REGULATORY USER GUIDE 60 GHz cnWave Products System Release 1.
Accuracy While reasonable efforts have been made to assure the accuracy of this document, Cambium Networks assumes no liability resulting from any inaccuracies or omissions in this document, or from use of the information obtained herein.
Contents Contents ...................................................................................................................................................... 3 Chapter 1: About This User Guide ................................................................................................................ 7 Purpose .................................................................................................................................................... 7 Cross-references .................
Chapter 3: System Hardware...................................................................................................................... 20 Wireless nodes .................................................................................................................................. 20 V1000 Client Node ............................................................................................................................. 20 V3000 Client Node ..................................................
Right to use Cambium’s name ........................................................................................................... 47 Transfer ............................................................................................................................................. 47 Updates ............................................................................................................................................. 47 Maintenance ......................................................
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Chapter 1: About This User Guide This document explains how to deploy the 60 GHz products along with important safety measures. It is intended for use by the system designer, system installer and system administrator. Purpose Cambium Networks 60 GHz products documents are intended to instruct and assist personnel in the operation, installation, and maintenance of the equipment and ancillary devices. It is recommended that all personnel engaged in such activities be properly trained.
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.
European specific information Cambium Networks 60 GHz cnWave™ products are compliant with applicable European Directives required for CE marking: l 2014/53/EU of the European Parliament and of the Council of 16 April 2014 on the harmonisation of the laws of the Member States relating to the making available on the market of radio equipment and repealing Directive 1999/5/EC; Radio Equipment Directive (RED) l 2011/65/EU of the European Parliament and of the Council of 8 June 2011 on the restriction of the
Lightning protection To protect outdoor radio installations from the impact of lightning strikes, the installer must be familiar with the normal procedures for site selection, bonding and grounding. Installation guidelines for the 60 GHz cnWave Family can be found in Chapter 2: System hardware and Chapter 3: System planning.
Security advice Cambium Networks systems and equipment provide security parameters that can be configured by the operator based on their particular operating environment. Cambium recommends setting and using these parameters following industry recognized security practices. Security aspects to be considered are protecting the confidentiality, integrity, and availability of information and assets.
In EU countries The following information is provided to enable regulatory compliance with the European Union (EU) directives identified and any amendments made to these directives when using Cambium equipment in EU countries.
Chapter 2: Product Description Purpose Cambium Networks’ 60 GHz cnWave solution provides easy, fast and cost-effective wireless gigabit connectivity for edge access and/or high-capacity backhaul for edge access solutions at a significantly lower TCO than fiber infrastructure. Service providers and enterprises now have access to Gigabit for business and residential connectivity, backhaul for Wi-Fi access or LTE/5G small cell.
6 2.16 69.12 68.04 70.20 9 4.32 59.40 57.24 61.56 10 4.32 61.56 59.40 63.72 11 4.32 63.72 61.56 65.88 12 4.32 65.88 63.72 68.04 13 4.32 68.04 65.88 70.20 Characteristics of 60 GHz Here are some of the important 60 GHz characteristics: • High Throughput capability With multi-gigabit channel bandwidth, it is possible to gain multi-gigabit capacity, based on 802.11 ad it is possible to get 5 Gbps PHY rate and with 802.11ay it is possible to get 10 Gbps PHY rate.
• Rain Attenuation Drizzle (0.25 mm/hr) 0.2 dB/km Light Rain (2.5 mm/hr) 1.8 dB/km Medium Rain (12.5 mm/hr) 5.6 dB/km Heavy Rain (25 mm/hr) 9.5 dB/km Downpour (50 mm/hr) 17 dB/km Tropical (100 mm/hr) 28 dB/km Monsoon (200 mm/hr) 38 dB/km Short range The max range of 60 GHz links are limited to up to 2 km under best of circumstances. The range gets limited due to oxygen absorption and rain fade which needs to be factored in for link planning.
Hardware overview Cambium Networks 60 GHz solution consists of Distribution Node which act as Access Point but can connect to other DN. V5000 is Dual radio Distribution Node. There are two Client node V3000 and V1000 which act as Subscriber Module , they can also be operated in Point to Point mode. V1000 – Mid Gain Client node 60 GHz cnWave V1000 is featured with wide-range, 80 degrees beamforming for easy installation. It is powered by 802.
V3000 – High Gain Client node 60 GHz cnWave V3000 is featured with a 44.5 dBi high-gain antenna with beamforming. The client nodes can support up to 7.6 Gbps with channel bonding for both PMP and PTP configurations. Figure 4 : V3000 – High Gain Client node Frequency 57 to 66 GHz Modulation BPSK to 16 QAM (MCS 0 to MCS 12) with ACM Throughput l l EIRP 1.9GbpsUplink+1.9bpsDownlink 3.8GbpsUplink+3.8GbpsDownlinkwithchannel bonding* 60.
V5000 – Distribution node 60 GHz cnWave V5000 is featured with two sectors covering up to 280 degrees with beamforming. A single V5000 can connect up to 30 client nodes out of which of the client node can be replaced with distribution nodes. V5000 can be used for PTP, PMP and mesh configurations. Figure 5 : V5000 – Distribution node Frequency 57 to 66 GHz Modulation BPSK to 16 QAM (MCS 0 to MCS 12) with ACM Throughput • • 1.9GbpsUplink+1.9GbpsDownlinkpersector 3.8 Gbps Uplink + 3.
Modulation MCS Modulation Coding Rate L2 Throughput (Mb/s) L2 Throughput (Mb/s) (2.16 GHz Channel) (4.32 GHz Channel) 2 BPSK 1/2 733.0 1466.0 3 BPSK 5/8 914.0 1828.0 4 BPSK 3/4 1085.0 2170.0 5 BPSK 4/5 1175.0 2350.0 6 QPSK 1/2 1421.0 2842.0 7 QPSK 5/8 1748.0 3496.0 8 QPSK 3/4 2059.0 4118.0 9 QPSK 4/5 2221.0 4442.0 10 16-QAM 1/2 2673.0 5346.0 11 16-QAM 5/8 3245.0 6490.0 12 16-QAM 3/4 3737.0 7474.
Chapter 3: System Hardware This chapter describes the hardware components of cnWave product family Wireless nodes. Wireless nodes The 60 GHz cnWave solution includes three types of wireless node: • • • V1000 ClientNode V3000 ClientNode V5000 Distribution Node V1000 Client Node V1000 is an outdoor Client node which can be connected to a distribution node wirelessly. V1000 supports gigabit ethernet interface and is powered by 802.3af/at POE complaint Power supply or a passive POE.
V1000 part numbers Order the V1000 Client Node (CN) from Cambium Networks ("V1000 Client Node part numbers" below). Each V1000 CN is supplied with a mounting bracket for wall mount or pole mount, and an indoor power supply.
V3000 part numbers Order the V3000 Client Node (CN) from Cambium Networks (" V3000 Client Node part numbers" on the next page). The V3000 CN is supplied without a bracket or power supply. See Precision Brackets for details of suitable brackets and power supplies. Note The V3000 CN requires use of a dedicated antenna assembly.
Radio mounting brackets V1000 wall and pole mount The V1000 CN is supplied with a mounting plate and band clamp. The mounting plate can be used for mounting the V1000 on a wall, or it can be used with the band clamp to mount the V1000 on a pole with diameter in the range 40 mm to 77 mm (1.6 inches to 3.0 inches). Figure 4: V1000 mounting plate and band clamp V1000 adjustable pole mount The Adjustable Pole Mount is used to provide elevation adjustment when a V1000 CN is mounted on a pole.
Figure 6: Tilt Bracket Assembly V5000 Wall Mount The Wall Mount ("Wall Mount" below) is used to mount a V5000 DN on a vertical wall. It does not provide azimuth or elevation adjustment. The Wall Mount requires additional fixing hardware suitable for the type of wall.
V5000 Pole Mount The Pole Mount ("Pole Mount" below) is used to mount a V5000 DN on a vertical pole with diameter in the range 25 mm to 80 mm (1.0 inches to 3.1 inches). It provides coarse azimuth (but not elevation) adjustment. Figure 8: Pole Mount V3000 Precision Bracket The Precision Bracket ("Precision Bracket" below and Figure 10) is used to mount the V3000 CN on a vertical pole with diameter in the range 25 mm to 80 mm (1.0 inches to 3.1 inches).
Bracket body Azimuth arm Bracket base Long (120 mm) M8 screws and flange nuts Chapter 3: System Hardware 26
40 mm M8 screws, plain washers and Nyloc nuts V3000 mount 28 mm M6 screws, M8 spacers and pole mount clamp Figure 10: Precision Bracket Components Bracket Part Numbers Order mounting brackets using the Cambium Part Number in " Radio mounting bracket part numbers" below.
Radio Accessories Telescope mounting kit for Precision Brackets An alignment telescope provides the most accurate option for alignment of the Precision Bracket during installation. The telescope is temporarily mounted on the bracket using the Telescope Mounting Kit for Precision Brackets. The Telescope Mounting Kit consists of a mounting plate, a knurled screw and two rubber O-rings. Order the Telescope Mounting Kit from Cambium.
Radio External Interfaces V1000 Client Node Figure 13: External interfaces for V1000 Client Node Table 6: External interfaces V1000 CN Port name Connector Interface Description PSU RJ45 POE input Standard IEEE 802.
Table 7:Externalinterfaces V3000 CN Port Connector Interface Description SFP+ SFP 10GBASE-SR/10GBASE-LR using optional SFP+ module Data and management PSU RJ45 POE input Passive PoE or IEEE name 802.3at AUX RJ45 100/1000/2.5GBASE-T/5GBASE-T/ 10GBASE-T Ethernet Data and management POE output Standard IEEE 802.
Radio specifications The 60 GHz cnWave Radios conform to the specifications listed in " Radio node specifications" on the next page. Table 9: Radio node specifications Category Specification Dimensions V1000 Client Node 140 mm ×85 mm ×40 mm (5.5 in ×3.3 in ×1.6 in) V3000 Client Node 346 mm ×414 mm ×344 mm (13.6 in ×16.3 in ×13.5 V5000 Distribution in) 280 mm ×185 mm ×102 mm (11.0 in ×7.3 in ×4.0 in) Node Weight V1000 Client Node 0.25 kg (0.55 lbs) V3000 Client Node 4.0 kg (8.
Power supply units (PSU) PSU options Select PSUs for 60 GHz cnWave radios according to " PSU selection" below.
Note The Gigabit Power Injector is supplied with the cnWave V1000 Client Node. Order part N000900L017A to obtain spares. Warning Always use an appropriately rated and approved AC supply cord-set in accordance with the regulations of the country of use. V3000, V5000 power over Ethernet The V3000 Client Node and V5000 Distribution Node can be powered using power over Ethernet (PoE) at a nominal 56 V, using the 5 Gbit/s 60 W PoE Injector (N000000L142A) as shown in Figure 21.
V3000, V5000 DC power supply The V3000 Client Node and V5000 Distribution Node can be powered using DC power at a nominal 54 V, using 14 AWG or 16 AWG cable, as shown in "DC power supply to V3000 or V5000" below. Figure 17: DC power supply to V3000 or V5000 The Outdoor PSU can be installed indoors, in an outdoor cabinet, or inside street furniture.
Figure 20: Cable joiner Figure 21: DC to RJ45 Plug Power Adaptor PSU part numbers Order PSUs from Cambium Networks (" Power supply component part numbers" below).
PSU specifications The PSUs conform to the specifications listed in " Outdoor AC/DC PSU, 54VDC" on the next page. Table 12: Outdoor AC/DC PSU, 54VDC Category PSU Specification Dimensions 60 W 171 mm (6.7 in) x 62 mm (2.4 in) x 37 mm (1.5 in) 100 W 220 mm (8.7 in) x 68 mm (2.7 in) x 39 mm (1.
Table 13:PoE, 60W, 56V, 5GbE POE DC Injector (N000000L142A) Category Specification Dimensions 140 mm (5.5 in) x 53mm (2.08 in) x 35 mm (1.37 in) Weight 0.24 Kg (0.5 lbs) Temperature 0°C (32°F) to +50°C (140°F) Humidity 10% to 95 % non-condensing AC Input 90-264 V AC, 47-63 Hz DC Output Voltage 56 V DC Output current 1.
Ethernet and DC cables Maximum cable lengths Ethernet For all cnWave radios, the maximum cable length for data transmission over copper Ethernet (100BASE-TX, 1000BASE-T, 2.5GBASET, 5GBASE-T, 10GBASE-T) is 100 m (328 ft) from the radio to the connected equipment. The maximum cable length for fiber Ethernet (10GBASE-SR, 10GBASE-LR) connections depends on the fiber used. See SFP module kits on page 19 for details of the Ethernet standards supported and maximum permitted cable lengths.
DC power feed The maximum length for supplying power over a CAT6A Ethernet cable is shown in " Maximum cable length for DC power" below.
Cable accessories Figure 23: Standard cable gland Figure 24: Long cable gland Cable accessories available from Cambium Networks are listed in " Cable accessory part numbers" below. Table 20: Cable accessory part numbers Cambiumdescription Cambium part number Cable Gland for 6-9mm cable, M25, Qty 10 C000000L123A Cable Gland Long, M25, Qty 5 C000000L124A Grounding Cable, 0.
SFP module kits SFP module kits allow connection of a V3000 CN or V5000 DN radio to a network over a 10 Gigabit optical Ethernet interface in one of the following full-duplex modes: l 10GBASE-SR l 10GBASE-LR Order SFP+ module kits from Cambium Networks (" SFP module part numbers" below). The SFP+ module must be used with the long cable gland. Table 21: SFP module part numbers Cambiumdescription Cambium part number 10G SFP+ MMF SR Transceiver, 850nm.
Chapter 4: System planning Site planning This section describes factors to be considered when planning the proposed link end sites, including grounding, lightning protection and equipment location for the ODU and PSU. Grounding and lightning protection Warning Electro- magnetic discharge (lightning) damage is not covered under warranty. The recommendations in this guide, when followed correctly, give the user the best protection from the harmful effects of EMD.
Warning Never mount equipment in Zone A. Mounting in Zone A may put equipment, structures and life at risk. Site grounding system Confirm that the site has a correctly installed grounding system on a common ground ring with access points for grounding ODU. If the outdoor equipment is to be installed on the roof of a high building, refer to Installation section.
• Inhighlightning-prone geographical areas, the drop cable shield must be grounded at spacing between 15 to 22 m (50 to 75 ft). This is especially important on towers taller than 45 m (150 ft). For roof installations, use the following additional criteria: • The drop cable shield must be bonded to the building grounding system at its top entry point (usuallyon theroof). • The drop cable shield must be bonded to the building grounding system at the entry point to the equipment room.
Chapter 5: Legal and Regulatory information This chapter provides end user license agreements and regulatory notifications. Caution Intentional or unintentional changes or modifications to the equipment must not be made unless under the express consent of the party responsible for compliance. Any such modifications could void the user’s authority to operate the equipment and will void the manufacturer’s warranty.
IF YOU DO NOT AGREE TO THE TERMS OF THIS AGREEMENT, DO NOT USE THE PRODUCT OR INSTALL THE SOFTWARE. INSTEAD, YOU MAY, FOR A FULL REFUND, RETURN THIS PRODUCT TO THE LOCATION WHERE YOU ACQUIRED IT OR PROVIDE WRITTEN VERIFICATION OF DELETION OF ALL COPIES OF THE SOFTWARE. ANY USE OF THE SOFTWARE, INCLUDING BUT NOT LIMITED TO USE ON THE PRODUCT, WILL CONSTITUTE YOUR ACCEPTANCE TO THE TERMS OF THIS AGREEMENT.
Documentation to any other party without Cambium’s prior written consent; or (v) utilize any computer software or hardware which is designed to defeat any copy protection device, should the Software and Documentation be equipped with such a protection device.
Disclaimer CAMBIUM NETWORKS DISCLAIMS ALL WARRANTIES OF ANY KIND, WHETHER EXPRESS, IMPLIED, STATUTORY, OR IN ANY COMMUNICATION WITH YOU. CAMBIUM NETWORKS SPECIFICALLY DISCLAIMS ANY WARRANTY INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILTY, NONINFRINGEMENT, OR FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE AND DOCUMENTATION ARE PROVIDED “AS IS.
Governing law This Agreement is governed by the laws of the United States of America to the extent that they apply and otherwise by the laws of the State of Illinois. Assignment This agreement may not be assigned by you without Cambium’s prior written consent. Survival of provisions The parties agree that where the context of any provision indicates an intent that it survives the term of this Agreement, then it will survive.
Electromagnetic compatibility (EMC) compliance The EMC specification type approvals that have been granted for 60 GHz cnWave™Platform Family are listed in following table. Table 25 :EMC compliance Region Specification USA FCC Part 15 Class B Canada RSS Gen Europe/International EN 301 489-1 V2.1.1, EN 301 489-17 V3.1.1 Human exposure to radio frequency energy Relevant standards (USA and EC) applicable when working with RF equipment are: • ANSI IEEE C95.
Power density exposure limit Install the radios for the 60 GHz cnWave™Platform Family of wireless solutions so as to provide and maintain the minimum separation distances from all persons. The applicable FCC power density exposure limit for RF energy in the 57 – 66 GHz frequency bands is 10 W/m2. For more information, see Human exposure to radio frequency energy. Calculation of power density The following calculation is based on the ANSI IEEE C95.1-1991 method, as that provides a worst case analysis.
Product V1000 Countries USA, Canada, EIRP (dBm) EIRP Maximum power density (W/m2) Compliance distance (m) (W) 38 6.3 10 0.22 EU V3000 USA, Canada 60 1000 10 2.82 V3000 EU and CEPT 55 316.2 10 1.6 V5000 USA, Canada, 38 6.3 10 0.22 EU Note The regulations require that the power used for the calculations is the maximum power in the transmit burst subject to allowance for source-based time-averaging.
Caution Changes or modifications not expressly approved by Cambium Networks could void the user’s authority to operate the system. Attention Les changements ou modifications non expressément approuvés par les réseaux de Cambium pourraient annuler l'autorité de l'utilisateur à faire fonctionner le système.
Type approvals The system has been tested against various local technical regulations and found to comply. Table 26 to Table 26 list the radio specification type approvals that have been granted for the 60GHz cnWave products. Some of the frequency bands in which the system operates are “license exempt” and the system is allowed to be used provided it does not cause interference. In these bands, the licensing authority does not guarantee protection against interference from other products and installations.
60 GHz cnWave product labels 55
Chapter 6: Installation Safety Warning To prevent loss of life or physical injury, observe the following safety guidelines. In no event shall Cambium Networks be liable for any injury or damage caused during the installation of the Cambium 60 GHz cnWave radio nodes. Ensure that only qualified personnel install 60 GHz cnWave radios. Power lines Exercise extreme care when working near power lines. Working at heights Exercise extreme care when working at heights.
External cables Safety may be compromised if outdoor rated cables are not used for connections that will be exposed to the outdoor environment. Drop cable tester The PSU output voltage may be hazardous in some conditions, for example in wet weather. Do not connect a drop cable tester to the PSU, either directly or via LPUs. RF exposure near the antenna Strong radio frequency (RF) fields will be present close to the antenna when the transmitter is on.
60 GHz cnWave radios and mounting bracket options Mounting bracket options The 60 GHz cnWave series supports eight mounting bracket options. Select the optimum mounting bracket arrangement based on the ODU type and the choice of wall or pole mounting. The wall mount plate for V1000 is included with the ODU. Order the remaining brackets separately.
2. Tighten the ODU grounding bolt to a torque of 5 Nm (3.9 lb ft). Mount the radio on the mast Select the most appropriate bracket mounting arrangement from the options listed in Mounting bracket options on page 5-5.
V1000 wall mount 1. Fix the mounting plate (supplied with the V1000 ODU) securely to a vertical wall, using suitable fixings. Note that fixing hardware is not supplied with the V1000. 2. Slide the V1000 ODU onto the mounting plate from above, ensuring that the spring clip in the mounting plate clicks into place on the radio.
V3000 Tilt bracket assembly 1. Fix the mounting plate of the Tilt Bracket to the back of the radio using four of the short bolts, ensuring that the arrow in the plate points towards the top of the radio. Tighten the four bolts to a torque setting of 5.0 Nm (3.7 lb ft) using a 13 mm spanner or socket. 2. Fit the two long bolts through the bracket body so that the bolt heads engage in the slots as shown. Fit two of the short bolts into the side of the bracket body but do not tighten. 3.
V5000 wall mount bracket 1. Install the mounting plate of the Wall Mount Bracket securely on a vertical wall, using suitable fixings. Note that fixing hardware is not supplied with the Wall Mount Bracket. 2. Fix the bracket body to the back of the radio using the four short M6 bolts, ensuring that the arrow in the plate points towards the top of the radio. Tighten the four bolts to a torque setting of 5.0 Nm (3.7 lb ft) using a 13 mm spanner or socket.
V3000 Precision Bracket 1. Pass two of the long (120 mm) screws through the azimuth arm and the bracket body. The screws locate in the slots in the azimuth arm. 2. Fit two flanged M8 nuts to the long screws on the back of the bracket. Tighten using a 13 mm spanner. 3. Pass the three medium length (40 mm) M8 screws through the bracket base and the V3000 mount. The screws locate in the slots in the bracket base. 4.
6. Pass the two remaining long (120 mm) M8 screws through the bracket body and the azimuth arm. The screws locate in the slots in the bracket body. 7. Ensure that the pivot pin in the azimuth adjuster is located in the circular hole in the bracket body. 8. Fit three sets of spacers, plain washers and M8 Nyloc nuts to the screws on the underside of the bracket base. Tighten using a 13 mm spanner. 9. Attach the V3000 mount to the radio using the four short M6 bolts.
Nm (3.7 lb ft) using a 13 mm spanner or socket. 10. Attach the precision bracket to the pole using the clamp and the remaining flanged nuts. Adjust azimuth approximately and tighten the nuts to 10 Nm (7.4 lbft) using a 13 mm spanner. 11. Align the antenna elevation using the fine elevation adjuster. 12. Align the antenna azimuth using the fine azimuth adjuster. 13. Lock the antenna alignment by tightening the five Nyloc nuts (see Steps 5 and 8) to 10 Nm (7.4 lbft) using a 13 mm spanner or socket.
Precision bracket alignment telescope 1. Attach the telescope mount to the V3000 radio using the knurled screw. 2. Attach the telescope by looping the two elastic O-rings over the ears of the mount, ensuring that the telescope is located securely in the mount.
Attention Do not plug any device other than a PTP 700 ODU into the ODU port of the PSU. Other devices may be damaged due to the non-standard techniques employed to inject DC power into the Ethernet connection between the PSU and the ODU. Do not plug any device other than a Cambium PTP 700 PSU into the PSU port of the ODU. Plugging any other device into the PSU port of the ODU may damage the ODU and device.
Installing the AC/DC PSU • Connect Input side of the AC/DC PSU to AC power line. • Connect the Output side of DC PSU to ODU through Cable joiner and DC mini Adapter Installing the V1000 power injector • Connect the 56V Gigabit Data + Power port to ODU and Gigabit Data port to the network equipment.
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