BreezeMAX™ TDD Modular Base Station System Manual SW Version 4.0 October 2006 P/N Rev.
Document History Document History Topic Description Version/Date Issued First Release New Product Manual SW Version 4.
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Legal Rights (b) With respect to the Firmware, Alvarion warrants the correct functionality according to the attached documentation, for a period of fourteen (14) month from invoice date (the "Warranty Period")". During the Warranty Period, Alvarion may release to its Customers firmware updates, which include additional performance improvements and/or bug fixes, upon availability (the "Warranty"). Bug fixes, temporary patches and/or workarounds may be supplied as Firmware updates.
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Legal Rights the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in commercial, business and industrial environments. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.
Legal Rights CAUTION ATTENTION Risk of electric shock and energy hazard.Disconnecting one Power Interface Unit (PIU) disconnects only one PIU module. To isolate the Base Station completely, disconnect both PIUs Risque de décharge électrique et d'electrocution. La déconnection d'un seul module d'alimentation (PIU) n'isole pas complètement la Station de Base. Pour cela, il faut impérativement débrancher les deux modules d'alimentation (PIU).
Legal Rights Line Voltage Before connecting this instrument to the power line, make sure that the voltage of the power source matches the requirements of the instrument. Radio The instrument transmits radio energy during normal operation. To avoid possible harmful exposure to this energy, do not stand or work for extended periods of time in front of its antenna.
Legal Rights Important Notice This user manual is delivered subject to the following conditions and restrictions: This manual contains proprietary information belonging to Alvarion Ltd. Such information is supplied solely for the purpose of assisting properly authorized users of the respective Alvarion products.
Legal Rights damage and/or bodily harm and/or void the user's authority to operate the equipment and/or revoke the warranty provided by such manufacturer.
About This Manual This manual describes the BreezeMAX TDD ("BreezeMAX") Base Station equipment Release 1 using SW version 4.0, and details how to install, operate and manage the system components. This manual is intended for technicians responsible for installing, setting and operating the BreezeMAX Base Station equipment, and for system administrators responsible for managing the system.
Contents Chapter 1 - System Description 1.1 Introducing BreezeMAX................................................................................................ 2 1.2 Base Station Equipment ............................................................................................... 5 1.2.1 Base Station Chassis ........................................................................................... 5 1.2.2 Network Processing Unit (NPU)...................................................................
Contents 1.5.5 Data Communication (Ethernet Ports) ............................................................... 18 1.5.6 Configuration and Management......................................................................... 18 1.5.7 Standards Compliance, General ........................................................................ 19 1.5.8 Environmental .................................................................................................... 19 1.5.9 Services ...............................
Contents 2.2.11 Air Ventilation Unit (AVU)................................................................................... 52 2.3 Installing the ODU Power Feeder .............................................................................. 54 2.3.1 Installation Requirements................................................................................... 54 2.3.2 The ODU Power Feeder .................................................................................... 55 2.3.
Contents Chapter 4 - Operation and Administration 4.1 BreezeMAX System Management.............................................................................. 78 4.2 The Monitor Program .................................................................................................. 80 4.2.1 Accessing the Monitor Program ......................................................................... 80 4.2.2 Using the Monitor Program .............................................................................
Contents 4.5.4 Performance Monitoring................................................................................... 121 4.6 Radio Cluster Menu................................................................................................... 124 4.6.1 Show Summary................................................................................................ 124 4.6.2 Select ............................................................................................................... 125 4.6.3 Add...
Contents 4.9.7 SU # Menu ....................................................................................................... 154 4.9.8 Add New SU..................................................................................................... 172 4.9.9 Clear All Configured SU SW Files.................................................................... 172 4.10Services Menu........................................................................................................... 173 4.10.
Contents B.3.2 Voice RTP BW Calculation .............................................................................. 242 B.3.3 Voice RTCP BW Calculation............................................................................ 242 B.3.4 T.38 14,400 Kbps Fax RTP BW Calculation .................................................... 242 B.3.5 FAX RTCP BW Calculation.............................................................................. 243 B.3.6 QoS Profiles ..........................................
Figures Figure 1-1: BreezeMAX System Architecture................................................................................ 4 Figure 2-1: AU-ODU-HP Pole Installation Using Special Clamps ............................................... 32 Figure 2-2: AU-ODU-HP Pole Installation Using Metal Band...................................................... 33 Figure 2-3: Bottom Panel of the AU-ODU ...................................................................................
Tables Table 1-1: Number of AU-IDUs, AU-ODUs and Power Feeders Required for Various Configurations............................................................................................................................................. 10 Table 1-2: PSU Requirements, Configurations with one NPU (excluding PSU redundancy) ..... 11 Table 1-3: Radio Specifications................................................................................................... 15 Table 1-4: Base Station 2.
Tables Table 2-7: PIU LEDs ................................................................................................................... 41 Table 2-8: PSU Requirements, Configurations with one NPU (excluding PSU redundancy) ..... 42 Table 2-9: PSU LEDs .................................................................................................................. 43 Table 2-10: AU-IDU LEDs ...........................................................................................................
Tables Table 4-7: Hybrid VLAN Mode .................................................................................................. 180 Table 4-8: Hybrid VLAN Mode .................................................................................................. 187 Table 4-9: Priority Marking Values ............................................................................................ 195 Table 4-10: CT Values ........................................................................................
1 Chapter 1 - System Description In This Chapter: “Introducing BreezeMAX” on page 2 “Base Station Equipment” on page 5 “Networking Equipment” on page 12 “Management Systems” on page 12 “Specifications” on page 15
Chapter 1 - System Description 1.1 Introducing BreezeMAX BreezeMAX TDD (BreezeMAX) is Alvarion's WiMAX-ready platform operating in Time Division Duplex (TDD) mode. It leverages Alvarion's market-leading knowledge of Broadband Wireless Access (BWA), industry leadership, proven field experience, and core technologies including many years of experience with OFDM technology. Built from the ground up based on the IEEE 802.
Introducing BreezeMAX 4th order receive diversity at the Base Station using Maximum Receive Ratio Combining (MRRC). Uplink sub-channels using OFDMA-16 for increased service efficiency and improved link budget. A high-power CPE with an integral antenna array, providing 360 degrees coverage with smart selection of Tx and Rx antennas. An optional wall/window mounted antenna to extend the coverage area. Automatic frequency scanning and best Access Unit/Base Station selection algorithms in the CPE.
Chapter 1 - System Description Networking Equipment: Standard switches/routers and other networking equipment, supporting connections to the backbone and/or Internet. Management Systems: SNMP-based Management, RADIUS server(s) and other Operation Support Systems.
Base Station Equipment 1.2 Base Station Equipment The Multi Carrier, High Power, Full Duplex Base Station provides all the functionality necessary to communicate with SUs and to connect to the backbone of the Service Provider. The Base Station comprises the following elements: 1.2.1 Base Station Chassis The Base Station equipment is based on an 8U high cPCI (compact Peripheral Component Interconnect) shelf designed for installation in a 19" or 21" (ETSI) rack.
Chapter 1 - System Description Aggregate backbone Ethernet connectivity via a 100/1000 Base-T network interface. Traffic classification and connection establishment initiation. Policy based data switching. Service Level Agreements management. RADIUS NAS, enabling centralized SUs’ authentication and services authorization by RADIUS server(s). Centralized agent in the Base Station to manage all cell site's AUs and all registered SUs.
Base Station Equipment Each AU-IDU includes four channels using a common PHY and MAC that can connect to up to four outdoor radio units, according to the selected diversity mode (refer to Section 1.2.5 below for more details). The AU-IDU module connects to the AU-ODUs via Intermediate Frequency (IF) cables carrying full duplex data, control and management signals between the AU-IDU and the AU-ODU, as well as power (-48 VDC) and 64 MHz synchronization reference clock from the AU-IDU to the AU-ODU.
Chapter 1 - System Description The following figure describes the multi channel use to cover a cell of 360° with 4 sectors, using frequency reuse 1: The following figure describes the multi channel use to cover a cell of 360° with 4 sectors, using frequency reuse 1/2: 1.2.5.3 2nd Order Diversity Multiple channel configuration with second order diversity allows coverage of one sector with space diversity by a single AU-IDU and two ODUs connected to channels 1 and 2.
Base Station Equipment 1.2.5.4 4th Order Diversity Multiple channel configuration with fourth order diversity allows a single sector coverage by a single AU-IDU with 4 ODUs. In each sector, both space and polarization diversities are implemented, using dual polarization slant antennas. The channels are paired: channels 1 and 2 form one pair, channels 3 and 4 form the second pair. The two ODUs connected to each pair are connected to the same dual polarization antenna.
Chapter 1 - System Description Table 1-1: Number of AU-IDUs, AU-ODUs and Power Feeders Required for Various Configurations Diversity Mode Number of Sectors (AU-IDUs) Number of ODUs Number of Power Feeders Second Order Diversity 3 6 - 4 8 1 6 12 2 3 12 2 4 16 3 6 24 5 Fourth Order Diversity 1.2.
Base Station Equipment Table 1-2: PSU Requirements, Configurations with one NPU (excluding PSU redundancy) 1.2.9 Number of AU-IDUs Minimum Required Number of PSUs 1-2 1 3-4 2 5-6 3 Air Ventilation Unit (AVU) The 2U high AVU includes a 1U high integral chamber for inlet airflow and a 1U high fan tray with an internal alarm module. To support high availability Base Station, the fan tray includes 10 brush-less fans, where 9 fans are sufficient for cooling a fully loaded chassis.
Chapter 1 - System Description 1.2.10.2 Outdoor GPS Receiver The all-outdoor GPS Receiver is a pole mountable GPS receiver and antenna in a single environmentally protected enclosure. The Outdoor GPS Receiver is powered by a 12 VDC power source, supplied to it by the NPU via the GPS Adapter. The RS-422 interface allows installation at distances up to 100m. 1.2.10.3 GPS Adapter Unit The GPS Adapter connects the different GPS units to the NPU, adapting the different interfaces.
Management Systems 1.4.1 AlvariSTAR™ AlvariSTAR is a comprehensive Carrier-Class network management system for Alvarion's Broadband Wireless Access products-based Networks.
Chapter 1 - System Description dramatically extends the abilities of the service provider to provide a rich portfolio of services and to support rapid customer base expansion. 1.4.2 BreezeLITE™ Alvarion's BreezeLITE is an SNMP (Simple Network Management Protocol) application designed for on-line management of BreezeMAX system components.
Specifications 1.5 Specifications 1.5.1 Radio Table 1-3: Radio Specifications Item Description Frequency Unit/Band Frequency (MHz) AU-ODU-HP-2.3 2300 - 2360 AU-ODU-HP-2.3-WCS 2305 - 2315, 2350 - 2360 AU-ODU-HP-2.5-A1 2496 - 2602 AU-ODU-HP-2.5-A2 2590 - 2690 AU-ODU-HP-TDD-3.4a 3399.5 - 3455 AU-ODU-HP-TDD-3.4b 3455 - 3500 AU-ODU-HP-TDD-3.5a 3500 - 3555 AU-ODU-HP-TDD-3.4a 3545 - 3600 Operation Mode TDD, Full duplex Channel Bandwidth 3.
Chapter 1 - System Description Table 1-3: Radio Specifications Item Description Typical Sensitivity (BER=1E-6) Modulation & Coding Minimum SNR (dB) Sensitivity (dBm) @ 3.5 MHz BW Sensitivity (dBm) @ 5 MHz BW BPSK 1/2 2.5 -99.5 -98 BPSK 3/4 4.8 -97.5 -96 QPSK 1/2 5.9 -96.5 -95 QPSK 3/4 8.6 -93.5 -92 QAM16 1/2 11.4 -90.5 -89 QAM16 3/4 14.8 -87.5 -86 QAM64 2/3 20 -82.5 -81 QAM64 3/4 20.9 -81.5 -80 1.5.2 Base Station 2.X GHz Antennas (Optional) Table 1-4: Base Station 2.
Specifications 1.5.3 Base Station 3.5 GHz Antennas (Optional) Table 1-5: Base Station 3.5 GHz Antennas, Electrical Specifications Item Description BS ANT 60V/3.3-3.8 16.5 dBi minimum in the 3.3-3.8 GHz band, 60° AZ x 10° EL, vertical polarization, compliant with ESTI EN 302 085 V.1.1.2 (2001-02) CS2. BS ANT 90V/3.3-3.8 15 dBi typical in the 3.3-3.8 GHz band, 90° AZ x 9° EL, vertical polarization, compliant with ESTI EN 302 085 V.1.1.2 (2001-02) CSI,CS2,CS3 BS ANT 120/3.5V 14 dBi typical in the 3.
Chapter 1 - System Description Table 1-6: AU-IDU to AU-ODU Communication Item Description Minimum IF cable Shielding Effectiveness 90 dB in the 10-300 MHz band Maximum IF cable Return Loss 20 dB in the 10-300 MHz band Maximum IF cable DC Resistance 1.5 ohm 1.5.5 Data Communication (Ethernet Ports) Table 1-7: Data Communication (Ethernet Ports) Item Description Standard Compliance IEEE 802.
Specifications 1.5.7 Standards Compliance, General Table 1-9: Standards Compliance, General Type Standard EMC ETSI EN 301 489-1/4 ETSI EN 300-385 EN 60950-1 Safety UL 60 950-1 Environmental ETS 300 019: Part 2-1 T 1.2 & part 2-2 T 2.3 for indoor & outdoor Part 2-3 T 3.2 for indoor Part 2-4 T 4.1E for outdoor ETSI EN 301 753 V.1.1.1 Radio ETSI EN 301 021 V.1.6.1 FCC 04-135 FCC 27.53 1.5.
Chapter 1 - System Description 1.5.
Specifications 1.5.10 Physical and Electrical 1.5.10.1 Mechanical Specifications, Base station Equipment Table 1-12: Mechanical Specifications, Base Station Equipment Unit Dimensions (cm) Weight (kg) BST-SH 8U ETSI type shelf, 8U x 43.19 x 24 6.9 (excluding AVU) PIU 3U x 5HP x 16 0.35 PSU 3U x 8HP x 16 0.7 NPU 6U x 7HP x 16 0.7 AU-IDU-4CH 6U x 7HP x 16 AU-ODU-HP 31.5 x 16 x 16 5.5 AVU 2U x 84HP x 16 1.7 Power Feeder panel 1U ETSI type panel 0.14 Power Feeder Module 15.7 x 14.
Chapter 1 - System Description Table 1-13: Electrical Specifications, Base Station Equipment Unit Details ODU Power Feeder Power Source: -40.
Specifications 1.5.10.3 Connectors, Base station Equipment Table 1-14: Connectors, Base Station Equipment Unit Connector Description PIU -48V 3 pin/40A D-Type male Amphenol P/N 717TWA3W3PHP2V4RRM6 NPU DATA 100/1000Base-T (RJ-45) with 2 embedded LEDs. Cable connection to a PC: Crossed Cable connection to a hub: Straight MGMT 10/100Base-T (RJ-45) with 2 embedded LEDs.
Chapter 1 - System Description Table 1-14: Connectors, Base Station Equipment Unit Connector Description Indoor GPS Receiver POWER 4 pins power plug TIME OF DAY CHANNEL 9-pin D-Type jack COMMAND CHANNEL 9-pin D-Type jack 2.048MHz BNC jack 1PPS BNC jack ANTENNA TNC jack Outdoor GPS Receiver 1.5.10.4 12-pin round plug Base Station 2.X GHz Antennas, Mechanical Specifications Table 1-15: Base Station 2.
Specifications 1.5.10.5 Base Station 3.5 GHz Antennas, Mechanical Specifications Table 1-16: Base Station 3.5 GHz Antennas, Mechanical Specifications Unit Description Dimensions (cm) Weight (kg) BS ANT 60V/3.3-3.8 Mounting kit: 2" to 4" pole 50 x 20 x 3 1.5 53.6 x 36 x 3 2.3 76.2 x 8.3 x 7.6 2.0 48 x 20 x 4 2 60 x 25 x 5.5 2 85.1 x 16 x 6.1 2 maximum 85.1 x 16 x 6.1 2 maximum 68.8 x 17 x 14.5 4 maximum 67.5 tubular, 2 diameter 0.3 Connector: N-Type female BS ANT 90V/3.3-3.
2 Chapter 2 - Installation Guidelines In This Chapter: “Installing the AU-ODU” on page 28 “Installing the Base Station Equipment” on page 37 “Installing the ODU Power Feeder” on page 54 “Installing the GPS Adapter” on page 58 NOTE Refer to the BreezeMAX Base Station Installation Manual for more detailed instructions on installation of the Base Station and its components.
Chapter 2 - Installation Guidelines 2.1 Installing the AU-ODU The following sections describe how to install the AU-ODU, including pole mounting the ODU and connecting the cables. 2.1.1 AU-ODU Installation Requirements 2.1.1.1 AU-ODU Packing List ODU: Any of the following: Table 2-1: AU-ODU Types Item Description BMAX-BST-AU-ODU-HP-2.3 High Power AU-ODU operating in the 2.3 GHz band (2300-2360 MHz) BMAX-BST-AU-ODU-HP-2.3-WCS High Power AU-ODU operating in the 2.
Installing the AU-ODU NOTE Items marked with an asterisk (*) are available from Alvarion. 2.1.2 Guidelines for Positioning the AU-ODU This section provides key guidelines for selecting the optimal installation locations for the AU-ODU and its antenna. CAUTION ONLY experienced installation professionals who are familiar with local building and safety codes and, wherever applicable, are licensed by the appropriate government regulatory authorities should install outdoor units and antennas.
Chapter 2 - Installation Guidelines 2.1.3 IF Cables The AU-ODU is connected to the Micro Base Station (or to the ODU Power Feeder) via an IF cable carrying both signals and power. The maximum permitted attenuation of the IF cable at applicable frequencies, its screening effectiveness and its maximum permitted DC resistance (the sum of the DC resistance of the inner and outer conductors) are provided in the following table.
Installing the AU-ODU The protrusions with grooves on the top backsides of the unit, and the protrusion on the bottom backside, enable the use of 9/16" wide metal bands (not included with the package) to secure the unit to a pole. NOTE Install the unit with the bottom panel, which includes the LEDs, facing downward.
Chapter 2 - Installation Guidelines 2.1.4.1 Pole Mounting the AU-ODU-HP Using Clamps Figure 2-1 illustrates the method of mounting a High Power AU-ODU-HP on a pole, using the clamps and threaded rods. Figure 2-1: AU-ODU-HP Pole Installation Using Special Clamps NOTE I There is a groove on one end of the threaded rod. Insert the threaded rods with the grooves pointing outward, as these grooves enable you to use a screwdriver to fasten the rods to the unit.
Installing the AU-ODU 2.1.4.2 Pole Mounting the AU-ODU-HP Using Metal Bands Figure 2-2 illustrates the method of mounting a High Power AU-ODU-HP on a pole, using metal bands.
Chapter 2 - Installation Guidelines 2.1.5 AU-ODU Figure 2-3: Bottom Panel of the AU-ODU CAUTION Do not open the impermeability test screw - you may impair the sealing of the unit against moisture and humidity. Table 2-4: AU-ODU LEDs Name Description Functionality PWR Power indication Off - Power failure Green - Power to ODU is OK, internal 3.3 VDC power supply is OK. ALARM IDU-ODU communication and synthesizer status indication Off - IDU-ODU communication is OK, synthesizer is locked.
Installing the AU-ODU Table 2-5: AU-ODU Connectors Name Connector ANT (GND) Functionality N-Type jack, 50 ohm Connection to an external antenna Grounding screw Connection to ground (earth) 2.1.6 Connecting the Cables 2.1.6.1 Connecting the Grounding Cable The Grounding screw (marked ) is located on the bottom panel of the outdoor unit. To connect the grounding cable: 1 Connect one end of a grounding cable to the grounding screw and tighten the grounding screw firmly.
Chapter 2 - Installation Guidelines 2 Verify that the length of the IF cable is sufficient to reach the AU-IDU/Power Feeder. See IF cable length limitation in Section 2.1.3. 3 The IF cable connector should be properly sealed to protect against rain and moisture. 4 36 Route the cable to the location selected for the indoor equipment.
Installing the Base Station Equipment 2.2 Installing the Base Station Equipment 2.2.1 BST Installation Requirements 2.2.1.1 Packing List Base Station Chassis: BMAX-BST-SH Base Station Chassis BMAX-BST-AVU Air Ventilation Unit (installed) Cables Tray kit 2.5 meter DC cable BMAX-BST-PIU (1 or 2 per chassis) Power Interface Unit(s) 2.5 meter DC cable (for a redundant PIU.
Chapter 2 - Installation Guidelines A portable PC for configuring parameters using the Monitor cable (supplied with the NPU) Other installation tools and materials 2.2.2 BMAX-BST-SH Chassis Slot Assignments The Base Station chassis comprises 6 3U high slots and 9 6U high slots, as shown in Figure 2-4.
Installing the Base Station Equipment 2.2.3 Power Requirements Use the following table to calculate worst-case power source requirements for the Base Station equipment (see also some examples in Table 1-13): Table 2-6: Power Requirements, Base Station Equipment Unit Details Power Source -40.5 to -60 VDC PIU 16W maximum (active PIU) PSU 200W max output power Efficiency: 80% minimum NPU 72W maximum, including power required for GPS Adapter (1.
Chapter 2 - Installation Guidelines power source. Each Base Station chassis contains two slots for an optional 1+1 PIU redundancy. One PIU is sufficient to support a fully populated chassis. Two PIU modules provide redundant power feeding (two input sources) while avoiding current flow between the two input sources. Figure 2-5: PIU Module Front Panel NOTE The HOT SWAP blue LED does not exist in first generation PIUs.
Installing the Base Station Equipment Table 2-7: PIU LEDs PWR and MASTER LEDs PIU Status PWR MASTER Off Off Chassis is not connected to power Red Off Power is not connected or power input is out of range or PIU card is damaged. Chassis is powered by the redundant PIU Red Green Power input is out of range or PIU card is damaged. Chassis is powered by the PIU Green Off Power to PIU is OK. PIU is in redundant mode and the chassis is powered from the other PIU Green Green Power to PIU is OK.
Chapter 2 - Installation Guidelines 2.2.6 Power Supply Unit (PSU) The single Euro PSU module is a 48 VDC power supply unit. Each Base Station chassis can contain up to four PSU modules providing N+1 redundancy configurations.
Installing the Base Station Equipment Figure 2-6: PSU Module Front Panel Table 2-9: PSU LEDs LED Status Description PWR ALRM Off Off No power or fatal damage Off Red Power input is out of range or PSU is damaged or PSU is inhibited by NPU Green Off Power is OK and PSU operates properly BreezeMAX Modular Base Station System Manual 43
Chapter 2 - Installation Guidelines 2.2.7 Access Unit Indoor Module (AU-IDU) The double Euro Access Unit IDU module contains the wireless IEEE 802.16a MAC and modem and is responsible for the wireless network connection establishment and for bandwidth management. Each AU-IDU includes four PHY channels that can connect to AU-ODUs.
Installing the Base Station Equipment Table 2-10: AU-IDU LEDs Name Description Functionality PWR Power indication Off - AU-IDU is not powered Red - AU-IDU power supply failed (low power) Green - AU-IDU power is OK ALRM Alarm indication Off - AU-IDU is OK Red - AU-IDU failure WLINK Wireless link status indication Off - No SU is associated Green - At least one SU is associated WACT IDU transmission indication Off - No IDU transmission Green - IDU transmission OK SP Spare No
Chapter 2 - Installation Guidelines 2.2.8 Network Processing Unit (NPU) The NPU module serves as the central processing unit that manages the base station's components and the SUs served by it. It also aggregates the traffic from the AU modules and transfers it to the IP backbone through a dedicated Gigabit/Fast Ethernet interface.
Installing the Base Station Equipment Table 2-11: NPU Connectors Name Connector Functionality DATA 100/1000Base-T (RJ-45) with 2 embedded LEDs. Connection to the backbone. Cable connection to a hub/switch/router: Straight MGMT 10/100Base-T (RJ-45) with 2 embedded LEDs. Connection to OOB management.
Chapter 2 - Installation Guidelines Table 2-12: NPU LEDs Name Description Functionality GPS/SYNC GPS/IF clock synchronization functionality indication Off - GPS/IF clock synchronization is disabled Green - GPS/IF clock is synchronization enabled HOT SWAP NPU readiness for hot-swap removal Off: Power to the module is not disconnected, the NPU is not ready for removal Blue: Power to the module can be disconnected and the NPU can be safely removed For instructions on using the HOT SWAP handle
Installing the Base Station Equipment NOTE If a module is fully inserted without properly locking the handles, it will become operational. However, in this state the hot-swap mechanism is not supported. A warning message (trap) will be sent. To insert a PSU or a PIU without HOT SWAP support: CAUTION In a PIU without HOT SWAP LED, disconnect power from the PIU module before inserting it to the chassis. 1 Firmly push in the module into its intended slot.
Chapter 2 - Installation Guidelines CAUTION In a PIU without HOT SWAP LED, disconnect power from the PIU module before ejecting it from the chassis. Before disconnecting the power cable from the PIU, the power source must be disconnected to avoid irreversible damage due to a potential excessively high transient current. 1 Release the screw at the top of the front panel. 2 Press the handle's red button until the handle is unlocked.
Installing the Base Station Equipment length of the Ethernet cable is 100m when operating at 100 Mbps and 70m when operating at 1 Gbps. 7 If the MGMT port will be used for remote management, connect it to the appropriate data equipment (use a straight Ethernet cable to connect to a hub/switch/router). The maximum length of the Ethernet cable is 100m. 8 Connect the DC power cable to the power jack of the PIU module. If a redundant PIU is installed, connect a DC power cable also to the second PIU module.
Chapter 2 - Installation Guidelines 2.2.11 Air Ventilation Unit (AVU) Figure 2-9: AVU Drawer Front Panel The 2U high, 84 HP wide AVU includes a 1U high integral chamber for inlet airflow and a 1U high fan tray with an internal alarm module. To support a high availability Base Station, the fan tray includes 10 brush-less fans, where 9 fans are sufficient for cooling a fully loaded chassis.
Installing the Base Station Equipment 2.2.11.1 Replacing an NPU To minimize downtime and facilitate fast and easy NPU replacement, it is recommended to maintain an updated copy of the NPU configuration. Refer to Section 4.5.2.6 for details on preparing and uploading a backup file of the NPU configuration. 1 Release the screws at the top and the bottom of the NPU's front panel. 2 Press the handles' red button until the handles are unlocked.
Chapter 2 - Installation Guidelines 2.3 Installing the ODU Power Feeder 2.3.1 Installation Requirements 2.3.1.1 Packing List A 19” panel (can hold up to three ODU Power Feeder modules). ODU Power Feeder module, including a DC power cable, four 0.5 meter IF cables and four screws. 2.3.1.2 Additional Installation Requirements A grounding cable with appropriate terminations for connecting the unit's ground terminal to the rack or to a ground connection.
Installing the ODU Power Feeder 2.3.2 The ODU Power Feeder The ODU Power Feeder is used to provide power (-48 VDC) to AU-ODU-HP High Power ODUs. It transfers transparently all signals between the AU-IDU and the ODU, while injecting DC power received from an external source. Each ODU Power Feeder unit can serve up to four High Power ODUs. Up to three ODU Power Feeder units can be installed in a 1U high Power Feeder panel.
Chapter 2 - Installation Guidelines Table 2-15: ODU Power Feeder LEDs Name Description Functionality PWR Input power indication Off - ODU Power Feeder is not powered Green - ODU Power Feeder power is OK ODU PWR 1 - 4 Output power indications Off - AU-ODU-HP is not connected Red - Power output problem (short or overload) Green - AU-ODU-HP is connected and powered 2.3.2.1 Preparing a Power Cable A 2.5m DC power cable is supplied with each ODU Power Feeder module.
Installing the ODU Power Feeder To install the ODU Power Feeder: 1 The panel is supplied with blank covers. Release the nuts on the rear side of the panels to remove the blank cover(s) you want to replace with ODU Power Feeder module(s). Attach the ODU Power Feeder module(s) to the panel using the four screws supplied with each module. 2 Place the panel with the ODU Power Feeder module(s) on a shelf/desk or install it in a 19" cabinet, next to the Base Station equipment.
Chapter 2 - Installation Guidelines 2.4 Installing the GPS Adapter 2.4.1 Installation Requirements 2.4.1.1 Packing List A 19” panel (can hold also ODU Power Feeder modules). GPS Adapter module, including a 2m NPU to GPS Adapter cable and four screws. 2.4.1.2 Additional Installation Requirements A grounding cable with appropriate terminations for connecting the unit's ground terminal to the rack or to a ground connection.
Installing the GPS Adapter 2.4.2 The GPS Adapter The GPS Adapter connects the different GPS units to the NPU, adapting the different interfaces. Future versions may include an internal GPS module that will allow an all-in-one low-cost solution. A future optional addition of OCXO in the GPS Adapter box may provide an improved hold over solution when the GPS is not synchronized. The GPS Adapter is powered by 12 VDC supplied by the NPU.
Chapter 2 - Installation Guidelines Table 2-16: GPS Adapter Connectors Name Connector Functionality ODU GPS RJ-45 jack 1PPS (RS-442 interface) from Outdoor GPS Receiver Serial control signals (RS-422 interface) to Outdoor GPS Receiver Power (12 VDC) to Outdoor GPS Receiver (GND) Grounding Screw Connection to ground (earth) Table 2-17: GPS Adapter LEDs Name Description Functionality PWR Input power indication Off - Power input failure Green - 12 VDC power supply from NPU is OK 1PPS
Installing the GPS Adapter covers. Release the nuts on the rear side of the panel to remove the blank cover you want to replace with the GPS Adapter. Attach the GPS Adapter module to the panel using the four screws supplied with it. 2 Place the panel with the GPS Adapter (and optionally ODU Power Feeders) on a shelf/desk or install it in a 19" cabinet, next to the Base Station equipment. The distance from the Base Station equipment should allow connection of the 2 meters NPU to GPS Adapter cable.
3 Chapter 3 - Commissioning In This Chapter: “Configuring Basic Parameters of Base Station” on page 64 “Operation Verification” on page 70
Chapter 3 - Commissioning 3.1 Configuring Basic Parameters of Base Station 3.1.1 NPU Parameters Required for Management After completing the installation process, as described in the preceding chapter, some basic NPU parameters must be configured using the Monitor application via the MON port of the NPU. These parameters are necessary to enable remote management using SNMP or Telnet.
Configuring Basic Parameters of Base Station Table 3-1: Basic NPU Parameters Management Option Parameters DATA port Data Port IP address Data Port Subnet Mask Data Port Gateway Data Port Management VLAN ID Data Port Management Traffic Enable/Disable Data Port Speed Authorized Managers (per manager) IP Address Send Traps Read Community Write Community The following are the guidelines for configuring the basic NPU parameters: All parameters of both ports should be configured.
Chapter 3 - Commissioning NOTE If no Authorized Manager is defined in the device, it can be managed using SNMP by any station. If at least one Authorized Manager is defined, the device can be managed only by a station whose parameters match a defined Authorized Manager. After the basic NPU parameters have been configured, the Base Station can be managed remotely using either Telnet or SNMP-based management.
Configuring Basic Parameters of Base Station UDP Port 3.1.3.3 RADIUS Accounting At least one Accounting server must be defined to enable RADIUS-based provisioning of services. IP Address UDP Port 3.1.4 Chain parameters Chain Number GPS Protocol 3.1.5 Radio Cluster Radio Cluster ID: Verify that all required Radio Cluster IDs are defined 3.1.6 ODU Define the necessary ODUs.
Chapter 3 - Commissioning The following must be configured for each AU: 3.1.7.2 Unit Control - SW Versions Control 3.1.7.2.1 SW File Name Action 3.1.7.2.2 SU SW File Name Action 3.1.7.3 MAC Parameters Sector ID Maximum Cell Radius (km) 3.1.7.4 Phy Parameters Bandwidth 3.1.7.5 Multi Channel Parameters Diversity Mode The following parameters must be configured for each channel used if Diversity Mode is No Diversity.
Configuring Basic Parameters of Base Station Downlink Basic Rate 3.1.8 SU 3.1.8.
Chapter 3 - Commissioning 3.2 Operation Verification The following sections describe how to verify the correct functioning of the Outdoor Units, Indoor Units, Ethernet connection and data connectivity. 3.2.1 AU-ODU LEDs To verify the correct operation of the AU-ODU, examine the LED indicators located on the bottom panel of the outdoor unit. The following tables list the provided LEDs and their associated indications.
Operation Verification Table 3-3: AU-IDU LEDs Name Description Functionality PWR Power indication Off - AU-IDU is not powered Red - AU-IDU power supply failed (low power) Green - AU-IDU power is OK ALARM Alarm indication Off - AU-IDU is OK Red - AU-IDU failure WLINK Wireless link status indication Off - No SU is associated Green - At least one SU is associated WACT IDU transmission indication Off - No IDU transmission Green - IDU transmission OK SP Spare Not Used IP IP
Chapter 3 - Commissioning Table 3-4: NPU LEDs Name Description Functionality PWR Power indication Off - NPU is not powered Red - NPU power failure Green - NPU power is ok ALRM NPU Alarm indication Off - NPU is OK Red - NPU failure BST ALRM Base Station chassis alarm indication Off - All Base Station modules are OK Red - Failure in one (or more) Base Station modules EXT ALRM External alarm indication Off - No alarm received via the AL IN connector Red - Alarm received via the
Operation Verification Table 3-5: PIU LEDs LED Status Description PWR MASTER Off Off Chassis is not connected to power Red Off Power is not connected or power input is out of range or PIU card is damaged. Chassis is powered by the redundant PIU Red Green Power input is out of range or PIU card damaged. Chassis is powered by the PIU Green Off Power to PIU is OK. PIU is in redundant mode and the chassis is powered from the other PIU Green Green Power to PIU is OK.
Chapter 3 - Commissioning 3.2.3 ODU Power Feeder LEDs To verify the correct operation of the ODU Power Feeder, examine the LED indicators located on the front panel of the unit. The following table lists the LEDs of the ODU Power Feeder and their associated indications.
Operation Verification Table 3-9: GPS Adapter LEDs Name Description Functionality Active GPS - INT INT GPS selection indication Green - indicates that the selected GPS Receiver: is INT (Internal). Internal is not supported in current release. Off - INT GPS Receiver is not selected INT CLOCK Internal clock source indication Green - Internal 16MHz clock is ok (not supported in current release) Red - Internal clock is not available or clock failure 3.2.
4 Chapter 4 - Operation and Administration In This Chapter: “BreezeMAX System Management” on page 78 “The Monitor Program” on page 80 “The NPU's Main Menu” on page 84 “Base Station Menu” on page 86 “NPU Menu” on page 107 “Radio Cluster Menu” on page 124 “ODU Menu” on page 127 “AU Menu” on page 132 “SU Menu” on page 150 “Services Menu” on page 173 “NPU Parameters Summary” on page 216
Chapter 4 - Operation and Administration 4.1 BreezeMAX System Management All BreezeMAX system components associated with a Base Station are managed via the Base Station's NPU module. The other system components (AUs and SUs) are not accessed directly: each configuration change or status enquiry is sent to the NPU that communicates with other system components. NOTE The SU can also be managed directly from its Ethernet port using the Installer Monitor program or the built-in Web Server.
BreezeMAX System Management This chapter describes how to manage the system using the Monitor application. For information on managing the system using AlvariSTAR refer to the Applicable AlvariSTAR documentation. NOTE To enable remote management (using SNMP and/or Telnet), the parameters of the applicable port (MGMT and/or DATA) must first be configured via the MON port. For details on the applicable parameters refer to Section 4.5.3.1 (Management Port) and Section 4.5.3.2 (Data Port).
Chapter 4 - Operation and Administration 4.2 The Monitor Program 4.2.1 Accessing the Monitor Program To access the Monitor program via the MON connector: 1 Use the Monitor cable to connect the MON connector of the NPU to the COM port of your ASCII ANSI terminal or PC. The COM port connector on the Monitor cable is a 9 pin D type plug. 2 Run a terminal emulation program, such as HyperTerminal™.
The Monitor Program To access the Monitor program using Telnet: 1 The PC used for accessing the Monitor program should be configured according to the parameters configured for the applicable port (MGMT or DATA port). 2 If you connect directly to the MGMT or DATA port, use a crossed Ethernet cable. 3 Run the Telnet program connecting to the IP address of the connected port. 4 The Enter the password message is displayed. Enter the password and press the Enter key to get to the Main menu.
Chapter 4 - Operation and Administration Each menu or submenu specifies the unit type (BreezeMAX/NPU), the IP address of the port used for accessing the Monitor program (when using the MON port, there is no IP address), the running SW version and a description of the menu. Each menu or submenu displays a list of numbered options. To access an option, enter the number of the required option at the > prompt and press the Enter key.
The Monitor Program Select the Exit option in the Main menu to exit the program and terminate the session.
Chapter 4 - Operation and Administration 4.3 The NPU's Main Menu The Main menu of the NPU Monitor program includes the following options: 1 - Base Station 2 - NPU 3 - Radio Cluster 4 - ODU 5 - AU 6 - SU 7 - Services X - Exit 4.3.1 Base Station Menu The Base Station menu enables to view general base station status information, to configure general base station parameters, and to view active alarms or traps log. For details refer to Section 4.4. 4.3.
The NPU's Main Menu 4.3.5 AU Menu The AU menu enables configuring the parameters of selected AUs, including pre-configuration of AUs that are not yet installed. It also enables managing AUs SW versions and viewing current status, configurations and performance information. For details refer to Section 4.8. 4.3.6 SU Menu The SU menu enables viewing summary information of all relevant SUs, configuring the parameters of a selected SU and defining new SUs.
Chapter 4 - Operation and Administration 4.4 Base Station Menu The Base Station menu includes the following options: Show Configuration Alarms and Traps RADIUS Licenses Chain GPS Info 4.4.1 Show Select this option to view the current value/selected option of configurable parameters. Refer to Section 4.4.2 for more details on these parameters.
Base Station Menu ¾ Operational status (OK/Fault) of an installed module Operational status (OK/Fault) of the AVU module PIU slots status, displaying for each PIU slot: ¾ Mode: Master, Redundant or Not Installed ¾ Operational status (OK/Fault) of an installed module PSU slots table, displaying the status of each slot: Not installed, OK or Fault. Licenses Status CPEs License Bank status Base Station License Status For details refer to Section 4.4.5.
Chapter 4 - Operation and Administration 4.4.2.2 Device Location The Device Location parameter provides location information for the Base Station equipment. The location name consists of up to 255 printable characters. The default Device Location is a null string (empty). 4.4.2.3 ATPC Parameters BreezeMAX employs an Automatic Transmit Power Control (ATPC) algorithm to dynamically adapt the transmit power of each SU so that it is received by the AU-ODU at an optimal level.
Base Station Menu 4.4.2.4.1 Operator ID A unique identifier of the network. The same Operator ID must be defined for all Base Stations/Micro Base Stations in the network, and it should not be used by any Base Station/Micro Base Station belonging to another network in the same area. The Operator ID consists of 3 groups of up to three digits each, where the range for each group is 0 to 255. The default Operator ID is 186.190.0.
Chapter 4 - Operation and Administration 4.4.2.5.2 DL-UL Ratio Applicable only when the Duplex Mode is set to TDD. Defines the ratio of transmit (Down Link) time to receive (Up Link) time, in percents. The available values are: 1: 65-35 2: 60-40 3: 55-45 4: 50-50 5: 45-55 6: 40-60 7: 35-65 The default is 65-35 (%). A change in the configured DL-UL Ratio is applied only after reset.
Base Station Menu 4.4.2.6.2 External 16 MHz Clock The 16 MHz clock source is used for generation of all main clocking signals in the system, including the internal 1PPS clock. Using an external, accurate 16 MHz clock source will enable better hold-over of the 1PPS clock upon temporary loss (or reduced reliability when receiving less than 4 satellites) of the external 1PPS clock. This will allow a longer time of continued operation before appearance of interferences due to clock drifts among Base Stations.
Chapter 4 - Operation and Administration The default is Info severity, which means that all the traps in the log will be displayed. 4.4.3.2.2 Days The Days parameter enables defining the period for which traps will be displayed. The available options are from 1 to 31 days. Only traps that occurred within the last N days, where N is the value selected for this parameter, will be displayed. The default is 31 days. 4.4.3.3 Show Traps Log Select to view the traps log.
Base Station Menu Default Severity Current Severity Suppression Interval (in seconds. The default Suppression Interval is 0, which means no suppression). 4.4.3.4.2 Admin Status The Admin Status menu enables viewing a list of all traps with Admin Status Disabled, updating the Admin Status of a selected trap and restoring the Admin Status of all traps to the default Enabled status.
Chapter 4 - Operation and Administration restoring the Suppression Intervals of all traps to the default value of 0 (no suppression). The Severity menu includes the following options: Show Traps with Modified Suppression Interval: Displays all traps with Suppression Interval that differs from the default suppression interval, which is 0 (no suppression). Update: Enables modifying the Suppression Interval of a selected trap. The available range is from 0 to 86,400 (seconds). 0 means no suppression.
Base Station Menu secret must be silently discarded. If the client is valid, the RADIUS server consults a database of users to find the user whose User Name matches the request. The user entry in the database contains the User Password that must be verified. A RADIUS server can be used for authentication purposes only, for accounting purposes only, or for both authentication and accounting purposes. Up to two servers of each type can be defined.
Chapter 4 - Operation and Administration 4.4.4.1.1 Shared Secret Shared Secret is the key used for encrypting the User name and Password transmitted to the RADIUS server(s). For security and control reasons, the Shared Secret option is available only for users with Administration access rights, using the Administrator Password to access the program. The Shared Secret cannot be changed using SNMP.
Base Station Menu 4.4.4.2 Authentication The Authentication menu enables viewing the status and parameters of defined Authentication servers, adding a new server (up to a maximum of two), or deleting a server from the database. The parameters of an existing server cannot be updated: to modify the parameters of a server, it must first be deleted and then defined again through the Add Server option. The Authentication menu includes the following options: Show All Add Server Select Server 4.4.4.2.
Chapter 4 - Operation and Administration 4.4.4.2.2.2 UDP Port Specifies the UDP port number used by the RADIUS server for authentication transactions. Valid values: 1 to 65535. The default value is 1812 (RFC 2865 requirement). 4.4.4.2.2.3 Server Status Defines whether this server is Primary or Secondary. Each Authentication server can be defined as either Primary or Secondary. Only one Authentication server can be defined as Primary. However, both servers can be defined as Secondary. 4.4.4.2.
Base Station Menu Access Challenges: The number of RADIUS Access-Challenge packets (valid or invalid) received from this server. Malformed Access Responses: The number of malformed RADIUS Access-Response (Access-Accept, Access-Challenge or Access-Reject) packets received from this server. Malformed packets include packets with an invalid length. Bad authenticators or Signature attributes or unknown types are not included.
Chapter 4 - Operation and Administration 4.4.4.3.1 Show All Select this option to view the current status and parameters of all defined Accounting servers. For each defined Accounting server the following details are displayed: IP Address UDP Port Server Status: Primary or Secondary Operation Status: Up or Down (according to the keep alive mechanism) Activity Status: Active or Standby (indicates whether this is the server currently in use for accounting purposes) 4.4.4.3.
Base Station Menu Show: Displays current status and parameters. For information on displayed details refer to Section 4.4.4.3.1), Delete: To delete the server from the database. Statistics: To display or reset the Statistics Counters for this server.
Chapter 4 - Operation and Administration Packets Dropped: The number of RADIUS packets of which were received from this server on the accounting port and dropped for any reason. 4.4.5 Licenses The License feature enables managing the license(s) granted to CPEs with limited capabilities (“L model” CPEs) as well as the general Base Station licenses.
Base Station Menu License Count: The number of currently available licenses (balance). Each time a license is granted to a specific CPE, the License Count is decremented by one. 4.4.5.2 Show Base Station Licenses Select this option to view the current Base Station Licenses (if applicable). The displayed information includes the License ID and License Value for each applicable license.
Chapter 4 - Operation and Administration displayed list includes also the License ID (only BW license is applicable in the current version) and the expiry date of the temporary grace period. 4.4.6 Chain Future versions of BreezeMAX will enable chaining of co-located Base Stations to fully support intra-site synchronization.
Base Station Menu 4.4.6.4 Time Zone Offset From UTC This is the offset of the local time from UTC (Coordinated Universal Time). The range is from -12:00 up to +13:00 in 30 minutes resolution. The format must be either -XX:YY or +XX:YY where YY is either 00 or 30. The default is +02:00. 4.4.6.
Chapter 4 - Operation and Administration minutes (decimal format), and A is either N (North) or S (South). For example, 42 Deg 06.512 Min, N. Latitude: The latitude as calculated by the GPS receiver. The format is xx Deg yy.yyy Min, B, where xx is the latitude in degrees, yy.yyy is in minutes (decimal format), and B is either E (East) or W (West). For example, 024 Deg 25.290 Min, E. Altitude: The altitude in meters as calculated by the GPS receiver.
NPU Menu 4.5 NPU Menu The NPU menu includes the following options: Show Unit Control Configuration Performance Monitoring Following is a detailed description of these options. 4.5.1 Show Select this option to view the current value/selected option of configurable parameters. Refer to Section 4.5.3 for more details on these parameters.
Chapter 4 - Operation and Administration Management Port Dest Subnet Management Port Dest Subnet Mask Management Port Status (Up/Down) Management Port Management Traffic (Enabled/Disabled) Data Port Parameters and Status: Data Port MAC Address Data Port IP Address Data Port Subnet Mask Data Port Gateway Data Port Management VLAN Data Port Speed Data Port Status (Up/Down) Data Port Management Traffic (Enabled/Disabled) Authorized Managers (per manager) details: IP Address Sen
NPU Menu Shadow SW File Shadow SW Version Running From: The currently running version (Main or Shadow) Boot SW Version Frequency Bands File Version 4.5.2 Unit Control The Unit Control menu of the NPU enables changing the access Passwords and the Monitor Inactivity Timeout, resetting the NPU, reverting the Base Station and the NPU to the factory default configuration, managing the SW versions of the module and creating backup files.
Chapter 4 - Operation and Administration The default passwords are: Table 4-2: Default Passwords Access Level Default Password Administrator admin Installer installer Monitor monitor 4.5.2.2 Reset Unit Select this option to reset the NPU. To avoid unintentional reset, you will be prompted to confirm the reset request. Changes to some of the configurable parameters are applied only after reset. Refer to Section 4.
NPU Menu 1 Download the new SW File to the NPU. It will be stored as the Shadow version. 2 Reset and run the module from its Shadow version. Note that at this stage, after reset the unit will reboot from its previous Main version. 3 If you want to continue using the new version, swap the Shadow and Main versions. The new version is now defined as Main, and will be used each time the module reboots. The previous version is defined now as Shadow.
Chapter 4 - Operation and Administration 4.5.2.4.2 Run from Shadow Select the Run from Shadow option to reset the NPU and run the Shadow version after power up. To avoid unintentional actions you will be prompted to confirm the request. 4.5.2.4.3 Set as Main When the NPU is running the Shadow version (after selecting Reset and Run from Shadow), it will boot from the Main version after the next reset.
NPU Menu To upload/download the Backup File: After the backup file has been created, it can be uploaded using a DOS based TFTP Client application to a target directory. To upload the file, use the command: tftp -i get . The default file name is: Full: backup.res. Profiles: profiles.res Profiles and Services: profiles_srvcs.res Filtering: filtering.res Traps: traps_config.res The file is encrypted and cannot be edited.
Chapter 4 - Operation and Administration 4.5.3 Configuration The NPU Configuration menu enables viewing and updating parameters that define the functionality of the MGMT and DATA ports, the properties of authorized management stations and bridging functionality. It also enables configuring per Telnet session the types of messages that will be displayed upon occurrence of various events.
NPU Menu 4.5.3.1 Management Port Parameters These parameters define the IP parameters for the Management (MGMT) port connecting the base station to the backbone. NOTE It is highly recommended to use the Management port for local management only. Typically the port should be down (disconnected). The Ethernet interface of the Management port in the NPU operates using Auto Negotiation, enabling communication at either 10 Mbps or 100 Mbps, Full Duplex. 4.5.3.1.
Chapter 4 - Operation and Administration Port Management Traffic Enable/Disable and Data Port Management Traffic Enable/Disable parameters are set to Enable). The default is 0.0.0.0. for both parameters (meaning no Static Route). NOTE The Management Port Gateway, Destination Subnet and Destination Subnet Mask are grouped together. Exiting the configuration process (e.g. by pressing the Esc key) after configuring just the first one or two parameters in this group will discard the changes made.
NPU Menu D The Static Route subnet (defined by the Management Port Dest Subnet and Management Port Dest Subnet Mask parameters) reachable via the Gateway of the Management port. NOTE To prevent the undesired situation where remote management traffic is unintentionally disabled in both the Management and Data ports, the Data Port Management Traffic Enable/Disable parameter will be automatically forced to Enabled upon disabling the Management Port Management Traffic, and vice versa. 4.5.3.
Chapter 4 - Operation and Administration 4.5.3.2.5 Data Port Speed The speed of the Data port's Ethernet interface that operates always in full duplex mode. Auto negotiation is not supported. The available options are 100 Mbps and 1 Gbps. The default speed is 100 Mbps. 4.5.3.2.6 Data Port Management Traffic Enable/Disable The Data Port Management Traffic Enable/Disable parameter allows enabling/disabling remote management traffic via a router connected to the DATA port.
NPU Menu NOTE To prevent the undesired situation where remote management traffic is unintentionally disabled in both the Management and Data ports, the Management Port Management Traffic Enable/Disable parameter will be automatically forced to Enabled upon disabling the Data Port Management Traffic, and vice versa. 4.5.3.
Chapter 4 - Operation and Administration 4.5.3.3.3.4 Write Community The SNMP Write Community to be used by the Authorized Manager. A null Write Community means that the Authorized Manager has Read only access rights. Valid Community strings: Up to 23 printable characters, case sensitive. 4.5.3.4 Bridge The Bridge submenu enables configuring the Bridge Aging Time parameter, setting the aging time for all addresses in the Forwarding Data Base.
NPU Menu The default for all classes is Disable. NOTE Enabling the display of selected classes is applicable only for the current Telnet session. These parameters affect only the session and are not stored in the device. Upon starting a new session, or after reseting the unit, all classes are disabled. 4.5.4 Performance Monitoring The Performance Monitoring option enables to view and reset the NPU Ethernet Ports counters.
Chapter 4 - Operation and Administration Packets Forwarded to Slot 4: The total number of packets received from the Data port and forwarded by the NPU to AU Slot 4. Packets Forwarded to Slot 7: The total number of packets received from the Data port and forwarded by the NPU to AU Slot 7. Packets Forwarded to Slot 8: The total number of packets received from the Data port and forwarded by the NPU to AU Slot 8.
NPU Menu 4.5.4.2 Management Port Counters The Management Port option enables viewing or resetting the Management (MGMT) port counters. The information displayed for each counter is the accumulated number since the last time the counters were reset. The counters are reset each time the NPU is reset, or upon activating the Reset Counters option. The Management Port counters include: Packets Received Packets Discarded on Rx Packets Transmitted Packets Discarded on Tx 4.5.4.
Chapter 4 - Operation and Administration 4.6 Radio Cluster Menu Radio Cluster is a logical entity used to describe and support management of the Base Station's elements associated with specific geographical sectors. A Radio Cluster represents one or several ODUs that serve (through their directional antennas) the same geographical sector. Up to a maximum of six Radio Clusters can be defined per Base Station, representing a cell coverage using 6 x 60° antennas.
Radio Cluster Menu 4.6.2 Select Use this option and select an already defined Radio Cluster to open the Radio Cluster # menu that will enable managing and configuring the selected Radio Cluster. The selected Radio Cluster # menu includes the following options: Show: Select this option to view the current values defined for the selected Radio Cluster's parameters. Update: Select this option to update one or more of the selected Radio Cluster's parameters.
Chapter 4 - Operation and Administration 4.6.4.4 Sector Heading The direction of the geographical sector, defined in degrees from the north. This is an optional descriptive parameter. The values range is from 0 to 359 (degrees from north). The default value is 0 (degrees from north). 4.6.4.5 Sector Beam Width The beam width, in degrees, of the antenna(s) used in the geographical sector. This is an optional descriptive parameter. The values range is from 0 to 359 (degrees).
ODU Menu 4.7 ODU Menu The ODU(s) must be defined prior to defining the relevant AU(s) and AU Channel(s). The ODU menu includes the following options: Show Summary Select Add 4.7.1 Show Summary Select this option to view the current status of all defined ODUs. For each defined ODU, the display includes the following information: ID: ODU ID (1-24) Associated Radio Cluster: The ID (1-6) defined for the associated Radio Cluster. Tx Power: The defined Tx Power in dBm units.
Chapter 4 - Operation and Administration 4.7.2 Select Use this option and select an already defined ODU to open the ODU # menu that will enable managing and configuring the selected ODU. The selected ODU # menu includes the following options: 4.7.2.1 Show Select this option to view the current value/selected option of applicable parameters.
ODU Menu 4.7.2.3 Delete Select this option to delete the selected ODU from the database. 4.7.3 Add Select this option to define a new ODU. For details on the configurable parameters refer to Section 4.7.4. 4.7.4 ODU Parameters 4.7.4.1 ODU ID A number used to identify the ODU. The ODU ID is configurable only when adding a new ODU. The available values range from 1 to 24. 4.7.4.2 Associated Radio Cluster The ID of the associated Radio Cluster. The available values range from 1 to 6.
Chapter 4 - Operation and Administration The range is from 13 to 50 dBm using a 0.25 dBm resolution. If the entered value is not compatible with the installed ODU, a trap will be issued. If the entered value is below the minimum supported by the ODU the actual power will be set to the minimum supported by the unit. If the entered value is above the maximum supported by the ODU, the power will be changed to the maximum value supported by the ODU . The default is 28 dBm.
ODU Menu In the current release, the following Frequency Bands are supported: Table 4-3: Frequency Bands Frequency Band (ID) Group (ID) Downlink Frequency Range Resolution Duplex Separation 2.3 (12) 2.3GHz (5) 2300-2360 MHz 125 KHz 0 2.5A1 (13) 2.5GHz (6) 2496-2602 MHz 125 KHz 0 2.5A2 (14) 2.5GHz (6) 2590-2690 MHz 125 KHz 0 3.4a TDD (15) 3.5GHz TDD (7) 3399.5-3455 MHz 125 KHz 0 3.4b TDD (16) 3.5GHz TDD (7) 3445-3500 MHz 125 KHz 0 3.5a TDD (17) 3.
Chapter 4 - Operation and Administration 4.8 AU Menu The AU menu includes the following options: Show Summary SW Files in NPU Select Following is a detailed description of these options. 4.8.1 Show Summary Select this option to view the current status of all AUs.
AU Menu applicable to any SU whose Configured SW File Name is other than None). Should be either one of the SU SW Files available in the NPU or an empty string for None. Configured SU SW Version: The SW Version of the Configured SU SW File described above. Configured SU Operation: The operation to be performed with the Configured SU SW File after network entry: None (do not load), Load (load to Shadow), Run from Shadow or Set as Main.
Chapter 4 - Operation and Administration AU level, for upgrading a single AU, described in Section 4.8.5.2.3.2 Base Station level, for upgrading all AUs in the Base Station, as described in the following section. 4.8.3 SW Files in NPU Up to four AU SW files can be stored in the NPU. Any of the available files can be loaded by the NPU to a selected AU. When four AU files are stored in the NPU, a new file cannot be added until at least one of the existing files is deleted.
AU Menu 4.8.3.2.1 Name The Name of the SW File to be used for upgrading an AU using Standard Operation Mode after installation as well as after each reset. Should be one of the AU SW Files currently stored in the NPU, or None (null). 4.8.3.2.2 Action The operation to be performed with the Default SW File (Standard) when an AU using Standard Operation Mode is installed, as well as after each reset: None (do not load), Load (load to Shadow), Run from Shadow or Set as Main. Refer to Section 4.8.5.2.3.2.
Chapter 4 - Operation and Administration 4.8.5 AU Slot # Menu The AU Slot # menu enables managing and configuring the AU in the selected slot, or pre-configuring the AU that will be installed in the slot at a later time. The AU Slot # menu includes the following options: Show Unit Control Configuration Performance Monitoring 4.8.5.1 Show Select this option to view the current value/selected option of applicable parameters.
AU Menu Configured Operation Configured SU SW File Name Configured SU SW Version Configured SU Operation Main SW File Name Main SW Version Shadow SW File Name Shadow SW Version Running From (Main or Shadow) MAC Parameters: Base Station ID (Operator ID, Cell ID, Sector ID) Operator ID (as defined in the Base Station-Cell menu) Cell ID (as defined in the Base Station-Cell menu) Sector ID ARQ Enable/Disable Maximum Cell Radius (km) Multirate Parameters: Multirate Enable/Dis
Chapter 4 - Operation and Administration Active Voice Calls 4.8.5.2 Unit Control The AU Unit Control menu enables resetting the AU and managing the SW versions of the module. The Unit Control menu includes the following options: Reset Set Factory Defaults SW Version Control 4.8.5.2.1 Reset Unit Select this option to reset the unit. To avoid unintentional reset, you will be prompted to confirm the reset request. Changes to some of the configurable parameters are applied only after reset.
AU Menu 4.8.5.2.3.1 Show Versions Select this option to view the following information: Versions in AU: Main SW File Name Main SW Version Shadow SW File Name Shadow SW Version Running From: Main or Shadow Available Versions in NPU: The available AU SW file names and the SW version of each file. 4.8.5.2.3.2 SW File Select this option to define the Name of the SW File to be used for upgrading the AU after installation as well as after each reset, and the Action to be taken with this file: 4.
Chapter 4 - Operation and Administration If the specified file already exists as the Shadow version (meaning that previously a Download operation was executed for this SW File), the only actual operation to take place will be to reset and run from Shadow. If the specified file already exists as the Main version, no action will take place.
AU Menu The Configuration menu includes the following options: MAC Phy Multi Channel Multirate Voice Parameters 4.8.5.3.1 MAC Parameters The MAC menu enables viewing/updating the following parameters: 4.8.5.3.1.1 ID Parameters The Operator ID, Cell ID and Sector ID constitute together the Base Station ID, which is the unique identifier of the AU. An SU can be authenticated by the AU only if its defined parameters match the Base Station ID configured for the AU.
Chapter 4 - Operation and Administration NOTE For Non-Line-Of-Sight (NLOS) links using refractions, the cell distance should be higher than the line-of-sight distance. Typically a 10% margin is a good estimate for the increase in distance due to the NLOS operation. The basic time element (symbol) used by a system operating in TDD mode is 68 microseconds for a bandwidth of 3.5 MHz and 50 microseconds for a bandwidth of 5 MHz.
AU Menu 5 - 10 MHz The current Bandwidth values applicable for systems operating in TDD Mode are 3.5 MHz and 5 MHz. The AU will reject any selection of a Bandwidth not supported by it. The default is 3.5 MHz. 4.8.5.3.3 Multi Channel Parameters Each AU can include up to 4 Channels with Channels IDs from 1 to 4, corresponding to up to 4 ODU connectors. Each ODU connector (channel) can be connected to an ODU.
Chapter 4 - Operation and Administration Associated ODU: Channel 1 of all AUs is automatically associated with an ODU: Table 4-4: Automatic Association of Channel 1 Upon First Power-Up AU Slot ID ODU ID AU Slot 1 1 AU Slot 2 2 AU Slot 3 3 AU Slot 4 4 AU Slot 7 5 AU Slot 8 6 AU Slot 9 7 For all other Channels (2-4) the Associated ODU is NA. Downlink (Tx) Frequency (MHz): 3551.750 Admin Status: Enabled for Channel 1, Disabled for all other Channels (2-4). 4.8.5.3.3.
AU Menu defined in the Frequency Bands File for the frequency band selected as the Configured ODU Frequency Band of the associated ODU (see Section 4.7.4.3). The help text (displayed upon clicking the Tab key) reflects the limitations imposed by these rules.
Chapter 4 - Operation and Administration Uplink (Rx) Frequency: Computed from the configured Downlink (Tx) Frequency according to the Duplex Separation of the applicable Frequency Band. In TDD systems the Uplink (Tx) Frequency is the same as the Downlink (Tx) Frequency. Frequency Band: The Configured ODU Frequency Band. If there is a mismatch between the Configured ODU Frequency Band and its actual band, both values will be displayed. Operational Status 4.8.5.3.
AU Menu Table 4-5: Rates (Modulation Schemes and Coding) No. Rate 1 BPSK 1/2 2 BPSK 3/4 3 QPSK 1/2 4 QPSK 3/4 5 QAM16 1/2 6 QAM16 3/4 7 QAM64 2/3 8 QAM64 3/4 The Multirate menu enables viewing/updating the following parameters: 4.8.5.3.4.1 Multirate Enable/Disable The Multirate Enable/Disable parameter controls whether the multirate algorithm should be used to determine current optimal rates in both the uplinks and the downlinks. The default is Enable.
Chapter 4 - Operation and Administration The range is from 0 to 300 Voice Calls. The default is 50. 4.8.6 Performance Monitoring The AU Performance menu includes the following options: Ports Counters Burst Error Rate Counters 4.8.6.1 Ports Counters The Ports Counters option enables viewing or resetting the Back-Panel and Wireless ports counters. The information displayed for each counter is the accumulated number since the last time the counters were reset.
AU Menu Data Bytes Discarded on Rx: The number of bytes in packets received from the Wireless link and discarded due to MAC protocol receive errors, such as duplicate sequence number, wrong sequence number etc. (not CRC errors). Data Bytes Transmitted: The total number of data bytes transmitted to the Wireless link. MAC Management frames and frames with errors are not included. Data Bytes Discarded on Tx: The number of bytes in packets discarded due to congestion in the wireless medium.
Chapter 4 - Operation and Administration 4.9 SU Menu The SU menu includes the following options: Show Summary Show Summary by AU SW Files in NPU Select by Name Select by MAC Address Add Following is a detailed description of these options. 4.9.1 Show Summary Select this option to view summary information and main details for all connected and pre-configured SUs. For each SU, the following information is displayed: MAC Address SU Name SU Type: BMAX CPE, PRO CPE, PRO-L CPE, Si CPE.
SU Menu Configured Operation: The operation to be performed with the Configured SW File when the SU is connected, as well as after each reset: Null (do not load), Load (load to Shadow), Run from Shadow or Set as Main. SW Download Status: The status of the last SW download operation (or None). SU IDU Type: Basic or IDU-NG-4D1W Number of Gateways: The number of Alvarion Gateways connected to the SU (including IDU-NG-4D1W, if exists).
Chapter 4 - Operation and Administration NOTE An SU that is defined as Temporary will be deleted from the database when it is disconnected.I 4.9.2 Show Summary by AU Select this option to view the total number of SUs connected to a specific AU as well as main details on these SUs, as described in Section 4.9.1. You will be prompted to select the required AU Slot ID. 4.9.
SU Menu 4.9.4.1 Show Files Select this option to display the SU SW files currently stored in the NPU. For each available SW file, the file name and the version number are displayed. In addition, the Default SU SW File Name and Default Action for each Operation Mode are also displayed. 4.9.4.2 Default SW File (Standard) Select this option to define the Name of the SW File to be used for upgrading an SU using Standard Operation Mode after network entry, and the Action to be taken with this file.
Chapter 4 - Operation and Administration 4.9.4.3.1 Name The Name of the SW File to be used for upgrading an SU using Advanced Si Operation Mode after network entry. Should be one of the SU SW Files currently stored in the NPU, or None (null). 4.9.4.4 Delete a File Select this option and enter the name of an existing SU SW file to delete it from the NPU Flash memory. 4.9.
SU Menu MAC Address SU MAC Control Number (a number computed from the MAC Address that can be used for verification purposes) SU Name (User Name) SU Type: BMAX CPE, PRO CPE, PRO-L CPE, Si CPE. Operation Mode: Standard for first generation BreezeMAX system, or Advanced Si (Advanced Self Install) for WiMAX-ready systems supporting Self Install SU. In the current release only Advanced Si is applicable.
Chapter 4 - Operation and Administration Shadow SW File Name Shadow SW Version Running From (Main or Shadow) Configured SW File Name Configured SW Version Configured Operation MAC Parameters Base Station ID Base Station Mask Phy Parameters Bandwidth (MHz) Uplink (Tx) Frequency (MHz) ATPC Parameters and Current Link Quality Indicators ATPC Support Uplink RSSI (dBm) Uplink SNR (dB) Uplink Current Rate Downlink RSSI (dBm) Downlink SNR (dB) Downlink Current Rate TX Pow
SU Menu Bridge Aging Time (minutes) Si CPE Parameters Antenna Selection: The antenna configured locally in the Si CPE ¾ Internal Antenna (1 - 6) ¾ External (7) ¾ Automatic (8) Interface Type (Ethernet or USB.
Chapter 4 - Operation and Administration Reset Set Factory Defaults SW Version Control 4.9.7.2.1 SU Status The SU Status parameter enables defining the status of the SU, which determines the services it can receive. The available options are: 1 - Permanent 2 - Temporary NOTE An SU that is defined as Temporary will be deleted from the database when it is disconnected. 4.9.7.2.2 Reset Unit Select this option to reset the unit.
SU Menu operation will be executed, as described below. If it already exists in the SU, then actual loading is not necessary. The following options are available in the SW Version Control menu: Show SW Versions SW File 4.9.7.2.4.
Chapter 4 - Operation and Administration If the specified file already exists in the SU, no action will take place. Run from Shadow: Select this option to download a specified SW file from the NPU to the Shadow memory of the SU, reset the SU and reboot using the Shadow version. Note that because the process is controlled by the NPU, the SU will continue running from the Shadow version after reset.
SU Menu Bridging Parameters License Best BST/AU Frequency Scanning 4.9.7.3.1 Registration Parameters The SU Registration Parameters option in the NPU Monitor enables viewing the SU's Registration parameters. Registration parameters can be configured only locally at the SU (via the Ethernet port). 4.9.7.3.1.1 SU Name The SU Name can only be configured locally in the SU (User Name). The default SU Name given to a new SU during the definition process (see Section 4.9.8) is SU@.
Chapter 4 - Operation and Administration 4.9.7.3.2.1 Base Station ID The Base Station ID is the identifier of the AU/μBST to which the SU can connect. An SU can be authenticated by an AU/μBST only if the Base Station ID and Base Station ID Mask configured in the SU match the Base Station ID configured for the AU/μBST.
SU Menu 4 - 7 MHz 5 - 10 MHz A trial to configure a bandwidth that is not supported by the SU will be rejected. 4.9.7.3.3.2 Uplink (Tx) Frequency (MHz) This parameter is not applicable to the current release. In future versions that will support both Standard and Advanced Si Operation Modes it will enable pre-configuring the Uplink Frequency to be used after switching to Standard mode. The Uplink (Tx) Frequency is the frequency used in the uplink (from SU to AU).
Chapter 4 - Operation and Administration 4.9.7.3.4.2 Set Rates The Set Rates option is available only when the Multirate algorithm is disabled in the AU (see Section 4.8.5.3.4), allowing to set the Uplink Current Rate and the Downlink Current Rate to any of the available values. The defaults are the last rates used by the Multirate algorithm before it was disabled. For SUs that join the cell when the Multirate algorithm is disabled, the defaults are the applicable Basic Rates.
SU Menu Current Mode: The current operation mode used by the SU. Configured Mode: The operation mode to be used by the SU after the next reset. Detected Mode: The actual operation mode. When the Current Mode is Auto Negotiation, the Detected Mode displays actual speed/duplex parameters used by the SU as a result of the auto negotiation process. 4.9.7.3.6.2 Update Select the Update option to configure the Ethernet Port Configuration parameter.
Chapter 4 - Operation and Administration The available values are from 1 to 1440 minutes. The default is 3 minutes. 4.9.7.3.9 License The License menu is applicable only to L model CPE. It enables viewing the details of installed licenses and loading a new license (if a required license is available in the CPE Licenses Bank). 4.9.7.3.
SU Menu Selected BST/AU ID Selected Downlink (Rx) Frequency Best BST/AU Table, displaying for each AU with which the SU can communicate (including the selected AU) the following parameters: BST/AU ID Downlink (Rx) Frequency SNR (dB) Rx Antenna 4.9.7.3.10.2 Update The Update option enables configuration of the following parameters (changes in Best BST/AU parameters take effect only after reset): 4.9.7.3.10.2.
Chapter 4 - Operation and Administration The “main” frequencies are defined by the Start Frequency and Main Step, using the formula F(N) =Start Frequency + N*Main Step (F(0) = Start Frequency, F(1) = Start Frequency + Main Step,...). End Frequency is the upper limit. The Intermediate Step Mask can be used to define additional frequencies using a finer resolution. The Intermediate Step Mask includes up to 8 entries that include numbers from 1 to 8 (or none).
SU Menu End Rx Frequency Scanning Main Step Intermediate Step Mask (Configured) Intermediate Step Mask (Actual) Discrete Frequencies (or “No discrete frequency configured”): The discrete frequencies (if any) configured in the SU, to be used in the scanning process in addition to the frequencies defined by the Frequency Scanning parameters. Discrete Frequencies are configurable only locally at the SU. 4.9.7.3.11.
Chapter 4 - Operation and Administration The highest step defined by the Scan Step Mask must be higher than the Scanning Main Step. 4.9.7.4 Performance Monitoring The Performance Monitoring sub-menu provides the following options: Ports Counters Burst Error Rate Counters 4.9.7.4.1 SU Ports Counters The SU Ports Counters menu enables viewing or resetting the Ethernet and Wireless ports counters.
SU Menu such as duplicate sequence number, wrong sequence number etc. (not CRC errors). Data Bytes Transmitted: The total number of data bytes transmitted to the Wireless link. MAC Management frames and frames with errors are not included. Data Bytes Discarded on Tx: The number of bytes in packets discarded due to congestion in the wireless medium. ARQ Enabled Bytes Transmitted: The number of bytes transmitted over BE and NRT connections. Applicable only if the ARQ mechanism in the AU is enabled.
Chapter 4 - Operation and Administration 4.9.7.5 Show MAC Addresses Behind SU Select this option to view a list of the MAC Addresses of the devices behind the SU. If VLAN behind the SU is used, the VLAN ID used by each device is displayed next to its MAC Address. 4.9.7.6 Delete This option enables deleting the selected SU from the database. 4.9.8 Add New SU Select the Add New SU option to add a new SU to the database.
Services Menu 4.10 Services Menu 4.10.1 Introduction to Services 4.10.1.1 Services, Subscribers and Service Profiles A Service is a virtual connection between a Subscriber's application and the Network Resource. The Network Resource could be Internet, Content Provider, Corporate Network, etc. The Services are implemented as IEEE 802.16 connections within the wireless domain. Each Service can include up to 4 uplink and 4 downlink connections.
Chapter 4 - Operation and Administration wireless domain. These may include Unicast and Multicast Forwarding rules, QoS Profile for Multicasts and Unknown Address Forwarding Policy. The available features depend on the Service Type. The data may be switched only between the Services that share the same Forwarding Rule. In all other respects the service functions as a standard Bridge.
Services Menu Access Concentrator behind the Base Station. The frames are forwarded only between the Subscribers' PCs and the PPPoE Access Concentrator. Frames that are not PPPoE Ethertype are discarded. In the uplink, frames are never relayed but only forwarded to the Access Concentrator. In the downlink, broadcasts are allowed only in cases of unknown addresses. 4.10.1.2.
Chapter 4 - Operation and Administration Automatic support of Codec changing in a VoIP call - the DRAP messages update the BreezeMAX equipment on any Codec change or subsequent bandwidth allocation change during the call, hence the exact required bandwidth is always provided. This is essential in fax transmissions where the call might begin with one Codec and switch to another to accommodate the fax transmission.
Services Menu Changes in Global profiles (add, update or delete) are applied by loading a new XML file. A newly loaded XML file replaces completely all the Global profiles in the database. NOTE If a Global Service Profile component (Forwarding Rule, Priority Classifier, QoS Profile) is in use by a Local Service Profile (or component), it will not be affected (deleted or updated) by loading a new XML file.
Chapter 4 - Operation and Administration SU may receive specific services from the RADIUS Authentication server based on these credentials. C Null (blank) User Password (non-null User Name) Quick Mode is the recommended Service Mode. RADIUS Authorization and Accounting servers (may be implemented in the same server) are required for proper service provisioning.
Services Menu If the VPL ID is other than None (applicable only if VLAN Transparency Mode is Off), all untagged frames forwarded to the network will be tagged with the VPL ID. The VLAN ID in tagged frames arriving from the wireless network will be replaced by the VPL ID. The guidelines that should be followed when defining VPL ID are: Several Service Profiles may share the same VPL ID.
Chapter 4 - Operation and Administration Hybrid VLAN Mode is Off and the VLAN List includes a single VLAN ID. Hybrid VLAN Mode is On and the VLAN List is empty. For transparent services it is also possible to configure an Access VLAN to be used with untagged packets received on the Ethernet port of the SU. This parameter is applicable only for a transparent service with Hybrid Mode set to On, or a transparent service with Hybrid Mode set to Off and an empty VLAN list.
Services Menu The maximum total number of VLAN IDs behind the same SU is 16 (15 when there is a Service with Hybrid VLAN Mode On is assigned to the SU). The combination of VLAN Transparency Service On, Hybrid VLAN Mode Off and an empty VLAN List means that all packets are forwarded. This combination should be used only if the Service Provider can ensure that there will not be conflicts between VLAN IDs used by devices behind the SU and existing VPL IDs.
Chapter 4 - Operation and Administration Figure 4-2: Filtering Functionality The filtering definition process includes the following steps: 1 Defining list(s) of Filtering Rules. Each Filtering Rule defines a combination of values for certain packet fields. Filtering Rules can be of 2 types: Layer 2 Filtering Rules (using fields of the Ethernet frame) and Layer 3/Layer 4 Filtering Rules (using fields of the IP and/or UDP/TCP headers).
Services Menu Show: Select this option to view the details of the selected entity. Update: Select this option to edit the details of the selected entity. Delete: Select this option to remove the selected entity from the database. 4.10.3.3 Show List Select this option to view all defined entities in the applicable submenu sorted by the entity type ID (Subscriber ID, Service ID, etc.). The entity ID is an identifier attached automatically to each new entity.
Chapter 4 - Operation and Administration MAC Addresses Deny List XML File Parsing Errors 4.10.4.1 General The General menu includes general service parameters. It includes the following options: 4.10.4.1.1 Show Select this option to view the current values/options of the General parameters. 4.10.4.1.2 Update Select this option to update any of the General parameters. The General parameters are: 4.10.4.1.2.1 Service Mode The Service Mode of the Base Station.
Services Menu The Subscribers database in the NPU can hold up to 1024 Subscribers. The configurable Subscriber's parameters are: 4.10.4.2.1 Subscriber Name This is the name of the subscriber, which must be unique for the entire network. A Subscriber Name consists of up to 32 printable characters. 4.10.4.2.2 First Name An optional parameter for information purposes. A First Name consists of up to 50 printable characters. 4.10.4.2.3 Last Name An optional parameter for information purposes.
Chapter 4 - Operation and Administration NOTE The proper process of removing a Service is: 1. Disable the Service (set the Admin Status to Disable) 2. Delete the Service. If the Service is not disabled prior to being the deleted, VLAN ID included in the VLAN List of the deleted Service may still be used by other Services to the same SU that use the same Forwarding Rule as the deleted Service. The Services database in the NPU (Base Station) can hold up to 4095 Services.
Services Menu The list includes VLAN IDs, each one in the range of 0 to 4094, separated by commas. Select null (empty string) for No VLAN. The VLAN List is not displayed in Show menus if the list is empty. When Hybrid VLAN Mode is Off, the VLAN List can include up to 16 VLAN IDs. When Hybrid VLAN Mode is On, the VLAN List can include up to 15 VLAN IDs (the 16th entry is reserved for No VLAN). The maximum total number of VLAN IDs behind a single SU is 16.
Chapter 4 - Operation and Administration VLAN Classification Mode can be set to On only if the following conditions are met: The VLAN Transparency Mode of the applicable Service Profile is set to On. A single VLAN ID is defined for the Service. This means that the allowed combinations are: Hybrid VLAN Mode is Off and the VLAN List includes a single VLAN ID. Hybrid VLAN Mode is On and the VLAN List is empty.
Services Menu Connection Type: BE, NRT, RT or CG. QoS Profile Parameters: The values of the relevant QoS Profile's parameters. Bytes Submitted: The number of bytes submitted by upper layers to this connection. Bytes Transmitted: The number of bytes transmitted to the wireless port through this connection, including retransmissions. Bytes Retransmitted: The number of bytes retransmitted to the wireless port through this connection.
Chapter 4 - Operation and Administration Data Loss Indicator (%): The percentage of dropped packets, out of the total demand, measured for this connection over the last 15 seconds. The value is updated every 15 seconds. DLI (%) = 100 * (Packets Dropped) / (Packets Submitted) CIR Utilization (%): The CIR utilization measured for an RT or NRT connection over the last 15 seconds. Not applicable for BE and CG connections.
Services Menu 4.10.4.4.2 Service Type The Service Type of the Service Profile. The Service Type parameter is configurable only when defining a new Service Profile (Add). It is not changeable. The currently available Service Type options are: 1 - L2 2 - PPPoE 3 - Voice For more details refer to Section 4.10.1.2. 4.10.4.4.3 VLAN Transparency Mode The VLAN Transparency Mode defines the method of transferring packets to the operator's upstream network.
Chapter 4 - Operation and Administration When set to Off, data packets sent from the Base Station to the backbone will be transferred with a VLAN tag according to the VPL ID. The VLAN ID in tagged frames arriving from the wireless network will be replaced by the VPL ID. For packets received from the network, the forwarding decision will be according to the Forwarding Rule defined in the Service Profile with a matching VPL ID.
Services Menu upstream network to handle the traffic accordingly. Within the BreezeMAX system, frames can be classified to QoS classes using Priority Classifiers, based on either a DSCP header or 802,1p tag. This applies only in cases where an external networking device marks the applicable fields. BreezeMAX also enables marking data transmitted to the backbone network with either DSCP or 802.1p values, where the marking is done per Service Profile.
Chapter 4 - Operation and Administration 2 802.1p Marking Mode: If VLAN Transparency Mode is Off, all frames are marked with the configured VPL ID and the 802.1p Marking Value. If no VPL ID is configured (VPL ID = None), the 802.1Q header will include a VLAN ID = 0. If VLAN Transparency Mode is On, all frames are marked with the original VLAN ID and the 802.1p Marking Value. NOTE If the Priority Marking Value is set to 0, untagged packets (without VLAN ID) will be forwarded without any change.
Services Menu NOTE PPPoE frames can be marked only with 802.1p. DSCP marking for PPPoE services is not supported. In L2 Services, many protocols may be carried over Ethernet. As BreezeMAX bridges all these protocols, there's no way to know what protocol type is encapsulated in Ethernet beforehand. Consequently, if DSCP Marking is configured for L2, the BreezeMAX system uses DSCP marking only for IP packets (e.g. Ethertype 0x0800). If 802.1p Marking is configured, it is used for all frames. 4.10.4.4.
Chapter 4 - Operation and Administration NOTE To properly support Call Waiting, the Maximum Number of Voice Calls should be configured to a value that is twice the number of actual voice sessions that can be supported simultaneously. 4.10.4.4.10 Service Profile Class A read-only parameter (available only in Show menu) indicating whether the Service Profile is Local or Global. Global Service Profiles cannot be either updated or deleted. 4.10.4.
Services Menu wireless link devices. If disabled, these packets are not sent to the wireless link even if they are intended for devices on the wireless link. 4.10.4.5.4 Broadcast Relaying (L2 and Voice Service Type) The Broadcast Relaying parameter determines whether the AU performs broadcast relaying. When the Broadcast Relaying parameter is enabled, broadcast packets originating from devices on the wireless link are transmitted by the AU back to the wireless link devices, as well as to the backbone.
Chapter 4 - Operation and Administration 4.10.4.5.7 Multicast QoS Profile The Multicast QoS Profile is the QoS Profile to be used for mulicast and broadcast messages. The QoS Profile must be one of the names that exist in the database after being defined using the QoS Profile menu. 4.10.4.5.8 Forwarding Rule Class A read-only parameter (available only in Show menu) indicating whether the Forwarding Rule is Local or Global. Global Forwarding Rules cannot be either updated or deleted. 4.10.4.
Services Menu 2 - 802.1p 4.10.4.6.3 Uplink Upper Priority Limits The Uplink Upper Priority Limits parameter enables to define up to four ranges, where each range may be assigned a different QoS Profile for uplink communication. The list includes up to 4 numbers separated by commas, where each number must be higher than its predecessor and the last number must be the highest available for the applicable priority type (7 for 802.1p, 63 for DSCP).
Chapter 4 - Operation and Administration 4.10.4.7 QoS Profiles The QoS Profile defines the Quality of Service parameters that are applicable when the QoS Profile is used. Different QoS Profile Types are available to support different service requirements: Real-Time (RT) service is designed to meet the needs of Real Time Variable Bit Rate like services characterized by requirements for guaranteed rate and delay such as streaming video or audio.
Services Menu The priorities of allocating bandwidth to connections are in accordance with the QoS Type of the connections, in the following order: 1 CG 2 RT 3 NRT 4 BE For each of the RT, NRT and BE connection, there is a second level of priorities according to the Committed Time (CT), where connections with CT=Short gets the highest priority and connections with CT=Long gets the lowest priority.
Chapter 4 - Operation and Administration Table 4-10: CT Values CT BE NRT RT Short 50 mS 50 mS 50 mS Medium 100 mS 100 mS 100 mS Long 200 mS 200 mS 200 mS 4.10.4.7.4 CIR (RT and NRT QoS Types) CIR is the information transfer rate that the system is committed to transfer under normal conditions. The rate is averaged over a minimum increment of time, which is defined by the CT parameter. The range is from 0 to 12,000 Kbps. 4.10.4.7.
Services Menu 4.10.4.8.1 L2 Filtering Rules An L2 (Layer 2) Filtering Rule includes the MAC Address and Ethertype. A range of MAC Addresses can be defined for either the Source or Destination MAC Address field. It is possible to define "Any" for either the MAC Address or Ethertype field (but not for both fields). The L2 Filtering Rules menu enables defining new L2 Filtering Rule, viewing details of previously defined L2 Filtering Rules and removing L2 Filtering Rules from the database.
Chapter 4 - Operation and Administration 4.10.4.8.2 L3/L4 Filtering Rules An L3/L4 (Layer 3/Layer 4) Filtering Rule includes the IP Address and Protocol. A range of IP Addresses can be defined for either the Source or Destination IP Address field. It is possible to define "Any" for either the IP Address or Protocol field (but not for both fields). If the specified Protocol is either TCP (6) or UDP (17), either the Source or Destination Port can be defined. It is also possible to define "Any" Port.
Services Menu is defined (the combination of "Any" for both the IP Address and Protocol is not allowed). 4.10.4.8.2.6 Port The TDP/UCP port number, which is applicable only if the Protocol parameter is configured to a value of either 6 (TCP) or 17 (UDP). The Port is defined by a number in the range from 0 to 65534. An empty entry means "Any" port. 4.10.4.8.2.7 Port Direction The direction (Source or Destination) of the Port.
Chapter 4 - Operation and Administration 4.10.4.9.3 Active Rule Type The Active Rule Type parameter defines which of the Filtering Rules List is used. The available options are Layer 2 and Layer 3/4. The default option is Layer 2. 4.10.4.9.4 Admin Status The Admin Status parameter defines whether the filtering mechanism is enabled or disabled. The default option is Disabled. 4.10.4.9.
Services Menu 4.10.4.10 Filtering Examples Example 1: Block All Broadcasts Except ARP and PPPoE To block all broadcasts except ARP and PPPoE, define an L2 Filtering Rule that includes all other broadcasts. Typically this includes broadcasts with IP Ethertype.
Chapter 4 - Operation and Administration Port Direction: Source This Filtering Rule should be included in the L3/L4 Filtering Rules List of the From Wireless Filtering. In addition, the following configuration should be defined for the From Wireless Filtering Interface: Active Rule Type: Layer 3/4 Admin Status: Enabled Default Action: Deny 4.10.4.11 MAC Addresses Deny List The MAC Addresses Deny List menu enables viewing and editing the MAC Addresses Deny List.
Services Menu 2 Define the Priority Classifiers that should be available for the required Service Profiles. All QoS Profiles required for the Uplink/Downlink QoS profiles list must be defined in advance. 3 Define the Forwarding Rules that should be available for the required Service Profiles. The QoS Profiles required for the Multicast QoS Profile parameter must be defined in advance. 4 Define the Service Profile. All required Priority Classifiers and Forwarding Rules must be defined in advance.
Chapter 4 - Operation and Administration c=ON/OFF, indicating the configured VLAN Classification Mode. Example 1: n=be_96:v=<2,4,5>:h=ON:a=:c=ON; Example 2: n=be_128:v=<22>:h=OFF:a=:c=OFF; 4.10.8 Pre-configured Profiles At manufacturing stage, each NPU is configured with a set of pre configured Profiles. Certain parameters of these Profiles may be modified to reflect specific implementation requirements.
Services Menu 1 POTS Advanced VoIP G.729: 1 POTS, T.38 Fax, G.729 codec with a 20 milliseconds sample interval, DSCP priority marking. 1 POTS Basic VoIP G.711: 1 POTS, no Fax, G.711 codec with a 20 milliseconds sample interval, no priority marking. 1 POTS Advanced VoIP G.711: 1 POTS, T.38 Fax, G.729 codec with a 20 milliseconds sample interval, DSCP priority marking. For more details on defining Service Profiles for Generic (3rd party) VoIP devices, refer to Appendix B.
Chapter 4 - Operation and Administration Table 4-12: Pre-Configured Forwarding Rules for Data Service Name Service Type Unicast relaying Broadcast Relaying Unknown forwarding Policy Multicast QoS Multicast VLAN* Internet Access L2 L2 Disable Disable Forward BE 750 Null Internet Access PPPoE PPPoE Disable (hard coded) Disable (hard coded) Forward (hard coded) BE 750 Null Gold Teleworking L2 Disable Disable Forward NRT 1500/1750 Null Silver Teleworking L2 Disable Disable Forwa
Services Menu Table 4-14: Pre-Configured QoS Profiles for Data Services Name Type CIR (Kbps) MIR (Kbps) CT NRT 128/192 Non Real Time 128 192 Medium NRT 750/850 Non Real Time 750 850 Medium NRT 1000/1150 Non Real Time 1000 1150 Medium NRT 1500/1750 Non Real Time 1500 1750 Medium Table 4-15: Pre-Configured Voice Service Profiles (for DRAP-based Gateways) Name Service Type VPL ID* Priority Marking Mode Maximum Number of Voice Calls** Forwarding Rule VoIP 1V Voice 18 Transpare
Chapter 4 - Operation and Administration Table 4-17: Pre-Configured Forwarding Rule for Voice Services Name Service Type Unicast Relaying Broadcast Relaying Unknown forwarding Policy Multicast QoS Multicast VLAN* VoIP Voice Enable (hard coded) Enable (hard coded) Forward (hard coded) BE 128 Null * Multicast VLANs are assigned arbitrary values and should be configured in accordance with specific network implementation, taking into account the considerations described in Section 4.10.1.6.
Services Menu Table 4-20: Pre-Configured CG QoS Profile for Generic (non-DRAP) VoIP Services Name Type Packet Size (Bytes) Sample Interval (msec) CG 38 Continuous Grant 94 20 CG 47 Continuous Grant 117 20 CG 88 Continuous Grant 218 20 CG 108 Continuous Grant 270 20 The following tables provide details on the pre-configured Profiles used for Transparent Services (VLAN Transparency Mode is ON): Table 4-21: Pre-Configured Forwarding Rule for Transparent Services Name Service Type Unicas
Chapter 4 - Operation and Administration 4.11 NPU Parameters Summary Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated Base Station Configuration Parameters Device Name Up to 255 printable characters Null Yes Device Location Up to 255 printable characters Null Yes ATPC Enable/Disable 1 - Disable Enable Yes 2 - Enable Disable is temporary until next reset of the AUs Optimal Uplink RSSI (dBm) -103 to -50 -69 Yes Operator ID X.X.X 186.190.0 No 0.
NPU Parameters Summary Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated Traps Display Filter-Minimum Severity 1 - Critical Info Yes 2 - Major 3 - Minor 4 - Warning 5 - Info Traps Display Filter-Days 1 - 31 days 31 days Yes Traps Configuration-Admin Status 1 - Disable Enable Yes Trap Configuration-Severity 1 - Critical Depends on trap Yes 0 (no suppression) Yes 2 - Enable 2 - Major 3 - Minor 4 - Warning 5 - Info Trap Configuration-Suppression Interv
Chapter 4 - Operation and Administration Table 4-23: NPU Monitor Parameters Summary Parameter Range Server Status 1 - Primary Default Run-Time Updated Yes 2 - Secondary (Only one server can be Primary) Chain Chain Number 1 - 1500 0 (not defined yet-must be defined) No GPS Protocol 0 - None Timble No 1 - Trimble 2 - Symmetricom Time Zone Offset From UTC -12:00 to +13:00 +02:00 Yes Stop Tx After Hold Over Timeout 1 - Disable Disable Yes Hold Over Passed Timeout 0 - 2880 (minutes) 30 (
NPU Parameters Summary Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated Management Port Management Traffic Enable/Disable 1 - Disable Enable No 2 - Enable Data Port Parameters Data Port IP Address IP address 1.1.1.3 No Data Port Subnet Mask IP address 255.255.255.0 No Data Port Gateway IP address 0.0.0.
Chapter 4 - Operation and Administration Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated ODU ID 1 - 24 Yes Associated Radio Cluster 1-6 Yes (must be a defined Radio cluster ID) Configured ODU Frequency Band According to loaded Frequency Bands file 0 (Not Defined) Yes Tx Power (dBm) 13 - 50 (dBm, in increments of 0.
NPU Parameters Summary Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated SU SW File: Name A name of an SU SW File that exist in the NPU Yes SU SW File: Action 0 - None Yes 1 - Load 2 - Run from Shadow 3 - Set as Main AU MAC Parameters Sector ID 0-255 206 No ARQ Enable/Disable 1 - Disable Disable No 20 km No 3.5 No No Diversity Yes 2 - Enable Maximum Cell Radius (km) Bandwidth 3.
Chapter 4 - Operation and Administration Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated Multirate Enable/Disable 1 - Disable Enable Yes BPSK 1/2 Yes BPSK 1/2 Yes 50 Yes 2 - Enable Disable is temporary until next reset Uplink Basic Rate 1 - BPSK 1/2 2 - BPSK 3/4 3 - QPSK 1/2 4 - QPSK 3/4 5 - QAM16 1/2 6 - QAM16 3/4 7 - QAM64 2/3 8 - QAM64 3/4 Downlink Basic Rate 1 - BPSK 1/2 2 - BPSK 3/4 3 - QPSK 1/2 4 - QPSK 3/4 5 - QAM16 1/2 6 - QAM16 3/4 7 - QAM64 2/3
NPU Parameters Summary Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated Name A name of an SU SW File that exist in the NPU Yes Action 0 - None Yes 1 - Load 2 - Run from Shadow 3 - Set as Main SU - Unit Control Parameters SU Status 1 - Permanent Permanent Yes 2 - Temporary SW File: Name A name of an SU SW File that exist in the NPU Yes SW File: Action 0 - None Yes 1 - Load 2 - Run from Shadow 3 - Set as Main SU Registration Parameters Name Read-only (U
Chapter 4 - Operation and Administration Table 4-23: NPU Monitor Parameters Summary Parameter Range Bandwidth (MHz) 1 - 1.75 Default Run-Time Updated No 2 - 3.5 3-5 4-7 5 - 10 Uplink (Tx) Frequency (MHz) Not applicable for current release. Depends on Frequency Bands Group available for the AU, and the Bandwidth. No SU Multirate and ATPC Parameters Uplink Rate Applicable only if Multirate in AU is disabled: New SU: Uplink Basic Rate. 1 - BPSK 1/2 Connected SU: Last used rate.
NPU Parameters Summary Table 4-23: NPU Monitor Parameters Summary Parameter Range Ethernet Port Configuration 1 - 10 Mbps Half Duplex Default Run-Time Updated No 2 - 10 Mbps Full duplex 3 - 100 Mbps Half Duplex 4 - 100 Mbps Full Duplex 5 - Auto Negotiation SU Password Password Up to 20 printable characters, case sensitive Yes SU Bridging Parameters Enable/Disable Limit on Number of Supported Devices 1 - Disable Disable Yes Maximum Number of Supported Devices 1 - 512 512 Yes Bridge Aging Ti
Chapter 4 - Operation and Administration Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated 1 - Advanced Quick Yes Services - General Parameters Service Mode 2 - Quick Default L2/Voice Service Profile Name of an existing L2 or Voice Service Profile, or None. Internet Access L2 Yes Default PPPoE Service Profile Name of an existing PPPoE Service Profile, or None. None Yes Services - Subscribers Parameters Subscriber Name Up to 32 printable characters.
NPU Parameters Summary Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated Access VLAN 1-4094 Yes Admin Status 1 - Disabled Yes 2 - Enabled Services - Service Profiles Parameters Service Profile Name Up to 32 printable characters. Yes Service Type Applicable only for new Service Profiles (Add): Yes 1 - L2 2 - PPPoE 3 - Voice VLAN Transparency Mode 1 - Off Yes 2 - On VPL ID 0 - 4094 or null for No VPL ID.
Chapter 4 - Operation and Administration Table 4-23: NPU Monitor Parameters Summary Parameter Range Unicast Relaying Applicable only for L2 Service type: Default Run-Time Updated Yes 1 - Disabled 2 - Enabled Broadcast Relaying Applicable only for L2 Service type: Yes 1 - Disabled 2 - Enabled Unknown Forwarding Policy Applicable only for L2 Service type: Yes 1 - Reject 2 - Forward Multicast VLAN ID 0 - 4094 or null for No Multicast VLAN.
NPU Parameters Summary Table 4-23: NPU Monitor Parameters Summary Parameter Range Downlink QoS Profiles Up to four QoS Profile Names separated by commas, where each name (up to 32 printable characters) is a name of a QoS Profile that exists in the database. The number of entries in the list must be identical to number of entries in Downlink Priority Ranges list.
Chapter 4 - Operation and Administration Table 4-23: NPU Monitor Parameters Summary Parameter Range Default Run-Time Updated L3/L4 Filtering Rule Name Up to 32 printable characters Yes IP Address IP address or null for Any Yes IP Address Mask IP address Yes IP Address Direction 1 - Source Yes 2 - Destination Protocol 0-254 or null for Any Yes Port 0-65534 or null for Any Yes Port Direction 1 - Source Yes 2 - Destination From Wireless Filtering/From Network Filtering Parameters L2 F
A Appendix A - Software Upgrade In This Appendix: “Before you Start” on page 232 “File Loading Procedure” on page 233 “Completing the Software Upgrade (Switching Versions)” on page 235
Appendix A - Software Upgrade A.1 Before you Start NOTE This section describes software upgrades using the Monitor program. The upgrade procedure can also be performed using AlvariSTAR. For instructions on using AlvariSTAR for software upgrade, refer to "The Software Upgrade Manager" section in the AlvariSTAR User Manual. Loading of new SW files to the unit's FLASH memory can be performed by a simple loading procedure using a TFTP application.
File Loading Procedure A.2 File Loading Procedure To load software files: 1 Verify that you have IP connectivity from your computer to the NPU/μBST (either the MGMT or the DATA port). To verify the connection, ping the unit's IP address and verify that PING replies are being received. 2 To perform the upgrade, use a DOS TFTP utility with the following syntax: tftp i hostaddress put sourcefile where -i stands for binary mode and hostaddress is the IP address of the unit to be upgraded (NPU/μBST).
Appendix A - Software Upgrade To view the current NPU/μBST SW Versions in the unit: Select SU/AU > SW Files in NPU/μBST > Show Files.
Completing the Software Upgrade (Switching Versions) A.3 Completing the Software Upgrade (Switching Versions) After verifying successful upload of all software files, set the new version as the main version in each one of the upgraded system elements: SU(s): Select the SU that should be upgraded. Select Unit Control > SW Versions Control > Set as Main, and enter the name of the new SU SW file. The unit will reset automatically and will use the new version after power-up.
B Appendix B - Defining Service Profiles for Generic VoIP Gateways In This Appendix: “Introduction” on page B-238 “1 POTS Basic VoIP G.729 Service Profile” on page B-240 “1 POTS Advanced VoIP G.729 Service Profile” on page B-242 “1 POTS Basic VoIP G.711 Service Profile” on page B-244 “1 POTS Advanced VoIP G.
Appendix B - Defining Service Profiles for Generic VoIP Gateways B.1 Introduction This section describes the method used for defining the pre-configured Service Profiles for Generic (3rd party) VoIP devices that do not use the DRAP protocol. The same principles can be used for modifying the pre-configured profiles or creating new ones for VoIP services that have different characteristics. B.1.
Introduction Kbps if a Best Effort connection is used for this traffic. If a Continuous Grant service is used for all VoIP related traffic, a lower bandwidth will be allocated to Data traffic. Note that the use of bandwidth consuming protocols when an active call is present should be avoided.
Appendix B - Defining Service Profiles for Generic VoIP Gateways B.2 1 POTS Basic VoIP G.729 Service Profile B.2.1 Service Characteristics G.729 codec, 20msec sample interval 1 POTS No Fax Priority marking behind the SU is not used: All VoIP related traffic is classified onto a single Continuous Grant (CG) connection. Multiple media streams to support Call-Waiting: If the traffic exceeds the BW allocated to the CG connection, the SU may request to double the allocated BW. B.2.
1 POTS Basic VoIP G.729 Service Profile request twice this BW so it will be allocated with up to approximately 94 Kbps. This is assumed to be sufficient for all traffic scenarios, including Call Waiting.
Appendix B - Defining Service Profiles for Generic VoIP Gateways B.3 1 POTS Advanced VoIP G.729 Service Profile B.3.1 Service Characteristics G.729 codec, 20msec sample interval 1 POTS T.38 Fax DSCP priority marking behind the SU is used, with the following values: 63: RTP traffic 26: RTCP and VoIP traffic 0: Data traffic Single media stream to support Call-Waiting B.3.2 Voice RTP BW Calculation The required bandwidth for a G.
1 POTS Advanced VoIP G.729 Service Profile Total packet size (bytes) = (Ethernet of 18 bytes) + (IP/UDP/RTP header of 40 bytes) + (voice payload of 36 bytes) = 94 bytes Total packet size (bits) = (94bytes) * 8 bits per byte = 752 bits PPS = (14.4 Kbps bit rate) / (288 bits) = 50 pps Note: 288 bits = 36 bytes (voice payload) * 8 bits per byte Bandwidth per call = total packet size (752bits) * 50 pps = 37.
Appendix B - Defining Service Profiles for Generic VoIP Gateways B.4 1 POTS Basic VoIP G.711 Service Profile B.4.1 Service Characteristics G.711 codec, 20msec sample interval 1 POTS No Fax Priority marking behind the SU is not used: All VoIP related traffic is classified onto a single Continuous Grant (CG) connection. Multiple media streams to support Call-Waiting: If the traffic exceeds the BW allocated to the CG connection, the SU may request to double the allocated BW. B.4.
1 POTS Basic VoIP G.711 Service Profile 216 Kbps. This is assumed to be sufficient for all traffic scenarios, including Call Waiting.
Appendix B - Defining Service Profiles for Generic VoIP Gateways B.5 1 POTS Advanced VoIP G.711 Service Profile B.5.1 Service Characteristics G.729 codec, 20msec sample interval 1 POTS T.38 Fax DSCP priority marking behind the SU is used, with the following values: 63: RTP traffic 26: RTCP and VoIP traffic 0: Data traffic Single media stream to support Call-Waiting B.5.2 Voice RTP BW Calculation The required bandwidth for a G.
1 POTS Advanced VoIP G.711 Service Profile Total packet size (bytes) = (Ethernet of 18 bytes) + (IP/UDP/RTP header of 40 bytes) + (voice payload of 36 bytes) = 94 bytes Total packet size (bits) = (94bytes) * 8 bits per byte = 752 bits PPS = (14.4 Kbps bit rate) / (288 bits) = 50 pps Note: 288 bits = 36 bytes (voice payload) * 8 bits per byte Bandwidth per call = total packet size (752bits) * 50 pps = 37.
Appendix B - Defining Service Profiles for Generic VoIP Gateways B.5.6.
Glossary AAA Authentication, Authorization, and Accounting (Pronounced "triple a."). A system (or several systems) that controls what resources users have access to, and keeps track of the activity of users over the network. ANSI American National Standards Institute. A voluntary organization composed of corporate, government, and other members that coordinates standards-related activities, approves U.S.
Glossary BER Bit Error Rate. In a digital transmission, BER is the percentage of bits with errors divided by the total number of bits that have been transmitted, received or processed over a given time period. BPSK Binary Phase-Shift Keying. A data transfer technique. BPSK transmits data using two phase modulation signals, one phase representing a binary one, and the other representing a binary zero. The signal is divided into bits; their status is determined by the preceding wave.
Glossary CSMA/CD Carrier Sense Multiple Access with Collision Detection. Media-access mechanisms wherein devices ready to transmit data first check the channel for a carrier. If no carrier is sensed for a specific period of time, a device can transmit. If two devices transmit at once, a collision occurs and is detected by all colliding devices. This collision subsequently delays retransmissions from those devices for some random length of time. Ethernet and IEEE 802.3 use CSMA/CD access.
Glossary EMC Electro-Magnetic Compatibility. The capability of equipment or systems to be used in their intended environment within designed efficiency levels without causing or receiving degradation due to unintentional EMI (Electro Magnetic Interference). EMC generally encompasses all of the electromagnetic disciplines. ETSI European Telecommunications Standards Institute.
Glossary G.729 A compression technique where voice is coded into 8 Kbps streams. There are two variations of this standard (G.729 and G.729 Annex A) that differ mainly in computational complexity; both provide speech quality similar to 32-kbps ADPCM. Described in the ITU-T standard in its G-series recommendations. GPS Global Positioning System. A system that uses satellites, receivers and software to allow users to determine their precise geographic position. H.
Glossary IEEE 802.3 A Local Area Network protocol suite commonly known as Ethernet. Ethernet uses Carrier Sense Multiple Access bus with Collision Detection CSMA/CD. This method allows users to share the network cable. However, only one station can use the cable at a time. A variety of physical medium dependent protocols are supported. IEEE 802.11b The IEEE 802.11b (also referred to as 802.11 High Rate or Wi-Fi). An extension to 802.
Glossary ITU-T International Telecommunication Union - Telecommunications. An intergovernmental organization through which public and private organizations develop telecommunications. The ITU was founded in 1865 and became a United Nations agency in 1947. It is responsible for adopting international treaties, regulations and standards governing telecommunications.
Glossary MIR Maximum Information Rate. Specifies the maximum rate of information that can be available to a user. The MIR is used by the traffic policing mechanism to prevent users from sending excess traffic to the network. MMDS Multichannel Multipoint Distribution Service. MMDS is a licensed wireless service that has the capability to provide broadband access. MMDS operates in several parts of the 2 GHz spectrum. MRRC Maximum Receive Ratio Combining.
Glossary NRT Non Real Time. is very similar to the Real-Time polling service except that connections may utilize random access transmit opportunities for sending bandwidth requests. These Non Real Time Variable Bit Rate (NRT-VBR) services, such as file transfer and Internet access with a minimum guaranteed rate, are characterized by requirement for a guaranteed rate, but can tolerate longer delays and are rather insensitive to jitter.
Glossary PIU Power Interface Unit POTS Plain Old Telephone System. A basic analog telephone equipment. PSU Power Supply Unit PPPoE Point-to-Point Protocol over Ethernet. PPPoE relies on two widely accepted standards: PPP and Ethernet. PPPoE is a specification for connecting the users on an Ethernet to the Internet through a common broadband medium, such as a single DSL line, wireless device or cable modem.
Glossary RoHS Restriction of the use of certain Hazardous Substances in electrical and electronic equipment, reference EC Directive 2002/95/EC of 27 January 2003. RSA A public-key encryption technology developed by RSA Data Security, Inc. The acronym stands for Rivest, Shamir, and Adelman, the inventors of the technique. The RSA algorithm is based on the fact that there is no efficient way to factor very large numbers.
Glossary SIP Session Initiation Protocol. An application-layer control IETF protocol that can establish, modify, and terminate multimedia sessions such as Internet telephony calls (VoIP). SIP can also invite participants to already existing sessions, such as multicast conferences. Media can be added to (and removed from) an existing session.
Glossary SOHO Small Office Home Office. A term that refers to the small or home office environment and the business culture that surrounds it. Typically it refers to an office or business with ten or fewer computers and/or employees. SRC Source SU Subscriber Unit TCP Transmission Control Protocol. Connection-oriented transport layer protocol that provides reliable full-duplex data transmission.
Glossary UTC Coordinated Universal Time. The reference for the official time used by all countries in the world, and it is independent from the time zones. The modern implementation of Greenwich Mean Time. VLAN Virtual Local Area Network. A group of devices on one or more LANs that are configured with the same VLAN ID so that they can communicate as if they were attached to the same wire, when in fact they are located on a number of different LAN segments.
Glossary WEEE Waste Electronic and Electrical Equipment. The purpose of Directive 2002/96/EC on waste electrical and electronic equipment (WEEE) is, as a first priority, the prevention of waste electrical and electronic equipment (WEEE), and in addition, the reuse, recycling and other forms of recovery of such wastes so as to reduce the disposal of waste. It also seeks to improve the environmental performance of all operators involved in the life cycle of electrical and electronic equipment, e.g.
Index Numerics Accounting Server, Accounting Interface Filtering, 100 Authentication Server, 97 1 POTS Advanced VoIP G.711 Pre-Configured Profile, Authorized Manager, 119 211 New SU, 172 1 POTS Advanced VoIP G.729 Pre-Configured Profile, ODU, 129 211 Radio Cluster, 125 1 POTS Basic VoIP G.711 Pre-Configured Profile, 211 Add New SU, 172 1 POTS Basic VoIP G.729 Pre-Configured Profile, 210 Add Server 802.
Index Configured SU SW Version, Operation Status, 133 Configured SW File Name, 132 Configured SW Version, 132 Default SW File (Adv-Si), 135 Default SW File (Std), 134 IDU Type, 133 MAC Parameters, 141 Maximum Number of Voice Calls, Menu, Multirate Parameters, Operation Mode, 98 Server Status, 98 Show All, 97 Show Selected Server, Phy Parameters, 98 UDP Port, 98 147 Authentication Parameters, Add, 97 119 119 Parameters, 148 Read Community, 142 119 Select, 138 119 Send Traps, 119 Show All, 1
Index Base Station ID Clear All Configured AU SW Files, Clear All Configured SU SW Files for this AU, AU, 141 SU, 162 Clock Parameters, Base Station ID Mask, 90 Committed Information Rate, 162 Base Station Licenses, 103 Basic Parameters, 64 BE, 200 Best BST/AU Parameters, 166 Best BST/AU Support, 167 Best BST/AU Table, 167 Best Effort (BE) Qos Profile, 200 Committed Time, 202 201 Configuration AU, 140 Base Station Parameters, 87 NPU, 114 SU, 160 Configured Operation Bridge Aging Time AU
Index Wireless Port (SU), Country, Device Name, 161 CPEs License Bank, Create Backup, CT, Device Location, 170 88 87 Discrete Frequencies, 102 DL-UL Ratio, 112 169 90 Downlink (Tx) Frequency (Channel), 201 144 Downlink Basic Rate (AU), 147 Downlink QoS Profiles, 199 D Downlink Upper Priority Limits, Data Port Auto Negotiation Option, DRAP 118 Description, Gateway, 117 IP Address, 117 Management Traffic Enable/Disable, Management VLAN, Parameters, Speed, 117 117 118 Subnet Mask
Index Name, 196 I Service Type, 196 Unicast Relaying, 196 IDU Type, Unknown Forwarding Policy, 197 Forwarding Rule Class, 198 Forwarding Rule Name, 196 Frequency Bands File, 130 Frequency Bands Groups, 130 Frequency Scanning Parameters, 48 167 Gateway 117 PSU, 115 Inserting NPU, 48 Installation, 27 AU-ODU, 28 Base Station, 37 GPS Adapter, 58 54 Installer Password General Service Parameters NPU, Default L2/Voice Service Profile, 184 Default PPPoE Service Profile, 184 Menu, 184 Servic
Index MAC Address Mask (L2 Filtering Rule), K Keep Alive Timeout, MAC Addresses Deny List, 96 203 208 MAC Parameters AU, 141 SU, 161 L L2 Filtering Rules Management Port Ethertype, 203 MAC Address, 203 Dest Subnet, MAC Address Direction, Gateway, 203 MAC Address Mask, 203 Menu, 203 Rule Name, 203 L2 Filtering Rules List, 205 L2 Service, 174 115 115 IP Address, 115 Management Traffic Enable/Disable, 116 Parameters, 115 Subnet Mask, 115 Management Port Counters, L3/L4 Filtering Rules IP
Index Multicast VLAN ID, Select, 197 Multirate Algorithm, 146 128 Show, 128 Multirate and ATPC Parameters (SU), Multirate Enable/Disable (AU), Show Summary, 163 129 Update, 128 Multirate Parameters AU, 127 Tx Power, 147 ODU Power Feeder 146 Connectors, 55 54 LEDs, 56, 74 Operation Mode, 133 SU, 155 N Installation, Navigation Processor SW Version, Network Processing Unit, 46 Non Real Time (NRT) QoS Profile, NPU, 106 200 Operation Status 46 Accounting, Bridge Aging Time, 120 Configu
Index Ejecting, MIR, 49 Inserting, 49 202 Name, 201 Port (L3/L4 Filtering Rule), Non Real Time (NRT) Service Type, 205 Port Direction (L3/L4 Filtering Rule), 202 QoS Type, 201 Ports Counters Real Time (RT) Service Type, AU, 148 Power Cable, 41 202 202 QoS Profile Name, 201 QoS Type, 201 Quick Service Mode, 176, 177 quickynikinyoky, 177 39 Power Requirements, 39 Power Supply Unit, 42 PPPoE Service, 174 Pre-configured Profiles, 210 Preferred BST/AU ID, 167 Preferred BST/AU ID Mask, 167 QoS Pro
Index NPU, Types, 112 SU, 160 174 VLAN Classification Mode, VLAN List, S 186 Service Fault Status, Service Mode, Sample Interval, 202 Sector Heading, 126 Sector ID, 141 195 Menu, 190 Name, 190 135 119 Priority Marking Mode, 144 ODU, 128 Radio Cluster, 125 Priority Marking Value, Service Type, 192 195 191 VLAN Transparency Mode, Select by MAC Address VPL ID, 154 191 192 Service Profile Class, 196, 199 Service Profile Name, 190 Select by Name 154 Service Profiles Select Server
Index Authentication Server, Bridge Aging Time, 98 Base Station Licenses, 103 Base Station Parameters, 86 CPEs License Bank Status, 102 Files in NPU, 134 General Service Parameters, 184 Grace Licenses, 103 NPU Parameters, 107 ODU, 128 SU #, 154 Temporary Grace Licenses, 103 Show Active Alarms, 91 165 Bridging Parameters, 165 Configuration Menu, 160 Configured Operation, 151 Configured SW File Name, 150 Configured SW Version, 150 Country, 161 Default SW File (Adv-Si), 153 Default SW File (Std), 153 Delet
Index Show, Temporary SU 154 SU Ethernet Port Counters, 170 SU MAC Address Service, 155 161 SU Ports Counters, SU Status, 170 158 SU SW File AU, 176 Termination Action, 178 Time Zone Offset From UTC, 186 SU MAC Control Number, SU Name, Definition, 105 Transparent Marking Mode, 193 Trap Configuration, 92 Admin Status, 93 Severity, 93 Suppression Interval, 93 Traps 140 SU Wireless Port Counters, Display Filter, 170 Subnet Mask Data Port, Log, Traps Display Filter 117 Management Port,
Index Voice/Networking Gateways (SU), 164 VoIP 1V Pre-Configured Profile, 210 VoIP 2V Pre-Configured Profile, 210 VPL ID, 192 276 W Write Community (Authorized Manager), 120 BreezeMAX Modular Base Station System Manual