Page 1 Configuration Guide.333333333 PLANNING AND INSTALLATION GUIDE PMP/PTP 450 Series System Release 21.0 Covers: PMP 450 AP / PMP 450 SM / PTP 450 BH / PMP 450d PMP 450i / PTP 450i PMP 450b / PTP 450b PMP 450m PMP 450 MicroPoP PMP / PTP 450b Retro...
Page 2 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. Cambium reserves the right to make changes to any products described...
Page 3: Table Of Contents
Co nt ent s Contents About This User Guide Contacting Cambium Networks Purpose Product notation conventions in document Cross references Feedback Important regulatory information Application software USA specific information Canada specific information Renseignements specifiques au Canada EU Declaration of Conformity...
Page 4 Chapter 1: Product description Overview of the 450 Platform Family Purpose Wireless operation Time division duplexing Encryption MIMO MU-MIMO System management Management agent Web server Remote Authentication Dial-in User Service (RADIUS) Network Time Protocol (NTP) cnMaestro™ Wireless Manager (WM) Radio recovery mode Chapter 2: System hardware System Components Point-to-Multipoint (PMP)
Page 5 Lightning protection ODU interfaces PMP 450m Series 5 GHz AP PMP 450m Series 3 GHz AP PMP/PTP 450i PMP/PTP 450b Mid-Gain/High Gain/Retro Interfaces PMP 450 MicroPoP AP MicroPoP Lightning Arrester details Cabling 450b AUX Port synchronization cables Ethernet standards and cable lengths Outdoor copper Cat 5e Ethernet cable SFP module kits Main Ethernet port...
Page 6 CMM5 Injector Module CMM5 Injector Compatibility Matrix CMM5 Specifications CMM4 (Rack Mount) CMM4 (Cabinet with switch) CMM4 (Cabinet without switch) CMM3/CMMmicro Installing a GPS receiver GPS receiver location Mounting the GPS receiver Cabling the GPS Antenna Installing and connecting the GPS LPU Ordering the components Chapter 3: System planning Typical deployment...
Page 7 Available spectrum Analyzing the RF Environment Channel bandwidth Anticipating Reflection of Radio Waves Obstructions in the Fresnel Zone Planning for co-location Frame length Frame start Frame parameters PMP – LTE co-location tool Multiple OFDM Access Point Clusters Considerations on back-to-back frequency reuse Link planning Range and obstacles Path loss...
Page 8 Allocating subnets Selecting non-routable IP addresses Translation bridging Engineering VLANs Network management planning Planning for SNMP operation Enabling SNMP Security planning Isolating AP/BHM from the Internet Encrypting radio transmissions Planning for HTTPS operation Planning for SNMPv3 operation Managing module access by passwords Planning for RADIUS operation Filtering protocols and ports Encrypting downlink broadcasts...
Page 9 Hazardous locations Siting of ODU and soundness of structure Working at heights and near power lines Power supply and power safety External cables RF exposure near the antenna Grounding and lightning protection requirements Grounding and protective earth Thermal Safety Preparing for installation ODU pre-configuration Preparing personnel Preparing inventory...
Page 10 Installing external antennas to a connectorized ODU PMP 450i Series PMP 450 Series PMP 450i Series AP 900 MHz PMP 450 Series SM 900 MHz Installing an integrated ODU PMP 450m Series – 5 GHz AP PMP 450m Series – 3 GHz AP PMP/PTP 450i Series –...
Page 11 Human exposure to radio frequency energy Power density exposure limit Calculation of power density. Calculated distances and power compliance margins Tx power limits for PMP 450 MicroPoP Hazardous location compliance ATEX Chapter 7: Compliance with radio regulations Type approvals Brazil specific information Brazil notification Brazil certification numbers Australia Notification...
Page 12: About This User Guide
United Kingdom Purp ose Cambium Networks Point- to- Multi- Point (PMP)/Point- To- Point (PTP) 450 documents are intended to instruct and assist personnel in the operation, installation and maintenance of the Cambium PMP/PTP equipment and ancillary devices of 450 Platform Family. It is recommended that all personnel engaged in such activities be properly trained.
Page 13 Product Description notation Platform Refers to the complete 450 Series family, which includes 450 Series, 450i Series, 450b Family Series and 450m Series 450 Series Refers to 450 Series devices in the following configurations: PMP 450 AP [2.4GHz/3.5 GHz/3.65 GHz /5 GHz] Connectorized SM [900 MHz/2.4GHz/3.5 GHz/3.65 GHz /5 GHz] Connectorized / Integrated...
Page 14: Cross References
Product Description notation PMP 450m AP 5 GHz Integrated AP 3 GHz Integrated 450 MicroPoP Refers to 450 MicroPoP Series devices in the following configurations: Series PMP 450 MicroPop Omni 5 GHz Integrated PMP 450 MicroPop Sector 5 GHz Integrated 450b Retro Refers to 450b Retro Series devices in the following configurations: Series...
Page 15: Application Software
USA to comply with FCC requirements (KDB 905462 D02 UNII DFS Compliance Procedures New Rules v02). These variants are only allowed to operate with license keys that comply with FCC rules. To ensure compliance when using PMP 450 Series and PTP 450 Series, follow the recommendation in Avoidance of weather radars (USA only).
Page 16: Canada Specific Information
Canad a sp ecific inform at ion Caution This device complies with ISEDC ’s license- exempt RSSs. Operation is subject to the following two conditions: (1) This device may not cause interference; and (2) This device must accept any interference, including interference that may cause undesired operation of the device.
Page 17: Eu Declaration Of Conformity
Guide. EU Declarat ion of Conform it y Hereby, Cambium Networks declares that the Cambium 450 Series, 450b Series, 450i Series and 450m Series Wireless Ethernet Bridge complies with the essential requirements and other relevant provisions of Radio Equipment Directive 2014/53/EU. The declaration of conformity may be consulted at: https://www.cambiumnetworks.com/eu_dofc...
Page 18: Lightning Protection
(http://www.cambiumnetworks.com/support). Hard w are w arrant y Cambium’s standard hardware warranty is for one (1) year from date of shipment from Cambium Networks or a Cambium distributor. Cambium Networks warrants that hardware will conform to the relevant published specifications and will be free from material defects in material and workmanship under normal use and service.
Page 19: Warnings, Cautions, And Notes
W arning s, caut io ns, and no t es The following describes how warnings and cautions are used in this document and in all documents of the Cambium Networks document set. W arning s 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.
Page 20: In Non-Eu Countries
Disposal of Cambium equipment European Union (EU) Directive 2012/19/EU Waste Electrical and Electronic Equipment (WEEE) Do not dispose of Cambium equipment in landfill sites. For disposal instructions, refer to https://www.cambiumnetworks.com/support/compliance/ Disposal of surplus packaging Do not dispose of surplus packaging in landfill sites. In the EU, it is the individual recipient’s responsibility to ensure that packaging materials are collected and recycled according to the requirements of EU environmental law.
Page 21: Chapter 1: Product Description
The PMP 450m Series AP is a revolutionary product which is based on Multi- User Multiple- Input and Multiple-Output (MU-MIMO) technology. By combining a sophisticated beam forming antenna array with multiple transceivers, Cambium Networks is using leading edge technology to provide a substantial shift upward in capacity per sector.
Page 22 Key features The Cambium PMP 450m Series AP offers the following benefits: MU-MIMO Access Point is a technologically cutting-edge device providing up to 900 Mbps in 20 MHz channel bandwidth and up to 1.4 Gbps in a 40 MHz channel, depending upon SMs position within sector.
Page 23 Characteristic Value High spectral 90 bps/Hz efficiency Timing CMM5 or UGPS/cnPulse synchronization Data rate Up to 900 Mbps with 20 MHz channel bandwidth and up to 1.4 Gbps in a 40 MHz channel. Additional data rate improvements are available by using 5 ms frame size. Frequency bands The PMP 450m Series AP operates from 4900 to 5925 MHz.
Page 24 Increased Packet Processing rate Efficient GPS synchronized, scheduled TDD operation for easy AP/BHM site deployment and performance that is consistent regardless of SM/BHS loading A range of cost-effective subscriber device solutions to meet the business case of any network application MIMO B Mode: This technique provides for the ability to double the throughput of a radio transmission under proper RF conditions.
Page 25 Table 3 :Main characteristics of the PMP/PTP 450i Series Characteristic Value Topology PMP/PTP Wireless link condition LOS, near LOS or non-LOS Range PTP: Up to 186 mi (or 299 km) depending on configuration for all bands PMP: Up to 40 mi (or 64 km) for 5 GHz band PMP: Up to 120 mi (or 193 km) for 900 MHz band Duplexing TDD (symmetric and asymmetric)
Page 26 Hardware components The ODU (Outdoor unit) is a self- contained transceiver unit that houses both radio and networking electronics. The main hardware components of the PMP/PTP 450i Series are as follows: PMP 450i AP PMP 450i SM PTP 450i BH (BHM/BHS) The PMP/PTP 450i Series is supplied in the following configurations: Table 4 : PMP/PTP 450i Series hardware configurations Frequency...
Page 27 Key features The Cambium 450b Series offers the following benefits: In the 5 GHz band, ultra-wide band radios support the entire band from 4.9 to 5.925 GHz. In the 3 GHz band, radios support the 3.3 to 3.9 GHz range. Gigabit Ethernet Interface provides the maximum transfer rates to the device.
Page 28 The 450b Series is supplied in the following configurations: Table 6 :PMP/PTP 450b Series hardware configurations Frequency ODU type Antenna Gain / Type 450b 3.3 to 3.9 GHz High Gain 20 dBi Dish antenna 4.9 to 5.925 GHz Mid-Gain 16 dBi integrated antenna (supports 4.9, 5.1, 5.2, 5.4 and 5.8 GHz bands) High Gain 23 dBi Dish antenna...
Page 29 Characteristic Value Duplexing TDD (symmetric and asymmetric) Connectivity 100Base-T Ethernet Main port with PoE input Operating frequencies 900 MHz, 2.4 GHz, 3.5 GHz, 3.65 GHz and 5 GHz Tx Power - conducted max 22 dBm (2.4 GHz and 5 GHz) max 25 dBm (3.5 GHz and 3.65 GHz) max 25 dBm (900 MHz - PMP 450 SM and BH) Channel bandwidth...
Page 30 Table 8 :PMP/PTP 450 Series hardware configurations Frequency ODU type 2.4 GHz Connectorized Use with an external antenna Integrated 18 dBi Dual Slant 3.5/3.65 GHz Connectorized Use with an external antenna Integrated 16 dBi Dual Slant 5 GHz Connectorized Use with an external antenna (5.4 and 5.8 GHz) 900 MHz Connectorized Use with an external antenna...
Page 31 Ultra-wide band radios support the entire band from 4.9 GHz to 5.925 GHz. Gigabit Ethernet Interface provides the maximum transfer rates to the device. Capable of up to 300 Mbps aggregate in a 40 MHz channel. Supports a range up to 2 miles and a number of subscribers up to 20. To unlock the full capabilities of the platform (range up to 40 miles and number of subscribers up to 238) a license key is available for purchase.
Page 32 Table 10 :PMP 450 MicroPoP Series hardware configurations Frequency ODU type PMP 450 4.9 to 5.925 GHz Integrated Omni 9 dBi Integrated antenna MicroPoP (support 4.9, 5.1, 5.2, 5.4 and 5.8 Integrated 13 dBi integrated GHz) Sector antenna PMP/ PTP 4 50 b Ret ro Series The PMP/PTP 450b Retro Series is a high- performance wireless bridge for Ethernet traffic.
Page 33 5 GHz band: 4900 to 5925 MHz Hardware components The ODU (Outdoor unit) is a self-contained transceiver unit that houses both radio and networking electronics. The main hardware components of the PMP/PTP 450b Retro Series are as follows: PMP/PTP 450b Retro SM The PMP/PTP 450b Retro Series is supplied in the following configuration: Table 12 :PMP/PTP 450 Retro Series hardware configurations Frequency...
Page 34 Band 900 MHz PTP 450/450i BHM and BHS 3.5 and 3.65 GHz PTP 450/450b/450i BHM and BHS 4.9, 5.1, 5.2, 5.4 and 5.8 GHz PTP 450b/450i/450b Retro BHM and BHS 5.4 and 5.8 GHz PTP 450/450b/450i/450/450b Retro BHM and BHS Typical deployment The 450 Platform Family is an “all outdoor”...
Page 35 (TDD). The AP operates in TDMA mode to service multiple SMs. Applications for the PMP Series include: High throughput enterprise applications nLOS video surveillance in metro areas Urban area network extension Network extension into areas with foliage Point-to-Point ( Backhaul) The PTP configuration of 450 Platform Family consists of two BH (Backhaul) ODUs.
Page 36: Wireless Operation
All power injectors / power supplies in the Cambium Networks range are designed for an indoor environment. Different ODUs require different power requirements, so be sure to select the correct power supply. Surge protection units: A range of surge protectors is available to suit different ODUs The Gigabit Surge Suppressor provides a path to ground (Protective Earth) that protects connected radio equipment from near-miss lightning strikes.
Page 37 TDD frame paramet ers The TDD burst duration varies depending on the following: Channel Bandwidth Cyclic Prefix Frame Period Frame configuration - Downlink Data Link operation – Dynamic Rate Adaptation OFDM and Channel Bandwidt h The PMP/PTP 450 Platform Family transmits using Orthogonal Frequency Division Multiplexing (OFDM). This wideband signal consists of many equally spaced sub-carriers.
Page 38 Frame Period The frame period or frame duration is the time between the beginning of a frame and the end of the frame. The 450 Platform Family supports two frame periods: 2.5 ms and 5 ms. The 5ms frame period configuration provides higher throughput as a result of reduced frame overhead during transmission.
Page 39: Encryption
Encryp t ion The 450 Platform Family supports optional encryption for data transmitted over the wireless link. The 450 Platform Family supports the following form of encryption for security of the wireless link: AES (Advanced Encryption Standard): An over- the- air link encryption option that uses the Rijndael algorithm and 128-bit keys and 256-bit key size to establish a higher level of security.
Page 40: System Management
Channel estimation and sounding must be regularly repeated to ensure wireless network performance remains high; the speed at which a system is able to accurately estimate the channel has a large impact on performance. Once channel estimation is completed for a wireless node, the MU-MIMO access point can electrically tune each antenna to provide the highest performance for that node.
Page 41 W eb pages The web-based management interfaces provide comprehensive web-based fault, configuration, performance and security management functions organized into the following groups: Access Point or Backhaul Master: Home Configuration Statistics Tools Logs Accounts Quick Start Copyright Subscriber Module or Backhaul Slave Home Configuration Statistics...
Page 42: Remote Authentication Dial-In User Service (Radius)
The management agent supports fault and performance management by means of an SNMP interface. The management agent is compatible with SNMP v2c and SNMP v3 using Management Information Base (MIB) files which are available for download from the Cambium Networks Support website: https://support.cambiumnetworks.com/files/ptp450 https://support.cambiumnetworks.com/files/pmp450...
Page 43: Cnmaestro
See Configuring cnMaestroTM Connectivity in Configuration Guide for details. W ireless Manag er (W M) Cambium Networks Wireless Manager 4.0 is also used for managing 450 Platform Family networks. You can achieve better uptime through better visibility of your network with the Cambium Wireless Manager.
Page 44: Radio Recovery Mode
a highly reliable and redundant network management solution that ensures you always have management access to your network. High Scalability: The enhanced Wireless Manager offers you server scalability with support for up to 10,000 nodes as well as support for distributed server architecture. Cambium’s Wireless Manager 4.0 available for download at: https://www.cambiumnetworks.com/products/software-tools/wireless-manager/ Canopy Net work Updat er Tool ( CNUT)
Page 45 Radio Recovery Console – 4 50 i, 4 50 b 4 50 m, MicroPoP and Ret ro Series The Radio Recovery Console mode supports: Restoring factory default IP address 169.254.1.1 and password Boot with factory default Canopy system software settings Load previously installed SW images See Radio Recovery Console-PMP/PTP 450i/450b and PMP 450m in Configuration Guide for more details.
Page 46: Chapter 2: System Hardware
PMP 4 50 Plat form Family Int egrat ed or Connect orized ODU The PMP 450i Series and PMP 450 Series ODUs are supplied in Integrated or Connectorized configurations. The PMP 450m Series AP is supplied in Integrated configuration only.
Page 47 Variant Region Antenna Frequency Channel Range Bandwidth EIRP 5 GHz 90° integrated sector array, 5150 – 5925 5, 10, 15, 20, 30, 14x14 MIMO system, 40 MHz 450m AP No Encryption 3 GHz Global 90° integrated sector array, 8x8 3300 –...
Page 48 4900-5925 5, 10, 15, 20, 30, 27 dBm Retro encryption, Europe integrated 40 MHz Note The Transmit power is limited based on regional setting. Table 21 :PMP 450 Series variants Variant Region Antenna Frequency Channel Bandwidth Max Tx Range Power...
Page 49: Backhaul (Ptp)
Variant Region Antenna Frequency Channel Bandwidth Max Tx Range Power 3.65 GHz FCC ISM Connectorized 5, 7, 10, 15, 20, 30, 40 MHz 3500 – PMP 450 3850 Integrated 16 3.65 GHz FCC ISM Connectorized 3500 – 5, 7, 10, 15, 20, 30, 40 MHz PMP 450 3850 MHz Integrated 8...
Page 50 Variant Region Antenna Frequency Channel Notes Range Bandwidth Power 3 GHz FCC, RoW, Connectorized 3300 - 3900 5, 7, 10, 15, Transmit Canada, Row 20, 30, 40 power limited 450i DES, Europe based on Integrated 23 regional setting 5 GHz FCC, RoW, Connectorized 4900 –...
Page 51: Platform Family Interfaces
Frequency Variant Region Antenna Channel Bandwidth Range Power 3.65 GHz PTP Connectorized 5, 7, 10, 15, 20, 30, 450 BH 40 MHz Integrated 16 3500 – 25 dBm 3850 MHz Integrated 19 5, 10, 15, 20, 30, 40 5.4/5.8 GHz PTP FCC, RoW, Connectorized 450 BH...
Page 52 Table 26 :PMP 3 GHz 450m Series AP interface descriptions and cabling Interface Function Cabling DC power input, 40 V – 60 V, plus Cambium Sync-over-power 4-core (2 twisted pairs) Ethernet 10/100/1000Base-T Ethernet, plus Cambium Sync-over-data CAT 5e 10/100Base-T Ethernet with PoE out CAT 5e UGPS synchronization port Audio tones...
Page 53 PMP 4 50 m Series int erfaces – AP - 5 GHz The 5 GHz 450m Series AP interfaces is illustrated below. Chapter 2: System hardware...
Page 54 Figure 4 : 5 GHz PMP 450m Series interfaces Table 27 :PMP 5 GHz 450m Series AP interface descriptions and cabling Interface Function Cabling PSU/Ethernet Power-over-Ethernet, Ethernet communications (management and data), RJ45 Cable CMM5 sync-over-power synchronization input See Main port pinout Aux/Sync GPS synchronization input and output, UGPS power output RJ 45 Cable...
Page 55 Note SFP kits (Single Mode Optical SFP Interface per ODU (part number C000065L008A), Multi- mode Optical SFP Interface per ODU (part number C000065L009A), and 2.5GBASE-T Copper SFP Interface per ODU (part number C000065L011A)) are required for SFP port connectivity. PMP/ PTP 4 50 i Series int erfaces – AP/ SM/ BH The AP/SM/BH interfaces are illustrated below.
Page 56 Interface Function Cabling RF Port B Horizontal RF connection to antenna 50 ohm RF cable, N-type Ground Lugs For grounding the unit 10 AWG copper wire Note If the Aux port will be used, a second Ethernet Gland will need to be ordered (Part Number: ...
Page 57 Table 29 :PMP/PTP 450b Series - SM (Mid-Gain) interface descriptions and cabling Interface Function Cabling PSU/Ethernet Power-over-Ethernet, Ethernet communications RJ45 Cable (management and data) Audio AUX 3.5 mm audio jack for alignment tone Standard 3.5 mm TRRS Port headphones PMP/ PTP 4 50 b High Gain Series int erfaces The 450b Series products are illustrated below.
Page 58 PMP/ PTP 4 50 Series int erfaces - AP The PMP 450 Series - AP interfaces are illustrated below. Figure 8 : PMP/PTP 450 Series - AP interfaces Table 32 :PMP/PTP 450 Series - AP interface descriptions and cabling – 2.4 GHz and 5 GHz...
Page 59 Figure 9 : PMP/PTP 450 Series – SM/BH interfaces PMP/PTP 450 Series – SM/BH Connectorized interfaces Figure 10 : Note As per Underwriters Laboratory (UL) guidelines, the Ground Lug on the radiated SM is not required. Chapter 2: System hardware...
Page 60 Figure 11 : PMP 450d Series - SM Integrated Dish PMP 450 Series – SM 3 GHz Integrated Figure 12 : Figure 13 : PTP 450 Series – BHM/BHS Chapter 2: System hardware...
Page 61: Atex/Hazloc Variants
A TEX/ HA ZLOC variant s PTP/PMP 450i series products are available in ATEX/Hazloc variants for operation in locations where explosive gas hazards exist, as defined by Hazloc (USA) and ATEX (Europe). ATEX/HAZLOC variants are similar to the standard product except that: ODUs are supplied with the Full capacity license The frequency range is restricted to 4940 MHz to 5850 MHz The maximum EIRP generated by ODU is restricted to comply with the ATEX and HAZLOC...
Page 62 Table 33 :PMP 450 MicroPoP Series Omni interface details Port Name Connector Interface Description PSU/Ethernet Port RJ45 PoE Input Power over Ethernet (PoE) 10/100/1000 BASE-T Ethernet Data Reset button Push button Short press: Reboot the device Long press: Recovery mode Sector interface The PMP 450 MicroPoP Series Sector AP interfaces are illustrated below.
Page 63: Diagnostic Leds
Table 34 :PMP 450 MicroPoP Series Sector interface details Port Name Connector Interface Description PSU/Ethernet Port RJ45 PoE Input Power over Ethernet (PoE) 10/100/1000 BASE-T Ethernet Data Reset button Push button Short press: Reboot the device Long press: Recovery mode Diag nost ic LEDs The diagnostic LEDs of 450 Platform Family ODUs are as shown below.
Page 64 AP/ BHM LEDs The diagnostic LEDs report the information about the status of the AP/BHM. Table 35 :AP/BHM diagnostic LEDs, viewed from unit front ODU LED Display LED Labels PMP 450m Series - AP MAIN LNK+ACT/5 AUX LNK+ACT/4 GPS/3 SES/2 SYN/1 PMP/PTP 450i Series - AP/BHM MAIN LNK/5...
Page 65 Color when active Status information Notes provided ACT/4 For 450 and 450i Presence of data Flashes during data transfer. Frequency of activity on the flash is not a diagnostic indication. Yellow Ethernet link For 450m Series Aux port link speed Flashes to indicate Ethernet activity on Aux LNK + and activity...
Page 66 Color when active Status information Notes provided from a GPS source goes along with SYNC. Red/Green/ Presence of data Lit when link is present: activity on the Ethernet Orange (multi- 10BASE-T = Red link colored for 100BASE-T = Green 10/100/1000). 1000BASE-T = Orange Flashes during data transfer.
Page 67 ODU LED Display LED Labels MAIN LNK/5 ACT/4 GPS/3 SES/2 SYN/1 PMP/PTP 450b Mid-Gain Series – SM/BHS SYNC POWER PMP/PTP 450b 5 GHz High Gain Series – SM/BHS SYNC POWER PMP/PTP 450 Series - SM/BHS ACT/4 GPS/3 SES/2 SYN/1 MAIN LNK/5 PMP/PTP 450b 3 GHz High Gain Series –...
Page 68 ODU LED Display LED Labels SES/SYN 3 GHz 4 50 b diagnost ics LEDs 3 GHz 450b diagnostic LEDs, viewed from below Figure 14 : The 3 GHz 450b has its status LEDs located beneath the cover behind the dish. During installation, the LEDs can be viewed by unclipping the rear most door For clarity, the cover has been removed to show the location of the LEDs Table 40 :450i/450 SM/BHS LED descriptions...
Page 69 Status information provided Color when SM / BHS in SM / BHS in “Aiming” Mode Note active “Operating” Mode GPS/3 Unused Unused ACT/4 Yellow Presence of Presence of data activity Flashes during data data on the Ethernet link transfer. Frequency activity of flash is not a on the...
Page 70 Status information provided Color when active SM / BHS in SM / BHS in “Aiming” Mode Note “Operating” Mode (10/100/1000) data transfer. Frequency of flash is not a diagnostic indication. 10BASE-T = Red 100BASE-T = Green 1000BASE-T = Orange Table 42 :3 GHz 450b SM/BHS LED descriptions Status information provided Color SM / BHS in...
Page 71 Figure 15 : PMP 450 MicroPoP Led Table 43 :PMP 450 MicroPoP SM/BHS LED descriptions Status information provided Color when SM / BHS in SM / BHS in “Aiming” Mode Note active “Operating” Mode Blue DC power Always after power on Red / Green / Ethernet Link Flashes during data...
Page 72 Status information provided Color when SM / BHS in SM / BHS in “Aiming” Mode Note active “Operating” Mode Registering = changes from Green to Yellow. Solid green Registered = Solid yellow Operat ing Mode Scanning: For hardware with 5 and 6 LEDs: If the SM/BHS is not registered to AP/BHM, then these LEDs cycle on and off from left to right (SYN/1, SES/2 and GPS/3).
Page 73: Power Supply Options
Power is supplied to the ODU by a PoE injector, except for 3 GHz PMP 450m where power and data are supplied separately. All power injectors / power supplies in the Cambium Networks range are designed for an indoor environment. The following table summarizes the Cambium Networks power supply variants available for each 450 radio model.
Page 74: Power Supply - Pmp 450M Series
Pow er sup p ly – PMP 4 50 m Series The PMP 450m Series - 5 GHz AP supports powering from the following power sources: AC+DC Enhanced Power Injector (see AC+DC Enhanced Power Injector C000065L002C) CMM5 56 V power and sync injector module with external 240 W or 600 W power supply PSU part numbers Table 44 :PSU part numbers for PMP 450m AP (5/3 GHz) Cambium description...
Page 75 PSU part numbers Table 45 :PSU part numbers for PMP/PTP 450i Series Cambium description Cambium part number Power supply, 60 W, 56 V with Gbps support N000065L001B AC+DC Enhanced Power Injector C000065L002C Line Cord, Fig 8 – US N000065L003A Line Cord, Fig 8 – UK N000065L004A Line Cord, Fig 8 –...
Page 76 AC+DC Enhanced Power Inject or C0 0 0 0 65L0 0 2C The AC+DC Enhanced Power Injector interfaces are shown in AC+DC Enhanced Power Injector interfaces and described in AC+DC Enhanced Power Injector interface functions. Figure 17 : AC+DC Enhanced Power Injector interfaces Table 47 :AC+DC Enhanced Power Injector interface functions Interface Function...
Page 77 Interface Function (green) LED Power - DC Indicates power is applied at the DC In port (green) LED Ethernet Detects Ethernet traffic and it is used with PTP 650 and PTP 700 families only. It does (yellow) LED not operate with the 450 platform products. Note The earlier power injector models only had a single power LED that combined the AC+DC indications.
Page 78: Power Supply - Pmp/Ptp 450B Series
Table 48 :-48 V DC Power Injector interfaces Interface Function DC input 36 to 60 V, 2 A RJ45 Sockets Two (Data In and Data & Power Out) LEDs Two (AC and Port) Pow er sup p ly – PMP/ PTP 4 50 b Series The PMP/PTP 450b Series support powering from the following powering sources: Gigabit Ethernet Capable Power Supply –...
Page 79: Power Supply - Pmp/Ptp 450 Series
This power supply requires procurement of an AC line cord that connects the outlet of the same (using IEC-60320 Type 5 connector). A list of available power supply cord options from Cambium Networks are given in PSU part numbers for PMP/PTP 450 Series.
Page 80: Power Supply - Pmp 450 Micropop Series
Table 52 : Gigabit Enet Capable power supply Interface Function AC Input 90-264 V AC, 0.5 A rms @120 V AC/ 0.25 A rms @240 V AC, 47 to 63 Hz DC Output 30.0 V DC +/-5%, 15 W, 500 mA max Sockets Two (Data In and Data &...
Page 81: Odu Mounting Brackets & Accessories
Cambium description Cambium part number Line Cord, Fig 8 – US N000065L003A Line Cord, Fig 8 – UK N000065L004A Line Cord, Fig 8 – EU N000065L005A Power over Ethernet midspan, 60 W, -48 V DC Input N000000L036A AC Power Inject or N0 0 0 0 65L0 0 1B The AC Power Injector interfaces are shown in AC Power Injector interfaces and described in AC Power Injector interface functions.
Page 82: Lightning Protection
The "Mounting Bracket (Integrated)" provide a wider range of adjustment for AP, SM and BH integrated devices. Table 55 :Accessories part numbers Cambium description Cambium part number Mounting brackets Tilt Bracket Assembly N000045L002A Mounting Bracket (Integrated) N000065L031A Mounting Bracket (Connectorized) N000065L032A Miscellaneous Ethernet cable adapter for CMM4 (Dongle) N000045L001A...
Page 83: Odu Interfaces
450m AP 450m AP PMP 450 MicroPo Cambium Networks does NOT recommend deploying Gas Discharge Tube-based surge protection on PMP 450i, PMP 450b or PMP 450 MicroPoP platforms. ODU int erfaces PMP 4 50 m Series 5 GHz A P These interfaces are described in PMP/PTP 450i Series –...
Page 84: Pmp 450M Series 3 Ghz Ap
Table 57 :PMP 450m Series – AP rear interfaces Port name Connector Interface Description RJ45 PoE input Power over Ethernet (PoE). (Main) 10/100/1000BASE-T Ethernet Data RJ45 10/100BASE-T Ethernet Data PoE output Standard IEEE802.3at PoE. Sync input/output Connection and powering of UGPS Sync input 2.5 Gbps Fiber Ethernet and 1 Gbps Data and Management Services.
Page 85: Pmp/Ptp 450I
Table 58 :PMP 450m 3 GHz – AP rear interfaces Port name Connector Interface Description 4-pin DC power input DC power input, 40 V – 60 V, plus Cambium Sync-over- power Main RJ45 Ethernet 10/100/1000BASE-T Ethernet, plus Cambium Sync- over-data RJ45 Ethernet 10/100BASE-T Ethernet with PoE out Synchronization UGPS synchronization port...
Page 86 Table 59 :PMP/PTP 450i Series – ODU rear interfaces Port name Connector Interface Description Main PSU RJ45 PoE input Power over Ethernet (PoE). 10/100/1000BASE-T Ethernet Data Sync/Aux RJ45 10/100/1000BASE-T Ethernet Data (see Note below) PoE output Standard IEEE802.3at PoE. Sync input/output Connection and powering of UGPS Sync input The front of the connectorized ODU (PMP/PTP 450i Series –...
Page 87: Pmp/Ptp 450B Mid-Gain/High Gain/Retro Interfaces
Warning The PMP 450 Ruggedized High Gain integrated Subsciber Module (Cambium part nubers CO35045CO14A and CO36045CO14A), while encapsulated in a 450i-type enclosure, contains 450 circuitry which must be powered via 30 V DC. Powering these SMs with a 48 V DC will damage the device. Figure 25 : PMP/PTP 450i Series –...
Page 88 Figure 26 : PMP/PTP 450b Mid-Gain / High Gain - ODU rear interfaces, covers removed 5 GHz 450b Mid-Gain 5 GHz 450b High Gain 3 GHz 450b High Gain 450b High Gain connections are located below cover behind the dish PMP/PTP 450b Retro: Table 60 :PMP/PTP 450b Mid-Gain / High Gain/Retro –...
Page 89: Pmp 450 Micropop Ap
Port name Connector Interface Description Port Pins 7 & 8 = +30 V DC Pins 4 & 5 = Return 10/100/1000BASE- Data T Ethernet Aux Port Standard Alignment audio 3.5 mm audio jack for alignment tone tone output TRRS 3.5 mm headphones Timing signal input for Backhaul Master (BHM) synchronization...
Page 90: Micropop Lightning Arrester Details
Figure 27 : PMP 450 MicroPoP (Omni and Sector) Series - ODU rear interfaces Table 61 :PMP 450 MicroPoP Series – ODU rear interfaces Port name Connector Interface Description Main PSU RJ45 PoE input Power over Ethernet (PoE). 10/100/1000BASE-T Ethernet Data Reset button - Push button Short press: Reboot the device...
Page 91 The locally sourced steel lightning rod needs to be minimum 4 feet long, maximum 5/8 inches thick and secured with two separate hose clamps and should be at least 0.5m higher than the top of the omni, with 3 feet (1m) over the top as a maximum. Either type of lightning rod can be used, the single blunt tip version or having a dissipator on top (the dissipator concept has many smaller rods clustered together so they have many weak streamers instead of one large streamer which would attract a lighting hit better).
Page 92 Figure 29 : MicroPoP Omni antenna implementation pattern (Vertical) Chapter 2: System hardware...
Page 93: Cabling
Aux port can also be configured to provide Sync out. Cambium Networks provide a 3 meter accessory cable, N000000127A, which operates with cnPulse only. If a longer cable is desired, please source a shielded outdoor 4 core cable and wire according to the table below.
Page 94: Ethernet Standards And Cable Lengths
Table 63 :Connections for UGPS to 450b Aux port UGPS RJ11 450b 3.5 mm TRRS Signal description jack GPS Sync in (1PPS) Ring 2 GPS serial data in Ring 1 GPS power out (+5 V DC) Shield/Ground GPS 0 V (return) Et hernet st and ard s and cab le leng t hs All configurations require a copper Ethernet connection from the ODU (Main PSU port) to the Power supply.
Page 95: Outdoor Copper Cat 5E Ethernet Cable
328 ft (100 m) Reel Outdoor Copper Clad CAT5E WB3176 SFP m od ule kit s SFP module kits allow connection of a PMP 450 Series ODU to a network over an Optical Gigabit Ethernet interface (1000BASE-LX or 1000BASE-SX) full-duplex mode.
Page 96 Order SFP module kits from Cambium Networks ( SFP module kit part numbers). Table 66 : SFP module kit part numbers Cambium description Cambium part number Single Mode Optical SFP Interface per ODU C000065L008A Multi-mode Optical SFP Interface per ODU C000065L009A 2.5GBASE-T Copper SFP Interface per ODU C000065L011A...
Page 97: Main Ethernet Port
Figure 32 : Optical SFP transceiver module Figure 33 : Long cable gland Main Et hernet p ort The PoE cable pinout diagram for Main port is given below. Table 69 :Main port PoE cable pinout RJ45 Interface Ethernet PoE input description description 1000 BaseT Ethernet with...
Page 98: Aux Port
A ux p ort Table 70 :Aux port PoE cable pinout RJ45 pin Interface Signal description PoE output description 100BASE-T Ethernet with PoE +TxRx0 Out (see note below) –TxRx0 +TxRx1 –TxRx1 GPS and alignment tone GPS power out, Alignment tone out, GPS data out GPS data in GPS 0 V GPS Sync in...
Page 99 RJ4 5 connect ors and spare glands RJ45 connectors are required for plugging Cat 5e cables into ODUs, LPUs, PSUs and other devices. Order RJ45 connectors and crimp tool from Cambium Networks ( RJ45 connector and spare gland part numbers).
Page 100 Caution To avoid damage to the drop cable, prevent the cable from rotating while tightening the sealing cap of the cable gland. Tighten the sealing cap into the gland body until the rubber inside the cap starts to bulge outwards. Figure 36 : Cable gland Table 74 :RJ45 connector and spare gland part numbers...
Page 101: Ethernet Cable Testing
Table 75 :Breather vent part number Cambium description Cambium part number Breather Vent - PG16 size (Qty. 10) N000000L141A Et hernet cab le t est ing This section describes a procedure for testing the RJ45 Ethernet cables used for Main and Aux port connectivity on 450i and 450m radios.
Page 102: Lightning Protection Unit (Lpu) And Grounding Kit
Note These figures should be indicative only rather than hard limits. The measurement must be done with a low-voltage DMM, not a high-voltage insulation tester. Lig ht ning p ro t ect io n unit (LPU) and g ro und ing kit 450i and 450m Series LPUs provide transient voltage surge suppression for ODU installations.
Page 103: Dc Lpu And Grounding Kit
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 (LPU and grounding kit part number).
Page 104 U-bolts, nuts and washers for mounting LPUs ODU to top LPU ground cable (M6-M6), bolt and washers ODU to grounding system ground cable, 4-pin connector kits (4 kits, one shown) bottom LPU ground cable (2pcs, M6 and M10 lugs), bolt and washers Chapter 2: System hardware...
Page 105 One LPU and grounding kit (LPU and grounding kit contents) 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 Network (DC LPU and grounding kit part number).
Page 106: Cable Grounding Kit
Each connectorized ODU requires one external antenna (normally dual-polar). For connectorized units operating in the USA or Canada 900 MHz, 4.9 GHz, 5.1 GHz, 5.2 GHz, 5.4 GHz or 5.8 GHz bands, choose external antennas which are recommended by Cambium Networks. Do not install any other antennas.
Page 107: Supported External Ap Antennas
Order CNT-400 RF cable and N type male connectors from Cambium Networks (RF cable and connector part numbers). Table 83 :RF cable and connector part numbers...
Page 108: Gps Synchronization
LPUs) are required for protecting the antenna RF cables at building entry. One arrestor is required per antenna cable. One example of a compatible lightning arrestor is the Polyphaser LSXL-ME or LSXL (not supplied by Cambium Networks). GPS sy nchro nizat io n GPS synchronizat ion d escrip t ion Cambium offers GPS synchronization to limit the network’s own self-interference.
Page 109: Cmm5
Support for Gigabit Ethernet (1000BaseT) Modular and scalable from 4 ports to 32 ports Direct +/- 48 V DC input (optional AC/DC power supplies are available from Cambium Networks) Uses Cambium Networks UGPS for a synchronization source Dual resilient power inputs...
Page 110 Scenario Equipment Needed Features Support Rack Mountable UGPS 48 V DC Available No management or resilience required Figure 40 : Cluster Management: Scenario 1 Clust er Management : Scenario 2 The following is a CMM5 Cluster Management scenario using four PMP 450i Access Points and four PMP 450 Access Points.
Page 111: Cmm5 Controller Module
Scenario Equipment Needed Features Device Support Rack Mountable AC only Two UGPS AC-to-48 V DC Power Supplies Resilient power environments sources Management Secure, Remote required Management (https) Resilience required Scalable to 32 devices Figure 41 : Cluster Management: Scenario 2 CMM5 Cont roller Mod ule The major features of the CMM5 Controller Module are: Auto-detect/control up to 8 Power Injectors...
Page 112: Cmm5 Injector Module
CMM5 Inject or Mod ule The CMM5 Injector Module has the following features: Stand-alone mode or used with controller for mgmt. +/- 48 V DC input with green/amber LED’s for status Injects SYNC pulse from UGPS 2U / half-width rack-mount Note There are two different versions of the injector module (56 V and 29 V).
Page 113: Cmm5 Specifications
Product Power/Injector Module Sync PMP/ PTP 450b Yes/29 V PMP 450/PTP 450 Yes/29 V PMP 100/PTP 100 Yes/29 V CMM5 Sp ecificat ions The following table provides specifications for the CMM5 Power & Sync Injector (56 Volts). Table 87 :CMM5 Specifications CMM5 Power and Sync Injector 56 Volts Model Number C000000L556B...
Page 114: Cmm4 (Rack Mount)
The CMM4 has two DC power inputs, one 29 V and one 56 V. It can be used to power and synchronize both 29 V legacy products such as the PMP 450 Series and 56V products such as the PMP 450i Series simultaneously.
Page 115 Figure 45 : CMM4 56 V power adapter (dongle) CMM4 56 V power adapt er cable pinout Figure 46 : CMM4 power adapter cabling diagram Table 88 :CMM4 power adapter cable pinout Plug J1 pin Jack J2 pin Chapter 2: System hardware...
Page 116: Cmm4 (Cabinet With Switch)
Plug J1 pin Jack J2 pin Screen Screen Note Pins 5 and 7 are wired in a cross-over configuration. CMM4 (Cab inet w it h sw it ch) Designed to deliver consistent and reliable wireless broadband service, the PMP/PTP system gracefully scales to support large deployments.
Page 117: Cmm4 (Cabinet Without Switch)
CMM4 (Cab inet w it hout sw it ch) This CMM includes all the functionality listed above but there is no switch. This provides the network operator the flexibility to use the switch of their choice with the power and synchronization capabilities of the CMM4.
Page 118: Installing A Gps Receiver
Note A CMM3 cannot be used to power up a 450i or 450m Series ODUs. Inst alling a GPS receiv er To install a GPS receiver as the timing reference source, use the following procedures: Mounting the GPS receiver Cabling the GPS Antenna Installing and connecting the GPS LPU Caution Prior to power- up of equipment, ensure that all cables are connected to the...
Page 119: Mounting The Gps Receiver
Mount ing t he GPS receiver module on t he equipment building If mounting the GPS receiver on the equipment building (GPS receiver wall installation), select a position on the wall that meets the following requirements: It must be below the roof height of the equipment building or below the height of any roof-mounted equipment (such as air conditioning plant).
Page 120: Cabling The Gps Antenna
450m/450i Series network migration. It specifies Cambium part numbers for 450 Platform Family components. Order PMP 450m Series, PMP/PTP 450i Series and PMP/PTP 450 Series ODUs from Cambium Networks. PMP 4 50 m Table 89 :PMP 450m Series ODU part numbers...
Page 121 Cambium description Cambium part number 3 GHz PMP 450m Integrated Access Point, 90 Degree C030045A114A (Limited, No Encryption) 5 GHz PMP 450m Integrated Access Point, 90 Degree (ROW) C050045A101A 5 GHz PMP 450m Integrated Access Point, 90 Degree (FCC) C050045A102A 5 GHz PMP 450m Integrated Access Point, 90 Degree (EU) C050045A103A 5 GHz PMP 450m Integrated Access Point, 90 Degree (DES Only) C050045A104A...
Page 122 Cambium description Superseded Sales Revised SKU suffix 5 GHz PMP 450i Connectorized Access Point (IC) C050045A015A* C050045A015B** 5 GHz PMP 450i AP, Integrated 90°sector antenna (RoW) C050045A005A 5 GHz PMP 450i AP, Integrated 90°sector antenna (FCC) C050045A006A 5 GHz PMP 450i Integrated Access Point, 90 degree (EU) C050045A007A 5 GHz PMP 450i AP, Integrated 90°sector antenna (DES only) C050045A008A...
Page 123 Cambium description Superseded Sales Revised SKU suffix 5 GHz PMP 450i Conn Access Point (ROW), ATEX/HAZLOC C050045A009A C050045A009B 5 GHz PMP 450i Conn Access Point (FCC), ATEX/HAZLOC C050045A010A C050045A010B 5 GHz PMP 450i Conn Access Point (EU), ATEX/HAZLOC C050045A011A C050045A011B 5 GHz PMP 450i Integrated Access Point, 90 degree (ROW), C050045A012A C050045A012B...
Page 124 Cambium description Superseded Sales Revised SKU suffix 450i Connectorized 5085CHH 5085CJH 450i Integrated 90 Deg Sector 5082JH 5082KH 450i Integrated High Gain Directional 5092JH 5092KH 450i Connectorized ATEX/HAZLOC - ATEX CONTROLLED 5085CHH 5085CJH ITEM 450i Integrated 90 Deg Sector ATEX/HAZLOC - ATEX 5085HH 5085JH CONTROLLED ITEM ...
Page 125 Cambium description Superseded Sales Revised suffix ODU model 450i Connectorized 5085CHH 5085CJH 450i Integrated 90 Deg Sector 5082JH 5082KH 450i Integrated High Gain Directional 5092JH 5092KH 450i Connectorized ATEX/HAZLOC - ATEX CONTROLLED ITEM 5085CHH 5085CJH 450i Integrated 90 Deg Sector ATEX/HAZLOC - ATEX 5085HH 5085JH CONTROLLED ITEM ...
Page 126 PMP/ PTP 4 50 b Table 94 :PMP/PTP 450b Series ODU part numbers Cambium description Cambium part number 450b (PMP SM and PTP) 5 GHz 450b - Mid-Gain – ROW C050045B031A 5 GHz 450b - Mid-Gain – FCC C050045B032A 5 GHz 450b - Mid-Gain – ISED C050045B033A 5 GHz 450b - Mid-Gain –...
Page 127 Cambium description Cambium part number 2.4 GHz PMP 450 Connectorized Access Point (No Encription) C024045A003A 3.5 GHz PMP 450 Connectorized Access Point C035045A001A 3.5 GHz PMP 450 Connectorized Access Point (No Encription) C035045A003A 3.6 GHz PMP 450 Connectorized Access Point C036045A001A 3.6 GHz PMP 450 Connectorized Access Point (DES) C036045A003A...
Page 128 Cambium description Cambium part number 3.6 GHz PMP 450 Subscriber Module, 20 Mbps C036045C003A 3.6 GHz PMP 450 Subscriber Module, Uncapped C036045C004A 3.6 GHz PMP 450 Connectorized Subscriber Module, 4 Mbps C036045C005A 3.6 GHz PMP 450 Connectorized Subscriber Module, 10 Mbps C036045C006A 3.6 GHz PMP 450 Connectorized Subscriber Module, 20 Mbps C036045C007A...
Page 129 Cambium description Cambium part number PTP 450 900 MHz END – Connectorized C009045B001A PTP 450 3.5 GHz END – Integrated C035045B001A PTP 450 3.5 GHz END – Connectorized C035045B002A PTP 450 3.5 GHz END – Integrated – DES Only C035045B003A PTP 450 3.5 GHz END –...
Page 130 Cambium description Cambium part number Line Cord, Fig 8 – US N000065L003A Line Cord, Fig 8 – UK N000065L004A Line Cord, Fig 8 – EU N000065L005A Power over Ethernet midspan, 60 W, -48 V DC Input N000000L036A Power Supply, 30 W, 56 V – Gbps support N000000L034A Gigabit Enet Capable Power Supply - 30 V DC, 15 W N000900L001A...
Page 131 Cambium description Cambium part number 53CM Offset, Reflector Dish Kit, 4PK HK2022A Alignment Tool Headset ACATHS-01A IP67 doors and glands for 450b High Gain, 4-pack N000000L135A Accessories Surge Suppressor (30 V DC) 600SSH Gigabit Surge Suppressor (56 V DC) C000000L033A LPU and Grounding Kit (1 kit per ODU) C000065L007B Single Mode Optical SFP Interface per ODU...
Page 132 Cambium description Cambium part number PMP 450 Platform AP Extended Warranty, 2 Additional Years SG00TS4017A PMP 450 Platform AP Extended Warranty, 4 Additional Years SG00TS4025A PMP 450 Platform SM Extended Warranty, 1 Additional Year SG00TS4010A PMP 450 Platform SM Extended Warranty, 2 Additional Years SG00TS4018A PMP 450 Platform SM Extended Warranty, 4 Additional Years SG00TS4026A...
Page 133: Chapter 3: System Planning
Chap t er 3: Syst em p lanning This chapter provides information to help the user to plan a PMP/PTP 450 Platform link. The following topics are described in this chapter: Typical deployment contains diagrams illustrating typical PMP/PTP 450 Platform site deployments. Site planning describes factors to be considered when planning the proposed link end sites, including grounding, lightning protection and equipment location.
Page 134 Figure 51 : Mast or tower installation Chapter 3: System planning...
Page 135 Figure 52 : Wall installation Chapter 3: System planning...
Page 136 Figure 53 : Roof installation Chapter 3: System planning...
Page 137 Figure 54 : GPS receiver wall installation Chapter 3: System planning...
Page 138: Site Planning
Figure 55 : GPS receiver tower or mast installation Sit e p lanning This section describes factors to be considered when choosing sites for PMP or PTP radios, power supplies, CMM4 (if applicable) and UGPS (if applicable). Sit e select ion for PMP/ PTP rad ios When selecting a site for the ODU, consider the following factors: Height and location to ensure that people are kept away from the antenna.
Page 139: Power Supply Site Selection
Cable lengths; see Ethernet standards and cable lengths. The effect of strong winds on the installation; see ODU wind loading. Pow er sup p ly sit e select ion When selecting a site for the ODU power supply, consider the following factors: Indoor location with no possibility of condensation, flooding or high humidity.
Page 140 over the structure. Where the sphere rests against the ground and a strike termination device (such as a finial or ground bar), all the space under the sphere is considered to be in the zone of protection (Zone B). Similarly, where the sphere rests on two finials, the space under the sphere is considered to be in the zone of protection.
Page 141: Odu And External Antenna Location
ODU and ext ernal ant enna locat ion Find a location for the ODU (and external antenna for connectorized units) that meets the following requirements: The equipment is high enough to achieve the best radio path. People can be kept a safe distance away from the equipment when it is radiating. The safe separation distances are defined in Calculated distances and power compliance margins in Legal and Open Source Guide.
Page 142 Up to 200 mph (Connectorized) for PMP/PTP 450i – all models 3 GHz and 5 GHz Up to 200 mph (322 kph) for PMP/PTP 450 – all models Up to 200 mph (322 kph) for PMP 450 – Ruggedized Up to 200 mph (322 kph) for PMP 450i – all models 900 MHz Up to 118 mph (191 kph) for PMP 450b Mid-Gain Up to 90 mph (145 kph) for PMP 450b High Gain Up to 90 mph (145 kph) for PMP 450d...
Page 143 Type of ODU Max surface area (square Wind speed (kilometer per meters) hour) Directional antenna – 5 GHz 0.093 Integrated 90º sector antenna - 5 0.126 Table 100 :PMP 450m Series wind loading (lb force) Type of ODU Max surface area (square feet) Wind speed (miles per hour) Integrated 90º...
Page 144 Table 102 :PMP/PTP 450 Series wind loading (Newton) Type of ODU Max surface area (square Wind speed (kilometer per meters) hour) External 60º sector antenna – 2.4 GHz 0.27 1019 1129 External 60º sector antenna – 5 GHz 0.066 External 90º sector antenna – 5 GHz 0.083 0.027 Integrated High Gain, Ruggedized...
Page 145: Hazardous Locations
Table 105 :PMP 450b Series wind loading (lb force) Type of ODU Max surface area (square feet) Wind speed (miles per hour) Integrated Mid-Gain 0.33 Integrated High Gain 1.41 Hazard o us lo cat io ns Check that the ODUs will not be exposed to hazardous gases, as defined by HAZLOC (USA) and ATEX (Europe) regulations.
Page 146: Lightning Protection Unit (Lpu) Location
The drop cable shield must be grounded at the bottom of the tower, near the vertical to horizontal transition point. This ground cable must be bonded to the tower or tower ground bus bar (TGB), if installed. If the tower is greater than 61 m (200 ft) in height, the drop cable shield must be grounded at the tower midpoint, and at additional points as necessary to reduce the distance between ground cables to 61 m (200 ft) or less.
Page 147: Conforming To The Limits
Conform ing t o t he lim it s Ensure the link is configured to conform to local regulatory requirements by configuring the PMP 450/450i Series AP or PTP 450/450i Series BHM for the correct country. In the following situations, this does not prevent operation outside the regulations: When using connectorized ODUs with external antennas, the regulations may require the maximum transmit power to be reduced.
Page 148: Obstructions In The Fresnel Zone
approximately. 2 inches (or 5 cm) for 5.4 GHz and 5.8 GHz signals. 12 inches for 900 MHz signals A reflected signal can arrive at the antenna of the receiver later than the non-reflected signal arrives. These two or more signals cause the condition known as multipath. Multipath may increase or decrease the signal level, resulting in overall attenuation that may be higher or lower than that caused by the link distance.
Page 149 The Frame Calculator is available on the web management interface Tools > Frame Calculator. To use the Frame Calculator, type into the calculator various configurable parameter values for each proximal AP/BHM and then record the resulting AP/BHM Receive Start value. Next vary the Downlink Data percentage in each calculation and iterate until a calculated AP/BHM Receive Start for all co-located AP/BHMs where the transmit end does not come before the receive start.
Page 150: Frame Length
Configuration Frame time Subframe number 5 ms D S U D D D S U D D 10 ms D S U U U D D D D D 10 ms D S U U D D D D D D 10 ms D S U D D D D D D D 5 ms...
Page 151: Frame Start
Fram e st art GPS synchronization is a way of guaranteeing that the frame start is the same for all APs. This is what is used by the Cambium PMP devices. However, the timing between the GPS signal and the start of the TDD frame is not necessarily the same for all systems.
Page 152 transmitting and another receiving. Figures X and Y shows one example of frames that do not interfere and one example of frames that do interfere. In both Figures the downlink time and the uplink time of the two APs are not identical. In Figure X there is no overlap between one AP transmitting and another AP receiving, and the two APs can be co-located.
Page 153: Pmp - Lte Co-Location Tool
The configuration parameters that affect the frame structure need to be selected in order to avoid any overlap between transmit and receive times. In order to help with the selection of system parameters, Cambium Networks offers a PMP – LTE co- location tool, available at https://support.cambiumnetworks.com/files/colocationtool/...
Page 154: Multiple Ofdm Access Point Clusters
Using the tool, parameters can be updated in order to find a set of values that allows for co-location. For example, changing the duty cycle of the PMP AP from 70% to 80% makes both equations true, and there is no longer overlap between one AP transmitting and the other receiving. Mult ip le OFDM A ccess Point Clust ers When deploying multiple AP clusters in a dense area, consider aligning the clusters as shown below.
Page 155: Considerations On Back-To-Back Frequency Reuse
Consid erat ions on b ack-t o-b ack freq uency reuse Cambium Networks recommends using back- to- back (ABAB) frequency reuse, as shown in Example layout of 16 Access Point sectors (ABCD), 90-degree sectors. This means that a base site of four sectors can be created using two frequencies, which works very well and helps define networks in situations where high capacity is required in a limited amount of spectrum.
Page 156 GPS synchronization: all the access points transmit at the same time Uplink and Downlink timings across APs do not overlap: they can be adjusted using the frame calculators and co-location tools provided by Cambium Uplink power control to ensure that all signals are received on the uplink at the same level: this is automatically enabled on all sectors There are no reflecting objects which are too large in the exclusion zones defined in this section.
Page 157 Reflect ion likelihood guidance As shown in the previous section, reflection can cause a decrease in throughput in an ABAB base site. This section provides guidance on whether a reflection is likely to cause interference. The first condition for whether a reflection can cause the data rate to reduce is that the reflecting object must be in view of the AP and the SM to re-transmit the signal.
Page 158 Figure 61 : cnMedusa Antenna Chapter 3: System planning...
Page 159 Sector Antenna and cnMedusa Antenna each have three diagrams scaled in meters where Sector Antenna is for the sector antenna and cnMedusa Antenna is for cnMedusa. In each figure the distances and heights assume a typical down tilt of 4°. In each figure the top diagram represents the clearances required at zero azimuth.
Page 160: Link Planning
Figure 62 : PMP 450m Series AP antenna beam PMP 4 50 m inst allat ion recommendat ions For best performance it is recommended to have a clearance zone around the mast. The clearance zone depends on the surrounding environment and the antenna’s down tilt. If the mast is surrounded by metal, then larger clearance is required compared to an environment where the antenna is surrounded by foliage SMs should be spread in azimuth of AP antenna...
Page 161: Path Loss
The 450 Platform Family is designed to operate in Non- Line- of- Sight (NLoS) and Line- of- Sight (LoS) environments. An NLOS environment is one in which there is no optical line-of-sight, that is, there are obstructions between the antennas. OFDM technology can often use multi-pathing to an advantage to overcome nLOS, especially in cases where the Fresnel zone is only partially blocked by buildings, “urban canyons”, or foliage.
Page 162: Calculating Fade Margin
Rx signal level is calculated as follows: Rx signal level dB = Tx power − Tx cable loss + Tx antenna gain − free space path loss + Rx antenna gain − Rx cable loss Note This Rx signal level calculation presumes that a clear line of sight is established between the transmitter and receiver and that no objects encroach in the Fresnel zone.
Page 163: When To Install Connectorized Units
W hen t o inst all connect orized unit s Most 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. Where long LOS links are required.
Page 164: Data Network Planning
The DNS Client is used to resolve names of management servers within the operator’s management domain (see Cambium networks management domain). This feature allows hostname configuration for NTP servers, Authorization Servers, DHCP relay servers, and SNMP trap servers. Operators may choose to either enter in the FQDN (Fully Qualified Domain Name) for the host name or to manually enter the IP addresses of the servers.
Page 165: Network Address Translation (Nat)
Figure 63 : Cambium networks management domain Net w ork A d d ress Translat ion (NA T) NAT, DHCP Server, DHCP Client and DMZ in SM The system provides NAT (network address translation) for SMs in the following combinations of NAT and...
Page 166: Developing An Ip Addressing Scheme
DHCP DHCP enables a device to be assigned a new IP address and TCP/IP parameters, including a default gateway, whenever the device reboots. Thus DHCP reduces configuration time, conserves IP addresses, and allows modules to be moved to a different network within the Cambium system. In conjunction with the NAT features, each SM provides: A DHCP server that assigns IP addresses to computers connected to the SM by Ethernet protocol.
Page 167: Selecting Non-Routable Ip Addresses
Example IP address and subnet mask In Example of IP address in Class B subnet, the first 16 bits of the 32-bit IP address identify the network: Figure 64 : Example of IP address in Class B subnet Octet 1 Octet 2 Octet 3 Octet 4 IP address 169.254.1.1...
Page 168: Engineering Vlans
Disabled, so that the AP overwrites the MAC address in ARP packets before forwarding them. Enabled, so that the AP forwards ARP packets regardless of whether it has overwritten the MAC address. This is the Translation Bridging feature, which you can enable in the General page of the Configuration web page in the AP.
Page 169 SM membership in VLANs With the supported VLAN functionality, the radios determine bridge forwarding on the basis of not only the destination MAC address, but also the VLAN ID of the destination. This provides flexibility in how SMs are used: Each SM can be a member in its own VLAN.
Page 170 any combination of with a VID Local Egress VLAN not in the parameter settings membership table Priorit y on VLANs ( 80 2.1p) The radios can prioritize traffic based on the eight priorities described in the IEEE 802.1p specification. When the high-priority channel is enabled on a SM, regardless of whether VLAN is enabled on the AP for the sector, packets received with a priority of 4 through 7 in the 802.1p field are forwarded onto the high- priority channel.
Page 171: Network Management Planning
Note The proprietary MIBs are provided in the 450 Platform Family software download files in the support website (see Contacting Cambium Networks). Enab ling SNMP Enable the SNMP interface for use by configuring the following attributes in the SNMP Configuration page:...
Page 172: Isolating Ap/Bhm From The Internet
Managing module access by passwords Filtering protocols and ports Port Configuration Isolat ing A P/ BHM from t he Int ernet Ensure that the IP addresses of the AP/BHM in the network: are not routable over the Internet. do not share the subnet of the IP address of your user. RFC 1918, Address Allocation for Private Subnets, reserves for private IP networks three blocks of IP addresses that are not routable over the Internet: /8 subnets have one reserved network, 10.0.0.0 to 10.255.255.255.
Page 173: Managing Module Access By Passwords
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. MIB-based security management may allow a network operator to take advantage of built-in security management capabilities of existing network managers.
Page 174: Planning For Radius Operation
not rely on the root account for access to the modules. Each module supports four or fewer user accounts, regardless of account levels. The available levels are ADMINISTRATOR, who has full read and write permissions. This is the level of the root and admin users, as well as any other administrator accounts that one of them creates.
Page 175: Filtering Protocols And Ports
EAP PEAP Phase 2: CHAP MSCHAPv2 Ensure that the authentication method selected in 450 Platform Family is supported by the RADIUS server. Filt ering p rot ocols and p ort s Configure filters for specified protocols and ports from leaving the AP/BHM and SM/BHS and entering the network.
Page 176 Bootp Server Up to 3 user-defined ports All other IPv4 traffic Any or all of the following IPv6 (Internet Protocol version 6) protocols: SMB (Network Neighborhood) SNMP Bootp Client Bootp Server Up to 3 user-defined ports All other IPv6 traffic Filter Direction –...
Page 177: Encrypting Downlink Broadcasts
Protocol Selected Port Filtered (Blocked) Destination Ports UDP: 137, 138, 139, 445, 3702 and 1900 Destination Ports TCP: 137, 138, 139, 445, 2869, 5357 and 5358 SNMP Destination Ports TCP and UDP: 161 and 162 Bootp Client Source Port 68 UDP Bootp Server Source Port 67 UDP User Defined Port 1.3 User defined ports for filtering UDP and TCP...
Page 178: Isolating Sms In Pmp
The encryption used is AES for an AES- configured module. Before the Encrypt Downlink Broadcast feature is enabled on the AP, air link security must be enabled on the AP. Isolat ing SMs in PMP In an AP, SMs in the sector can be prevented from directly communicating with each other. In CMM4, the connected APs can be prevented from directly communicating with each other, which prevents SMs that are in different sectors of a cluster from communicating with each other.
Page 179: Controlling Pppoe Padi Downlink Forwarding
this DHCP state parameter is also viewable, but is not settable, in the Network Interface tab of the Home page. In the SM/BHS, this parameter is settable in the NAT tab of the Configuration web page, but only if NAT is enabled. in the IP tab of the Configuration web page, but only if the Network Accessibility parameter in the IP tab is set to Public.
Page 180: Remote Ap (Rap) Performance
The co-located SM receives data in one channel, and the remote AP must redistribute the data in a different channel. The two channels need to have a frequency gap equal to at least two times the used channel bandwidth. Base your selection of frequency band ranges on regulatory restrictions, environmental conditions, and throughput requirements.
Page 181: Example Use Case For Passing Sync
The 5 GHz modules provide a sustained aggregate throughput of up to 126 Mbps to the sector. One of the SMs in the sector is wired to a 900-MHz remote AP, which provides NLoS sustained aggregate throughput 126 Mbps to 900-MHz SMs up to 4 miles away in the sector. 94 Mbps to 900-MHz SMs between 4 and 10 miles away in the sector.
Page 182 wired to SM that also serves a customer. Figure 68 : Remote AP wired to SM that also serves a customer If the SM simply serves as a relay, you must use a straight-through RJ-45 female-to-female coupler and wire the SM to the remote AP as shown in Remote AP wired to SM that serves as a relay. Chapter 3: System planning...
Page 183: Passing Sync Signal
Figure 69 : Remote AP wired to SM that serves as a relay Passing Sync sig nal Passing Sync in a Single Hop Network sync can be passed in a single hop in the following network designs: Design 1 A CMM provides sync to a co-located AP. This AP sends the sync over the air to SMs.
Page 184 This design is illustrated in Additional link to extend network sync, Design 3. Figure 70 : Additional link to extend network sync, Design 3 Design 4 A CMM provides sync to a co-located AP. This AP sends the sync over the air to an SM. This SM delivers the sync to a co-located BHM.
Page 185: Wiring To Extend Network Sync
This design is illustrated in Additional link to extend network sync, Design 5. Figure 72 : Additional link to extend network sync, Design 5 Wiring and configuration information for this sync extension is described under Wiring to Extend Network Sync. W iring t o Ext end Net w ork Sync The following procedure can be used to extend network sync by one additional hop, as described under Passing Sync in an Additional Hop.
Page 186 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. Attention Changements ou modifications Intentionnels ou non de l'équipement ne doivent pas être entrepris sans l'autorisation de l’organisme responsable de la...
Page 187: Chapter 4: Preparing For Installation
Chap t er 4 : Prep aring for inst allat ion This chapter describes how to stage and test the hardware for a 450 Platform network. This chapter is arranged as follows: Safety on page "Safety" below: Describes the precautions to be observed and checks to be performed before proceeding with the installation Preparing for installation on page "Preparing for installation"...
Page 188: External Cables
Always power down and disconnect the equipment from its power source before servicing. The ODU power supply is the primary disconnect device. Ext ernal cab les Use outdoor rated cables for connections that will be exposed to the outdoor environment. Install Cambium recommended cables.
Page 189: Grounding And Protective Earth
Grounding cables must not be installed with drip loops. Grounding conductors must be securely fastened. Braided grounding conductors must not be used. Approved bonding techniques must be used for the connection of dissimilar metals. Ensure that the installation meets the requirements defined in Grounding and lightning protection on page Ground ing and p rot ect ive eart h The Outdoor Unit (ODU) must be properly grounded to protect against lightning.
Page 190: Preparing Personnel
If the units are to be pre-configured during staging, the safety precautions below MUST be observed. Prep aring p ersonnel In no event shall Cambium Networks be liable for any injury or damage caused during the installation of the Cambium 450 Platform Family ODU.
Page 191: Unpacking Components
weather, where the discovery of configuration issues or marginal hardware is more problematic and work- flow affecting. Unp acking Com p onent s When a delivery arrives, inspect all packages immediately for damages. Carefully unpack the equipment, verify that all the components have arrived as per order and are in good condition.
Page 192 ODU diagnost ic LEDs See section AP/BHM LEDs on page 1. See section 5 GHz 450b BHM LED descriptions Color when active Status Notes information provided POWER Blue DC power Always lit after 10-20 seconds of power on. SYNC Green Presence of sync Yellow...
Page 193 Equipment to Be Tools Required Installed Crescent Wrench Pair Used for tightening cable glands Self-amalgamating and PVC Tape Used for weatherproofing N-type connections AP or BHM or BHS 13 mm Spanner Wrench (or Ratchet Spanner Wrench) Pair Antenna Used for connecting the antenna (sector or omni for AP, or directional for BH) base to the pole/mast mounting bracket Self-amalgamating and PVC Tape Used for weatherproofing N-type connections...
Page 194 Best Pract ices for Cabling The following practices are essential to the reliability and longevity of cabled connections: Use only shielded cables to resist interference. For vertical runs, provide cable support and strain relief. Include a 2-ft (0.6-m) service loop on each end of the cable to allow for thermal expansion and contraction and to facilitate terminating the cable again when needed.
Page 195 RJ45 pin Description –TxRx1 +TxRx3 –TxRx3 Aux port pinout Table 119 :Aux port pinout RJ45 pin Description +TxRx0 –TxRx0 +TxRx1 GPS power out, Alignment tone out, GPS data out GPS data in –TxRx1 GPS 0v GPS Sync in RJ- 4 5 Pinout for St raight - t hrough Et hernet Cable Straight-through Ethernet Cable Figure 75 : Table 120 :RJ-45 pinout for straight-through Ethernet cable...
Page 196 Pin Signal Pair Color TP4+ White/brown stripe TP4- Brown solid RJ- 4 5 Pinout for Crossover Et hernet Cable Figure 76 : Crossover Ethernet Cable Table 121 :RJ-45 pinout for crossover Ethernet cable Connection 1 Connection 2 Signal Pair Color Signal Pair Color TP1+ White/orange stripe TP2+...
Page 197 Table 122 :AP/BHM to UGPS cable pinout 450i Series AP RJ 45 Connector Pin UGPS RJ 12 Connector Connector 8 on RJ 45 5 on RJ 45 4 on RJ 12 4 on RJ 45 3 on RJ 12 7 on RJ 45 6 on RJ 12 1 on RJ 12 Alignment t one cable ( for PMP/ PTP 4 50 i)
Page 198: Configuring Link For Test
Co nfig uring Link fo r Test It is important to stage the AP/BHM and SM/BHS units first to verify proper registration before deploying the modules to the site. To begin configuring the modules for test, see the sections below: Config uring t he m anag em ent PC To configure the local management PC to communicate with the AP, SM, BHM or BHS, proceed as follows: Powering t he AP/ SM/ BH for t est configurat ion...
Page 199: Logging Into The Web Interface - Ap/Sm/Bh
2 Select Tools, Internet Options, Connections, LAN Settings. Alternate web browser menu selections may differ. 3 Uncheck the Use a proxy server box. In the address bar of your browser, enter the IP address of the AP/BHM. (For example, enter http://169.254.1.1 to access the AP/BHM through its default IP address).
Page 200: Chapter 5: Installation
Chap t er 5: Inst allat ion This chapter describes how to install and test the hardware for a 450 Platform link. It contains the following topics: ODU variants and mounting bracket options provides details of six different bracket options, including the type of ODU and range of pole diameters supported by each option.
Page 201: Mount The Odu, Lpu And Surge Suppressor
Mount ing bracket – PMP 4 50 Series – SM 90 0 MHz The PMP 450i Series – SM 900 MHz has special mounting bracket option. The PMP 450i Series AP - 900 MHz mounting procedure is the same as the other 450i Series radios. The 450 Series SM 900 MHz has a different mounting bracket which is supplied along with Yagi antenna.
Page 202 3 Securely connect the copper wires to the grounding system (Protective Earth) and the LPU or Gigabit Ethernet Surge Suppressor according to applicable regulations. PMP/ PTP 4 50 i Series – AP/ SM/ BH, PMP 4 50 3 GHz Ruggedized SM Fasten an AWG 10 (or 6mm copper ground cable to each ODU grounding point using...
Page 203 3 Securely connect the copper wire to the grounding system (Protective Earth) according to applicable regulations. The grounding point on PMP 450 Series SM 900 MHz is different from 2.4, 3.5/3.65 and 5 GHz PMP 450 SMs as shown in PMP 450 900 MHz SM grounding.
Page 204: Mount The Odu On The Mast
Figure 80 : PMP 450 900 MHz SM grounding Mount t he ODU on t he m ast PMP 4 50 m Series – AP See - PMP 450m Series – 5 GHz AP for Installation for an integrated ODU 2 Remove the rear bracket strap from upper and lower brackets of ODU 3 Attach the upper and lower bracket of ODU to the mount point by closing the rear strap around the pole...
Page 205 PMP/ PTP 4 50 i Series – AP/ SM/ BH, PMP 4 50 3 GHz Ruggedized SM Caution Do not reverse the bracket clamp, as this arrangement may lead to failure of the assembly. Do not over-tighten the bolts as this may lead to failure of the assembly.
Page 206 5mm Allen key 13mm wrench Torque wrench Snap in the rear housing assembly. Insert screws to hold the rear housing assembly to the dish and tighten to a 10 Nm torque. Snap in the center feed tube (radio) to the assembly. Chapter 5: Installation...
Page 207 Tighten the center feed tube lock screw to a maximum of 5 Nm. Do not overtighten to avoid damaging the feed tube. Assemble the pole bracket to the Rear housing bracket, using the M8 bolts Slide the cover onto the body of the radio, ensuring that the two sliding rails engage with the slots in the dish body.
Page 208 Unclip the door nearest the dish by squeezing at the two thumb marks. Connect the RJ45 connector to the radio and replace the door. Use a tie wrap to secure the Ethernet cable to center post of the cover. 10 On the pole bracket, loosen the M8 nuts to remove outer clamp. Slip clamp over pole and tighten M8 nuts by applying 8 Nm torque.
Page 209 Locate an IP55 cover from the dish kit. 2 Unclip the rear door and locate the breakout. 3 Use pincers to break out the piece of plastic and trim with a sharp blade. Check that synchronization cable fits the opening. 4 Assemble unit as in steps 1 to 8 above.
Page 210 6 Continue with steps 9 and 10 above ensuring both cables are secured to the center post with a tie wrap. PMP 4 50 b High Gain – IP67 To convert an IP55 version of the PMP 450b High Gain to an IP67 version, kit N00000L135A is required. This kit contains 4 off IP67 door/ glands.
Page 211 3 Keep part loose and screw gland to the bottom cover. Audio cable is not shown in the figure. 4 Tighten gland, bottom cover screws and connect to the radio. 5 On the pole bracket, loosen the M8 nuts to remove outer clamp. Slip clamp over pole and tighten M8 nuts by applying 8 Nm torque.
Page 212 2. Secure pole mounting bracket to the radio with M8 nut and bolt by applying 3.0 Nm torque. 3. Insert hose clamps through the pole mounting bracket and attach to pole by applying 3.0 Nm torque. Chapter 5: Installation...
Page 213 4. Remove the cable gland from bottom of the radio. Feed the RJ45 cable though the gland, bottom cover and connect to the radio. PMP 4 50 MicroPoP - Sect or 1. Assemble the pole mounting bracket to the radio with two screws. Chapter 5: Installation...
Page 214 2. Secure pole mounting bracket with M8 nut and bolt by applying 3.0 Nm torque. 3. Insert hose clamps through pole mounting bracket and clamp to pole by applying 3.0 Nm torque. Chapter 5: Installation...
Page 215 4. Remove the cable gland from bottom of the radio. Feed the RJ45 cable though the gland, bottom cover and connect to the radio. 5. Align radio to required angle by tilting up and down. The maximum radio tilting angle is ±40°, with an incremental of 10°.
Page 216 PMP 4 50 b Ret ro Pole Mount 1. Insert hose clamps on the device bracket and attach to the pole by applying 3.0 Nm torque. 2. Release the bottom cap and insert RJ45 cable on the bottom of the device. 3.
Page 217 Dish Mount 1. Slide the device into the dish slot as shown in the below figure. 2. Insert hose clamps on the device bracket and attach to the dish by applying 3.0 Nm torque. Chapter 5: Installation...
Page 218 3. Release the bottom cap and insert RJ45 cable on the bottom of the device. 4. Place the cap back on the device after the cable installation. Chapter 5: Installation...
Page 219 PMP 4 50 AP Using an 8mm nut driver, attach the pole mount’s AP housing bracket to the unit using the 4 M5 x 16mm bolts included with the AP. Using the included (depending on pole diameter): M8 x 70mm hex cap bolts (2 quantity) M8 x 40mm hex cap bolts (2 quantity) M8 flat washers (2 quantity) M8 coil washers (2 quantity)
Page 220: Mount The Top Lpu
PMP 4 50 SM ( except PMP 4 50 SM - 90 0 MHz) Use stainless steel hose clamps for the attachment. 2 Attach the mounting bracket to the structure. Tighten the locking nut. PMP 4 50 SM 90 0 MHz ( connect orized) The PMP 450 900 MHz connectorized SM mounting procedure is different from other radios.
Page 221: Mount The Surge Suppressor
Mount t he Surg e Sup p ressor PMP/ PTP 4 50 i/ 4 50 b Series Gigabit Ethernet Surge Suppressors are installed at both ends of the drop cable. One within 600 mm (24”) of and under the ODU. The other located within 600 mm (24”) of the building entry point. Quick procedure: The quick procedure for the Surge Suppressor for PMP/PTP 450i/450b Series mounting is as follows: Ground using the terminal on the back of the units.
Page 222 Slide the end cap over the bottom of the Gigabit Ethernet Surge Suppressor, ensuring it clicks firmly in place Refer to the Gigabit Ethernet Surge Suppressor Installation Guide for more details. Chapter 5: Installation...
Page 223 Figure 81 : Gigabit Ethernet Surge Suppressor PMP/ PTP 4 50 Series The PMP/PTP 450 Series uses 600SSH Surge Suppressor. The inside of the surge suppressor is shown in Installation. Caution The PMP 450 SM 900 MHz is based off of the 450 Series, be sure to use a 600SS to protect this radio type.
Page 224 Figure 82 : 600SSH Surge Suppressor – inside Key to Callouts 600SSH Holes—for mounting the Surge Suppressor to a flat surface (such as an outside wall). The distance between centers is 4.25 inches (108 mm). 2 RJ-45 connectors—One side (neither side is better than the other for this purpose) connects to the product (AP, SM, AC Adapter, or cluster management module).
Page 225: General Protection Installation
Remove the cover of the 600SSH Surge Suppressor. With the cable openings facing downward, mount the 600SSH to the outside of the subscriber premises, as close to the point where the Ethernet cable penetrates the residence or building as possible, and as close to the grounding system (Protective Earth) as possible. Wrap an AWG 10 (or 6mm ) copper wire around the Ground post of the 600SSH.
Page 226 Caution Do not attach grounding cables to the ODU mounting bracket bolts, as this arrangement will not provide full protection. Basic requirement s The following basic protection requirements must be implemented: ODU must be in ‘Zone B’ (see Lightning protection zones). ODU must be grounded to the supporting structure.
Page 227 Figure 84 : Grounding and lightning protection on wall Prot ect ion requirement s for a mast or t ower inst allat ion If the ODU is to be mounted on a metal tower or mast, then in addition to the general protection requirements (above), the following requirements must be observed: The equipment must be lower than the top of the tower or its lightning air terminal.
Page 228 Figure 85 : Grounding and lightning protection on mast or tower Prot ect ion requirement s on a mult i- floor building If the ODU is to be mounted on a high-rise building, it is likely that cable entry is at roof level (Roof installation) and the equipment room is several floors below.
Page 229: Installing The Copper Cat5E Ethernet Interface
Caution Always use Cat5e cable that is gel-filled and shielded with copper-plated steel. Alternative types of Cat5e cable are not supported by Cambium Networks. Cambium Networks supply this cable (Cambium part numbers WB3175 and WB3176), RJ45 connectors (Cambium part number WB3177) and a crimp tool (Cambium part number WB3211).
Page 230 ALWAYS wear cut-resistant gloves (check the label to ensure they are cut resistant). ALWAYS wear protective eyewear. ALWAYS use a rotary blade tool to strip the cable (DO NOT use a bladed knife). Warning Failure to obey the following precautions may result in injury or death: Use the proper hoisting grip for the cable being installed.
Page 231: Install The Bottom Lpu To Psu Drop Cable
Figure 87 : RJ45 connector and cable color code Pin Color (Supplied cable) Color (Conventional) Pins on plug face Light Orange White/Orange Orange Orange Light Green White/Green Blue Blue Light Blue White/Blue Green Green Light Brown White/Brown Brown Brown Figure 88 : RJ45 cable Inst all t he b ot t om LPU t o PSU d rop cab le Inst all t he bot t om LPU...
Page 232 2 Connect the main drop cable using the EMC cable gland to the bottom LPU. 3 Fasten one ground cable to the bottom LPU using the M6 (small) lug. Tighten both nuts to a torque of 5 Nm (3.9 lb ft): 4 Select a building grounding point near the LPU bracket. Remove paint from the surface and apply anti-oxidant compound.
Page 233: Installing External Antennas To A Connectorized Odu
Cut the drop cable to the length required from bottom LPU to PSU. 2 At the LPU end only: Fit one cable gland and one RJ45 connector by following the procedure Terminate with RJ45 connectors. Connect this cable and gland to the bottom LPU. 3 At the PSU end only: Do not fit a cable gland.
Page 234 Ground the antenna cables to the supporting structure within 0.3 meters (1 foot) of the ODU and antennas using the Cambium grounding kit (part number 01010419001): Fix the antenna cables to the supporting structure using site approved methods. Ensure that no undue strain is placed on the ODU or antenna connectors. Ensure that the cables do not flap in the wind, as flapping cables are prone to damage and induce unwanted vibrations in the supporting structure.
Page 235 Note Cambium recommends assembling the antenna, attach the AP and cabling, and to seal the RF connections before installing the unit at the deployment site. 1. Inventory the parts to ensure that you have them all before you begin. The full set of parts is shown below.
Page 236 Note Please use the four “thin neck” M6 bolts and split washers provided with the connectorized units rather that the ones provided in the antenna kit. Figure 91 : Attaching antenna plate to the AP 4. Attach the plate mounted AP to the antenna and tighten the (4) serrated flange nuts using a spanner wrench Figure 92 : Attaching the plate...
Page 237 Figure 93 : Connect the port A and B to the PMP 450i AP 6. Assemble the upper bracket by attaching the (2) 7” hex bolts to the bracket using (2) serrated flange nuts Figure 94 : AP antenna upper bracket assembly 7.
Page 238 Figure 95 : AP antenna upper bracket attached to upper adjustment arms 8. Attach the rear strap to the upper bracket using (2) serrated flange nuts and (1) retaining bracket. Do not tighten the nuts now. Rear strap connected to upper AP antenna bracket Figure 96 : 9.
Page 239 Figure 97 : Assembled upper bracket connected to AP antenna 10. Begin assembling the lower bracket by attaching the (2) 7” hex bolts to the bracket using (2) serrated flange nuts Figure 98 : AP Antenna Lower Bracket Assembly 11. Attach the rear strap to the bracket using (2) serrated flange nuts and (1) retaining bracket. Do not tighten the nuts now.
Page 240: Pmp 450 Series
Completed AP and antenna assembly PMP 4 50 Series Assembling t he PMP 4 50 AP ant enna To assemble a PMP 450 Series AP antenna, perform the following steps. Note Cambium recommends assembling the antenna, attach the AP and cabling, and to seal the RF connections before installing the unit at the deployment site.
Page 241 Figure 102 : AP antenna upper bracket assembly 3 Attach the upper bracket to the adjustment arms using (2) hex bolts, (2) flat washers and (2) lock washers. Feed the bolt through the lock washer then flat washer, then thread the bolt into the upper bracket’s threaded receptacle.
Page 242 Figure 104 : Rear strap connected to upper AP antenna bracket 5 Attach the entire upper bracket to the antenna using (2) hex bolts, (2) flat washers and (2) lock washers. Feed the bolt through the lock washer then flat washer, then thread the bolt into the upper bracket’s threaded receptacle.
Page 243 Lower bracket attached to AP antenna At t aching t he PMP 4 50 AP t o t he ant enna To attach a PMP 450 Series AP to the antenna, perform the following steps. Note Use shielded cable for all infrastructure connections associated with APs, SMs, and CMMs.
Page 244 Attach the included bracket to the rear of the AP using the (4) M5 x 7mm bolts Attaching bracket to the rear of the AP Figure 108 : 2 Attach the AP to the antenna by sliding the bracket onto the bolts and tighten the (4) serrated flange nuts using a 13-mm spanner wrench.
Page 245 Figure 110 : Mounted PMP 450 AP and antenna assembly, viewed from back and back At t aching t he PMP 4 50 Series AP and ant enna t o t he mount point Attach the upper bracket of the antenna to the mount point by closing the rear strap around the pole and tightening the (2) serrated flange nuts using a 13mm spanner wrench.
Page 246 and tightening the (2) serrated flange nuts using a 13mm spanner wrench. These must be tightened evenly on the pole to avoid jumping/stripping threads. Figure 112 : Attaching the AP antenna lower bracket to the pole 3 Use a local map, compass, and/or GPS device as needed to determine the direction that one or more APs require to each cover the 90°...
Page 247 Where: angle of elevation vertical difference in elevation horizontal distance between modules To use metric units to find the angle of elevation, use the following formula: Where: expressed in meters expressed in kilometers To use English standard units to find the angle of elevation, use the following formula: Where: expressed in feet expressed in miles...
Page 248: Pmp 450I Series Ap 900 Mhz
PMP 4 50 i Series A P 90 0 MHz Mount ing of PMP 4 50 i AP 90 0 MHz Inventory the parts to ensure that you have them all before you begin. The full set of parts is shown in Installation.
Page 249 (1) Unfold the upper bracket assembly of the antenna. (2) Unfold the lower bracket assembly. (3) Loose the radio assembly plate by untightening M8 four bolds. (4) Remove the radio assembly top plate by sliding towards upper bracket assembly. Chapter 5: Installation...
Page 250 (1) Place the radio assembly plate on the radio and align holes with radio enclosure. Note Ensure that the radio plate notch opening and RF port of radio in same direction. It is also important to make sure you attach the radio assembly plate in the proper orientation as shown in figure.
Page 251 (1) Place the radio mounted plate on sector antenna as shown in the figure. Ensure that the orientation of RF port of antenna and radio are in same direction (2) Line up the radio assembly to four bolts and slide towards lower bracket assembly to lock. (3) Tighten the radio assembly plate using four M8 bolts to a torque setting of 2 ±0.5 Nm Chapter 5: Installation...
Page 252 (1) Connect the port A of AP to vertical and port B of AP to horizontal polarization interfaces of the antenna with RF cable. Ensure that the RF cables are pass-through inside the lower bracket assembly (2) Hand tighten the N type connectors and the torque should not exceed more than 1 Nm Mount ing of PMP 4 50 i AP 90 0 MHz ant enna t o t he pole The mounting procedure of PMP 450i AP 900 MHz and antenna to the pole is given below:...
Page 253 around the pole. Note Before mounting the radio on the pole, secure the upper and lower bracket assemblies with a torque setting of 3 to 4 Nm as shown in Figure 1. Also, ensure that inner strap of upper bracket is set to zero-degree marking. Figure 116 : Attaching radio mounting PMP 450i AP 900 MHz antenna to the pole Chapter 5: Installation...
Page 254 3 Tighten the four-serrated flange M10 nuts on the upper and lower rear straps using a 17 mm spanner wrench. These must be tightened evenly on the pole to avoid jumping/stripping threads Sect or ant enna alignment The 900 MHz sector antenna horizontal and vertical alignment procedure is shown in 900 MHz sector antenna alignment.
Page 255: Pmp 450 Series Sm 900 Mhz
Figure 117 : 900 MHz sector antenna alignment Horizontal alignment Vertical alignment Vertical alignment upward tilt PMP 4 50 Series SM 90 0 MHz At t aching t he SM 90 0 MHz direct ional ant enna t o t he pole Unbox the directional Yagi antenna.
Page 256 3 Tighten all nuts to approximately 6 to 7 Nm or less to avoid deforming the pole. Figure 120 : Fixing the nuts Radio mount ing t o t he ant enna Align the radio to E bracket and slide towards right to lock on the antenna as shown in below figure. Figure 121 : Fixing the radio to the antenna Chapter 5: Installation...
Page 257 2 Connect the port A of SM to vertical and port B of SM to horizontal polarization interfaces of the antenna with RF cable. Figure 122 : Connecting RF cable to the radio Direct ional Yagi ant enna alignment The directional Yagi antenna horizontal and vertical alignment procedure is shown below. The Yagi antenna can be aligned for +15 to -15 degree.
Page 258 Figure 123 : Yagi antenna alignment - horizontally Figure 124 : Yagi antenna alignment - upward tilt Chapter 5: Installation...
Page 259: Installing An Integrated Odu
Figure 125 : Yagi antenna alignment - downward tilt Inst alling an int eg rat ed ODU Caution Do not reverse the bracket clamp, as this arrangement may lead to failure of the assembly. Do not over-tighten the bolts as this may lead to failure of the assembly.
Page 260 3 Attach the top bracket to the projecting studs on the ODU and secure the top bracket using two M8 nuts by applying 5 Nm torque. 4 Fix the front and rear strap assembly to the upper bracket using two bolts.
Page 261: Pmp 450M Series - 3 Ghz Ap
6 See PMP 450m Series – AP on page "PMP 450m Series – AP" on page 201 for the grounding procedure. See PMP 450m Series – AP on page "PMP 450m Series – AP" on page 204 for the mounting procedure. PMP 4 50 m Series – 3 GHz A P To mount and connect an integrated ODU, proceed as follows: Inventory the parts to ensure that you have them all before you begin.
Page 262: Pmp/Ptp 450I Series - Ap/Sm/Bh
3 Attach the top bracket to the projecting studs on the ODU and secure the top bracket using two M8 nuts by applying 5 Nm torque. 4 Fix the front and rear strap assembly to the upper bracket using two bolts.
Page 263: Connecting Cat5E Ethernet Cable
2. Attach the bracket body to the mounting plate using the M8 bolt, spring and plain washers. 3. Hoist the ODU to the mounting position. 4. Attach the bracket body to the pole using the bracket clamp, M8 bolts, and spring and plain washers.
Page 264 2 Insert the RJ45 plug into the socket in the unit, making sure that the locking tab snaps home. 3 Support the drop cable and gently hand screw the gland body into the unit until the bushing seal is flush to the unit body. Note Do not fit the back shell prior to securing the gland body.
Page 265: Disconnecting An Rj45 And Gland From A Unit
Figure 129 : Ethernet cable gland for PMP/PTP 450i Series Disconnect ing an RJ4 5 and g land from a unit To disconnect the Ethernet cable and gland from a unit, proceed as follows: Hold the Ethernet cable and remove the gland back shell. 2 Use a small flathead screwdriver (0.2”/5mm wide or greater) to gently release the black plastic watertight bushing from the compression fins, being careful not to damage the bushing.
Page 266: Installing A 450 Platform Family Sm
See Installing external antennas to a connectorized ODU for connecting an external antenna to PMP 450i Series, PMP 450 Series, PMP 450m Series – 5 GHz AP, PMP 450m Series – 3 GHz AP, and PMP 450 Series SM 900 MHz...
Page 267: Installing A 450 Platform Family Bhm
For Connectorized Models, connect the SM’s N-type antenna connectors to the external antenna, ensuring that the polarity matches between the SM cable labeling and the antenna port labels. Connectorized SM Antenna Cable Label Antenna Connection Vertical Horizontal For Connectorized Models, weatherproof the N-type antenna connectors following section Attaching and weatherproofing an N type connector.
Page 268: Installing A 450 Platform Family Bhs
Choose the best mounting location for your particular application. Align the BHM as follows: Move the module to where the link will be unobstructed by the radio horizon and no objects penetrate the Fresnel zone. Use a local map, compass, and/or GPS device as needed to determine the direction to the BHS.
Page 269: Configuring The Link
6 When you have achieved the best signal (highest pitch, loudest volume), lock the BHS in place with the mounting hardware Config uring t he Link See Configuring remote access in Configuration Guide. Monit oring t he Link See Monitoring the Link in Configuration Guide. Inst alling t he A C Po w er Inject o r Caution As the PSU is not waterproof, locate it away from sources of moisture, either in...
Page 270: Installing Cmm4
Note For instructions on CMM3 (CMMmicro) or CMM4 installation, including the outdoor temperature range in which it is acceptable to install the unit, tools required, mounting and cabling instructions, and connectivity verification, please see the PMP Synchronization Solutions User Guide located on the Cambium website. Inst alling CMM4 The Cluster Management Module 4 (CMM4) provides power, sync, and network connectivity for up to eight APs, backhauls, and Ethernet terrestrial feeds in a variety of configurations.
Page 271: Creating A Drop Cable Grounding Point
When preparing the drop cable for connection to the 450 Platform PSU (without a cable gland), use the following measurements: Creat ing a d rop cab le g round ing p oint Use this procedure to connect the screen of the main drop cable to the metal of the supporting structure using the cable grounding kit (Cambium part number 01010419001).
Page 272 Fold the ground wire strap around the drop cable screen and fit cable ties. Tighten the cable ties with pliers. Cut the surplus from the cable ties. Cut a 38mm (1.5 inches) section of self-amalgamating tape and wrap it completely around the joint between the drop and ground cables.
Page 273 Wrap a layer of PVC tape from bottom to top, starting from 25 mm (1 inch) below and finishing 25 mm (1 inch) above the edge of the self-amalgamating tape, overlapping at half width. Repeat with a further four layers of PVC tape, always overlapping at half width. Wrap the layers in alternate directions (top to bottom, then bottom to top).
Page 274: Attaching And Weatherproofing An N Type Connector
A t t aching and w eat herp roofing an N t yp e connect or The following procedure should be used to weatherproof the N type connectors fitted to the connectorized ODU (AP/sM/BH) and antenna. This procedure must be followed to ensure that there is no moisture ingress at the radio ports.
Page 275 4 Cut a 125mm (5 inches) length of rubber tape (self-amalgamating): 5 Expand the width of the tape by stretching it so that it will wrap completely around the connector and cable: 6 Press the tape edges together so that there are no gaps. The tape should extend 25 mm (1 inch) beyond the PVC tape: 7 Wrap a layer of 50 mm (2 inch) PVC tape from bottom to top, starting from 25 mm (1 inch) below the edge of the self-amalgamating tape, overlapping at half width.
Page 276 8 Repeat with a further four layers of 19 mm (0.75 inch) PVC tape, always overlapping at half width. Wrap the layers in alternate directions: Second layer: top to bottom. Third layer: bottom to top. Fourth layer: top to bottom. Fifth layer: bottom to top. The bottom edge of each layer should be 25 mm (1 inch) below the previous layer.
Page 277: Chapter 6: Compliance With Safety Standards
Chap t er 6 : Com p liance w it h safet y st and ard s This section lists the safety specifications against which the 450 Platform Family has been tested and certified. It also describes how to keep RF exposure within safe limits. Elect rical safet y co m p liance The 450 Platform Family hardware has been tested for compliance to the electrical safety specifications listed in Safety compliance specifications.
Page 278: Power Density Exposure Limit
https://www.canada.ca/en/health- canada/services/environmental- workplace- health/consultations/limits-human-exposure-radiofrequency-electromagnetic-energy-frequency- range-3-300.html and RSS-102. BS EN 50385:2017 Product standard to demonstrate the compliances of radio base stations and fixed terminal stations for wireless telecommunication systems with the basic restrictions or the reference levels related to human exposure to radio frequency electromagnetic fields (110 MHz –...
Page 279: Calculated Distances And Power Compliance Margins
Calculat ed d ist ances and p o w er co m p liance m arg ins The following tables show calculated minimum separation distances, recommended distances and resulting margins for each frequency band and antenna combination for the USA and Canada. These are conservative distances that include compliance margins.
Page 280 Band (GHz) Antenna (dBi) (W/ m2) Dish 0.004 24.0 10.0 0.09 Patch Array 0.020 17.0 10.0 0.09 On-board 0.251 10.0 0.04 Dish 0.004 24.0 10.0 0.09 Patch Array 0.020 17.0 10.0 0.09 On-board 0.501 10.0 0.06 Dish 0.501 24.0 10.0. 1.00 Patch Array 0.501...
Page 281 Band (GHz) Antenna (dBi) (W/ m2) Integrated 0.501 10.0 0.16 Integrated 0.501 10.0 0.16 Table 130 :FCC minimum safe distances – PMP/PTP 450i 900 MHz, 3.65 GHz, 4.9 GHz, 5.1 GHz, 5.2 GHz, 5.4 GHz and 5.8 GHz Band Antenna P burst (dBi) 0.19...
Page 282 Band Antenna P burst (dBi) 5.2 GHz Omni-directional 0.036 0.042 10.0 0.07 20.0 (13.0 dBi) 90° sector 0.014 0.017 10.0 0.07 50.1 (17.0 dBi) 2ft directional flat plate 0.001 0.001 10.0 0.07 707.9 (28.5 dBi) 4ft directional parabolic 0.000 0.000 10.0 0.06 2818.4 (34.5 dBi)
Page 283 Band Antenna P burst (dBi) (W/ m 5.4 GHz Sector 0.025 40 (16 dBi) 10.0 0.09 Integrated 0.126 8 (9 dBi) 10.0 0.09 Reflector 0.003 316 (25 dBi) 10.0 0.09 CLIP 0.020 50 (17 dBi) 10.0 0.09 LENS 0.032 28 (14.5 dBi) 10.0 0.08 Integrated Dish (450d) 0.0032 316 (25 dBi) 10.0...
Page 284 Band Antenna (GHz) (dBi) (W/ m2) (W/ m2) Omni 0.125 9.39 0.08 1.99 Sector 0.050 9.39 0.08 1.99 Omni 0.501 9.69 0.17 7.92 Sector 0.199 9.69 0.17 7.92 Table 134 :ISED minimum safe distances – PMP/PTP 450b Retro APs 4.9 GHz, 5.1 GHz, 5.2 GHz, 5.4 GHz and 5.8 GHz Band Antenna...
Page 285 Band (GHz) Antenna S @ 20 cm (dBi) (W/ m2) (W/ m2) Dish 0.004 24 9.39 0.09 2.0 Patch Array 0.020 17 9.39 0.09 2.0 On-board 0.501 9.39 0.07 1.0 Dish 0.501 9.69 1.02 250.5 Patch Array 0.501 9.69 0.45 50.0 On-board 0.501...
Page 286 Band Antenna burst (dBi) 5.2 GHz Omni-directional 0.009 0.011 20.0 (13.0 dBi) 9.13 0.04 90° sector 0.012 0.014 50.1 (17.0 dBi) 9.13 0.06 2ft directional flat plate 0.001 0.001 707.9 (28.5 9.13 0.07 dBi) 2ft directional parabolic 0.001 0.001 707.9 (28.5 9.13 0.06...
Page 287 Band Antenna P burst (dBi) (W/ m2) 3.65 GHz (lower Canada) Sector 0.316 32 (15 dBi) 38.20 0.15 Integrated 0.316 6 (8 dBi) 38.20 0.06 Reflector 0.316 100 (20 dBi) 38.20 0.26 High Gain Ruggedized 0.316 79 (19 dBi) 38.20 0.23 3.65 GHz (upper Canada) Sector 0.316...
Page 288: Tx Power Limits For Pmp 450 Micropop
Pour une opération dans la CEE dans les bandes 5,4 GHz et 5,8 GHz, les produits sont généralement limités à une PIRE qui peut être atteinte avec l'antenne intégrée. Les calculs ci-dessus supposent que la PIRE maximale autorisée par la réglementation est atteinte.
Page 289: Hazardous Location Compliance
Hazard o us lo cat io n co m p liance The PMP/PTP 450i series IECEx/ATEX/HAZLOC ODUs have been certified for operation in the following hazardous locations: A TEX The products have been approved under an “Intrinsic Safety” assessment as defined in EN60079-11:2012. The approval is given by certificate number EMT126ATEX0003X, issued by Element Materials Technology, with the specific level of coverage shown below: II 3 G Ex ic IIC T4...
Page 290: Chapter 7: Compliance With Radio Regulations
Caution Changes or modifications not expressly approved by Cambium Networks could void the user’s authority to operate the system. Caution For the connectorized version of the product and in order to reduce potential...
Page 291 The radio specification type approvals that have been granted for 450 Platform Family frequency variants are listed under Radio certifications. Table 138 :Radio certifications Region/Country Band Specification Brazil 4.9 GHz ANATEL, RESOLUÇÃO Nº 633, DE 14 DE MARÇO DE 2014 5.4 GHz ANATEL, RESOLUTION No.
Page 292: Brazil Specific Information
Brazil sp ecific info rm at io n Brazil not ificat ion For compliant operation in the 5.4 GHz band, the Equivalent Isotropic Radiated Power from the integrated antenna or connectorized antenna shall not exceed 30 dBm (0.5 W). The operator is responsible for enabling the DFS feature on any Canopy 5.4 GHz radio by setting the Country Code to “Brazil”, including after the module is reset to factory defaults.

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Cambium Networks PMP 450 Series Installation Manual

Chapter 1: Product Description

Chapter 2: System Hardware

Chapter 3: System Planning

Chapter 4: Preparing for Installation

Chapter 5: Installation

Chapter 6: Compliance with Safety Standards

Chapter 7: Compliance with Radio Regulations

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