PTP 500 Series User Guide MOTOROLA POINT-TO-POINT WIRELESS SOLUTIONS
MOTOROLA, Inc. Point-to-Point Wireless Bridges – PTP 500 Series Software Release PTP 500-03-xx System User Guide August 15th, 2008 Ref: PHN-1115-003v000 Copyright Information This document is the confidential property of Motorola, Inc. and without its prior written consent may not be copied or released to third parties. MOTOROLA, the stylized M Logo and all other trademarks indicated as such herein are trademarks of Motorola, Inc. ® Reg. U.S. Pat & Tm. Office. PTP 500 is a trademark of Motorola, Inc.
The system has been tested for compliance to both US (FCC) and European (ETSI) specifications. It has been shown to comply with the limits for emitted spurious radiation for a Class B digital device 1 , pursuant to Part 15 of the FCC Rules in the USA and appropriate European ENs. These limits have been designed to provide reasonable protection against harmful interference.
Regulations applicable to PTP 54500 variant Examples of Regulatory Limits at 5.4GHz FCC Under FCC Regulations, operation of this product is only allowed with a License Key for Region 12. This implements Radar Detection in accordance with FCC Regulations and limits the EIRP to the regulatory limits below: EIRP ≤ Max of [(17 +10 x Log(Channel BW)) and 30]dBm ETSI Under ETSI Regulations, operation of this product is only allowed with a License Key for Region 26.
Regulations applicable to PTP 58500 variant Examples of Regulatory Limits USA/ Canada/ Equipment can be operated in any mode, best results will be obtained using Taiwan Region 1 settings Under UK Regulations, operation of this product is allowed with a License Key for Region 4 . This implements Radar Detection with barring of the band from 5795MHz to 5815MHz and above 5850MHz.
NOTES: UK Registration of Links – OfCom, The application form may be found at: http://www.ofcom.org.uk/radiocomms/isu Eire Registration of Links – Commission for Communication Regulation, The application form may be found at: http://www.comreg.ie/licensing_and_services Disclaimer The parameters quoted in this document must be specifically confirmed in writing before they become applicable to any particular order or contract.
Contents 1 About This User Guide ....................................................................................................... 19 1.1 Interpreting Typeface and Other Conventions ...................................................................... 19 1.2 Getting Additional Help ......................................................................................................... 21 1.3 Sending Feedback .....................................................................................
5.6 PTP 58500 Specific Frequency Planning Considerations .................................................... 46 5.6.1 PTP 58500 Raster Considerations........................................................................................ 46 PTP ....................................................................................................................................... 47 5.6.2 58500 Transmit Power Reduction at the Band Edges .......................................................... 47 5.
7.7.12 Additional Installation Notes.................................................................................................. 72 8 Web Page Reference........................................................................................................... 73 8.1 Home Page – PTP 500 Series Bridge................................................................................... 75 8.1.1 Home Page Alarm Display ..................................................................................
.1 Overview ............................................................................................................................. 155 11.1.1 Lightning Protection Zones ................................................................................................. 155 11.2 Detailed Installation ............................................................................................................. 157 11.3 Testing Your Installation......................................................
13.7.7 Alignment Process .............................................................................................................. 181 13.7.8 Aligning Dual Polar Antennas ............................................................................................. 182 13.7.9 Aligning Separate Antennas................................................................................................ 182 13.7.10 Completing the Installation...............................................................
17.1.3 Management ....................................................................................................................... 216 17.1.4 Ethernet Bridging................................................................................................................. 216 17.1.5 Physical ............................................................................................................................... 217 17.1.6 Powering .........................................................
1 About This User Guide List of Figures Figure 1 - Typical PTP 500 Series Bridge Deployment........................................................................ 27 Figure 2 – PTP 500 Series Bridge Outdoor Unit (ODU) with PTP-LPU ............................................... 28 Figure 3 - Power Indoor Unit (PIDU Plus) – PTP 300/500/600 Series................................................. 29 Figure 4 – PIDU Plus Recovery Switch Location ................................................................
1 About This User Guide Figure 27 - Alarm Warning Triangle ..................................................................................................... 76 Figure 28 - Status Page........................................................................................................................ 81 Figure 29 - System Administration Login Page .................................................................................... 86 Figure 30 - System Configuration Page ..............................
1 About This User Guide Figure 54 - Software Upgrade Image Check...................................................................................... 117 Figure 55 - Software Download Progress Indicator............................................................................ 118 Figure 56 - Software Upgrade Complete............................................................................................ 118 Figure 57 - Reboot Confirmation Pop Up .......................................................
1 About This User Guide Figure 81 - Software Download Complete Page ................................................................................ 145 Figure 82 - Reboot Confirmation Pop Up ........................................................................................... 145 Figure 83 - Confirm Reset to Factory Default Pop Up........................................................................ 146 Figure 84 - IP and Ethernet Erased Successfully page............................................
1 About This User Guide Figure 108 - Lightning Arrestor Mounting ........................................................................................... 186 Figure 109 - Polyphaser Assembly..................................................................................................... 186 Figure 110 - BPSK 0.50 Single Payload............................................................................................. 187 Figure 111 - QPSK 0.50 Single Payload ........................................
1 About This User Guide List of Tables Table 1 - Font types ............................................................................................................................ 19 Table 2 - Admonition types................................................................................................................... 20 Table 3 - Power Compliance Margins .................................................................................................. 23 Table 4 - Contact Information ...........
1 About This User Guide Table 27 - Allowed Antennas for Deployment in USA/Canada – 5.8 GHz......................................... 177 Table 28 - Suggested Antennas – 5.4 GHz....................................................................................... 179 List of Equations Equation 1 - Path Loss ......................................................................................................................... 50 Equation 2 - Link Loss .......................................................
1 About This User Guide 1 About This User Guide This guide covers the installation, commissioning, operation and fault finding of the Motorola PTP 500 Series of Point-to-Point Wireless Ethernet Bridges. 1.1 Interpreting Typeface and Other Conventions This document employs distinctive fonts to indicate the type of information, as described in Table 1. Font Type of Information variable width bold Selectable option in a graphical user interface or settable parameter in a web-based interface.
1 About This User Guide This document also employs a set of consistently used admonitions. Each type of admonition has a general purpose that underlies the specific information in the box. These purposes are indicated in Table 2. Admonition Label General Message Note Informative content that may: • Defy common or cursory logic. • Describe a peculiarity of the 500 Series solutions implementation. • Add a conditional caveat. • Provide a reference.
1 About This User Guide 1.2 Getting Additional Help To get information or assistance as soon as possible for problems that you encounter, follow this procedure: 1. Search this document, the user manuals that support the modules, and the software release notes of supported releases: a. In the Table of Contents for the topic. b. In the Adobe Reader® search capability for keywords that apply. 2 2. Visit the Motorola website at www.motorola.com/ptp 3. Ask your Motorola products supplier to help. 4.
2 Avoiding Hazards 2 Avoiding Hazards 2.1 Preventing Overexposure to RF Energy WARNING: To protect from overexposure to RF energy, install the radios for the 500 family of PTP wireless solutions so as to provide and maintain the minimum separation distances from all persons as shown in Table 3. When the system is operational, avoid standing directly in front of the antenna. Strong RF fields are present when the transmitter is on.
2 Avoiding Hazards Peak power density in the far field of a radio frequency point source is calculated as follows: P .G S= 4π d 2 Where S= power density in W/m2 P= Maximum Average transmit power capability of the radio, in W G= total Tx gain as a factor, converted from dB d= distance from point source, in m Rearranging terms to solve for distance yields: d= 2.1.1.1 P.G 4π .
2 Avoiding Hazards • At 5.4GHz and EU 5.8GHz, the products are generally limited to a fixed EIRP which can be achieved with the Integrated Antenna. The calculations above assume that the maximum EIRP allowed by the regulations is being transmitted. • If there are no EIRP limits in the country of deployment, use the distance calculations for FCC 5.8GHz. • At FCC 5.8GHz, for antennas between 0.6m (2ft) and 1.8m (6ft), alter the distance proportionally to the antenna gain.
3 Getting Started 3 Getting Started 3.1 For Your Safety WARNING: Use extreme care when installing antennas near power lines. WARNING: Use extreme care when working at heights. WARNING: The Outdoor Unit (ODU) for the PTP 500 Series Bridge must be properly grounded to protect against lightning. In the USA and Canada it is the user’s responsibility to install the equipment in accordance with Section 810 of the National Electric Code, ANSI/NFPA No.70-1984 or Section 54 of the Canadian Electrical Code.
3 Getting Started 3.2 Welcome Congratulations on the purchase of the PTP 500 Series Bridge from Motorola. The PTP 500 Series Bridge is the latest innovation in high-speed wireless networking that lets you deploy wireless networks in areas previously unattainable. 3.2.1 Who Should Use This Guide The guide is for use by the system installer and the end user IT professional. The system installer will require expertise in the following areas: 3.2.
3 Getting Started 3.3 Product Description This User Manual is specifically written for the 500 family of point-to-point broadband wireless solutions. The PTP 500 Series Bridge has been developed to provide Point-to-Point data connectivity via a 5.4 GHz or 5.8 GHz wireless Ethernet bridge operating at broadband data rates. The PTP 500 Series Bridge is aimed at a wide range of applications.
3 Getting Started Each end of the link consists of: • An integrated (or connectorized - see section 13) outdoor transceiver unit containing all the radio and networking electronics hereafter referred to as the Outdoor Unit (ODU). • An indoor connection box containing a mains power supply, status indicators and network connection port. Hereafter referred to as the Power Indoor Unit Plus (PIDU Plus). A pair of units is normally supplied pre-configured as a link.
3 Getting Started 3.3.2 PIDU Plus – PTP 300/500/600 Series Bridge The PTP 300/500/600 Series Bridge PIDU Plus is used to generate the ODU supply voltage from the mains supply and inject this supply voltage into the 100BaseT Ethernet connection to the ODU. Connection uses a CAT5e cable using standard RJ45 wiring. CAUTION Care should be taken not to connect equipment other than an ODU for the PTP 500 Series Bridge to a PIDU Plus ODU port as equipment damage may occur.
3 Getting Started The Recovery switch is used to recover the unit from configuration errors or software image corruption. To put a PTP 500 Series Bridge into Recovery mode the Recovery switch should be pressed then the power applied. The Recovery switch should be kept pressed for at least 30 seconds after the power has been applied. Full instruction on the recovery mode can be found in Section 9 “Recovery Mode”.
3 Getting Started The input supply range for the 300/500/600 Series PIDU Plus is 90V-264V AC, 47-63Hz. Mains connection to the PIDU Plus is made using a standard “figure of eight” mains lead as shown in Figure 6. Figure 5 –PTP 300/500/600 Series Bridge PIDU Plus Power Input 3.3.3 Redundancy and Alternative Powering Configurations NOTE: The use of DC supplies of less than 55v will reduce the usable distance between the PIDU Plus and ODU.
3 Getting Started 3.3.3.2 External DC Supply and AC Supply To give redundancy through the use of mains and DC supply. Figure 7 - External DC Supply and AC Supply 3.3.3.3 External DC Supply and Redundant AC Supply To guard against mains failure, and failure of the DC output of single PTP 300/500/600 PIDU Plus.
3 Getting Started 3.3.4 Remote LEDs and Recovery Switch The PTP 300/500/600 Series Bridge PIDU Plus provides a facility to connect remote LEDs and Recovery switch allowing the PIDU Plus to be mounted inside an enclosure. At the left hand end of the PIDU Plus under the ODU connection cover can be found a PCB header and three jumpers. Jumpers J906 and J907 should be removed and connection to the remote LEDs and Recovery switch made to J908 as shown in Figure 9.
3 Getting Started The PIDU Plus to ODU and the PIDU Plus to Network Equipment cables may be unscreened (UTP) or screened (STP). However, unscreened cables reduce the system’s ability to cope with nearby lightning strikes. If lightning activity is common in the area of deployment, the use of screened cable is highly recommended. See Section 11 “Lightning Protection”. The PIDU Plus provides screen continuity between the ODU and Network Equipment connections.
3 Getting Started 3.3.8 Configuration and Management Configuration and Management of the PTP 500 Series Bridge is implemented using an inbuilt web server hosting a number of Configuration and Management web pages. This approach allows Configuration and Management to be carried out on any standard web browsing technology. The PTP 500 Series Bridge can also be managed remotely using the SNMP management protocol. Connection to the bridge is via the Ethernet connection carrying the bridge network traffic.
4 Product Architecture 4 Product Architecture The PTP 500 Series Bridge consists of an identical pair of units deployed one at each end of the link. The radio link operates on a single frequency channel in each direction using Time Division Duplex (TDD). One unit is deployed as a master and the other as a slave. The master unit takes responsibility for controlling the link in both directions.
4 Product Architecture The PTP 500 series provides eight traffic classes, classifying Ethernet frames into one of eight prioritised queues based on inspection of the user priority field (802.1p) in a customer (IEEE802.1Q) VLAN tag or provider (IEEE802.1ad) VLAN tag. Untagged frames receive a default priority. The scheduling method is strict priority.
4 Product Architecture The PTP 500 Series Bridge is fully software upgradeable. New software images are first downloaded from the Motorola website http://www.motorola.com/ptp to a convenient computer. The image is then uploaded to the ODU via the web management page described in Section 8.3.6 “Software Upgrade”. The compressed image is first loaded into RAM and check-summed. If the compressed image transfer has completed successfully the image is decompressed and written to flash memory.
5 General Considerations 5 5.1 General Considerations Spectrum Planning The PTP 500 Series Bridge has two frequency variants in its product range.
5 General Considerations 5.2 Licenses and Region Codes The PTP 500 Series Bridge uses a system of Region Codes to control the operation of the radio link. The Region Code is set by a License Key. CAUTION To meet the regulatory requirements of your region you should set the correct Region Code by obtaining a new License Key from your reseller or distributor.
5 General Considerations Region Code License / Regulation Frequencies DFS Channel Bandwidth Max Power 20 Thailand 5725 - 5850 MHz No 5, 10, 15 MHz 30 dBm EIRP 22 Germany 5725 - 5875 MHz Yes 5 MHz 30 dBm EIRP 10 MHz 33 dBm EIRP 15 MHz 34 dBm EIRP 5 MHz 27 dBm EIRP 10 MHz 30 dBm EIRP 15 MHz 31 dBm EIRP 5 MHz 30 dBm EIRP 10 MHz 33 dBm EIRP 15 MHz 34 dBm EIRP 5 MHz 30 dBm EIRP 10 MHz 33 dBm EIRP 15 MHz 34 dBm EIRP 24 25 27 Bahrain ETSI Denmark 5725 - 5850 MHz 5725
5 General Considerations Region Code License / Regulation Frequencies DFS Channel Bandwidth Max Power Notes radars 20 Thailand 26 5470 - 5725 MHz ETSI 5470 - 5600 MHz 5650 - 5725 MHz No Yes 5, 10, 15 MHz 30 dBm EIRP 10 MHz 27 dBm EIRP 15 MHz 30 dBm EIRP 5 MHz 24 dBm EIRP 10 MHz 27 dBm EIRP 15 MHz 28 dBm EIRP The band 5600 MHz to 5650 MHz is reserved for the use of weather radars Table 7 – PTP 54500 Licenses and Region Codes 3 When shipped from the factory units are configured a
5 General Considerations To address the primary aims the Spectrum Management algorithm implements a radar detection function which looks for impulsive interference on the Operating channel only. If impulsive interference is detected Spectrum Management will mark the current Operating channel as having detected radar (Unavailable channel) and initiate a channel hop to an available channel.
5 General Considerations Figure 11 - 5.8 GHz UK RTTT Channel Avoidance – 15 MHz Channel Bandwidth Only 5.3.2.2 Radar Avoidance, i-DFS and Bandwidth Operation Radar avoidance at 5.8 GHz is applicable to EU operation and the requirements are currently as defined in EN 302 502 v1.1.1. 5.4 Channel Bandwidth Operation Channel bandwidths of 5, 10 and 15 MHz is supported for the PTP 500 product.
5 General Considerations 5.5 PTP 54500 Specific Frequency Planning Considerations Adjustment of the lower centre frequency allows the operator to slide the available frequency settings up and down the 5.4 GHz band. See Figure 12 (15 MHz channel bandwidth shown). Figure 12 - 5.4 GHz Available Spectrum Settings - 15 MHz Channel Bandwidth 5.5.1 PTP 54500 Raster Considerations: The PTP 54500 variant operates on a 5 MHz channel raster. See Figure 12. 5.5.
5 General Considerations 5.6 PTP 58500 Specific Frequency Planning Considerations Adjustment of the lower center frequency allows the operator to slide the available frequency settings up and down the 5.8 GHz bands. Figure 13 shows the available spectrum (15 MHz channel bandwidth shown). Figure 13 - 5.8 GHz Available Spectrum Settings – 15 MHz Channel Bandwidth 5.6.1 PTP 58500 Raster Considerations The PTP 58500 variant operates on a 5 MHz channel raster, see Figure 13.
5 General Considerations 5.6.2 PTP 58500 Transmit Power Reduction at the Band Edges Operation at or near the 5.8 GHz band edges can results in a lower maximum transmit power. In some configurations the PTP 500 Series Bridge solution reduces the power when operating at the edge channels. The amount of reduction, if any, is dependant on the region code of the region of operation. This currently only affects systems configured for with Region Code 1.
5 General Considerations 5.7 Distance The PTP 500 Series Bridge will operate at ranges from 100 m (330 ft) to 250 km (155 miles). Operation of the system will depend on obstacles in the path between the units. Operation at 40 km (25 miles) or above will require a near line-of-sight path.
6 Site Planning 6 Site Planning 6.1 Site Selection Criteria The following are guidelines for selecting the installation location of the ODU and PIDU Plus for a PTP 500 Series Bridge. 6.1.
6 Site Planning 6.1.3 Path Loss Considerations The path loss is the amount of attenuation the radio signal undergoes between the two ends of the link. The path loss is the sum of the attenuation of the path if there were no obstacles in the way (Free Space Path Loss), the attenuation caused by obstacles (Excess Path Loss) and a margin to allow for possible fading of the radio signal (Fade Margin).
6 Site Planning The values for (BPSK) are static receive sensitivity measurements. The other values are static receive sensitivity measurements with an AMOD threshold applied. The AMOD threshold applied is for a benign radio channel. Sensitivity: Sensitivity is defined as the combined receive input signal level on both -7 horizontal and vertical inputs that produces a Null BER Error ratio of 3x10 . Output Power: The output power is for a centre channel in Region 1.
6 Site Planning 6.1.5 PTP 54500 Product Variant - Link Loss, Output Power and System Threshold versus Modulation Mode Table 9 and Table 10 show typical system threshlold figures for IP and TDM, respectively (15 MHz channel bandwidth shown). Modulation Mode Threshold Value (dBm) Output Power Maximum Link (dBm) Loss (dB) 64 QAM 0.83 dual -69.6 +21 136.6 64QAM 0.67 dual -73.6 +22 141.6 16QAM 0.75 dual -76.5 +23 145.5 16QAM 0.50 dual -81.1 +24 151.1 QPSK 0.75 dual -82.49 +25 153.
6 Site Planning Modulation Mode Threshold Value (dBm) Output Power Maximum Link (dBm) Loss (dB) 64 QAM 0.83 dual -65.3 +21 132.3 64QAM 0.67 dual -68.8 +22 136.8 16QAM 0.75 dual -73.1 +23 142.1 16QAM 0.50 dual -76.3 +24 146.3 QPSK 0.75 dual -79.5 +25 150.5 64QAM 0.83 single -69.0 +21 136.0 64QAM 0.67 single -72.2 +22 140.2 16QAM 0.75 single -76.6 +23 145.6 16QAM 0.50 single -79.6 +24 149.6 QPSK 0.75 single -83.3 +25 154.3 QPSK 0.50 single -85.8 +26 157.
6 Site Planning 6.1.6 PTP 58500 Product Variant - Link Loss, Output Power and System Threshold versus Modulation Mode Table 11 and Table 12 show typical system threshlold figures for IP and TDM, respectively (15 MHz channel bandwidth shown). Modulation Mode Threshold Value (dBm) Output Power Maximum Link (dBm) Loss (dB) 64 QAM 0.83 dual -70.6 +21 137.6 64QAM 0.67 dual -74.8 +22 142.9 16QAM 0.75 dual -78.1 +23 147.1 16QAM 0.50 dual -83.4 +24 153.4 QPSK 0.75 dual -84.5 +25 155.
6 Site Planning Modulation Mode Threshold Value (dBm) Output Power Maximum Link (dBm) Loss (dB) 64 QAM 0.83 dual -66.0 +21 133.0 64QAM 0.67 dual -99.0 +22 137.0 16QAM 0.75 dual -73.9 +23 142.9 16QAM 0.50 dual -77.2 +24 147.2 QPSK 0.75 dual -80.4 +25 151.4 64QAM 0.83 single -69.9 +21 136.9 64QAM 0.67 single -73.0 +22 141.0 16QAM 0.75 single -77.7 +23 146.8 16QAM 0.50 single -81.0 +24 151.0 QPSK 0.75 single -85.1 +25 156.1 QPSK 0.50 single -87.6 +26 159.
7 Installation 7 Installation IMPORTANT Motorola recommends that only qualified personnel undertake the installation of a PTP 500 Series Bridge solution. We recommend that the practices and procedures detailed in the Motorola manual R56 "STANDARDS AND GUIDELINES FOR COMMUNICATION SITES" (68P81089E50) be applied to all new site build activities. For a copy of the manual please see your local Motorola representative. The manual can be downloaded from the Motorola Intranet site http://compass.mot.
7 Installation 7.3 Tools Required The following specific tools are required to install a PTP 500 Series Bridge in addition to general tools: • 13mm and 22mm Spanner / Wrench • RJ45 Crimp Tool. Must be the tool specified for the RJ45 plugs being used. • IBM Compatible Personal Computer (PC) running Windows 98 or later with 10, 100 or 1000BaseT Ethernet (Ability to change IP settings easily is recommended) 7.4 • Either Internet Explorer version 6 or higher, or FireFox 1.5 or higher are recommended.
7 Installation 7.6 Mounting the ODUs The ODU mounting bracket is designed to ease installation by fixing the bracket to a pole and then bringing the ODU into position using a single bolt fixing. The ODU should be mounted using the following steps ensuring that the cable entry is at the bottom. The ODU mounting bracket is designed to work with poles with diameters in the range 50mm (2”) to 75mm (3”). Step 1: Mount the bracket to the pole.
7 Installation The enclosure and mounting brackets of the PTP 500 Series Bridge product range are capable of withstanding wind speeds up to 200 mph (320 kph). The installer should ensure that the structure the bridge is fixed to is also capable of withstanding the prevalent wind speeds and loads. See Section 12 “Wind Loading”.
7 Installation 7.7 Connecting Up 7.7.1 Preparing the PIDU Plus To ODU Cable NOTE: The maximum cable length between the ODU and the user’s Network Equipment is 100m (330 ft). The cable should be assembled as shown in Figure 16: Figure 16 - Correct Cable Preparation for the Recommended Cable CAUTION: Check that the crimp tool matches the RJ45 connector being used.
7 Installation Both ends of the ODU cable are terminated in the same way. The above procedure should be repeated for the PIDU Plus end of the cable when the cable routing process is complete. This assumes that the installation uses PTP LPUs. If not, then the PIDU Plus end of the cable does not require a Gland, but just the RJ45. NOTE: The PIDU Plus end of the cable does not employ a cable gland. Figure 17 shows a completed ODU to PIDU Plus cable.
7 Installation 7.7.2 Making the Connections at the ODU Looking at the back of the unit with the cable entry at the bottom, the PTP 500 Series Bridge PIDU Plus connection is the first hole on the right (Figure 19) and is labeled “PIDU +”.
7 Installation 7.7.3 Making the PTP 300/500/600 Series Bridge PIDU Plus Connection At The ODU The following procedure describes how connection is made at the ODU. It is often easier to carry out this procedure on the ground or a suitable surface prior to mounting the ODU. Ensure that no power is connected to the PIDU Plus or present on the cable before connecting the ODU. Step 1: Assemble the cable as described in 7.7.
7 Installation Figure 21 - Disconnecting the ODU CAUTION: Ensure that power is removed from the system at the PIDU Plus to prevent damage to the ODU while making or breaking the connection. 7.7.4 Routing the Cable After connecting the cable to the ODU it can be routed and secured using standard cable routing and securing techniques. When the cable is in place it can then be cut to the desired length at the PIDU Plus prior to connection to the PIDU Plus. 7.7.
7 Installation 7.7.6 Grounding the Installation CAUTION: The Outdoor Unit (ODU) must be properly grounded to protect against power surges. It is the user’s responsibility to install the equipment in accordance with Section 810 of the National Electric Code, ANSI/NFPA No.70-1984 or Section 54 of the National Electrical Code in the country of installation.
7 Installation 7.7.8 Making the Network Connection at The PIDU Plus – PTP 500 Series Bridge The Network connection is made by connecting the user’s Network Equipment directly to the PIDU Plus LAN port as shown in Figure 22. Figure 22 - Making the Network Connection at the PIDU Plus 7.7.9 Mounting the PTP 300/500/600 Series Bridge PIDU Plus This step is optional. Motorola recommends that you mount the PIDU Plus on a wall or other suitable mounting surface.
7 Installation CAUTION: The PIDU Plus is not waterproof and should be mounted away from sources of moisture. If mounted outdoors, the unit should be mounted in a rain proof enclosure, preferably ventilated. It is also recommended that you fit a drip loop on the PIDU Plus to ODU cable to ensure that any moisture that runs down the cable into the cabinet or enclosure cannot enter the PIDU Plus. This is shown in Figure 23.
7 Installation 7.7.10 Powering Up The PTP 500 Series Bridge is supplied as a pair of matched Master/Slave units. The Master unit can now be powered up and accessed using the default URL http://169.254.1.2/; the Slave unit can be accessed using http://169.254.1.1/. Prior to powering up the PTP 500 Series Bridge, a computer with web browsing capabilities should be configured with an IP address of 169.254.n.n and subnet mask of 255.255.0.0 where n is any value between 1 and 254 but excluding 1.1 or 1.2.
7 Installation 7.7.11 Aligning the PTP 500 Series Bridge ODUs The following is a description of the steps taken to establish a radio link between the two units forming the bridge and align the units for the best signal strength. The PTP 500 Series Bridge uses audible tones during installation to assist the installer with alignment. The installer should adjust the alignment of the ODU in both azimuth and elevation 5 until highest pitch tone is achieved .
7 Installation For the ease of alignment, both Master and Slave units use the install tones in the same way but with some small behavioral differences. This allows the installer to install the Slave unit first and carry out the initial alignment with the Master unit if desired. However, due to the behavioral differences of Master and Slave units, it is recommended that the Master unit is installed first and the initial alignment carried out at the Slave unit.
7 Installation In addition, it is possible to use the BNC connector on the PTP 500 Series ODU and a DVM to help with the alignment process. The BNC connector provides an analogue voltage which is proportional to the receive signal strength. To use remove the protective cap frome the case mounted BNC connector and connect a DVM.Yo may have to invert the pole for correct reading. Figure 24 shows the relationship between measured values and the receive signal strength.
7 Installation 7.7.12 Additional Installation Notes According to the LINKPlanner report power settings values, some additional steps are required. These are necessary to ensure that the power levels of the installed units are not too high. Higher power levels may cause the saturation of the receivers or may cause false Radar detection (in Radar Enabled regions) which will cause a degradation of the link performance and may be responsible for a link failure.
8 Web Page Reference 8 Web Page Reference The web user interface has three main sections. The home page presents to the operator a high level summary of the PTP 500 Series Bridge point-to-point wireless link. The status page presents a more detailed set of system parameters describing the performance of the wireless link together with other key system performance metrics. The final section is the system administration section.
8 Web Page Reference The navigation bar on the left hand side of the web page is used to move between the various management pages. The currently selected page is always highlighted with a light blue background. The menu is hierarchical. Selecting a menu item which has associated submenu options will automatically display all sub options. A sample web page with the navigation menu is shown in Figure 25 when the ‘Home’ Link is highlighted as the current page.
8 Web Page Reference 8.1 Home Page – PTP 500 Series Bridge The home page for the PTP 500 Series Bridge has been designed to display a high level summary of the status of the wireless link and associated equipment. The home page (Figure 26) normally displays four key system attributes: Wireless Link Status: The Wireless Link Status attribute displays the current status of the PTP 500 Series Bridge wireless link. A state of ‘Up’ on a green background indicates that a point-to-point link is established.
8 Web Page Reference 8.1.1 Home Page Alarm Display The home page is also used to display all outstanding major system alarms. Whenever system alarms are asserted, a yellow warning triangle is displayed on web page navigation bar. The warning triangle will be visible from all web pages. Clicking the warning triangle will cause the web page to jump back to the system homepage. Figure 27 shows a sample alarm screen.
8 Web Page Reference Install Status: A non-OK value indicates that signaling was received with the wrong MAC address. Note that it is very unusual to detect this, because units with wrongly configured Target MAC Address will normally fail to establish a wireless link. However, rare circumstances may establish a partial wireless link and detect this situation. NB: A non-OK value on start-up, or a change of value during operation, may generate an SNMP trap and/or SMTP email alert.
8 Web Page Reference SNTP Synchronization Failed: This warning indicates that SNTP has been enabled but that the unit is unable to synchronize with the specified SNTP server. Section 8.3.10.8 “SNTP (Simple Network Time Protocol)” explains how to configure SNTP. Note that a change of state may generate an SNMP trap and/or SMTP email alert. Wireless Link Disable Warning: This warning is displayed if the Wireless link has been administratively disabled via the 78 SNMP Interface (see 8.3.
8 Web Page Reference Remote Management Page”). The Wireless Interface MIB-II ifAdminStatus attribute has been set to DOWN. To enable the Ethernet interface, set the ifAdminStatus attribute to UP. Note that a change of state may generate an SNMP trap and/or SMTP email alert. Ethernet Link Disabled Warning: This warning is displayed if the Ethernet link has been administratively disabled via the 79 SNMP Interface (see 8.3.
8 Web Page Reference Remote Management Page”), that is, the Ethernet Interface MIB-II ifAdminStatus attribute has been set to DOWN. To enable the Ethernet interface, set the ifAdminStatus attribute to UP. Note that a change of state may generate an SNMP trap and/or SMTP email alert. Ethernet Link Status: Current status of the Ethernet link. If there are any problems with the Ethernet interface, this alarm will be asserted.
8 Web Page Reference 8.2 Systems Status Page The status page has been designed to give the system administrator a detailed view of the operation of the 500 Series Bridge from both the wireless and network perspectives. The page is subdivided into four main categories Equipment, Wireless, Telecoms and Ethernet/Internet. The ‘Equipment’ section contains the unit’s inventory and identification information.
8 Web Page Reference The following section details all the attributes displayed on the status page: Link Name: The link name is allocated by the system administrator and is used to identify the equipment on the network. The link name attribute is limited to a maximum size of 63 ASCII characters. Link Location: The link location is allocated by the system administrator and can be used as a generic scratch pad to describe the location of the equipment or any other equipment related notes.
8 Web Page Reference Ethernet Speed and Duplex: The negotiated speed and duplex setting of the Ethernet interface. The speed setting is specified in Mbps. Full Duplex data transmission means that data can be transmitted in both directions on a signal carrier at the same time. For example, on a local area network with a technology that has full duplex transmission; one workstation can be sending data on the line while another workstation is receiving data.
8 Web Page Reference Receive Power: Receive power histogram is expressed in dBm and presented as: max, mean, min, and latest. The max, min and latest are true instantaneous measurements; the mean is the mean of a set of one second means. See footnote 8. Vector Error: The vector error measurement compares the received signal’s In phase / Quadrature (IQ) modulation characteristics to an ideal signal to determine the composite error vector magnitude.
8 Web Page Reference See footnote 8. Expected data rates can be found in Section 14 “Data Rate Calculations”. Link Capacity: The maximum aggregate data rate capacity available for user traffic, assuming the units have been connected using Gigabit Ethernet. The link capacity is variable and depends of the prevailing wireless conditions as well as the distance (range) between the two wireless units. Transmit Modulation Mode: The modulation mode currently being used on the transmit channel.
8 Web Page Reference 8.3 System Administration Pages The following menu options are available for the system administrator and can be password protected. Figure 29 shows the system administration login page. By default a system administrator password is not set. Simply click the login button to access the system administration features.
8 Web Page Reference 8.3.1 System Configuration The configuration of the 500 Series Bridge is organized into three sections: • General configuration • LAN configuration • QoS Configuration • Save and Restore The general configuration allows modification of high level administrative (descriptive) attributes and high level wireless configuration. The LAN configuration sub menu allows the system administrator to modify the Ethernet and IP configuration of the 500 Series Bridge.
8 Web Page Reference While the majority of the system configuration is entered during installation and should never require changing, this page offers the system administrator the ability to change the basic system parameters for both the wireless and Ethernet components. Link Name: User defined identity for the unit (max 63 characters). Link Location: Can be used as a generic scratch pad to describe the location of the equipment.
8 Web Page Reference 8.3.1.2 LAN Configuration Page The LAN configuration page (Figure 31) is used by the system administrator to configure the 500 Series Bridge’s LAN interface. Figure 31 - LAN Configuration Page IP Address: Internet protocol (IP) address. This address is used by the family of Internet protocols to uniquely identify this unit on a network. Subnet Mask: A subnet allows the flow of network traffic between hosts to be segregated based on a network configuration.
8 Web Page Reference Ethernet Auto Mdix: This enables/disables the Auto Medium Dependent Interface (MDI)/Medium Dependent Interface Crossover (MDIX) capability. Default is “Enabled”. Drop Ethernet Link On Wireless Link Down: When this option is enabled the Ethernet link is momentarily dropped when the wireless link goes down.
8 Web Page Reference 8.3.1.3 LAN Configuration Page – Use VLAN For Management Interfaces The layout of the LAN Configuration page changes if this attribute is enabled in order to allow the VLAN VID and VLAN Priority to be set, see Figure 34. The VLAN settings are applied only after the unit is rebooted. CAUTION: You must ensure that you can access the VLAN which you configure here, otherwise you will be unable to access the unit following the next reboot.
8 Web Page Reference Use VLAN For Management Interfaces: This control can be configured with one of the following three values: • No VLAN Tagging • IEEE 802.1Q Tagged (C-Tag, Type 8100) • IEEE 802.1ad Tagged (S-Tag or B-Tag, Type 88a8) VLAN Management VID: This 802.1Q or 802.1ad VLAN ID (VID) will be included in packets generated by the management interfaces. Valid settings are in the range 0 to 4094. VLAN Management Priority: This 802.1Q or 802.
8 Web Page Reference Quality of Service Default Settings The default classification rules are as shown in Table 15.
8 Web Page Reference The user interface allows also to configure IEEE802.1Q classification rules as shown in Table 17 using the button ‘Set Default 802.1Q Priority Mappings’. Link Layer Priority Traffic Class Untagged Q1 0 Q1 1 Q0 2 Q2 3 Q3 4 Q4 5 Q5 6 Q6 7 Q7 Table 17 – IEEE802.
8 Web Page Reference 8.3.1.5 Save and Restore Configuration File The save and restore feature of a PTP 500 Series Bridge allows the system administrator to backup the operation configuration of the wireless unit. It is recommended that this facility is used immediately after a successful PTP 500 Series Bridge installation or prior to any software upgrade.
8 Web Page Reference Figure 37 - Save Configuration File Screen The configuration file is encoded using an ASCII encoding scheme. An example is show in Figure 38. Figure 38 – PTP 500 Example Configuration File CAUTION: The configuration file is currently restricted to a single software version and can only be restored into a wireless unit operating the software version indicated in the configuration file header.
8 Web Page Reference 8.3.1.6 Restore Configuration File The configuration file can also be used when swapping out a faulty wireless unit. If one of the wireless units is replaced on a wireless link a configuration file captured from the faulty unit can be uploaded into the new unit to speed up replacement. It should be noted that when placing a configuration file into a wireless unit with a different MAC Address the license key will not be restored and may need to be entered.
8 Web Page Reference Figure 40 - Reset Configuration and Reboot Confirmation Pop-up On confirmation the PTP 500 Series Bridge will: • Upload the configuration file • Perform data integrity checking • Erase previous configuration • Apply the new configuration • Restart After the unit has restarted the entire configuration from the configuration file will now be active. Note: The IP address of the unit may have also been changed.
8 Web Page Reference 8.3.2 Statistics Page The 500 Series bridge statistics page is designed to display some key statistics of the Ethernet Bridge and the underlying wireless performance. Figure 41 - System Statistics Wireless Tx Packets: This displays the total number of good packets the bridge has sent for 14 transmission by the wireless interface . Wireless Rx Packets: This displays the total number of good packets the bridge has received from the wireless interface. See footnote 14.
8 Web Page Reference Ethernet Tx Packets: This displays the total number of good packets the bridge has sent for transmission by the local Ethernet interface. See footnote 14. Ethernet Rx Packets: This displays the total number of good packets the bridge has received from the local Ethernet interface. See footnote 14. Packets To Internal Stack: This displays the total number of good packets the bridge has transmitted to the internal stack (for example, ARP requests, PING requests, HTTP requests).
8 Web Page Reference Receive Modulation Mode: The modulation mode currently being used on the receive channel. The number in brackets after the modulation mode and coding rate string is the effective data rate available to all MAC layer protocols. List of all the modulation modes can be found in Section 14 “Data Rate Calculations” where data rate calculations plots are given for each available modulation mode.
8 Web Page Reference 8.3.3 Detailed Counters Page Figure 42 - Detailed Counters Page The detailed counters page is subdivided into two columns. Column one presents the detailed statistics for the bridge’s Ethernet interface. Column two relates to the wireless interface. The Counters have the following definitions: Tx & Rx Octets: Total number of octets (bytes) transmitted or received over the interface. Rx Drops: Frames dropped due to lack of capacity in the receive buffer.
8 Web Page Reference Rx Undersize: Total number of packets received that are less than 64 bytes and have a valid CRC. Rx Oversize: Total number of packets received that are greater than the maximum number of bytes with a valid CRC. Rx Fragments: Total number of packets that are less than 64 bytes with an invalid CRC (these packet types are also known as runts) (Ethernet interface only).
8 Web Page Reference 8.3.4 Install Pages These pages are used during system installation. There follows a description of the install pages along with their use during the installation configuration process. The actual installation process is described in Section 8.3.4.1 “Manually Configuring The Wireless Units”. All wireless links are shipped as paired units. They are pre-configured at the factory so that they can be installed without the user supplying any configuration.
8 Web Page Reference CAUTION: The factory default configuration is set to Region 26. Region 26 allows the 500 Series bridge a maximum transmit power of 27 dBm. If the local regulatory regime limits the maximum transmit power (EIRP) to less than 27 dBm you should obtain a new license key containing the correct region code from your local distributor or direct from Motorola. Alternatively in the short term, you should reduce the maximum transmit power by following the procedures in Section 8.3.4.
8 Web Page Reference A license key is programmed into each unit during production and can be found written on the Configuration Data Summary Label which is attached to the Quick Install Guide. If subsequently the license key has been mislaid, replacement keys can be applied for online or via your distributor. If a valid license key is not detected in the unit’s non-volatile memory then the user is prompted to enter a valid key.
8 Web Page Reference Gateway IP Address: The IP address of a computer / router on the current network that acts as a gateway. A gateway acts as an entrance / exit to packets from / to other networks. Use VLAN Management Interface: Controls whether the management interfaces (HTTP/SNMP/SMTP/SNTP) use a VLAN. Selecting this option presents the user with extra fields in which to enter the Management VLAN ID, Priority and whether to validate the VLAN ID.
8 Web Page Reference 8.3.4.3 Wireless Configuration Step 2 of the installation wizard requires the installer to enter the wireless configuration parameters. Figure 46 –PTP 58500 and PTP 54500 Variants Installation Wizard Wireless Configuration Target MAC Address: It is the MAC Address of the peer unit that will be at the other end of the wireless link. This is used by the system to ensure the unit establishes a wireless link to the correct peer.
8 Web Page Reference Master Slave Mode: At this point it is necessary to decide which end will designate a Master. The Master unit is the controlling unit with respect to the point-to-point link and its maintenance. The master transmits until the link is made, while the Slave listens for its peer and only transmits when the peer has been identified. Link Mode Optimization: Optimizes the link behavior according to the type of traffic that will be bridged. There are two modes to choose from: IP and TDM.
8 Web Page Reference Lower Center Frequency: The software for the PTP 500 Series Bridge allows a user to optionally adjust the channel center frequencies. Changing the Lower Center Frequency attribute causes all channel center frequencies to be offset. It effectively slides the channelization up or down. See Section 5.5 “PTP 54500 Specific Frequency Planning Considerations” and Section 5.6 “PTP 58500 Specific Frequency Planning Considerations” depending on the frequency variant.
8 Web Page Reference Figure 47 –PTP 58500 and PTP 54500 Variants - Fixed Frequency Operation Installation Tones: Where the use of audio installation tones is not required, this control allows the installer to optionally disable the tone generator during the installation process. Once the installer is satisfied with the wireless configuration options then the “Submit Wireless Configuration” button or the “Next” link should be clicked.
8 Web Page Reference Figure 48 –PTP 58500 and PTP 54500 Variants - Installation Wizard Confirm Configuration If the settings are correct and appropriate, click the “Confirm Configuration, Arm Installation and Reboot” button. The user will now be prompted to confirm the action (Figure 49). Figure 49 - Reboot Confirmation Pop Up All the attributes are committed to non-volatile memory. Immediately following the write to nonvolatile memory the unit is reset.
8 Web Page Reference NOTE: If you have changed the Ethernet parameters you must reconnect using the correct network and address settings. 8.3.4.4 Disarm Step 5 of the installation wizard is the disarm phase.
8 Web Page Reference Once Section 8.3.4.3 “Wireless Configuration” is complete pressing the “Disarm Installation Agent” button completes the installation process 15 and the audible installation tone will be switched off. If the installer wishes to modify the installation configuration then the ‘Back’ link can be used to access the installation wizard steps described above. After disarming the wireless link the user is presented with a message as shown in Figure 51.
8 Web Page Reference 8.3.5 Graphical Install To aid the installation of wireless links two graphical installation aids have been introduced in this 500 Series system version. • A PDA installation screen • A larger installation screen available from the main HTTP management interface. The design of the installation screen has been deliberately kept simple and uncluttered. An example of the installation screen is shown in Figure 52.
8 Web Page Reference For the more technically aware, the installation metric is simply the instantaneous receive power in dBm + 100. The PDA installation tool is accessed via a hidden URL http:///pda.cgi. It should be noted that this link is only available after the user has logged in as system administrator. The large screen version of the graphical user interface is available as a submenu option of the installation wizard. 8.3.
8 Web Page Reference The software upgrade pages are used to update a unit’s operational software. The software image to be uploaded should be downloaded to local storage from the Motorola web site. The software image is delivered by Motorola as a compressed zip file. Once the zip file has been downloaded, the user should extract the PTP 500 Series Software image, identifiable by its ‘.dld’ file extension.
8 Web Page Reference The user should ensure that the correct image is shown before pressing the “Program Software Image into Non-Volatile Memory” button. Once this button has been pressed the image is stored into non-volatile memory, this process can take up to 60 seconds and must not be interrupted. CAUTION: If the upgrade process is interrupted during the erasure of the image bank, or during the reprogramming of the image bank, the image bank will be left in a corrupt state.
8 Web Page Reference When the software image has been written to non-volatile memory Figure 56 will be displayed showing the status of the software upload. Reboot the unit by clicking the “Reboot Wireless Unit” button. You will be asked to confirm this action as shown in Figure 57. Figure 57 - Reboot Confirmation Pop Up This will reboot the unit, taking up to 120 seconds. During this time you will not be able to communicate with the unit.
8 Web Page Reference The default channelization can be modified by varying the lower center frequency attribute in the installation wizard - see Section 8.3.4.3 “Wireless Configuration”. See Section 5 “General Considerations” for more detail. 8.3.7.2 Spectrum Management Measurements Each end of the 500 Series Bridge performs a single measurement of the combined receiver input power in an inactive portion of the TDD cycle.
8 Web Page Reference Mean of Means is the arithmetic mean 17 of the measured means during a quantization period. The mean of means is a coarse measure of signal interference and gives an indication of the average interference level measured during the quantization period. The metric is not very good at predicting intermittent interference and is included to show the spread between the mean of means, the 99.9% percentile and the peak of means. NOTE: Spectrum Management uses the 99.
8 Web Page Reference Figure 58 - Spectrum Management as seen from the Master Figure 59 - Spectrum Management as seen from the Slave 122
8 Web Page Reference Note: These plots are for 15MHz operation; 5/10MHz operation is similar - the width of the vertical green bar represents the channel width Figure 58 shows an example Spectrum Management webpage as seen from the master. Figure 59 shows an example Spectrum Management webpage as seen from the slave. It should be noted that the key configuration attributes are not available on the slave web page. 8.3.7.
8 Web Page Reference Asymmetric DFS: The default configuration of symmetric operation constrains the link to operate symmetrically, using the same transmit and receive channels. When in symmetric mode the slave unit will always follow the master. If the master moves to a new channel the slave will hop to the same channel. When the Point-to-Point link is configured as an asymmetric link both the master and slave are free to select the best channel from their own set of local interference metrics.
8 Web Page Reference The colored bar represents the following channel state: Green Active The channel is currently in use, hosting the Point-to-Point wireless link. Orange Interference The channel has interference above the interference threshold. Blue Available The channel has an interference level below the interference threshold and is considered by the Spectrum Management algorithm suitable for hosting the Point-to-Point link.
8 Web Page Reference 8.3.7.9 Viewing Historic Spectrum Management Metrics Spectrum Management allows the system administrator to view the results of previous measurement quantization periods. Holding down the shift key and clicking the appropriate channel on the local channel spectrum plots activates this feature. This feature is available on both the master and slave web page. Figure 61 - Spectrum Management Time Series Plot Figure 61 shows an example time series plot.
8 Web Page Reference 8.3.8 Spectrum Management (Fixed Frequency) The PTP 500 Series Bridge software allows a user to optionally fix transmit and receive frequencies for a wireless link. Once configured, the spectrum management software will not attempt to move the wireless link to a channel with lower co and adjacent channel interference. Therefore this mode of operation is only recommended for deployments where the installer has a good understanding the prevailing interference environment.
8 Web Page Reference Note: These plots are for 15MHz operation; 5/10MHz operation is similar - the width of the vertical green bar represents the channel width The only controls available to the master are the Statistics Window and Interference Threshold attributes. They will have no effect on the operation of the wireless link and will only effect the generation of the channel spectrum graphics. The active channel history menu is removed in this mode of operation as channel hopping is prohibited.
8 Web Page Reference • The only controls available to the master are the Interference Threshold attribute. This has no effect on the operation of the wireless link and will only affect the generation of the channel spectrum graphics. See Figure 64. • Extra color coding of the interference histogram is provided. See Table 21.
8 Web Page Reference Figure 65 - Spectrum Management Slave Screen With Operational Restrictions 130
8 Web Page Reference The colored bar represents the following channel state: Green Active The channel is currently in use hosting the Point-to-Point wireless link. Orange Interfere nce The channel has interference above the interference threshold. Blue Available The channel has an interference level below the interference threshold and is considered by the Spectrum Management algorithm suitable for hosting the Point-to-Point link. Barred The system administrator has barred this channel from use.
8 Web Page Reference 8.3.10 Remote Management Page The Remote Management page (Figure 66) allows the system administrator to configure the remote management of the PTP 500 Series Bridge.
8 Web Page Reference 8.3.10.1 Control Access to HTTP Interface The attribute HTTP Access Enabled allows a user to stop any access to a unit via the web interface. The default value for this control is set to “yes”, which means that the unit can be accessed using the web interface. If the option “No” is selected, then a warning is displayed as shown in Figure 67. Figure 67 – Warning when disabling HTTP Interface 8.3.10.
8 Web Page Reference • WiMAX MIB SNMP TRAPs supported: • Cold Start • Link Up • Link Down • DFS Channel Change • DFS Impulsive Interference 8.3.10.5 Diagnostics Alarms A number of diagnostics alarms have been added to allow SNMP agents to receive traps and emails if required. Refer to Section 8.1.1 “Home Page Alarm Display” for a description of all these alarms. Checking the control “Enabled Diagnostic Alarms” in SNMP and/or SNTP selects all the alarms shown in Figure 68.
8 Web Page Reference 8.3.10.6 SNMP Configuration SNMP State: The SNMP state attribute controls the creation of the SNMP features. Changing the SNMP state attribute requires a mandatory reboot of the unit. Only when the SNMP state is enabled at system start-up will the SNMP processor task be created. SNMP Enabled Traps: The SNMP Enabled Traps attribute controls which SNMP Traps the unit will send.
8 Web Page Reference 8.3.10.7 SMTP (Simple Mail Transport Protocol) The SMTP client is an alternative method for the 500 Series bridge to alert a system administrator when there are or have been system errors. SMTP Email Alert: This attribute controls the activation of the SMTP client. SMTP Enabled Messages: The SMTP Enabled Messages attribute controls which email alerts the unit will send. SMTP IP Address: The IP address of the networked SMTP server.
8 Web Page Reference 8.3.10.9 Setting the clock The PTP 500 Series bridge has a system clock which can be used to supply accurate date and time information in the absence of a SNTP server. The system clock is battery backed and will continue to operate for several days if the 500 Series bridge has been switched off.
8 Web Page Reference 8.3.11.1 Diagnostic Plotter New for the PTP 500 Series is the system administration diagnostic plotter facility see Figure 69. Figure 69 - Diagnostic Plotter The diagnostic plotter allows the system administrator to view the cascading histogram data in an easily accessible graphical form. The plot always displays three traces, maximum, minimum and mean by default. The diagnostic selector allows the user to select the various categories of histogram.
8 Web Page Reference The trace selection allows the user to control which traces are plotted. As with other management pages the page refresh period can be used to interactively monitor the wireless link. 8.3.11.2 Diagnostics Download The diagnostics Download page allows the system administrator to download snapshots of system diagnostics.
8 Web Page Reference 8.3.12 Change System Administration Password This page (Figure 71) is used to change the password for the system administration (The factory default is blank). Figure 71 - Password Change To change the password any combination of alphanumeric characters, up to 31 characters in length, can be used. 8.3.13 License Key The License Key data entry page allows the system administrator to update the 500 Series bridge license key. Figure 72 shows a sample license key data entry page.
8 Web Page Reference The user must enter the license key and click the ‘Validate License Key’ button to check that the key is valid and program it to non-volatile memory. If a valid license key is detected then the user will be presented by a system reboot screen. Figure 73: License Key reboot Screen The user will then be asked to confirm the reboot (Figure 74). Figure 74 - Reboot Confirmation Pop Up 8.3.14 Properties The web page properties screen allows the user to configure the web page interface.
8 Web Page Reference WEB Properties: Disable HTTP NO-CACHE META data. Removes the HTTP NO-CACHE META clause from all dynamically created web pages. Auto Logout Timer Configures the time, in minutes, when the system administrator is automatically logged out if no web page activity is detected. Distance Units Swaps the default metric display of distance in to imperial units, for example km to Miles. Use Long Integer Comma Formatting Changes the format of long integers from 1000000 to 1,000,000.
9 Recovery Mode 9 Recovery Mode The Motorola PTP 500 point-to-point wireless Ethernet bridges have a special mode of operation that allows the user to recover a unit from configuration errors or software image corruption. Recovery mode is entered by depressing the Recovery Switch located on the underside of the PIDU Plus while applying mains power, as shown in Section 3.3.
9 Recovery Mode The recovery options available are: Upgrade Software Image: This allows the user to reload a software image. This may be the original image if software corruption is suspected or a step back to an old image if an incorrect image has just been loaded. Reset IP & Ethernet Configuration back to factory defaults: This allows the user to reset the unit back to the factory defaults: • IP Address 169.254.1.1 • Netmask 255.255.0.0 • Gateway 169.254.1.
9 Recovery Mode Figure 80 - Software Download Progress Indicator Page When the download is complete a page is displayed indicating the status of the software download (Figure 81). Figure 81 - Software Download Complete Page After carefully checking that correct image has been downloaded the user should reboot the unit by pressing the “Reboot Wireless Unit” button.
9 Recovery Mode 9.2 Reset IP & Ethernet Configuration To reset IP & Ethernet configuration back to factory defaults the user should press the “Reset IP & Ethernet Configuration back to factory defaults” button on the “Recovery Options” page (Figure 79). The user will now be presented with a pop up box asking them to confirm the action (Figure 83). Figure 83 - Confirm Reset to Factory Default Pop Up On confirmation the following page will be displayed (Figure 84).
9 Recovery Mode The user will now be presented with a pop up box asking them to confirm the action (Figure 85) Figure 85 - Reboot Confirmation Pop Up The unit will now reboot. The unit should now start up in normal mode but with the IP address set to 169.254.1.1 and the Ethernet interface set to auto-negotiate and auto-MDI/MDIX. Should the unit fail to start up the user should refer to Section 10 “Fault Finding”. 9.
9 Recovery Mode The user will now be presented with a pop up box asking them to confirm the action (Figure 88). Figure 88 – Erase Configuration - Reboot Confirmation Pop Up The unit will now reboot. The unit should now start up in normal mode but with all configuration erased. Should the unit fail to start up the user should refer to Section 10 “Fault Finding”. 9.
9 Recovery Mode On confirmation the following page will be displayed (Figure 90). Figure 90 - Zeroise Security Parameters Successful Page 9.5 Reboot This option can be used to reboot the unit. The user will now be presented with a pop up box asking them to confirm the action (Figure 91). Figure 91 – Recovery - Reboot Confirmation Pop Up The unit will now reboot. The unit should now start up in normal operational mode. Should the unit fail to start up the user should refer to Section 10 “Fault Finding”.
10 Fault Finding 10 Fault Finding If communication has been lost with the unit at the near end of the link then there may be a hardware fault with the wiring, network or hardware. Go to the hardware section below. If communication with the far end of the link is lost then go to the radio section below. 10.1 Hardware If there are problems suspected with the link hardware the following procedure is recommended: 10.1.1 Power Check the power LED at each end of the link.
10 Fault Finding 10.1.2 Ethernet The Ethernet LED is driven from the ODU processor and thus is capable of informing you of many conditions using different flash sequences. If the Ethernet indicator does not illuminate at all there are four possible conditions.
10 Fault Finding Mode Green LED Yellow LED No Ethernet Cable Connected Yellow LED Ethernet Cable Connected between PIDU Plus and NIC/Switch/Hub No Power Applied Off Off Off Will flash once per second regularly approximately 30 seconds after power applied for 10 seconds then operate as Ethernet Link/Activity LED Power Applied On Will flash once per second regularly approximately 30 seconds after power applied for 10 seconds then will go out and stay out Valid Ethernet Link and no traffic On N/A
10 Fault Finding 4. Check the cable resistance between pins 4 & 7 at the RJ45. Check against column 4 in Table 23. 5. Ensure that there is greater than 100K ohms between pins 1 & 8 for all cable lengths. 6. Ensure that there is greater than 100K ohms between pin 1 and ODU ground for all cable lengths. 7. Ensure that there is greater than 100K ohms between pin 8 and ODU ground for all cable lengths 10.2 Radio 10.2.
10 Fault Finding 10.2.
11 Lightning Protection 11 Lightning Protection CAUTION: EMD (Lightning) damage is not covered under standard warranty. The recommendations in this user manual, when implemented correctly, give the user the best protection from the harmful effects of EMD. However 100% protection is neither implied nor possible. 11.
11 Lightning Protection Equipment mounted in Zone B should be grounded using grounding wire of at least 10 AWG. This grounding wire should be connected to a grounding rod or the building grounding system before entry in to building. The PTP 500 Series bridge ODU grounding point can be found on the bottom of the unit. The 500 Series Bridge is supplied with an appropriate grounding lug for attachment to the ODU.
11 Lightning Protection Figure 93 - Showing how the use of a Finial enables the ODU to be mounted inside Zone B 11.2 Detailed Installation The recommended components for an installation protected for nearby strikes are: • Recommended cables as described in Section 3.3.5 “Cables and connectors”.
11 Lightning Protection Figure 94 - Diagrammatically Showing Typical Mast and Wall Installations The Lightning protection Unit should be mounted at the building entry point and must be grounded (Figure 95).
11 Lightning Protection Figure 96 shows all the components that are supplied with the Motorola Kit 2978.
11 Lightning Protection 11.
11 Lightning Protection 11.3.1 Pre-Power Testing Before plugging the RJ45 from the lower LPU (or if not fitted the ODU) into the PIDU, check the following resistances at the RJ45: 1. Check the cable resistance between pins 1&2, 3&6, 4&5 and 7&8 at the RJ45. Check against column 2 in Table 23. Resistances for each pair should be within 1 ohm of each other. 2. Check the cable resistance between pins 1&3 and 4&7 at the RJ45. Check against columns 3 and 4 respectively in Table 23. 3.
11 Lightning Protection 11.3.2 Post-Power Testing The Correct Operation is as follows 1. Connect the RJ45 to the PIDU and apply power to the PIDU, the power LED should illuminate continuously. 2. After 30 seconds, the Ethernet LED should be observed starting with 10 slow flashes. 3. If there is a network connection the Ethernet LED will then show Ethernet activity.
11 Lightning Protection 11.4 Locating the Fault Having identified which of the wiring cores are likely to be connected incorrectly, the location of the faulty cable can be narrowed by disconnecting sections of the drop cable and by unplugging the relevant RJ45 connectors from the LPUs. As a further aid to locating the fault the Ethernet connections are also available inside the LPU. The connections can be accessed by rotating the LPU lid as shown in Figure 98.
12 Wind Loading 12 Wind Loading 12.1 General Antennas and electronic equipment mounted on towers or pole mounted on buildings will subject the mounting structure to significant lateral forces when there is appreciable wind. Antennas are normally specified by the amount of force (in pounds) for specific wind strengths. The magnitude of the force depends on both the wind strength and size of the antenna. 12.
12 Wind Loading 12.3 Capabilities of the PTP 500 Series Bridges The structure and mounting brackets of the PTP Series systems are capable of withstanding wind speeds up to 151mph (242 kph). The installer should ensure that the structure to which the 500 Series Bridge is fixed to is also capable of withstanding the prevalent wind speeds and loads. 12.
13 PTP 500 Series Bridge – Connectorized Model 13 PTP 500 Series Bridge – Connectorized Model 13.1 Scope This section details the changes and additional features relevant to the connectorized version of the PTP 500 Series products.. 13.2 Product Description 13.2.
13 PTP 500 Series Bridge – Connectorized Model 13.2.2 Antenna Choices – 5.8 GHz The integrated antenna has a gain of 23 dBi. In non-FCC regions antenna choice is not restricted but any region specific EIRP limit must 21 be obeyed by reducing the maximum Transmit power , see Section 5.2 “Licenses and Region Codes”. • In FCC regions external antennas from the list in Section 13.6.3 “Antennas for USA / Canada – 5.8 GHz” can be used with the Connectorized version of the PTP 500 Series Bridge.
13 PTP 500 Series Bridge – Connectorized Model 13.3 Software/Features The connectorized variant operates in the same way as the basic 500 Series and is released initially with the feature set to the Connectorized PTP 500 Series variant. The areas where the functionality is modified are: 13.3.1 Status Page The link loss calculation presented on the Status Page of the management interface has to be modified to allow for the increased antenna gains at each end of the link.
13 PTP 500 Series Bridge – Connectorized Model 13.3.2 Configuration Pages The amended Configuration web page is shown below as Figure 101. Please refer to Section 8.3.4 “Install Pages” for the definitions of the parameters Antenna Gain, Cable Loss and EIRP.
13 PTP 500 Series Bridge – Connectorized Model 13.3.3 Installation Pages The installer is prompted to enter the Antenna Gain and Cable Loss (Connectorized PTP 500 Series Bridge to antenna) at each end of the link. The Installation Pages are shown as Figure 102 to Figure 104. Figure 102 - Connectorized PTP 500 Series Bridge ‘Installation Wizard’ Page Antenna Gain: Gain of the antenna you are connecting to the unit, see table in Section 13.6.4 “Suggested Antennas - 5.
13 PTP 500 Series Bridge – Connectorized Model Spectrum Management Control: Is used to configure the 500 Series Bridge Spectrum Management features, see Section 8.3.7 “Spectrum Management” for more details. iDFS is the abbreviation for intelligent Dynamic Frequency Selection, which continually monitors the spectrum looking for the channel with the lowest level of on channel and co-channel interference. Fixed frequency mode allows the installer to fix the Transmit and receive frequencies on the units.
13 PTP 500 Series Bridge – Connectorized Model EIRP: The Confirm Installation Page displays the EIRP (Effective Isotropic Radiated Power), which describes the strength of the radio signal leaving the wireless unit. This allows the operator to verify that their link configuration (Max Transmit Power, Antenna Gain and Cable Loss) do not cause the link to exceed any applicable regulatory limit. Figure 104 - Connectorized 500 Series bridge ‘Disarm Installation’ Page 13.
13 PTP 500 Series Bridge – Connectorized Model The external antennas can be either dual-polarization (as the integrated antenna) or two single polarized antennas can be used in a spatially diverse configuration.
13 PTP 500 Series Bridge – Connectorized Model 13.6.1 Antenna Choice (FCC and Industry Canada Regions Only) The antennas which can be deployed with the Connectorized 500 Series Bridge are shown in Section 13.6.3 “Antennas for USA / Canada – 5.8 GHz” and Section 13.6.4 “Suggested Antennas - 5.4 GHz”. For FCC and Industry Canada, the PTP500 Series Bridge has been designated to operate with the antennas listed in Section 13.6.3 “Antennas for USA / Canada – 5.8 GHz” and Section 13.6.4 “Suggested Antennas - 5.
13 PTP 500 Series Bridge – Connectorized Model 13.6.3 Antennas for USA / Canada – 5.8 GHz Gain (dBi) Flat Plate Parabolic Dish Manufacturer Antenna Type Andrew Andrew 2-foot Parabolic, P2F-52 (29.4dBi) 29.4 Y Andrew Andrew 2-foot Dual-Pol Parabolic, PX2F-52 (29.4dBi) 29.4 Y Andrew Andrew 3-foot Parabolic, P3F-52 (33.4dBi) 33.4 Y Andrew Andrew 3-foot Dual-Pol Parabolic, PX3F-52 (33.4dBi) 33.4 Y Andrew Andrew 4-foot Parabolic, P4F-52 (34.9dBi) 34.
13 PTP 500 Series Bridge – Connectorized Model Gain (dBi) Flat Plate Parabolic Dish Manufacturer Antenna Type Gabriel Gabriel 4-foot Standard QuickFire Parabolic, QF4-52-N 34.8 Y Gabriel Gabriel 4-foot Standard QuickFire Parabolic, QF4-52-N-RK 34.8 Y Gabriel Gabriel 6-foot Standard QuickFire Parabolic, QF6-52-N 37.7 Y Gabriel Gabriel 2-foot Standard Dual QuickFire Parabolic, QFD2-52-N 28.4 Y Gabriel Gabriel 2.5-foot Standard Dual QuickFire Parabolic, QFD2.5-52-N 31.
13 PTP 500 Series Bridge – Connectorized Model Gain (dBi) Flat Plate Parabolic Dish Manufacturer Antenna Type RadioWaves Radio Waves 4-foot Parabolic, SP4-2/5 (34.6dBi) 34.6 Y RadioWaves Radio Waves 6-foot Parabolic, SP6-2/5 (37.7dBi) 37.7 Y RFS RFS 2-foot Parabolic, SPF2-52AN or SPFX2-52AN (27.9dBi) 27.9 Y RFS RFS 3-foot Parabolic, SPF3-52AN or SPFX3-52AN(31.4dBi) 31.4 Y RFS RFS 4-foot Parabolic, SPF4-52AN or SPFX4-52AN(33.9dBi) 33.
13 PTP 500 Series Bridge – Connectorized Model 13.6.4 Suggested Antennas - 5.4 GHz Manufacturer Antenna Type Gain (dBi) Parabolic Dish Andrew Andrew 2-foot Parabolic, P2F-52 (29.4dBi) 29.4 Y Andrew Andrew 2-foot Dual-Pol Parabolic, PX2F-52 (29.4dBi) 29.4 Y Andrew Andrew 3-foot Parabolic, P3F-52 (33.4dBi) 33.4 Y Andrew Andrew 3-foot Dual-Pol Parabolic, PX3F-52 (33.4dBi) 33.4 Y Andrew Andrew 4-foot Parabolic, P4F-52 (34.9dBi) 34.
13 PTP 500 Series Bridge – Connectorized Model Gain (dBi) Parabolic Dish Gabriel 4-foot Standard Dual QuickFire Parabolic, QFD4-52-N-RK 34.7 Y RadioWaves Radio Waves 2-foot Dual-Pol Parabolic, SPD2-5.2 (28.1dBi) 28.1 Y RadioWaves Radio Waves 2-foot Parabolic, SP2-5.2 (29.0dBi) 29 Y RadioWaves Radio Waves 3-foot Dual-Pol Parabolic, SPD3-5.2 (31.1dBi) 31.1 Y RadioWaves Radio Waves 3-foot Parabolic, SP3-5.2 (31.4dBi) 31.4 Y RadioWaves Radio Waves 4-foot Dual-Pol Parabolic, SPD4-5.2 (34.
13 PTP 500 Series Bridge – Connectorized Model 13.7 Installation The section covers the generic installation instructions for the Connectorized versions of the PTP 500 Series point-to-point wireless Ethernet bridges. The actual installation procedure will depend on antenna choice, cable choice, required antenna separation etc. 13.7.1 Antenna Choice Section 13.6.3 “Antennas for USA / Canada – 5.8 GHz” and Section 13.6.4 “Suggested Antennas - 5.
13 PTP 500 Series Bridge – Connectorized Model 13.7.4 Miscellaneous supplies The following miscellaneous supplies will be required: • Cable ties, cable cleats – for securing cables • Self-amalgamating tape – to weatherproof the RF connectors • PVC tape – for additional protection of the RF connectors and securing cables 13.7.5 Mounting the Connectorized 500 Series Bridge A Connectorized 500 Series bridge is shipped with the same bracket as supplied with an Integrated unit.
13 PTP 500 Series Bridge – Connectorized Model Tip: Fine antenna alignment can sometimes be achieved by tightening and loosening the bolts on either side of the antenna mounting bracket, rather than trying to turn the whole bracket on the mounting pole. 13.7.8 Aligning Dual Polar Antennas The process for aligning a dual polar antenna is the same as aligning an Integrated unit with an integrated antenna. This procedure is detailed in Section 7.7.11 “Aligning the PTP 500 Series Bridge ODUs”. 13.7.
13 PTP 500 Series Bridge – Connectorized Model Step 13: Complete the installation as detailed below. 13.7.10 Completing the Installation The installation should be completed by checking all mounting nuts bolts and screws, securing all cables and weatherproofing the installation. CAUTION: Finally tightening the antenna mountings may cause the antenna alignment to be altered, due to distortion in the mounting bracket caused by action of tightening.
13 PTP 500 Series Bridge – Connectorized Model 13.7.12 Antenna Connection Weatherproofing Where a cable connects to an antenna or unit from above, a drip loop should be left to ensure that water is not constantly channeled towards the connector. Figure 105 - Forming a Drip Loop All joints should be weatherproofed using self-amalgamating tape.
13 PTP 500 Series Bridge – Connectorized Model 13.8 Additional Lightning Protection The following guidelines should be applied in addition to those described in Section 11 ”Lightning Protection”. 13.8.1 ODU Mounted Outdoors Where the ODU is mounted outdoors and is mounted some distance from the antenna, it is advisable to add additional grounding by utilizing Andrew Assemblies (such as Andrew Type 223158 www.andrew.com) as shown in Figure 107.
13 PTP 500 Series Bridge – Connectorized Model 13.8.2 ODU Mounted Indoors Where the ODU is mounted indoors, lightning arrestors should be deployed where the antenna cables enter the building as shown in Figure 108. Figure 108 - Lightning Arrestor Mounting The lighting arrestors should be ground bonded to the building ground at the point of entry. Motorola recommends Polyphaser LSXL-ME or LSXL lighting arrestors. These should be assembled as show in Figure 109.
14 Data Rate Calculations 14 Data Rate Calculations To aid the calculation of data rate throughput (end to end ethernet throughput assuming 1500 octet ethernet frames), the following plots of throughput verses link range have been produced for all the PTP 500 Series modulation modes, assuming the units are connected using 100 Mbps Ethernet.
14 Data Rate Calculations Figure 111 - QPSK 0.50 Single Payload Figure 112 - QPSK 0.
14 Data Rate Calculations Figure 113 - 16 QAM 0.50 Single Payload Figure 114 - 16 QAM 0.
14 Data Rate Calculations Figure 115 - 64 QAM 0.67 Single Payload Figure 116 - 64 QAM 0.
14 Data Rate Calculations Figure 117 – QPSK 0.50 Dual Payload Figure 118 - QPSK 0.
14 Data Rate Calculations Figure 119 - 16 QAM 0.50 Dual Payload Figure 120 - 16 QAM 0.
14 Data Rate Calculations Figure 121 - 64 QAM 0.67 Dual Payload Figure 122 - 64 QAM 0.
15 AES Encryption Upgrade 15 AES Encryption Upgrade The Motorola PTP 500 Series bridges support link encryption using the NIST approved Advanced Encryption Standard, HFIPS-197 H. This standard specifies AES (Rijndael) as a UT FIPS-approved symmetric encryption algorithm that may be used by U.S. Government organizations (and others) to protect sensitive information. Link Encryption is not available in the standard PTP 500 Series system.
15 AES Encryption Upgrade Figure 123 – AES Software License Key Data Entry Configuring link encryption will necessitate a 500 Series bridge service outage. Therefore it is recommended that the configuration process be scheduled during an appropriate period of low link utilization. Motorola recommends the following process for entering new license keys and minimizing service outage: 1. Open two browsers, one for each end of the link 2.
15 AES Encryption Upgrade 15.1.2 Encryption Mode and Key Entering the license keys only does not initialize AES link encryption. Link encryption can only be enabled via the Configuration or Installation Wizard pages. Motorola recommends that the Configuration page Figure 124 be used to configure AES link encryption. Figure 124 – AES Configuration Data Entry Page Motorola recommends the following process for entering AES link encryption configuration: 1. Open two browsers, one for each end of the link 2.
15 AES Encryption Upgrade 4. At both ends of the link enter ether an 128-bit or 256-bit encryption key. Note the key consists of 32/64 case insensitive hexadecimal characters. The same Key must be entered at both ends of the link. Failure to enter the same key will cause the link to fail. 5. Submit configuration on both ends of the link, but do not reboot. 6. Reboot both ends of the link (Figure 125).
16 Legal and Regulatory Notices 16 Legal and Regulatory Notices 16.1 Important Note on Modifications Intentional or unintentional changes or modifications to the equipment must not be made unless under the express consent of the party responsible for compliance. Any such modifications could void the user’s authority to operate the equipment and will void the manufacturer’s warranty. 16.2 National and Regional Regulatory Notices – PTP 58500 variant 16.2.1 U.S.
16 Legal and Regulatory Notices • Connect the affected equipment to a power outlet on a different circuit from that which the receiver is connected to; • Consult the dealer and/or experienced radio/TV technician for help. • FCC IDs and Industry Canada Certification Numbers are listed below: Where necessary, the end user is responsible for obtaining any National licenses required to operate this product and these must be obtained before using the product in any particular country.
16 Legal and Regulatory Notices The relevant Declaration of Conformity can be found at www.motorola.com/ptp. Is this true?? European Union (EU) Waste of Electrical and Electronic Equipment (WEEE) directive The European Union's WEEE directive requires that products sold into EU countries must have the crossed out trash bin label on the product (or the package in some cases).
16 Legal and Regulatory Notices 16.3 National and Regional Regulatory Notices – PTP 54500 Variant 16.3.1 FCC and Industry Canada (IC) Notification This device complies with FCC Part 15 for the USA and RSS-210 Issue 7 of Industry Canada. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) This device must accept any interference received, including interference that may cause undesired operation.
16 Legal and Regulatory Notices 16.3.2 European Union Notification The PTP 54500 product is a two-way radio transceiver suitable for use in Broadband Wireless Access System (WAS), Radio Local Area Network (RLAN), or Fixed Wireless Access (FWA) systems. It is a Class 1 device and uses operating frequencies that are harmonized throughout the EU member states. This equipment complies with the essential requirements for the EU R&TTE Directive 1999/5/EC and has been tested compliant with EuroNorm EN 301 893.
16 Legal and Regulatory Notices 16.4 Exposure See Section 2 “Avoiding Hazards”.
16 Legal and Regulatory Notices 16.5 Legal Notices 16.5.1 Motorola Inc. End User License Agreement In connection with Motorola’s delivery of certain proprietary software or products containing embedded or pre-loaded proprietary software, or both, Motorola is willing to license this certain proprietary software and the accompanying documentation to you only on the condition that you accept all the terms in this End User License Agreement (“Agreement”).
16 Legal and Regulatory Notices 16.5.1.3 Conditions of Use Any use of the Software and Documentation outside of the conditions set forth in this Agreement is strictly prohibited and will be deemed a breach of this Agreement. 1. Only you, your employees or agents may use the Software and Documentation. You will take all necessary steps to insure that your employees and agents abide by the terms of this Agreement. 2.
16 Legal and Regulatory Notices 16.5.1.4 Title; Restrictions If you transfer possession of any copy of the Software and Documentation to another party outside of the terms of this agreement, your license is automatically terminated. Title and copyrights to the Software and Documentation and any copies made by you remain with Motorola and its licensors.
16 Legal and Regulatory Notices 1.
16 Legal and Regulatory Notices 16.5.1.10 Disclaimer MOTOROLA DISCLAIMS ALL WARRANTIES OF ANY KIND, WHETHER EXPRESS, IMPLIED, STATUTORY, OR IN ANY COMMUNICATION WITH YOU. MOTOROLA SPECIFICALLY DISCLAIMS ANY WARRANTY INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILTY, NONINFRINGEMENT, OR FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE AND DOCUMENTATION ARE PROVIDED “AS IS.
16 Legal and Regulatory Notices 16.5.1.12 U.S. Government If you are acquiring the Product on behalf of any unit or agency of the U.S. Government, the following applies. Use, duplication, or disclosure of the Software and Documentation is subject to the restrictions set forth in subparagraphs (c) (1) and (2) of the Commercial Computer Software – Restricted Rights clause at FAR 52.227-19 (JUNE 1987), if applicable, unless being provided to the Department of Defense.
16 Legal and Regulatory Notices 16.5.1.16 Survival of Provisions The parties agree that where the context of any provision indicates an intent that it survives the term of this Agreement, then it will survive. 16.5.1.17 Entire Agreement This agreement contains the parties’ entire agreement regarding your use of the Software and may be amended only in writing signed by both parties, except that Motorola may modify this Agreement as necessary to comply with applicable laws. 16.5.1.
16 Legal and Regulatory Notices 1. UCD SNMP. Copyright 1989, 1991, 1992 by Carnegie Mellon University, Derivative Work – 1996, 1998-2000, Copyright 1996, 1998-2000 The regents of the University of California All Rights reserved.
16 Legal and Regulatory Notices acknowledgment in the product documentation would be appreciated but is not required. o Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. o The name of the author may not be used to endorse or promote products derived from this software without specific prior written permission.
16 Legal and Regulatory Notices 16.5.2 Hardware Warranty in U.S. Motorola U.S. offers a warranty covering a period of one year from the date of purchase by the customer. If a product is found defective during the warranty period, Motorola will repair or replace the product with the same or a similar model, which may be a reconditioned unit, without charge for parts or labor. 16.5.
17 Specifications 17 Specifications 17.1 System Specifications 17.1.1 Wireless PTP 54500 Variant Radio Technology Specification RF Band 5.470-5.725GHz Channel Selection By intelligent Dynamic Frequency Selection (i-DFS) or manual intervention. Automatic detection on start-up and continual adaptation to avoid interference. Channel size 5, 10 and 15 MHz Transmit Power Varies with modulation mode and settings from -18 dBm to 27 dBm. Modulation Dynamic; adapting between BPSK single and 64 QAM.
17 Specifications 17.1.2 Wireless PTP 58500 Variant Radio Technology Specification RF Band 5.725-5.875GHz By intelligent Dynamic Frequency Selection (i-DFS) or manual intervention Channel Selection Automatic detection on start-up and continual adaptation to avoid interference. Channel size 5, 10 and 15 MHz Transmit Power Varies with modulation mode and settings from -18 dBm to 27 dBm. Modulation Dynamic; adapting between BPSK single and 64 QAM. Antenna Type Integrated: Flat plate antenna.
17 Specifications 17.1.3 Management Management Specification Status Indication Power status Ethernet Link Status Data activity Installation Web server and browser for setup. Audio tone feedback during installation , plus graphical installation tool suitable for laptop and PDA computing devices. Web server for confirmation.
17 Specifications NOTE: Practical Ethernet rates will depend on network configuration, higher layer protocols and platforms used. CAUTION: Over the air throughput will be capped to the rate of the Ethernet interface at the receiving end of the link. 17.1.5 Physical Integrated Specification Dimensions Width 14.5” (370mm), Height 14.5” (370mm), Depth 3.75” (95mm) Weight 11.8 lbs (5.35 Kg) including bracket Connectorized Specification Dimensions Width 12.2” (309mm), Height 12.2” (309mm), Depth 4.
17 Specifications 17.3 7.3 EMC Emissions Compliance 17.3.1 PTP 54500 Variant Region Specification USA CFR 47 Part 15 Class B Canada CSA Std C108.8, 1993 Class B Europe EN55022 CISPR 22 17.3.2 PTP 58500 Variant Region Specification USA CFR 47 Part 15 Class B Canada CSA Std C108.
17 Specifications 17.4 EMC Immunity Compliance Top-level Specification ETSI 301-489. Specification Comment EN 55082-1 Generic EMC and EMI requirements for Europe EN 61000-4-2: 1995 Electro Static Discharge (ESD), Class 2, 8 kV air, 4 kV contact discharge Testing will be performed to ensure immunity to 15kV air and 8kV contact EN 61000-4-3: 1995 ENV50140: 1993 (radiated immunity) 3 V/m EN 61000-4-4: 1995 (Bursts/Transients), Class 4, 4 kV level (power lines AC & DC) Signal lines @ 0.
17 Specifications 17.5 Radio Certifications 17.5.1 PTP 54500 Variant Region Specification (Type Approvals) EU EN301 893 V1.4.1 USA FCC Part 15 E CANADA RSS 210 Issue 7, Annex 9 17.5.2 PTP 58500 Variant 17.6 Region Specification (Type Approvals) USA FCC Part 15.
17 Specifications 17.7 Waterproof IP65 (ODU), IP53 (PIDU Plus) UV Exposure 10 year operational life (UL746C test evidence) System Connections 17.7.
18 FAQs 18 FAQs Can I source and use my own PoE adaptor with the 500 Series bridge? No. The 500 Series bridge uses a non-standard PoE configuration. Failure to use the Motorola supplied Power Indoor Unit could result in equipment damage and will invalidate the safety certification and may cause a safety hazard.
18 FAQs How much power does the 500 Series bridge transmit? At all times the 500 Series bridge operates within country / region specific regulations for radio power emissions. In addition, the 500 Series bridge uses a technique known as Transmit Power Control (TPC) to ensure that it only transmits sufficient radio power such that the other antenna can receive a high quality signal.
19 Glossary 19 Glossary AES Advanced Encryption Standard MIMO Multiple Input Multiple Output ARP Address Resolution Protocol NIST National Institute of Standards and Technology ARQ Automatic Repeat reQuest NLOS non-Line-of-Sight BPSK Binary Phase Shift Keying ODU Outdoor Unit OFDM Orthogonal Frequency Division Multiplex PC IBM Compatible Personal Computer DC DFS Direct Current Dynamic Frequency Selection EIRP Equivalent Isotropically Radiated Power PIDU + EMD Electric Magnetic Dis
20 Index 20 Index Alarm Alignment 73 MIB 65, 173 Mounting 125 32, 54, 62 antenna 159 Antenna 159, 162, 166, 172, 174 Password 132 35 Path Loss 46 Architecture Cable Loss Cables 162, 166 39, 122 Channels 112, 117, 118 Compliance Planning 60, 172, 175 channels Clock Networking 133 radio 2, 4 Reboot 209, 210, 211 Configuration33, 81, 99, 100, 102, 116, 136, 139, 161 36, 45 Properties Radio 129 43 145, 212 134, 136, 141 Recovery 135 Regulatory 165 Repair 24 Connecting
20 Index Unit A1, Linhay Business Park Eastern Road, Ashburton Devon, TQ 13 7UP, UK Telephone Support: +1 877 515-0400 (Worldwide) +44 808 234 4640 (UK) www.motorola.com/ptp 226 MOTOROLA, the stylized M Logo and all other trademarks indicated as such herein are trademarks of Motorola, Inc. ® Reg. US Pat & Tm. Office. All other product or service names are the property of their respective owners. © 2007 Motorola, Inc. All rights reserved.
