Chapter 2: Tools Using the Alignment Tool Using the Alignment Tool The SM’s or BHS’s Alignment Tool may be used to maximize Receive Power Level, Signal Strength Ratio and Signal to Noise Ratio to ensure a stable link. The Tool provides color coded readings to facilitate in judging link quality.
Chapter 2: Tools Using the Alignment Tool Aiming page and Diagnostic LED – SM/BHS The SM’s/BHS’s Alignment Tool (located in GUI Tools -> Aiming) may be used to configure the SM’s/BHS’s LED panel to indicate received signal strength and to display decoded beacon information/power levels. The SM/BHS LEDs provide different status based on the mode of the SM/BHS. A SM/BHS in “operating” mode will register and pass traffic normally.
Chapter 2: Tools Using the Alignment Tool Table 102 Aiming page attributes – SM Attribute Meaning Aiming Mode Single Frequency Only: scans only selected single frequency. Normal Frequency Scan List: scans: scans all frequency of scan list. Single Frequency Select a particular frequency from drop-down menu for scanning. Scan Radio Frequency Enabled: the radio is configured to “aiming” or “alignment” mode, wherein Only Mode the LED panel displays an indication of receive power level.
Chapter 2: Tools Using the Alignment Tool Power: This field indicates the current receive power level (vertical channel) for the frequency configured in parameter Radio Frequency. Users: This field indicates the number of SMs currently registered to the AP which is transmitting the beacon information. ESN: This field indicates the MAC, or hardware address of the AP/BHM which is transmitting the beacon information.
Chapter 2: Tools Using the Alignment Tool Aiming page of BHS The Alignment page of BHS is explained in Table 103. Table 103 Aiming page attributes - BHS Attribute Meaning Refer Refer Table 102 Aiming page attributes – SM for attribute details. Note The Alignment Tone cable for a 450i Series uses an RJ-45 to headset cable whereas the 450 Series alignment tone cable uses an RJ-12 to headset cable.
Chapter 2: Tools Using the Alignment Tool Alignment Tone For coarse alignment of the SM/BHS, use the Alignment Tool located at Tools -> Alignment Tool. Optionally, connect a headset alignment tone kit to the AUX/SYNC port of the SM/BHS and listen to the alignment tone, which indicates greater SM/BHS receive signal power by pitch. By adjusting the SM’s/BHS’s position until the highest frequency pitch is obtained operators and installers can be confident that the SM/BHS is properly positioned.
Chapter 2: Tools Using the Alignment Tool BT-1277 Headset alignment cable (RJ-45) for the PMP/PTP 450i Series products BT-0674 Headset alignment cable (RJ-12) for the PMP/PTP 450 Series products.
Chapter 2: Tools Using the Link Capacity Test tool Using the Link Capacity Test tool The Link Capacity Test tab allows you to measure the throughput and efficiency of the RF link between two modules. Many factors, including packet length, affect throughput. The Link Capacity Test tool has following modes: • Link Test with Multiple VCs: Tests radio-to-radio communication across selected or all registered VCs, but does not bridge traffic (PMP 450m Series AP only).
Chapter 2: Tools Using the Link Capacity Test tool Link Test with Multiple LUIDs Note The “Link Test with Multiple LUIDs” Link Capacity Test is supported for PMP 450m Series AP only. Figure 73 Link Capacity Test – PMP 450m Series AP Procedure 24 Performing a Link Capacity Test - Link Test with Multiple LUIDs Link Test Configurations parameters 1 Access the Link Capacity Test tab in the Tools web page of the module.
Chapter 2: Tools Using the Link Capacity Test tool Figure 74 Link Test with Multiple LUIDs Link Test without Bridging, Link Test with Bridging or Link Test with Bridging and MIR Figure 75 Link Test without Bridging Figure 76 Link Test with Bridging and MIR Page 2-340
Chapter 2: Tools Using the Link Capacity Test tool Refer Link Test with Multiple on page 2-339 for Link Test procedure.
Chapter 2: Tools Using the Link Capacity Test tool Performing Extrapolated Link Test The Extrapolated Link Test estimates the link capacity by sending few packets and measuring link quality. Once the test is initiated, the radio starts session at the lower modulation, 1X, as traffic is passed successfully across the link, the radio decides to try the next modulation, 2X. This process repeats until it finds best throughput to estimate capacity of link.
Chapter 2: Tools Using the Link Capacity Test tool Link Capacity Test page of AP The Link Capacity Test page of AP is explained in Table 105.
Chapter 2: Tools SM Link Test Mode Restriction Link Test with All Available Data Channels Using the Link Capacity Test tool Enable this parameter to restrict SM link test mode. This parameter is used to enable or disable usage of either all available data channels or low priority data channel only during the link test. This parameter determines whether the DL flood test packets use MU-MIMO grouping or not.
Chapter 2: Tools Using the Link Capacity Test tool The total number of packets to be sent during the Link Capacity Test. When Number of Packets Link Test Mode is set to Link Test Without Bridging this field is not configurable.
Chapter 2: Tools Using the Link Capacity Test tool Link Capacity Test page of BHM/BHS/SM The Link Capacity Test page of BHM/BHS is explained in Table 106.
Chapter 2: Tools Using AP Evaluation tool Using AP Evaluation tool The AP Evaluation tab on Tools web page of the SM provides information about the AP that the SM sees. Note The data for this page may be suppressed by the SM Display of AP Evaluation Data setting in the Configuration > Security tab of the AP. The AP Eval results can be accessed via SNMP and config file. AP Evaluation page The AP Evaluation page of AP is explained in Table 107.
Chapter 2: Tools Using AP Evaluation tool Attribute Meaning Index This field displays the index value that the system assigns (for only this page) to the AP where this SM is registered. Frequency This field displays the frequency that the AP transmits. Channel Bandwidth The channel size used by the radio for RF transmission. The setting for the channel bandwidth must match between the AP and the SM.
Chapter 2: Tools Lockout Using AP Evaluation tool This field displays how many times the SM has been temporarily locked out of making registration attempts. RegFail This field displays how many registration attempts by this SM failed. Range This field displays the distance in feet for this link. To derive the distance in meters, multiply the value of this parameter by 0.3048. MaxRange This field indicates the configured value for the AP’s Max Range parameter.
Chapter 2: Tools VCRsvFail Using AP Evaluation tool This counter is incremented when the SM is registering to an AP which has a VC resource available for allocation but cannot reserve the resource for allocation. VCActFail This counter is incremented when the SM is registering to an AP which has a VC resource available for allocation and has reserved the VC, but cannot activate the resource for allocation. AP Gain This field displays the total external gain (antenna) used by the AP.
Chapter 2: Tools Using AP Evaluation tool Color Code This field displays the last registered AP’s color code. Air Delay This field displays the last registered AP’s air delay. Receive Power This field displays the last registered AP’s receive power. Scan Statitistics Scan Cycle Count The file displays the number of scan cycles. This increments after the SM completes scanning every configured frequency and channel bandwidth.
Chapter 2: Tools Using BHM Evaluation tool Using BHM Evaluation tool The BHM Evaluation tab on Tools web page of the BHS provides information about the BHM that the BHS sees. BHM Evaluation page of BHS The BHM Evaluation page of BHS is explained in Table 108. Table 108 BHM Evaluation tab attributes - BHS Attribute Meaning Index This field displays the index value that the system assigns (for only this page) to the BHM where this BHS is registered.
Chapter 2: Tools ESN Using BHM Evaluation tool This field displays the MAC address (electronic serial number) of the BHM. For operator convenience during BHS aiming, this tab retains each detected ESN for up to 15 minutes. If the broadcast frequency of a detected BHM changes during a 15-minute interval in the aiming operation, then a multiple instance of the same ESN is possible in the list.
Chapter 2: Tools NoLUIDs Using BHM Evaluation tool This field indicates how many times the BHM has needed to reject a registration request from a BHS because its capacity to make LUID assignments is full. This then locks the BHS out of making any valid attempt for the next 15 minutes. It is extremely unlikely that a non-zero number would be displayed here.
Chapter 2: Tools Using BHM Evaluation tool Color code allows you to force a BHS to register to only a specific BHM, even where the BHS can communicate with multiple BHMs. The default setting for the color code value is 0. This value matches only the color code of 0 (not all 255 color codes). BeaconVersion This field indicates that the beacon is OFDM (value of 1). Sector User Count This field displays how many BHS’s are registered on the BHM.
Chapter 2: Tools Using the OFDM Frame Calculator tool Using the OFDM Frame Calculator tool The first step to avoid interference in wireless systems is to set all APs/BHMs to receive timing from a synchronization source (Cluster Management Module, or Universal Global Positioning System). This ensures that the modules are in sync and start transmitting at the same time each frame.
Chapter 2: Tools Using the OFDM Frame Calculator tool Table 109 OFDM Frame Calculator page attributes Attribute Meaning Link Mode For AP to SM frame calculations, select Multipoint Link For BHM to BHS frame calculations, select Point-To-Point Link Platform Type Use the drop-down list to select the hardware series (board type) of the AP/BHM AP/BHM. Platform Type Use the drop-down list to select the hardware series (board type) of the SM/BHS SM/BHS.
Chapter 2: Tools Frame Period Using the OFDM Frame Calculator tool Set to the same value as the Frame Period parameter is set in the AP(s) or BHM(s). Downlink Data Initially set this parameter to the same value that the AP/BHM has for its Downlink Data parameter (percentage).
Chapter 2: Tools AP Receive End Using the OFDM Frame Calculator tool In bit times, this is the frame position at which the AP/BHM will cease receiving transmission from the SM/BHS. SM Receive End In bit times, this is the frame position at which the SM/BHS will cease receiving transmission from the AP/BHM. SM Transmit Start In bit times, this is the frame position at which the SM/BHS starts the transmission. SM One Way Air This filed displays the time in ns, that SM/BHS is away from the AP/BHM.
Chapter 2: Tools Using the Subscriber Configuration tool Using the Subscriber Configuration tool The Subscriber Configuration page in the Tools page of the AP displays: • The current values whose control may be subject to the setting in the Configuration Source parameter. • An indicator of the source for each value. This page may be referenced for information on how the link is behaving based on where the SM is retrieving certain QoS and VLAN parameters.
Chapter 2: Tools Using the Link Status tool Using the Link Status tool The Link Status Tool displays information about the most-recent Link Test initiated on the SM or BHS. Link Tests initiated from the AP or BHM are not included in the Link Status table. This table is useful for monitoring link test results for all SMs or BHS in the system. The Link Status table is color coded to display health of link between AP/BHM and SM/BHS.
Chapter 2: Tools Using the Link Status tool Link Status – AP/BHM The current Uplink Rate for each SM or BHS in Session in now available on AP or BHM Link Status Page. From system release 15.2, a single Rate is used and shown for all data channels of an SM. The Link Status tool results include values for the following fields for AP/BHM. Table 112 Link Status page attributes – AP/BHM Attribute Meaning Subscriber This field displays the MAC address and Site Name of the SM.
Chapter 2: Tools Using the Link Status tool Downlink Statistics – This field represents the signal to noise ratio for the downlink (displayed Signal to Noise Ratio when parameter Signal to Noise Ratio Calculation during Link Test is enabled) expressed for both the horizontal and vertical channels. Downlink Statistics – This field displays the average EVM statistics that measures RF signal Average EVM (dB) quality.
Chapter 2: Tools BER Results Using the Link Status tool This field displays the over-the-air Bit Error Rates for each downlink. (The ARQ [Automatic Resend Request] ensures that the transport BER [the BER seen end-to-end through a network] is essentially zero.) The level of acceptable over-the-air BER varies, based on operating requirements, but a reasonable value for a good link is a BER of 1e-4 (1 x 10-4) or better, approximately a packet resend rate of 5%.
Chapter 2: Tools Using the Link Status tool Link Status – SM/BHS The Link Status tool of SM/BHS displays Downlink Status and Uplink Status information.
Chapter 2: Tools Attribute Using the Link Status tool Meaning Downlink Status Receive Power This field lists the current combined receive power level, in dBm. Path Info Signal Strength Ratio This field displays the difference of the Vertical path received signal power to the Horizontal path received signal power for downlink. Signal to Noise Ratio This field lists the current signal-to-noise level, an indication of the separation of the received power level vs. noise floor for downlink.
Chapter 2: Tools Signal to Noise Ratio Using the Link Status tool This field lists the current signal-to-noise level, an indication of the separation of the received power level vs. noise floor for uplink. Average EVM This field displays the average EVM statistics that measures RF signal quality. Latest Remote Link This field is not applicable.
Chapter 2: Tools Using the Link Status tool Re-Registration This field displays the number of re-registrations of the SM. When there are Quality Index no re-registrations, this quality index will be 100%. Re-Registration Count This field displays the re-registration count of the SM. Reference Downlink Downlink reference EVM used for LQI calculations. Quality Index Reference Uplink Uplink reference EVM used for LQI calculations.
Chapter 2: Tools Using BER Results tool Using BER Results tool Radio BER data represents bit errors at the RF link level. Due to CRC checks on fragments and packets and ARQ (Automatic Repeat Request), the BER of customer data is essentially zero. Radio BER gives one indication of link quality. Other important indications to consider includes the received power level, signal to noise ratio and link tests.
Chapter 2: Tools Using the Sessions tool Using the Sessions tool The PMP 450 Platform Family AP has a tab Sessions under the Tools category which allows operators to drop one or all selected SM sessions and force a SM re-registration. This operation is useful to force QoS changes for SMs without losing AP logs or statistics. This operation may take 5 minutes to regain all SM registrations.
Chapter 2: Tools Using the Ping Test tool Using the Ping Test tool The PMP 450 Platform Family AP has a tab Ping Test under the Tools category which allows users to check the accessibility of the given IP V4 address or a valid domain name Figure 82 Ping Test tab of the AP Note When a domain name (for example, www.google.com) is used for ping test, make sure that Preferred DNS Server and Alternate DNS Server parameters are configured in the Configuration > IP tab of the AP.
Chapter 3: Operation Chapter 3: Operation This chapter provides instructions for operators of the 450 Platform Family wireless Ethernet Bridge.
Chapter 3: Operation System information System information This section describes how to use the summary and status pages to monitor the status of the Ethernet ports and wireless link.
Chapter 3: Operation System information General Status page of AP The General Status page of PMP 450m AP is explained in Table 114 The General Status page of PMP 450 AP is explained in.Table 115 The General Status page of PMP 450i AP is explained in Table 116.
Chapter 3: Operation System information Attribute Meaning Device Type This field indicates the type of the module. Values include the frequency band of the device, its module type and its MAC address. Board Type This field indicates the series of hardware. Product Type The field indicates model number of 450m device. The 450m Series has two model variants. • PMP 450m: This model works in SU-MIMO mode which is default “limited” mode.
Chapter 3: Operation Region Code System information A parameter that offers multiple fixed selections, each of which automatically implements frequency band range for the selected region. Units shipped to regions other than restrictions the United States must be configured with the corresponding Region Code to comply with local regulatory requirements. Regulatory This field indicates whether the configured Country Code and radio frequency are compliant with respect to their compatibility.
Chapter 3: Operation System information Registered SM Count This field indicates how many SMs are registered to the AP. Sync Pulse Status This field indicates the status of synchronization as follows: Generating Sync indicates that the module is set to generate the sync pulse. Receiving Sync indicates that the module is set to receive a sync pulse from an outside source and is receiving the pulse.
Chapter 3: Operation Site Name System information This field indicates the name of the physical module. You can assign or change this name in the SNMP tab of the AP Configuration page. This information is also set into the sysName SNMP MIB-II object and can be polled by an SNMP management server. Site Contact This field indicates contact information for the physical module. You can provide or change this information in the SNMP tab of the AP Configuration page.
Chapter 3: Operation System information Table 115 General Status page attributes – PMP 450 AP Page 3-8
Chapter 3: Operation System information Attribute Meaning Device Type See Table 114 General Status page attributes – PMP 450m AP on page 3-3 Board Type for details Product Type This indicates model of the device. Software Version See Table 114 General Status page attributes – PMP 450m AP on page 3-3 for details CPU Usage This field indicates the current CPU utilization of the device. Board MSN This field indicates the Manufacturer’s Serial number.
Chapter 3: Operation System information Maximum Count of Registered SMs Data Slots Down Data Slots Up Contention Slots Connection Status See Table 114 General Status page attributes – PMP 450m AP on page 3-3 for details Account ID Site Name Site Contact Site Location Time Updated and Location Code Table 116 General Status page attributes – PMP 450i AP Page 3-10
Chapter 3: Operation System information Attribute Meaning Device Type See Table 114 General Status page attributes – PMP 450m AP on page 3-3 Board Type for details Product Type This indicates model of the device. Software Version See Table 114 General Status page attributes – PMP 450m AP on page 3-3 for details CPU Usage This field indicates the current CPU utilization of the device. Board MSN This field indicates the Manufacturer’s Serial number.
Chapter 3: Operation System information Antenna Type Channel Center Frequency Channel Bandwidth Cyclic Prefix Frame Period Color Code Max Range Transmit Power This field indicates the combined power level at which the AP is set to transmit, based on the Country Code and Antenna Gain settings. Total Antenna Gain This field indicates the total antenna gain. Temperature See Table 114 General Status page attributes – PMP 450m AP on page 3-3 for details 802.
Chapter 3: Operation System information General Status page - SM The SM’s General Status page is explained in Table 117. Note For accurate power level readings to be displayed, traffic must be present on the radio link.
Chapter 3: Operation System information Attribute Meaning Device Type This field indicates the type of the module. Values include the frequency band of the SM, its module type and its MAC address. Board Type This field indicates the series of hardware. Product Type This indicates model of the device. Software Version This field indicates the system release, the time and date of the release. If you request technical support, provide the information from this field.
Chapter 3: Operation Regional Code System information A parameter that offers multiple fixed selections, each of which automatically implements frequency band range restrictions for the selected region. Units shipped to regions other than the United States must be configured with the corresponding Country Code to comply with local regulatory requirements. DFS This field indicates that DFS operation is enabled based on the configured region code, if applicable.
Chapter 3: Operation Cyclic Prefix System information OFDM technology uses a cyclic prefix, where a portion of the end of a symbol (slot) is repeated at the beginning of the symbol to allow multipathing to settle before receiving the desired data. A 1/16 cyclic prefix means that for every 16 bits of throughput data transmitted, an additional bit is used. Air Delay This field displays the distance in feet between this SM and the AP.
Chapter 3: Operation Site Location System information This field indicates site information for the physical module. You can provide or change this information in the SNMP tab of the SM Configuration page. Maximum Throughput This field indicates the limit of aggregate throughput for the SM and is based on the default (factory) limit of the SM and any floating license that is currently assigned to it. Time Updated and This field displays information about the keying of the radio.
Chapter 3: Operation System information General Status page of BHM The BHM’s General Status page is explained in Table 118. Table 118 General Status page attributes - BHM Attribute Meaning Device Type This field indicates the type of the module. Values include the frequency band of the BHM, its module type and its MAC address.
Chapter 3: Operation System information Board Type This field indicates the series of hardware. Product Type This indicates model of the device. Software Version This field indicates the system release, the time and date of the release. If you request technical support, provide the information from this field. CPU Usage This field indicates the current CPU utilization of the device. Board MSN This field indicates the Manufacture’s Serial number.
Chapter 3: Operation Signal Strength Ratio System information This field displays the difference of the Vertical path received signal power to the Horizontal path received signal power. Transmit Power This field lists the current combined transmit power level, in dBm. Signal to Noise Ratio This field lists the current signal-to-noise level, an indication of the separation of the received power level vs. noise floor. Beacons Displays a count of beacons received by the BHM in percentage.
Chapter 3: Operation System information General Status page of BHS The BHS’s General Status page is explained in Table 119.
Chapter 3: Operation Attribute System information Meaning Device Type Board Type Software Version CPU Usage See Table 119 on page 3-21 Board MSN Board Model FPGA Version Uptime System Time Ethernet Interface Antenna Type Temperature Session Status Session Uptime Registered Backhaul Channel Frequency Receive Power See Table 119 on page 3-21 Signal Strength Ratio Transmit Power Signal to Noise Ratio Beacons Air Delay Data Slots Down Data Slots Up Regional Code Site Name Page 3-22
Chapter 3: Operation System information Site Contact Site Location Time Updated and Location Code Page 3-23
Chapter 3: Operation System information Viewing Session Status The Session Status page in the Home page provides information about each SM or BHS that has registered to the AP or BHM. This information is useful for managing and troubleshooting a system. This page also includes the current active values on each SM or BHS for MIR and VLAN, as well as the source of these values, representing the SM/BHS itself, Authentication Server, or the Authentication Server and SM/BHS.
Chapter 3: Operation LUID System information This field displays the LUID (logical unit ID) of the SM/BHS. As each SM or BHS registers to the AP/BHM, the system assigns an LUID of 2 or a higher unique number to the SM/BHS. If a SM/BHS loses registration with the AP/BHS and then regains registration, the SM/BHS will retain the same LUID. Note Both the LUID and the MAC are hot links to open the interface to the SM/BHS.
Chapter 3: Operation System information Session tab The Session tab provides information on the SMs or BHS Session Count, Reg Count, Re-Reg Count, Uptime, Air delay, PPPoE State and Timeouts. Table 121 Session tab attributes Attribute Meaning Subscriber See Table 120 on page 3-24. LUID See Table 120 on page 3-24. State This filed displays the status of the registered SM. Uptime (Downtime) Once a SM/BHS successfully registers to an AP/BHM, this timer is started.
Chapter 3: Operation System information Re- Registration When a SM/BHS makes a Registration Request, the AP/BHM checks its local Requests session database to see whether it was registered earlier. If the AP/BHM concludes that the SM/BHS is currently in session database, then the request increments the value of this field. Typically, a Re-Registration Requests is the case where both: • SM/BHS attempts to reregister for having lost communication with the AP/BHM.
Chapter 3: Operation System information Attribute Meaning Subscriber See Table 120 on page 3-24. LUID See Table 120 on page 3-24. Hardware This field displays the SMs or BHS hardware type. Downlink Rate SU-MIMO This field displays whether the high-priority channel is enabled in the SM/BHS and the status of rate adapt. For example, if “8X/4X” is listed, the radio is capable of operating at 8X but is currently operating at 4X, due to RF conditions.
Chapter 3: Operation Signal Strength Ratio (dB) System information This field displays the ratio of the Vertical path received signal power to the Horizontal path received signal power. This ratio can be useful for determining multipathing conditions (high vertical to horizontal ratio) for Uplink. Signal to Noise Ratio (dB) This field lists the current signal-to-noise level, an indication of the separation of the received power level vs. noise floor.
Chapter 3: Operation System information Configuration tab The Configuration tab provides information on the SMs or BHS Uplink or Downlink (UL/DL) Sustained Data Rate, UL/DL Burst Allocation, UL/DL Burst Rate, UL/DL Low Priority CIR, UL/DL Medium Priority CIR UL/DL High Priority CIR, UL/DL Ultra High Priority CIR, the UL/DL Broadcast or Multicast Allocation, SM Prioritization Group, RADIUS Authentication Reply, and RADIUS Authentication Server.
Chapter 3: Operation System information See Interaction of Burst Allocation and Sustained Data Rate Settings on page 1-238 Burst Allocation (kbit) This field displays the value that is currently in effect for the SM/BHS, with - Downlink the source of that value in parentheses. This is the specified the rate at which the AP/BHM should be replenished with credits (tokens) for transmission to each of the SMs/BHS’s in its sector. The configuration source of the value is indicated in parentheses.
Chapter 3: Operation System information RADIUS This field displays the associated RADIUS Authentication Server for each SM Authentication Server where it was authenticated. This information is useful when there are multiple RADIUS servers (maximum three servers supported by Cambium). If one server is not reachable, other configured servers are tried in sequential order as a fall-back.
Chapter 3: Operation System information Link Quality tab The Link Quality tab provides information on the Subscriber’s UID, Link quality, Downlink, Uplink, Beacon, ReReg, and the Uptime. This data is refreshed based on the Link Quality Update Interval parameter configuration under the Sessions Status page. Link Quality Metric parameter offers an option to choose either EVM or Rate based LQI calculation.
Chapter 3: Operation System information Subscriber See Table 120 on page 3-24. LUID See Table 120 on page 3-24. Link Quality Indicator This field displays quality of the link. It is calculated based on receive power, modulation rate, re-registrations and beacon percentage. Downlink - Quality This field displays the downlink quality in percentage. It is calculated based Index on Downlink receiver power, modulation rate, and beacon percentage.
Chapter 3: Operation System information Viewing Remote Subscribers This page allows to view the web pages of registered SMs or BHS over the RF link. To view the pages for a selected SM/BHS, click its link. The General Status page of the SM opens. Figure 83 Remote Subscribers page of AP Interpreting messages in the Event Log Each line in the Event Log of a module Home page begins with a time and date stamp.
Chapter 3: Operation System information Note In the Time & Date web page, if you have left any time field or date field unset and clicked the Set Time and Date button, then the time and date default to 00:00:00 UT: 01/01/00. A reboot causes the preset time to pause or, in some cases, to run in reverse. Additionally, a power cycle resets the running time and date to the default 00:00:00 UT: 01/01/00.
Chapter 3: Operation System information Table 126 Event Log messages for abnormal events Event Message Meaning Expected LUID = 6 Something is interfering with the control messaging of the module. Also Actual LUID = 7 ensure that you are using shielded cables to minimize interference. Consider trying different frequency options to eliminate or reduce interference. FatalError () The event recorded on the line immediately beneath this message triggered the Fatal Error ().
Chapter 3: Operation System information Viewing the Network Interface In any module, the LAN1 Network Interface section of this tab displays the defined Internet Protocol scheme for the Ethernet interface to the module. In SM/BHS devices, this page also provides an RF Public Network Interface section, which displays the Internet Protocol scheme defined for network access through the master device (AP/BHM).
Chapter 3: Operation System statistics System statistics This section describes how to use the system statistics pages to manage the performance of the PMP/PTP 450 Platform Family link.
Chapter 3: Operation Transmit Unicast Data Count Transmit Broadcast Data Count Transmit Multicast Data Count Receive Unicast Data Count Receive Broadcast Data Count Receive Multicast Data Count System statistics Total amount of unicast packets transmitted from the radio Total amount of broadcast packets transmitted from the radio Total amount of multicast packets transmitted by the radio Total amount of unicast packets received by the radio Total amount of broadcast packets received by the radio Tot
Chapter 3: Operation Xmt LT Result System statistics This radio transmitted its link test results to the remote radio under test. When the remote radio initiates a link test, this radio must send its results to the remote radio for display there. Frame Too Big This statistic indicates the number of packets received and processed by the radios which were greater than max packet size 1700 bytes. Bad Acknowledgment This statistic indicates the number of packets received as bad acknowledgment.
Chapter 3: Operation System statistics BHS Registration Failures page of BHM Table 130 BHS Registration Failures page attributes - BHM Attribute Meaning Status 17 Flag 0 No response was received from the AAA server and hence BHS is trying to send a session request again. There is a list of flags from 0 to 20 as shown in Table 131 and the “Flags” can be ignored. Table 131 Flags status Flag Meaning Flag Meaning 0 Normal 11 AP Lite Limit Reached 1 Out of Range 12 Only Ver 9.
Chapter 3: Operation System statistics Interpreting Bridging Table statistics If NAT (network address translation) is not active on the SM/BHS, then the Bridging Table page provides the MAC address of all devices that are attached to registered SMs/BHS (identified by LUIDs). The SM/BHS management MAC addresses are also added in bridge table upon SMs/BHS registration. These entries will be remove automically from the table once SMs/BHS is de-registered.
Chapter 3: Operation System statistics Figure 89 Translation Table page of SM Interpreting Ethernet statistics The Statistics > Ethernet page reports TCP throughput and error information for the Ethernet connection of the module. This page is applicable for all modules (AP/SM/BHM/BHS). The Ethernet page displays the following fields.
Chapter 3: Operation System statistics Attribute Meaning Ethernet Link 1 indicates that an Ethernet link is established to the radio, 0 indicates that Detected no Ethernet link is established Ethernet Link Lost This field indicates a count of how many times the Ethernet link was lost. Undersized Toss This field indicates the number of packets that were too small to process Count and hence discarded.
Chapter 3: Operation System statistics CRCError This field displays how many CRC errors occurred on the Ethernet controller. RcvFifoNoBuf This field displays the number of times no FIFO buffer space was able to be allocated. Note: PMP 450 AP running in Gigabit Ethernet Mode displays error “RcfFifoNoBuf” which indicates packet loss. For 450 AP platforms, if ethernet auto-negotation is set to Gigabit, then it is a known limitation that “RcfFifoNoBuf” error will be seen.
Chapter 3: Operation System statistics Interpreting RF Control Block statistics The Statistics > Radio page is applicable for all module (AP/SM/BHM/BHS). The Radio page of the Statistics page displays the following fields. Table 133 Radio (Statistics) page attributes – RF Control Block Attribute Meaning inoctets Count This field displays how many octets were received on the interface, including those that deliver framing information.
Chapter 3: Operation outucastpkts Count System statistics This field displays how many packets for which the higher-level protocols requested transmission to a subnetwork-unicast address. The number includes those that were discarded or not sent. outnucastpkts Count This field displays how many packets for which the higher-level protocols requested transmission to a non-unicast (subnetwork-broadcast or subnetwork-multicast) address. The number includes those that were discarded or not sent.
Chapter 3: Operation System statistics Interpreting Sounding statistics for AP In the 450m AP GUI, sounding statistics can be found under Statistics > Sounding Statistics. Table 134 Sounding Statistics - 450m AP page attributes Attribute Meaning Subscriber This field displays the MAC address and Site Name of the SM/BHS. As each SM or BHS registers to the AP/BHM. LUID This field displays the LUID (logical unit ID) of the SM/BHS.
Chapter 3: Operation System statistics • INVALID: Inconsistent measurements resulting in no channel estimate or spatial frequency. This SM cannot be used for MU-MIMO and it will ultimately be re-assessed. • NOT ELIGIBLE: Due to poor RF link conditions, the RF link as rate adapted down to SU-MIMO transmissions. Downlink - MU-MIMO This field indicates the modulation rate used for symbols where this particular Rate LUID is MU-MIMO scheduled by grouping it in the same slot with other LUIDs.
Chapter 3: Operation System statistics Interpreting VLAN statistics The Statistics > VLAN page provides a list of the most recent packets that were filtered because of VLAN membership violations. It is applicable for all modules (AP/SM/BHM/BHS). Table 135 VLAN page attributes Attribute Meaning Unknown This must not occur. Contact Technical Support. Only Tagged The packet was filtered because the configuration is set to accept only packets that have an 802.1Q header and this packet did not.
Chapter 3: Operation System statistics Interpreting Data Channels statistics The Statistics > Data Channels page displays information about data channels used in data communications. This page is applicable for all modules (AP/SM/BHM/BHS). The Data VC tab displays the fields as explained in Table 136. Table 136 Data Channel page attributes Attribute Meaning Subscriber This field displays the MAC address and Site Name of the SM/BHS. LUID This field displays the LUID (logical unit ID) of the SM/BHS.
Chapter 3: Operation System statistics Note Both the LUID and the MAC are hot links to open the interface to the SM/BHS. In some instances, depending on network activity and network design, this route to the interface yields a blank web page. If this occurs, refresh your browser view. Channel Priority This field displays the channel priority for the virtual channel. The values supported are Low, Medium, High, and Ultra High.
Chapter 3: Operation Queue Overflow System statistics This is a count of packets that were discarded because the queue for the VC was already full. If Queue Overflows are being seen across most or all SMs, then there is either an interferer local to the AP or the APs RF link is at capacity.
Chapter 3: Operation System statistics Interpreting Proportional Scheduler The Statistics > Proportional Scheduler page displays information: Table 137 MIR/Burst page attributes for AP Attribute Meaning Subscriber See Table 120 on page 3-24. LUID See Table 120 on page 3-24. Lock Modulation This field displays the Lock Modulation mode of all registered SMs. Modulation The database configured Lock Modulation value if lock modulation is set to Enable below threshold or Enabled.
Chapter 3: Operation System statistics Table 138 MIR/Burst page attributes for AP Attribute Meaning Subscriber This field displays the LUID (logical unit ID), MAC address and Site Name of the SM/BHS. As each SM or BHS registers to the AP/BHM, the system assigns an LUID of 2 or a higher unique number to the SM/BHS. As of release 15.2, if an SM/BHS loses registration with the AP/BHM and then regains registration, the SM/BHS retains the same LUID.
Chapter 3: Operation System statistics Table 139 MIR/Burst page attributes for SM Attribute Meaning Current Uplink Bucket This field displays the number of bits in the bucket to be potentially Size consumed at above-MIR rates, up to Max Burst MIR rate. Uplink MIR This field displays the active MIR rate per second. This is the rate that the bucket is filled with bits. Uplink MIR Per 100ms This field displays the rate that the bucket is filled with bits at every 100 ms Interval interval.
Chapter 3: Operation System statistics Interpreting Throughput statistics The 450 Platform Family has a Statistics > Throughput page which shows historical information about sector or backhaul throughput and packet discards. This page is applicable for AP and BHM modules. This information can be useful to identify an overloaded sector or heavy bandwidth users.
Chapter 3: Operation System statistics Board Performance statistics This table contains a row that corresponds to each 1 minute statistics collection interval.
Chapter 3: Operation • System statistics o outPkts – Number of packets sent by the AP/BHM at the Ethernet Interface over the collection interval o Discards (in/out) – Number of packets that had to be discarded by the AP/BHM at the respective Ethernet Interface Queue RF Statistics - Statistics collected at the RF Interface: o inOctets – Number of octets (bytes) received by the AP/BHM at the RF Interface over the collection interval o outOctets – Number of octets (bytes) sent by the AP/BHM at the R
Chapter 3: Operation o System statistics Ave Pkt Size – Average size of the packets transmitted by the AP/BHM at the RF Interface for this LUID over the collection interval o discards – Number of packets to be transmitted by the AP/BHM at the RF Interface for this LUID over the collection interval that had to be discarded because the RF Out Queue was full o discards % – Percent of the total packets to be transmitted by the AP/BHM at the RF Interface for this LUID over the collection interval that had
Chapter 3: Operation Ethernet Out Discards System statistics This field represents the number of packets tossed due to an Ethernet out overload. This stat must not climb in normal operation because the Ethernet link is much higher capacity than the RF link. If this stat is incrementing, then either the Ethernet link is established at a low speed (i.e. 10Mbps – half duplex), or there is a problem with cabling/Ethernet hardware.
Chapter 3: Operation System statistics Note 450m Overload: The 450m Series AP is designed to handle high load in terms of high throughput and high PPS. In terms of throughput, 450m is designed to achieve 3x or more throughput improvement over 450 and 450i Series products. In terms of packets per second (PPS), 450m is designed to handle up to 100k PPS. Overload occurs when the offered load exceeds the above limits.
Chapter 3: Operation System statistics Table 142 DHCP Relay page attributes – AP/SM Attribute Meaning Requests Received This field represents the number of DHCP relay requests received by the AP. Requests Relayed This field represents the number of DHCP relay requests relayed by the AP. Requests Discarded This field represents the number of DHCP relay requests discarded by the AP due to errors in the request.
Chapter 3: Operation System statistics Subscriber See Table 120 on page 3-24. LUID See Table 120 on page 3-24. Circuit ID This field displays the option 82 data of the SM in binary and ASCII formats. Remote ID Vendor Specific ID Interpreting Filter statistics The Statistics > Filter page displays statistics on packets that have been filtered (dropped) due to the filters set on the Protocol Filtering page. The filter page of SM is explained in Table 143.
Chapter 3: Operation All Other IPv6 Count System statistics Any IPv6 message that was not SMB, SNMP, Bootp, Multicast or one of the user defined filters, that was filtered out.
Chapter 3: Operation System statistics Table 144 NAT page attributes - SM Attribute Meaning Private NAT Statistics, This field represents the number of packets received on the SM’s Packet In Count LAN/Ethernet interface Private NAT Statistics, This field represents the number of packets sent from the SM’s Packet Out Count LAN/Ethernet interface Private NAT Statistics, This field represents the number of packets that we not sent from the Packet Out Toss Count SM’s LAN/Ethernet interface due t
Chapter 3: Operation System statistics Viewing NAT DHCP Statistics The Statistics > NAT DHCP page displays NAT enabled DHCP client statistics. This is statistics page is applicable for SM only. When NAT is enabled on a SM with DHCP client (DHCP selected as the Connection Type of the WAN interface) and/or DHCP Server, statistics are kept for packets transmitted, received and tossed, as well as a table of lease information for the DHCP server (Assigned IP Address, Hardware Address and Lease Remained/State).
Chapter 3: Operation System statistics Interpreting Sync Status statistics The Statistics > Sync Status page of AP is only displayed when the Sync Input is set to AutoSync or AutoSync+Free Run. The Sync Status page is explained in Table 146.
Chapter 3: Operation System statistics Interpreting PPPoE Statistics for Customer Activities The page can be access under Statistics > PPPoE of SM GUI. When the PPPoE feature is enabled on the SM, PPPoE statistics provide data about activities of the customer. The PPPoE Statistics of SM is explained in Table 147.
Chapter 3: Operation System statistics PPPoE Control Bytes This field displays the total number of PPPoE session control bytes received Received by the SM PPPoE Data Session This field displays the total number of PPPoE data session (non-control/non- Bytes Sent session management user data) sent by the SM PPPoE Data Session This field displays the total number of PPPoE data session (non-control/non- Bytes Received session management user data) Page 3-71
Chapter 3: Operation System statistics Interpreting Bridge Control Block statistics The Statistics > Bridge Control Block page displays statistics of Bridge FEC, Bridge ratio and Bridge error. The page is applicable for all modules (AP/SM/BHM/BHS). The Bridge Control Block Statistics page is explained in Table 148.
Chapter 3: Operation Attribute System statistics Meaning Bridge FEC Stats FEC bin This field indicates the number of broadcast packets received by the bridge control block on the Main Ethernet interface FEC bout This field indicates the number of broadcast packets sent by the bridge control block on the Main Ethernet interface FEC btoss This field indicates the number of broadcast packets tossed out by the bridge control block on the Main Ethernet interface FEC btosscap This field indicates the n
Chapter 3: Operation RF bin System statistics This field indicates the number of broadcast packets received by the bridge control block on the radio interface RF bout This field indicates the number of broadcast packets sent by the bridge control block on the radio interface RF btoss This field indicates the number of broadcast packets tossed by the bridge control block on the radio interface RF btosscap This field indicates the number of broadcast packets tossed out at the radio interface due to M
Chapter 3: Operation System statistics Interpreting Pass Through Statistics The Statistics > Pass Through Statistics page displays radius related statistics. The page is applicable for PMP 450 Platform Family - AP only. The Pass Through Statistics page is explained in Table 149. Table 149 Pass Through Statistics page attributes – AP Attribute Meaning IdentityReqSent This field indicates the number of EAP Identity requests sent through the AP with respect to an SM.
Chapter 3: Operation System statistics Interpreting SNMPv3 Statistics The Statistics > SNMPv3 Statistics page displays all SNMPv3 related statistics. The page is applicable for all type of ODUs of PMP 450 Platform. The SNMPv3 Statistics page is explained in Table 150.
Chapter 3: Operation System statistics snmpUnknownSecurityMod The total number of packets received by the SNMP engine which els were dropped because they referenced a securityModel that was not known to or supported by the SNMP engine. snmpInvalidMsgs The total number of packets received by the SNMP engine which were dropped because there were invalid or inconsistent components in the SNMP message.
Chapter 3: Operation vacmViewSpinLock System statistics An advisory lock used to allow cooperating SNMP Command Generator applications to coordinate their use of the Set operation in creating or modifying views.
Chapter 3: Operation System statistics Interpreting Frame Utilization statistics The Frame Utilization Statistics is a feature helps user to understand how effectively the RF channel is being utilized. This feature allows to check Time Division Duplex (TDD) frame utilization pattern and diagnose for any excessive usage in uplink or downlink direction. This forms the first step of identifying the TDD frame utilization information.
Chapter 3: Operation Attribute System statistics Meaning Frame Utilization Interval Statistics Display interval This allows to configure timer interval to monitor and display the frame utilization statistics. It can be configured for 1 minute (low interval), 5 minutes (medium interval) or 15 minutes (high interval) based on requirement. Next Update This field displays when the next update will occur.
Chapter 3: Operation Multiplexing Gain System statistics This specifies the ratio between the number of logical slots and the number of physical slots used. A physical slot is an OFDM symbol. In non MU-MIMO mode, each logical slot is sent during one physical slot. In MU-MIMO mode a number of logical slots are sent during a physical slot, equal to the number of VCs in the group.
Chapter 3: Operation Ultra High Priority System statistics The number of downlink data slots used for ultra high priority downlink traffic. Note: The above Low, Medium, High, and Ultra High Priority Counts are physical slot transmissions. For MU-MIMO scheduling, some transmissions can contain data from more than 1 data channel priority. In those cases, the highest data channel used is "counted" in these statistics, and the other data channels are not, to avoid overcounting.
Chapter 3: Operation System statistics Bandwidth Request The "Bandwidth Request Success" is a message sent from the SM to Success the AP asking to be scheduled for bandwidth to send in the uplink. This gets transmitted in the unscheduled portion of the uplink. Unscheduled uplink is defined as Contention Slots + unscheduled uplink slots. Since this is sent in the unscheduled portion of the uplink, it will result in collisions when SMs randomly pick the same slot.
Chapter 3: Operation System statistics Table 153 Frame utilization statistics for 450, 450i Attribute Meaning See Table 152 Frame utilization statistics for 450m.
Chapter 3: Operation System statistics Interpreting Spatial Utilization statistics Table 154 Spatial Utilization statistics Page 3-85
Chapter 3: Operation System statistics Spatial Frequency Heatmap Attribute Meaning Instantaneous Distribution This table is updated every 500 ms and displays the following: Spatial Utilization • Group: Each row corresponds to the top (most active) 1, 2, 8, 16, 32, 64, 128 and 256 VCs. • Median Slot Count: Median value of the average number of slots scheduled for the VCs in each group in the past 500 ms. • LUIDs in Group: List of LUIDs belonging to each bin.
Chapter 3: Operation Attribute System statistics Meaning • Spatial Frequency: Range of spatial frequency for each bin. Each bin includes 32 consecutive spatial frequency values. • Azimuth (degrees): Azimuth range in degrees corresponding to the spatial frequencies of the bin. The zero-degree Azimuth is boresight. Note Some SF ranges correspond to multiple azimuth ranges. This is because for some spatial frequencies the AP generates beams in multiple azimuth directions.
Chapter 3: Operation Attribute System statistics Meaning • spare capacity in spatial directions The heatmap uses a graduated colour scale to represent the percentage utilisation. The graphic to the right-hand side of the heatmap should be used as a key to interpret the GUI. Where dark blue represents zero percent utilisation and red represents 100% utilisation.
Chapter 3: Operation Radio Recovery Radio Recovery This section describes: • How to recover a PMP/PTP 450i and PMP 450m Series ODUs from configuration errors or software image corruption • How to override a PMP/PTP 450 Series ODUs from forgotten IP address and password to factory default Radio Recovery Console– PMP/PTP 450i/450b and PMP 450m Recovery mode allows to restore IP address and password.
Chapter 3: Operation Radio Recovery Procedure 27 Radio Recovery Console 1 Apply power to PSU for at least 10 seconds. 2 Remove power from the PSU, and then re-apply it as soon as the power indicator light goes out (about 1 - 2 seconds). 3 When the unit is in recovery mode, access the web interface by entering the default IP address 169.254.1.1. The Recovery Image Warning page is displayed. 4 Review the Boot Selection (Table 155).
Chapter 3: Operation Radio Recovery Note The radio enters recovery mode when a short power cycle is used. The radio will boot normally if power has been removed for a longer period (typically 5 - 10 seconds). Default Mode (or Default/Override Plug) - PMP/PTP 450 Series The default mode allows to temporarily override some PMP/PTP 450 Series ODU settings and thereby regain control of the module by powering the module on with the Default Plug inserted into the unit’s synchronization (RJ11) port.
Chapter 3: Operation Radio Recovery Use below procedure to enter in default mode manually. Procedure 28 Default mode 1 Insert the override plug into the RJ-11 GPS utility port of the module. 2 Power cycle by removing, then re-inserting, the Ethernet cable. RESULT: The module boots with the default IP address of 169.254.1.1, password fields blank, and all other configuration values as previously set. 3 Wait approximately 30 seconds for the boot to complete. 4 Remove the override plug.
Chapter 4: Reference information Chapter 4: Reference information This chapter contains reference information and regulatory notices that apply to the 450 Platform Family ODUs. The following topics are described in this chapter: • Equipment specifications on page 4-2 contains specifications of the 450 Platform Family, ODU specifications including RF bands, channel width and link loss. • Data network specifications on page 4-56 shows the 450 Platform Family Ethernet interface specifications.
Chapter 4: Reference information Equipment specifications Equipment specifications This section contains specifications of the AP, SM, BHM and BHS associated supplies required for 450 Platform Family installations. Specifications for 5 GHz PMP 450m Series - AP The 5 GHz PMP 450m AP conforms to the specifications listed in Table 156. Table 156 5 GHz PMP 450m Series - AP specifications Category Specification Model Number PMP 450m AP Spectrum Channel Spacing Configurable on 2.
Chapter 4: Reference information 5.4 GHz Equipment specifications 1x=-101.1 dBm, 2x=-96.8 dBm, 4x=-90 dBm, 6x=-83.9 dBm, 8x=-76.2 dBm 5.8 GHz 1x=-101.6 dBm, 2x=-96.6 dBm, 4x=-89.9 dBm, 6x=-83.7 dBm, 8x=-76.3 dBm Nominal Receive 5.1 GHz Sensitivity (w/ FEC) @ 10 MHz Channel 1x=-99 dBm, 2x=-94.6 dBm, 4x=-87.8 dBm, 6x=-81.6 dBm, 8x=-74.6 dBm 5.2 GHz 1x=-98.8 dBm, 2x=-93.8 dBm, 4x=-87.6 dBm, 6x=-81.4 dBm, 8x=-73.6 dBm 5.4 GHz 1x=-98.1 dBm, 2x=-94.1 dBm, 4x=-87.5 dBm, 6x=-81.5 dBm, 8x=-73.8 dBm 5.
Chapter 4: Reference information 5.2 GHz Equipment specifications 1x=-93.1 dBm, 2x=-88.7 dBm, 4x=-82.5 dBm, 6x=-76.2 dBm, 8x=-69.4 dBm 5.4 GHz 1x=-93.6 dBm, 2x=-89.1 dBm, 4x=-82.9 dBm, 6x=-76.5 dBm, 8x=-69.7 dBm 5.8 GHz 1x=-94.1dBm, 2x=-89.4 dBm, 4x=-83.2 dBm, 6x=-76.8 dBm, 8x=-69.9 dBm Nominal Receive 4.9 GHz Sensitivity (w/ FEC) @ 40 MHz Channel 1x=-92.1 dBm, 2x=-88.1 dBm, 4x=-82.0 dBm, 6x=-75.5 dBm, 8x=-68.2 dBm 5.1 GHz 1x=-92.1 dBm, 2x=-88.1 dBm, 4x=-82.0 dBm, 6x=-75.5 dBm, 8x=-68.2 dBm 5.
Chapter 4: Reference information Equipment specifications Link Budget Antenna Beam Width 5 GHz 90° integrated sector (Dual polarity, H+V) Antenna Gain +14 dBi Maximum EIRP +48 dBm Physical • 1000BASE-T Ethernet Data SFP port • AUX port for UGPS or PoE out to 802.3at Antenna Connection Integrated Sector Array Surge Suppression (with EN61000-4-5: 1.
Chapter 4: Reference information Equipment specifications Specifications for 3 GHz PMP 450m Series - AP The 3GHz PMP 450m AP conforms to the specifications listed in Table 157.
Chapter 4: Reference information Category Nominal Receive Equipment specifications Specification 3.6 GHz Sensitivity (w/ FEC) @ 1x=-92.6 dBm, 2x=-90.3 dBm, 4x=-84.0 dBm, 6x=-77.8 dBm, 8x=-71.2 dBm 15 MHz Channel Nominal Receive 3.5 GHz Sensitivity (w/ FEC) @ 20 MHz Channel 1x=-92.0 dBm, 2x=-89.8 dBm, 4x=-83.3 dBm, 6x=-77.1 dBm, 8x=-68.7 dBm 3.6 GHz 1x=-91.3 dBm, 2x=-89.2 dBm, 4x=-82.7 dBm, 6x=-76.5 dBm, 8x=-69.9 dBm Nominal Receive 3.5 GHz Sensitivity (w/ FEC) @ 30 MHz Channel 1x=-90.
Chapter 4: Reference information Equipment specifications Category Specification Antenna Beam Width 90° integrated sector (3dB rolloff), 120° (6dB rolloff), (Azimuth) (dual slant polarity, ±45° Antenna Beam Width 2° Electrical Downtilt, 8° Elevation (with Null Fill) (Elevation) Antenna Gain +16 dBi Maximum EIRP +52 dBm (or up to maximum allowed by regulation) Physical Data ports Main port RJ45 1000BASE-T Ethernet Data Aux port RJ45 100BASE-T with 802.
Chapter 4: Reference information Equipment specifications Category Specification Power Consumption 140 W typical, 150 W peak (up to 180 W max with AUX port PoE enabled) Input Voltage 40 - 60 V DC Mounting Pole mount with included brackets (1.25" to 4" pole diameter) Security Encryption FIPS-197 128-bit AES, Optional 256-bit AES Note AES-256 requires a license key.
Chapter 4: Reference information Equipment specifications Specifications for PMP 450i Series - AP The PMP 450i AP conforms to the specifications listed in Table 158. Table 158 PMP 450i Series - AP specifications Category Specification Model Number PMP 450i AP Spectrum Channel Spacing 5, 7, 10, 15, 20, 30, and 40 MHz Channel Bandwidth Configurable on 2.
Chapter 4: Reference information Category Equipment specifications Specification 3.6 GHz 1x=-91 dBm, 2x=-86.1 dBm, 4x=-80.2 dBm, 6x=-73.1 dBm, 8x=-66 dBm 4.9 GHz 1x = -91.6 dBm, 2x = -87.6 dBm, 4x = -80.4 dBm, 6x = 73.2 dBm, 8x = -66 dBm 5.1 GHz 1x = -91.4 dBm, 2x = -88 dBm, 4x = -80.8 dBm, 6x = -73.7 dBm, 8x = -67 dBm 5.2 GHz 1x = -91.8 dBm, 2x = -87.3 dBm, 4x = -80 dBm, 6x = -73.9 dBm, 8x = -66.6 dBm 5.4 GHz 1x = -92 dBm, 2x = -87 dBm, 4x = -80.8 dBm, 6x = -73.7 dBm, 8x = -66.6 dBm 5.
Chapter 4: Reference information Category Equipment specifications Specification 5.8 GHz 1x = -89.5 dBm, 2x = -84.7 dBm, 4x = -77.8 dBm, 6x = 71.6 dBm, 8x = -64 dBm Nominal Receive 900 MHz Sensitivity (w/ FEC) @ 1x=-88.2 dBm, 2x=-83.2 dBm, 4x=-76.3 dBm, 6x=-70.2 dBm, 8x=-64.3 dBm 15 MHz Channel 3.5 GHz 1x=-89 dBm, 2x=-84 dBm, 4x=-77.9 dBm, 6x=-72 dBm, 8x=-64.8 dBm 3.6 GHz 1x=-87.6 dBm, 2x=-83.7 dBm, 4x=-77.5 dBm, 6x=-71.6 dBm, 8x=-64.5 dBm 4.9 GHz 1x = -87.2 dBm, 2x = -83 dBm, 4x = -75.
Chapter 4: Reference information Category Equipment specifications Specification 5.4 GHz 1x = -86.6 dBm, 2x = -81.3 dBm, 4x = -75.5 dBm, 6x = 68.6 dBm, 8x = -62 dBm 5.8 GHz 1x = -85.8 dBm, 2x = -80.7 dBm, 4x = -74.6 dBm, 6x = 68.7 dBm, 8x = -61 dBm Nominal Receive 3.5 GHz Sensitivity (w/ FEC) @ 1x=-85.6 dBm, 2x=-81.7 dBm, 4x=-74.5 dBm, 6x=-68 dBm, 8x=-61.5 dBm 30 MHz Channel 3.6 GHz 1x=-85.5 dBm, 2x=-80.5 dBm, 4x=-74.4 dBm, 6x=-68.4 dBm, 8x=-61.5 dBm 4.9 GHz 1x = -84.
Chapter 4: Reference information Category Equipment specifications Specification 5.8 GHz 1x=-83.8 dBm, 2x=-78.4 dBm, 4x=-72 dBm, 6x=-66 dBm, 8x=-57 dBm Performance ARQ Yes Cyclic Prefix 1/16 Frame Period 2.5 ms or 5.
Chapter 4: Reference information Equipment specifications Category Specification Maximum Transmit +27 dBm combined output (for 5 GHz) Power +25 dBm combined output (for 3 GHz) +25 dBm combined output (for 900MHz) Physical Sync/AUX port RJ45 • 10/100/100BASE-T Ethernet Data • PoE output (planned for future release) • Sync input or output (Connection and powering of UGPS Sync input) Antenna Connection 50 ohm, N-type (Connectorized version only) Surge Suppression EN61000-4-5: 1.
Chapter 4: Reference information Category Equipment specifications Specification Note AES-256 requires a license key.
Chapter 4: Reference information Equipment specifications Specifications for PMP 450i Series - SM The PMP 450i SM conforms to the specifications listed in Table 159. Table 159 PMP 450i Series - SM specifications Category Specification Model Number PMP 450i SM Spectrum Channel Spacing 5, 7, 10, 15, 20, 30, and 40 Channel Bandwidth Configurable on 2.
Chapter 4: Reference information Category Equipment specifications Specification 5.1 GHz 1x = -92 dBm, 2x = -88.7 dBm, 4x = -81.2 dBm, 6x = -74.4 dBm, 8x = -67 dBm 5.2 GHz 1x = -92 dBm, 2x = -88.8 dBm, 4x = -81.3 dBm, 6x = -74.7 dBm, 8x = -67 dBm 5.4 GHz 1x = -93 dBm, 2x = -89.1 dBm, 4x = -81.5 dBm, 6x = -74.8 dBm, 8x = -67.4 dBm 5.8 GHz 1x = -92 dBm, 2x = -88.3 dBm, 4x = -80.8 dBm, 6x = -74 dBm, 8x = -66.2 dBm Nominal Receive 3.
Chapter 4: Reference information Category Equipment specifications Specification 5.1 GHz 1x = -88.4 dBm, 2x = -83.6 dBm, 4x = -77.3 dBm, 6x = -71 dBm, 8x = -62.9 dBm 5.2 GHz 1x = -88.6 dBm, 2x = -83.6 dBm, 4x = -77.5 dBm, 6x = 70.2 dBm, 8x = -62.9 dBm 5.4 GHz 1x = -87.7 dBm, 2x = -83.9 dBm, 4x = -76.6 dBm, 6x = 70.4 dBm, 8x = -63 dBm 5.8 GHz 1x = -88 dBm, 2x = -82.9 dBm, 4x = -76.7 dBm, 6x = -69.4 dBm, 8x = -62.3 dBm Nominal Receive 3.5 GHz Sensitivity (w/ FEC) @ 1x = -87 dBm, 2x = -83.
Chapter 4: Reference information Category Equipment specifications Specification 5.2 GHz 1x = -85.4 dBm, 2x = -80.4 dBm, 4x = -73.3 dBm, 6x = -68 dBm, 8x = -59.9 dBm 5.4 GHz 1x = -85.2 dBm, 2x = -80.2 dBm, 4x = -74.1 dBm, 6x = 67.9 dBm, 8x = -59.8 dBm 5.8 GHz 1x = -84.9 dBm, 2x = -80 dBm, 4x = -73.2 dBm, 6x = -67.4 dBm, 8x = -59.4 dBm Nominal Receive 3.5 GHz Sensitivity (w/ FEC) @ 1x = -83.2 dBm, 2x = -79 dBm, 4x = -72.4 dBm, 6x = -66 dBm, 8x = -58.4 dBm 40 MHz Channel 3.6 GHz 1x = -82.
Chapter 4: Reference information Equipment specifications Category Specification Latency 3 - 5 ms Maximum Deployment Up to 40 miles (64 km) Range GPS Synchronization Yes, via Autosync (CMM4) Quality of Service Diffserv QoS Link Budget Antenna Beam Width Antenna Gain (Does not include cable loss, ~1dB) 10° azimuth for 23 dBi integrated antenna 5 GHz +23 dBi H+V, integrated or external 3 GHz +19 dBi dual slant, integrated or external Transmit Power Range 40 dB dynamic range (to EIRP limit by
Chapter 4: Reference information Category Dimension (HxWxD) Power Consumption Equipment specifications Specification Integrated 200 km/h (124 mi/h) Connectorized 26.0 x 13.4 x 6.4 cm (10.3” x 5.3” x 3.3”) Integrated 31.0 x 31.0 x 6.4 cm (12” x 12” x 2.5”) 15 W typical, 25 W max, 55 W max with Aux port PoE out enabled Input Voltage 48-59 V DC, 802.
Chapter 4: Reference information Equipment specifications Specifications for PTP 450i Series - BH The PTP 450i BH conforms to the specifications listed in Table 160. Table 160 PTP 450i Series - BH specifications Category Specification Model Number PTP 450i BH Spectrum Channel Spacing 5, 7, 10, 15, 20, 30, and 40 MHz Channel Bandwidth Configurable on 2.
Chapter 4: Reference information Category Equipment specifications Specification 5.4 GHz 1x = -93 dBm, 2x = -88.4 dBm, 4x = -81.3 dBm, 6x = -75.5 dBm, 8x = -67.8 dBm 5.8 GHz 1x = -93.2 dBm, 2x = -88.3 dBm, 4x = -80.8 dBm, 6x = 74.3 dBm, 8x = -66.8 dBm Nominal Receive 3.5 GHz Sensitivity (w/ FEC) @ 7 MHz Channel 1x = -91.8 dBm, 2x = -87.7 dBm, 4x = -80.8 dBm, 6x = 74.7 dBm, 8x = -67.3 dBm 3.6 GHz 1x = -90.0 dBm, 2x = -87.0 dBm, 4x = -79.8 dBm, 6x = 73.8 dBm, 8x = -67.2 dBm Nominal Receive 3.
Chapter 4: Reference information Category Nominal Receive Specification 3.5 GHz Sensitivity (w/ FEC) @ 20 MHz Channel’ Equipment specifications 1x = -87.4 dBm, 2x = -83.0 dBm, 4x = -76.9 dBm, 6x = 69.9 dBm, 8x = -63.0 dBm 3.6 GHz 1x = -86.4 dBm, 2x = -82.5 dBm, 4x = -76.4 dBm, 6x = 69.4 dBm, 8x = -62.9 dBm 4.9 GHz 1x = -86.9 dBm, 2x = -82.5 dBm, 4x = -75.7 dBm, 6x = 69.4 dBm, 8x = -62.3 dBm 5.1 GHz 1x = -87.3 dBm, 2x = -83.3 dBm, 4x = -76 dBm, 6x = -69.9 dBm, 8x = -62.6 dBm 5.2 GHz 1x = -87.
Chapter 4: Reference information Category Equipment specifications Specification 5.2 GHz 1x=-84.7 dBm, 2x=-79.4 dBm, 4x=-73.2 dBm, 6x=-66.8 dBm, 8x=-59 dBm 5.4 GHz 1x=-84.5 dBm, 2x=-79.4 dBm, 4x=-73.3 dBm, 6x=-66.5 dBm, 8x=-58 dBm 5.8 GHz 1x=-84 dBm, 2x=-79 dBm, 4x=-72 dBm, 6x=-66 dBm, 8x=-58 dBm Performance ARQ Yes Cyclic Prefix 1/16 Frame Period 2.5 ms or 5.
Chapter 4: Reference information Category Equipment specifications Specification Physical Sync/AUX port RJ45 • 10/100/1000BASE-T Ethernet Data • PoE output • Sync input or output (Connection and powering of UGPS Sync input) Antenna Connection 50 ohm, N-type (Connectorized version only) Surge Suppression EN61000-4-5: 1.
Chapter 4: Reference information Equipment specifications Specifications for PMP/PTP 450b Mid-Gain Series - SM The PMP/PTP 450b Mid-Gain SM conforms to the specifications listed in Table 161. Table 161 PMP/PTP 450b Mid-Gain Series - SM specifications Category Specification Model Number PMP 450b Mid-Gain SM Spectrum Channel Spacing Configurable in 2.
Chapter 4: Reference information Category Nominal Receive Equipment specifications Specification 5.1 GHz Sensitivity (w/ FEC) @ 1x = -90 dBm, 2x = -85.8 dBm, 4x = -78.5 dBm, 6x = -72.2 dBm, 8x = -65.8 dBm 10 MHz Channel 5.2 GHz 1x = -89.9 dBm, 2x = -84.9 dBm, 4x = -78.5 dBm, 6x = -71.2 dBm, 8x = -63.8 dBm 5.4 GHz 1x = -90 dBm, 2x = -85.8 dBm, 4x = -78.5 dBm, 6x = -72.2 dBm, 8x = -65.8 dBm 5.8 GHz 1x = -89.9 dBm, 2x = -84.9 dBm, 4x = -78.5 dBm, 6x = -71.2 dBm, 8x = -63.8 dBm Nominal Receive 4.
Chapter 4: Reference information Category Nominal Receive Equipment specifications Specification 5.1 GHz Sensitivity (w/ FEC) @ 1x = -85.2 dBm, 2x = -80.2 dBm, 4x = -74.1 dBm, 6x = -67.9 dBm, 8x = -59.8 dBm 30 MHz Channel 5.2 GHz 1x = -84.9 dBm, 2x = -80 dBm, 4x = -73.2 dBm, 6x = -67.4 dBm, 8x = -59.4 dBm 5.4 GHz 1x = -85.2 dBm, 2x = -80.2 dBm, 4x = -74.1 dBm, 6x = -67.9 dBm, 8x = -59.8 dBm 5.8 GHz 1x = -84.9 dBm, 2x = -80 dBm, 4x = -73.2 dBm, 6x = -67.4 dBm, 8x = -59.4 dBm Nominal Receive 4.
Chapter 4: Reference information Equipment specifications Category Specification Maximum Deployment Up to 40 miles (64 km) Range GPS Synchronization Yes, via Autosync (CMM4) Quality of Service Diffserv QoS Link Budget Antenna Beam Width 15° azimuth for 16 dBi integrated antenna 30° elevation for 16 dBi integrated antenna Antenna Gain 5 GHz +16 dBi H+V, integrated Transmit Power Range 40 dB dynamic range (to EIRP limit by region) (1 dB step) Maximum Transmit +27 dBm combined output Power P
Chapter 4: Reference information Equipment specifications Category Specification Mounting Wall or Pole mount Security Encryption 128-bit AES and 256-bit AES Note AES-256 requires a license key.
Chapter 4: Reference information Equipment specifications Specifications for PMP/PTP 450b High Gain Series - SM The PMP/PTP 450b High Gain SM conforms to the specifications listed in Table 162. Table 162 PMP/PTP 450b High Gain Series - SM specifications Category Specification Model Number PMP 450b High Gain SM Spectrum Channel Spacing Configurable in 2.
Chapter 4: Reference information Category Nominal Receive Equipment specifications Specification 5.1 GHz Sensitivity (w/ FEC) @ 1x = -90 dBm, 2x = -85.8 dBm, 4x = -78.5 dBm, 6x = -72.2 dBm, 8x = -65.8 dBm 10 MHz Channel 5.2 GHz 1x = -89.9 dBm, 2x = -84.9 dBm, 4x = -78.5 dBm, 6x = -71.2 dBm, 8x = -63.8 dBm 5.4 GHz 1x = -90 dBm, 2x = -85.8 dBm, 4x = -78.5 dBm, 6x = -72.2 dBm, 8x = -65.8 dBm 5.8 GHz 1x = -89.9 dBm, 2x = -84.9 dBm, 4x = -78.5 dBm, 6x = -71.2 dBm, 8x = -63.8 dBm Nominal Receive 4.
Chapter 4: Reference information Category Nominal Receive Equipment specifications Specification 5.1 GHz Sensitivity (w/ FEC) @ 1x = -85.2 dBm, 2x = -80.2 dBm, 4x = -74.1 dBm, 6x = -67.9 dBm, 8x = -59.8 dBm 30 MHz Channel 5.2 GHz 1x = -84.9 dBm, 2x = -80 dBm, 4x = -73.2 dBm, 6x = -67.4 dBm, 8x = -59.4 dBm 5.4 GHz 1x = -85.2 dBm, 2x = -80.2 dBm, 4x = -74.1 dBm, 6x = -67.9 dBm, 8x = -59.8 dBm 5.8 GHz 1x = -84.9 dBm, 2x = -80 dBm, 4x = -73.2 dBm, 6x = -67.4 dBm, 8x = -59.4 dBm Nominal Receive 4.
Chapter 4: Reference information Equipment specifications Category Specification Maximum Deployment Up to 40 miles (64 km) Range GPS Synchronization Yes, via Autosync (CMM4) Quality of Service Diffserv QoS Link Budget Antenna Beam Width 7° azimuth for 23 dBi integrated antenna 7° elevation for 23 dBi integrated antenna Antenna Gain 5 GHz +23 dBi H+V, integrated Transmit Power Range 22 dB dynamic range (to EIRP limit by region) (1 dB step) Maximum Transmit +27 dBm combined output (+22 dBm @
Chapter 4: Reference information Equipment specifications Category Specification Mounting Wall or Pole mount Security Encryption 128-bit AES and 256-bit AES Note AES-256 requires a license key.
Chapter 4: Reference information Equipment specifications Specifications for PMP 450 Series - AP The PMP 450 AP conforms to the specifications listed in Table 163. Table 163 PMP 450 Series - AP specifications Category Specification Model Number PMP 450 AP Spectrum Channel Spacing 5, 7, 10, 15, 20 and 30 MHz Channel Bandwidth Configurable on 2.5 MHz increments Frequency Range Channel Bandwidth 2.4 GHz 2400 – 2483.5 MHz 3.5 GHz 3300 – 3600 MHz 3.
Chapter 4: Reference information Category Equipment specifications Specification 3.65 GHz 1x = -91 dBm, 2x = -86.1 dBm, 4x = -80.2 dBm, 6x = 73.1 dBm, 8x = -66 dBm 5.4 GHz 1x = -88.7 dBm, 2x = -84 dBm, 4x = -77.6 dBm, 6x = 71.6 dBm, 8x = -63.7 dBm 5.8 GHz 1x = -91.5 dBm, 2x = -87 dBm, 4x = -80.2 dBm, 6x = 73.1 dBm, 8x = -66 dBm Nominal Receive 3.5 GHz Sensitivity (w/ FEC) @ 1x = -90.5 dBm, 2x = -86.4 dBm, 4x = -80.3 dBm, 6x = -73.4 dBm, 8x = -66.9 dBm 7 MHz Channel 3.65 GHz 1x = -89.
Chapter 4: Reference information Category Equipment specifications Specification 3.65 GHz 1x = -86 dBm, 2x = -86 dBm, 4x = -78 dBm, 6x = -71 dBm, 8x = -63 dBm 5.4 GHz 1x = -81 dBm, 2x = -81 dBm, 4x = -75 dBm, 6x = -68 dBm, 8x = -59 dBm 5.8 GHz 1x = -82 dBm, 2x = -82 dBm, 4x = -75 dBm, 6x = -69 dBm, 8x = -60 dBm Nominal Receive 2.4 GHz Sensitivity (w/ FEC) @ 30 MHz Channel 1x = -85.4 dBm, 2x = -80.4 dBm, 4x = -74 dBm, 6x = 68 dBm, 8x = -61 dBm 3.5 GHz 1x = -85.5 dBm, 2x = -81.5 dBm, 4x = -74.
Chapter 4: Reference information Equipment specifications Category Specification Quality of Service Diffserv QoS Link Budget Antenna Gain (Does not include cable loss, ~1dB) 2.4 GHz 18 dBi Dual Slant 3.5 GHz 16 dBi Dual Slant 3.65 GHz 16 dBi Dual Slant 5 GHz 17 dBi Horizontal and Vertical Combined Transmit -30 to +22 dBm (to EIRP limit by region) in 1 dB- Power configurable intervals (2.4 GHz, 5 GHz) -30 to +25 dBm (to EIRP limit by region) in 1 dBconfigurable intervals (3.
Chapter 4: Reference information Category Equipment specifications Specification 5 GHz 5.9 kg (13 lbs) with antenna 2.5 kg (5.5 lbs) without antenna Dimension (HxWxD) 2.4 GHz Radio: 27 x 21 x 7 cm (10.6” x 8.3” x 2.8”) Antenna: 112.2 x 24.5 x 11.7 cm (44.2” x 9.6” x 4.6”) 3.5 GHz Radio: 27 x 21 x 7 cm (10.6” x 8.3” x 2.8”) 3.6 GHz Radio: 27 x 21 x 7 cm (10.6” x 8.3” x 2.8”) 5 GHz Radio: 27 x 21 x 7 cm (10.6” x 8.3” x 2.8”) Antenna: 51 x 13 x 7.3 cm (20.2” x 5.1” x 2.
Chapter 4: Reference information Equipment specifications Specifications for PMP 450 Series - SM The PMP 450 SM conforms to the specifications listed in Table 164. Table 164 PMP 450 Series - SM specifications Category Specification Model Number PMP 450 SM Spectrum Channel Spacing 5, 7, 10, 15, 20, 30, and 40 MHz Channel Bandwidth Configurable on 2.5 MHz increments Frequency Range Channel Bandwidth 900 MHz 902 – 928 MHz 2.4 GHz 2400 – 2483.5 MHz 3.5 GHz 3300 – 3600 MHz 3.
Chapter 4: Reference information Category Nominal Receive Specification 900 MHz Sensitivity (w/ FEC) @ 5 MHz Channel Equipment specifications 1x = -91 dBm, 2x = -91 dBm, 4x = -85 dBm, 6x = -78 dBm, 8x = -70 dBm 2.4 GHz 1x = -92.5 dBm, 2x = -89.9 dBm, 4x = -82.9 dBm, 6x = 75.9, dBm, 8x = -67.9 dBm 3.5 GHz 1x = -93.5 dBm, 2x = -89.4 dBm, 4x = -83.5 dBm, 6x = 76.4 dBm, 8x = -68.3 dBm 3.65 GHz 1x = -91.3 dBm, 2x = -89.1 dBm, 4x = -82.2 dBm, 6x = 75.2 dBm, 8x = -67.3 dBm 5.4 GHz 1x = -89.
Chapter 4: Reference information Category Equipment specifications Specification 3.65 GHz 1x = -87.3 dBm, 2x = -84.3 dBm, 4x = -77.3 dBm, 6x = 70.3 dBm, 8x = -62.2 dBm 5.4 GHz 1x = -84.5dBm, 2x = -82.5 dBm, 4x = -75.5 dBm, 6x = 69.5 dBm, 8x = -59.5 dBm 5.8 GHz 1x = -84 dBm, 2x = -84 dBm, 4x = -77 dBm, 6x = -71 dBm, 8x = -63 dBm Nominal Receive 900 MHz Sensitivity (w/ FEC) @ 20 MHz Channel 1x = -87 dBm, 2x = -80 dBm, 4x = -77 dBm, 6x = -72 dBm, 8x = -65 dBm 2.4 GHz 1x = -86.9 dBm, 2x = -82.
Chapter 4: Reference information Category Equipment specifications Specification Performance Subscribers Per Sector Up to 238 ARQ Yes Cyclic Prefix 1/16 Frame Period 2.5 ms or 5.0 ms Modulation Levels Modulation Levels MCS SNR (in dB) 2x QPSK 10 4x 16QAM 17 6x 64QAM 24 8x 256QAM 32 (Adaptive) Latency 3 - 5 ms for 2.5 ms Frame Period 6-10 ms for 5.
Chapter 4: Reference information Equipment specifications Category Specification Maximum Transmit 22 dBm combined OFDM (2.4 GHz, 5 GHz) Power (dependent upon Region Code setting) 25 dBm combined OFDM (900 MHz, 3.5 GHz, 3.6 GHz), (dependent upon Region Code setting) Reflector antenna gain Other antenna (5 GHz only) 2.4 GHz +12 dBi 3.5 GHz +11 dBi 3.65 GHz +11 dBi 5 GHz +15 dBi CLIP Gain +8 dBi LENS Gain +5.
Chapter 4: Reference information Equipment specifications Category Specification Dimensions (H x W x D) 30 x 9 x 9 cm (11.75” x 3.4” x 3.4”) 50 x 50 x 38 cm (19.69” x 19.69” x 14.96”) for 450d 31.0 x 31.0 x 6.4 cm (12” x 12” x 2.5”) for 450 ruggedized Power Consumption 12 W Input Voltage 20 to 32 VDC Security Encryption 128-bit AES and 256-bit AES Note AES-256 requires a license key.
Chapter 4: Reference information Equipment specifications Specifications for PTP 450 Series - BH The PTP 450 BH conforms to the specifications listed in Table 165. Table 165 PTP 450 Series - BH specifications Category Specification Model Number PTP 450 BH Spectrum Channel Spacing 5, 7, 10, 15, 20, 30, and 40 MHz Channel Bandwidth Configurable on 2.5 MHz increments Frequency Range 902 to 928 MHz 3300 – 3600 MHz 3500 – 3850 MHz 5470 – 5875 MHz Channel Bandwidth 900 MHz 5, 7, 10, 15, and 20 MHz 3.
Chapter 4: Reference information Category Nominal Receive Specification 900 MHz Sensitivity (w/ FEC) @ 5 MHz Channel Equipment specifications 1x = -92.2 dBm, 2x = -90.2 dBm, 4x = -83.2 dBm, 6x = -77.2 dBm, 8x = -71.2 dBm 3.5 GHz OFDM: 1x = -92 dBm, 2x = -90 dBm, 4x = -83 dBm, 6x = 76 dBm, 8x = -69 dBm 3.6 GHz OFDM: 1x = -94 dBm, 2x = -89.3 dBm, 4x = -82.3 dBm, 6x = -75.2 dBm, 8x = -68.4 dBm 5.4 GHz OFDM: 1x = -90.4 dBm, 2x = -86 dBm, 4x = -79.4 dBm, 6x = -73.2 dBm, 8x = -65.4 dBm 5.
Chapter 4: Reference information Category Nominal Receive Specification 900 MHz Nominal Receive 3.5 GHz OFDM: 1x =-88 dBm, 2x = -84 dBm, 4x = -77 dBm, 6x = -70 dBm, 8x = -62.2 dBm 3.6 GHz OFDM: 1x =-87.3 dBm, 2x = -83.3 dBm, 4x = -76.3 dBm, 6x = -69.3 dBm, 8x = -62 dBm 5.4 GHz OFDM: 1x =-84.5 dBm, 2x = -80.5 dBm, 4x = -73.4 dBm, 6x = -66.4 dBm, 8x = -56.4 dBm 5.8 GHz OFDM: 1x =-84.8 dBm, 2x = -80.8 dBm, 4x = -74.7 dBm, 6x = -66.4 dBm, 8x = -56 dBm 3.
Chapter 4: Reference information Category Equipment specifications Specification 6 - 10 ms for 5.0 ms frame period Packets Per Second 12,500 Maximum Deployment Up to 40 miles (64 km) Range GPS Synchronization Yes, via Autosync (CMM4) Quality of Service Diffserv QoS Link Budget Combined Transmit - Power 30 to +22 dBm (to EIRP limit by region) in 1 dBconfigurable intervals (5 GHz) -30 to +25 dBm (to EIRP limit by region) in 1 dBconfigurable intervals (3.
Chapter 4: Reference information Category Sync/AUX port Equipment specifications Specification RJ45 • 10/100/1000BASE-T Ethernet Data • PoE output • Sync input or output (Connection and powering of UGPS Sync input) Antenna Connection 50 ohm, N-type (Connectorized version only) Surge Suppression EN61000-4-5: 1.
Chapter 4: Reference information Equipment specifications PSU specifications The PMP/PTP 450i AC+DC Enhanced Power Injector conforms to the specifications listed in Table 166. Table 166 PMP/PTP 450i AC power Injector specifications Category Specification Dimensions 137 mm (5.4 in) x 56 mm (2.2 in) x 38 mm (1.5 in) Weight 0.240 Kg (0.
Chapter 4: Reference information Equipment specifications The PMP/PTP 450 power supply conforms to the specifications listed in Table 167. Table 167 PMP/PTP 450 power supply specifications (part number: N000900L001A) Category Specification Dimensions 118 mm (4.66 in) x 45 mm (1.75 in) x 32 mm (1.25 in) Weight 0.240 Kg (0.5 lbs) Temperature 0°C to +40°C Humidity 20 to 90% AC Input 90-264 VAC, 47 – 63 Hz, 0.5 A rms at 120 VAC, 0.25 A rms at 240 VAC.
Chapter 4: Reference information Data network specifications Data network specifications This section contains specifications of the PMP/PTP 450 platform Ethernet interface. Ethernet interface 450m/450i Series The 450m/450i Series Ethernet port conforms to the specifications listed in Table 168. Table 168 450m/450i Series Main and Aux Ethernet bridging specifications Ethernet Bridging Specification Protocol IEEE 802.3 compatible QoS IEEE 802.1p, IEEE 802.1Q, IEEE 802.
Chapter 4: Reference information Wireless specifications Wireless specifications This section contains specifications of the 450 Platform Family wireless interface. These specifications include RF bands, channel bandwidth, spectrum settings, maximum power and link loss. General wireless specifications The wireless specifications that apply to all 450 Platform variants are listed under Table 170.
Chapter 4: Reference information Wireless specifications Link Range and Throughput Link range and throughput estimates are based on site-specific attributes and configuration parameters. For the most up-to-date information on link range and throughput for your equipment see the Capacity Planner and LINKPlanner software tools: • For average-deployment link range and throughput planning information, see: https://support.cambiumnetworks.
Chapter 4: Reference information Country specific radio regulations Country specific radio regulations This section describes how the 450 Platform Family complies with the radio regulations that are enforced in various countries. Caution Changes or modifications not expressly approved by Cambium could void the user’s authority to operate the system. Type approvals This system has achieved Type Approval in various countries around the world.
Chapter 4: Reference information Country specific radio regulations Variant Region Specification (Type Approvals) 5.1 GHz PMP/PTP 450i/450b USA FCC Part 15 Class B 5.1 GHz PMP/PTP 450m USA FCC Part 15E and Part 15B Europe ETSI EN 302 625 V1.1.1 5.2 GHz PMP/PTP 450m USA FCC Part 15E and Part 15B 5.2 GHz PMP/PTP 450i/450b USA FCC Part 15 Class B Canada RSS Gen and RSS 247 5.4 GHz PMP/PTP 450 and 450i Europe ETSI EN 301 893 v1.6.1 USA FCC Part 15 Class B 5.
Chapter 4: Reference information Country specific radio regulations DFS for 2.4 and 5 GHz Radios Dynamic Frequency Selection (DFS) is a requirement in several countries and regions for 2.4 and 5 GHz unlicensed systems to detect radar systems and avoid co-channel operation. The details of DFS operation and channels available for each Country Code, including whether DFS is active on the AP, SM, which DFS regulation apply, and any channel restrictions are shown in Table 172 on page 4-61.
Chapter 4: Reference information Region Code Country specific radio regulations Weather Country Code Band AP SM Radar Notch-Out OtherRegulatory Other-ETSI 5.2 GHz FCC DFS No effect No 5.4 GHz FCC DFS No effect No 5.8-GHz No effect No effect No ETSI EN 301 893 ETSI EN 301 893 v2.1.1 DFS v1.7.1 DFS ETSI EN 302 502 ETSI EN 302 502 v2.1.1 DFS v1.2.1 DFS 5.4 GHz 5.
Chapter 4: Reference information Equipment Disposal Equipment Disposal Waste (Disposal) of Electronic and Electric Equipment Please do not dispose of Electronic and Electric Equipment or Waste (Disposal) of Electronic and Electric Equipment Electronic and Electric Accessories with your household waste. In some countries or regions, collection systems have been set up to handle waste of electrical and electronic equipment.
Chapter 4: Reference information Country specific band range maximum transmit power Country specific band range maximum transmit power Maximum transmit power 900 MHz band Table 173 Frequency range and Maximum transmit power – 900 MHz band PMP 450i Series Region Country North Other America FCC, USA, Bang range Device Antenna EIRP Limit /Conducted Power Limit (dBm) Lower Upper Type Type 5 902 928 Any Any 10 15 20 30 40 MHz MHz MHz MHz MHz MHz MHz 36 36 36 36 36 - - EIRP
Chapter 4: Reference information Country specific band range maximum transmit power Maximum transmit power 2.4 GHz band Table 174 Frequency range and Maximum transmit power – 2.4GHz band PMP/PTP 450 Series Countr y Other FCC, USA, Bang range Lowe Upper r 2400 2483.
Chapter 4: Reference information Country specific band range maximum transmit power Maximum transmit power 3 GHz band Table 175 Frequency range and Maximum transmit power – 3 GHz band PMP/PTP 450 Series Country Bang range Lower Upper Other FCC ETSI India Indonesia 3300 3850 (1) (1) 3650 3700 3410 3800 (2) (2) 3300 3800 (3) (3) 3600 3800 Device Antenna Type Type Any Any EIRP Limit /Conducted Power Limit (dBm) 5 7 10 15 20 30 40 MHz MHz MHz MHz MHz MHz MHz EIRP 37
Chapter 4: Reference information Country specific band range maximum transmit power (3) = Either ETSI or FCCC (4) = This band follows the CBRS rules (devices need to connect to a SAS to be granted a channel) Maximum transmit power 4.9 GHz band Table 176 Default combined transmit power per country – 4.
Chapter 4: Reference information Countries Device Antenna Type Type Country specific band range maximum transmit power Channel BW Antenna Conducted EIRP Limit Gain (dBi) Power Limit (dBm) (dBm) Mexico Other AP Any Sector Any 5 MHz 16 22 38 10 MHz 16 22 38 15 MHz 16 22 38 20 MHz 16 22 38 30 MHz 16 22 38 40 MHz 16 22 38 Any - 27 - Page 4-68
Chapter 4: Reference information Country specific band range maximum transmit power Table 177 Default combined transmit power per country – 4.
Chapter 4: Reference information Country specific band range maximum transmit power Maximum transmit power 5.1 GHz band Table 179 Default combined transmit power per Country – 5.
Chapter 4: Reference information Countries Device Antenna Type Country specific band range maximum transmit power Channel BW Antenna Conducted EIRP Limit Gain Power (dBm) (dBi) Limit 5 MHz 36 11 47 10 MHz 36 14 50 15 MHz 36 15 51 20 MHz 36 17 53 30 MHz 36 17 53 40 MHz 36 17 53 Type 6ft parabolic (dBm) Table 180 Default combined transmit power per country – 5.
Chapter 4: Reference information Country specific band range maximum transmit power Table 181 Default combined transmit power per Country – 5.
Chapter 4: Reference information Country specific band range maximum transmit power Note For releases 16.0 and later, although sector transmission mode EIRP is limited to 42 dBm, ROW GUI configuration limit allows a setting of up to 48 dBm. This allows the software to transmit as high as 48 dBm for ROW regions, depending on the modulation mode and transmission mode in use. For a detailed explanation, see the Release 16.0 training slides available at: https://learning.cambiumnetworks.
Chapter 4: Reference information Country specific band range maximum transmit power Table 182 Default combined transmit power per country – 5.
Chapter 4: Reference information Countries Mexico Other Device Antenna Type Type Any Any Any Any Country specific band range maximum transmit power Channel BW Antenna Conducted EIRP Gain Power Limit Limit (dBi) (dBm) (dBm) 20 MHz 36 27 63 30 MHz 36 27 63 40 MHz 36 27 63 5 MHz - - 24 10 MHz - - 27 15 MHz - - 28 20 MHz - - 30 30 MHz - - 30 40 MHz - - 30 Any - 27 - Table 183 Default combined transmit power per country – 5.
Chapter 4: Reference information 16 dBi MidGain Other SM 23 dBi High Gain Country specific band range maximum transmit power 40 MHz 23 7 30 5 MHz 16 27 43 10 MHz 16 27 43 15 MHz 16 27 43 20 MHz 16 27 43 30 MHz 16 27 43 40 MHz 16 27 43 5 MHz 16 27 43 10 MHz 16 27 43 15 MHz 16 27 43 20 MHz 16 27 43 30 MHz 16 27 43 40 MHz 16 27 43 Page 4-76
Chapter 4: Reference information Country specific band range maximum transmit power Table 184 Default combined transmit power per Country – 5.
Chapter 4: Reference information Country specific band range maximum transmit power Maximum transmit power 5.4 GHz band Table 185 Default combined transmit power per country – 5.
Chapter 4: Reference information Country specific band range maximum transmit power Table 186 Default combined transmit power per country – 5.
Chapter 4: Reference information Countries Brazil, Device Antenna Channel Type Type BW Any Any Mexico, Australia, ETSI Other Country specific band range maximum transmit power Any Any Antenna Gain Conducted EIRP (dBi) Power Limit Limit (dBm) (dBm) 5 MHz 36 27 63 10 MHz 36 27 63 15 MHz 36 27 63 20 MHz 36 27 63 30 MHz 36 27 63 40 MHz 36 27 63 Any - 27 - Table 187 Default combined transmit power per country – 5.
Chapter 4: Reference information Country specific band range maximum transmit power Table 188 Default combined transmit power per country – 5.
Chapter 4: Reference information Countries Algeria Device Antenna Channel Antenna Conducted EIRP Limit Type Type BW Gain Power (dBm) (dBi) Limit 5 MHz 16 14 30 10 MHz 16 14 30 15 MHz 16 14 30 20 MHz 16 14 30 30 MHz 16 14 30 40 MH 16 14 30 5 MHz 16 - 10 MHz 16 19 15 MHz 16 - No EIRP 20 MHz 16 19 limit 30 MHz 16 - 40 MHz 16 - AP Other Country specific band range maximum transmit power AP Sector Sector (dBm) (*) At 5.
Chapter 4: Reference information Country specific band range maximum transmit power Maximum transmit power 5.8 GHz band Table 189 Default combined transmit power per Country – 5.
Chapter 4: Reference information Country specific band range maximum transmit power Table 190 Default combined transmit power per country – 5.
Chapter 4: Reference information Country specific band range maximum transmit power Table 191 Default combined transmit power per country – 5.
Chapter 4: Reference information Country specific band range maximum transmit power Table 192 Default combined transmit power per country – 5.
Chapter 4: Reference information Countries Device Antenna Type Country specific band range maximum transmit power Channel BW Antenna Conducted EIRP Limit Gain Power Limit (dBm) (dBi) (dBm) 5 MHz 16 14 30 10 MHz 16 17 33 15 MHz 16 18 34 20 MHz 16 20 36 30 MHz 16 20 36 40 MHz 16 20 36 5 MHz 16 14 30 10 MHz 16 17 33 15 MHz 16 18 34 20 MHz 16 20 36 Type AP Denmark, Sector Finland, Germany, Greece, Iceland, Ireland, Liechtenstein, Norway, Portugal, Serbia
Chapter 4: Reference information Country specific frequency range Country specific frequency range Frequency range 900 MHz band Table 193 Frequency range per country – 900 MHz band Region Country Other North America Oceania Lower Upper Other 902 928 Other-FCC 902 928 Canada 902 928 United States 902 928 Mexico 902 928 Puerto Rico 902 928 Australia 915 928 915 928 920.5 (7 MHz) 924.5 (7 MHz) 919.5 (5 MHz) 925.5 (5 MHz) 902 907.
Chapter 4: Reference information Country specific frequency range Frequency range 2.4 GHz band Table 194 Frequency range per country – 2.4 GHz band PMP/PTP 450 Series Countries Antenna Type Channel BW Canada, Any United States, Other, OtherFCC Channel center Frequency limits (MHz) Lower Upper 5 MHz 2402.5 2481 10 MHz 2405 2478.5 15 MHz 2407.5 2476 20 MHz 2410 2473.5 30 MHz 2415 2468.5 Frequency range 3.5 GHz band Table 195 Frequency range per country – 3.
Chapter 4: Reference information Country specific frequency range Frequency range 3.65 GHz band Table 196 Frequency range per country – 3.65 GHz band PMP/PTP 450/450i Series Countries Antenna Type Channel BW Australia, Any India, Other Channel center Frequency limits (MHz) Lower Upper 5 MHz 3302.5 3797.5 7 MHz 3303.5 3796.5 10 MHz 3305 3795 15 MHz 3307.5 3792.5 20 MHz 3310 3790 30 MHz 3315 3785 40 MHz* 3320 3780 Note Australia does not support 40 MHz channel bandwidth.
Chapter 4: Reference information Country specific frequency range Frequency range 4.9 GHz band Table 197 Frequency range per country – 4.9 GHz band PMP/PTP 450i Series Countries Antenna Type Channel BW USA, Any Mexico, Canada, Other FCC Brazil Other Any Any Channel center Frequency limits (MHz) Lower Upper 5 MHz 4942.5 4987.5 10 MHz 4945 4985 15 MHz 4947.5 4982.5 20 MHz 4950 4980 5 MHz 4912.5 4987.5 10 MHz 4915 4985 15 MHz 4917.5 4982.5 20 MHz 4920 4980 5 MHz 4942.
Chapter 4: Reference information Country specific frequency range Table 199 Frequency range per country – 4.9 GHz band PMP 450m Series Countries Antenna Type Channel BW USA, Any Mexico, Canada, Other FCC Brazil Other Any Any Channel center Frequency limits (MHz) Lower Upper 5 MHz 4942.5 4987.5 10 MHz 4945 4985 15 MHz 4947.5 4982.5 20 MHz 4950 4980 5 MHz 4912.5 4987.5 10 MHz 4915 4985 15 MHz 4917.5 4982.5 20 MHz 4920 4980 5 MHz 4942.5 4987.
Chapter 4: Reference information Country specific frequency range Frequency range 5.1 GHz band Table 200 Frequency range per country – 5.1 GHz band PMP/PTP 450i Series Countries United States, Antenna Type Any FCC ETSI Other Any Any Channel BW Channel center Frequency limits (MHz) Lower Upper 5 MHz 5157.5 1 5247.5 10 MHz 5160 2 5245 15 MHz 5165 3 5242.5 20 MHz 5170 4 5240 30 MHz 5180 5 5235 40 MHz 5180 6 5230 5 MHz 5155 5245 10 MHz 5155 5245 15 MHz 5157.5 5242.
Chapter 4: Reference information Country specific frequency range Table 201 Frequency range per country – 5.1 GHz band PMP 450b Mid-Gain Series Countries Antenna Type Channel BW FCC 16 dBi Channel center Frequency limits (MHz) Lower Upper 5 MHz 5155 5247.5 10 MHz 5155 5245 15 MHz 5157.5 5242.5 20 MHz 5160 5240 30 MHz 5165 5235 40 MHz 5170 5230 Table 202 Frequency range per country – 5.
Chapter 4: Reference information Country specific frequency range Table 203 Frequency range per country – 5.1 GHz band PMP 450m Series Countries United States, Antenna Type Any Channel BW Lower Upper 5162.5 5247.5 5160 (26 dBm) 5197.5 (26 dBm) 5200 (33 dBm) 5245 (33 dBm) 5165 (26 dBm) 5197.5 (26 dBm) 5200 (34 dBm) 5242.5 (34 dBm) 5170 (26 dBm) 5197.5 (26 dBm) 5200 (36 dBm) 5240 (36 dBm) 5165 (30 dBm) 5180 (30 dBm) 5182.5 (33 dBm) 5192.
Chapter 4: Reference information Country specific frequency range Frequency range 5.2 GHz band Table 204 Frequency range per country – 5.2 GHz band PMP/PTP 450i Series Countries United States, Antenna Type Any FCC Other Any Channel BW Channel center Frequency limits (MHz) Lower Upper 5 MHz 5252.5 5342.5 10 MHz 5255 5340 15 MHz 5257.5 5337.5 20 MHz 5260 5332.5 7 30 MHz 5265 5332.5 8 40 MHz 5270 5325 9 5 MHz 5252.5 5347.5 10 MHz 5255 5345 15 MHz 5257.5 5342.
Chapter 4: Reference information Country specific frequency range Table 205 Frequency range per country – 5.2 GHz band PMP 450b Mid-Gain Series Countries Antenna Type Channel BW FCC 16 dBi Channel center Frequency limits (MHz) Lower Upper 5 MHz - - 10 MHz 5255 5340 15 MHz 5257.5 5337.5 20 MHz 5260 5337.5 30 MHz 5265 5330 40 MHz 5270 5330 (*) (*) Last channel at full power is 5325. Channel centers 5327.5 and 5330 need a power back off of 5 dB.
Chapter 4: Reference information Country specific frequency range Table 207 Frequency range per country – 5.2 GHz band PMP 450m Series Countries United States, Antenna Type Any Channel BW Lower Upper 5252.5 5347.5 5255 5300 5302.5 5340 5257.5 5300 5302.5 5335 5260 5300 5302.5 5340 30 MHz 5265 5335 40 MHz 5270 5330 5 MHz 5252.5 5347.5 10 MHz 5255 5345 15 MHz 5257.5 5342.
Chapter 4: Reference information Country specific frequency range Frequency range 5.4 GHz band Table 208 Frequency range per country – 5.4 GHz band PMP/PTP 450i Series Countries Mexico Other Other Other Antenna Type Any Any FCC ETSI Channel BW Channel center Frequency limits (MHz) Lower Upper 5 MHz 5472.5 5722.5 10 MHz 5475 5720 15 MHz 5477.5 5717.5 20 MHz 5480 5715 30 MHz 5485 5710 40 MHz 5490 5685 5 MHz 5472.5 5722.5 10 MHz 5475 5720 15 MHz 5477.5 5717.
Chapter 4: Reference information Countries Other Antenna Type ETSI Country specific frequency range Channel BW 30 MHz 40 MHz Channel center Frequency limits (MHz) Lower Upper 5485 5585 5665 5710 5490 5580 5670 5705 Table 209 Frequency range per country – 5.4 GHz band PMP 450b Mid-Gain Series Countries Antenna Type Channel BW FCC 16 dBi Channel center Frequency limits (MHz) Lower Upper 5 MHz - - 10 MHz 5477.5 5720 15 MHz 5480 5717.5 20 MHz 5482.5 5715 30 MHz 5487.
Chapter 4: Reference information Country specific frequency range Table 211 Frequency range per country – 5.4 GHz band PMP/PTP 450 Series Region code Other Country Code Any Other-FCC (Any non-US country that follows FCC rules Other-ETSI (Any country that follows ETSI rules Channel BW Lower Upper 5 MHz 5472.5 5722.5 10 MHz 5475 5720 15 MHz 5477.5 5717.5 20 MHz 5480 5715 30 MHz 5485 5710 40 MHz 5490 5705 5 MHz 5475 5720 10 MHz 5477.5 5717.5 15 MHz 5477.5 5717.
Chapter 4: Reference information Region code Oceania Country Code Australia Country specific frequency range Channel BW Lower Upper 5477.5 5592.5 5657.5 5717.5 5465 5490 5640 5715 5485 5585 5665 5710 5490 5580 5670 5705 5475 5597.5 5655 5722.5 5477.5 5592.5 5657.5 5717.5 5480 5590 5660 5715 5485 5585 5665 5710 5490 5580 5670 5705 10 MHz 5475 5720 15 MHz 5477.5 5717.5 20 MHz 5480 5715 30 MHz 5485 5710 40 MHz 5490 5705 10 MHz 5475 5720 15 MHz 5477.
Chapter 4: Reference information Region code Africa Country Code Algeria Country specific frequency range Channel BW Lower Upper 5 MHz 5472.5 5667.5 10 MHz 5475 5665 15 MHz 5477.5 5662.5 20 MHz 5480 5660 30 MHz 5485 5655 40 MHz 5490 5650 5475 5595 5655 5720 5477.5 5592.5 5657.5 5717.
Chapter 4: Reference information Country specific frequency range Table 212 Frequency range per country – 5.4 GHz band PMP 450m Series Countries United States, Antenna Type Any Channel BW Lower Upper 5475 5720 5475 5477.5 5480 5720 5477.5 5482.5 5485 5717.5 5480 5487.5 5490 5715 30 MHz 5485 5710 40 MHz 5490 5705 5472.5 5597.5 5652.5 5722.5 5475 5595 5655 5720 5477.5 5592.5 5657.5 5717.