Event 5800 Installation & Reference Manual Document Number: 602-16620-01, Rev.
Event 5800 Installation & Reference Manual ii © 2012 Moseley, Inc. All Rights Reserved. This book and the information contained herein is the proprietary and confidential information of Moseley, Inc. that is provided by Moseley exclusively for evaluating the purchase of Moseley, Inc. technology and is protected by copyright and trade secret laws.
Event 5800 Installation & Reference Manual iii EVENT 5800 Installation & Reference Manual Document Number: 602-16620-01 Revision Levels: SECTION DWG REV REVISED/RELEASED All All A December 2011 N/A N/A B May 2012 © 2012 Moseley, Inc. All Rights Reserved. 602-16620-01, Rev.
Event 5800 Installation & Reference Manual © 2012 Moseley, Inc. All Rights Reserved. iv 602-16620-01, Rev.
Event 5800 Installation & Reference Manual v Table of Contents 1. Safety Precautions ..................................................................................... 1-1 1.1 RF Energy Health Hazard ............................................................................. 1-1 1.2 Protection from Lightning ............................................................................. 1-1 1.3 Protection from RF Burns ............................................................................. 1-1 1.
Event 5800 Installation & Reference Manual vi 2.13 Gigabit Ethernet Link Aggregation Configuration ...........................................2-19 2.13.1 2+0 East/East Configuration ................................................................2-19 2.13.2 4+0 East/East Configuration ................................................................2-19 2.14 Crosspoint Switch ....................................................................................2-20 2.15 STM-1 Specifications .................
Event 5800 Installation & Reference Manual vii 4.10.1 EVENT 5800 RSL Output ....................................................................... 4-7 5. Quick Setup Guide ...................................................................................... 5-1 5.1 Quick Start Hardware Overview .................................................................... 5-1 5.1.1 Ensure coaxial Connections .................................................................... 5-1 5.1.1.1 PolyPhaser...............
Event 5800 Installation & Reference Manual viii List of Illustrations Figure 2-1. Example Installation .......................................................................... 2-2 Figure 2-3. Transceiver Back Panel ...................................................................... 2-4 Figure 2-4. Receiver-Only Back Panel ................................................................... 2-4 Figure 2-5. EVENT 5800 Modules .........................................................................
Event 5800 Installation & Reference Manual ix List of Tables Table Table Table Table Table Table Table Table Table Table Table Table Table Table Table Table Table Table 2-1. 2-2. 2-3. 2-4. 2-5. 2-6. 2-7. 2-8. 3-1. 3-2. 3-3. 5-1. 5-2. 5-3. 7-1. 7-2. 7-3. 7-4. Key Benefits/Advantages .................................................................... 2-2 Master I/O Modules ............................................................................ 2-5 Supported E1/T1 Combinations .......................
Event 5800 Installation & Reference Manual © 2012 Moseley, Inc. All Rights Reserved. x 602-16620-01, Rev.
1. Safety Precautions 1-1 1. Safety Precautions PLEASE READ THESE SAFETY PRECAUTIONS! Do not turn on power before reading Moseley’s product documentation. This device has a -48V DC direct current input. 1.1 RF Energy Health Hazard This symbol indicates a risk of personal injury due to radio frequency exposure. The radio equipment described in this guide uses radio frequency transmitters. Although the power level is low, the concentrated energy from a directional antenna may pose a health hazard.
Event 5800 Installation & Reference Manual 1-2 1.7 Power Supply Safety Requirements Safety requirements require a switch be employed between the external DC power supply and the EVENT 5800 power supplies. The switch must disconnect both poles of the power supply. A single-pole disconnect device can be used to disconnect the line conductor where it is possible to rely on the identification of an earthed conductor in a DC MAINS SUPPLY.
Event 5800 Installation & Reference Manual 1-3 1.11 Regulatory Notices FCC Part 15 Notice Note: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
Event 5800 Installation & Reference Manual © 2012 Moseley, Inc. All Rights Reserved. 1-4 602-16620-01, Rev.
2. System Description 2-1 2. System Description This manual is written for those who are involved in the “hands-on” installation of the EVENT 5800 in a microwave point-to-point link, such as installation technicians, site evaluators, project managers, and network engineers. It assumes the reader has a basic understanding of how to install hardware, use Windows based software, and operate test equipment.
2. System Description 2-2 data traffic is automatically re-routed to ensure that service to the end user is not interrupted. Figure 2-1. Example Installation Table 2-1 shows key features that Moseley technology offers to those involved in the design, deployment and support of broadband fixed wireless networks. Table 2-1.
2. System Description Component/Feature 2-3 Benefits Advantages to Providers/Customers point networks. In the event of an outage, traffic is automatically rerouted via another part of the ring without service interruption. Increases deployment scenarios for initial deployment as well as network expansion with reduced line-of-sight issues. Ring/consecutive point networks can overcome line-of-sight issues and reach more buildings than other traditional wireless networks.
2. System Description o 2-4 64 kbps synchronous RS422 Adaptive Power Control Standard high-power feature at antenna port o 5W (37 dBm in QPSK mode) in 2 GHz bands o 1W (30 dBm) in 5.
2. System Description 2-5 Figure 2-5. EVENT 5800 Modules Power Supply Module: A second power supply module can be installed above this module and is required for 1+1 or 2+0 configurations. Controller Module: This module is included in all EVENT 5800 units. It supports the interface to the LCD/keypad and includes connectors for attaching a PC for configuration and monitoring via the web, CLI, or SNMP interface.
2. System Description 2-6 Master I/O Expansion I/O E1/T1 42xE1/T1 Master I/O 21xE1 Expansion I/O 63xE1/T1 Includes 1-155 Mbps Fast Ethernet GigE Master I/O None 2xE1/T1 GigE Master I/O 16xE1 Expansion I/O 18xE1/T1 Includes 1-300 Mbps Gigabit Ethernet GigE Master I/O 21xE1 Expansion I/O 23xE1/T1 Includes 1-300 Mbps Gigabit Ethernet Includes 1-300 Mbps Gigabit Ethernet All modules are inserted from the back panel of the chassis. All modules are hot swappable.
2. System Description 2-7 Serial/Alarm Interface: DB-15HD female connector for two Form-C relay alarm outputs (rated load: 1A @ 24V DC), two TTL alarm outputs, four TTL alarm inputs, and Serial Console. The two Form-C relay alarm outputs can be configured to emulate TTL alarm outputs by installing shorting jumpers JP6 and JP8 for relay alarm 1 and shorting jumper JP7 and JP9 for relay alarm 2. When configured as TTL, the 2 outputs can source/sink up to 10 mA at 5 VDC.
2. System Description 2-8 USER 10/100 1: 100Base-TX RJ-45 modular port connector for the local Fast Ethernet interface. USER 10/100 2: 100Base-TX RJ-45 modular port connector. This port to be used for consecutive point networks. AUX: Data Orderwire Connector: RJ-45 modular port connector for RS422/RS-232 data at 64 kbps. E1/T1 1-2: Two E1/T1 (RJ-48C) interface connections. E1/T1 3-16: Three Molex 60-pin connectors containing 14 E1/T1 connections each. 2.3.3.
2. System Description 2-9 Table 2-5. Modem Status LED LED STATUS GREEN Active Locked Link ORANGE Standby Locked Link (1+1 Non-Diversity Only) Flashing GREEN Low SNR Flashing ORANGE Unlocked Table 2-6. DVB-ASI In Status LED LED STATUS GREEN Good ASI input RED No ASI input Alternating YELLOW/GRN ASI exceeds radio bit rate (FIFO overflow) Flashing RED Loss-of-Frame Flashing GRN No ASI data Table 2-7.
2. System Description 2-10 2.3.5 External AC to DC Converter The DTV LINK TX and RX both are supplied with a high reliability, universal input switching power supply capable of operating within an input range of 90 - 264 VAC; 47 63 Hz. The input is a standard IEC-320-C14 connector. The output voltage is -48V and is supplied with the 2-pin, 5mm plug. 2.4 Block Diagram & Functional Components Figure 2-9 shows the EVENT 5800 digital radio and interfaces from a functional point of view.
2. System Description 2-11 converts the received signal, provides additional filtering, and outputs an IF of 140 MHz to the IF Processor. The EVENT 5800 digital radio modem performs QPSK, 16-QAM, 32-QAM, 64-QAM, 128QAM and 256-QAM modulation and demodulation of the payload and forward error correction using advanced modulation and coding techniques.
2. System Description 2-12 coding techniques. Using all-digital processing, the 256-QAM Modem uses robust modulation and forward error correction coding to minimize the number of bit errors and optimize the radio and network performances. The 256-QAM Modem also scrambles, descrambles and interleaves/deinterleaves the data stream in accordance with Intelsat standards to ensure modulation efficiency and resilience to sustained burst errors.
2. System Description 2-13 Figure 2-10. Ring Configuration SONET/SDH rings are inherently self-healing. Each ring has an active path and a standby path. Network traffic normally uses the active path. If one section of the ring fails, the network will switch to the standby path. Switchover occurs in seconds. There may be a brief delay in service, but no loss of payload, thus maintaining high levels of network availability.
2. System Description 2-14 Figure 2-11. Consecutive Point Network 2.6 Spanning Tree Protocol (STP) Spanning Tree Protocol (STP) keeps Ethernet loops from forming in a ring architecture. Without STP, loops would flood a network with packets. STP prevents loops by creating an artificial network break. In the event of a network outage, STP automatically removes the artificial break, restoring connectivity. 2.7 1+1 Protection EVENT 5800 supports 1+1 protection as an option for a critical link.
2. System Description 2-15 Figure 2-12. 1+1 Non-Diversity Mode Protection 2.7.2 Protected Diversity This arrangement requires bandwidth for both links and non-interference between the links, but it provides hitless receive and transmit switching. EVENT 5800 supports both frequency and spatial diversity. Figure 2-13. 1+1 Diversity Mode Protection 2.7.2.1 Frequency Diversity In frequency diversity, two frequencies are used to achieve non-interference.
2. System Description 2-16 protection as well as the full-scale protection inherent in the consecutive point architecture. At each location within the network, data may be dropped or inserted. In this configuration each EVENT 5800 contains two power supplies and two modems.
2. System Description 2-17 2.9 Data Interfaces The primary interface for video and broadcast applications is the DVB-ASI interface located in the mini-I/O card slot. Alternatively this interface can be replaced with STM-1 Optical/OC-3 or STM-1 Electrical interfaces. The optical interface is single mode at 1300 nm. Consult factory for availability of Mini-I/O STM-1/OC-3 Module. The I/O card has 2x100BaseTX interfaces that can be configured as either primary payload, or secondary wayside channels.
2. System Description 2-18 or four links when operating as 2+0 or 4+0, allowing for a total throughput of up to 600 Mbps or 1000 Mbps, respectively. Table 2-9. GigE Ethernet Throughput Examples by Modulation & Bandwidth Bandwidth/Modulation 30MHz 40MHz 50MHz 56MHz QPSK 30 Mbps 45 Mbps 55 Mbps 60 Mbps 16-QAM 80 Mbps 100 Mbps 130 Mbps 160 Mbps 32-QAM 100 Mbps 130 Mbps 160 Mbps 200 Mbps 64-QAM 125 Mbps 160 Mbps 200 Mbps 250 Mbps 128-QAM 150 Mbps 200 Mbps 250 Mbps 300 Mbps 2.11.
2. System Description 2-19 Figure 2-20. Ethernet Quality of Service (QoS) 2.13 Gigabit Ethernet Link Aggregation Configuration 2.13.1 2+0 East/East Configuration EVENT 5800 is capable of aggregating link bandwidth in 2+0 mode to achieve up to 600 Mbps Ethernet throughput when used with the Wideband Modem/IF modules in 56MHz with 128-QAM capable Radio Transceivers. The 2+0 East/East configuration allows for the doubling of the throughputs.
2. System Description 2-20 . 2.14 Crosspoint Switch The EVENT 5800 crosspoint switch provides any-to-any E1/T1 routing between back panel ports and RF links. Flexible channel mapping allows selection from predefined routings or custom routing. Custom routings are uploaded to EVENT 5800 via FTP. p U 2 3 to 1 E t p U E 6 1 o M U o m e d st a E m ra F r e IO 1 s ro C n i o tp w S tich m e d o M e W o ti p O n lIO a U p p to 1 E 2 3 st 6 1 to E 1 Figure 2-22.
2. System Description 2-21 2.15 STM-1 Specifications EVENT 5800 meets G.703, G.957 (S-1.1), G.825 standards for the STM-1/OC-3 signals passed across the RF link. Performance monitoring is not provided as the EVENT 5800 does not act as a regenerator. The EVENT 5800 does not support add/drop MUX (ADM) capability. The EVENT 5800 does support terminal MUX capability. 2.16 STM-1 Mux/Demux (Optional) EVENT 5800 provides the ability to demultiplex 63xE1 or 63xT1 PDH signals from the SDH signal.
2. System Description 2-22 overcome the effects of fading and interference. However, these techniques continue to operate at a higher power level than needed to maintain the link in clear weather. Because transmit power remains high when the weather clears, the level of system interference increases. Radios operating at high transmit power will interfere with other radios, even if the interfering source is miles away from the victim.
2. System Description 2-23 2.18.2 Network EVENT 5800 uses an Out-of-Band NMS network that is separate from the payload Ethernet network. Each EVENT 5800 contains a managed Layer 2 Ethernet switch that supports Spanning-Tree Protocol (STP) for managing NMS traffic. This allows EVENT 5800 to be configured in a protected ring configuration where the STP will prevent an Ethernet loop in the ring. This will also allow the ring to re-configure in the event of an outage.
2. System Description 2-24 Figure 2-26. DTVLINKs on Different Subnets 2.18.4 Third Party NMS Support EVENT 5800 supports SNMPv1, SNMPv2, and SNMPv3 protocols for use with third party network management software. The SNMP agent will send SNMP traps to specified IP addresses when an alarm is set or cleared. Information contained in the trap includes: IP address System uptime System time Alarm name Alarm set/clear detail EVENT 5800 can also be managed via HTTP, TELNET, and SSH protocols. 2.
3. Pre-Installation Procedures 3-1 3. Pre-Installation Procedures 3.1 Site Evaluation A site evaluation consists of a series of procedures for gathering specific information about potential installation locations. This information is critical to the successful design and deployment of a network. Site evaluations are required to confirm whether or not a building meets network design requirements.
3. Pre-Installation Procedures 3-2 Antennas must have a clear view of each other, or “line of sight”. Binoculars may be used evaluate the path from the desired location of the near antenna to the desired location of the far antenna. To confirm Line of Sight: o Ensure that no obstructions are close to the transmitting/receiving path. Take into consideration trees, bridges, construction of new buildings, unexpected aerial traffic, window washing units, etc.
3. Pre-Installation Procedures o 3-3 Antenna direction 7) Measure the Link Distance: The two ways to measure link distance are as follows: o GPS: record the latitude and longitude for the near and far installation sites and calculate the link distance. Record the mapping datum used by the GPS unit and ensure the same mapping datum is used for all site evaluations in a given network. o Range finder: measure the link distance (imperial or metric units may be used).
3. Pre-Installation Procedures 3-4 Where: PTX is the transmitter output power (in dBm) GTX ANT is the gain of the transmit antenna (in dB) GRX ANT is the gain of the receive antenna (in dB) LPath is the Path loss, defined by: LP (dB) = 36.6 + 20log10 (F*D) Where: F is the Frequency in MHz, D is the Distance of path in miles This link budget is very important in determining any potential problems during installation. The expected RSL and measured RSL should be close (+/- 5 to 10 dB) 3.2.
3. Pre-Installation Procedures 3-5 3.3 Frequency Plan Determination When configuring EVENT 5800 units in a point-to-point or consecutive point configuration, careful engineering of the frequency plans and antenna locations should be performed in order to minimize potential interference between nearby radios. Nearby radios should operate on different frequencies, transmitting in the same band (high side or low side).
3. Pre-Installation Procedures 3-6 3.4 Facility Requirements The site selected to house the DTV LINK should follow conventional microwave practice and should be located as close to the antenna as possible. This will reduce the RF transmission line losses, minimize possible bending and kinking of the line, and allow for the full range potential of the radio link. The building or room chosen for installation should be free from excessive dust and moisture.
3. Pre-Installation Procedures 3-7 3.6.1 5.8 GHz Band For fixed point-to-point applications in the United States the maximum EIRP (Effective Isotropic Radiated Power) is unlimited when using directional antennas in accordance with FCC part 15.247b(3). The EVENT 5800 5800 can be operated at its maximum output power, +23 dBm, for maximum system gain.
3. Pre-Installation Procedures 3-8 +5 dBm – 14.6 dB = -9.6 dBm (-10 dBm). Table 3-3 also shows transmit power settings for various antenna dish sizes. For link budget, EIRP(Avg) dBm = 37 dBi + Tx Power Setting (dBm) Table 3-3. Maximum Power Settings for 5.3GHz U-NII Band Operation (US) Maximum Tx Power Setting, dBm Antenna Diameter Antenna Gain, dBi* (example) 1 Channel Mode (30MHz BW) 2 Channel Mode (20MHz BW) 3 Channel Mode (13.3MHz BW) 6 foot dish 37.6 -10 -11 -12 4 foot dish 34.
4. Installation 4-1 4. Installation 4.1 Unpacking The following is a list of possible included items for each box. Description EVENT 5800 (3RU chassis) Quantity 1 External Power Supply & AC Mains cable 1 ea Short TNC & Ethernet cables (may be already installed) 1 ea Manual (or Soft copy on a CD) 1 Optional RF channel filter 1 Be sure to retain the original boxes and packing material in case of return shipping. Inspect all items for damage and/or loose parts.
4. Installation 4-2 connected in an operational configuration, no errors should be reported on the back panel. Bench Setup for FDD Link Operation Event 5800 (10) Panel Antenna (9) Panel Antenna (8) N-Type Cable (11) N-Type Cable (1) ODU (12) ODU (14) TNC Cable (13) IDU Remote (HT) -48Vdc Power Supply (7) TNC Cable (2) IDU Green when locked 192.168.1.113 (3) Pwr Cable/ Pwr Supply Assy (6) RJ45 Cable, 4m Green when locked -48Vdc Power Supply (19) Pwr Cable/Pwr Supply Assy EUT (LT) 192.
4. Installation 4-3 Located where you can easily connect to a power supply and any other equipment used in your network, such as a router or PC. In a relatively clean, dust-free environment that allows easy access to the back panel grounding post as well as the back panel controls and indicators. Air must be able to pass freely over the chassis, especially the rear. Accessible for service and troubleshooting.
4. Installation 4-4 jumper JP7 and JP9 for relay alarm 2. When configured as TTL, the 2 outputs can source/sink up to 10 mA at 5 VDC. When an alarm is present, Common is connected to Normally Closed. Otherwise it is connected to Normally Open. USB Interface: USB connector, reserved. Ground: 6-32 screw connection. 4.6.
4. Installation 4-5 USER 10/100 2: 100Base-TX RJ-45 modular port connector. This port to be used for consecutive point networks. AUX: Data Orderwire Connector: RJ-45 modular port connector for RS422/RS-232 data at 64 kbps. E1/T1 1-2: Two E1/T1 (RJ-48C) interface connections. E1/T1 3-16: Three Molex 60-pin connectors containing 14 E1/T1 connections each. Ground: 6-32 screw connection. 4.6.
4. Installation 4-6 The antenna is usually mounted on a pipe mount or tower, on top of a building, on a tower adjacent to building where the DTV LINK is installed, or on some structure that will provide the proper elevation. If the tower or antenna mounting mast is to be mounted on a building, an engineer should be consulted to ensure structural integrity. The antenna support structure must be able to withstand high winds, ice, and rain without deflecting more than one tenth of a degree.
4. Installation 4-7 Figure 4-5. DC Power Cable Connector 2) Connect the EVENT 5800 power cable to the –48V DC power supply, and place the voltmeter probes on the unconnected EVENT 5800 end of the power cable, with the positive voltmeter probe on pin 2 (-V) of the cable connector and the negative probe on pin 1 (RET). The connector terminal screw heads may be used as convenient monitor points. 3) Turn on the –48V DC supply.
4. Installation 4-8 Figure 4-7. RSSI Output vs. Received Signal © 2012 Moseley, Inc. All Rights Reserved. 602-16620-01, Rev.
5. Quick Setup Guide 5-1 5. Quick Setup Guide It is highly recommended that you review this manual before you install the EVENT 5800. The information here is only a summary. 5.1 Quick Start Hardware Overview 5.1.1 Ensure coaxial Connections The Event 5800 Coaxial Cable should be connected via some lightening protection that will pass following DC, 5.5MHz to 400MHz 5.1.1.
5. Quick Setup Guide 5-2 configured to an open IP address within the same subnet. For the default Moseley configuration, the IP address of the PC must be 192.168.1.x (where x=a value in the range 1-100). DHCP can also be used to set the PC’s IP address if a DHCP server is configured on the same subnet. For additional instructions on adding an IP address on your PC, please review http://www.itsyourip.com/networking/how-to-add-multiple-ipaddress-in-windows-2000xp2003/. 5.2.
5. Quick Setup Guide 5-3 6) In the navigation panel, select: Administration->Network Configuration->General Network Configuration. The IP address, IP Netmask, and IP Gateway are shown. 7) Enter the new IP address, IP Netmask, and IP Gateway. Click Update to change the values. 8) To verify the new IP address, change the PC's network configuration to be on the same subnet as the new IP address set in the unit and a network ping may be performed to the new address.
5.
5. Quick Setup Guide 5-5 2) Enter the Owner, Contact, Description, and Location. These values are not required for operation, but will help keep a system organized. 5.6 Reset to Factory Defaults WARNING: A Reset to Factory Defaults can disable your link! The EVENT 5800 may be reset to factory defaults during power up. A power on reset affects the IP address and the user login names and passwords. To perform a power on reset: 1) Power on the EVENT 5800 2) Make sure the call button is not active.
5. Quick Setup Guide 5-6 Parameter Speed Bits Stop-Bits Parity Flow-Control Value 38400 8 1 None None After power is supplied to the EVENT 5800, the CLI can be accessed by connecting the serial cable between the PC and the EVENT 5800. Launch and configure a terminal program (e.g. Hyperterm or TeraTermPro) and press the enter key. You will be prompted for a user name and password. See Section 5.2.3 for Default User Names & Passwords. © 2012 Moseley, Inc. All Rights Reserved. 602-16620-01, Rev.
5. Quick Setup Guide © 2012 Moseley, Inc. All Rights Reserved. 5-7 602-16620-01, Rev.
6. On-Site Service 6-1 6. On-Site Service At times, it may be necessary to service the EVENT 5800. This may include installing, removing, or replacing a EVENT 5800 module. There may be up to 8 modules installed in a single EVENT 5800 chassis. The following illustration shows the back panel of the EVENT 5800 with each module labeled.
7. Specifications 6-2 Figure 6-3. Threaded Hole Locations 6.2 Installing a Module 1) Modules are static sensitive and should only be handled in an ESD-safe environment. When packaging modules for shipment or storage, place in an ESD bag. 2) Line up the module board with the guides in the chassis and slide the module into the EVENT 5800. The following illustration shows a photo of the guides.
7. Specifications 6-3 3) Install thumbscrews on either side of the module as shown in Figure 6-2. The Mini I/O card has a corner screw, which should be installed. This corner screw is shown in Figure 6-2. 4) Make rear panel connections to the module and power on the EVENT 5800 if necessary. 5) Verify proper operation of the unit. If the Controller Module has been changed, reprogram the IP addresses. © 2012 Moseley, Inc. All Rights Reserved. 602-16620-01, Rev.
7. Specification 7-1 7. Specifications 7.1 System Specifications Parameter EVENT 5800 System Frequency Bands 5.725-5.850 Output Power (Typical) 27dBm (0.
7. Specifications 7-2 Parameter EVENT 5800 DC Power -48 Vdc ±10%, <125 W AC Power (External PS) 100-240 Vac, 47-63 Hz, <3.2 A Operational Temperature -30 to 55 ºC Humidity Altitude 0 to 95%, non-condensing 15,000 feet / 4572 meters, maximum Physical Dimensions Size (W x H x D) IDU 19.0 x 1.75 x 11.5 inches (48.3 x 4.45 x 29.2 cm) Weight EIA Rack Mount 19 inch/48.3 cm, 1 rack units 7.2 Ethernet Performance 7.2.
7. Specifications 7-3 Table 7-1. 100 Base TX Ethernet % Nominal Throughput Frame Size 10Mbps Through put 50Mbps Through put 100Mbps Through put 150Mbps Through put 200Mbps Through put 250Mbps Through put 300Mbps Through put 64 106.3% 106.0% 100.0% - - - - 128 103.4% 102.6% 100.0% - - - - 256 100.0% 101.4% 99.8% - - - - 512 100.0% 100.4% 99.8% - - - - 1024 100.0% 100.3% 99.9% - - - - 1280 99.9% 100.3% 100.0% - - - - 1518 99.9% 100.2% 100.
7. Specifications 7-4 Priority Queues (Standard Master I/O & Enhanced Master I/O): 2 Priority Queues (42xE1/T1 Master I/O): 4 NOTE: The weighted ratios are fixed for 802.1Q VLAN TAG priority and for IPv4 TOS priority even though they are selectable via the Web Interface. The Low priority queue flows may be starved under some traffic conditions (Standard Master I/O & Enhanced Master I/O only). Flow Control: Flow control is supported in both full-duplex and half-duplex.
7. Specifications 7-5 Min = 64 bytes Max = 1522 bytes for GigE Master I/O & Enhanced GigE Master I/O Max = 2048 bytes for 42xE1/T1 Master I/O Max = 4000 bytes for GigE Master I/O JUMBO Max = 9728 bytes for Enhanced GigE Master I/O JUMBO VLAN support: VLAN tagged packets are passed through without modification. Port based VLANs are supported, but not user-configurable as they are used to implement 155FE and Port-based VLAN modes. EVENT 5800 uses VLAN TAG Priority (802.
7. Specifications © 2012 Moseley, Inc. All Rights Reserved. 7-6 602-16620-01, Rev.
8. Connectors 8-1 8. Connectors 8.1 DC Input (Power) Connector MSTB 2,5/ 2-GF 1 2 PIN TYPE SIGNAL 1 POWER Power supply return 2 POWER 48V DC, nominal Mating Connector: MSTB 2,5/ 2-STF Ordering Information: Phoenix Contact Part Number 1786831 8.
8. Connectors 8-2 8.4 SONET Payload Connector SC Duplex Female Fiber OUT PIN TYPE OUT OUTPUT SONET OC-3 payload output (optical) INPUT SONET OC-3 payload input (optical) IN IN SIGNAL Mating Connector: SC-Duplex Male Ordering Information: Molex Part Number 86066-4000 or equivalent 8.
8. Connectors 8-3 8.
8. Connectors 8-4 8.10 T1/E1 Channels 3-16 Connector Molex LFH Matrix 50 Receptacle 100 / 120 Balanced © 2012 Moseley, Inc. All Rights Reserved.
8.
8. Connectors USB Type A Receptacle 8-6 PIN TYPE SIGNAL 1 OUTPUT +5V 2 I/O -Data 3 I/O +Data 4 N/A GND Mating Connector: USB Type A Plug . 8.12 Data Order Wire 8.12.
8. Connectors © 2012 Moseley, Inc. All Rights Reserved. 8-7 602-16620-01, Rev.
A. Abbreviations & Acronyms A-1 Appendix A.
A.
B. Conversion Chart B-1 Appendix B. µV – dBm Conversion Chart µV to dBm (impedance = 50 ohms) µV dBm µV dBm 0.10 -127.0 180 -61.9 0.25 -119.0 200 -61.0 0.50 -113.0 250 -59.0 0.70 -110.1 300 -57.4 1.0 -107.0 350 -56.1 1.4 -104.1 400 -54.9 2.0 -101.0 450 -53.9 2.5 -99.0 500 -53.0 3.0 -97.4 600 -51.4 3.5 -96.1 700 -50.1 4.0 -94.9 800 -48.9 4.5 -93.9 900 -47.9 5.0 -93.0 1,000 -47.0 6.0 -91.4 1,200 -45.4 7.0 -90.1 1,400 -44.1 8.0 -88.
A. Alarms B-2 µV dBm µV 60 -71.4 22.4 mV -20 (10 µW) 70 -70.1 70.7 mV -10 (100 µW) 80 -68.9 224 mV 0 (1 mW) 90 -67.9 707 mV +10 (10mW) 100 -67.0 2.23 V +20 (100 mW) 120 -65.4 7.07 V +30 (1 W) 140 -64.1 11.2 V +36 (4 W) 160 -62.9 22.4 V +40 (10 W) © 2012 Moseley, Inc. All Rights Reserved. dBm 602-16620-01, Rev.
D. Customer Service C-1 Appendix C. FCC Applications Information FCC Form 601 The DTV Link operates as Studio-Transmitter Link (STL). It is FCC type verified for use in licensed Part 74 and Part 101bands of 7 & 13 GHz (6,425 to 6,525 MHz, 6,875 to 7,125 MHz and 12,700 to 13,250 MHz respectively). It is the operator’s responsibility to acquire proper authorization prior to radio operation. This is accomplished by submitting FCC 601 Main Form and Form 601 Schedule I. The main form is 103 pages.
D. Customer Service C-2 Digital Modulation Type Bandwidth Efficiency (bps/Hz) QPSK 1.74 16QAM 3.48 32QAM 4.35 64QAM 5.22 128QAM 6.09 256QAM 6.96 TCM 1/2 3/4 7/8 3/4 7/8 4/5 9/10 5/6 11/12 6/7 13/14 7/8 15/16 Baseband Efficiency (bps/Hz) 0.80 1.20 1.40 2.39 2.79 3.19 3.59 3.99 4.39 4.79 5.19 5.59 5.99 As an example, for a 25MHz RF channel using 16QAM modulation with a TCM of 3/4, the Baseband Digital Rate (kbps) = 25 MHz x 2.39 bps/Hz x 1000 kbps/Mbps = 59,750 kbps. © 2012 Moseley, Inc.
D. Customer Service D-1 Appendix D. Customer Service Moseley Associates will assist its product users with difficulties. Most problems can be resolved through telephone consultation with our technical service department. When necessary, factory service may be provided. If you are not certain whether factory service of your equipment is covered, please check your product Warranty/Service Agreement. Do not return any equipment to Moseley without prior consultation.
D. Customer Service D-2 us fix the problem and get the equipment back to you as fast as possible. Include your RA number inside the carton. If you are shipping a complete chassis, all modules should be tied down or secured as they were originally received. On some Moseley Associates equipment, printing on the underside or topside of the chassis will indicate where shipping screws should be installed and secured. Ship equipment in its original packing, if possible.
D. Customer Service D-3 requires specialized equipment and skills to affect a proper repair. Return the suspect module to the factory for repair or replacement. © 2012 Moseley, Inc. All Rights Reserved. 602-16620-01, Rev.