Cambium PTP 650 Series User Guide System Release 650-01-00
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 About This User Guide .......................................................................................................................... 1 Contacting Cambium Networks .................................................................................................... 1 Purpose ........................................................................................................................................... 2 Cross references ..........................................................
Contents Key features ................................................................................................................................. 1-2 Frequency bands ......................................................................................................................... 1-3 Typical bridge deployment ........................................................................................................ 1-4 Hardware overview ............................................................
Contents Full capability trial period ......................................................................................................... 1-34 Software upgrade ...................................................................................................................... 1-34 Recovery mode .......................................................................................................................... 1-34 Chapter 2: System hardware ...................................................
Contents SFP and Aux Ethernet interfaces ............................................................................................... 3-5 Site planning....................................................................................................................................... 3-8 Grounding and lightning protection.......................................................................................... 3-8 Lightning protection zones .............................................................
Contents IP interface ................................................................................................................................. 3-29 Quality of service for bridged Ethernet traffic ........................................................................ 3-29 “Daisy-chaining” PTP 650 links ............................................................................................... 3-30 Green Ethernet switches.........................................................................
Contents Compliance with safety standards ................................................................................................. 4-23 Electrical safety compliance ..................................................................................................... 4-23 Electromagnetic compatibility (EMC) compliance ................................................................. 4-23 Human exposure to radio frequency energy .......................................................................
Contents Installing the PSU ............................................................................................................................. 5-21 Installing the AC Power Injector .............................................................................................. 5-21 Installing the AC+DC Enhanced Power Injector ..................................................................... 5-22 Installing an SFP Ethernet interface ..............................................................
Contents System Configuration page ..................................................................................................... 6-21 LAN Configuration page ........................................................................................................... 6-24 QoS Configuration page ........................................................................................................... 6-30 SFP Configuration page ..........................................................................
Contents Step 5: Enter Random Number Entropy Input ....................................................................... 6-81 Step 6: Enter Wireless Link Encryption Key ............................................................................ 6-82 Step 7: Enter HTTP and Telnet Settings .................................................................................. 6-83 Step 8: Commit Security Configuration ..................................................................................
Contents Viewing the active channel history .......................................................................................... 7-29 Viewing historic spectrum management metrics .................................................................. 7-30 Barring channels ....................................................................................................................... 7-31 System statistics ..............................................................................................
About This User Guide This guide describes the planning, installation, configuration and operation of the Cambium PTP 650 Series of point-to-point wireless Ethernet bridges. It is intended for use by the system designer, system installer and system administrator.
About This User Guide Important regulatory information Purpose Cambium Networks Point-To-Point (PTP) documents are intended to instruct and assist personnel in the operation, installation and maintenance of the Cambium PTP equipment and ancillary devices. It is recommended that all personnel engaged in such activities be properly trained.
About This User Guide Important regulatory information Important regulatory information The PTP 650 product is certified as an unlicensed device in frequency bands where it is not allowed to cause interference to licensed services (called primary users of the bands). Radar avoidance In countries where radar systems are the primary band users, the regulators have mandated special requirements to protect these systems from interference caused by unlicensed devices.
About This User Guide Important regulatory information Other variants of the PTP 650 are available for use in the rest of the world, but these variants are not supplied to the USA or Canada except under strict controls, when they are needed for export and deployment outside the USA or Canada.
About This User Guide Important regulatory information External antennas When using a connectorized version of the product (as compared to the version with an integrated antenna), the conducted transmit power may need to be reduced to ensure the regulatory limit on transmitter EIRP is not exceeded. The installer must have an understanding of how to compute the effective antenna gain from the actual antenna gain and the feeder cable losses.
About This User Guide Important regulatory information Training The installer needs to have basic competence in radio and IP network installation. The specific requirements applicable to the PTP 650 should be gained by reading Chapter 5: Installation and Chapter 6: Configuration and alignment and by performing sample set ups at base workshop before live deployments.
About This User Guide Problems and warranty Problems and warranty Reporting problems If any problems are encountered when installing or operating this equipment, follow this procedure to investigate and report: 1 Search this document and the software release notes of supported releases. 2 Visit the support website. 3 Ask for assistance from the Cambium product supplier. 4 Gather information from affected units, such as any available diagnostic downloads.
About This User Guide Security advice 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.
About This User Guide Warnings, cautions, and notes Warnings, cautions, and notes The following describes how warnings and cautions are used in this document and in all documents of the Cambium Networks document set. Warnings Warnings precede instructions that contain potentially hazardous situations. Warnings are used to alert the reader to possible hazards that could cause loss of life or physical injury.
About This User Guide Caring for the environment Caring for the environment The following information describes national or regional requirements for the disposal of Cambium Networks supplied equipment and for the approved disposal of surplus packaging. 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 1: Product description This chapter provides a high level description of the PTP 650 product. It describes in general terms the function of the product, the main product variants and the main hardware components. The following topics are described in this chapter: • Overview of the PTP 650 on page 1-2 introduces the key features, typical uses, product variants and components of the PTP 650.
Chapter 1: Product description Overview of the PTP 650 Overview of the PTP 650 This section introduces the key features, typical uses, product variants and components of the PTP 650. Purpose Cambium PTP 650 Series Bridge products are designed for Ethernet bridging over point-to-point microwave links in unlicensed and lightly-licensed frequency bands between 4.9 GHz and 6.0 GHz. Users must ensure that the PTP 650 Series complies with local operating regulations.
Chapter 1: Product description Overview of the PTP 650 Table 1 Main characteristics of the PTP 650 Series Characteristic Value Topology PTP Wireless link condition LOS, near LOS or non-LOS Range Up to 200 km Duplexing TDD (symmetric and asymmetric) Connectivity Ethernet Operating frequencies 4.9 to 6.
Chapter 1: Product description Overview of the PTP 650 Typical bridge deployment The PTP 650 is an “all outdoor” solution consisting of a wireless bridge between two sites. Each site installation consists of an integrated or connectorized outdoor unit (ODU) and a power injector (PSU) (Figure 1). The ODU provides the following interfaces: • PSU port: This provides proprietary power over Ethernet and connection to the management and/or data networks via 100BASE-TX or 1000BASE-T Ethernet.
Chapter 1: Product description Overview of the PTP 650 Hardware overview The main hardware components of the PTP 650 are as follows: • • Outdoor unit (ODU): The ODU is a self-contained transceiver unit that houses both radio and networking electronics. The ODU is supplied in the following product variants: o Integrated or Connectorized: The ODU may be either Integrated (attached to its own flat plate antenna) or connectorized (without an antenna).
Chapter 1: Product description Wireless operation Wireless operation This section describes how the PTP 650 wireless link is operated, including modulation modes, power control and security. Time division duplexing TDD cycle PTP 650 links operate using Time Division Duplexing (TDD). They use a TDD cycle in which the ODUs alternately transmit and receive TDD bursts. The TDD cycle is illustrated in Figure 2. The steps in the cycle are as follows: 1 The TDD master transmits a burst to the TDD slave.
Chapter 1: Product description Wireless operation The propagation delay in Step 2 is necessarily equal to the propagation delay in Step 6, and is determined solely by the link range. There may be added delays between rx and tx on the master and slave to minimize interference, as set up by the link planner or installer. Figure 2 TDD cycle Channel selection The PTP 650 series links are capable of transmitting and receiving on the same channel or on different channels.
Chapter 1: Product description Wireless operation Link mode optimization Link mode optimization allows the PTP 650 link to be optimized according to the type of traffic that will be bridged. The link supports two modes, IP Traffic and TDM Traffic. IP traffic IP Traffic mode is optimized to provide the maximum possible link capacity. IP Traffic mode is an appropriate choice where applications in the bridged networks provide some measure of reliable transmission, and where very low latency is not critical.
Chapter 1: Product description Wireless operation Adaptive mode is not available in the following configurations: • When link mode optimization is set to TDM Traffic (see Link mode optimization on page 1-8). • In regions where radar avoidance is operational (see Radar avoidance on page 1-12). • When the ODU is not a Full variant. OFDM and channel bandwidth The PTP 650 series transmits using Orthogonal Frequency Division Multiplexing (OFDM).
Chapter 1: Product description Wireless operation Measurement analysis Spectrum Management uses statistical analysis to process the received peak and mean measurement. The statistical analysis is based on a fixed, one minute, measurement quantization period. Spectrum Management collects data for the specified quantization period and only at the end of the period is the statistical analysis performed.
Chapter 1: Product description Wireless operation Note PTP LINKPlanner includes an estimate of mean data rate, the data rate provided by each modulation and the percentage of time spent in each modulation mode. MIMO Multiple-Input Multiple-Output (MIMO) techniques provide protection against fading and increase the probability that the receiver will decode a usable signal.
Chapter 1: Product description Wireless operation Dynamic spectrum optimization The PTP 650 series uses an interference mitigation technique known as Dynamic Spectrum Optimization (DSO). Both the Master and Slave continually monitor for interference on all channels and then select the best frequency of operation. This is a dynamic process where the PTP 650 can continually move channels in response to changes in interference.
Chapter 1: Product description Wireless operation Note Fixed frequency allocation is not recommended in radar avoidance regions, as any radar detection would cause a system outage of at least 30 minutes. Encryption The PTP 650 supports optional encryption for data transmitted over the wireless link. The encryption algorithm used is the Advanced Encryption Standard (AES) with 128-bit and 256-bit key size. AES is a symmetric encryption algorithm approved by U.S.
Chapter 1: Product description Wireless operation PTP networks Using Dynamic Spectrum Optimization The Dynamic Spectrum Optimization (DSO) feature allows a PTP 650 unit to select wireless channels for a lower level of radio frequency (RF) interference. This approach is appropriate where the network consists of a small number of PTP links, or where the RF interference is predominantly from equipment belonging to other operators.
Chapter 1: Product description Ethernet bridging Ethernet bridging This section describes how the PTP 650 processes Ethernet data, in both the customer and system management networks. Ethernet ports The PTP 650 Series ODU has three Ethernet ports: • Main PSU: The Main PSU port provides a copper Ethernet interface for 100BASE-TX and 1000BASE-T, and accepts power from the AC+DC Enhanced Power Injector or the AC Power Injector to the ODU using a proprietary power over Ethernet (PoE) method.
Chapter 1: Product description Ethernet bridging Customer data network Transparent Ethernet service The PTP 650 Series provides an Ethernet service between one of the Ethernet ports at a local ODU and one of the Ethernet ports at an associated remote ODU. The Ethernet service is based on conventional layer two transparent bridging, and is equivalent to the Ethernet Private Line (EPL) service defined by the Metro Ethernet Forum (MEF).
Chapter 1: Product description Ethernet bridging Quality of service for bridged Ethernet traffic The PTP 650 Series supports eight traffic queues for Ethernet frames waiting for transmission over the wireless link. Ethernet frames are classified by inspection of the Ethernet priority code point in the outermost VLAN tag, the Differentiated Services Code Point (DSCP) in an IPv4 or IPv6 header, or the Traffic Class in an MPLS header.
Chapter 1: Product description Ethernet bridging Network management IPv4 and IPv6 interfaces The PTP 650 ODU contains an embedded management agent with IPv4 and IPv6 interfaces. Network management communication is exclusively based on IP and associated higher layer transport and application protocols. The default IPv4 address of the management agent is 169.254.1.1. There is no default IPv6 address. The PTP 650 does not require use of supplementary serial interfaces.
Chapter 1: Product description Ethernet bridging The Port Allocation options described in Ethernet ports on page 1-15 allow for several combinations of in-band and out-of-band local management as shown in Figure 3, Figure 4 and Figure 5. Figure 3 shows a single port allocated to Data and In-Band Management. The in-band management might be connected to a network management center or to a management terminal of an installer or technician.
Chapter 1: Product description Ethernet bridging Figure 5 shows a combination of in-band and out-of-band local management. Here, the out-ofband local port might be used to connect a management terminal of an installer or technician, whilst the in-band management is connected to a network management center.
Chapter 1: Product description Ethernet bridging Ethernet loopback mode PTP 650 provides a local Ethernet loopback function that can be used to loop traffic between the Aux Port and one of the other Ethernet ports. Loopback is intended to assist in the commissioning of a camera or other auxiliary device collocated with the PTP 650 ODU.
Chapter 1: Product description Ethernet bridging Figure 6 Protocol layers between Ethernet and wireless interfaces Figure 7 Protocol layers between external interfaces and the management agent Page 1-22
Chapter 1: Product description System management System management This section introduces the PTP 650 management system, including the web interface, installation, configuration, alerts and upgrades. Management agent PTP 650 equipment is managed through an embedded management agent. Management workstations, network management systems or PCs can be connected to this agent using a choice of in-band or out-of-band local modes. These modes are described in detail in Network management on page 1-18.
Chapter 1: Product description System management IPv6 The PTP 650 management agent supports the following IPv6 features: Neighbor discovery PTP 650 supports neighbor discovery for IPv6 as specified in RFC 4861 including: • Neighbor un-reachability detection (NUD), • Sending and receiving of neighbor solicitation (NS) and neighbor advertisement (NA) messages, • Processing of redirect functionality. PTP 650 sends router solicitations, but does not process router advertisements.
Chapter 1: Product description System management DHCPv6 PTP 650 does not support address assignment using DHCPv6. The address of the management agent must be configured statically. Multicast listener discovery for IPv6 The PTP 650 management agent supports Multicast Listener Discovery version 1 (MLDv1) as specified in RFC 2710. PTP 650 does not support Multicast Listener Discovery version 2 (MLDv2).
Chapter 1: Product description System management • Installation: The Installation Wizard is used to install license keys, configure the PTP 650 wireless interface and to arm the unit ready for alignment. • Management: These web-pages are used to configure the network management interfaces. • Security: The Security Wizard is used to configure the HTTPS/TLS interface and other security parameters such as the AES wireless link encryption key and the key of keys for encrypting CSPs on the ODU.
Chapter 1: Product description System management Identity-based user accounts The PTP 650 web-based interface provides two methods of authenticating users: • Role-based user authentication allows the user, on entry of a valid password, to access all configuration capabilities and controls. This is the default method. • Identity-based user authentication supports up to 10 users with individual usernames and passwords.
Chapter 1: Product description System management PTP 650 RADIUS supports the standard Service Type attribute to indicate authentication roles of System Administrator and Read Only together with a vendor specific attribute to indicate authentication roles of Security Officer, System Administrator, and Read Only. Remote authentication can be used in addition to local authentication, or can be used as a replacement for local authentication.
Chapter 1: Product description System management SNMPv3 security SNMP Engine ID PTP 650 supports four different formats for SNMP Engine ID: • MAC address • IPv4 address • Configurable text string • IPv6 address SNMPv3 security configuration is re-initialized when the SNMP Engine ID is changed.
Chapter 1: Product description System management MIB-based management of SNMPv3 security PTP 650 supports a standards-based approach to configuring SNMPv3 users and views through the SNMP MIB. This approach provides maximum flexibility in terms of defining views and security levels appropriate for different types of user. PTP 650 provides a default SNMPv3 configuration. This initial configuration is not secure, but it provides the means by which a secure configuration can be created using SNMPv3.
Chapter 1: Product description System management Web-based management of SNMPv3 security PTP 650 supports an alternative, web-based approach for configuring SNMPv3 security. In this case, the web-based interface allows users to specify SNMPv3 users, security levels, privacy and authentication protocols, and passphrases.
Chapter 1: Product description System management System logging (syslog) PTP 650 supports the standard syslog protocol to log important configuration changes, status changes and events. The protocol complies with RFC 3164. PTP 650 creates syslog messages for configuration changes to any attribute that is accessible via the web-based interface, or via the enterprise MIB at the SNMP interface.
Chapter 1: Product description System management • 128-bit: This allows an operator to encrypt all traffic sent over the wireless link using 128-bit encryption. • 256-bit: This allows an operator to encrypt traffic using either 128-bit or 256-bit encryption. Encryption must be configured with the same size key in each direction. AES encryption at the PTP 650 wireless port is based on pre-shared keys. An identical key must be entered at each end of the link.
Chapter 1: Product description System management Full capability trial period A full capability trial period is available for units that are licensed for “Lite” (up to 125 Mbps) or “Mid” (up to 250 Mbps) data throughput capability. This trial allows the ODU to operate with “Full” capability (up to 450 Mbps) during a 60 day period, reverting to the Lite or Mid capability afterwards. The trial period can be started, paused and resumed from the web interface.
Chapter 1: Product description System management Note When Recovery has been entered through a power on/off/on cycle, the ODU will revert to normal operation if no web access has been made to the unit within 30 seconds. This prevents the unit remaining inadvertently in recovery following a power outage. Recovery mode options Options in recovery mode (IPv4 only) are as follows: • Load new main application software. • Reset all configuration data.
Chapter 2: System hardware This chapter describes the hardware components of a PTP 650 link.
Chapter 2: System hardware Outdoor unit (ODU) Outdoor unit (ODU) ODU description The ODU is a self-contained transceiver unit that houses both radio and networking electronics. The ODU is supplied in two configurations: An integrated ODU attached to either 23dBi (PTP 650) or 19dBi (PTP 650s) flat plate antenna, and a connectorized ODU intended to work with separately mounted external antennas.
Chapter 2: System hardware Outdoor unit (ODU) ODU part numbers One ODU is required for each link end. Order ODUs and ODU kits from Cambium Networks (Table 2 and Table 3). Note To determine when to install connectorized units and to calculate their impact on link performance and regulatory limits, see Planning for connectorized units on page 3-25. To select antennas, RF cables and connectors for connectorized units, see Antennas and antenna cabling on page 2-15.
Chapter 2: System hardware Outdoor unit (ODU) Cambium description Cambium part number PTP 650s (4.9 to 6.05 GHz) Integrated ODU (RoW) C050065B016 PTP 650 (4.9 to 6.05 GHz) Integrated ODU (EU) C050065B005 PTP 650 (4.9 to 6.05 GHz) Connectorized ODU (EU) C050065B006 PTP 650s (4.9 to 6.
Chapter 2: System hardware Outdoor unit (ODU) Cambium description Cambium part number PTP 650s Integrated END with AC+DC Enhanced Supply (RoW) C050065H025 PTP 650s Integrated END with AC Supply (EU) C050065H026 PTP 650s Integrated END with AC+DC Enhanced Supply (EU) C050065H027 Accessories Spare ODU port blanking plugs are available from Cambium Networks (Table 4).
Chapter 2: System hardware Outdoor unit (ODU) Figure 9 ODU mounting brackets (integrated, connectorized and extended) Page 2-6
Chapter 2: System hardware Outdoor unit (ODU) Table 5 ODU mounting bracket part numbers Pole diameter ODU type Cambium description Cambium part number From 50 to 75 mm (2 to 3 inches) Integrated PTP 650 Mounting Bracket (integrated) N000065L031 Connectorized PTP 650 Mounting Bracket (connectorized) N000065L032 Either 90 mm (3.5 inches) or 115 mm (4.5 inches) Integrated and connectorized Extended Diameter Mast mounting kit 3.5” and 4.
Chapter 2: System hardware Outdoor unit (ODU) Table 6 ODU rear interfaces Port name Connector Interface Description PSU RJ45 POE input Proprietary power over Ethernet (POE). 100/1000BASE-T Ethernet Management and/or data. AUX RJ45 100/1000BASE-T Ethernet with 802.3at compliant POE out capability Auxiliary Ethernet port which can be used, for example, to connect and power a video camera or wireless access point.
Chapter 2: System hardware Outdoor unit (ODU) ODU specifications The PTP 650 ODU conforms to the specifications listed in Table 7. Table 7 ODU specifications Category Specification Dimensions 23 dBi integrated: 371 mm (14.6 in) x 371 mm (14.6 in) x 81 mm (3.2 in) 19 dBi integrated: Connectorized: 204 mm (8.0 in) x 318 mm (12.5 in) x 90 mm (3.5 in) Weight 23 dBi integrated: 4.1 Kg (9.0 lbs) including bracket 19 dBi integrated: Connectorized: 3.1 Kg (6.
Chapter 2: System hardware Power supply units (PSU) Power supply units (PSU) PSU description The PSU is an indoor unit that is connected to the ODU and network terminating equipment using Cat5e cable with RJ45 connectors. It is also plugged into an AC or DC power supply so that it can inject Power over Ethernet (POE) into the ODU. Choose one of the following PSUs (Figure 12): • The AC Power Injector (left) accepts an AC input supply only.
Chapter 2: System hardware Power supply units (PSU) PSU part numbers Order PSUs and (for AC power) line cords from Cambium Networks (Table 8).
Chapter 2: System hardware Power supply units (PSU) AC+DC Enhanced Power Injector interfaces The AC+DC Enhanced Power Injector interfaces are shown in Figure 14 and described in Table 10. Figure 14 AC+DC Enhanced Power Injector interfaces Table 10 AC+DC Enhanced Power Injector interface functions Interface Function 100-240V 47-63Hz 1.5A AC power input (main supply). DC In Alternative DC power supply input. DC Out DC power output to a second PSU (for power supply redundancy).
Chapter 2: System hardware Power supply units (PSU) PSU specifications The PTP 650 AC Power Injector conforms to the specifications listed in Table 11. The PTP 650 AC+DC Enhanced Power Injector conforms to the specifications listed in Table 12. Table 11 AC Power Injector specifications Category Specification Dimensions 137 mm (5.4 in) x 56 mm (2.2 in) x 38 mm (1.5 in) Weight 0.240 Kg (0.
Chapter 2: System hardware Power supply units (PSU) Table 12 AC+DC Enhanced Power Injector specifications Category Specification Dimensions 250 mm (9.75 in) x 40 mm (1.5 in) x 80 mm (3 in) Weight 0.864 Kg (1.
Chapter 2: System hardware Antennas and antenna cabling Antennas and antenna cabling Antenna requirements Each connectorized ODU requires one external antenna (normally dual-polar), or if spatial diversity is required, each ODU requires two antennas. These antennas are not supplied by Cambium Networks. For connectorized units operating in the USA or Canada 4.9 GHz, 5.2 GHz, 5.4 GHz or 5.8 GHz bands, choose external antennas from those listed in FCC and IC approved antennas on page 2-16.
Chapter 2: System hardware Antennas and antenna cabling Antenna accessories Connectorized ODUs require the following additional components: • Cable grounding kits: Order one cable grounding kit for each grounding point on the antenna cables. Refer to Cable grounding kit on page 2-30 for specifications and part numbers. • Self-amalgamating and PVC tape: Order these items to weatherproof the RF connectors.
Chapter 2: System hardware Antennas and antenna cabling Antennes approuvées par la FCC et IC Pour les unités sans antenne intégrée destinées aux Etats-Unis ou au Canada, choisissez des antennes externes dans la Table 14 (4.9 GHz), Table 15 (5.2 GHz), Table 16 (5.4 GHz) ou la Table 17 (5.8 GHz). Celles-ci sont approuvées par la FCC pour une utilisation avec le produit et sont limitées pour les antennes paraboliques a polarisation simple ou double comme suit: • 4.9 GHz – 36.
Chapter 2: System hardware Manufacturer Antennas and antenna cabling Antenna type Nominal gain (dBi) Parabolic dish Cambium part number SPD4-4.7 RadioWaves Radio Waves 4-foot Parabolic, SP4-4.7 32.6 Y N000000D002A RadioWaves Radio Waves 4-foot Dual-Pol Parabolic, SPD4-5.2 32.6 Y RDH4505B RadioWaves Radio Waves 4-foot Dual-Pol Parabolic, HPD4-5.2NS 32.6 Y RDH4510B RadioWaves Radio Waves 4-foot Parabolic, SP4-5.2 32.6 Y RadioWaves Radio Waves 4-foot Dual-Pol Parabolic, HPD4-4.7 32.
Chapter 2: System hardware Antennas and antenna cabling Manufacturer Antenna type Nominal gain (dBi) Parabolic dish Cambium part number RadioWaves Radio Waves 2-foot Dual-Pol Parabolic, SPD2-4.7 26.6 Y RDH4499A RadioWaves Radio Waves 2-foot Parabolic, SP2-4.7 26.6 Y N000000D001A RadioWaves Radio Waves 2-foot Dual-Pol Parabolic, HPD2-4.7 26.4 Y RDH4518A MARS MA-WS54-50R Flat Plate (Dual-Pol) 23 N Integrated Andrew Andrew 1.
Chapter 2: System hardware Antennas and antenna cabling Manufacturer Antenna type Nominal gain (dBi) Parabolic dish Gabriel Gabriel 4-foot Standard Dual QuickFire Parabolic, QFD4-52-N 34.7 Y Gabriel Gabriel 4-foot Standard Dual QuickFire Parabolic, QFD4-52-N-RK 34.7 Y RadioWaves Radio Waves 4-foot Dual-Pol Parabolic, HPD4-5.2NS 34.7 Y Gabriel Gabriel 4-foot High Performance QuickFire Parabolic, HQF4-52-N 34.4 Y RadioWaves Radio Waves 4-foot Dual-Pol Parabolic, SPD4-5.2 34.
Chapter 2: System hardware Antennas and antenna cabling Manufacturer Antenna type Nominal gain (dBi) Parabolic dish Cambium part number RadioWaves Radio Waves 2-foot Dual-Pol Parabolic, HPD2-5.2NS 28.8 Y RDH4508B Gabriel Gabriel 2-foot Standard QuickFire Parabolic, QF2-52-N 28.5 Y Gabriel Gabriel 2-foot Standard QuickFire Parabolic, QF2-52-N-RK 28.5 Y MTI MTI 2-foot Dual-Pol, MT-486013/N 28.5 Y MTI MTI 2-foot Single-Pol, MT-466009/N 28.
Chapter 2: System hardware Antennas and antenna cabling Table 16 Antennas permitted for deployment in USA/Canada – 5.4 GHz Manufacturer Antenna type Nominal gain (dBi) Parabolic dish Cambium part number Andrew Andrew 4-foot Dual-Pol Parabolic, PX4F-52 34.9 Y RDG4453B Andrew Andrew 4-foot Parabolic, P4F-52 34.9 Y RDH4524A Gabriel Gabriel 4-foot Standard QuickFire Parabolic, QF4-52-N 34.8 Y Gabriel Gabriel 4-foot Standard QuickFire Parabolic, QF4-52-N-RK 34.
Chapter 2: System hardware Manufacturer Antennas and antenna cabling Antenna type Nominal gain (dBi) Parabolic dish Cambium part number RDH4504B Parabolic, QFD2.5-52-N RadioWaves Radio Waves 3-foot Dual-Pol Parabolic, SPD3-5.2 31.1 Y Andrew Andrew 2-foot Dual-Pol Parabolic, PX2F-52 29.4 Y Andrew Andrew 2-foot Parabolic, P2F-52 29.4 Y MTI MTI 3-foot Single-Pol, MT-487000/N 29 Y RadioWaves Radio Waves 2-foot Parabolic, SP2-5.
Chapter 2: System hardware Manufacturer Antennas and antenna cabling Antenna type Nominal gain (dBi) Parabolic dish Cambium part number Integrated 4-1 MARS Small Form Factor Flat Plate Antenna MAEM56-DP19CM. 19 N Laird 60 Sectorized (Dual-Pol) 17 N Laird 90 Sectorized (Dual-Pol) 17 N KPPA OMNI (Dual-Pol) 13 N Table 17 Antennas permitted for deployment in USA/Canada – 5.
Chapter 2: System hardware Antennas and antenna cabling Manufacturer Antenna type Nominal gain (dBi) Parabolic dish Gabriel Gabriel 4-foot Standard QuickFire Parabolic, QF4-52-N-RK 34.8 Y RadioWaves Radio Waves 4-foot Parabolic, SP4-5.2 34.8 Y Gabriel Gabriel 4-foot Standard Dual QuickFire Parabolic, QFD4-52-N 34.7 Y Gabriel Gabriel 4-foot Standard Dual QuickFire Parabolic, QFD4-52-N-RK 34.7 Y RadioWaves Radio Waves 4-foot Dual-Pol Parabolic, HPD4-5.2NS 34.
Chapter 2: System hardware Antennas and antenna cabling Manufacturer Antenna type Nominal gain (dBi) Parabolic dish Andrew Andrew 2-foot Parabolic, P2F-52 29.4 Y MTI MTI 3-foot Single-Pol, MT-487000/N 29 Y RadioWaves Radio Waves 2-foot Parabolic, SP2-5.2 29 Y RadioWaves Radio Waves 2-foot Dual-Pol Parabolic, HPD2-5.2NS 28.8 Y Gabriel Gabriel 2-foot Standard QuickFire Parabolic, QF2-52-N 28.5 Y Gabriel Gabriel 2-foot Standard QuickFire Parabolic, QF2-52-N-RK 28.
Chapter 2: System hardware Antennas and antenna cabling Manufacturer Antenna type Nominal gain (dBi) Parabolic dish Cambium part number MARS Small Form Factor Flat Plate Antenna MAEM56-DP19CM.
Chapter 2: System hardware Ethernet cabling Ethernet cabling Ethernet standards and cable lengths All configurations require a copper Ethernet connection from the ODU (PSU port) to the PSU. Advanced configurations may also require one or both of the following: • A copper Ethernet connection from the ODU (Aux port) to an auxiliary device. • An optical or copper Ethernet connection from the ODU (SFP port) to network terminating equipment or a linked ODU.
Chapter 2: System hardware Ethernet cabling Table 19 Aux and copper SFP Ethernet standards and cable length restrictions ODU drop cable Power over Ethernet Ethernet supported (*1) Maximum cable length (*2) Aux – auxiliary device POE to auxiliary device 100BASE-TX 1000BASE-T 100 m (330 ft) None 100BASE-TX 100 m (330 ft) None 100BASE-TX 100 m (330 ft) SFP (copper) – linked device (*1) 10BASE-T is not supported by PTP 650.
Chapter 2: System hardware Ethernet cabling Table 20 Drop cable part numbers Cambium description Cambium part number 1000 ft Reel Outdoor Copper Clad CAT5E WB3175 328 ft (100 m) Reel Outdoor Copper Clad CAT5E WB3176 Cable grounding kit Copper drop cable shields must be bonded to the grounding system in order to prevent lightning creating a potential difference between the structure and cable, which could cause arcing, resulting in fire risk and damage to equipment.
Chapter 2: System hardware Ethernet cabling Lightning protection unit (LPU) and grounding kit PTP 650 LPUs provide transient voltage surge suppression for PTP 650 installations. Each PSU or Aux drop cable requires two LPUs, one near the ODU and the other near the linked device, usually at the building entry point (Table 22).
Chapter 2: System hardware Ethernet cabling One LPU and grounding kit (Table 22) is required for the PSU drop cable connection to the ODU. If the ODU is to be connected to an auxiliary device, one additional LPU and grounding kit is required for the Aux drop cable. Order the kits from Cambium Networks (Table 23).
Chapter 2: System hardware Ethernet cabling Table 24 RJ45 connector and spare gland part numbers Cambium description Cambium part number Tyco/AMP, Mod Plug RJ45, 100 pack WB3177 Tyco/AMP Crimp Tool WB3211 RJ-45 Spare Grounding Gland - PG16 size (Qty. 10) N000065L033 Cable hoisting grip One or more grips are required for hoisting the drop cable up to the ODU without damaging the gland or RJ45 plug (Figure 18). They are not supplied by Cambium Networks.
Chapter 2: System hardware Ethernet cabling Drop cable tester The drop cable tester is an optional item for testing the resistances between the RJ45 pins of the drop cable (Figure 19). Order it by completing the order form on the support website (see Contacting Cambium Networks on page 1). Figure 19 Drop cable tester Indoor Cat5e cable To connect the PSU to network terminating equipment, use indoor Cat5e cable.
Chapter 2: System hardware Ethernet cabling SFP module kits SFP module kits allow connection of a PTP 650 Series ODU to a network over a Gigabit Ethernet interface in one of the following full-duplex modes: • Optical Gigabit Ethernet: 1000BaseLX or 1000BaseSX • Copper Gigabit Ethernet: 100BASE-TX or 1000BASE-T Order SFP module kits from Cambium Networks (Table 25).
Chapter 2: System hardware Ethernet cabling The upgrade kits contain the following components: • Optical or copper SFP transceiver module (Figure 20) • Long EMC strain relief cable gland (Figure 21) • The PTP 650 Series SFP Interface Upgrade Guide • License key instructions and unique Access Key Figure 20 Optical or copper SFP transceiver module Figure 21 Long cable gland Page 2-36
Chapter 2: System hardware Ethernet cabling Optical cable and connectors Order an optical cable with LC connectors from a specialist fabricator, quoting the specification shown in Figure 22. It must be the correct length to connect the ODU to the other device. LC connectors should be supplied with dust caps to prevent dust build up.
Chapter 3: System planning This chapter provides information to help the user to plan a PTP 650 link. The following topics are described in this chapter: • Typical deployment on page 3-2 contains diagrams illustrating typical PTP 650 site deployments. • Site planning on page 3-8 describes factors to be considered when planning the proposed link end sites, including grounding, lightning protection and equipment location.
Chapter 3: System planning Typical deployment Typical deployment This section contains diagrams illustrating typical PTP 650 site deployments. ODU with POE interface to PSU In the basic configuration, there is only one Ethernet interface, a copper Cat5e power over Ethernet (POE) from the PSU to the ODU (PSU port), as shown in the following diagrams: mast or tower installation (Figure 23 ), wall installation (Figure 24) and roof installation (Figure 25).
Chapter 3: System planning Typical deployment Figure 24 Wall installation Page 3-3
Chapter 3: System planning Typical deployment Figure 25 Roof installation Page 3-4
Chapter 3: System planning Typical deployment SFP and Aux Ethernet interfaces There may be one or two additional Ethernet interfaces connected to the ODU: one to the SFP port (copper or optical) and one to the Aux port, as shown in the following diagrams: • ODU with copper SFP and PSU interfaces – Figure 26 • ODU with optical SFP and PSU interfaces – Figure 27 • ODU with Aux and PSU interfaces – Figure 28 Figure 26 ODU with copper SFP and PSU interfaces Page 3-5
Chapter 3: System planning Typical deployment Figure 27 ODU with optical SFP and PSU interfaces Page 3-6
Chapter 3: System planning Typical deployment Figure 28 ODU with Aux and PSU interfaces Page 3-7
Chapter 3: System planning Site planning Site planning This section describes factors to be considered when planning the proposed link end sites, including grounding, lightning protection and equipment location. 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.
Chapter 3: System planning Site planning Figure 29 Rolling sphere method to determine the lightning protection zones Assess locations on masts, towers and buildings to determine if the location is in Zone A or Zone B: • Zone A: In this zone a direct lightning strike is possible. Do not mount equipment in this zone. • Zone B: In this zone, direct EMD (lightning) effects are still possible, but mounting in this zone significantly reduces the possibility of a direct strike. Mount equipment in this zone.
Chapter 3: System planning Site planning Site grounding system Confirm that the site has a correctly installed grounding system on a common ground ring with access points for grounding PTP 650 equipment. If the outdoor equipment is to be installed on the roof of a high building (Figure 25), confirm that the following additional requirements are met: • A grounding conductor is installed around the roof perimeter to form the main roof perimeter lightning protection ring.
Chapter 3: System planning Site planning ODU wind loading Ensure that the ODU and the structure on which it is mounted are capable of withstanding the prevalent wind speeds at a proposed PTP 650 site. Wind speed statistics should be available from national meteorological offices. The ODU and its mounting bracket are capable of withstanding wind speeds of up to 323 kph (200 mph). Wind blowing on the ODU will subject the mounting structure to significant lateral force.
Chapter 3: System planning Site planning Note For a connectorized ODU, add the wind loading of the external antenna to that of the ODU. The antenna manufacturer should be able to quote wind loading. PSU DC power supply If using the DC input on the AC+DC power injector, ensure that the DC power supply meets the following requirements: • The voltage and polarity must be correct and must be applied to the correct PSU terminals. • The power source must be rated as Safety Extra Low Voltage (SELV).
Chapter 3: System planning Site planning Drop cable grounding points To estimate how many grounding kits are required for each drop cable, refer to the site installation diagrams (Figure 23 , Figure 24 and Figure 25) and use the following criteria: • The drop cable shield must be grounded near the ODU at the first point of contact between the drop cable and the mast, tower or building. • The drop cable shield must be grounded at the building entry point.
Chapter 3: System planning Site planning Multiple LPUs If two or three drop cables are connected to the ODU, the PSU and Aux drop cables each require their own top LPU, and the copper SFP drop cable requires a top surge protector, not a PTP 650 LPU (Figure 30). Optical cables do not require LPUs or ground cables (Figure 31). The copper SFP drop cable requires a bottom surge protector, not a PTP 650 LPU (Figure 32). The Aux drop cable may require an LPU near the auxiliary device.
Chapter 3: System planning Site planning Figure 31 ODU with PSU, Aux and optical SFP interfaces Figure 32 Bottom LPU and surge protector Page 3-15
Chapter 3: System planning Radio spectrum planning Radio spectrum planning This section describes how to plan PTP 650 links to conform to the regulatory restrictions that apply in the country of operation. Caution It is the responsibility of the user to ensure that the PTP product is operated in accordance with local regulatory limits. Note Contact the applicable radio regulator to find out whether or not registration of the PTP 650 link is required.
Chapter 3: System planning Radio spectrum planning Table 31 PTP 650 wireless specifications (per frequency band) Item 4.9 GHz 5.2 GHz 5.4 GHz 5.
Chapter 3: System planning Radio spectrum planning Available spectrum The available spectrum for operation depends on the regulatory band. When configured with the appropriate license key, the unit will only allow operation on those channels which are permitted by the regulations. Note In Italy, general authorization is required for any 5.4 GHz radio link that is used outside the operator’s own premises. It is the responsibility of the installer or operator to have the link authorized.
Chapter 3: System planning Radio spectrum planning Frequency selection Regions without mandatory radar detection In regions that do not mandate DFS, choose DSO or Fixed Frequency: • Dynamic Spectrum Optimization (DSO): In this mode, the unit monitors the spectrum looking for the channel with the lowest level of interference. Statistical techniques are used to select the most appropriate transmit and receive channels.
Chapter 3: System planning Radio spectrum planning Avoidance of weather radars (USA only) To comply with FCC rules (KDB 443999: Interim Plans to Approve UNII Devices Operating in the 5470 - 5725 MHz Band with Radar Detection and DFS Capabilities), units which are installed within 35 km (22 miles) of a Terminal Doppler Weather Radar (TDWR) system (or have a line of sight propagation path to such a system) must be configured to avoid any frequency within +30 MHz or –30 MHz of the frequency of the TDWR devic
Chapter 3: System planning Link planning Link planning This section describes factors to be taken into account when planning links, such as range, obstacles path loss and throughput. PTP LINKPlanner is recommended. PTP LINKPlanner The Cambium PTP LINKPlanner software and user guide may be downloaded from the support website (see Contacting Cambium Networks on page 1). PTP LINKPlanner imports path profiles and predicts data rates and reliability over the path.
Chapter 3: System planning Link planning LoS links in radar regions When planning an LoS link to operate in a radar detection region, ensure that receiver signal level is low enough to allow the PTP 650 to detect radar signals: • With integrated antennas, the recommended minimum LoS operating range is 110 meters (360 ft) for 5.2 GHz or 5.4 GHz, and 185 meters (610 ft) for 5.8 GHz. Shorter operating ranges will lead to excessive receiver signal levels.
Chapter 3: System planning Link planning Calculating data rate capacity The data rate capacity of a PTP link is defined as the maximum end-to-end Ethernet throughput (including Ethernet headers) that it can support. It is assumed that Ethernet frames are 1500 octet.
Chapter 3: System planning Link planning Calculation example Suppose that the link characteristics are: • PTP 650 variant = Mid • Link Symmetry = 1:1 • Link Mode Optimization = TDM • Modulation Mode = 64QAM 0.
Chapter 3: System planning Planning for connectorized units Planning for connectorized units This section describes factors to be taken into account when planning to use connectorized ODUs with external antennas in PTP 650 links. When to install connectorized units The majority of radio links can be successfully deployed with the integrated ODU. However the integrated units may not be sufficient in some areas, for example: • Where the path is heavily obscured by dense woodland on an NLOS link.
Chapter 3: System planning Planning for connectorized units Note 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 (EIRP) is not more than that necessary for successful communication.
Chapter 3: System planning Data network planning Data network planning This section describes factors to be considered when planning PTP 650 data networks. Ethernet interfaces The PTP 650 Ethernet ports conform to the specifications listed in Table 33. Table 33 PTP 650 Ethernet bridging specifications Ethernet Bridging Specification Protocol IEEE802.1; IEEE802.1p; IEEE802.3 compatible QoS Eight wireless interface priority queues based on these standards: IEEE 802.1p, IEEE 802.1Q, IEEE 802.
Chapter 3: System planning Data network planning Ethernet port allocation Decide how the three Ethernet ports will be allocated to the customer data network, in-band management and out-of-band local management, based on the following rules: • Ensure that one port is allocated to Data Only or Data and In-Band Management. This port should be associated with the customer data network. • Ensure that the remaining ports are set to Disabled or Out-of-Band Local Management.
Chapter 3: System planning Data network planning IP interface Select the IP version for the IP interface of the ODU management agent. PTP 650 can operate in IPv4 mode, IPv6 mode, or in a dual IPv4/IPv6 mode. Choose one IPv4 address and/or one IPv6 address for the IP interface of the ODU management agent. The IP address or addresses must be unique and valid for the connected network segment and VLAN.
Chapter 3: System planning Data network planning An advantage of Ethernet priority is that any VLAN-tagged frame can be marked with a priority, regardless of the higher-layer protocols contained within the frame. A disadvantage of Ethernet priority is that the priority in the frame must be regenerated whenever traffic passes through a router. IP/MPLS priority scheme IP priority is encoded in the DSCP value encoded in the ToS field in IPv4 and Traffic Class in IPv6.
Chapter 3: System planning Network management planning Network management planning This section describes how to plan for PTP 650 links to be managed remotely using SNMP. Planning for SNMP operation The supported notifications are as follows: • Cold start • Wireless Link Up/Down • Channel Change • DFS Impulse Interference • Authentication Failure • Main PSU Port Up Down • Aux Port Up Down • SFP Port Up Down Ensure that the following MIBs are loaded on the network management system.
Chapter 3: System planning Network management planning Supported diagnostic alarms PTP 650 supports the diagnostic alarms listed in Table 108. The web-based interface may be used to enable or disable generation of each supported SNMP notification or diagnostic alarm.
Chapter 3: System planning Security planning Security planning This section describes how to plan for PTP 650 links to operate in secure mode. Planning for SNTP operation Note PTP 650 does not have a battery-powered clock, so the set time is lost each time the ODU is powered down. To avoid the need to manually set the time after each reboot, use SNTP server synchronization.
Chapter 3: System planning Security planning Item Description Quantity required TLS Private Key and Public Certificates An RSA private key of size 2048 bytes, generated in either PKCS#1 or PKCS#5 format, unencrypted, and encoded in the ASN.1 DER format. Two pairs per link. These items are unique to IP address. An X.509 certificate containing an RSA public key, generated in either PKCS#1 or PKCS#5 format, unencrypted, and encoded in the ASN.1 DER format.
Chapter 3: System planning Security planning Planning for SNMPv3 operation SNMP security mode Decide how SNMPv3 security will be configured. MIB-based security management uses standard SNMPv3 MIBs to configure the user-based security model and the view-based access control model. This approach provides considerable flexibility, allowing a network operator to tailor views and security levels appropriate for different types of user.
Chapter 3: System planning Security planning Identify the security level for each of the security roles. Three security levels are available: (a) No authentication, no privacy; (b) Authentication, no privacy; (c) Authentication, privacy. If authentication is required, identify the protocol. Two authentication protocols are available: MD5 or SHA. If privacy will be used, identify the protocol. Two privacy protocols are available: DES or AES (an AES 128-bit or 256-bit capability upgrade must be purchased).
Chapter 3: System planning Security planning SNMPv3 default configuration (MIB-based) When SNMPv3 MIB-based Security Mode is enabled, the default configuration for the usmUserTable table is based on one initial user and four template users as listed in Table 37.
Chapter 3: System planning Security planning VACM default configuration The default user initial is assigned to VACM group initial in the vacmSecurityToGroupTable table. The template users are not assigned to a group. PTP 650 creates default view trees and access as shown in Table 38 and Table 39. Table 38 Default VACM view trees Object Entry 1 Entry 2 ViewName internet restricted Subtree 1.3.6.1 1.3.6.
Chapter 3: System planning Security planning Planning for RADIUS operation Configure RADIUS where remote authentication is required for users of the web-based interface. Remote authentication has the following advantages: • Control of passwords can be centralized. • Management of user accounts can be more sophisticated. For example; users can be prompted by a network manager to change passwords at regular intervals.
Chapter 3: System planning Security planning If the vendor-specific auth-role attribute is absent, but the standard service-type (Type 6) attribute is present, PTP 650 selects the role for the authenticated user according to service-type. The supported values of service-type are as follows: • Login(1): Read Only • Administrative(6): System Administrator • NAS Prompt(7): Read Only If the auth-role and service-type attributes are absent, PTP 650 selects the Read Only role.
Chapter 3: System planning System threshold, output power and link loss System threshold, output power and link loss The following tables specify the system threshold (dBm), output power (dBm) and maximum link loss (dB) per channel bandwidth and modulation mode: • Table 41 - 4.9 GHz - IP mode • Table 42 - 4.9 GHz - TDM mode • • Table 45 - 5.4 GHz - IP mode • Table 46 - 5.4 GHz - TDM mode • Table 47 - 5.8 GHz - IP mode • Table 48 - 5.8 GHz - TDM mode Table 41 4.
Chapter 3: System planning System threshold, output power and link loss Table 42 4.9 GHz - TDM mode - threshold, power and link loss Modulation mode System threshold (dBm) per channel bandwidth 10 MHz 20 MHz BPSK 0.63 single -92.5 -93.4 QPSK 0.63 single -87.6 QPSK 0.87 single Output power (dBm) 10 MHz 20 MHz 27 165.5 166.4 -86.1 26 160.6 159.1 -84.2 -82.0 26 157.2 155.0 16QAM 0.63 single -81.6 -79.7 25 153.6 151.7 16QAM 0.63 dual -78.4 -76.2 25 150.4 148.2 16QAM 0.
Chapter 3: System planning System threshold, output power and link loss Table 43 5.2 GHz - IP mode - threshold, power and link loss Modulation mode System threshold (dBm) per channel bandwidth Output power (dBm) Maximum link loss (dB) per channel bandwidth 10 MHz 20 MHz 40 MHz 45 MHz All bands 10 MHz 20 MHz 40 MHz 45 MHz BPSK 0.63 single -96.3 -93.4 -90.7 -90.1 27 169.3 166.4 163.7 163.1 QPSK 0.63 single -90.8 -88.8 -85.7 -85.2 26 163.8 161.8 158.7 158.2 QPSK 0.
Chapter 3: System planning System threshold, output power and link loss Table 44 5.2 GHz - TDM mode - threshold, power and link loss Modulation mode System threshold (dBm) per channel bandwidth Output power (dBm) Maximum link loss (dB) per channel bandwidth 10 MHz 20 MHz 40 MHz 45 MHz All bands 10 MHz 20 MHz 40 MHz 45 MHz BPSK 0.63 single -96.4 -93.5 -90.3 -90.0 27 169.4 166.5 163.3 163.0 QPSK 0.63 single -87.9 -86.4 -83.2 -82.8 26 160.9 159.4 156.2 155.8 QPSK 0.
Chapter 3: System planning System threshold, output power and link loss Table 45 5.4 GHz - IP mode - threshold, power and link loss Modulation mode System threshold (dBm) per channel bandwidth Output power (dBm) Maximum link loss (dB) per channel bandwidth 10 MHz 20 MHz 40 MHz 45 MHz All bands 10 MHz 20 MHz 40 MHz 45 MHz BPSK 0.63 single -96.3 -93.4 -90.7 -90.1 27 169.3 166.4 163.7 163.1 QPSK 0.63 single -90.8 -88.8 -85.7 -85.2 26 163.8 161.8 158.7 158.2 QPSK 0.
Chapter 3: System planning System threshold, output power and link loss Table 46 5.4 GHz - TDM mode - threshold, power and link loss Modulation mode System threshold (dBm) per channel bandwidth Output power (dBm) Maximum link loss (dB) per channel bandwidth 10 MHz 20 MHz 40 MHz 45 MHz All bands 10 MHz 20 MHz 40 MHz 45 MHz BPSK 0.63 single -96.4 -93.5 -90.3 -90.0 27 169.4 166.5 163.3 163.0 QPSK 0.63 single -87.9 -86.4 -83.2 -82.8 26 160.9 159.4 156.2 155.8 QPSK 0.
Chapter 3: System planning System threshold, output power and link loss Table 47 5.8 GHz - IP mode - threshold, power and link loss Modulation mode System threshold (dBm) per channel bandwidth Output power (dBm) Maximum link loss (dB) per channel bandwidth 10 MHz 20 MHz 40 MHz 45 MHz All bands 10 MHz 20 MHz 40 MHz 45 MHz BPSK 0.63 single -95.8 -92.9 -89.6 -89.4 27 168.8 165.9 162.6 162.4 QPSK 0.63 single -90.3 -87.9 -85.3 -85.0 26 163.3 160.9 158.3 158.0 QPSK 0.
Chapter 3: System planning System threshold, output power and link loss Table 48 5.8 GHz - TDM mode - threshold, power and link loss Modulation mode System threshold (dBm) per channel bandwidth Output power (dBm) Maximum link loss (dB) per channel bandwidth 10 MHz 20 MHz 40 MHz 45 MHz All bands 10 MHz 20 MHz 40 MHz 45 MHz BPSK 0.63 single -96.4 -92.7 -90.2 -89.6 27 169.4 165.7 163.2 162.6 QPSK 0.63 single -87.5 -86.0 -83.2 -82.7 26 160.5 159.0 156.2 155.7 QPSK 0.
Chapter 3: System planning Data throughput capacity tables Data throughput capacity tables Use the following tables to look up the data throughput rates (Mbits/s) that are achieved when two PTP 650 ODUs are linked and the link distance (range) is 0 km: PTP 650 variant Link symmetry Link optimization Table Full 1:1 IP Table 49 TDM Table 50 IP Table 51 TDM Table 52 Adaptive IP Table 53 1:1 IP Table 54 TDM Table 55 IP Table 56 TDM Table 57 Adaptive IP Table 58 1:1 IP Table 59
Chapter 3: System planning Data throughput capacity tables Table 49 Throughput at zero link range (Mbit/s), Full, symmetry 1:1, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 226.1 226.1 452.2 206.3 206.3 412.6 64QAM 0.92 dual 190.5 190.5 381.0 173.8 173.8 347.6 64QAM 0.75 dual 155.7 155.7 311.3 142.0 142.0 284.1 16QAM 0.87 dual 121.1 121.1 242.2 110.5 110.5 221.0 16QAM 0.63 dual 87.1 87.1 174.1 79.4 79.4 158.
Chapter 3: System planning Data throughput capacity tables Table 50 Throughput at zero link range (Mbit/s), Full, symmetry 1:1, optimization TDM Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 202.1 202.1 404.1 186.1 186.1 372.1 64QAM 0.92 dual 170.2 170.2 340.5 156.8 156.8 313.5 64QAM 0.75 dual 139.1 139.1 278.2 128.1 128.1 256.2 16QAM 0.87 dual 108.2 108.2 216.5 99.7 99.7 199.3 16QAM 0.63 dual 77.8 77.8 155.6 71.6 71.6 143.
Chapter 3: System planning Data throughput capacity tables Table 51 Throughput at zero link range (Mbit/s), Full, symmetry 2:1, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 299.7 149.9 449.6 273.6 136.8 410.5 64QAM 0.92 dual 252.5 126.3 378.8 230.5 115.3 345.8 64QAM 0.75 dual 206.4 103.2 309.6 188.4 94.2 282.6 16QAM 0.87 dual 160.6 80.3 240.8 146.6 73.3 219.8 16QAM 0.63 dual 115.4 57.7 173.1 105.4 52.7 158.
Chapter 3: System planning Data throughput capacity tables Table 52 Throughput at zero link range (Mbit/s), Full, symmetry 2:1, optimization TDM Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 280.8 140.4 421.2 257.7 128.9 386.6 64QAM 0.92 dual 236.6 118.3 354.8 217.1 108.6 325.7 64QAM 0.75 dual 193.3 96.7 290.0 177.4 88.7 266.1 16QAM 0.87 dual 150.4 75.2 225.6 138.0 69.0 207.1 16QAM 0.63 dual 108.1 54.1 162.2 99.2 49.6 148.
Chapter 3: System planning Data throughput capacity tables Table 53 Throughput at zero link range (Mbit/s), Full, symmetry adaptive, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 407.9 40.8 448.7 367.9 40.9 408.8 64QAM 0.92 dual 343.7 34.4 378.0 310.0 34.4 344.4 64QAM 0.75 dual 280.8 28.1 308.9 253.3 28.1 281.4 16QAM 0.87 dual 218.5 21.8 240.3 197.1 21.9 218.9 16QAM 0.63 dual 157.1 15.7 172.8 141.7 15.7 157.
Chapter 3: System planning Data throughput capacity tables Table 54 Throughput at zero link range (Mbit/s), Mid, symmetry 1:1, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 127.0 127.0 254.0 116.0 116.0 232.0 64QAM 0.92 dual 107.0 107.0 214.0 97.0 97.0 194.0 64QAM 0.75 dual 87.0 87.0 174.0 80.0 80.0 160.0 16QAM 0.87 dual 68.0 68.0 136.0 62.0 62.0 124.0 16QAM 0.63 dual 49.0 49.0 98.0 44.0 44.0 88.0 256QAM 0.
Chapter 3: System planning Data throughput capacity tables Table 55 Throughput at zero link range (Mbit/s), Mid, symmetry 1:1, optimization TDM Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 113.0 113.0 226.0 104.0 104.0 208.0 64QAM 0.92 dual 95.0 95.0 190.0 88.0 88.0 176.0 64QAM 0.75 dual 78.0 78.0 156.0 72.0 72.0 144.0 16QAM 0.87 dual 61.0 61.0 122.0 56.0 56.0 112.0 16QAM 0.63 dual 44.0 44.0 88.0 40.0 40.0 80.0 256QAM 0.
Chapter 3: System planning Data throughput capacity tables Table 56 Throughput at zero link range (Mbit/s), Mid, symmetry 2:1, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 168.0 84.0 252.0 153.0 77.0 230.0 64QAM 0.92 dual 141.0 71.0 212.0 129.0 65.0 194.0 64QAM 0.75 dual 116.0 58.0 174.0 106.0 53.0 159.0 16QAM 0.87 dual 90.0 45.0 135.0 82.0 41.0 123.0 16QAM 0.63 dual 65.0 32.0 97.0 59.0 30.0 89.0 256QAM 0.
Chapter 3: System planning Data throughput capacity tables Table 57 Throughput at zero link range (Mbit/s), Mid, symmetry 2:1, optimization TDM Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 157.0 79.0 236.0 144.0 72.0 216.0 64QAM 0.92 dual 132.0 66.0 198.0 122.0 61.0 183.0 64QAM 0.75 dual 108.0 54.0 162.0 99.0 50.0 149.0 16QAM 0.87 dual 84.0 42.0 126.0 77.0 39.0 116.0 16QAM 0.63 dual 61.0 30.0 91.0 56.0 28.0 84.0 256QAM 0.
Chapter 3: System planning Data throughput capacity tables Table 58 Throughput at zero link range (Mbit/s), Mid, symmetry adaptive, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 228.0 23.0 251.0 206.0 23.0 229.0 64QAM 0.92 dual 192.0 19.0 211.0 174.0 19.0 193.0 64QAM 0.75 dual 157.0 16.0 173.0 142.0 16.0 158.0 16QAM 0.87 dual 122.0 12.0 134.0 110.0 12.0 122.0 16QAM 0.63 dual 88.0 9.0 97.0 79.0 9.0 88.0 256QAM 0.
Chapter 3: System planning Data throughput capacity tables Table 59 Throughput at zero link range (Mbit/s), Lite, symmetry 1:1, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 63.0 63.0 126.0 58.0 58.0 116.0 64QAM 0.92 dual 53.0 53.0 106.0 49.0 49.0 98.0 64QAM 0.75 dual 44.0 44.0 88.0 40.0 40.0 80.0 16QAM 0.87 dual 34.0 34.0 68.0 31.0 31.0 62.0 16QAM 0.63 dual 24.0 24.0 48.0 22.0 22.0 44.0 256QAM 0.81 single 32.
Chapter 3: System planning Data throughput capacity tables Table 60 Throughput at zero link range (Mbit/s), Lite, symmetry 1:1, optimization TDM Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 57.0 57.0 114.0 52.0 52.0 104.0 64QAM 0.92 dual 48.0 48.0 96.0 44.0 44.0 88.0 64QAM 0.75 dual 39.0 39.0 78.0 36.0 36.0 72.0 16QAM 0.87 dual 30.0 30.0 60.0 28.0 28.0 56.0 16QAM 0.63 dual 22.0 22.0 44.0 20.0 20.0 40.0 256QAM 0.81 single 28.
Chapter 3: System planning Data throughput capacity tables Table 61 Throughput at zero link range (Mbit/s), Lite, symmetry 2:1, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 84.0 42.0 126.0 77.0 38.0 115.0 64QAM 0.92 dual 71.0 35.0 106.0 65.0 32.0 97.0 64QAM 0.75 dual 58.0 29.0 87.0 53.0 26.0 79.0 16QAM 0.87 dual 45.0 22.0 67.0 41.0 21.0 62.0 16QAM 0.63 dual 32.0 16.0 48.0 30.0 15.0 45.0 256QAM 0.81 single 42.
Chapter 3: System planning Data throughput capacity tables Table 62 Throughput at zero link range (Mbit/s), Lite, symmetry 2:1, optimization TDM Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 79.0 39.0 118.0 72.0 36.0 108.0 64QAM 0.92 dual 66.0 33.0 99.0 61.0 30.0 91.0 64QAM 0.75 dual 54.0 27.0 81.0 50.0 25.0 75.0 16QAM 0.87 dual 42.0 21.0 63.0 39.0 19.0 58.0 16QAM 0.63 dual 30.0 15.0 45.0 28.0 14.0 42.0 256QAM 0.81 single 39.
Chapter 3: System planning Data throughput capacity tables Table 63 Throughput at zero link range (Mbit/s), Lite, symmetry adaptive, optimization IP Modulation mode 45 MHz (Tx/Rx/Aggregate) 40 MHz (Tx/Rx/Aggregate) 256QAM 0.81 dual 114.0 11.0 125.0 103.0 11.0 114.0 64QAM 0.92 dual 96.0 10.0 106.0 87.0 10.0 97.0 64QAM 0.75 dual 79.0 8.0 87.0 71.0 8.0 79.0 16QAM 0.87 dual 61.0 6.0 67.0 55.0 6.0 61.0 16QAM 0.63 dual 44.0 5.0 49.0 40.0 5.0 45.0 256QAM 0.81 single 57.
Chapter 3: System planning Data throughput capacity tables Figure 33 Range adjustment for PTP 650, symmetry 1:1, optimization IP, bandwidth 45 MHz Figure 34 Range adjustment for PTP 650, symmetry 1:1, optimization IP, bandwidth 40 MHz Page 3-65
Chapter 3: System planning Data throughput capacity tables Figure 35 Range adjustment for PTP 650, symmetry 1:1, optimization IP, bandwidth 20 MHz Figure 36 Range adjustment for PTP 650, symmetry 1:1, optimization IP, bandwidth 10 MHz Page 3-66
Chapter 3: System planning Data throughput capacity tables Figure 37 Range adjustment for PTP 650, symmetry 1:1, optimization TDM, bandwidth 45 MHz Figure 38 Range adjustment for PTP 650, symmetry 1:1, optimization TDM, bandwidth 40 MHz Page 3-67
Chapter 3: System planning Data throughput capacity tables Figure 39 Range adjustment for PTP 650, symmetry 1:1, optimization TDM, bandwidth 20 MHz Figure 40 Range adjustment for PTP 650, symmetry 1:1, optimization TDM, bandwidth 10 MHz Page 3-68
Chapter 3: System planning Data throughput capacity tables Figure 41 Range adjustment for PTP 650, symmetry 2:1, optimization IP, bandwidth 45 MHz Figure 42 Range adjustment for PTP 650, symmetry 2:1, optimization IP, bandwidth 40 MHz Page 3-69
Chapter 3: System planning Data throughput capacity tables Figure 43 Range adjustment for PTP 650, symmetry 2:1, optimization IP, bandwidth 20 MHz Page 3-70
Chapter 3: System planning Data throughput capacity tables Figure 44 Range adjustment for PTP 650, symmetry 2:1, optimization IP, bandwidth 10 MHz Page 3-71
Chapter 3: System planning Data throughput capacity tables Figure 45 Range adjustment for PTP 650, symmetry 2:1, optimization TDM, bandwidth 45 MHz Page 3-72
Chapter 3: System planning Data throughput capacity tables Figure 46 Range adjustment for PTP 650, symmetry 2:1, optimization TDM, bandwidth 40 MHz Figure 47 Range adjustment for PTP 650, symmetry 2:1, optimization TDM, bandwidth 20 MHz Page 3-73
Chapter 3: System planning Data throughput capacity tables Figure 48 Range adjustment for PTP 650, symmetry 2:1, optimization TDM, bandwidth 10 MHz Page 3-74
Chapter 3: System planning Data throughput capacity tables Figure 49 Range adjustment for PTP 650, adaptive, optimization IP, bandwidth 45 MHz Page 3-75
Chapter 3: System planning Data throughput capacity tables Figure 50 Range adjustment for PTP 650, adaptive, optimization IP, bandwidth 40 MHz Page 3-76
Chapter 3: System planning Data throughput capacity tables Figure 51 Range adjustment for PTP 650, adaptive, optimization IP, bandwidth 20 MHz Page 3-77
Chapter 3: System planning Data throughput capacity tables Figure 52 Range adjustment for PTP 650, adaptive, optimization IP, bandwidth 10 MHz Page 3-78
Chapter 4: 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.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Cambium Networks end user license agreement Acceptance of this agreement In connection with Cambium Networks’ delivery of certain proprietary software or products containing embedded or pre-loaded proprietary software, or both, Cambium Networks is willing to license this certain proprietary software and the accompanying documentation to you only on the condition that you accept all the terms in this End User License Ag
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Conditions of use Any use of the Software and Documentation outside of the conditions set forth in this Agreement is strictly prohibited and will be deemed a breach of this Agreement. 1. Only you, your employees or agents may use the Software and Documentation. You will take all necessary steps to insure that your employees and agents abide by the terms of this Agreement. 2.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Title and restrictions If you transfer possession of any copy of the Software and Documentation to another party outside of the terms of this agreement, your license is automatically terminated. Title and copyrights to the Software and Documentation and any copies made by you remain with Cambium Networks and its licensors.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Right to use Cambium’s name Except as required in “Conditions of use”, you will not, during the term of this Agreement or thereafter, use any trademark of Cambium Networks, or any word or symbol likely to be confused with any Cambium Networks trademark, either alone or in any combination with another word or words.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement 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.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Term of license Your right to use the Software will continue in perpetuity unless terminated as follows. Your right to use the Software will terminate immediately without notice upon a breach of this Agreement by you.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Trademarks Java Technology and/or J2ME : Java and all other Java-based marks are trademarks or registered trademarks of Sun Microsystems, Inc. in the U.S. and other countries. UNIX : UNIX is a registered trademark of The Open Group in the United States and other countries. Net SNMP Various copyrights apply to this package, listed in various separate parts below. Please make sure that you read all the parts.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement • Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. • Neither the name of the Networks Associates Technology, Inc nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement California 95054, U.S.A. All rights reserved. Use is subject to license terms below. This distribution may include materials developed by third parties. Sun, Sun Microsystems, the Sun logo and Solaris are trademarks or registered trademarks of Sun Microsystems, Inc. in the U.S. and other countries.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS “AS IS” AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement • Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. • Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT “AS IS” AND ANY EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement The word ‘cryptographic’ can be left out if the routines from the library being used are not cryptographic related. 4. If you include any Windows specific code (or a derivative thereof) from the apps directory (application code) you must include an acknowledgement: “This product includes software written by Tim Hudson (tjh@cryptsoft.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Libpng libpng versions 1.2.6, August 15, 2004, through 1.2.35, February 14, 2009, are Copyright © 2004, 2006-2008 Glenn Randers-Pehrson, and are distributed according to the same disclaimer and license as libpng-1.2.5 with the following individual added to the list of Contributing Authors Cosmin Truta libpng versions 1.0.7, July 1, 2000, through 1.2.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Andreas Dilger Dave Martindale Guy Eric Schalnat Paul Schmidt Tim Wegner The PNG Reference Library is supplied “AS IS”. The Contributing Authors and Group 42, Inc. disclaim all warranties, expressed or implied, including, without limitation, the warranties of merchantability and of fitness for any purpose. The Contributing Authors and Group 42, Inc.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. 3.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement Apache Apache License Version 2.0, January 2004 http://www.apache.org/licenses/ TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION 1. Definitions. "License" shall mean the terms and conditions for use, reproduction, and distribution as defined by Sections 1 through 9 of this document. "Licensor" shall mean the copyright owner or entity authorized by the copyright owner that is granting the License.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement the copyright owner.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement pertain to any part of the Derivative Works, in at least one of the following places: within a NOTICE text file distributed as part of the Derivative Works; within the Source form or documentation, if provided along with the Derivative Works; or, within a display generated by the Derivative Works, if and wherever such third-party notices normally appear.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement and charge a fee for, acceptance of support, warranty, indemnity, or other liability obligations and/or rights consistent with this License.
Chapter 4: Legal and regulatory information Cambium Networks end user license agreement D3 JS library Copyright (c) 2013, Michael Bostock All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
Chapter 4: Legal and regulatory information Compliance with safety standards Compliance with safety standards This section lists the safety specifications against which the PTP 650 has been tested and certified. It also describes how to keep RF exposure within safe limits. Electrical safety compliance The PTP 650 hardware has been tested for compliance to the electrical safety specifications listed in Table 64.
Chapter 4: Legal and regulatory information Compliance with safety standards Human exposure to radio frequency energy Relevant standards (USA and EC) applicable when working with RF equipment are: • ANSI IEEE C95.1-1991, IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz.
Chapter 4: Legal and regulatory information Compliance with safety standards Calculation of power density The following calculation is based on the ANSI IEEE C95.1-1991 method, as that provides a worst case analysis. Details of the assessment to EN50383:2002 can be provided, if required. Peak power density in the far field of a radio frequency point source is calculated as follows: S= P .
Chapter 4: Legal and regulatory information Compliance with safety standards Calcul des distances pour la conformité aux limites de radiation radiofréquence La Table 66 indique les distances minimales de séparation calculées, les distances recommandées et les marges de sécurité qui en découlent pour chaque bande de fréquence et chaque antenne. Ces distances comprennent les marges de sécurité recommandées par les régulateurs.
Chapter 4: Legal and regulatory information Compliance with safety standards Note Gain of antenna in dBi = 10*log(G). 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. At 5.4 GHz and EU 5.8 GHz, the products are generally limited to a fixed EIRP which can be achieved with the Integrated Antenna. The calculations above assume that the maximum EIRP allowed by the regulations is being transmitted.
Chapter 4: Legal and regulatory information Compliance with radio regulations Compliance with radio regulations This section describes how the PTP 650 complies with the radio regulations that are in force in various countries. Caution Where necessary, the end user is responsible for obtaining any National licenses required to operate this product and these must be obtained before using the product in any particular country.
Chapter 4: Legal and regulatory information Compliance with radio regulations Type approvals The system has been tested against various local technical regulations and found to comply. The frequency band in which the system operates is “license exempt” and the system is allowed to be used provided it does not cause interference. The licensing authority does not guarantee protection against interference from other products and installations.
Chapter 4: Legal and regulatory information Compliance with radio regulations Region Regulatory approvals Finland ETSI EN302 502 v1.2.1 Greece ETSI EN302 502 v1.2.1 Liechtenstein ETSI EN302 502 v1.2.1 Norway REG 2009-06-02 no. 580 Portugal ETSI EN302 502 v1.2.1 Serbia ETSI EN302 502 v1.2.1 Spain CNAF 2010 Switzerland ETSI EN302 502 v1.2.1 UK UK IR 2007 FCC/IC compliance The PTP 650 complies with the regulations that are in force in the USA and Canada.
Chapter 4: Legal and regulatory information Compliance with radio regulations Figure 53 FCC and IC certifications on integrated ODU product label Figure 54 FCC and IC certifications on connectorized ODU product label Industry Canada product labels Industry Canada Certification Numbers are reproduced on the product labels for the FCC/IC regional variant (Figure 53 and Figure 54) and also on the Rest of the World (RoW) regional variant (Figure 55 and Figure 56).
Chapter 4: Legal and regulatory information Compliance with radio regulations Figure 56 IC certification on connectorized ODU product label 4.9 GHz FCC and IC notification The system has been approved under FCC Part 90 and Industry Canada RSS-111 for Public Safety Agency usage. The installer or operator is responsible for obtaining the appropriate site licenses before installing or using the system. Utilisation de la bande 4.
Chapter 4: Legal and regulatory information Compliance with radio regulations Utilisation de la bande 5.4 GHz FCC et IC Cet appareil est conforme à la Section 15E de la réglementation FCC aux États-Unis et aux règlementations et avec Industrie Canada RSS-210 Annexe 9.
Chapter 4: Legal and regulatory information Compliance with radio regulations 5.2 GHz band edge channel power reduction Equivalent isotropic radiated power (EIRP) is restricted in edge channels when the PTP 650 is operated the 5.2 GHz band with the USA or Canada country license. The amount of EIRP reduction has been determined during regulatory testing and cannot be changed by professional installers or end users.
Chapter 4: Legal and regulatory information Compliance with radio regulations 5.4 GHz band edge channel power reduction Equivalent isotropic radiated power (EIRP) is restricted in edge channels when the PTP 650 is operated the 5.4 GHz band with the USA or Canada country license. The amount of EIRP reduction has been determined during regulatory testing and cannot be changed by professional installers or end users.
Chapter 4: Legal and regulatory information Channel Bandwidth 40 MHz 45 MHz Compliance with radio regulations Channel Frequency Maximum EIRP Above 5694.0 MHz 25 dBm Below 5500.0 MHz 28 dBm Above 5691.0 MHz 24 dBm Below 5508.0 MHz 24 dBm Above 5686.0 MHz 22 dBm 5.8 GHz band edge channel power reduction Transmitter power is restricted in edge channels when the PTP 650 is operated the 5.8 GHz band with the USA or Canada country license.
Chapter 4: Legal and regulatory information Channel Bandwidth 30 MHz 40 MHz 45 MHz Compliance with radio regulations Channel Frequency Maximum conducted power Above 5832.0 MHz 25 dBm Below 5752.0 MHz 25 dBm Above 5822.0 MHz 25 dBm Below 5765.0 MHz 25 dBm Above 5810.0 MHz 25 dBm Below 5778.0 MHz 23 dBm Above 5795.0 MHz 22 dBm Selection of antennas For guidance on the selection of dedicated external antennas refer to Choosing external antennas on page 3-25.
Chapter 4: Legal and regulatory information Compliance with radio regulations Warning This is a Class A product. In a domestic environment this product may cause radio interference, in which case the user may be required to take adequate measures. If this equipment does cause interference to radio or television reception, refer to Radio and television interference on page 8-10 for corrective actions.
Chapter 4: Legal and regulatory information Compliance with radio regulations Hereby, Cambium Networks declares that the PTP 650 product complies with the essential requirements and other relevant provisions of Directive 1999/5/EC. The declaration of conformity may be consulted at the support website (see Contacting Cambium Networks on page 1). 5.8 GHz European Union notification The PTP 650 is a Class 2 device as it operates on frequencies that are not harmonized across the EU.
