The supplied Power Indoor Plus (PIDU Plus PTP 300/500/600 Series) is used to power the ODU. Failure to use the Motorola supplied PIDU could result in equipment damage and will invalidate the safety certification and may cause a safety hazard.
Safety Primary disconnect device The main power supply is the primary disconnect device. External cables Safety may be compromised if outdoor rated cables are not used for connections that will be exposed to the weather. Grounding PTP-SYNC In order to meet the safety requirements for deployment in Australia and New Zealand (AS/NZS 60950-1), the PTP-SYNC unit, if deployed, must be grounded to a Protective Ground in accordance with Local Electrical Regulations.
Version information........................ 2 General information ........................3 Purpose ..........................3 Cross references ........................3 Text conventions ........................4 Contacting Motorola ........................5 Feedback ..........................5 Motorola Point-to-Point ......................5 Wireless Broadband Technical Support telephone numbers ..........5 Reporting problems........................ 7...
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Contents Repair and service ......................... 7 Warranty ..........................8 Security advice..........................9 Warnings, cautions, and notes ....................10 Warnings ..........................10 Cautions ..........................10 Notes ............................ 10 Caring for the environment ....................... 11 In EU countries ........................11 In non-EU countries ......................11 Chapter 1 Product description ..................
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Contents PTP-SYNC unit ........................1-20 PTP-SYNC unit description ....................1-20 PTP-SYNC unit interfaces ....................1-21 PTP-SYNC maximum cable lengths...................1-22 Wireless operation ........................1-23 Time division duplexing ....................1-23 Link mode optimization.....................1-25 Link symmetry........................1-25 OFDM and channel bandwidth ..................1-26 Spectrum management .....................1-27 Adaptive modulation ......................1-28 MIMO ..........................1-29 Intelligent dynamic frequency selection ................1-29 Radar avoidance........................1-30 Security ..........................1-31...
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Contents AES license ........................1-52 Critical security parameters ..................... 1-53 Capacity upgrades ......................1-53 Software upgrade......................1-54 Recovery mode........................1-54 FIPS 140-2 ..........................1-56 FIPS 140-2 capability ......................1-56 FIPS 140-2 mode....................... 1-58 Chapter 2 Planning considerations ................2-1 Spectrum planning........................2-2 Selecting a license for the region code................
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Planning for FIPS 140-2 operation..................2-38 Planning for SNMP operation ...................2-39 Planning for SNMPv3 operation ..................2-41 Chapter 3 Legal information ..................3-1 Motorola Inc. end user license agreement ................3-2 Definitions ...........................3-2 Grant of license ........................3-2 Conditions of use.........................3-3 Title and restrictions ......................3-4 Confidentiality........................3-4...
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Contents Limitation of liability......................3-6 U.S. government ......................... 3-7 Term of license........................3-7 Governing law ........................3-7 Assignment.......................... 3-7 Survival of provisions......................3-8 Entire agreement ........................ 3-8 Third party software ......................3-8 Hardware warranty......................... 3-23 Limit of liability ........................3-24 Chapter 4 Reference information .................
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Contents PTP-SYNC specifications......................4-26 Dimensions and weight .....................4-26 Environmental........................4-26 Electrical ...........................4-27 Timing inputs ........................4-27 GPS/SYNC IN pinout description ..................4-28 Wireless specifications......................4-29 General wireless specifications..................4-29 Licenses and region codes ....................4-36 Available spectrum settings ....................4-44 System threshold, output power and link loss ..............4-62 Data network specifications....................4-76 Ethernet interfaces ......................4-76 System management data .......................4-77...
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Contents Data rate calculations ......................4-114 Data rate defined ......................4-114 Calculation procedure and example ................4-115 Data throughput capacity ....................4-117 Range adjustment curves....................4-128 Chapter 5 Installation ....................5-1 Preparing for standard installations ..................5-2 Preparing and connecting cables....................5-3 Preparing the drop cable ....................
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Contents Fixing the antenna cables ....................5-33 Installing an UltraSync GPS receiver ..................5-34 Preparing for UltraSync installation .................5-34 Connecting the UltraSync unit..................5-35 Checking the complete UltraSync unit installation ............5-36 Installing a PTP-SYNC unit .....................5-37 Preparing for PTP-SYNC installation ................5-37 Mounting the PTP-SYNC unit....................5-38 Connecting up the PTP-SYNC unit..................5-39 Powering up the PTP-SYNC installation ................5-41 Installing a GPS receiver for PTP-SYNC .................5-42...
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Contents Entering a new license key ....................6-15 Task 3: Upgrade software version ..................6-16 Checking the installed software version ................6-16 Saving the system configuration..................6-17 Upgrading to a new software version ................6-18 Task 4: Configure security ...................... 6-21 Configuring AES encryption .....................
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Contents Task 12: Configure RADIUS....................6-87 Configuring RADIUS authentication .................6-87 Task 13: Set up SNMP agent ....................6-90 Configuring generation of SNMPv3 notifications .............6-90 Configuring generation of SNMPv1/2c notifications ............6-99 Task 14: Configure alarms and messages................6-104 Configuring generation of diagnostics alarms ..............6-104 Configuring generation of email messages..............6-106 Task 15: Configure syslog .....................6-108 Configuring system logging (syslog) ................6-108...
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Contents Downloading diagnostic data.................... 7-54 Rebooting the unit ........................7-56 Chapter 8 Troubleshooting ................... 8-1 Test link end hardware ......................8-2 Power LED is off ......................... 8-5 Power LED is flashing ......................8-6 Ethernet LED did not flash 10 times................... 8-7 No Ethernet activity......................
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............Figure 1-1 Typical PTP 600 Series bridge deployment ..............1-4 Figure 1-2 PTP 600 Series integrated ODU (front and rear views) ..........1-7 Figure 1-3 PTP 600 Series connectorized ODU (front and rear views).........1-7 Figure 1-4 ODU interfaces ......................1-8...
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List of Figures Figure 2-1 RTTT channel avoidance example (5.8 GHz UK) ............2-4 Figure 2-2 Rolling sphere method to determine the lightning protection zones ......2-15 Figure 2-3 Grounding cable minimum bend radius and angle............ 2-17 Figure 2-4 Grounding and lightning protection on mast or tower ..........2-18 Figure 2-5 Grounding and lightning protection on mast or tower (with E1 or T1).....
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List of Figures Figure 4-18 PTP 49600 available spectrum in the 5 MHz channel bandwidth ......4-53 Figure 4-19 PTP 54600 available spectrum in 30 MHz channel bandwidth .......4-54 Figure 4-20 PTP 54600 available spectrum in 15 MHz channel bandwidth .......4-54 Figure 4-21 PTP 54600 available spectrum in 10 MHz channel bandwidth .......4-55 Figure 4-22 PTP 54600 available spectrum in 5 MHz channel bandwidth .........4-55 Figure 4-23 PTP 58600 available spectrum in 30 MHz channel bandwidth .......4-56...
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List of Figures Figure 5-10 PIDU Plus drip loop configuration................5-26 Figure 5-11 Forming a drip loop ....................5-29 Figure 5-12 Weatherproofing the antenna connections.............. 5-30 Figure 5-13 Grounding points for antenna cables ..............5-31 Figure 5-14 Lightning arrestor mounting ................... 5-32 Figure 5-15 Polyphaser assembly ....................
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List of Figures Figure 6-18 Security Configuration Wizard page................6-26 Figure 6-19 Step 1: Enter Key of Keys page ................6-27 Figure 6-20 Step 2: TLS Private Key and Public Certificate page ..........6-28 Figure 6-21 Step 3: User Security Banner page .................6-29 Figure 6-22 Step 4: Random Number Entropy Input page ............6-30 Figure 6-23 Step 5: Enter The Wireless Link Encryption Key page..........6-31 Figure 6-24 Step 6: HTTP and Telnet Settings page..............6-32...
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List of Figures Figure 8-3 PTP LPU test points and PWR LED ................8-8 Figure 8-4 Drop cable tester (front and back views) ..............8-13 Figure 8-5 GPS synchronization unit...................8-15 Figure 8-6 PIDU Plus recovery switch location ................8-21 Figure 8-7 Recovery Image Warning page..................8-22 Figure 8-8 Recovery Options page ....................8-22 phn-0896_012v000 Jul 2010...
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Table 2-3 HTTPS/TLS security material ..................2-37 Table 2-4 Permitted character set for SNMPv3 passphrases ............. 2-43 Table 4-1 Standard PTP 600 Series bridge components ............... 4-2 Table 4-2 Connectorized PTP 600 Series bridge components ............4-5 Table 4-3 PTP-SYNC installation components................4-8 Table 4-4 GPS receiver installation components................
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List of Tables Table 4-16 Sectored antennas for deployment in USA/Canada – 5.8 GHz ........4-25 Table 4-17 PTP-SYNC unit physical specifications..............4-26 Table 4-18 PTP-SYNC unit environmental specifications............4-26 Table 4-19 PTP-SYNC unit electrical specifications ..............4-27 Table 4-20 PTP-SYNC unit timing specifications - GPS/SYNC IN (RJ-45) ........4-27 Table 4-21 PTP-SYNC unit timing specifications - 1PPS IN (SMA) ..........4-28 Table 4-22 GPS/SYNC IN port pinouts ..................4-28 Table 4-23 PTP 25600 RF specifications ..................4-29...
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List of Tables Table 4-50 PTP 58600 - TDM mode - threshold, power and link loss ......... 4-73 Table 4-51 PTP 59600 - IP mode - threshold, power and link loss ..........4-74 Table 4-52 PTP 59600 - TDM mode - threshold, power and link loss ......... 4-75 Table 4-53 PTP 600 Ethernet bridging specifications..............
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List of Tables Table 4-84 PTP 49600 examples of regulatory limits..............4-103 Table 4-85 PTP 54600 examples of regulatory limits..............4-103 Table 4-86 PTP 58600 examples of regulatory limits..............4-104 Table 4-87 PTP 59600 examples of regulatory limits..............4-106 Table 4-88 Throughput for PTP 600 Full, link symmetry 1:1, link optimization IP ....4-118 Table 4-89 Throughput for PTP 600 Full, link symmetry 1:1, link optimization TDM ....4-120 Table 4-90 Throughput for PTP 600 Full, link symmetry 2:1, link optimization = IP ....4-122 Table 4-91 Throughput for PTP 600 Full, link symmetry 2:1, link optimization = TDM...
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List of Tables Table 6-22 Step 2: SNMP Trap Configuration attributes (for SNMPv1/2c) ......6-102 Table 6-23 Email Configuration attributes................6-107 Table 6-24 Syslog Configuration attributes ................6-109 Table 6-25 Web-Based Management attributes ................ 6-111 Table 7-1 Procedures performed from each menu option............. 7-4 Table 7-2 System Summary attributes ..................
Revision history Revision history Version information The following shows the issue status of this document. Document Date of issue Remarks issue 008v000 Dec 2008 System release 600-08-00 008v004 Apr 2009 System release 600-08-01 008v005 May 2009 System release 600-08-02 008v007 Jul 2009 System release 600-08-03 009v000...
It is recommended that all personnel engaged in such activities be properly trained. Motorola disclaims all liability whatsoever, implied or express, for any risk of damage, loss or reduction in system performance arising directly or indirectly out of the failure of the customer, or anyone acting on the customer's behalf, to abide by the instructions, system parameters, or recommendations made in this document.
General information Text conventions The following conventions are used in the Motorola Point-To-Point documents to represent keyboard input text, screen output text and special key sequences. Input Characters typed in at the keyboard are shown like this. Output Messages, prompts, file listings, directories, utilities, and environmental variables that appear on the screen are shown like this.
Contacting Motorola Contacting Motorola Feedback We appreciate feedback from the users of our documents. This includes feedback on the structure, content, accuracy, or completeness of our documents. Send feedback to support.ptp@motorola.com. Motorola Point-to-Point Motorola, Inc., 1303 E. Algonquin Road, Postal Address:...
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Contacting Motorola Region and country Support telephone number Denmark 043682114 France 0157323434 Germany 06950070204 Italy 0291483230 Lithuania 800 030 828 Netherlands 0202061404 Norway 24159815 Portugal 0217616160 Spain 912754787 Russia 810 800 228 41044 Saudi Arabia 800 844 5345 South Africa...
1. Search this document and the software release notes of supported releases. 2. Visit the Motorola website at http://www.motorola.com/ptp. 3. Ask for assistance from the Motorola product supplier. 4. Gather information from affected units such as: The IP addresses and MAC addresses...
Contacting Motorola Warranty Motorola’s standard hardware warranty is for one (1) year from date of shipment from Motorola or a Motorola Point-to-Point Distributor. Motorola warrants that hardware will conform to the relevant published specifications and will be free from material defects in material and workmanship under normal use and service.
Security advice Security advice Motorola systems and equipment provide security parameters that can be configured by the operator based on their particular operating environment. Motorola recommends setting and using these parameters following industry recognized security practices. Security aspects to be considered are protecting the confidentiality, integrity, and availability of information and assets.
Warnings, cautions, and notes Warnings, cautions, and notes The following describes how warnings and cautions are used in this document and in all documents of this Motorola document set. Warnings Warnings precede instructions that contain potentially hazardous situations. Warnings are used to alert the reader to possible hazards that could cause loss of life or physical injury.
European Union (EU) Directive 2002/96/EC Waste Electrical and Electronic Equipment (WEEE) Do not dispose of Motorola equipment in landfill sites. In the EU, Motorola in conjunction with a recycling partner ensures that equipment is collected and recycled according to the requirements of EU environmental law.
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Caring for the environment phn-0896_012v000 Jul 2010 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
2.5 GHz, 4.5 GHz, 4.8 GHz and 4.9 GHz, and in the unlicensed bands 5.4 GHz (ETSI Band B), 5.8 GHz (ETSI Band C and FCC ISM band) and 5.9 GHz. Users must ensure that the PTP 600 Series complies with local operating regulations.
Typical deployment The PTP 600 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).
Figure 1-1 Typical PTP 600 Series bridge deployment Product variants Frequency variants The PTP 600 Series has been developed to operate within license exempt frequency bands as well as the licensed 2.5 GHz band in the USA. The frequency variants are listed in Table 1-1.
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User Guide: PTP 600 Series Overview Variant Region Frequency Variable Channel Channel Coverage Bandwidth Raster US Federal 4710-4940 MHz 5, 10, 15, 20, MHz 5 MHz 48600 US Federal 4710-5000 MHz 5, 10, 15, 20, MHz 5 MHz Extended NTIA...
Overview Chapter 1 Product description System components Each end of the link consists of: • Outdoor Unit (ODU): An integrated (or connectorized) outdoor transceiver unit containing all the radio and networking electronics. • PIDU Plus: An indoor connection box containing a mains power supply, status indicators and network connection port.
Outdoor unit (ODU) Chapter 1 Product description Connectorized variant The connectorized ODU is designed to provide the system integrator and installer with the ability to provide extra capability to cope with very difficult radio links compared to the integrated model. This allows the use of externally mounted antennas that have higher gains than provided by the integrated antenna.
User Guide: PTP 600 Series Outdoor unit (ODU) Connectorized ODU antenna interfaces The connectorized ODU also has interfaces to connect to an external antenna (Figure 1-5) via a cable of type LMR100, LMR200, LMR300, LMR400 or LMR600. The ‘V’ interface is for vertical polarization and the ‘H interface is for horizontal polarization.
Outdoor unit (ODU) Chapter 1 Product description Network connection The network connection to a PTP 600 Series is made via a 1000BaseT Ethernet connection. Power is provided to the ODU over the 1000BaseT Ethernet connection using a patented non-standard powering technique.
RJ45 connectors. Refer to Cabling and lightning protection on page 1-16. The ODU for the PTP 600 Series should only be deployed using the supplied PIDU Plus PTP 300/500/600 Series. CAUTION Care should be taken not to connect equipment other than an ODU, LPU or PTP-SYNC for the PTP 600 Series to a PIDU Plus ODU port, as equipment damage may occur.
Powered indoor unit (PIDU Plus) Chapter 1 Product description Table 1-3 PIDU Plus interfaces Interface Function 100-240V 47-63Hz 1.8A Mains power input (Figure 1-8). DC In Alternative DC power supply input. Refer to Redundancy and alternative powering configurations on page 1-13. DC Out DC power output to a second PIDU Plus.
User Guide: PTP 600 Series Powered indoor unit (PIDU Plus) Redundancy and alternative powering configurations The PTP 600 Series can be powered from an external DC source and can be provided with power supply redundancy as follows: • External DC supply only...
User Guide: PTP 600 Series Powered indoor unit (PIDU Plus) Remote LEDs and recovery switch The 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.
The amount of lightning protection is dependent on regulatory requirements and the end user requirements. The standard ODU for the PTP 600 Series is fitted with surge limiting circuits and other features to minimize the risk of damage due to nearby lightning strikes.
User Guide: PTP 600 Series Cabling and lightning protection Indoor connections The CAT5e cable that connects the PIDU Plus to the network equipment must meet the screening requirements specified in Cable and connector specifications on page 4-16. CAUTION The connected network equipment must feature screened RJ45 connectors and must be connected to ground, otherwise the PIDU Plus will not be grounded.
Chapter 1 Product description Lightning protection units (LPUs) Separate Ethernet surge suppressors (lightning protection units) must be installed and grounded. Lightning protection units can be sourced from Motorola Point-to-Point distributors or solutions providers. LPU double end kit The LPU double end kit (Figure 1-15) is required for ODU drop cables.
User Guide: PTP 600 Series Cabling and lightning protection LPU single end kit The LPU single end kit (Figure 1-16) is required for GPS drop cables, when GPS is the timing reference source for PTP-SYNC (optional). The LPU is installed near the building entry point.
PTP-SYNC unit Chapter 1 Product description PTP-SYNC unit PTP-SYNC unit description The PTP-SYNC unit (Figure 1-17) is an optional component. It is required when TDD synchronization is implemented using PTP-SYNC. It measures the difference between the TDD frame timing and a 1 Hz timing reference, and signals this time difference to the ODU.
Function GPS/SYNC IN Input from GPS receiver module. SYNC OUT Output to daisy-chained PTP-SYNC units. Input for software upgrades. Contact Motorola for instructions. 1PPS IN Coaxial alternative to GPS/SYNC IN. Peak input voltage must not exceed 5 V. LED bank...
PTP-SYNC unit Chapter 1 Product description Table 1-6 PTP-SYNC indicator LEDs Indicator Function Description No GPS satellite data being received at the GPS/SYNC IN port. On steady or blink GPS satellite data being received. SYNC No data being received at the SYNC OUT port.
Wireless operation Time division duplexing TDD cycle PTP 600 series links operate using Time Division Duplexing (TDD). PTP 600 uses a TDD cycle in which the ODUs alternately transmit and receive TDD bursts. The TDD cycle is illustrated in Figure 1-19.
Chapter 1 Product description Channel selection The PTP 600 series links are capable of transmitting and receiving on the same channel or on different channels. In other words, the slave-master direction may use a different channel from the master-slave direction. Independent selection of transmit and receive frequencies can be useful in planned networks or for countering interference.
2:1 The capacity in the direction Master to Slave is twice that of the direction Slave to Master. The PTP 600 series achieves this by setting the Burst Duration of the Master to twice that of the Slave. This mode is not available when TDD synchronization is enabled.
The PTP 600 series achieves this by increasing (or decreasing) the duration of the Transmit Burst in a given link direction as the offered level of network traffic increases (or decreases) in this same direction.
Spectrum management measurements The PTP 600 Series performs two mean signal measurements per TDD cycle, per channel. This mean measurement represents the mean received signal power for the 40 microseconds measurement period.
Adaptive modulation The PTP 600 series can transport data over the wireless link using a number of different modulation modes ranging from 256QAM 0.81 to BPSK 0.63. For a given channel bandwidth and TDD frame structure, each modulation mode transports data at a fixed rate.
1-28. Intelligent dynamic frequency selection The PTP 600 series uses an interference mitigation technique known as Intelligent Dynamic Frequency Selection (i-DFS). Both the PTP 600 Master and PTP 600 Slave continually monitor for interference on all channels and then select the best frequency of operation.
Wireless operation Chapter 1 Product description Radar avoidance Radar avoidance requires that equipment used in the region: • Detects interference from other systems and avoids co-channel operation with these systems, notably radar systems. • Provides a uniform loading of the spectrum across all devices, that is, fixed frequency operation is not allowed.
Wireless operation Security The Motorola PTP 600 Series supports optional encryption for data transmitted over the wireless link. The encryption algorithm used is the Advanced Encryption Standard (AES) with 128-bit and 256-bit key size. AES is a symmetric encryption algorithm approved by U.S.
For help with planning networks, refer to Chapter 2 Planning considerations, or contact your Motorola distributor or re-seller. Synchronized networks TDD synchronization can be used to relax constraints on the frequency planning of PTP networks. Synchronization has the following benefits: •...
User Guide: PTP 600 Series Wireless operation Each synchronized unit is assigned to one of two phases. A master ODU can be assigned to either phase. A slave ODU must be assigned to a different phase from the associated master ODU.
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Wireless operation Chapter 1 Product description Timing references for use with PTP-SYNC PTP-SYNC requires an external timing reference in all but the simplest networks. Up to ten PTP-SYNCs can be connected in a chain to share the timing signal from one timing reference.
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User Guide: PTP 600 Series Wireless operation Advantages of PTP-SYNC over UltraSync PTP-SYNC has several advantages over the UltraSync solution: • PTP-SYNC does not require individual GPS receivers, nor must they be located close to the ODUs. This reduces the complexity and the cost of the installation on the mast.
Customer network Transparent Ethernet service The PTP 600 Series provides an Ethernet service between the Ethernet port at a local ODU and the Ethernet port at an associated remote ODU. The Ethernet service is based on conventional layer two transparent bridging, and is equivalent to the Ethernet Private Line (EPL) service defined by the Metro Ethernet Forum (MEF).
Ethernet bridging Quality of service for bridged Ethernet traffic The PTP 600 Series supports eight traffic classes for Ethernet frames queued for transmission over the wireless link. Ethernet frames are classified by inspection of the Ethernet priority code point in the outermost VLAN tag.
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Ethernet bridging Chapter 1 Product description VLAN membership The management agent can be configured to transmit and receive either untagged, priority-tagged, C-tagged (IEEE 802.1Q) or S-tagged (IEEE 801.ad) frames. S-tagged frames must be single tagged, in other words, an S-tag with no encapsulated C-tag. The VLAN ID can be 0 (priority tagged) or in the range 1 to 4094.
Wireless link down alert The PTP 600 Series provides an optional indication of failure of the wireless link by means of a brief disconnection of the Copper data port or the Fiber data port. The Wireless link down alert can be used to trigger protection switching by Spanning Tree Protocol (STP) or Ethernet Automatic Protection Switching (EAPS) in a redundant network.
Ethernet bridging Chapter 1 Product description Figure 1-20 Protocol layers between Ethernet and wireless interfaces Ethernet Port Wireless Port Media Access Method MAC Relay Entity Independent Functions Media Access Method Dependent Convergence Functions PTP Medium Access Method PTP Security Media Access Method IEEE 802.3 (Optional) Specific Functions...
User Guide: PTP 600 Series Telecoms circuits Telecoms circuits The PTP 600 link provides native support for one or two E1 links, or one or two T1 links. The link relays unstructured E1 or T1 data and provides accurate timing transfer.
Telecoms circuits Chapter 1 Product description Further reading Installation details are provided in Installing an E1 or T1 interface on page 5-49. E1/T1 circuits are configured using the web pages described in Updating wireless configuration on page 6-50 Configuring telecoms circuits on page 6-68.
User Guide: PTP 600 Series System management System management Management agent PTP 600 equipment is managed through an embedded management agent. Management workstations, network management systems or PCs can be connected to this agent using standard management protocols multiplexed with user traffic at the Ethernet data port.
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System management Chapter 1 Product description The web-based management interfaces provide comprehensive web-based fault, configuration, performance and security management functions organized into the following web-pages and groups: • Home: The Home web-page reports Wireless Link Status and basic information needed to identify the link. The Home page additionally lists all active alarm conditions •...
User Guide: PTP 600 Series System management NOTE The PTP 600 has no default public key certificate, and Motorola is not able to generate private keys or public key certificates for specific network applications. User account management PTP 600 allows a network operator to configure a policy for login attempts, the period of validity of passwords and the action taken on expiry of passwords.
User Guide: PTP 600 Series System management SNMPv3 security SNMP Engine ID PTP 600 supports three different formats for SNMP Engine ID: • MAC address • IP address • Configurable text string SNMPv3 security configuration is re-initialized when the SNMP Engine ID is changed.
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System management Chapter 1 Product description Access to critical security parameters The SNMPv3 management interface does not provide access to critical security parameters (CSPs) of PTP 600. It is not possible to read or modify AES keys used to encrypt data transmitted at the wireless interface. Neither is it possible to read or modify security parameters associated with TLS protection of the web-based management interface.
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User Guide: PTP 600 Series System management The default user is created with a view of the entire MIB, requiring initial authentication for SET operations. There is no access for template users. NOTE VACM grants access for requests sent with more than the configured security level.
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System management Chapter 1 Product description Web-based security configuration is re-initialized when any of the following occurs: • All ODU configuration data is erased. • The SNMP Engine ID Format has been changed. • The SNMP Engine ID Format is IP Address and the IP Address has been changed. •...
User Guide: PTP 600 Series System management System logging (syslog) PTP 600 supports the standard syslog protocol to log important events. The protocol complies with RFC 3164. PTP 600 reports syslog event notification messages in the following families: • Local log •...
PTP 600 provides optional encryption using the Advanced Encryption Standard (AES). Encryption is not available in the standard PTP 600 system. AES upgrades are supplied as an access key purchased from your Motorola Point-to- Point distributor or solutions provider. The access key authorizes AES operation for one ODU.
Zeroize CSPs option in Recovery mode. Capacity upgrades Capacity upgrades are supplied as an access key purchased from your Motorola Point- to-Point distributor or solutions provider. The upgrade is applied by entering an access key together with the MAC address of the target ODU into the PTP License Key Generator web page, which may be accessed from http://www.motorola.com/ptp/support.
SNMP interface. PTP 600 software images are digitally signed, and the ODU will accept only images that contain a valid Motorola PTP digital signature. The ODU always requires a reboot to complete a software upgrade. NOTE Obtain the application software and this user guide from the support website BEFORE warranty expires.
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User Guide: PTP 600 Series System management Recovery mode options Options in recovery mode are as follows: • Load new main application software. • Reset all configuration data to factory default. This option resets IP and Ethernet configuration, and erases (zeroizes) critical security parameters.
The ODU will also have compatible hardware security if the part number suffix is earlier and PTP 600 Hardware Security Upgrade has been applied. The Hardware Security Upgrade Kit is available as Motorola part number WB3593AA. Units with compatible hardware security have tamper-evident labels fitted as shown in...
User Guide: PTP 600 Series FIPS 140-2 Figure 1-22 Tamper evident label on side edge of ODU Figure 1-23 Tamper evident label on top edge of ODU The ODU will have hardware security compatible with FIPS 140-2 if the hardware version displayed on the Status page contains the string ‘FPS’, as shown in...
FIPS 140-2 Chapter 1 Product description Validated software image FIPS validated software images are indicated by a prefix to the file name, for FIPS- example: . The general features of a FIPS validated software FIPS-PTP600-09-01.DLD2 image are identical to those of the standard image with the same version number. For example, is equivalent to apart from the...
User Guide: PTP 600 Series FIPS 140-2 FIPS operational mode alarm The FIPS operational mode alarm indicates that the unit is FIPS 140-2 capable, but has not been configured correctly for FIPS 140-2 operation. The FIPS operational mode alarm appears as shown in Figure 1-26.
Spectrum planning Chapter 2 Planning considerations Spectrum planning Each frequency variant has specific licensing restrictions that affect frequency range, radar avoidance and channel bandwidth usage. Selecting a license for the region code Ensure the link is configured to conform to local regulatory requirements by installing License Keys for the correct region code.
User Guide: PTP 600 Series Spectrum planning Frequency selection Choose a method of frequency selection. The choice depends upon whether or not the region mandates radar detection. Regions without mandatory radar detection In regions that do not mandate DFS (Radar Detection), the frequencies may be configured symmetrically or asymmetrically (different transmit and receive frequencies).
Spectrum planning Chapter 2 Planning considerations Radar avoidance Ensure that the link can operate without using any barred channels. Where regulatory restrictions apply to certain channels, these channels are barred. RTTT avoidance may be necessary in all channel bandwidths. The number of channels barred is dependant on the channel raster selected.
User Guide: PTP 600 Series Spectrum planning Variable channel bandwidth operation Select the Channel Bandwidth and Lower Center Frequency for the link. The selection of Channel Bandwidth depends upon the PTP 600 frequency variant: • For PTP 25600, PTP 45600, PTP 54600, PTP 58600 and PTP 59600, Channel Bandwidth may be 30, 15, 10 or 5 MHz.
Site planning Chapter 2 Planning considerations Site planning ODU site selection When selecting a site for the ODU, consider the following factors: • It should not be possible for people to stand or walk in front of the antenna. • Height and location to achieve the best radio path.
User Guide: PTP 600 Series Site planning PTP-SYNC site selection If PTP-SYNC is to be installed, consider the following factors when selecting a site: • Indoor location, or outdoor in a weatherproofed cabinet, with no possibility of condensation. • Accessibility for viewing status indicators.
Chapter 2 Planning considerations Calculation of lateral force The PTP 600 Series, with or without the integral antenna, is essentially a flat structure and so the magnitude of the lateral force can be estimated from: Force (in pounds) = 0.0042 . A . v Where A is the surface area in square feet and v is the wind speed in miles per hour.
The structure and mounting brackets of the PTP 600 Series are capable of withstanding wind speeds up to 242 kph (151 mph). Ensure that the structure to which the PTP 600 Series is fixed to is also capable of withstanding the prevalent wind speeds and loads.
The PTP 600 Series will operate at ranges from 100 m (330 ft) to 200 km (124 miles), within 3 modes: 0-40km (0-25 miles), 0-100km (0-62 miles) and 0-200km (0-124 miles).
User Guide: PTP 600 Series Link planning Using PTP Link Planner for synchronized networks TDD synchronization should be planned using Link Planner. This will provide the necessary TDD Frame parameter values which are required to complete a Link Planner User Guide synchronized installation.
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Link planning Chapter 2 Planning considerations For minimum error rates on TDM links, the maximum modulation mode should be limited to 64QAM 0.75. 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.
Link planning When to use the connectorized PTP 600 antennas The majority of radio links can be successfully deployed with the PTP 600 Series. It should only be necessary to use external antennas where the Link Planner indicates marginal performance for a specific link, for example when the link is heavily obscured by dense woodland on an NLOS link or extremely long LOS links (>80km or >50...
The actual degree of protection required depends on local conditions and applicable local regulations. Motorola recommends that PTP 600 installation is contracted to a professional installer. WARNING Electro-magnetic discharge (lightning) damage is not covered under warranty.
NOTE Where an installation already has, or requires the use of a Master Ground R56: Standards And Bar then the requirements of Motorola specification Guidelines For Communication Sites (68P81089E50) take precedence over those in this guide. This specification is supplied on the PTP 600 CD-ROM.
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Grounding and lightning protection Chapter 2 Planning considerations Basic requirements The following basic protection requirements must be implemented: • The equipment (ODU or GPS receiver for PTP-SYNC) must be in ‘Zone B’ (see Lightning protection zones on page 2-14). • A lightning protection unit (LPU) must be installed within 600 mm (24 in) of the point at which the drop cable enters the building or equipment room.
User Guide: PTP 600 Series Grounding and lightning protection Figure 2-3 Grounding cable minimum bend radius and angle Radius not less than 203 mm (8 in) Angle not less than 90° ODU requirements The following ODU protection requirements must be implemented: •...
Grounding and lightning protection Chapter 2 Planning considerations • If the tower is greater than 61 m (200 ft in height, an additional grounding kit must be installed at the tower midpoint. Additional ground kits must be installed as necessary to reduce the distance between ground kits to 61 m (200 ft) or less. •...
Grounding and lightning protection Chapter 2 Planning considerations Protection requirements for a wall installation If the ODU is to be mounted on the wall of a building, then in addition to the general protection requirements (above), the following requirements must be observed: •...
Grounding and lightning protection Chapter 2 Planning considerations Protection requirements on a high rise building If the ODU is to be mounted on a high rise building, it is likely that cable entry is at roof level (Figure 2-8) and the equipment room is several floors below (Figure 2-9).
Grounding and lightning protection Chapter 2 Planning considerations Protection inside a high rise building The following protection requirements must be observed inside multi-story or high rise buildings (Figure 2-9): • The drop cable shield must be bonded to the building grounding system at the entry point to the building.
User Guide: PTP 600 Series Grounding and lightning protection Connecting to the grounding conductor Figure 2-10 Figure 2-11 illustrate the techniques employed to provide equipment grounding in high rise buildings. A steel component of the building can be used as a grounding conductor, provided it is part of the structural building steel and is effectively grounded.
Grounding and lightning protection Chapter 2 Planning considerations Figure 2-11 Grounding in a high rise building – building steel available phn-0896_012v000 Jul 2010 2-26 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
Configuration options for TDD synchronization Configuration options for TDD synchronization This section describes the different configuration options that may be used for implementing TDD synchronization in the PTP 600 Series. Schematic diagrams are included. TDD synchronization configurations supported The PTP 600 supports the following TDD synchronization configurations: •...
Configuration options for TDD synchronization Chapter 2 Planning considerations Single link configuration with UltraSync Each link requires an UltraSync GPS receiver, connected at the master ODU (Figure 2-12). The wireless configuration settings are: • Master Slave Mode = ‘Master’. • TDD Sync Device = ‘UltraSync’.
User Guide: PTP 600 Series Configuration options for TDD synchronization Single link configuration with PTP-SYNC Each link requires one PTP-SYNC unit connected to the master ODU and one compatible GPS receiver. Use this configuration where a site contains only one TDD master ODU.
Configuration options for TDD synchronization Chapter 2 Planning considerations Cluster with PTP-SYNC and GPS receiver Each link requires one PTP-SYNC unit. Each site requires one compatible GPS receiver. Collocated PTP-SYNC units are connected together in a daisy-chain. Between two and ten PTP-SYNCs may be chained in this way. Use this configuration where a site contains collocated TDD master ODUs in an extended network and where multiple sites have TDD master ODUs (Figure...
User Guide: PTP 600 Series Configuration options for TDD synchronization Cluster with PTP-SYNC and no GPS receiver Each link requires one PTP-SYNC unit. PTP-SYNC units are connected together in a daisy-chain. Between two and ten PTP-SYNCs may be chained in this way. One ODU is designated as a cluster timing master.
Mounting options for the PTP-SYNC GPS receiver Chapter 2 Planning considerations Mounting options for the PTP-SYNC GPS receiver If PTP-SYNC is the selected TDD synchronization method, with a GPS receiver as the timing reference source, then the GPS receiver must be mounted as described in this section.
User Guide: PTP 600 Series Mounting options for the PTP-SYNC GPS receiver Mounting the GPS receiver module on the equipment building If mounting the GPS receiver for PTP-SYNC on the equipment building (Figure 2-16), select a position on the wall that meets the following requirements: •...
Mounting options for the PTP-SYNC GPS receiver Chapter 2 Planning considerations Mounting the GPS receiver module on a metal tower or mast If mounting the GPS receiver module on a metal tower or mast (Figure 2-17), select a position that meets the following requirements: •...
User Guide: PTP 600 Series Data network planning Data network planning Management mode Decide how the PTP 600 will be managed. In the default in-band management mode, the management agent can be reached from the Ethernet port at the local ODU, and (assuming that the wireless link is established) from the Ethernet port at the remote ODU.
Data network planning Chapter 2 Planning considerations IP interface Choose an IP address for the IP interface of the ODU management agent. The IP address must be unique and valid for the connected network segment and VLAN. Find out the correct subnet mask and gateway IP address for this network segment and VLAN.
User Guide: PTP 600 Series Security planning Security planning Planning for HTTPS/TLS operation Before starting to configure HTTPS/TLS operation, ensure that the cryptographic material listed in Table 2-3 is available. Table 2-3 HTTPS/TLS security material Item Description Quantity required Key of Keys An encryption key generated using a Two per link.
Security planning Chapter 2 Planning considerations Item Description Quantity required Wireless An encryption key generated using a One per link. The Link cryptographic key generator. The key same encryption key Encryption length is dictated by the selected AES is required at each Key for AES encryption algorithm (128 or 256 bits).
User Guide: PTP 600 Series Security planning CAUTION Configure all of the above correctly to ensure that PTP 600 is operating in compliance with the FIPS 140-2 validation. Planning for SNMP operation Supported notifications The supported notifications are as follows: •...
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Security planning Chapter 2 Planning considerations Supported alarms PTP 600 supports the following diagnostic alarms: • Region Code • Install Status • Install Arm State • Unit Out Of Calibration • Incompatible Region Codes • Incompatible Master And Slave • Ethernet Configuration Mismatch •...
User Guide: PTP 600 Series Security planning Enabling SNMP Enable the SNMP interface for use by configuring the following attributes in the Remote Management page: • SNMP State (default disabled) • SNMP Version (default SNMPv1/2c) • SNMP Port Number (default 161)
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Security planning Chapter 2 Planning considerations Web-based management of SNMPv3 security Initial configuration of SNMPv3 security is available only to HTTP or HTTPS/TLS user accounts with security role of Security Officer. Identify the minimum security role of HTTP or HTTPS/TLS user accounts that will be permitted access for web-based management of SNMPv3 security.
User Guide: PTP 600 Series Security planning AES link encryption is only available to users who have purchased an appropriate license key. If authentication or authentication and privacy protocols are required, identify passphrases for each protocol for each SNMP user. It is considered good practice to use different passphrases for authentication and privacy.
Any such modifications could void the user’s authority to operate the equipment and will void the manufacturer’s warranty. The following topics are described in this chapter: • Motorola Inc. end user license agreement on page • Hardware warranty on page 3-23 •...
The word “Documentation” refers to electronic or printed manuals and accompanying instructional aids licensed to you. The word “Product” refers to Motorola’s MOTOwi4™ fixed wireless broadband devices for which the Software and Documentation is licensed for use.
If the Documentation is in electronic form, you may print out 1 copy, which then may not be copied. With regard to the copy made for backup or archival purposes, you agree to reproduce any Motorola copyright notice, and other proprietary legends appearing thereon. Such copyright...
Title and copyrights to the Software and Documentation and any copies made by you remain with Motorola and its licensors. You will not, and will not permit others to: (i) modify, translate, decompile, bootleg, reverse engineer, disassemble, or extract the inner workings of the Software or Documentation, (ii) copy the look-and-feel or functionality of the Software or Documentation;...
Except as required in “Conditions of use”, you will not, during the term of this Agreement or thereafter, use any trademark of Motorola, or any word or symbol likely to be confused with any Motorola trademark, either alone or in any combination with another word or words.
THE TOTAL LIABILITY OF MOTOROLA UNDER THIS AGREEMENT FOR DAMAGES WILL NOT EXCEED THE TOTAL AMOUNT PAID BY YOU FOR THE PRODUCT LICENSED UNDER THIS AGREEMENT. IN NO EVENT WILL MOTOROLA BE LIABLE IN ANY WAY FOR INCIDENTAL, CONSEQUENTIAL, INDIRECT, SPECIAL OR...
Agreement by you. Within 30 days after termination of this Agreement, you will certify to Motorola in writing that through your best efforts, and to the best of your knowledge, the original and all copies, in whole or in part, in any form, of the...
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. Third party software The software may contain one or more items of Third-Party Software supplied by other third-party suppliers.
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User Guide: PTP 600 Series Motorola Inc. end user license agreement notice appears in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of CMU and The Regents of the University of California not be used in advertising or publicity pertaining to distribution of the software without specific written permission.
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User Guide: PTP 600 Series Motorola Inc. end user license agreement • Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
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Motorola Inc. end user license agreement Chapter 3 Legal information PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT...
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User Guide: PTP 600 Series Motorola Inc. end user license agreement Author: Bernhard Penz Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: • Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
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Motorola Inc. end user license agreement Chapter 3 Legal information 4. The names “OpenSSL Toolkit” and “OpenSSL Project” must not be used to endorse or promote products derived from this software without prior written permission. For written permission, please contact openssl-core@openssl.org.
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User Guide: PTP 600 Series Motorola Inc. end user license agreement If this package is used in a product, Eric Young should be given attribution as the author of the parts of the library used. This can be in the form of a textual message at program startup or in documentation (online or textual) provided with the package.
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Motorola Inc. end user license agreement Chapter 3 Legal information Permission is hereby granted to use, copy, modify, and distribute this source code, or portions hereof, for any purpose, without fee, subject to the following restrictions: 1. The origin of this source code must not be misrepresented.
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User Guide: PTP 600 Series Motorola Inc. end user license agreement 4. The name of the author may not be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE AUTHOR “AS IS” AND ANY EXPRESS OR...
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Motorola Inc. end user license agreement Chapter 3 Legal information Foundation, Inc. and its contributors. 4. Neither the name of The NetBSD Foundation nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission.
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User Guide: PTP 600 Series Motorola Inc. end user license agreement ------------------------------------------------------------------------------ Copyright (C) 1995,1996,1997,1998 Lars Fenneberg <lf@elemental.net> Permission to use, copy, modify, and distribute this software for any purpose and without fee is hereby granted, provided that this copyright and permission notice...
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Motorola Inc. end user license agreement Chapter 3 Legal information THIS SOFTWARE IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE REGENTS OF THE UNIVERSITY OF MICHIGAN AND MERIT NETWORK, INC. DO...
Hardware warranty Hardware warranty Motorola’s standard hardware warranty is for one (1) year from date of shipment from Motorola or a Motorola Point-to-Point Distributor. Motorola warrants that hardware will conform to the relevant published specifications and will be free from material defects in material and workmanship under normal use and service.
Chapter 3 Legal information Limit of liability IN NO EVENT SHALL MOTOROLA BE LIABLE TO YOU OR ANY OTHER PARTY FOR ANY DIRECT, INDIRECT, GENERAL, SPECIAL, INCIDENTAL, CONSEQUENTIAL, EXEMPLARY OR OTHER DAMAGE ARISING OUT OF THE USE OR INABILITY TO...
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Chapter 4 Chapter 4 Reference information ............This chapter describes the reference information and regulatory notices that are common to all PTP 600 products and those that are specific to each frequency variant.
600 bridge installations and for the main installation options, such as connectorized ODUs, PTP-SYNC, GPS and E1 or T1. Inventory for standard installations A standard PTP 600 Series bridge installation requires the components listed in Table 4-1. Table 4-1 Standard PTP 600 Series bridge components...
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User Guide: PTP 600 Series Installation inventories Item Notes Outdoor drop cable Purchase separately. CAUTION Always use Cat5e cable that is gel-filled and shielded with copper-plated steel. Alternative types of drop cable are not supported by Motorola. Refer to Cable and connector specifications on page 4-16.
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Installation inventories Chapter 4 Reference information Item Notes Lightning Protection Unit (LPU) double end Motorola part number WB2907C. Two kits required per standard link (total four LPUs). Kit contents: two LPUs, grounding cables, 600mm ODU to LPU cable, nuts, bolts and glands.
User Guide: PTP 600 Series Installation inventories Inventory for connectorized bridge installations A connectorized PTP 600 Series bridge installation requires all of the standard installation components (apart from the integrated ODU). It also requires the components listed in Table 4-2.
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Installation inventories Chapter 4 Reference information Item Notes RF cable connectors Purchase separately. N type male connectors are required for connecting the RF cable to the ODU. For the antenna end of the RF cable, refer to the antenna manufacturer’s instructions.
User Guide: PTP 600 Series Installation inventories Inventory for UltraSync installations A PTP 600 Series bridge installation with UltraSync GPS requires all of the standard installation components (Table 4-1), with the addition of one MemoryLink UltraSync GPS-100M kit (Motorola part number WB3001) (Figure 4-1).
Table 4-3 PTP-SYNC installation components Item Notes PTP-SYNC kit Motorola part number WB3665. Kit contents: 1 x PTP-SYNC unit 1 x M4 pan screw 2 x M4 washers 2 x M3 (6mm) torx drive screws...
User Guide: PTP 600 Series Installation inventories Item Notes PTP800 CMU / PTP-SYNC 19” rack Motorola part number WB3486. mount installation kit Required for rack-mounted PTP-SYNC units. Kit contents: 1 x rack bracket 8 x M3 washers 8 x M3 screws...
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Trimble GPS receiver. Refer to Outdoor connectors and glands – Trimble GPS page 4-17. Cable grounding kits for 1/4” and 3/8” Motorola part number 01010419001. cable One per drop cable grounding point. Kit contents: grounding cable, self- amalgamating tape, PVC tape, tie-wraps, bolts, washers and nuts.
User Guide: PTP 600 Series Installation inventories Inventory for E1 or T1 installations A PTP 600 Series bridge installation with E1 or T1 requires all of the standard installation components (Table 4-1), with the following additions: • Extra outdoor drop cable is required for the E1 or T1 link.
Chapter 4 Reference information ODU specifications This section contains specifications of the outdoor unit (ODU) that is supplied by Motorola for PTP 600 installations. These specifications apply to all PTP 600 product variants. Dimensions and weight The PTP 600 integrated ODU conforms to the physical specifications listed in Table 4-5.
Chapter 4 Reference information PIDU Plus specifications This section contains specifications of the powered indoor unit (PIDU Plus) that is supplied by Motorola for PTP 600 installations. These specifications apply to all PTP 600 product variants. Dimensions and weight The PTP 600 PIDU Plus conforms to the physical specifications listed in Table 4-8.
User Guide: PTP 600 Series PIDU Plus specifications Electrical The PTP 600 PIDU Plus conforms to the electrical specifications listed in Table 4-10. Table 4-10 PIDU Plus electrical specifications Category Specification AC Input 90 – 264 V AC, 47 – 60 Hz Alternative DC Input 36 –...
CAUTION Always use Cat5e cable that is gel-filled and shielded with copper-plated steel. Alternative types of drop cable are not supported by Motorola. A suitable make of outdoor drop cable is Superior Essex BBDGe, with part numbers as specified in Table 4-11.
User Guide: PTP 600 Series Cable and connector specifications NOTE The connector, crimp tool and die set listed in Table 4-12 are specific to Superior Essex BBDGe cable. They may not work with other makes of cable. Outdoor connectors and glands – Trimble GPS...
However, the Maximum Transmit Power must be reduced to avoid exceeding the EIRP limits. In FCC regions when using external antennas, cable loss between the connectorized version of the PTP 600 Series and the antenna ports must not be less than 1.2 dB. phn-0896_012v000 Jul 2010 4-18 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
User Guide: PTP 600 Series Antenna specifications CAUTION Antennas not included in this table, or those having a gain greater than the specified maximum, are strictly prohibited for use with the PTP 54600. The required antenna impedance is 50 ohms.
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Antenna specifications Chapter 4 Reference information Manufacturer Antenna Type Gain Parabolic (dBi) Dish Gabriel Gabriel 4-foot Standard QuickFire Parabolic, 34.8 QF4-52-N-RK Gabriel Gabriel 2-foot Standard Dual QuickFire 28.4 Parabolic, QFD2-52-N Gabriel Gabriel 2.5-foot Standard Dual QuickFire 31.1 Parabolic, QFD2.5-52-N Gabriel Gabriel 2-foot Standard Dual QuickFire 28.4 Parabolic, QFD2-52-N-RK...
Polarization Parabolic Dish Antennas: up to 37.7 dBi per polarization or antenna. In FCC regions when using external antennas, cable loss between the connectorized version of the PTP 600 Series and the antenna ports must not be less than 1.2 dB. CAUTION Antennas not included in this table, or those having a gain greater than the specified maximum, are strictly prohibited for use with the PTP 58600.
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Antenna specifications Chapter 4 Reference information Manufacturer Antenna Type Gain Flat Parabolic (dBi) Plate Dish Gabriel Gabriel 2-foot Flat Panel, DFPD2-52 (28dBi) MTI 17 inch Diamond Flat Panel, MT- 485009 (23dBi) MTI 15 inch Dual-Pol Flat Panel, MT-485025/NVH (23dBi) MTI 2 ft Directional Flat Panel, MT- 20004 (28dBi) MTI 2 ft Flat Panel, MT-486001 (28dBi) RFS 1-foot Flat Panel, MA0528-23AN...
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User Guide: PTP 600 Series Antenna specifications Manufacturer Antenna Type Gain Flat Parabolic (dBi) Plate Dish Gabriel Gabriel 2-foot High Performance 28.2 QuickFire Parabolic, HQF2-52-N Gabriel Gabriel 4-foot High Performance 34.4 QuickFire Parabolic, HQF4-52-N Gabriel Gabriel 6-foot High Performance 37.4...
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Antenna specifications Chapter 4 Reference information Manufacturer Antenna Type Gain Flat Parabolic (dBi) Plate Dish Gabriel Gabriel 2-foot Standard Dual QuickFire 28.4 Parabolic, QFD2-52-N-RK Gabriel Gabriel 4-foot Standard Dual QuickFire 34.7 Parabolic, QFD4-52-N Gabriel Gabriel 4-foot Standard Dual QuickFire 34.7 Parabolic, QFD4-52-N-RK Gabriel Gabriel 6-foot Standard Dual QuickFire...
PTP-SYNC specifications Chapter 4 Reference information PTP-SYNC specifications This section contains specifications of the PTP-SYNC unit that is supplied by Motorola for PTP 600 installations that require TDD synchronization via PTP-SYNC (optional). Dimensions and weight The PTP-SYNC unit conforms to the physical specifications listed in Table 4-17.
User Guide: PTP 600 Series PTP-SYNC specifications Electrical The PTP-SYNC unit conforms to the electrical specifications listed in Table 4-19. Table 4-19 PTP-SYNC unit electrical specifications Category Specification Power source 90 – 264 V AC, 50 – 60 Hz, or 36 – 60 V DC...
PTP-SYNC specifications Chapter 4 Reference information Table 4-21 PTP-SYNC unit timing specifications - 1PPS IN (SMA) Category Specification Signal type 1 Hz signal Pulse Positive pulse, reference edge is rising edge Maximum voltage Threshold 0.4 V to 0.6 V Input impedance 45 ohms to 55 ohms Pulse width 1μs to 500ms...
Wireless specifications Chapter 4 Reference information Table 4-24 PTP 45600 RF specifications Radio Technology Specification RF Band 4.400-4.600 GHz Channel Selection Manual selection. Dynamic Frequency By intelligent Dynamic Frequency Selection (i-DFS) or manual Control intervention; automatic selection on start-up and continual adaptation to avoid interference.
User Guide: PTP 600 Series Wireless specifications Table 4-25 PTP 48600 RF specifications Radio Technology Specification RF Band 4.710-5.000 GHz Channel Selection Manual selection. Dynamic Frequency Control By intelligent Dynamic Frequency Selection (i-DFS) or manual intervention; automatic selection on start-up and continual adaptation to avoid interference.
Wireless specifications Chapter 4 Reference information Table 4-26 PTP 49600 RF specifications Radio Technology Specification RF Band 4.900-4.990 GHz Channel Selection Manual selection. Dynamic Frequency Control By intelligent Dynamic Frequency Selection (i-DFS) or manual intervention; automatic selection on start-up and continual adaptation to avoid interference.
User Guide: PTP 600 Series Wireless specifications Table 4-27 PTP 54600 RF specifications Radio Technology Specification RF Band 5.470-5.725 GHz Channel Selection By dynamic frequency control and manual intervention Automatic detection on start-up and continual adaptation to avoid interference. Dynamic Frequency Control Initial capture 10-15 sec.
Wireless specifications Chapter 4 Reference information Table 4-28 PTP 58600 RF specifications Radio Technology Specification RF Band 5.725-5.850 GHz Channel Selection By dynamic frequency control and manual intervention Automatic detection on start-up and continual adaptation to avoid interference. Dynamic Frequency Control Initial capture 10-15 sec.
User Guide: PTP 600 Series Wireless specifications Table 4-29 PTP 59600 RF specifications Radio Technology Specification RF Band 5.825-5.925GHz Channel Selection By dynamic frequency control and manual intervention Automatic detection on start-up and continual adaptation to avoid interference. Dynamic Frequency Control Initial capture 10-15 sec.
Wireless specifications Chapter 4 Reference information Licenses and region codes This section specifies the licenses and region codes that are available for each frequency variant. When shipped, PTP 600 units are configured with a license key for a default region code, as indicated by (*1) in the following tables.
User Guide: PTP 600 Series Wireless specifications Table 4-31 PTP 45600 licenses and region codes Region License / Frequencies Channel Max Power Code Regulation Bandwidth US Federal 4400 - 4600 5, 10, 15, 20, 30 27 dBm (*1) NTIA 4400 - 4600...
User Guide: PTP 600 Series Wireless specifications Table 4-34 PTP 54600 licenses and region codes Region License or Channel code Regulation Frequencies Bandwidth Power Notes Full Power + 5470 - 5725 5, 10, 15, 30 25 dBm Radar Full Power...
Wireless specifications Chapter 4 Reference information Region License or Channel code Regulation Frequencies Bandwidth Power Notes ETSI 5470 - 5600 30 MHz 30 dBm The band EIRP 5600 MHz (*1) 5650 - 5725 to 5650 MHz is 15 MHz 27 dBm reserved EIRP for the use...
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User Guide: PTP 600 Series Wireless specifications Region License / Frequencies Channel Notes code Regulation Bandwidth Power for Road 10 MHz 32 dBm Transport EIRP 5 MHz 29 dBm Traffic EIRP Telematic s (RTTT). Singapore 5725 - 5850 5, 10, 15, 30...
Wireless specifications Chapter 4 Reference information Available spectrum settings PTP 25600 available spectrum settings The supported 2.5GHz frequency range is split into three bands, according to the bands specified in the FCC BRS-EBS Post-Transition Band plan (only for PTP 25600 and region code 16): •...
Wireless specifications Chapter 4 Reference information PTP 45600 available spectrum settings The PTP 45600 product variant does not apply any band edge power reduction. Region code 23 Adjustment of the lower centre frequency allows the operator to slide the available frequency settings up and down the 4.5 GHz band in steps of 2 MHz.
User Guide: PTP 600 Series Wireless specifications Region code 24 (NTIA) In the 20 MHz (Figure 4-8) channel bandwidth, the PTP 45600 variant operates on a 20 MHz channel raster. In the 10 MHz (Figure 4-9) channel bandwidth, the PTP 45600 variant operates on a 10 MHz channel raster.
Wireless specifications Chapter 4 Reference information Region code 24 (NTIA) In the 20 MHz (Figure 4-14) channel bandwidth, the PTP 48600 variant operates on a 20 MHz channel raster. In the 10 MHz (Figure 4-15) channel bandwidth, the PTP 48600 variant operates on a 10 MHz channel raster. The channel raster is set to even centre frequencies.
User Guide: PTP 600 Series Wireless specifications Figure 4-17 PTP 49600 available spectrum in the 10 MHz channel bandwidth Figure 4-18 PTP 49600 available spectrum in the 5 MHz channel bandwidth PTP 54600 available spectrum settings Adjustment of the lower centre frequency allows the operator to slide the available frequency settings up and down the 5.4 GHz band in steps of 2 MHz.
User Guide: PTP 600 Series Wireless specifications Figure 4-21 PTP 54600 available spectrum in 10 MHz channel bandwidth Figure 4-22 PTP 54600 available spectrum in 5 MHz channel bandwidth PTP 58600 available spectrum settings Adjustment of the lower centre frequency allows the operator to slide the available frequency settings up and down the 5.8 GHz band in steps of 2 MHz.
Operation at or near the 5.8 GHz band edges can results in a lower maximum transmit power. In some configurations the PTP 600 Series 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.
User Guide: PTP 600 Series Wireless specifications PTP 59600 available spectrum settings Adjustment of the lower centre frequency allows the operator to slide the available frequency settings up and down the 5.9 GHz band in steps of 2 MHz. In the 30 MHz channel bandwidth...
Wireless specifications Chapter 4 Reference information System threshold, output power and link loss Table 4-39 PTP 25600 - IP mode - threshold, power and link loss Output Threshold Value (dBm) Power Maximum Link Loss (dB) (dBm) Channel Bandwidth Modulation Bands Mode BPSK 0.63 single -97.6...
User Guide: PTP 600 Series Wireless specifications Table 4-40 PTP 25600 - TDM mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Bands Modulation Mode BPSK 0.63 single -97.6 -95.1 -93.0...
Wireless specifications Chapter 4 Reference information Table 4-41 PTP 45600 - IP mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Modulation Bands Mode BPSK 0.63 single -96.6 -93.7 -92.0 -90.4 -88.0 166.6...
User Guide: PTP 600 Series Wireless specifications Table 4-42 PTP 45600 - TDM mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Modulation Bands Mode BPSK 0.63 single -96.6 -93.7 -92.0...
Wireless specifications Chapter 4 Reference information Table 4-43 PTP 48600 - IP mode - threshold, power and link loss Output System Threshold (dBm) Power Maximum Link Loss (dB) (dBm) Channel 5, 10, Bandwidth Modulation Mode BPSK 0.63 single -98.6 -95.5 -93.3 -91.9 169.6...
User Guide: PTP 600 Series Wireless specifications Table 4-44 PTP 48600 - TDM mode - threshold, power and link loss Output System Threshold (dBm) Power Maximum Link Loss (dB) (dBm) Channel 5, 10, Bandwidth Modulation Mode BPSK 0.63 single -98.6 -95.5...
Wireless specifications Chapter 4 Reference information Table 4-45 PTP 49600 - IP mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Bands Modulation Mode BPSK 0.63 single -98.6 -95.5 -91.9 166.6 163.5 159.9...
User Guide: PTP 600 Series Wireless specifications Table 4-46 PTP 49600 - TDM mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Bands Modulation Mode BPSK 0.63 single -98.6 -95.5 -91.9...
Wireless specifications Chapter 4 Reference information Table 4-47 PTP 54600 - IP mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Modulation Bands Mode BPSK 0.63 single -98.2 -94.6 -92.3 -88.9 169.2 165.6...
User Guide: PTP 600 Series Wireless specifications Table 4-48 PTP 54600 - TDM mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Modulation Bands Mode BPSK 0.63 single -98.2 -94.6 -92.3...
Wireless specifications Chapter 4 Reference information Table 4-49 PTP 58600 - IP mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Modulation Bands Mode BPSK 0.63 single -95.1 -92.5 -90.8 -86.3 166.1 163.5...
User Guide: PTP 600 Series Wireless specifications Table 4-50 PTP 58600 - TDM mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Bands Modulation Mode BPSK 0.63 single -95.1 -92.5 -90.8...
Wireless specifications Chapter 4 Reference information Table 4-51 PTP 59600 - IP mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Modulation Bands Mode BPSK 0.63 single -97.1 -94.1 -92.0 -88.7 +25.0 168.1...
User Guide: PTP 600 Series Wireless specifications Table 4-52 PTP 59600 - TDM mode - threshold, power and link loss Output Threshold Value (dBm) Maximum Link Loss (dB) Power (dBm) Channel Bandwidth Modulation Bands Mode BPSK 0.63 single -97.1 -94.1 -92.0...
User Guide: PTP 600 Series System management data System management data SNMPv3 default configuration (MIB-based) When SNMPv3 MIB-based Security Mode is enabled, the default configuration for the table is based on one initial user and four template users as listed in...
System management data Chapter 4 Reference information VACM default configuration The default user is assigned to VACM group in the initial initial table. The template users are not assigned to a group. vacmSecurityToGroupTable PTP 600 creates default view trees and access as shown in Table 4-56 Table 4-57.
User Guide: PTP 600 Series System management data RADIUS protocols and attributes RADIUS is implemented in PTP 600 with the following protocols and attributes: • Standard RADIUS attributes (Table 4-58) • Vendor specific RADIUS attributes (Table 4-59) • RADIUS protocol interaction...
System management data Chapter 4 Reference information Table 4-60 RADIUS protocol interaction for each user role Service-type Role invalid- readonly- system- security- role role admin- officer- present role role not-present read only reject login read only reject login reject login login-user read only reject login...
User Guide: PTP 600 Series System management data Email alerts The management agent can be configured to generate alerts by electronic mail when any of the following events occur: • Wireless Link Up/Down • DFS Channel Change • DFS Impulse Interference •...
System management data Chapter 4 Reference information Event notification messages When system logging is enabled, event notification messages may be output in the following categories: • Local log messages (Table 4-61) • Standard log messages (Table 4-62) • SNMPv3 messages (Table 4-63) •...
User Guide: PTP 600 Series System management data The Facility attribute has numeric values as follows: • 0: Kernel messages • 4: Security/authorization messages The Severity attribute has numeric values as follows: • 1: Alert: Action must be taken immediately •...
User Guide: PTP 600 Series System management data Facility Severity Message content (process tag; message text) Security Warning auth_cfg_pass_expiry_action; Password Expiry Action changed to [new value] Security Warning auth_cfg_session; Webpage Session Control [enabled|disabled] Security Warning auth_cfg_identity; Identity Based User Accounts...
System management data Chapter 4 Reference information Table 4-68 RADIUS messages Facility Severity Message content (process tag; message text) Security Warning radius_enable; RADIUS service [enabled|disabled] Security Warning radius_cfg_primary; RADIUS Primary Server changed from x to y Security Warning radius_cfg_dead_time; RADIUS Primary Server Dead Time changed from x to y minutes Security Warning...
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User Guide: PTP 600 Series System management data Facility Severity Message content (process tag; message text) Security Warning sec_aes_wireless_algorithm; Wireless Encryption Algorithm changed from x to y bits Security Warning sec_http; HTTP service [enabled|disabled] Security Warning sec_http_port; HTTP Port changed from x to y...
User Guide: PTP 600 Series Safety compliance Safety compliance Electrical safety compliance The PTP 600 hardware has been tested for compliance to the electrical safety specifications listed in Table 4-74. Table 4-74 PTP 600 safety compliance specifications Region Specification UL 60950 Canada CSA C22.2 No.60950...
Electromagnetic compliance Chapter 4 Reference information Electromagnetic compliance EMC immunity compliance The PTP 600 complies with European EMC Specification EN301 489-1 with testing carried out to the detailed requirements of EN301 489-4. NOTE For EN 61000-4-2: 1995 Electro Static Discharge (ESD), Class 2, 8 kV air, 4 kV contact discharge, the PTP 600 has been tested to ensure immunity to 15 kV air and 8 kV contact.
ComReg 02/71R1 EN302 502 v 1.2.1 Compliance with regulations Changes or modifications not expressly approved by Motorola could void the user’s authority to operate the system. This system has achieved Type Approval in various countries around the world. This means that the system has been tested against various local technical regulations and found to comply.
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Electromagnetic compliance Chapter 4 Reference information CAUTION When planning a link that will use Connectorized PTP 600 Series (with external antennas), ensure that regulatory requirements are met for the installation, as described in Regulatory issues with connectorized units on page 4-94.
The power transmitted by the PTP 600 Series is controlled by the use of Region- specific License Keys. Contact your supplier/installer to ensure that your product is set...
Electromagnetic compliance Chapter 4 Reference information Registration of links 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 Regulatory issues with connectorized units Maximum EIRP for connectorized units In most regions (including USA, Canada, Europe and Australia) operation of products...
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User Guide: PTP 600 Series Electromagnetic compliance Calculating EIRP for connectorized units When operating with external antennas, the installer or operator has to set the maximum transmit power to ensure that the EIRP limit is not exceeded. The EIRP may...
Table 4-78 has been calculated on the basis of 0.5 dB cable loss and the highest gain antennas per size of which Motorola are aware. At these operating frequencies, feeder losses even with short cables are unlikely ever to be below 0.5 dB for practical installations and cable diameters.
User Guide: PTP 600 Series Electromagnetic compliance Cable losses (FCC regions only) for connectorized units The FCC approval for the product is based on tests with a cable loss between the units of not less than 1.2 dB at 5.8 GHz. The use of lower cable losses would result in the installation being outside the FCC rules.
Electromagnetic compliance Chapter 4 Reference information Electromagnetic energy Standards Relevant standards (USA and EC) applicable when working with RF equipment are: • ANSI IEEE C95.1-1991, IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz. •...
User Guide: PTP 600 Series Electromagnetic compliance Power density exposure limit Install the radios for the PTP 600 family of PTP wireless solutions so as to provide and maintain the minimum separation distances from all persons. The applicable power density exposure limit from the standards (see...
Electromagnetic compliance Chapter 4 Reference information Calculated distances and power compliance margins Table 4-80 shows calculated minimum separation distances, recommended distances and resulting margins for each frequency band and antenna combination. These are conservative distances that include compliance margins. At these and greater separation distances, the power density from the RF field is below generally accepted limits for the general population.
Electromagnetic compliance Chapter 4 Reference information Examples of regulatory limits These tables show how the regulatory limits currently apply in specific countries. Operators should note that regulations are subject to change. Table 4-81 PTP 25600 examples of regulatory limits Region Examples of Regulatory Limits at 2.5 GHz Under FCC Regulations, operation of this product is only allowed with a License Key for Region 16 which ensures that the product...
User Guide: PTP 600 Series Electromagnetic compliance Table 4-84 PTP 49600 examples of regulatory limits Region Examples of Regulatory Limits at 5.4GHz USA, Operation of this product is only allowed with a License Key for Canada and Region 14 (USA/Canada Public Safety) or Region 18 (Hong Kong Hong Kong Public Safety).
Electromagnetic compliance Chapter 4 Reference information NOTE In regions other than EU/USA, specific local regulations may apply. It is the responsibility of the installer/user to check that the equipment as deployed meets local regulatory requirements. Table 4-86 PTP 58600 examples of regulatory limits Region Examples of Regulatory Limits at 5.8GHz USA/...
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User Guide: PTP 600 Series Electromagnetic compliance Region Examples of Regulatory Limits at 5.8GHz Thailand Operation of this product is only allowed with a License Key for Region 20 (30 dBm or 1W EIRP). Germany Operation of this product is only allowed with a License Key for Region 22.
Electromagnetic compliance Chapter 4 Reference information Table 4-87 PTP 59600 examples of regulatory limits Region Examples of Regulatory Limits at 5.9 GHz Russia Operation of this product is only allowed with a License Key for Region 16 (no power limit) India Operation of this product is only allowed with a License Key for Regions 17 or 19 (36 dBm or 4W EIRP at 30 MHz, 15 MHz and 10...
User Guide: PTP 600 Series Notifications Notifications PTP 25600 regulatory compliance The PTP 25600 complies with the regulations that are in force in the USA. The relevant notifications are specified in this section. U.S. Federal Communication Commission (FCC) notification This device complies with Part 27 of the US FCC Rules and Regulations. Use of this product is limited to operators holding Licenses for the specific operating channels.
Notifications Chapter 4 Reference information PTP 49600 regulatory compliance The PTP 49600 complies with the regulations that are in force in the USA and Canada. The relevant notifications are specified in this section. PTP 49600 FCC and IC notification The system has been approved under FCC Part 90 and Industry Canada RSS-111 for Public Safety Agency usage.
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Hereby, Motorola declares that the PTP 54600 product complies with the essential requirements and other relevant provisions of Directive 1999/5/EC. The declaration of conformity may be http://www.motorola.com/ptp/support.
Notifications Chapter 4 Reference information This equipment is marked to show compliance with the European R&TTE directive 1999/5/EC. 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).
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User Guide: PTP 600 Series Notifications For the connectorized version of the product and in order to reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the Effective Isotropically Radiated Power (EIRP) is not more than that permitted for successful communication.
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Notifications Chapter 4 Reference information Hereby, Motorola declares that the PTP 58600 product complies with the essential requirements The declaration of conformity may be and other relevant provisions of Directive 1999/5/EC. consulted at http://www.motorola.com/ptp/support. to show compliance with the European R&TTE directive This equipment is marked 1999/5/EC.
User Guide: PTP 600 Series Notifications PTP 59600 regulatory compliance Russia This system has been tested for type approval in Russia of fixed link equipment under the heading of BPD TZS 12. Сертификат соответствия Срок действия ОС-1-РД-0241 с 28 октября 2008 г.
Data rate calculations Chapter 4 Reference information Data rate calculations This section provides instructions, tables and graphs to allow calculation of the data rate capacity that can be provided by alternative PTP 600 configurations. The following topics are described in this section: •...
User Guide: PTP 600 Series Data rate calculations Calculation procedure and example Procedure To calculate the data rate capacity of a PTP 600 link, perform Procedure 4-1. Procedure 4-1 Calculating data rate capacity Use the tables in Data throughput capacity...
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Data rate calculations Chapter 4 Reference information Example Suppose that the link characteristics are: • Product variant = PTP 600 Lite • Link Symmetry = 1:1 • Link Mode Optimization = TDM • Modulation Mode = 64QAM 0.92 Dual • Channel Bandwidth = 10 MHz •...
User Guide: PTP 600 Series Data rate calculations Data throughput capacity Table 4-88, Table 4-89, Table 4-90, Table 4-91 Table 4-92 show the data throughput rates (Mbits/s) that are achieved when two PTP 600 Full ODUs are linked and the link distance (range) is 0 km. Use the curves in...
Data rate calculations Chapter 4 Reference information Table 4-88 Throughput for PTP 600 Full, link symmetry 1:1, link optimization IP 30 MHz 20 MHz 15 MHz Modulation Mode Both Both Both 256QAM 0.81 150.01 150.01 300.02 100.06 100.06 200.12 75.37 75.37 150.74 dual...
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User Guide: PTP 600 Series Data rate calculations Table 4-88 Throughput for PTP 600 Full, link symmetry 1:1, link optimization IP (continued) 10 MHz 5 MHz Modulation Mode Both Both 256QAM 0.81 50.11 50.11 100.21 24.22 24.22 48.43 dual 64QAM 0.92 dual 42.22...
Data rate calculations Chapter 4 Reference information Table 4-90 Throughput for PTP 600 Full, link symmetry 2:1, link optimization = IP 30 MHz 20 MHz 15 MHz Modulation Mode Both Both Both 256QAM 0.81 198.58 99.29 297.88 133.42 66.71 200.12 100.50 50.25 150.74...
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User Guide: PTP 600 Series Data rate calculations Table 4-90 Throughput for PTP 600 Full, link symmetry 2:1, link optimization = IP (continued) 10 MHz Modulation Mode Both 256QAM 0.81 66.38 33.19 99.56 dual 64QAM 0.92 dual 55.92 27.96 83.88 64QAM 0.75 dual...
Data rate calculations Chapter 4 Reference information Range adjustment curves Use these curves to look up the link Range and find the Throughput Factor that must be applied to adjust the 0 km data throughput rates for the required combination of Channel Bandwidth, Link Symmetry, Link Optimization, DFS and Link Range (km).
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User Guide: PTP 600 Series Data rate calculations Channel Link Link Range See Figure Band- Sym- Optimizati Adjustme width metry nt Curve Figure 4-39 Figure 4-40 Figure 4-40 Adaptive Figure 4-40 5 MHz IP, TDM Figure 4-33 phn-0896_012v000 Jul 2010 4-129 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
Data rate calculations Chapter 4 Reference information Figure 4-31 PTP 600 range adjustment for data rates, curve A Figure 4-32 PTP 600 range adjustment for data rates, curve B phn-0896_012v000 Jul 2010 4-130 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
User Guide: PTP 600 Series Data rate calculations Figure 4-33 PTP 600 range adjustment for data rates, curve C Figure 4-34 PTP 600 range adjustment for data rates, curve D phn-0896_012v000 Jul 2010 4-131 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
Data rate calculations Chapter 4 Reference information Figure 4-35 PTP 600 range adjustment for data rates, curve E Figure 4-36 PTP 600 range adjustment for data rates, curve F phn-0896_012v000 Jul 2010 4-132 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
User Guide: PTP 600 Series Data rate calculations Figure 4-37 PTP 600 range adjustment for data rates, curve G Figure 4-38 PTP 600 range adjustment for data rates, curve H phn-0896_012v000 Jul 2010 4-133 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
Data rate calculations Chapter 4 Reference information Figure 4-39 PTP 600 range adjustment for data rates, curve K Figure 4-40 PTP 600 range adjustment for data rates, curve L phn-0896_012v000 Jul 2010 4-134 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
User Guide: PTP 600 Series Data rate calculations Figure 4-41 PTP 600 range adjustment for data rates, curve N phn-0896_012v000 Jul 2010 4-135 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
............This chapter provides instructions for installing a PTP 600 link. IN NO EVENT SHALL MOTOROLA, INC. BE LIABLE FOR ANY INJURY TO ANY PERSONS OR ANY DAMAGE CAUSED DURING THE INSTALLATION OF THE MOTOROLA PTP 600 SERIES PRODUCT.
Ensure that qualified installers are available to undertake the work. • Ensure that all safety precautions can be observed. The following specific tools are required to install a PTP 600 Series, in addition to general tools: • 13mm wrench and 22 mm wrench for use with the glands.
The maximum cable length between the ODU and the user’s network equipment is 100m (330 ft). Cable lengths up to 300m (984 ft) can be used where the PIDU Plus to ODU cable is supplying power only, that is, when using the PTP 600 Series optical interface.
Preparing and connecting cables Chapter 5 Installation Assembly Assemble the drop cable as shown in Figure 5-1. The gland is only required for outdoor connections, that it, at the ODU or LPU. The connection to the PIDU Plus requires the RJ45 plug but no gland.
User Guide: PTP 600 Series Preparing and connecting cables CAUTION The cable inner sheath must be located correctly under the connector housing tang. If this is not done correctly, there is no strain relief on the cable terminations. Figure 5-2 shows the end of a drop cable fitted with an RJ45 plug and a gland.
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Preparing and connecting cables Chapter 5 Installation Procedure 5-1 Ground the drop cable Remove 60mm (2.5inches) of the drop cable outer jacket. Cut 38mm (1.5 inches) of rubber tape (self amalgamating) and fit to the ground cable lug. Wrap the tape completely around the lug and cable. Fold the ground wire strap around the drop cable screen.
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User Guide: PTP 600 Series Preparing and connecting cables Use the remainder of the self-amalgamating tape to wrap the complete assembly. Press the tape edges together so that there are no gaps. Wrap a layer of PVC tape, starting from 25mm (1 inch) above the outer jacket and finishing 25mm (1 inch) below the self-amalgamating tape, over lapping at half width.
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Preparing and connecting cables Chapter 5 Installation If a single hole tag is required at the mast end, modify the two hole tag as shown. Apply the anti-oxidant compound liberally applied between the two metals. If paint is present, remove it to provide a good electrical contact. phn-0896_012v000 Jul 2010 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
User Guide: PTP 600 Series Preparing and connecting cables Connecting the drop cable to an ODU or LPU Perform this task to connect the drop cable to an ODU or LPU. This procedure contains illustrations of an ODU, but it applies in principle to both the ODU and the LPU.
Preparing and connecting cables Chapter 5 Installation Once the gland is fully hand screwed into the unit, tighten it with a spanner to torque 10 Nm (7.4 ftlbs). When the gland body has been fitted, tighten the gland back shell. CAUTION Do not over-tighten the gland back shell, as the internal seal and structure may be damaged.
User Guide: PTP 600 Series Preparing and connecting cables Disconnecting the drop cable from an ODU or LPU NOTE This procedure contains illustrations of an ODU, but it applies in principle to both the ODU and the LPU. To disconnect the drop cable with a gland from a unit (LPU or ODU), proceed as...
Installing the ODU and top LPU Chapter 5 Installation Installing the ODU and top LPU Perform this task to install the ODU and top Lightning Protection Unit (LPU) on the supporting structure. This task consists of the following procedures: • Checking the mounting bracket and pole on page 5-12...
User Guide: PTP 600 Series Installing the ODU and top LPU Figure 5-4 ODU with mounting bracket and earth bonding leads Do not mount the ODU on poles with diameter less than 50mm (2”) or greater than 75mm (3”). The ODU mounting bracket is designed to work only with poles with diameter in the 50 mm (2”) to 75 mm (3”) range.
• Option 1: The LPU is mounted back-to-back with the ODU, using the brackets supplied with the ODU. This is the configuration recommended by Motorola. • Option 2: The LPU is mounted separately from the ODU, using the U-bolt bracket supplied with the PTP LPU kit.
User Guide: PTP 600 Series Installing the ODU and top LPU Checking that it is safe to hoist the ODU WARNING To minimize the risk of injury, do not attempt to hoist the ODU until the necessary precautions have been taken.
Installing the ODU and top LPU Chapter 5 Installation Mounting the ODU and top LPU WARNING To prevent failure of the assembly, do not over-tighten the bolts. The ODU must be mounted using the following steps, ensuring that the cable entry is at the bottom: Procedure 5-4 Mounting the ODU and top LPU Check the contents of the ODU and LPU boxes.
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User Guide: PTP 600 Series Installing the ODU and top LPU Offer the ODU (with pre-fitted mounting bracket) to the bracket strap and affix using the captive M8 bolt. Tighten to ensure the assembly grips, but can be adjusted on the pole.
Installing the drop cable and ground cables Chapter 5 Installation Installing the drop cable and ground cables Perform this task to install the drop cable connection from the ODU to the PIDU Plus, and to provide grounding and lightning protection for the installation. This task consists of the following procedures: •...
User Guide: PTP 600 Series Installing the drop cable and ground cables Connecting the ODU to the top LPU Perform this procedure to connect the ODU to the top lightning protection unit (LPU) via ground and drop cables, and to ground the ODU to the supporting structure (Figure 5-7).
Installing the drop cable and ground cables Chapter 5 Installation Connect the other end of the back-to-back cable to the LPU (either port) as described in Connecting the drop cable to an ODU or LPU on page Connect one end of the long drop cable to the LPU (unused port) as described in Connecting the drop cable to an ODU or LPU on page 5-9.
User Guide: PTP 600 Series Installing the drop cable and ground cables Figure 5-8 Drop cable grounding on a mast or tower Screened CAT5e cable Ground cable To top LPU First point of contact with tower Mid-point of tower Bottom of tower...
Installing the drop cable and ground cables Chapter 5 Installation Installing and grounding the drop cable at building entry Perform this procedure to install and ground the drop cable at the building (or cabinet) entry point (Figure 5-9). Figure 5-9 Grounding at building entry To run the drop cable into the building, proceed as follows: Procedure 5-7 Install and ground drop cable at building entry Check the contents of the LPU box.
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User Guide: PTP 600 Series Installing the drop cable and ground cables Connect the long drop cable to the bottom LPU, as described in Connecting the drop cable to an ODU or LPU on page 5-9. Prepare a short section of drop cable with the correct gland (at the...
Installing the PIDU Plus Chapter 5 Installation Installing the PIDU Plus Perform this task to install the PIDU Plus and connect it to the ODU and network cables. This task consists of the following procedures: • Mounting the PIDU Plus on page 5-24 •...
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User Guide: PTP 600 Series Installing the PIDU Plus To connect the PIDU Plus to the cable from the ODU, proceed as follows: Procedure 5-8 Connecting the PIDU Plus to the ODU Undo the retaining screw and hinge back the cover.
Installing the PIDU Plus Chapter 5 Installation Forming a drip loop Form a drip loop on the cable from the LPU (Figure 5-10). This ensures that any moisture that runs down the cable into the cabinet or enclosure cannot enter the PIDU Plus.
User Guide: PTP 600 Series Installing the PIDU Plus Preparing the PIDU Plus to LAN cable Prepare the CAT5e cable that will connect the PIDU Plus to the network equipment. This cable must meet the following requirements: • Use either foil screen (FTP) or braided screen (STP) cable.
Installing a connectorized ODU and antenna Chapter 5 Installation Installing a connectorized ODU and antenna Perform this task to install a connectorized ODU with a separate antenna. This task consist of the following procedures: • Preparing for connectorized installations on page 5-28 •...
User Guide: PTP 600 Series Installing a connectorized ODU and antenna Mounting the antenna Mount the antenna according to manufacturer’s instructions. Spatial diversity When using separate antennas to achieve spatial diversity, mount one with Horizontal polarization and the other with Vertical polarization. It is not necessary to mount the ODU at the mid point between the antennas.
Installing a connectorized ODU and antenna Chapter 5 Installation Weatherproof the ODU joints using self-amalgamating tape under a layer of PVC tape (Figure 5-12). If the antenna manufacturer has not supplied guidance on this matter, the same technique should be employed at the antenna end of the cables. Figure 5-12 Weatherproofing the antenna connections Grounding the antenna cables Ground the antenna cables to the supporting structure at the points shown in...
User Guide: PTP 600 Series Installing a connectorized ODU and antenna The Polyphaser LSXL-ME or LSXL is a supported type of lighting arrestor for the antenna cables. This should be assembled as shown in Figure 5-15. Figure 5-15 Polyphaser assembly Connect the lighting arrestors to the master ground bar of the building.
Installing an UltraSync GPS receiver Chapter 5 Installation Installing an UltraSync GPS receiver If the chosen TDD synchronization method requires UltraSync GPS (see synchronization configurations supported on page 2-27), then perform this task to install the UltraSync receiver. This task consists of the following procedures: •...
User Guide: PTP 600 Series Installing an UltraSync GPS receiver Connecting the UltraSync unit Connect the UltraSync unit to the ODU and top LPU as shown in Figure 5-16 Figure 5-17. Figure 5-16 UltraSync unit connections Figure 5-17 UltraSync deployment diagram...
Installing an UltraSync GPS receiver Chapter 5 Installation Checking the complete UltraSync unit installation Check that the UltraSync installation is correct. Figure 5-18 is an example of mast installation using lightning protection and an UltraSync unit. Figure 5-18 UltraSync unit complete installation phn-0896_012v000 Jul 2010 5-36...
User Guide: PTP 600 Series Installing a PTP-SYNC unit Installing a PTP-SYNC unit If the chosen TDD synchronization method requires PTP-SYNC (see synchronization configurations supported on page 2-27), then perform this task to install a PTP-SYNC unit. This task consists of the following procedures: •...
Installing a PTP-SYNC unit Chapter 5 Installation Mounting the PTP-SYNC unit Install the PTP-SYNC unit in the equipment building, either in a rack or on a wall. Rack mounting If the PTP-SYNC is to be in a rack, fix it to the rack mount using the M3 screws from the rack mount installation kit (Figure 5-19).
User Guide: PTP 600 Series Installing a PTP-SYNC unit Connecting up the PTP-SYNC unit To connect the PTP-SYNC to the PIDU Plus, ODU, GPS receiver (if fitted), and LPU (if fitted), proceed as follows: Procedure 5-9 Connect up PTP-SYNC Disconnect the power supply from the PIDU Plus.
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Installing a PTP-SYNC unit Chapter 5 Installation To link clustered PTP-SYNC units, connect the SYNC OUT port of the first PTP-SYNC to the GPS/SYNC IN port of the second PTP-SYNC in the chain. Repeat for subsequent PTP-SYNC units in the chain. Connect the cable from the PIDU Plus to the PIDU IN port.
User Guide: PTP 600 Series Installing a PTP-SYNC unit Use a grounding cable to connect the ground stud of the PTP-SYNC to the master ground bar of the building. Powering up the PTP-SYNC installation To power up the installation, proceed as follows:...
Installing a GPS receiver for PTP-SYNC Chapter 5 Installation Installing a GPS receiver for PTP-SYNC If the chosen TDD synchronization method requires a GPS timing reference source (see TDD synchronization configurations supported on page 2-27), then perform this task to install a GPS receiver. This task consists of the following procedures: •...
User Guide: PTP 600 Series Installing a GPS receiver for PTP-SYNC Connecting the drop cable to the GPS receiver If the chosen GPS receiver is Trimble Acutime™ Gold, then follow this procedure. The drop cable connecting the Trimble GPS receiver to the LPU must be of the supported cable type.
Installing a GPS receiver for PTP-SYNC Chapter 5 Installation Figure 5-21 RJ45 and Trimble connector pins To connect the drop cable to the Trimble GPS receiver, proceed as follows: Procedure 5-11 Connect drop cable to Trimble GPS receiver Prepare the drop cable end as follows: Bare back the cable outer and copper screen to 50mm.
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User Guide: PTP 600 Series Installing a GPS receiver for PTP-SYNC Connect the socket contacts using either of the following techniques: Crimp Crimp the socket contacts onto each of the conductors using the correct crimp tool and positioner, setting the wire size selector to ‘3’ for 24AWG wire.
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Installing a GPS receiver for PTP-SYNC Chapter 5 Installation Insert the eight contacts into the connector body in accordance with Table 5-1. It is easiest to insert the pins from the inside out, in the order 12, 11, 9, 5, 4, 3, 2, 1. Push the contacts in so that the shoulder on the contact fits into the hole in the connector shell.
User Guide: PTP 600 Series Installing a GPS receiver for PTP-SYNC Wrap a layer of PVC tape, starting just below the start of the self- amalgamating tape and finishing at the GPS housing, overlapping at half width. Repeat with a further four layers of PVC tape alternating the start and finish ends.
Installing a GPS receiver for PTP-SYNC Chapter 5 Installation Mounting the LPU and connecting the GPS receiver To mount the LPU and connect it to the drop cable from the GPS receiver, proceed as follows: Procedure 5-12 Mount LPU and connect to GPS receiver Check the contents of the LPU box.
User Guide: PTP 600 Series Installing an E1 or T1 interface Installing an E1 or T1 interface Perform this task to install an optional E1 or T1 interface. This task consists of the following procedures: • Preparing for E1 or T1 installation...
Installing an E1 or T1 interface Chapter 5 Installation Connecting the ODU to the E1 or T1 top LPU Connect and ground the ODU and top LPU for E1 or T1 as described in Connecting the ODU to the top LPU on page 5-19.
User Guide: PTP 600 Series Installing an E1 or T1 interface Installing the E1 or T1 patch panel To connect the E1 or T1 drop cable to the two telecoms channels, install a patch panel (Figure 5-24). Figure 5-24 E1 or T1 patch panel...
Installing an E1 or T1 interface Chapter 5 Installation Table 5-2 E1 or T1 patch panel pin outs E1 or T1 Connector 120 Ohm 120 Ohm Telecoms drop cable Pinout signal balanced signal channel RJ45 pin Signal twisted pair balanced number Name RJ45 pin...
User Guide: PTP 600 Series Installing an E1 or T1 interface Testing the E1/T1 installation Test the telecoms links by performing loopback connection tests as described in Configuring telecoms circuits on page 6-68. Pre-power testing Before connecting the E1/T1 source, check the following resistances: •...
Chapter 6 Chapter 6 Configuration and alignment ............This chapter describes all configuration and alignment tasks that are performed when a PTP 600 link is deployed.
Task 1: Configure IP and Ethernet interfaces Chapter 6 Configuration and alignment Task 1: Configure IP and Ethernet interfaces This task consists of the following procedures: • Configuring the management PC on page • Connecting to the PC and powering up on page •...
User Guide: PTP 600 Series Task 1: Configure IP and Ethernet interfaces Figure 6-1 IP configuration on the PC Figure 6-2 Internet Protocol (TCP/IP) Properties page phn-0896_012v000 Jul 2010 4Gon www.4Gon.co.uk info@4gon.co.uk Tel: +44 (0)1245 808195 Fax: +44 (0)1245 808299...
Task 1: Configure IP and Ethernet interfaces Chapter 6 Configuration and alignment Connecting to the PC and powering up To connect the PTP 600 to the PC and power up the unit, proceed as follows: Procedure 6-2 Power up and log into the unit Check that the ODU and PIDU Plus are correctly connected.
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User Guide: PTP 600 Series Task 1: Configure IP and Ethernet interfaces Leave the Password blank and select Login. The web interface menu and System Summary page are displayed. Check that the PIDU Plus Ethernet LED blinks randomly as traffic passes through.
Task 1: Configure IP and Ethernet interfaces Chapter 6 Configuration and alignment Updating the IP and Ethernet configuration To update the IP and Ethernet configuration of the PTP 600 to meet network requirements, proceed as follows: Procedure 6-4 Update IP and Ethernet configuration for network Select menu option System, Configuration, LAN Configuration.
Task 1: Configure IP and Ethernet interfaces Chapter 6 Configuration and alignment Table 6-1 LAN Configuration attributes Attribute Meaning IP Address Internet protocol (IP) address. This address is used by the family of Internet protocols to uniquely identify this unit on a network.
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User Guide: PTP 600 Series Task 1: Configure IP and Ethernet interfaces Attribute Meaning Management Only displayed when Use VLAN for Management Interfaces is Mode enabled (Figure 6-4). ‘In-Band’ means that the web interface can be reached from the data port at both the local and remote ODUs (assuming that the wireless link is established).
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Task 1: Configure IP and Ethernet interfaces Chapter 6 Configuration and alignment Attribute Meaning Data Port Auto Select the data rate that the auto-negotiation mechanism will advertise as available. Use the same setting for both ends of Advertisement the link. Only select a data rate that is within the capability of connected network equipment, otherwise loss of service may occur.
User Guide: PTP 600 Series Task 1: Configure IP and Ethernet interfaces Figure 6-6 Configuration Reboot page Figure 6-7 Configuration Reboot page - Ethernet auto negotiation disabled Reconnecting to the management PC If the IP Address, Subnet Mask and Gateway IP Address of the unit have been updated to meet network requirements, then reconfigure the local management PC to use an IP address that is valid for the network.
Task 2: Install license keys Chapter 6 Configuration and alignment Task 2: Install license keys This task consists of the following procedures: • Checking licensed capabilities on page 6-12 • Generating a new license key on page 6-14 • Entering a new license key on page 6-15 Some PTP 600 products are supplied with two license keys: one installed at the factory...
User Guide: PTP 600 Series Task 2: Install license keys Figure 6-8 Software License Key page Table 6-2 Capability summary attributes Attribute Meaning Product Name The name of the PTP 600 product variant. MAC Address The MAC address of the PTP 600.
Region Code, FIPS Security Level or Encryption Algorithm), proceed as follows: Procedure 6-6 Use an access key to generate a license key Purchase the required new capabilities from the Motorola authorized Point- To-Point dealer who supplied the PTP 600 link.
User Guide: PTP 600 Series Task 2: Install license keys Entering a new license key To upgrade the unit to a new license key, proceed as follows: Procedure 6-7 Upgrade unit to a new license key Select menu option System, License Key. The Software License Key page is...
FIPS- example: FIPS-PTP600-09-01 Go to http://www.motorola.com/ptp/support and find Point-to-Point software updates. Check that the latest PTP 600 software version (for example 600- 09-01) is the same as the installed Software Version. If the software needs to be upgraded, either to the latest version or to a FIPS...
User Guide: PTP 600 Series Task 3: Upgrade software version Figure 6-10 Software Version in System Status page Saving the system configuration To save the current configuration before upgrading to a new software version, proceed as follows: Procedure 6-9 Save configuration file Select menu option System, Configuration, Save And Restore.
6-17. To upgrade to a new software version, proceed as follows: Procedure 6-10 Upgrade software version Go to http://www.motorola.com/ptp/support and find Point-to-Point software updates. Download and save the required software image (for example PTP600-09-01.DLD2 FIPS-PTP600-09-01.DLD2 Select menu option System, Software Upgrade.
User Guide: PTP 600 Series Task 3: Upgrade software version Select Upload Software Image. The Software Upgrade Confirmation page is displayed (Figure 6-13). If the upgrade is taking the ODU into or out of FIPS mode, an additional warning is displayed stating that the upgrade will cause automatic erasure of the critical security parameters (CSPs).
User Guide: PTP 600 Series Task 4: Configure security Task 4: Configure security This task is only performed when the PTP 600 link requires AES encryption or HTTPS/TLS security (including FIPS 140-2 if appropriate). Depending upon network security requirements, choose one of the following procedures: •...
Task 4: Configure security Chapter 6 Configuration and alignment Configuring AES encryption AES link encryption is only available to users who have purchased an appropriate license key. Refer to Task 2: Install license keys on page 6-12. To configure AES link encryption on a unit that is not yet in a wireless link, proceed as follows: Procedure 6-11 Configure AES link encryption on an unlinked unit Select menu option System, Configuration.
Task 4: Configure security Chapter 6 Configuration and alignment Configuring HTTPS/TLS Perform this task to review and configure HTTPS/TLS security related parameters. If the unit is required to operate in FIPS 140-2 secure mode, observe the additional requirements as described. Prerequisites for HTTPS/TLS The Security Wizard is only available when both of the following conditions are true: •...
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User Guide: PTP 600 Series Task 4: Configure security Prerequisites for FIPS 140-2 If the unit is required to operate in FIPS 140-2 secure mode, perform these checks before starting the Security Wizard. For more information on FIPS 140-2 secure mode,...
Task 4: Configure security Chapter 6 Configuration and alignment Starting security wizard To review HTTPS/TLS security related parameters, proceed as follows: Procedure 6-13 HTTPS/TLS using the Security Wizard Select menu option Security. The Security Configuration Wizard page is displayed (Figure 6-18).
User Guide: PTP 600 Series Task 4: Configure security Step 1: Enter key of keys The PTP 600 uses a key of keys approach to encrypt all critical security parameters (CSPs). Erasing