Rocket science inside. Unrivaled performance outside. AbsoluteAir 2 Manual June 2015 2015 Tarana Wireless, Inc. All rights reserved 2953 Bunker Hill Lane, Suite 100 Santa Clara, CA 95054 USA www.taranawireless.com support@taranawireless.com Tarana Wireless AbsoluteAir User Guide This user guide incorporates features and functions provided with Tarana's AbsoluteAir 2 products. Copyright 2015 by Tarana Wireless All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in any form or by any means, electronic, magnetic, optical, chemical, manual or otherwise, without the prior written permission of Tarana Wireless. To request permission, contact support@taranawireless.com. Warranty Tarana Wireless makes no representation or warranties with respect to the contents hereof and specifically disclaims any implied warranties or merchantability or fitness for any particular purpose. Further, Tarana Wireless reserves the right to revise this publication and to make changes from time to time in the content hereof without obligation of Tarana Wireless to notify any person of such revision or changes. Trademarks All trademarks are the property of their respective owners. Contact Information Sales and Sales Support: Contact Tarana Wireless headquarters, or find your regional sales office at http://www.taranawireless.com/contact. Tarana Wireless 2953 Bunker Hill Lane, Suite 100 Santa Clara, CA 95054 USA
+1. 408.351.4085 Tarana Wireless AbsoluteAir 2 Manual Page 2 of 22 Table of Contents 1 Warnings and Safety Information .............................................................................................................. 4 1.1 General Warnings ................................................................................................................................ 4 1.2 Health and Safety Warning ................................................................................................................. 4 1.3 Warning Labels .................................................................................................................................... 7 2 Package Contents ....................................................................................................................................... 8 3 Product Overview ....................................................................................................................................... 9 3.1 Deployment Configuration ................................................................................................................. 9 3.2 Non-Line-of-Sight, Point-to-Multipoint Backhaul ............................................................................. 10 3.3 Frequency Bands and Frequency Reuse ........................................................................................... 10 3.4 Key Applications ................................................................................................................................ 10 4 Deployment Overview .............................................................................................................................. 11 4.1 Electrical Power ................................................................................................................................. 11 4.2 Power and Data Options ................................................................................................................... 12 5 Pre-Provisioning ....................................................................................................................................... 14 5.1 Required Information for Pre-Provisioning ...................................................................................... 14 5.2 Pre-Provision Using the Command Line Interface ........................................................................... 14 6 Quick Install .............................................................................................................................................. 16 6.1 Verify That Tools are Available ......................................................................................................... 16 6.2 Check Package Contents ................................................................................................................... 17 6.3 Mount the Unit .................................................................................................................................. 17 6.4 Connect Data Cables and Power Up ................................................................................................. 20 7 Regulatory Information ............................................................................................................................ 21 7.1.1 Deployment in the US FCC Statement .................................................................................... 21 7.1.2 Deployment in Canada - Industry Canada Statements ............................................................. 21 Tarana Wireless AbsoluteAir 2 Manual Page 3 of 22 1 Warnings and Safety Information 1.1 General Warnings Failure to observe these safety precautions may result in personal injury or damage to equipment. Use standard safety guidelines when mounting. Installation and maintenance procedures Follow all warnings and instructions marked on this product. must be followed and performed by trained personnel only. Before unmounting the product, disconnect power input to reduce the risk of hazards. Do not exceed 60V of input. Do not open the device. Opening the device voids the warranty. Do not stack anything on the radome. Dust covers must be installed on all connectors when not in use. Cable ends must be protected from weather if not connected to the device. This is a Class 1 laser product. Invisible laser radiation can be emitted from the aperture of the port when no fiber is connected; therefore, avoid exposure to laser radiation and do not stare into open apertures. 1.2 Health and Safety Warning All personnel must comply with the relevant health and safety practices when working on or around the AbsoluteAir radio equipment. The AbsoluteAir system has been designed to meet relevant US and European health and safety standards as outlined in IEC/EN 60950-1/22. AbsoluteAir is a Class B product. It is intended to be used exclusively in telecommunications centers. Local safety regulations must be used if required. Safety instructions in this section should be used in addition to the local safety regulations. In the case of conflict between safety instructions stated herein and those indicated in local regulations, mandatory local norms will prevail. Should local regulations not be mandatory, then safety norms herein will prevail. The following table describes general health and safety information about the AbsoluteAir radio. Table 1. General Health and Safety Information Topic Flammability Hazardous Materials Explanation The equipment is designed and constructed to minimize the risk of smoke and fumes during a fire. No hazardous materials are used in the construction of this equipment. Tarana Wireless AbsoluteAir 2 Manual Page 4 of 22 Hazardous Voltage Safety Signs Surface Temperatures The AbsoluteAir system meets global product safety requirements for safety extra-low voltage (SELV) rated equipment. External warning signs or other indicators on the equipment are not required. The external equipment surfaces become warm during operation, due to heat dissipation. However, the temperatures reached are not considered hazardous. The following table describes the precautions that relate to installing or working on the AbsoluteAir radio. Table 2. Operator Health and Safety Information Topic Equipment Protrusions Explanation The equipment has been designed to be free of unnecessary protrusions or sharp surfaces that may catch or otherwise cause injury during handling. However, always take care when working on or around the equipment. Lifting Equipment Be careful when hoisting or lifting the system during installation or maintenance. The AbsoluteAir product is approximately 5.4 kg (12 lbs) for the CN and EN-HP, 4.9kg (11 lbs) for the EN-SP. Protection from RF Exposure Safety Warnings The AbsoluteAir radio does not generate RF fields intense enough to cause RF burns. However, when installing, servicing or inspecting an antenna, always comply with the Protection from RF Exposure guidelines under General Hazards (Table 3). When a practice or procedure poses implied or potential harm to the user or to the radio equipment, a warning is included in this manual. Tarana Wireless AbsoluteAir 2 Manual Page 5 of 22 The following table describes general hazards that must be addressed when planning and installing an AbsoluteAir system. Table 3. General Hazards Topic Chassis Earthing Protection from RF Exposure Explanation The AbsoluteAir chassis earth must be connected directly to the DC supply system earthing conductor, or to a bonding jumper from an earthing terminal bar, or bus to which the DC supply system earthing is connected. When installing, servicing or inspecting an antenna always comply with the following:
Locate the antenna such that it does not infringe the RF Exposure Limit Distance, relating to the Compliance Boundary General Public. Stay aware of the potential risk of RF exposure and take appropriate precautions. Do not stand in front of or look into an antenna without first ensuring the associated transmitter or transmitters are switched off. At a multi-antenna site ask the site owner or operator for details of other radio services active at the site and for their requirements/recommendations for protection against potentially harmful exposure to RF radiation. When it is not possible to switch transmitters off at a multi-
antenna site and there is potential for exposure to harmful levels of RF radiation, wear a protective suit. Handle optical fibers with care. Keep them in a safe and secure location during installation. Do not attempt to bend them beyond their minimum Fiber Optic Cables Protect/cover unconnected optical fiber connectors with bending radius. dust caps. Grounding Connections Mains Power Supply Routing Maximum Ambient Temperature Mechanical Loading Reliable grounding of the AbsoluteAir chassis must be maintained. AbsoluteAir DC power is not to be routed with any AC mains power lines. They are also to be kept away from any power lines which cross them. The maximum ambient temperature for the AbsoluteAir product is 60 degrees C. To ensure correct operation and to maximize long term component reliability, ambient temperatures must not be exceeded. Operational specification compliance is not guaranteed for higher ambients. AbsoluteAir should be mounted in such a way as to permit the vertical free flow of air through its cooling fins. When installing the AbsoluteAir on a tower, ensure that the tower is securely anchored. Ensure that the additional loading of devices will not cause any reduction in the mechanical stability of the tower. Tarana Wireless AbsoluteAir 2 Manual Page 6 of 22 Topic Power Supply Connection Power Supply Disconnect Rack Mount Temperature Considerations Explanation AbsoluteAir operates from a nominal -48 VDC power supply. An appropriate power supply disconnect device should be provided as part of the installation. AbsoluteAir is designed to operate in an outdoor environment with no significant obstructions in front of the radome. Do not install AbsoluteAir in a closed or multi-unit rack assembly, because such a closed rack would impede the propagation of the RF signals. The maximum ambient temperature applies to the immediate operating environment of the AbsoluteAir product. 1.3 Warning Labels WARRANTY VOID DO NOT BREAK THE TAMPER SEALS ON HARDWARE. DOING SO WILL VOID THE WARRANTY. WARNING Making adjustments and/or modifications to this equipment that are not in accordance with the provisions of this User Guide, the Installation Guide or other supplementary documentation may result in personal injury or damage to the equipment, and may void the equipment warranty. AVERTISSEMENT Tout rglage ou modification faits cet quipement hors du cadre dict par ce guide dutilisation ou par toute autre documentation supplmentaire pourraient causer des blessures ou endommager lquipement et peut entraner lannulation de sa garantie. WARNUNG Die an diesen Gerten gemachte Einstellungen und/oder nderungen, welche nicht gem dieser Bedienungsanleitung, oder gem anderen zustzlichen Anleitungen, ausgefhrt werden, knnen Verletzungen oder Materialschden zur Folge haben und eventuell die Garantie ungltig machen. ATENCIN Llevar a cabo ajustamientos y/o modificaciones a este equipo, sin seguir las instrucciones provistas por este manual u otro documento adicional, podra resultar en lesiones a su persona o daos al equipo, y anular la garanta de este ltimo.
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Tarana Wireless AbsoluteAir 2 Manual Page 7 of 22 2 Package Contents The Tarana AbsoluteAir 2 solution ships with the following. AbsoluteAir 2 Unit Mounting Bracket Kit Mounting Kit Options for pole-size ranges:
6.4 - 11.4 cm 11.4 26.7 cm 26.7 - 35.5 cm Tarana Wireless AbsoluteAir 2 Manual Page 8 of 22 3 Product Overview An AbsoluteAir 2 (AA2) link bridges layer 2 Ethernet traffic across a point-to-point RF communication link and consists of two devices, a Concentrator Node (CN) at the base and an Edge Node (EN) at or near the edge of the network. The CN obtains network synchronization by leveraging an integrated GPS module. Power requirements for both units are modest and can be powered over Ethernet (PoE). As an all-in-one device, AA2 (CN or EN) becomes fully functional upon connection of a power cable and Ethernet. Enclosed in the IP67 housing are printed circuit board assemblies (PCBAs) that contain the IP packet processing and radio electronics coupled to an internal passive antenna for over-the-air transmission. To achieve the highest throughput for particular link conditions,the system dynamically adapts to the best modulation scheme. The system utilizes time division duplex (TDD) radio transmission. The Tarana AA2 system is designed to enable the deployment of inexpensive, high capacity wireless links in difficult non-line-of-sight (NLoS) propagation environments. The system design enables efficient and rapid deployment of 3G and 4G base stations, helping operators to dramatically increase the capacity of their cellular networks while overcoming the backhaul bottleneck. AbsoluteAir products are available for operation in the 2.5-2.7 GHz band and the 3.3-3.8 GHz band as separate SKUs. Figure 1 shows a CN . Figure 1. Concentrator Node
(CN) 3.1 Deployment Configuration Two AA2 devices (CN and EN) make up a complete link. In point-to-multipoint (PMP) scenarios, the system consists of up to four independent point-to-point (PTP) links operating on one frequency channel with the CN devices mounted together at the same location. The CN and EN carry bi-directional Ethernet traffic across the radio link. Tarana Wireless AbsoluteAir 2 Manual Page 9 of 22 3.2 Non-Line-of-Sight, Point-to-Multipoint Backhaul AbsoluteAir products operate in all propagation morphologies and conditions. They operate at the same capacity and link rate regardless of the type of multipath, whether it is characterized as non-
line of sight (NLoS), near line of sight (nLOS), or line of sight (LOS). The advanced signal processing and the state-of-the art antenna technology is able to re-assemble all wavefronts and eliminate destructive fading. The NLoS property frees network operators from deploying point-to-point (PTP) LOS wireless links with large rooftop microwave dishes that must be carefully engineered, sited, and aligned. In point-to-multipoint (PMP) scenarios, the system consists of up to four (4) independent PTP links operating on one frequency channel, with the CN devices mounted together at the same location. All these aggregated backhaul links share the same 10 MHz or 20 MHz radio channel, and operate simultaneously at full rate. This is achieved via advanced mutual interference cancellation between links. Multiple CN devices can be co-located at a given location. The system capacity of this PMP system in 20 MHz is 800 Mbps (first hop). 3.3 Frequency Bands and Frequency Reuse AA2 systems operate using TDD in 10 or 20 MHz of unpaired spectrum, and are available in two licensed frequency bands: the 2496 - 2690 MHz band, the 3400 - 3800 MHz band. The universal frequency reuse pattern allows a single RF channel to be reused for all links in the service area. This is in keeping with the design philosophy to maximize the amount of spectrum available for access and to minimize the amount of spectrum needed for backhaul. 3.4 Key Applications Cellular Backhaul AbsoluteAir products enable cellular carriers to expand their networks in rural and urban areas quickly and cost-effectively, which leads to a lower total cost of ownership. AbsoluteAir systems are ideally suited for a broad range of cellular backhaul deployment scenarios. Using the systems key wireless enhancements, including NLoS, auto-alignment, and interference cancellation, allows carriers to extend network coverage, densify their existing network, and deploy small cells in otherwise challenging environments. IP Backhaul The AbsoluteAir radio series offers a unique, highly scalable and cost-effective backhaul solution. Designed to suit a wide range of topologies, AbsoluteAir is easy to install and maintain, enabling wireless operators to expand their networks and introduce new services to a growing subscriber base. Private Networks AbsoluteAir is the ideal solution for private networks such as enterprises and organizations that want to own and manage their own networks and eliminate recurring charges from local service providers. The cost-effective AbsoluteAir solution enables a variety of organizations to connect geographically dispersed sites at ranges of up to 10 km. Tarana Wireless AbsoluteAir 2 Manual Page 10 of 22 4 Deployment Overview 4.1 Electrical Power Electrical power is supplied to the devices through a 4-pin connector. Usually a red wire in the cable carries the most positive voltage to pin 1 and a black wire in the cable carries the most negative voltage. Table 4 and Figure 2 show the CN and EN electrical interfaces. Table 4. CN and EN Electrical Interfaces Interface Power Ethernet (Electrical) Ethernet (Optical) Console/Maintenance Electrical Ground Specification 1X - Push-pull power connector, 48 VDC, 3 pole, 1.25 A, IP67 2X - Push-pull RJ-45 connector, 1000BaseT, IP67 1X - Push-pull SFP connector, 1000BaseFX or 100/1000BaseT IP67 1X USB port 1X - Standard telecommunications equipment two hole lug (2 X M6) 1X - single hole lug (M6) Figure 2. CN and EN Electrical Interfaces Tarana Wireless AbsoluteAir 2 Manual Page 11 of 22 Pin 1 is +48 V compared to pin 4, or pin 4 is 48 V compared to pin 1. Pin 1 and pin 4 are isolated from the chassis ground, while pin 3 is connected to chassis ground inside the device. Pin 3 of the cable must be connected to earth ground on the other side of the cable. The following figures show the numbering of the pins in the cable connector and the chassis connector. Figure 3. Power Connector, Cable View Figure 4. Power Connector, Chassis View The power supply for the unit is rated at 90 W (1.8 A @ 48 V). The power consumption is a function of the percentage of the time that a unit transmits. For example, for a configuration with DL:UL ratio 1:1, the CN typically consumes 46 W and the EN consumes 38 W. 4.2 Power and Data Options The device has three data connectors. Table 5. Data Connectors Connector Eth1 port Eth2 port Eth3 port (SFP) Power Yes (via Tarana PoE) Yes (via Tarana PoE) No Data Traffic Management Yes Yes Yes Yes (Management by VLAN) Yes (Management by VLAN) Yes (Management by VLAN) Tarana Wireless AbsoluteAir 2 Manual Page 12 of 22 All the 3 Eth ports can be used to bring in Gigabit ethernet traffic for the link. So a variety of 3 different data sources can be multiplexed here. The two Ethernet ports, Eth1 and Eth2 are equipped to provide power over ethernet (PoE) for the device. By bringing in PoE to the device, the power connection through the dedicated power cable(as discussed in the previous section) can be avoided. As a result, to connect the unit to a single data source, the following two ways can be used. 1. Dedicated power and dedicated Data connection 2. Single Data connection connected through PoE By default, Tarana units use the native VLAN 1 for management purposes. So, no dedicated interface formanagement is necessary. Tarana Wireless AbsoluteAir 2 Manual Page 13 of 22 5 Pre-Provisioning The provisioning tasks described in this section can be done before AA2 Units are installed to the field. Map out unit locations and requirements (physical locations, power, and data availability). You can collocate 1 to 4 CN devices on a pole that has network connectivity, and locate the EN devices separately at locations that do not yet have network connectivity. You must locate the EN devices for a given cell closer to the CN devices for that cell than for any other CN nodes in any other cells. To prepare for installation in the field:
1. Complete any network planning and site acquisition activities. 2. Perform the pre-provisioning tasks described in this section. 5.1 Required Information for Pre-Provisioning Center frequency of the channel. Link code. Each CN must have a unique link code, and all EN devices that connect to that CN must have the same link code. Network profile. Use the same network profile for all backhaul nodes in the network, including uplink/downlink ratio and cyclic prefix size. Management interface static IP address/DHCP and any dedicated VLAN for system management by IP. 5.2 Pre-Provision Using the Command Line Interface Note Commands are shown in Bold command font and sample values are shown in Bold Italic. 1. Connect one end of an Ethernet cable to any of the Ethernet ports. Connect the other end of the cable to a laptop. Configure the static IP address 192.168.10.10/24 for the laptop. The default CN or EN IP address is 192.168.10.2. 2. SSH into the device as user operator and password Operator$123.
$ ssh operator@192.168.10.2 3. Enter configuration mode. tws# configure terminal tws(config)#
4. Change password (recommended). tws(config)# user operator password newPassword12 5. Set the mode (master/slave), frequency (MHz) , profile (0) , link code (group-id.set-
id.cell-id.link-id). See Network Link Code Planning for more information on the link code. tws(config)# quick-setup node-mode slave frequency 2515.0 profile 0 link-code 1.0.0.1 Tarana Wireless AbsoluteAir 2 Manual Page 14 of 22 6. Unmute the transmitter. tws(config)# radio tx-opmode on tws(config)# end tws#
7. Verify the settings. 8. XXXX.XXX 1 (5 ms frame at 1:1) 0.0.1.3 XX.X On tws# show radio config cory-mlk-slave# show radio config Carrier Freq, MHz:
Network Profile:
Link Code:
Max Tx Power, dBm:
Tx Op Mode:
.... If the other end of the link is already configured and powered on, you can verify in a couple of minutes if the link has come up(Track). tws# show rf-interface 0 status Link ID:
Link Code:
Link State:
Frame Number:
Link Uptime,:
... 0 0.0.1.3 UP (track) 3819530 40s 9. Save the settings. tws# configure terminal tws(config)# configure save Configuration saved tws(config)# end tws#
10. Configure a static or dynamic IP address. Enter the VLAN configure mode using the default VLAN ID 1 tws(config)# interface vlan 1 For static assignment, modify the following command as needed. The first 4-tuple is the IP address and the second 4-
tuple is the subnet-mask. tws(config-if)# ip address 10.100.10.22 255.255.255.0 For dynamic addressing, use the following command, and verify the MAC address to IP address mapping in the DHCP server. tws(config-if)# ip address dhcp 11. Apply and save the configuration. Connectivity to the device is lost. tws(config)# configure save Configuration saved 12. Power the device down. It is now ready for installation in the field. Tarana Wireless AbsoluteAir 2 Manual Page 15 of 22 6 Quick Install Power and data connection Following pre-provisioning, installation in the field requires only the following:
Hardware mounting Additional configuration, such as quality of service (QoS), can be configured from the EMS or command line interface (CLI). See the CLI User Guide for more information. RF Link optimization Locate up to 4 CN units on a pole that has network connectivity. Locate EN units separately at locations that dont yet have network connectivity. Locate the EN for a cell closer to the CN for that cell than to the CN for any other cell. Follow these guidelines when mapping out device locations and requirements (physical locations, power, and data availability):
Field installation consists of the following tasks:
1. Verify that tools are available 2. Check package contents 3. Mount the unit 4. Connect data cables and power the unit 5. Perform link alignment 6.1 Verify That Tools are Available Required installation tools Two 13mm combination wrenches or one 13mm socket wrench and one 13mm combination wrench One 5mm Allen driver or wrench (for mini bolt clamps) One T9 Pin in Torx driver (console cover screws) One T30 Torx driver (elevation adjustment bracket) Optional tools To field terminate the push-pull cable connector:
Harting 09468000000 Power Cable Contact Crimping Tool Harting 09468000098 Power Cable Contact Removal Tool Harting 09468000099 Power Cable Contact Insertion Tool To field terminate the shielded RJ-45 connector:
Sentinel 900005 RJ-45 Crimping Tool w/900216 die set Tarana Wireless AbsoluteAir 2 Manual Page 16 of 22 6.2 Check Package Contents Verify that the contents of the shipping container match the items listed on the shipping list, including the model numbers and identification of CN and EN units. 6.3 Mount the Unit To allow for proper link alignment, always install the CN prior to installing associated EN units. Position the elevation adjustment bracket on the elevation adjustment plate on the back of the device. Markings on the plate indicate the proper location for up tilt or down tilt orientation. There is only one way to position the bracket for each orientation so that the four mounting holes are aligned. 1. Attach and tighten the elevation adjustment bracket using a Torx T30 screwdriver and four 2. M6 machine screws. Torque these screws to 42-60 in-lb (5-7 Nm). If the pole mount kit has not already been assembled, place one RIPP lock washer in the each of the counter bores of the pole-mount gimbal. Insert the pole-mount gimbal into the pole-
mount bracket and hand tighten using the azimuth adjustment bolt and nut. Tarana Wireless AbsoluteAir 2 Manual Page 17 of 22 3. Slip two Band-It mini bolt clamps through the pole bracket to complete the pole mount kit. 4. Attach the pole mount kit to the pole with the gimbal hook facing upward. To install the mini bolt clamps, insert the band through the slot under the Allen head locking bolt. Pull the band through the slot until nearly tight, then fold over the band at the edge of the locking bolt/slot. Torque the locking bolt with the 5mm Allen wrench to 42-44 in-lb (4.75-5 Nm). Clip off excess band if required. Partially tighten the tension bolt to secure the mini bolt clamp to the pole. Do not tighten completely, as you might want to adjust the location later as part of signal optimization. 5. The node has lifting holes on the elevation adjust plate. To keep the node from falling during installation, use a safety clip with a lanyard to tether the node to the pole structure. 6. Orient the node so that the product label is on the bottom. Position the node on the pole so that the hanger bolt on the elevation adjustment bracket slips onto the gimbal hook. The node should be in maximum downtilt position (regardless of uptilt or downtilt orientation) and hang freely (swivel freely up and down). There will also be some horizontal Tarana Wireless AbsoluteAir 2 Manual Page 18 of 22 give because the azimuth adjustment bolt was only handtightened. When hanging the node, the gimbal must enter the two mechanical stops (a slight uptilt allows the node to be inserted between the two mechanical stops) Verify that the hanger bolt is fully hanging on the gimbal hook. 7. Slide the elevation adjustment bolt through the gimbal and hand tighten. Do not torque the bolt at this time, as you might want to adjust the location later as part of link alignment. After the alignment has been completed, the torque applied to the nuts should be 25 ft-lb (33 Nm). 8. Rotate the node tilt to the desired elevation and hand tighten. Do not torque the bolt at this time, as you might want to adjust the location later as part of link alignment later on. After the alignment has been completed, the torque applied to the nuts should be 25 ft-lb (33 Nm). 9. Hand tighten the hanger bolt. Do not torque the bolt at this time, as you might want to adjust the location later as part of signal optimization. Tarana Wireless AbsoluteAir 2 Manual Page 19 of 22 6.4 Connect Data Cables and Power Up 1. Ground the unit by attaching the grounding wire assembly to the device and to earth ground in accordance with local electrical code requirements. 2. Remove the dust covers from the Power and required ETH ports. Push the data cables in until they click into place. 3. The unit supports 48 VDC or PoE power (see Power and Data Options). If you are using the 48V DC power option, remove the dust cover from the power connector and leave it hanging. Insert the 48 VDC power cable into the node and push until the cable connector clicks into place. (If you need to remove the cable press on the side and pull, no tools are required). 4. Attach the device to external power (48 VDC or PoE). As soon as the unit is connected to a power source, it powers up automatically. Tarana Wireless AbsoluteAir 2 Manual Page 20 of 22 7 Regulatory Information 7.1.1 Deployment in the US FCC Statement This product must be professionally installed. This device complies with FCC Rules for Class B limits. 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. Modifications not expressly approved by Tarana Wireless Inc. could void the user's authority to operate the equipment. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. This device complies with FCC RF exposure limits. This equipment should be installed and operated with a minimum distance of 29 cm (11.4 in.) between the radiator and user. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. 7.1.2 Deployment in Canada
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Industry Canada Statements This product must be professionally installed. Le produit final doit tre install par un professionnel This Class B Digital apparatus meets all the requirements of ICES-003. Cet appareil numrique de la classe B est conforme la norme NMB-003 du Canada. To satisfy IC RF exposure requirements for RF transmit ting devices, the following distances should be maintained between the antenna of this device and persons during device operation: 29cm. IC avertissements d'exposition RF Pour satisfaire les exigencies dIC en ce qui a trait aux expositions aux RF pour RF dispositifs de transmission, les distances suivantes doit tre maintenue entre l'antenne de ce dispositive et des personnes pendant le fonctionnement du dispositif: 29cm. This device has been designed to ensure that radio frequency emissions are maintained within the band of operation under all normal operating conditions listed in this manual. Tarana Wireless AbsoluteAir 2 Manual Page 21 of 22 This device complies with Industry Canada RSS standard(s). Operation is subject to the following two conditions:
1. This device may not cause interference, and 2. This device must accept any interference, including interference that may cause undesired operation of the device Ce dispositif a t conu pour veiller ce que les missions de radiofrquences sont maintenus dans la bande de fonctionnement dans toutes les conditions normales de fonctionnement figurant dans ce manuel. Cet appareil est conforme la norme d'Industrie Canada RSS (s). Son fonctionnement est soumis aux deux conditions suivantes:
1. Cet appareil ne peut pas causer d'interfrences, et. 2. Cet appareil doit accepter toute interfrence, y compris les interfrences qui peuvent causer un mauvais fonctionnement de l'appareil. Tarana Wireless AbsoluteAir 2 Manual Page 22 of 22