUIDELINES ............................... 5 2.1 Donor Antenna Considerations ............................................................................... 5 2.1.1 Required Antenna Information ........................................................................... 5 2.1.2 Donor Antenna specifications ............................................................................ 5 2.1.3 Installation Criteria ............................................................................................ 5 2.2 Service Antenna Considerations ............................................................................. 6 2.2.1 Required Information......................................................................................... 6 2.2.2 Enabling Monitoring of Service Antennas ........................................................... 7 2.2.3 Indoor Installations ............................................................................................ 7 2.2.4 Outdoor Installations ......................................................................................... 8 2.3 Required BTS Information ..................................................................................... 10 2.4 Selecting the Booster Location.............................................................................. 10 Installation Location Criteria and Environment ................................................... 10 2.4.1 2.4.2 Verifying the Link between the BTS and the Signal Booster ................................ 11 2.5 RF Cable Installation Guidelines ............................................................................ 11 3 BOOSTER MOUNTING AND INSTALLATION ................................................................. 12 3.1 Booster Installation Overview ................................................................................ 12 3.2 Unpacking and Package Contents ......................................................................... 13 3.3 Mounting the System ............................................................................................ 14 3.3.1 Rack Mount Installation .................................................................................... 14 3.3.2 Wallmount Installation ...................................................................................... 15 3.4 Connections ......................................................................................................... 21 3.4.1 Booster Grounding ........................................................................................... 21 3.4.2 Antenna Connections ....................................................................................... 22 3.4.3 Booster Dry-Contact Alarm Connections ........................................................... 23 3.4.4 Connecting Power and Power-Up ..................................................................... 25 3.4.5 Power Connection to UPS ................................................................................ 25 3.4.6 Power Connection to Battery Charger ............................................................... 26 3.4.7 Power-on ........................................................................................................ 26 3.4.8 Operation with and without Battery Charger ....................................................... 26 SETUP AND COMMISSIONING ..................................................................................... 27 4.1 Overview of the Commissioning Procedure ........................................................... 27 4.2 Opening a Session to the Booster and Navigating the GUI ..................................... 28 4.2.1 Open a First Time Local Web Session to the Booster ......................................... 28 4.2.2 Navigating the Web GUI Application ................................................................. 29 4.3 RF Parameters and Filter Configuration ................................................................. 32 4.4 Date and Time Settings ......................................................................................... 36 4.5 External Alarms Configuration .............................................................................. 37 4.6 IP Address and SNMP Notifications ....................................................................... 38 4.6.1 Configuring the IP Address ............................................................................... 39 4 Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | VII SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.6.2 SNMP Trap Configuration ................................................................................ 40 4.7 Changing Password .............................................................................................. 41 5 ADMINISTRATIVE OPERATIONS .................................................................................. 42 5.1 User Management ................................................................................................. 42 5.1.1 User Levels ..................................................................................................... 42 5.1.2 Viewing the List of Defined Users...................................................................... 42 5.1.3 Adding Users ................................................................................................... 43 5.1.4 Editing a User .................................................................................................. 43 5.1.5 Deleting a User ................................................................................................ 43 5.2 General Parameters .............................................................................................. 44 5.2.1 Booster Level General Parameters ................................................................... 44 5.2.2 Band Level General Parameters ....................................................................... 45 5.3 Band-Level Configuration Backup/Restore ............................................................ 46 5.3.1 The Backup/Restore Tab .................................................................................. 46 5.3.2 Backup Band Configuration .............................................................................. 47 5.3.3 Restoring Band Configuration ........................................................................... 47 5.3.4 Uploading Band Configuration File .................................................................... 48 5.3.5 Saving Configuration File to Computer .............................................................. 48 5.4 Software Upgrade ................................................................................................. 48 5.4.1 CMU Software Upgrade ................................................................................... 49 5.4.2 Embedded Software Upgrade ........................................................................... 50 6 MONITORING AND TROUBLESHOOTING ..................................................................... 53 6.1 Booster Panel LEDs .............................................................................................. 53 6.2 Booster Panel Alarms Connector .......................................................................... 54 6.3 WEB GUI Alarms Screens...................................................................................... 55 6.3.1 700-800 Alarms Screen .................................................................................... 55 6.3.2 CMU Alarms Screen - Activated Alarms ............................................................ 57 6.3.3 Alarms Log ...................................................................................................... 57 6.4 Faults and Summary of Activated Alarms .............................................................. 58 6.5 Modifying Alarm Severities .................................................................................... 59 APPENDIX A BOOSTER SPECIFICATIONS ........................................................................ 60 APPENDIX B - ORDERING INFORMATION ........................................................................... 61 Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | VIII SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 1 INTRODUCTION This manual describes the installation and setup procedures for Cobham Wireless SMR 700 800 high power, Class A digital, public safety signal boosters. All booster models relevant to this manual operate in the same manner will be referred to as the booster, where any differences in the software configuration procedure or parameters will be addressed in the relevant section. It features up to 24 DSP based, software-controlled, variable bandwidth filters that are user-programmable across the 700 and 800 MHz bands. All public safety technologies are supported. For each filter, the user can specify the start and stop frequencies to reduce the installation time of the signal booster and enable a very wide range of filters selection. Every configuration parameter, including filter tuning and selection, can be controlled via web based management. The patented Cobham Wireless digital RF filter enables simple initial setup for any channel plan and if necessary, allows some basic reconfiguration due to re-banding. The SALC - Smart ALC algorithm will reduce the gain to protect the signal booster from oscillation. When the gain cannot be reduced anymore a shut-down mechanism will be triggered. The signal booster protects against degradation of the systems sensitivity and coverage. This is implemented by the inbuilt AGC per-channel (filter) feature, which permits equalization of the channel levels for uniform coverage. This product meets the rigid requirements as defined by the NFPA and International Fire Code developmental organizations. The amplifier is painted a Fire Life Safety Red, meets NEMA4 compliance for hose down, and provides all Alarming outputs as defined by NFPA 2010, Chapter 24 including system and antenna failures. The signal booster is a DC fed unit. NOTE: Optionally, an external battery charger unit is available as well. The charger is connected to the AC and includes a circuit to charge external batteries with all the dry contact alarms as defined in the NFPA standard: AC failure, Charger failure and Low battery. 1.1 Main Features Class A signal booster for SMR and public safety networks Supports APCO 25 phase 1 and 2 for public safety networks NFPA 72-2010, Chapter 24 and IFC 510.1 Compliant Support of 700MHz D block for LTE network Patented DSP filtering technology:
Supports a total of 24 independent filters per system User programmable filters NEMA4 enclosure SALC-Smart ALC mechanism to protect the digital signal booster from oscillation and shutdown the signal booster when required Web based management, SNMP traps Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 1 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 1.2 Booster Interfaces All booster interfaces are located on the underside as shown below. WARNING! The signal booster must always be installed vertically and top-down with the connectors on the underside for protection (see 3.3.2.2). Horizontal installation on a bench for long time may cause damage to the signal booster due to over-heating. Donor antenna connection 48 VDC power
(54 VDC nominal from Battery Charger) GND LUG Service antenna connection Dry contact alarms Signal Status LEDs Ethernet port Interface BASE MOBILE 48 VDC ALARMS GND LUG LEDS Figure 1-1. SMR 700 800 PS NFPA Front Panel Description Donor antenna connections. See section 2.1. Service antenna connections. See section 2.2. 48VDC input voltage. NOTE: If connected to Cobham Wireless Battery Charger, the input voltage will be 54 VDC nominal, as supplied by the Battery Charger, is accepted. Two output relay alarms. See section 3.4.3. Ground connection. See section 3.4.1 Status LEDs:
Upper LED - UL status for one or two bands. Lower LED - DL status for one or two bands. Status: Green (OK), Orange (Warning), Red (Fail). See section 6.1 for detailed information. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 2 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 1.3 Architecture To meet the National Fire Protection Association (NFPA) requirements, power to the Signal booster is provided via an uninterrupted power source. This can either be a UPS or (if a UPS is not available), an AC Feeder and Battery Charger (purchased separately). The booster and its power source (UPS or Battery Charger), each provide dry-contact alarms towards the Fire Department Control Box. (The Battery Charger alarms are described in the dedicated manual. In case of UPS, refer to the manufacturers instructions). The booster supports the following alarms:
Two dry-contact alarms One external alarm from the Battery Charger or UPS Alarm connections to the Fire Department Control Box are used to monitor the status of the uninterrupted power source, Signal Booster and DAS system (antennas). The Alarm conditions are described in section 6.4 and section 3.4.3.3. NOTE: As an alternative to the Fire Department Control Box connections, the booster and UPS or Charger dry contact alarms can be connected to an Automatic Dialer. The AD-2000 Automatic Voice/Pager Dialer System is recommended. Cobham Wireless Battery Charger or UPS Dry Contact alarms AC Input Fail Low Battery Capacity Charge Fail 48VDC*
Donor Antenna Service Antenna EXT1 Dry Contact alarms Signal Booster fail Antenna Malfunction
(VSWR UL** and DL) and status Faulty Service Antenna*
PS NFPA Signal Booster Antenna Discontinuity Detector DAS Alarm Box Fire Department NOC Fire Department Control Box Wireless Modem
(Option) Dialer to Fire Department*
*Booster input voltage from Cobham Wireless Battery Charger = as supplied by Battery Charger (54 VDC nominal) Booster input voltage from UPS = 48VDC
**Faulty Service Antenna or DAS Alarm Box will be indicated as VSWR UL ALARM and will be sent as Antenna Discontinuity OUT (dry-contact) alarm Figure 1-2. SMR 700 800 PS NFPA Architecture Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 3 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 1.4 Smart-ALC Function The Signal Boosters power amplifier includes power-monitoring circuits with Automatic Level Control (ALC) that prevents excessive output power while maintaining the power amplifier linearity The Smart Automatic Level Control (Smart-ALC) is an innovative algorithm for automatic Signal Booster gain adjustment. Combined with advanced control algorithms, SALC is capable of learning the traffic load characteristics and adjusting the Signal Booster RF Gain to the desired value. Note: To reset the Signal Booster to its highest set gain value, disconnect the Signal Booster power cable for several seconds and re-connect. 1.5 Power Feeder and Battery Charger NOTE: The Power Feeder Battery Charger installation instructions are provided in a dedicated manual. For installations where UPS is not available, the AC Feeder and Battery Charger unit can be purchased (see Appendix B for ordering information). The charger is connected directly to the AC inlet and includes a circuit to charge external batteries. The charger also includes the following dry contact alarms (as defined in the NFPA standard): AC failure, Charger failure and Low battery. NOTE: BATTERY LOW indication is when battery reaches 70% at current consumption of ~ C/25 Figure 1-3. Battery Charger Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 4 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 2 BOOSTER PRE-INSTALLATION REQUIREMENTS AND GUIDELINES WARNINGS!!
The installer is held accountable for implementing the rules required for deployment. Good engineering practice must be used to avoid interference. Output power should be reduced to solve any IMD interference issues. 2.1 Donor Antenna Considerations The Base (Donor) antenna is usually installed outdoors and is either a directional antenna such as a Yagi or a Panel antenna. 2.1.1 Required Antenna Information You will require the following antenna information:
Antenna type and characteristics Height Length and type of coaxial cable required for connecting the Donor antenna to the Signal Booster and the attenuation. 2.1.2 Donor Antenna specifications Yagi type or similar 10 to 15 dBi gain, very sharp beam pointed to the BTS. Cable and jumper loss is at least 2dB. The required Base signals should be the dominant signals; at least 6 dB higher power than other signals. Example of antenna's typical specifications:
Gain:
8 dBd (=10.1 dBi) VSWR:
< 1:5:1 Impedance: 50 ohm 2.1.3 Installation Criteria NOTE: Verify that the antennas meet requirements described in the previous sections.. Installation requirements:
Select a location for the Donor antenna and verify that there is the signal strength is strong enough at that location. Install the Donor Antenna at the designated height. The antenna should point to the direction of the base station for maximum input power. Verify that the antenna is in the base stations line of sight (raise the antenna if necessary). Must be installed at a minimum distance of 1 meter from any personnel within the area. Install the donor antenna at a higher level (i.e. floor) than the mobile antenna. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 5 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL The Booster supports monitoring of DC Donor antennas. This requires a DC path through the transmission line (and lightning protector) to the donor antenna. If the donor antenna doesnt provide a DC return path, install a 1dB attenuator at the Donor antenna as illustrated in Figure 2-1. NOTE: A 1dB attenuator is provided in the packing list. Use the same type of attenuator for the Donor antenna (if it does not provide a DC return path). If used on an antenna installed outdoors, be sure provide suitable weatherproofing over attenuator and connectors or fit inside building. Figure 2-1. Antenna Connections 2.2 Service Antenna Considerations The Service antenna type depends on whether the Signal Booster is installed indoors or outdoors. 2.2.1 Required Information The following antenna requirements, specifications and site considerations should be met. Type of installation indoor or outdoor Service area size Height at which antenna(s) is/are installed Antenna type and characteristics Length and type of coaxial cable required for connecting the Service antenna to the Signal Booster and the attenuation. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 6 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 2.2.2 Enabling Monitoring of Service Antennas For both indoor and outdoor service antennas:
The Booster supports monitoring of DC Service antennas. This requires a DC path through the transmission line (and lightning protector) to the Service antennas. If the LAST Service antenna doesnt provide a DC return path, install a 1dB attenuator as illustrated in Figure 2-1. NOTE: It is required to install a single 1dB attenuator on the last service antenna (or on one of the last service antennas if a splitter is used). If used on an antenna installed outdoors, be sure provide suitable weatherproofing over attenuator and connectors or fit inside building. Figure 2-2. Antenna Connections 2.2.3 Indoor Installations 2.2.3.1 Recommended Antennas The following describes the requirements for an omni-directional mobile used for indoor applications. Specifications:
One or a combination of the following antennas can be used: Ceiling Mount Patch antenna, Wall Mount Patch antenna, Corner Reflector. Omni directional antenna with a 0 to 2 dBi typical gain, or wide beam with up to 10 dBi gain. Example of omni-directional antenna specifications:
Gain:
VSWR:
Impedance:
0 to 2 dBi
< 2:1 50 ohm Choose an antenna with high side lobe attenuation that allows maximum isolation from the service/
mobile antenna. A minimum of 5 such antennas must be connected to the Signal Booster with cables and splitters. The maximum EIRP from each antenna shall not exceed 3W. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 7 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 2.2.3.2 Installation Criteria Installation requirements:
An indoor antenna should be installed at a convenient location. It should be free of metallic obstruction. Install the Service Antenna at the designated height and tune it roughly toward the Service coverage area. Installation of this antenna must provide a minimum separation distance of 28cm for FCC and 42cm for IC, from any personnel within the area. Note: If the power is divided into more than 5 antennas that have a large coverage area than the separation distance can be less than the given distance. Cable and jumper loss is at least 2dB. 2.2.4 Outdoor Installations For applications in which the Mobile antenna is installed outdoors, the antenna type is chosen according to the available infrastructure (single-pole or horizontal installation). In addition, isolation between the donor and service antennas must be taken into account when selecting the location of the antennas. 2.2.4.1 Recommended Antennas The antenna type depends on the installation:
For vertical Single Pole installations a high side lobe suppression antenna is required. For horizontal installations either on two separate poles or on two sides of one building a high front to back ratio antenna is required. Specifications:
Maximum antenna gain for outdoor operation 9dBi. Cable and jumper loss is at least 2dB. Installation requirements:
[Gain Antenna Cable loss] should not exceed 7dB Installation of this antenna must provide a minimum separation distance of 62cm for FCC and 91cm for IC, from any personnel within the area. NOTE: The Single Pole and Horizontal Installations are described in section 2.2.4.2 and 2.2.4.3. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 8 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 2.2.4.2 Vertical Separation Configuration The Vertical Separation configuration is recommended in cases where the BTS is relatively far and the service coverage area is relatively small. In Vertical Separation configuration, the Donor antenna can be installed either above or below the Service antenna on a COMMON tower. It is required to set the distance between them to achieve maximum isolation. The figures below illustrate the installations. Figure 2-3. Service above Donor Antenna Figure 2-4. Donor above Service Antenna 2.2.4.3 Horizontal Separation Configuration In the Horizontal Separation configuration, the Donor and Service antennas are installed on two separate towers at approximately the same height. The towers can be either on the same side of the building or on different sides of the building as shown below. Figure 2-6. Service and Donor Antennas Installed on Opposite Sides of the Building Figure 2-5. Donor and Service Antennas Installed on Separate Towers Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 9 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 2.2.4.4 Verifying Isolation between Donor and Service Antennas Note the following:
The isolation between the Donor and Service antennas is critical especially for high gain, outdoor applications. For proper operation of the Signal Booster, it is recommended that the isolation between the Donor and Service antennas be at least 15dB higher than the Signal Boosters set gain. (Lower isolation can lead to high in-band ripple, oscillations and low signal quality.) Ensure proper vertical or horizontal distance separation between Donor and Service antennas To measure the isolation, proceed as follows:
1. Inject a known signal from a signal generator into one antenna (preferably the Donor antenna). 2. Measure the coupled output from the Service antenna, using the Spectrum analyzer and LNA if applicable. 3. Perform this procedure across the frequency range of both the Uplink and Downlink bands. 4. Register the lower result for system operation. 2.3 Required BTS Information Required BTS Information BTS channels BTS output power per channel BTS antenna gain BTS antenna height and distance from antenna site 2.4 Selecting the Booster Location When selecting a location, verify the requirements described in this section are met. 2.4.1 Installation Location Criteria and Environment Location criteria Application type indoor or outdoor Distance from antenna site and BTS antenna height. It is recommended that the installation location be as close as possible to the antenna site in order to maintain the cable loss to a minimum. General surroundings and accessibility of location Mounting surface - Use a suitable mounting surface, such as a flat back rigid wall. Plan mount according to overall dimensions of the unit enclosure. Plan connection cable clearances - the connections located on the underside of the unit will need at least 300mm vertical clearance below the unit to enable the connections to be made. The minimum bend radius for RF cables must not be less than the recommendations made by the cable manufacturer. Plan the cable runs and ensure adequate space is available. Allow for door opening - ensure that there is sufficient space at the front of the unit to allow the door to be fully opened and for maintenance engineers to get access to the unit with test equipment such as a spectrum analyzer. Allow an additional 500mm of space in front of the unit when the door is fully open. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 10 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Allow for heat dispersion - Mount the repeater so that heat can be dispersed from it. The repeater wall mounting kit ensures an optimum airflow between the wall and the repeater.) Do not block this air channel as it will cause the MTBF of the repeater to drop dramatically, or even in the worst case cause the repeater to fail completely. If possible, use a wall in the shade to minimize the overall sun loading. If sufficient shielding cannot be obtained, an additional sun shield should be mounted. Figure 2-7: Example of a sun shield 2.4.2 Verifying the Link between the BTS and the Signal Booster This test checks the signal strength from the BTS antenna to the Signal Booster. Proceed as follows:
1. Using a Spectrum analyzer, measure the received signal from BTS at the Donor antenna port near the Signal Booster. 2. Adjust the Donor antenna direction to receive the maximum signal strength. 3. Compare the received signal strength with the calculated signal strength from the design phase. In case of discrepancy, check for one of the following:
Antenna out of direction Antenna tuned to side lobe instead of main lobe Antenna connector or antenna cable faulty Line-of-sight problem (obstruction), etc. 4. Register the signal strength of the downlink channel for the system operation phase. 2.5 RF Cable Installation Guidelines For all coaxial connections to/from the Signal Booster - high performance, flexible, low loss 50 ohm coaxial communications cable. All cables shall be weather-resistant type. If the coaxial cables are NOT weather-resistant type: wrap the exterior coaxial cables with insulation and holding tape (Type 3M Rubber splicing tape) for environmental protection and to ensure longer lifetime. Cable length - determined by the Signal Booster installation plan. When calculating the cable length, take into account excess cable slack so as not to limit the insertion paths. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 11 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3 BOOSTER MOUNTING AND INSTALLATION This chapter describes the booster installation. Note the following:
It is assumed the location of the booster has been selected according to the criteria listed in section 2.4. If included in the installation, the Battery Charger is installed adjacent to the Booster. Refer to the Battery Charger manual for instructions on installing the Battery Charger. WARNINGS!!!
Follow all local safety regulations when installing the Signal Booster. Only qualified personnel are authorized to install and maintain the Signal Booster. Follow Electro-Static Discharge (ESD) precautions. 3.1 Booster Installation Overview Step-1 Step-2 Step-3 Step-4 Step-5 Unpacking Wallmounting or Rack Mounting Connections: GND, Antenna, Dry-contact alarms Power Connections: UPS or Battery Charger Power ON Figure 3-1 Physical Installation Workflow Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 12 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.2 Unpacking and Package Contents Upon receiving the booster package, perform the following:
1. Examine the shipping container for damage before unpacking the unit. 2. Perform a visual inspection to reveal any physical damage to the equipment. 3. Verify that all of the items listed in the packing list are included. Otherwise contact your Cobham Wireless service representative. Booster Package Contents Item Description X1 CD containing Users Manual Includes User Manual for the product. Fixed N-type attenuator (M-
F) 1dB 1W DC-6GHz X2 Mounting Brackets To be connected to the last service antenna. Used for wall-mount and rack-
mount (different positions of brackets) X1 Ethernet cross-cable 3M RJ45-RJ45 Used for initial setup 1 x Alarms cable Circular 8 30WEC70500) Pin
(P/N X1 DC Power Cable Cable to DC power supply 40WVC70900 Bolts and accessories bracket assembly for Bolts and accessories wallmount for X4 BOLTS M8 X4 FLAT WASHERs M8 X4 SPRING WASHERS M8 X4 BOLT ANCHOR JUMBO 3/8 ZINC PLATED X4 FLAT WASHERs # 3/8 X4 SPRING WASHERS # 3/8 NUTGND HEX #3/8 Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 13 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.3 Mounting the System WARNING!! The signal booster must always be installed vertically with the connectors on the underside for protection (see 3.3.2.2). Horizontal installation on a bench for long time may cause damage to the signal booster due to over-heating. Note the following:
The mounting procedure is identical for both indoor and outdoor installations. The weight of the Booster requires that two people mount the unit on the wall. Washers are not supplied with the unit to be mounted. In addition to the bracket assembly, it is recommended to use additional fixings an example is given in section 3.3.2.5. 3.3.1 Rack Mount Installation The supplied brackets are used to mount the repeater either on a wall or in a 19 rack. The same brackets are used for both medium and high-power repeaters. IMPORTANT!!
The weight of the unit requires that two people mount the unit. The signal booster must always be installed vertically with the connectors on the underside for protection. Horizontal installation on a bench for long time may cause damage to the signal booster due to over-heating. To mount the unit in a rack 1. Use the x4 (provided) M8 Fixing Bolts and X4 M8 Spring Washers and x4 M8 Flat Washers to assemble the brackets as illustrated in the adjacent figure. Figure 3-2: Rack-mount bracket position Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 14 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 2. Mount the unit vertically in the rack, while adhering to standard rack mounting procedures, and secure. Figure 3-3: Rack-mount unit position 3.3.2 Wallmount Installation IMPORTANT!!
The unit mounting procedure is for concrete or brick walls only. Verify the suitability of the wall on which the unit is to be to be fitted. The weight of the unit requires that two people mount the unit on the wall. The signal booster must always be installed vertically with the connectors on the underside for protection. Horizontal installation on a bench for long time may cause damage to the signal booster due to over-heating. 3.3.2.1 Wallmount Bracket Assembly NOTE: In addition to the mounting brackets, it is recommended to use additional fixings as described in section 3.3.2.5. Assemble the brackets to the unit using the supplied M8 Fixing Bolts and X4 M8 Spring Washers and x4 M8 Flat Washers to assemble the brackets as shown in the following figure. M8 Fixing Bolts, Spring Washers and Flat Washers M8 Fixing Bolts, Spring Washers and Flat Washers Figure 3-4. Bracket Assembly for Wall-mount Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 15 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.3.2.2 Wall Marking and Drilling General Instructions WARNINGS!!
Due to the weight of the unit, it is NOT recommended to fix to a hollow wall. Always check that there are no pipes or cables hidden in the wall beneath the area to be drilled. Various pipe and cable detectors are available for this type of inspection. Note the following:
The Repeater wall mount brackets assembly should be fixed to a solid wall (these include brickwork, block work, and concrete). To provide secure fixing to a solid wall, the most common method is drilling and plugging. The size of fixing is dependent on the item to be fixed and the nature of the wall, The Repeater should be fixed with mild steel, M6 (50mm to 75mm) rawlbolts or similar. The following items are provided in the kit:
X4 BOLT ANCHOR JUMBO 3/8 ZINC PLATED X4 FLAT WASHERs # 3/8 X4 SPRING WASHERS # 3/8 NUTGND HEX #3/8 Figure 3-5: M6 Rawlbolt recommended for wallmount. Care must be taken to ensure the alignment of the four fixings. A spirit level or plumb line should be used to ensure horizontal/vertical alignment. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 16 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.3.2.3 Wall Marking and Drilling Procedure To mark and drill the wall 1. Mark out the fixing centers of the unit on the chosen wall. Refer to the dimensions are shown below. Figure 3-6: Fixing Centers 2. Mark and drill the wall with the correct size masonry bit as specified by the fixing manufacturer. NOTE: It is good practice to wear goggles to protect your eyes from flying debris when using power tools. 3. Hold the drill bit against the mark and begin drilling slowly so that the bit does not wander from the position. The wall should be drilled to a depth which is sufficient to accommodate the full length of the fixing. 4. Insert the fixings so that the top of the sleeve/anchor section is level with the wall surface. 5. Gently tighten the bolt by hand so that the anchor section of the fixing expands and grips the inside of the hole. Figure 3-7: Inserting Fixing and Tightening. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 17 6. As the bolt pulls its way in, the sides of the anchor section are forced outwards, gripping the surrounding surface. SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Figure 3-8: Anchor Sides Pushed Outwards. 7. Once all four fixings are in place, carefully withdraw the four bolts. Figure 3-9: Withdraw Bolts. 3.3.2.4 Mounting the Unit CAUTION!! It is recommended that two people lift the unit. To mount the Unit 1. Align the unit with the four fixings. Bracket-to-wall mounting holes x 2 Bracket-to-wall mounting holes x 2 Figure 3-10. Mounting on wall Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 18 2. Once unit is held in the chosen position, carefully insert the fixing bolts through the mounting lugs of the unit and into the sleeve/anchor sections of the fixing in the wall and tighten the bolts. SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL WARNING! The unit needs to be mounted tightly to eliminate vibration. Align Repeater and Secure Bolts Figure 3-11: Mount Repeater 3.3.2.5 Recommended Additional Fixing SUGGESTED PRECAUTIONARY MEASURE!!
Brackets are provided to securely mount the unit on the wall; however, as an additional precautionary measure, it is recommended to further secure the unit to the wall (in addition to the bracket). This can be done using any appropriate method. It is the installers responsibility to ensure the unit is installed in a secure manner. The following figures provide examples of additional fixings. In the examples, support is provided in the form of a CABLE HARNESS LOOP that is looped around the unit handle and secured to the wall or part of the building support structure. Figure 3-12: Example 1 of Additional Fixing to Wall Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 19 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Another example is of a unit installed on a stadium gantry. Again, the support can be in the form of a cable harness loop, using the handle of the unit and part of the gantry structure. ATTENTION!! Any other secure method can be used. Additional safety tether secured around the charger handle Booster Figure 3-13: Example 2 of Additional Fixing to Gantry Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 20 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.4 Connections This section describes the Booster connections:
Grounding Antenna connections Dry-contact connections 3.4.1 Booster Grounding CAUTION!! Ground must be connected FIRST and disconnected LAST. Requirements for grounding wires Protective grounding conductor - should be aluminum with cross-section 10AWG. Washers and screw - should be high Cr stainless steel, or 12% Cr stainless steel, or Cr on, Ni on steel, Lug of the protective grounding conductor - should be aluminum tin on steel WARNING!! Ground the Signal Booster with the boosters grounding bolt. Do not use the grounding bolt to connect external devices. GND LUG Figure 3-14 GND Lug Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 21 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.4.2 Antenna Connections CAUTION!!
Do not connect the antenna cables to the Signal Booster before verifying the installation parameters -
specifically the isolation between the antennas. DO NOT POWER-ON the Signal Booster without either the antennas being connected or the antenna connections terminated with dummy loads. To connect the antennas Connect the Donor and Service antennas. Verify all RF connectors are tightened and the cables and antennas are secured. Donor antenna Service antenna Figure 3-15 Booster GND Lug Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 22 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.4.3 Booster Dry-Contact Alarm Connections This section describes the dry-contact alarm connections for the booster. The booster and its power source (UPS or Battery Charger), each provide dry-contact alarms towards the Fire Department Control Box. (In installations with UPS, refer to your UPS manual for instructions on dry-
contact alarm connections to the Fire Department Control box). The booster supports the following alarms:
Two dry-contact alarms One external alarm from the Battery Charger or UPS NOTE: These can be connected any time, before or after the system is powered-on. Cobham Wireless Battery Charger or UPS Dry Contact alarms AC Input Fail Low Battery Capacity Charge Fail 48VDC*
Donor Antenna Service Antenna EXT1 Dry Contact alarms Signal Booster fail Antenna Malfunction
(VSWR UL** and DL) and status Faulty Service Antenna*
PS NFPA Signal Booster Antenna Discontinuity Detector DAS Alarm Box Fire Department NOC Fire Department Control Box Wireless Modem
(Option) Dialer to Fire Department*
*Booster input voltage from Cobham Wireless Battery Charger = as supplied by Battery Charger (54 VDC nominal) Booster input voltage from UPS = 48VDC
**Faulty Service Antenna or DAS Alarm Box will be indicated as VSWR UL ALARM and will be sent as Antenna Discontinuity OUT (dry-contact) alarm Figure 3-16. Booster with Charger Architecture 3.4.3.1 Alarm Dry Contact Output Restrictions Maximum switching voltage: 220 VDC, 125 VAC Maximum switching current: 2A 3.4.3.2 External Alarm Input Restrictions Maximum repetitive reverse voltage: 28 V Impedance load: 470 Ohm 0 - 0V 1 - 3.8V - 28V Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 23 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.4.3.3 Booster Alarm Connector Pinout The Booster supports x2 dry-contact alarms connected to the Fire Department Control Box and one optional external alarm in that can be connected to the dry-contact alarms of the UPS or Battery Charger in order to provide SNMP notifications for that specific UPS or Battery Charger alarm. Each alarm status is recognized by a separate wire-pair, where the colored wires are internally connected with a 4.7 K ohm resistor (serves as a pull up resistor to +5V. The following figure shows the Alarm connector pinout. Figure 3-17. Booster Alarm Connector Pinout Pin No. 1 2 3 4 5 6 7 Signal Name External Alarm #1 optional. N/A Dry Contact VSWR OUT Alarm (Normally Closed)*
Dry Contact Summary Alarm (Normally Closed) GND for External Alarm Dry Contact VSWR Alarm (Normally Closed)*
Dry Contact Summary Alarm (Normally Closed) Connect as follows:
Connect the following to the Fire Department Control Box:
VSWR Out Alarm (pins 3 and 6);
Summary Alarm (pins 7 and 4) Wire Colour Black White Green Orange Blue Brown Optional: connect EXT Alarm IN (pins 1 and 5) to the relevant dry-contact alarm on the UPS or Booster. In addition, it is required to configure EXT Alarm IN 1 as Normal = High in the management GUI according to section 4.5. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 24 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.4.4 Connecting Power and Power-Up CAUTION!!
DO NOT POWER-ON the Signal Booster without either the antennas being connected or the antenna connections terminated with dummy loads. This equipment can either be installed indoors or outdoors. When installing OUTDOORS, wet conditions increase the potential for electric shock when installing or using electrically powered equipment. To prevent electrical shock when installing or modifying the system power wiring, disconnect the power source before working with uninsulated wires or terminals. The Signal Booster operates from a 48VDC power source either UPS or Cobham Wireless Battery Charger
(ordered separately). The power connection differs according to the power source:
3.4.5 Power Connection to UPS To connect the power to UPS Use supplied DC cable (P/N 40WVC70900) Verify the UPS is set up. Connect 48VDC from the UPS or AC to DC converter (depending on the installation) to the Booster Power Connector Booster to UPS
(P/N 40WVC70900) UPS Figure 3-18 Battery Charger to Booster Power Connections The cable pinout is as follows:
Pinout 1 2 3 4 Color N.C. RED N.C. BLACK Label
-48V RTN
-48V Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 25 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3.4.6 Power Connection to Battery Charger Note the following The instructions for Battery Charger to Booster power connections are provided in the Battery Charger User Manual. The cable used for interconnecting the units is provided with the Battery Charger accessories. Connect the Charger DC Out to the Booster DC PWR. Charger DC Out to Booster PWR Cable DC00212 Figure 3-19 Battery Charger to Booster Power Connections 3.4.7 Power-on To power-on Simply switch the power ON at the power source. 3.4.8 Operation with and without Battery Charger When the Booster is powered by the Battery Charger Charger AC Power OFF Charger BAT Power ON OFF OFF Alarm Scenario Charger NO AC Power No booster or charger power Dry contact alarm OPEN at Charger alarm connector pins 1,6 when Charger AC Power is OFF. Booster indication. If the Booster is fed from a Charger and the Charger has NO AC and NO Battery power, the BDA can indicate NO PWR (NO AC /NO DC) alarm via it's dry contact pins 4,7. When Booster is not powered by the Battery Charger Booster AC Power OFF Charger BAT Power N/A Alarm Scenario Booster Power Dry contact alarm NO OPEN at Booster alarm connector at pins 4,7 when Booster has no Power Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 26 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4 SETUP AND COMMISSIONING This section describes the setup procedures for the Booster. NOTE: D-MBR 700/800 screens are used to illustrate the procedures in this chapter. Where relevant, differences in screen displays or parameter values for various models covered in this manual will be addressed. 4.1 Overview of the Commissioning Procedure The Booster is designed for simple plug-and-play operation, only requiring the setup of a number of parameters via a local Web connection and verifying that the system is operating properly. Open a local session RF Parameters Date and Time External Alarms Config IP Address Password Change Step-1 Step-2 Step-3 Step-4 Step-5 Step-6 Figure 4-1 Commissioning Overview Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 27 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.2 Opening a Session to the Booster and Navigating the GUI This section describes how to open a first time local session to the Booster and how to navigate the management Web GUI. 4.2.1 Open a First Time Local Web Session to the Booster NOTE: To open a local session to the booster, the setup computer IP Address must be in the same subnet as that of the Booster. The booster factor set IP Address is 192.168.1.253. To open a local session to the booster:
1. Connect to the Boosters front panel Ethernet port using the supplied Ethernet cable. Ethernet cable Figure 4-2. Local Setup Connection 2. Verify the setup computers NETWORK PARAMETERS are in the same subnet as the Boosters factory assigned IP Address. Internet Protocol Version 4 Properties dialog NOTE: Boosters factory assigned IP Address:
192.168.1.253. On the computer, access the Internet Protocol Version 4 (TCP/IPv4) Properties dialog. Configure an IP address 192.168.1.x
(e.g. 192.168.1.9) Set subnet mask to 255.255.255.0 Click OK to save the definitions. IP Address and subnet 3. Login to the Booster as follows:
Open a standard browser (e.g. Chrome, IE or Firefox). In the address line, enter the IP address of the Booster. 192.168.1.253 Figure 4-3. Computers IP Address Figure 4-4. Factory Assigned IP Address Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 28 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL The Booster login dialog appears. Enter the authentication information:
Default User Name Default Password
: admin
: admin. NOTE: Both are case sensitive and must be entered with lower case letters. Click Login. The application main window appears. NOTE: Quickly review the following section describing the application window and then proceed to configure the signal levels according to section 4.3. Figure 4-5. Login 4.2.2 Navigating the Web GUI Application This section describes how to navigate the Web Management application. The GUI interface provides the following items:
Operation options always available in the header Menu selection left pane provides three types of menu options Menu Tabs sets of tabs corresponding to the selected left pane menu options Work area corresponds to selected tab Operation Buttons Tabs related to selected menu item Menu selection Display for selected tab Figure 4-6. Main Window Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 29 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.2.2.1 Operation Items The operation options are always displayed in the window header. Selected menu item Item CMU/band/ Users Send Refresh CMU Reset Date and Time User Logout Description Shows the currently selected menu item. Uploads configuration changes to the Booster. Refreshes the current screen and displayed data Click to reset the Web Access application, in case of failure or display issues Access Booster Date and Time settings. Currently logged in authentication level and user (e.g. admin :
Admin). Click to logout current user. 4.2.2.2 Left Pane Menu Options The left pane contains three menu items, where clicking each item invokes dedication tabs and options:
CMU communication, general information, external alarm configuration and CMU SW upgrade options. 700/800 RF configuration, monitoring, backup and restore and embedded SW upgrade options Users user management tools, including Password Change. Figure 4-7. Menu Item Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 30 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.2.2.3 700/800 Band Menu Tabs This section describes the tabs available when 700-800 is selected in the left pane. Item Alarms Alarms Configuration Control & Params Band Info Band Specific Description Common alarms pane for both bands. See section 6.3.1. Viewing and modifying default alarm levels (critical, major, minor), major). See section 6.5. Band RF configuration options. See section 4.3. Access this tab to do the following (see section 5.2.2):
View band specific information, including supported filter width, SW build, and more. For dual-band units, configure maximum number of filters available for each band (for a total of 24). Backup and Restore SW Upgrade Used to backup and manage the configuration files. See section 5.3. Embedded SW upgrade option. Section 5.4.2. 4.2.2.4 CMU Pane and Tabs This section describes the tabs available when the CMU item is selected in the left pane. Item CMU Alarms CMU Info Communication Configuration Alarms Log External Alarms CMU SW Upgrade Modem Direct Access Description / Values Shows currently active alarms (see 6.3.2). Access this tab to do the following (see section 5.2.2):
View Booster level information such as SW and HW versions and identification number. Set minimum level of displayed alarms (see 5.2.1). Used to set IP Address and SNMP parameters (see 4.6) Displays booster level log of past and current alarms (see 6.3.3). Provides external alarm configuration options: High/Low, name, etc. (see 4.5) Used to perform CMU software upgrade (see 5.4.1) N/A Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 31 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.3 RF Parameters and Filter Configuration A total of 24 filters can be defined for each unit. For D-MBR 700 800 (a booster supporting two bands):
The total of 24 filters is distributed between the two bands. The number of filters available for each band can be configured in the Band Info tab. To configure the signal level and channels 1. In the left pane, click the 700/800 item. 2. For dual-band boosters, verify the number of channels allocated to each band:
Click the Band Info tab. The available filters are displayed in the Band Information area. Click Send Band Info Channel width No of channels per band Figure 4-8. Configuring Number of Filters per Band In the Channels for 700 band, select the number of filters for the 700 band. The remaining available filters will be allocated to the 800 band. Click Send in the header. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 32 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3. To define the filters:
Click the Control&Params tab. Click the button corresponding to the required band: 700 or 800. General RF parameters Choose band
(for dual band) Define filters Graphical view of defined filters Figure 4-9. Sub-band Allocation Configuration The displayed pane is relevant to the selected band. It is divided into three areas:
System overall parameters for the selected service. Graphical view of defined filters Filter definitions area. 4. Configure the general System parameters as follows:
Enabled Set DL value Set UL value Figure 4-10. Control and Params Tab Required System Parameters Verify RF Transmission Enable is checked (RF transmission ON). NOTE: Under certain conditions related to the Shut Down mechanism, the RF transmission can be disabled (unchecked) by the system. The Shut Down mechanism is described in the next step -
Optional System parameters). Set Max Composite DL Output Power set according to your site requirements and click Send. The Measured Composite DL Output Power is displayed in the adjacent field. NOTE: If the composite output power exceeds the defined value, the Smart-ALC feature begins working (refer to section 1.4 for more information on SALC). Set Max Composite UL Output Power set according to your site requirements and click Send. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 33 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5. You may modify the following System parameters Shut Down Mechanism (disabled by default) and DL Output Threshold Delta (set to 0 be default):
Shut Down Mechanism if enabled, the system automatically disables RF transmission if an excessively high input power (from the BTS side) is detected for a specific period of time. In that case, two operations are performed by the system:
o RF Transmission Parameter is unchecked (transmission is OFF) o System Mute alarm (Alarms tab) is generated (RED). NOTE: If the high input power issue is resolved, then it is necessary to enable RF transmission by check-marking the RF Transmission Enable parameter. In addition, reset the System Mute alarm
(click Ack). DL Output Threshold Delta (dB) - delta from DL Output Power, below which the alarm
'Donor power is too low' is activated. 6. Enable the available filters and set the bandwidth as follows:
Checkmark to ON each filter row. The corresponding options will be available. Select the BW (bandwidth. Downlink Channels Uplink Channels Enable and configure filters Graphical display of configured filters Figure 4-11. Control and Params Tab Enabling and Configuring Filters 7. Set the DL parameters for the selected filter:
DL Centre Freq - the resulting bandwidth will automatically be graphically displayed and the corresponding Uplink Center frequency will automatically be allocated. Max Ch Max Power set to maximum level by default. Modify as needed. You may want to click Send after each filter definition and view the measured Channel Power and the Composite Output Power (in the System are at the top of the screen). Max Ch Max Gain set to maximum by default. Modify according to the measured/calculated input power and isolation measurements. Recommended Maximum Gain setting is approximately 16 dB less than the isolation between the service and donor antennas. More information on Downlink sub-band parameters
- measured DL signal. o DL Measured RSSI
- measured DL Gain (dB) for the selected sub-band. o DL Measured Ch. Gain o DL Measured Ch. Power
- measured Power (dBm) for the selected sub-band. 8. Set the UL parameters for the selected filter:
Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 34 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL
(The uplink channels and their values are automatically allocated according to the downlink channel definitions.) Set Max Ch Max Power by default, the power is set to maximum level. Modify as needed. You may want to click Send after each filter definition and view the measured Channel Power and the Composite Output Power (in the System are at the top of the screen). Set Max Ch Max Gain - change the default value (maximum) according to the measured/calculated input power and isolation measurements. Recommended Maximum Gain setting is approximately 16 dB less than the isolation between the service and donor antennas. 9. Click Send (top window area option). 10. After the channels have been configured and the required coverage is attained for the location, verify that no Alarms are generated:
Click the Alarms tab Verify that all the indicators are GREEN in the Alarms tab Figure 4-12. Alarms Dialog Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 35 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.4 Date and Time Settings NOTE: It is important to set the correct date and time on the unit since this provides the timestamp for each logged event and alarm. This operation requires resetting the Booster. To set the Boosters date and time 1. Click on Date & Time in the Operations Items bar ( 4.2.2.1). The following dialog appears. 4. Click Reset 1. Click Date & Time 2. Define ALL 3. Click Set Figure 4-13. Date & Time Settings Dialog 2. Set all the date and time parameters. 3. Click on Set in the dialog. 4. Click the CMU Reset button in the Operations Bar. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 36 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.5 External Alarms Configuration The Booster supports one external alarm from an external source or from the Booster or UPS. To configure external alarms 1. In the left pane, click on the CMU option and select the External Alarms tab. The following dialog Alarm 1 Normal mode: High if Charger is connected; otherwise set to according to requirements External Alarms tab appears. Click CMU Figure 4-14. External Alarm Configuration Dialog 2. Set Alarm-1 (EXT 1) Normal mode as follows:
If an external alarm from the Battery Charger is connected to the Booster (section 3.4.3), set Normal = High. If any other device (i.e. UPS) is connected, set the alarm according to the device documentation. NOTE: Triggered external alarms are displayed in the CMU-Alarms tab. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 37 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.6 IP Address and SNMP Notifications This section describes how to set up the boosters IP Address and SNMP notifications management To configure the IP Address and SNMP Notifications 1. Click on CMU in the left pane and select the Communication Configuration tab. The following screen appears. Click Communication SNMP notifications Click CMU IP Address config SNMP Trap Config Figure 4-15. Communication Configuration Dialog The following areas are relevant to this Booster installation. Area IP Configuration SNMP options Trap Description Used to define Static IP Address and DHCP Address. This includes enabling SNMP Trap options and defining the relevant parameters. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 38 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.6.1 Configuring the IP Address The Booster supports both Static and DHCP addresses. A unique technology enables applying both types to the same Ethernet port. Both addresses may enable local and remote management. ATTENTION!! The Local IP Address is a static address assigned by the user to the system. The default Static IP address is 192.168.1.253. It is highly recommended to preserve this setup. In case of a change, make sure you record the newly assign IP. To configure the Booster IP address 1. Click the left pane CMU item and select the Communication tab. 2. To assign the unit a Local IP Address:
In the IP Configuration area, assign the unit the Local IP address, Netmask and Gateway parameters provided by your system administrator. Figure 4-16. Network Settings 3. To configure the booster to operate with a DHCP Server:
Checkmark Request Additional DHCP Address. The assigned address can be seen in the DHCP Address field. Figure 4-17. Network Settings Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 39 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.6.2 SNMP Trap Configuration The Booster can be configured provide fault notification by sending traps to up to five defined IP addresses each time a fault is triggered. The traps are sent at the defined heartbeat frequency and can be sent with a Sending Delay. To set SNMP Trap Destination parameters 1. Click the left pane CMU item and select the Communication tab. 2. In the SNMP Trap / SMS Destination area, set the Use Destination field to the SNMP option Select SNMP Optional (in minutes) Define up to five SNMP destination addresses 3. In the Use Destination field, select the SNMP option 4. For each destination:
Define the IP Address (where the IP addresses should be in the same subnet as the booster). Define the Community names (default = public) of the computers to which traps will be sent. 5. Sending Delay TH (Optional) - by default, there is no sending delay (0 value) and the alarm is continuously sent as long as the fault exists. By configuring the Sending delay TH, the same alarm is sent again, only if the fault persists for the configured (minutes) time period. 6. In the SNMP Trap Configuration area, in the Heartbeat Period field, define the frequency (in minutes) at which traps will be sent. It is recommended to maintain the Enterprise ID value as Axell. 7. In the window Operations Bar, click Send. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 40 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 4.7 Changing Password For security, it is recommended to change the password of the Administrator. To change the administrator password 1. From the left pane, select Users. The list of users is displayed in the User's Pane. 2. In the admin row, click Edit and modify the relevant information specifically the password. Figure 4-18. Add User 3. Enter the Password and in Verify Password enter the password again for verification. 4. Click OK. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 41 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5 ADMINISTRATIVE OPERATIONS The following administrative operations are described in this section:
User Management defining and changing users and passwords. Viewing the Booster information such as software and hardware versions, serial number. Software upgrade 5.1 User Management This section describes how to perform the user management operations. By default, two users belonging to one of three authentication levels are defined on the Booster. You may add new users, modify or delete existing users. 5.1.1 User Levels Two user levels are available:
Admin has access to all administration and configuration options, including user management. (Default Password admin and default User Name admin.) Operator has access to all configuration options except for the Users list or the Loaders screen. 5.1.2 Viewing the List of Defined Users To display the User Administration pane From the left pane, select Users. The list of users is displayed in the Configuration Pane according to the identifying information and authentication level (Role). Click Users The following table provides a description of the Users dialog options. Figure 5-1. User Administration Pane Option Add User (button) Del(ete) Edit Description Adds a new user with to user defined access level and password. Deletes a selected user from the list. Enables changing the definitions of an existing user. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 42 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5.1.3 Adding Users NOTE: User name and password entries are case sensitive. To add a user 1. From the left pane, select Users. The list of users is displayed in the User's Pane. 2. From the User's Pane, click Add User. The Add User dialog box is displayed. Figure 5-2. Add User 3. Enter the Login Name name used by user to login. 4. Type the user's First Name and Last Name used to identify the user. 5. Select the User Role access level. This defines the operations that the user will be able to perform. 6. Enter the Password and in Verify Password enter the password again for verification. 7. Click OK. 5.1.4 Editing a User To modify user definitions 1. From the left pane, select Users. The list of users is displayed in the User's Pane. 2. Select the User to be edited in the list. 3. Click Edit. The user definitions dialog appears. 4. Make the required changes and click OK. 5.1.5 Deleting a User To delete a user 1. From the left pane, select Users. The list of users is displayed in the User's Pane. 2. Select the User to be deleted in the list. 3. From the User's Pane, click Del. A verification dialog box is displayed. 4. Respond by clicking Yes to delete the User from the list. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 43 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5.2 General Parameters Two panes provide general information and configuration options:
CMU Info tab booster level parameters Band Info tab band level parameters with a dedicated tab per band 5.2.1 Booster Level General Parameters Use the CMU Info screen to do the following:
View the hardware and software versions of the booster Set log level and alarm thresholds To access the CMU Information window 1. In the left pane, select CMU and click the CMU Info tab. 2. You may define the following parameters:
Log Level - sets the minimum fault level that is logged. CMU name identifiable user-defined name. Auto Ack when enabled, alarms are deactivated automatically when the corresponding fault no longer exists
(Other fields provide version and identification information.) Log level Identification information Auto ACK Figure 5-3. CMU Level Info Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 44 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5.2.2 Band Level General Parameters Use the Band Info tab to perform the following operations:
View identification information and build versions View valid filter bandwidth Allocate the number of filters for each Band To access the Booster Information window 1. From the left pane, select the 700-800 item. 2. Select the Band Info tab. The relevant parameters are displayed. Supported bandwidth Select 700 band channels Figure 5-4. Band Level Information 3. To change the number of channels allocated to each band (24 channels for both bands):
Select the number of channels for the 700 band. The remaining available channels (for a total of 24) is allocated to the 800 band. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 45 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5.3 Band-Level Configuration Backup/Restore The Web GUI management application enables the backup and restore of the band level configuration options. A number of configuration files can be stored on the Booster for access and restoring at any time. The procedures are performed via the Backup/Restore tab. 5.3.1 The Backup/Restore Tab To access Backup/Restore tab In the left pane, click the 700-800 item and click the Backup/Restore tab. The following screen appears. Currently saved files
(click link to Save As) Backup and restore operation options Figure 5-5. Backup and Restore The file management buttons provide the following options:
Item Backup Description Backup the currently running configuration file to a selected location. The file will be added to the list. User defined name that will be assigned to the file saved using the Backup file. (Instead of the system assigned name). Select and upload an existing band level configuration file. Deletes the selected file from the list. Refreshes the displayed list of files. Enables uploading a configuration file from another location to the Booster. Click links to download files and save to another location. Remark Restore Delete Refresh Upload File Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 46 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5.3.2 Backup Band Configuration To backup the current configuration 1. In the left pane, click the 700-800 item and then click the Backup/Restore tab. 2. To assign the configuration file a recognizable name, enter a name in the remark field. Otherwise, the file will be assigned a name by the system. 3. Click the Backup button located on the right-hand side of the tab. 4. The file will be added to the table displayed in the Backup/Restore tab. Note: The file name (under File) is a link that enables uploading the file to another location. Currently saved files
(click link to Save As) 2. Click Backup 1. Assign tag Figure 5-6. Backup Booster Info 5.3.3 Restoring Band Configuration To restore previous configuration 1. In the left pane, click the 700-800 item and then click the Backup/Restore tab. 2. Select the required configuration file (enable corresponding radio button) from the available list in the Backup/Restore tab. 3. Click the Restore button. 1. Select configuration file
(radio button) 2. Click Restore. 4. Click on the Control and Params tab and verify that the required configuration settings have been Figure 5-7. Restore Band Configuration restored. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 47 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5.3.4 Uploading Band Configuration File To upload configuration file to Booster 1. In the left pane, click the 700-800 item and then click the Backup/Restore tab. Click Upload and browse Figure 5-8. Upload Configuration File 2. Click the Upload button. 3. Select the file from the Browse dialog and click Open. 4. The file will be listed in the Backup/Restore table. 5.3.5 Saving Configuration File to Computer To save a configuration file from the list to a selected location 1. In the left pane, click the 700-800 item and then click the Backup/Restore tab. Click desired link Figure 5-9. Save File in a Different Location 2. Select file from list. 3. Click the link in the File column. 4. Select the location in the Browse dialog 5.4 Software Upgrade There are two separate software upgrade procedures:
CCD software upgrade procedure Embedded software upgrade procedure Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 48 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 5.4.1 CMU Software Upgrade The procedure described in this section is used to upgrade the repeater CCD. NOTE: This procedure is performed for every new management version. The CMU SW upgrade procedure consists of loading the new software version and installing it in the CMU. The CMU can store two versions on two separate data banks enabling restore to a previous version. To Upgrade the CMU SW 1. If necessary, note the currently loaded CMU SW Version and OS Version by clicking the CMU option in the left pane and selecting the Axell CMU Info tab. CMU Info Tab CMU SW Version and OS Version Figure 5-10. CMU-Info Tab Showing Currently Installed Versions 2. Click the CMU SW Upgrade tab. The Software Upgrade screen appears. c. Click Upload a. Browse for the new file b. Select the Bank for storing the file Figure 5-11. Select File for Uploading Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 49 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 3. Choose and save the new version file onto the Repeater:
Click Choose File, browse for the new software file and click Open (or OK) to upload the file. It will be displayed adjacent to the Choose File button. Select the bank where the file will be stored.
(Before it is populated the bank will be named slot. After it is populated, it will take on the name of the stored software version). Any existing software file will be replaced. Click Upload to save the file to the selected bank (slot). The available software files to choose from will be listed. 4. Choose the required software file and click Install. 5. The Activity Log will indicate status and upgrade completion. 6. Verify the newly updated CMU SW Version and OS Version by clicking the CCD option in the Tree Pane and selecting the Axell CMU Info tab. 5.4.2 Embedded Software Upgrade The procedure described in this section is used to upgrade the embedded software version. To upgrade the embedded software version 1. Note the current software version build currently installed on the repeater, by clicking the Band item in the left pane, and selecting the Band Info tab. Build version Figure 5-12. Band Info Tab Showing Currently Installed Build 2. Upload the file:
From the left pane, click the Band and choose the SW Upgrade tab. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 50 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Browse for file Click Upload File(s) Figure 5-13. Upload Build File Click Choose File and browse for the new file. The new file name will be displayed. Click Upload File(s), and wait to the file to be loaded. 3. Burn the file into the NE:
Click Burn the NE button. Wait for several minutes for the burning process to complete. Upon successful completion, the following type of text will be displayed:
Figure 5-14. Example of Software Update Completed Messages NOTE: If, during the Burning process, communication with the unit was lost, the upgrade process will continue all the same. Until the upgrade process is complete, any attempts to login to the unit will invoke the message Cant perform set. The system is in Software Upgrade mode. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 51 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Figure 5-15. Response to Login Attempt During Upgrade 4. Verify the software version has been updated, by clicking the Band item in the left pane and selecting the Band Info tab. 5. In the left pane, click the 700-800 item and define the RF parameters for each band according to section 4.3. Choose band Available filters for selected band Graphical view of defined filters Figure 5-16. Filter Configuration Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 52 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 6 MONITORING AND TROUBLESHOOTING The Booster provides panel LEDs, external alarms connectors and two types of (WEB GUI) alarm screens used for viewing status and for alerting and troubleshooting the causes of Booster faults or failure. The following sections provide a description of the various alarms, a description of possible faults and corrective actions. In addition, the relevant screens for viewing the alarms are described. 6.1 Booster Panel LEDs Two status LEDs are located on the Booster panel:
Upper LED - UL status for one or two bands Lower LED - DL status for one or two bands UL Status LEDs DL Status LEDs Figure 6-1. UL and DL Status LEDs located on Underside Panel The LEDs provide the following information on status and possible faults:
Color Green Red Description Normal (UL or DL) operation Power failure (in UL or DL) Blinking Orange/red Mute - either user- or system-
initiated.
(System initiated mute may be due to isolation problem or temperature). Corrective Action
-
Corrective action: Turn off the Booster (this action causes a reset of the function), and turn it on anew. If the fault resumes, replace the unit. Check gain of the booster, if gain is minimum, then it is an isolation problem. Improve isolation. Turn OFF the Booster (resets the function), and turn it ON again. If the fault resumes, replace the unit. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 53 6.2 Booster Panel Alarms Connector SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Alarms connector Figure 6-2. UL and DL Status LEDs located on Underside Panel The booster front panel Alarms connector supports the following alarms:
Two dry-contact alarms connected to the Fire Department Control Box:
VSWR Out Alarm (pins 3 and 6) Summary Alarm (pins 7 and 4) Optional: one external alarm that may be connected to one of the dry-contact alarms on the UPS or Battery Charger: EXT Alarm IN (pins 1 and 5) Figure 6-3. Booster Alarm Connector Pinout Pins No. 1 and 5 3 and 6 Signal Name External Alarm #1 optional. Can be used to provide SNMP alarm notification for one of the dry-contact alarms of the UPS or Battery Charger. The alarm setting and description is user configured according to section 4.5 Dry Contact VSWR Alarm. Triggered under one of the following conditions:
Donor antenna cable is disconnected (no load on Donor antenna port);
Service antenna cable is disconnected (no load on Service antenna port), but a DL signal Incompatible VSWR is detected on the UL signal transmitted via the Donor antenna.
(from the BTS) does exist. 4 and 7 Dry Contact Summary Alarm. Triggered under one of the following conditions:
PA current from FF;
Temperature High or Built-In-Test;
Power failure;
No DC power input. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 54 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 6.3 WEB GUI Alarms Screens Three WEB GUI alarms screens are provided:
Band level (700/800) Alarms screen CMU level Alarms screen Alarms log 6.3.1 700-800 Alarms Screen The Alarms tab displays any alarms generated by the band(s). To view the alarms From the left pane, select the 700-800 item and choose the Alarms tab. The relevant alarms are displayed. Acknowledge ALL alarms
(available if system is not configured for auto-
acknowledge) Figure 6-4. Band Level Alarms Status Tab Note the following:
When at fault, each generated alarm is displayed according to the factory set severity value for that alarm, as Minor (yellow), Major (orange) or Critical (red). The alarm settings can be modified via the Alarms Configuration tab. Section 6.5. The Ack All button is available only if the alarms are not configured to be automatically cleared by the system when the corresponding fault exists. The automatic acknowledgment can be modified via the CMU Info tab (see section 5.2.1). If Ack All is available, click it to reset ALL displayed alarms. The alarms are described on the following page Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 55 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Alarm System Mute User Mute Built In Test Temperature Donor Power Too Low
(PAmp) Current RSSI VSWR Fault and most probable cause and Recommendation Description. Generates an alarm when Booster amplification is automatically muted. Possible causes: Temperature failure, Synthesizer failure, Hardware failure, High RSSI power DL/UL when the shutdown mechanizm is on. Recommended action: Check the LED and other alarm from the Booster. Contact Cobham Wireless Support Description: Manual shutdown performed by operator from the Web GUI. Recommended action: Review units log Possible causes: Hardware failure, Circuitry failure, Software failure Recommended action: Contact Cobham Wireless Support Description: Booster temperature is exceedingly high due to excessive external heat. Recommended action: Check the Booster case for external causes (sun, hot environment, air flow is blocked). Eliminate the reason for excessive heat. Description: Signal from the Donor antenna (DL) is too low - relatively to the desired output signal configured by the user. Recommended action:
Check the Donor/Base connections and antenna position. Check the signal level of the Donor/Base antenna. If the alarm is still raised, then you can raise, the value of the DL Output Threshold Delta[dBm] as needed. Description: Power Amplifier current is not within limits (too high or too low). If the Mute option is enabled, then this is not a fault since it indicates low Power Amplifier current caused by the mute. Recommended action: Check the LEDs status in the Booster and Contact Cobham Wireless service support. Description: Generates an alarm when a high donor input signal causes system gain reduction Description: This alarm is triggered when the return loss of the Downlink or Uplink antenna or cable connection exceed the allowed limit. This alarm provides an indication of the status of the cable/antenna connected to the antenna. If a cable/antenna is defective, the VSWR is decreased and the alarm is triggered. Recommended action: Check the cable. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 56 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 6.3.2 CMU Alarms Screen - Activated Alarms The CMU Alarms screen shows any activated Alarms, including any activated dry-contact alarms. To view activated alarms Click on CMU in the left pane and select the CMU Alarms tab. The following screen appears. Figure 6-5. CMU Info Tab Showing Activated Alarms 6.3.3 Alarms Log The CMU maintains log files listing every alarm triggered in the Booster. These are displayed in the Alarms Log screen. This screen provides an analysis tool to get information of any event that has occurred, its originator, when, if they return, and their type. NOTE: Time of occurrence of the events is set according to the Booster clock ( 4.4). To view the CMU log screen:
Click on CMU in the left pane and select the Alarms Log tab. The following screen appears. Figure 6-6. CMU Log Screen Item Time Stamp Source Description Description The date and time the alarm was created ID of Network Element Description of event that caused the alarm Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 57 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 6.4 Faults and Summary of Activated Alarms The table in this section summarizes the fault descriptions and the various alarms generated under the given fault conditions. Depending on the fault, alarms are activated on any of the following interfaces:
External alarms connector connector pinout is described in section 6.2 Axell CMU Alarms screen described in section 6.3.2. Band dedicated (700-800) Alarms screen described in section 6.3.1 NOTE: Alarm connector pin 4&7 and 3&6 are normally closed (no active alarms) and open when an alarm is activated. Fault Description No DC input to the repeater. Activated Alarms External Alarms connector pins 4 and 7 are activated. Donor antenna cable is disconnected
(no load on Donor antenna port) Incompatible VSWR is detected on the UL signal transmitted via the Donor antenna. Two alarms are activated:
On the External Alarms connector - pins 3 and 6 are activated. In the Axell CMU Alarm screen, the VSWR Alarm Base cable disconnected alarm is activated. Four alarms are activated:
On the External Alarms connector - pins 3 and 6 are activated. In the Axell CMU Alarm screen, two alarms are activated:
VSWR Alarm Base cable disconnected VSWR Alarm Uplink In the 700/800 Alarms screen, the VSWR alarm in the Uplink column is activated. Service antenna cable is disconnected
(no load on Service antenna port), but a DL signal (from the BTS) is detected by the Booster. The two alarms below are immediately activated:
In Axell CMU Alarm screen, VSWR Alarm DL. In the 700/800 Alarms screen, the alarm VSWR in the Downlink column is activated. Followed by the activation of this alarm:
On the External Alarms connector - pins 3 and 6. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 58 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL 6.5 Modifying Alarm Severities The Alarms Configuration tab is used to modify the factory set level (minor, major or critical) of specific alarms when they are activated. To modify the Alarm Severities When activated due to a fault, the alarm is displayed in the selected color. The color corresponds to the From the left pane, select 700/800 item and choose the Alarms Configuration tab. alarm level. Each alarm can be set to one of the following levels: Minor (yellow), Major (orange) or Critical (red). Figure 6-7. Modifying Alarm Severities Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 59 APPENDIX A BOOSTER SPECIFICATIONS SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL Electrical Frequency Range:
SMR 700MHz(2) SMR 800MHz(2)(3) Passband Gain Passband Ripple Gain attenuation range Filter BW (SMR 700MHz) (1) Filter BW (SMR 800MHz) (1) Number of supported filters Composite Output PWR SMR 700MHz Composite Output PWR SMR 800MHz PWR RF Input Total
(no damage) Impedance Level VSWR Noise Figure @ Maximum Gain Physical Dimensions W x D x H Weight Enclosure RF Connector Power Power Supply Power Consumption Downlink Uplink 763 - 775 MHz 851 - 869 MHz 793 - 805 MHz 806 - 824MHz 55 to 95 dB Adjustable in 1 dB steps 2.5 dB 2.5 dB 30 dB Programmable 12.5KHz to 75KHz in 12.5KHz steps. Programmable 12.5KHz to 75KHz in 12.5KHz steps. Up to 24 per system
+ 37dBm 3708 models: + 37dBm 4008 models: +40dBm
+10dBm 50 Ohm 1.5:1 maximum
+ 27dBm 3708 model: + 27dBm 4008 models: +28dBm 5.0 dB 21.3 x 15 x 12.3 inches (540 x 382 x 313 mm) 73 lbs. (33kg) Aluminum (NEMA4/IP-66) N-type, Female 36 72 VDC D-MBR 3707 3708 PS NFPA:
D-SBR 3707/3708/4008 PS NFPA:
350W 270W General Compliance Environmental Operating Temperature Humidity IC/FCC
-5 to 122 F (-10 C to +50 C) 10% to 90% Condensed
(1) Every filter above 10MHz utilize 2 FPGA resources
(2) FCC Part 90 is valid ONLY for SMR 700/800 high power Class A booster models supporting up to 10MHz bandwidth as follows: 758 - 775MHz, 788 805MHz, 806 - 817MHz, 851 862MHz;
(3) FCC Part 20 is applied for 800MHz high power Class A Booster models running CMRS services under the following bands: 817 824MHz, 862 869MHz. Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 60 SMR 700 800 HIGH POWER PS NFPA CLASS A SIGNAL BOOSTER PRODUCT DESCRIPTION AND USERS MANUAL APPENDIX B - ORDERING INFORMATION IDENTIFICATION D-MBR 3707-3708 PS with NFPA and Red painted case D-SBR 3707 PS with NFPA and Red painted case D-SBR 3708 PS with NFPA and Red painted case D-SBR 4008 PS with NFPA and Red painted case AC feeder and battery charger DESCRIPTION PART Digital Dual Band, Multi Channel Selective Signal Booster Class A. 700/800 MHz 24 filters, 37dBm composite per band, 95dB gain, DC powering with NFPA and IFC compliant Alarm Outputs and red painted case. Digital Single Band, Multi Channel Selective Signal Booster Class A. 700 MHz 24 filters, 37dBm composite per band, 95dB gain, DC powering with NFPA and IFC compliant Alarm Outputs and red painted case. Digital Single Band Multi Channel Selective Signal Booster Class A. 800 MHz 24 filters, 37dBm composite per band, 95dB gain, DC powering with NFPA and IFC compliant Alarm Outputs and red painted case. Digital Single Band Multi Channel Selective Signal Booster Class A. 800 MHz 24 filters, 40dBm composite per band, 95dB gain, DC powering with NFPA and IFC compliant Alarm Outputs and red painted case. AC feeder and battery charger for 200AH batteries with NFPA and IFC compliant Alarm Outputs and red painted case. NUMBER D-MBR NFPA-DC-CLASS-A 3707-3708-PS-
D-SBR 3707-PS-NFPA-DC-
CLASS-A D-SBR 3708-PS-NFPA-DC-
CLASS-A D-SBR 4008-PS-NFPA-DC-
CLASS-A AC-CHARGER-48V-200AH Cobham Wireless Coverage Doc. No.00068CDUM Date: 22-Dec-16 Rev. 2.3 www.cobham.com/wireless Page | 61
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2017-03-31 | 862 ~ 869 | B2I - Part 20 Industrial Booster (CMRS) | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2017-03-31
|
||||
1 | Applicant's complete, legal business name |
Axell Wireless
|
||||
1 | FCC Registration Number (FRN) |
0007840820
|
||||
1 | Physical Address |
Aerial House Asheridge Road
|
||||
1 |
Aerial House
|
|||||
1 |
Chesham, Bucks, N/A
|
|||||
1 |
United Kingdom
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
c******@telefication.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 |
NEO
|
||||
1 | Equipment Product Code |
DSBR4008CLA
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
P**** B****
|
||||
1 | Title |
Senior Systems Engineer
|
||||
1 | Telephone Number |
+44 1********
|
||||
1 | Fax Number |
+44 1********
|
||||
1 |
p******@axellwireless.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
Hermon Laboratories Ltd.
|
||||
1 | Name |
M**** N********
|
||||
1 | Physical Address |
Harakevet Industrial zone, P.O.Box 23
|
||||
1 |
Israel
|
|||||
1 | Telephone Number |
972 4********
|
||||
1 | Fax Number |
972 4********
|
||||
1 |
n******@hermonlabs.com
|
|||||
app s | Non Technical Contact | |||||
1 | Firm Name |
Axell Wireless
|
||||
1 | Name |
R****** C********
|
||||
1 | Physical Address |
6 Bareket street
|
||||
1 |
Israel
|
|||||
1 | Telephone Number |
972 3********
|
||||
1 | Fax Number |
972 3********
|
||||
1 |
R******@cobham.com
|
|||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 09/24/2017 | ||||
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 | B2I - Part 20 Industrial Booster (CMRS) | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Part 20 Industrial Booster (CMRS) | ||||
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 | Industrial Booster. This device is authorized for use as an Distributed Antenna System (DAS) only. Power Output is maximum single channel conducted. Approval is for a maximum gain of -12.85dBi (antenna + cable loss) as detailed in this filing. The antenna(s) used for this transmitter is to be fixed-mounted on permanent structures providing a separation distance of at least 61.3 cm from all persons during normal operation. RF exposure compliance may need to be addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of §1.1307(b)(3). | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Hermon Laboratories Ltd.
|
||||
1 | Name |
G**** S********
|
||||
1 | Telephone Number |
97246********
|
||||
1 | Fax Number |
+972 ********
|
||||
1 |
G******@HERMONLABS.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 90S | BC | 817 | 824 | 0.44 | Amp | G7D | |||||||||||||||||||||||||||||||||
1 | 2 | 90S | BC | 862 | 869 | 9.95 | Amp | G7D | |||||||||||||||||||||||||||||||||
1 | 3 | 90S | BC | 817 | 824 | 0.43 | Amp | G7W | |||||||||||||||||||||||||||||||||
1 | 4 | 90S | BC | 862 | 869 | 9.04 | Amp | G7W |
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