RX8000 Series Receivers Software Version 4.3.
RX8000 Series Receivers ENGLISH (UK) - READ THIS FIRST! ITALIANO - LEGGERE QUESTO AVVISO PER PRIMO! If you do not understand the contents of this manual. DO NOT OPERATE THIS EQUIPMENT. Also, translation into any EC official language of this manual can be made available, at your cost. Se non si capisce il contenuto del presente manuale. NON UTILIZZARE L’APPARECCHIATURA.. È anche disponibile la versione italiana di questo manuale, ma il costo è a carico dell’utente.
Contents Contents Chapter 1: Introduction This chapter identifies the equipment versions covered by this manual, describes the purpose of the equipment and provides a summary of features, controls and indicators. Chapter 2: Installing the Equipment This chapter provides a guide to the installation requirements, gives detailed procedures for the installation and configuration of the equipment including important safety information and provides details of connectors.
Preliminary Pages Introduction This Reference Guide provides instructions and information for the installation and operation of the RX8000 Receiver range. This Reference Guide should be kept in a safe place for reference for the life of the equipment. It is not intended that this Reference Guide will be amended by the issue of individual pages. Any revision will be by a complete re-issue. Further copies of this Reference Guide can be ordered from the address shown on page vii .
Preliminary Pages Registered trademarks and trademarks used are acknowledged below and marked with their respective symbols. However, they are not marked within the text of this Reference Guide. Registered Trademarks Ethernet® Registered trademark of Xerox Corporation. Dolby®/AC-3® Registered trademarks of Dolby Laboratories Licensing Corporation. Dolby® Digital Registered trademark of Dolby Laboratories Licensing Corporation.
Preliminary Pages Warning! Warnings give information which, if strictly observed, will prevent personal injury or death, or damage to property or the environment. They are highlighted for emphasis, as in this example, and are placed immediately preceding the point at which the reader requires them. Caution! Cautions give information which, if strictly followed, will prevent damage to equipment or other goods.
Preliminary Pages For systems support you can choose either Gold Business Critical support or Silver Business Advantage. These packages are designed to save you costs and protect your income through enlisting the help of Ericsson support specialists. Call Ericsson Customer Services for more details. Customer Services Europe, Middle East and Africa Tel: +44 (0) 23 8048 4455 Fax: +44 (0) 23 8048 4467 Email: tvsupportemea@ericsson.
Preliminary Pages Return of Equipment If you need to return equipment for repair please contact your local Ericsson Customer Services Department. Please refer to the Customer Services contact information on page vii. You will then be directed to return the faulty equipment to a repair centre with the appropriate facilities for that equipment. A tracking number will be issued that should be used if you need to enquire about the progress of the repair.
1 Introduction Chapter 1 Contents 1.1 1.1.1 1.1.2 1.2 1.2.1 1.2.1.1 1.2.1.2 1.2.1.3 1.2.2 1.2.2.1 1.2.2.2 1.2.2.3 1.2.3 1.2.3.1 1.2.3.2 1.2.3.3 1.2.4 1.2.4.1 1.2.4.2 1.2.4.3 1.2.5 1.2.5.1 1.2.5.2 1.2.5.3 1.3 1.3.1 1.3.2 1.3.3 1.4 1.4.1 1.4.2 1.5 1.6 1.7 EN/LZT 790 0005 R1A Introduction........................................................................................... 1-3 Who Should Use this Reference Guide ................................................
Chapter 1 List of Figures Figure 1.1 Figure 1.2 Figure 1.3 Figure 1.4 Figure 1.5 Figure 1.6 Typical Satellite Compression System ............................................... 1-17 What the Satellite Receiver Does....................................................... 1-18 Typical Compression System............................................................. 1-19 Role of the Decoder ........................................................................... 1-20 Front Panel Controls (RX8200) ...........
Chapter 1 1.1 Introduction 1.1.1 Who Should Use this Reference Guide This Reference Guide is written for operators / users of the RX8000 Series Receivers. It describes the units’ functions and operation. The Reference Guide is written to assist in the installation and day-to-day care and operation of the unit. Maintenance information requiring the covers to be removed is not included. Warning! Do not remove the covers of this equipment.
Chapter 1 This Reference Guide covers the functions of software version 4.3.2 and later. To verify the installed version either: • Access the front panel System Menu (Menu 1.2.1). The front panel menus are described in Chapter 3, Front Panel Control. • Access the Web Browser screens and select the About button. The Web Browser screens are described in Chapter 5, Web Browser Control. The various hardware and software options are listed below: Table 1.
Chapter 1 Table 1.
Chapter 1 Marketing Code Price Object Number Supply Object Number Description RX8200/SWO/HDSDI/3G FAZ 101 0113/34 FAT 102 0176 MPEG-4 HD 4:2:2 1080p 50/60 Decoding RX8200/SWO/MP2/422/SD FAZ 101 0113/59 FAT 102 0387 MPEG-2 SD 4:2:2 Decoding RX8200/SWO/MP2/HD/422 FAZ 101 0113/39 FAT 102 0172 MPEG-2 HD and SD 4:2:2 Decode RX8200/SWO/MP4/422/SD FAZ 101 0113/43 FAT 102 0178 MPEG-4 SD 4:2:2 Decoding RX8200/SWO/MP4/422/HD FAZ 101 0113/42 FAT 102 0177 MPEG-4 HD 4:2:2 Decoding RX8200/SWO/DCO
Chapter 1 Marketing Code Price Object Number Supply Object Number Description RX83XX/SWO/PW FAZ 101 0108/29 FAT 102 0110 Password Protection for Web Browser RX83XX/SWO/AAC FAZ 101 0108/2 FAT 102 0370 AAC Decode RX83XX/SWO/SING/SERVFILT FAZ 101 0108/15 FAT 102 0138 Single Service Filtering RX83XX/SWO/MULT/SERVFILT FAZ 101 0108/14 FAT 102 0137 Multi-Service Filtering RX83XX/SWO/IP/DATA FAZ 101 0108/7 FAT 102 0113 High Speed Data Output RX83XX/SWO/MP2/MP4/SD FAZ 101 0108/12 FAT 102 01
Chapter 1 Marketing Code Price Object Number Supply Object Number Description RX83XX/SWO/SING/SERVFILT FAZ 101 0108/15 FAT 102 0138 Single Service Filtering RX83XX/SWO/MULT/SERVFILT FAZ 101 0108/14 FAT 102 0137 Multi-Service Filtering RX83XX/SWO/IP/DATA FAZ 101 0108/7 FAT 102 0113 High Speed Data Output RX83XX/SWO/MP2/MP4/SD FAZ 101 0108/12 FAT 102 0111 MPEG-2/4 SD 4:2:0 Decoding RX83XX/SWO/MP2/MP4/SD/HD FAZ 101 0108/11 FAT 102 0112 MPEG-2/4 HD 4:2:0 Decoding RX83XX/SWO/NULL FAZ 101
Chapter 1 Marketing Code Price Object Number Supply Object Number Description RX83XX/SWO/NULL FAZ 101 0108/17 FAT 102 0114 Null Packet TS License RX8320/SWO/IP/OUT FAZ 101 0108/25 FAT 102 0134 IP Transport Stream Out License Key RX8320/UPG/IP/OUT FAZ 101 0108/26 FAT 102 0135 IP Transport Stream Output Table 1.
Chapter 1 Marketing Code Price Object Number Supply Object Number Description RX83XX/SWO/MP2/MP4/SD FAZ 101 0108/12 FAT 102 0111 MPEG-2/4 SD 4:2:0 Decoding RX83XX/SWO/MP2/MP4/SD/HD FAZ 101 0108/11 FAT 102 0112 MPEG-2/4 HD 4:2:0 Decoding RX83XX/SWO/NULL FAZ 101 0108/17 FAT 102 0114 Null Packet TS License RX83XX/SWO/MSD FAZ 101 0108/13 FAT 102 0125 Common Interface Multi-Service Descrambling RX83XX/SWO/DIR5/MSD FAZ 101 0108/3 FAT 102 0104 Director Multi-Service Descrambling 1.
Chapter 1 1.2.1.2 1.2.1.3 EN/LZT 790 0005 R1A • Status LED indicates input feed lock and general alarm conditions. • Alarm handling via single configurable alarm relay and a date and time stamped alarm log. • 1 x ASI input with 75 Ω connector. • 2 x ASI Transport Stream outputs with 75 Ω connectors. • Simple local and remote unit software upgrade in the field.
Chapter 1 1.2.2 • Dolby Digital ® decoding / downmixing. • Director 5 control and de-scrambling. RX8310 Distribution Receiver The RX8310 combines a DVB-S2 demodulator with Ericsson’s Director secure content delivery and over-air receiver control solution as a standard feature. The RX8310 provides the option to decrypt multiple services, allowing decryption of a complete multiplex of channels with a single unit.
Chapter 1 1.2.3 • MPE IP data de-encapsulation. • Single service filtering and PID remapping. • Multi-service filtering and stream splitting. RX8315 Distribution Receiver The RX8315 enables video distribution for both analog and digital networks. The RX8315 provides compatibility with DVB Common Interface CA systems, offering both single service and multi-service decryption capability.
Chapter 1 1.2.4 • MPEG-4 AVC HD down-conversion through CVBS output. • 2 x stereo pair Dolby® Digital audio decoding with 5.1 to 2.0 down-mixing. • AAC audio decoding with 5.1 to 2.0 down-mixing. • MPE IP data de-encapsulation. • Single service filtering and PID remapping. • Multi-service filtering and stream splitting.
Chapter 1 1.2.4.2 • 2 x stereo pairs balanced analog audio output. • Front panel and web browser control, with alarm relay. RX8320 Factory Fit Optional Hardware Features • 1.2.4.3 Dual Gigabit IP data / feed output on dual redundant RJ-45 output connectors. RX8320 Optional Software Features The following optional features are available: 1.2.5 • Transport stream over IP output. • MPEG-4 AVC video decoding. • Single-service filtering and PID remapping.
Chapter 1 1.2.5.2 1.2.5.3 • Front panel and Web browser control, with alarm relay. • SCTE 35 controlled contact closures for ad-insertion signaling. RX8330 Factory Fit Optional Hardware Features • Dual Gigabit IP data / feed output on dual redundant RJ-45 output connectors. • Russian SECAM composite video output. RX8330 Optional Software Features The following optional features are available: 1-16 • DVB-S2 QPSK, 8PSK and 16APSK demodulation. • Transport stream over IP output.
Chapter 1 1.3 The Satellite Receiver 1.3.1 Typical Satellite System The RX8000 Series Receiver is a component of the MPEG-4 AVC/ MPEG-2/DVB compliant range of Ericsson equipment. They are designed for use by broadcasters and distributors of video, audio and data Services over satellite. Figure 1.1 Typical Satellite Compression System 1.3.
Chapter 1 1.3.3 What the Satellite Receiver Does The Receiver can be tuned to a specified satellite channel frequency and polarization. The input is down-converted via a Low-Noise Block (LNB) to provide an L-band input to the Receiver. The front-end tuning is microprocessor controlled with a frequency synthesized local oscillator. A software tuning and acquisition algorithm resolves translation errors (mainly due to the LNB).
Chapter 1 1.4 The Telco Receiver/Decoder 1.4.1 Typical Decoder System The Decoder is a component of Ericsson range of equipment. It is designed for use by broadcasters and distributors of video and audio Services. It can be used as a Transport Stream monitor or to decode signals received over a telecommunications network. Figure 1.3 Typical Compression System 1.4.2 What the Decoder Does The G.
Chapter 1 The Decoder is configured to select a single video Service and other audio/data components from the multiple Services on the incoming Transport Stream and present them at the output. Figure 1.4 Role of the Decoder Note: 1.5 G.703 input may also be used to interface to telco infrastructure. Construction The RX8000 Receiver is constructed using a screened self-ventilated modular system. All operational inputs and outputs are via rear-panel connectors.
Chapter 1 LCD CA SLOT USB Connector (Servicing Only) Status LED EDIT SAVE LEFT UP DOWN RIGHT Figure 1.5 Front Panel Controls (RX8200) Table 1.12 Front Panel Controls EN/LZT 790 0005 R1A Item Color Description CA Slot - Conditional Access Slot. Located on front panel of RX8200 and rear panel of RX8310, RX8315 and RX8330. USB Connector - This connector is for factory / service use only. Status LED Red CRITICAL Error. Indicates that the unit has lost lock with the Transport Stream.
Chapter 1 1.7 Rear Panels All inputs, outputs and control connections are taken via the rear panel. Due to the modular nature of these units, factory fitted hardware modules with different connections can be fitted to any unit and therefore only a typical (sample) rear panel images are shown below. Full details of the connectors for ALL base models and options are given in Chapter 2, Installing the Equipment. Full details of all the options are given in Chapter 6, Options.
Chapter 1 Table 1.13 Rear Panels Item Type Description RF IN 1-4 F-type 75 Ω Radio Frequency (L-band) input. ASI OUT 1-2 BNC 75 Ω ASI = Asynchronous Serial Interface. ASI/SDI OUT SDI = Synchronous Data Interface. ASI/HD-SDI/SD-SDI OUT SD-SDI = Standard Definition SDI. HS- SDI = High Definition SDI. CVBS BNC 75 Ω Composite Video output. ASI INPUT BNC 75 Ω Asynchronous Serial Interface input. Streaming data format which carries the MPEG Transport Stream.
Chapter 1 BLANK 1-24 EN/LZT 790 0005 R1A
2 Installing the Equipment Chapter 2 Contents 2.1 2.1.1 2.1.2 2.1.3 2.1.4 2.1.4.1 2.1.4.2 2.1.4.3 2.2 2.2.1 2.2.2 2.3 2.3.1 2.3.2 2.3.2.1 2.3.2.2 2.3.2.3 2.3.3 2.4 2.4.1 2.4.2 2.5 2.5.1 2.5.2 2.5.2.1 2.5.2.2 2.5.3 2.6 2.7 2.7.1 2.7.2 2.7.3 2.7.4 2.7.5 2.7.6 2.7.7 2.7.8 EN/LZT 790 0005 R1A Read This First! .................................................................................... 2-3 Handling ...............................................................................................
Chapter 2 2.7.9 2.7.10 2.7.11 2.7.12 2.7.13 ASI IN Connector ............................................................................... 2-14 COMPONENT VIDEO Connector (RX8200 only) .............................. 2-14 DATA OUT Connector........................................................................ 2-15 ALARM Connector ............................................................................. 2-15 RS232/RS485 REMOTE Connector ..................................................
Chapter 2 2.1 Read This First! 2.1.1 Handling The equipment must be handled and installed carefully and thoughtfully to prevent safety hazards and damage. 2.1.2 Installing the Equipment Ensure the personnel designated to fit the unit have the appropriate skills and knowledge. If in any doubt, contact Ericsson Customer Services (see Preliminary Pages for contact details).
Chapter 2 Where appropriate, ensure this product has an adequate level of lightning protection. Alternatively, during a lightning storm or when it is left unattended and unused for long periods of time, unplug it from the supply outlet and disconnect the output equipment. This prevents damage to the product due to lightning and power line surges. 2.2 Preliminary Checks 2.2.
Chapter 2 2.3.2 Ventilation 2.3.2.1 Openings in the Covers Side openings in the unit, as well as side-mounted cooling fans, are provided for ventilation. They ensure reliable operation of the product and protect it from overheating. The openings of the fans must not be blocked or covered. Air is released through vents at the side of the unit. Fans are mounted on this side of the unit Figure 2.1 Air-Flow Through the Equipment 2.3.2.
Chapter 2 2.3.3 Installing Cables - Safety Power supply cables should be routed so that they are not likely to be walked on or pinched by items placed upon or against them. Pay particular attention to cables at plugs, convenience receptacles, and the point where they exit from the appliance. Do not run AC power cables in the same duct as signal leads. Do not move or install equipment whilst it is still attached to the mains supply.
Chapter 2 Warnings! The RX8000 series receivers should only be operated from the type of power source indicated on the marking label. If you are not sure of the type to your business, consult your appliance dealer or local power company. Do not overload wall outlets and extension cords as this can result in a risk of fire or electric shock. The RX8000 series receivers are NOT fitted with an AC power ON/OFF switch.
Chapter 2 Table 2.1 Supply Cord Wiring Colors Earth: Neutral: Live: UK (BS 1363) EUROPE (CEE 7/7) USA (NEMA 5-15P) Green-and-yellow Green-and-yellow Green Blue Blue White Brown Brown Black If the colors do not correspond with the colored markings identifying the terminals in a locally supplied plug, proceed as in Annex B. The inclusion of Table 2.2 is for reference. Table 2.2 Non Standard Supply Cord Wire Colors Wire Color (UK) 2.5.3 Action green-and-yellow ...
Chapter 2 2. Eliminate the migration of stray charges when connecting between equipment. To do this, connect a wire between the Technical Earth terminal and a suitable point on the rack. The Technical Earth provides a suitable connection between the equipment and the installation to give a low impedance path at normal operating frequencies. Technical Earth Figure 2.3 Location of the Technical Earth on RX8200 Technical Earth Figure 2.4 Location of the Technical Earth on RX83XX 2.
Chapter 2 All signal connections are made via the rear panel. A typical rear panel is shown in Figure 2.5. Full technical specifications for the connections are given in Annex B. The Receiver provides a flexible Transport Stream input interface. The status information appropriate to each input type is available to the User via the User Interface, and also via the remote control interfaces.
Chapter 2 Cautions! The receiver provides DC power (see Chapter 3, Front Panel Control for details of menu option) via the active L-band input connector to drive an LNB. Do not connect equipment other than an LNB to this connector. Failure to do this may result in damage to the external equipment. The F-type connector is not suitable for repeated connection and disconnection. When intended for use in this way, fit a sacrificial connector and connect to it. Table 2.
Chapter 2 2.7.4 ASI/SDI OUT Connector (RX8200 and RX8330 only) The unit provides two coaxial ASI/SDI outputs depending on the user selectable configuration. Table 2.5 ASI/SDI OUT Connector Item Specification Connector type BNC 75 Ω female socket Connector designation ASI OUT 1 ASI/SDI OUT ASI OUT 2 Pin-outs 2.7.
Chapter 2 2.7.7 AUDIO/AUDIO OUT Connector All units provide a pair of connectors supplying two stereo channels. Each carries a single channel stereo pair in both analogue and balanced digital form. Table 2.8 AUDIO/AUDIO OUT Connectors Item Specification Connector type 9-way, D-type, male Connector designations AUDIO OUT 1 AUDIO/AUDIO OUT AUDIO OUT 2 AUDIO 3 (RX8200 only) AUDIO 4 (RX8200 only) 2.7.
Chapter 2 2.7.9 ASI IN Connector All units provide an ASI input socket for detection of the transport stream lock on the ASI input. Table 2.10 ASI IN Connector 2.7.10 Item Specification Connector type BNC 75 Ω female socket Connector designation ASI IN Pin-outs Centre Input Shield Ground/Chassis ASI IN COMPONENT VIDEO Connector (RX8200 only) The equipment is equipped with a SVGA 15-pin D-type connector for video output monitoring in the standard configuration.
Chapter 2 2.7.11 DATA OUT Connector A data output interface may be used with either RS232 or RS422 connector, as described below. Table 2.12 DATA OUT Connector Specification Connector type 9-way, D-type, female Connector designation DATA OUT Pin-outs 2.7.
Chapter 2 2.7.13 RS232/RS485 REMOTE Connector A remote control interface may be used with either RS232 or RS485 connector, as detailed below. Table 2.
3 Front Panel Control Chapter 3 Contents 3.1 3.2 3.2.1 3.2.2 3.3 3.3.1 3.3.2 3.3.3 3.3.4 3.3.5 3.4 3.5 3.5.1 3.5.1.1 3.5.1.2 3.5.1.3 3.5.1.4 3.5.1.5 3.5.2 3.5.2.1 3.5.2.2 3.5.3 3.5.3.1 3.5.3.2 3.5.4 3.5.4.1 3.5.4.2 3.5.4.3 3.5.5 3.5.5.1 3.5.5.2 3.5.6 3.5.6.1 3.5.6.2 3.5.6.3 3.5.6.4 3.5.7 EN/LZT 790 0005 R1A Introduction........................................................................................... 3-3 Powering the Equipment .....................................................................
Chapter 3 3.5.7.1 3.5.7.2 3.5.8 3.5.8.1 3.5.8.2 3.5.9 3.5.9.1 3.5.9.2 4.1 Service Table ............................................................................... 3-52 4.2 Director......................................................................................... 3-53 5 Output ............................................................................................. 3-56 5.1 Output Selection........................................................................... 3-56 5.
Chapter 3 3.1 Introduction This chapter describes the features and options provided by the Front Panel menus for controlling the RX8000 Series Receivers locally. 3.2 Powering the Equipment 3.2.1 Switching On Caution! This equipment should not be operated unless the cooling fans are working and there is free-air flow around the unit. 1. Connect all signal and power cables to the rear panel of the unit. All connectors are described in Chapter 2, Installing the Equipment. 2.
Chapter 3 Figure 3.1 Power Up Operating Mode 3.3 Using the Front Panel Controls The user interface for the Front Panel consists of an alphanumeric Liquid Crystal Display, pushbuttons, and a status LED that are used to set-up, control and monitor the unit. Various menu screens can be navigated on the LCD using the pushbuttons, which allow you to select and modify key parameters and features of the unit.
Chapter 3 LCD CA SLOT USB Connector (Servicing Only) Status LED EDIT SAVE LEFT UP DOWN RIGHT Figure 3.2 Front Panel Controls (RX8200) 3.3.1 USB Connector This connector is for factory / service use only. 3.3.2 Status LED This multi-coloured LED provides a visual indication of the summary status of the unit. The LED can be any one of three colours: 3.3.3 • Red (CRITICAL Error). Indicates that the unit has lost lock with the Transport Stream. • Amber (MAJOR or MINOR Error).
Chapter 3 3. Service: This menu includes user settings for the currently selected service for decode from the incoming feed. 4. CA Systems: This menu includes user settings for: the currently selected services for decryption from the incoming feed, Director parameters and status. 5. Output: This menu includes user settings for: Output selection, TS Feed Selection. 6.
Chapter 3 2. To ignore any changes that have been made and to return to the original setting, press the Edit pushbutton. 3.4 Example Configuration The following example configuration uses the Front Panel menus to set up the DVB-S2 Satellite Receiver (not available for RX8320) using Menu 2. Table 3.1 Setting Up the DVB-S2 Satellite Receiver Step Action Result 1 Go to Menu 2.2 and select RF INPUT 1. The Receiver can take its signals from four sources. Set-up source 1. 2 Scroll to Menu 2.2.2.1.1.
Chapter 3 3.5 Front Panel Menus An overview of the available Front Panel menus is shown in Figure 3.3. The menus and settings available will vary depending on which receiver model is being used and which options have been enabled through the purchase of a suitable license. Section 3.5.1.1 SWITCH ON 1.1 Network Menu Boot Screen INITIALIZING 4.3.2 (Bank 0) Section 3.5.1 — — — — — 1. System Menu 1.1 1.2 1.3 1.4 1.5 Network Menu Build Menu Unit Serial Number Factory Menu FP (Front Panel) Menu 1.1.1 1.
Chapter 3 Section 3.5.2 Section 3.5.3 Section 3.5.5 2.2 Select Satellite Input 2.2 I/P Input Card 2.2 C onfigure G.703 Input — 2.2.1 Status 2.2.1.1 Lock Status 2.2.1.2 Error Ratio/Signal Level 2.2.1.3 Modulation/FEC Rate 2.2.1.4 Standard/Spectral Sense 2.2.1.5 Pilot Symbols/Frame Size — 2.2.1 Status 2.2.1.1 Current Port 2.2.1.2 Encapsulation 2.2.1.3 Number of Columns/Rows 2.2.1.4 IP Packets Received 2.2.1.5 Corrected Packet Count 2.2.1.6 Lost Packet Count 2.2.1.7 Current Buffer Level 2.2.1.
Chapter 3 3.5.1 1 System Shortly after switch-on, the Status LED will turn green and arrow keys will be lit depending on which further menus are available. The following System menu screen is displayed: SYSTEM 1 |SYSTEM | > The functions within the System menu are used to set various network parameters, IP and MAC addresses and to view Build, Unit Serial Number and Factory parameter information. 3.5.1.1 1.1 Network To access the Network menu from the System menu, press the X (Forward) key.
Chapter 3 4. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.1.1.2 1.1.2 MAC1 To access the MAC1 menu, press the T (Down) key. The following screen is displayed: MAC1 1.1.2 |MAC#1 |00:20:AA:55:05:9C To edit the MAC1 address: 1. Press the Edit key. The cursor appears below the first character of the MAC address. 2.
Chapter 3 To edit the Gateway address: 1. Press the Edit key. The cursor appears below the first character of the Gateway address. 2. Edit the address as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.1.1.6 1.1.6 Status This menu displays the status of the IP control interfaces.
Chapter 3 3.5.1.2.3 1.2.3 SD FPGA Version To view the Standard Definition (SD) Field Programmable Gate Array (FPGA) version, press the T (Down) key. The following screen (or a similar screen) is displayed: VERSIONS 1.2.3 |SD FPGA VERSION |0.2.5 [Built: Thu Apr 8 16:25:22 2010] The bottom line scrolls to display the version details. 3.5.1.2.4 1.2.4 HD FPGA Version (RX8200 only) To view the High Definition (HD) Field Programmable Gate Array (FPGA) version, press the T (Down) key.
Chapter 3 3.5.1.2.8 1.2.8 422 FW (Option Card) To view the 4:2:2 Firmware (FW) version (dependent on model and option licences obtained), press the T (Down) key. The following screen is displayed: VERSIONS 1.2.8 3.5.1.2.9 |422 FW | :--- 1.2.9 422 SW (Option Card) To view the 4:2:2 Software (SW) version (dependent on model and option licenses obtained), press the T (Down) key. The following screen is displayed: VERSIONS 1.2.9 |422 SW | :--- This is the last of the Version screens.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 4. If YES is saved, inputs will be reset and the unit rebooted immediately. 3.5.1.4.2 1.4.2 Reset All Incl IP & Reboot To access this function, press the T (Down) key. The following screen is displayed and the Edit key is lit: FACTORY 1.4.2 |RESET ALL INCL IP & REBOOT |NO To enable/disable the reset including IP network parameters: 1. Press the Edit key. The cursor appears below the NO.
Chapter 3 2. Use the S (Up) and T (Down) keys to toggle between OFF and ON. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. To return to the System menu, press the W (Back) key twice. 3.5.2 2 Input (Satellite Input Card RX8200/HWO/DVBS2) The Input menu is used to select the various inputs to the equipment and set input parameters. To access the Input menu from the System menu, press the T (Down) key. The following screen is displayed: INPUT 2 3.
Chapter 3 3.5.2.2 2.2 Select Satellite Input This menu allows the choice of up to four RF Inputs. To access this menu, press the T (Down) key. The following screen is displayed: S2 2.2 |SELECT SATELLITE INPUT |RF Input 01 > To select the relevant RF Input: 1. Press the Edit key. The cursor appears below the input number. 2. Use the S (Up) and T (Down) keys to toggle between input options 01-04 (dependent on model and option licences obtained). 3.
Chapter 3 3.5.2.2.1.4 2.2.1.4 Standard/Spectral Sense To view the status of these parameters, press the T (Down) key. The following screen is displayed: STATUS 2.2.1.4 3.5.2.2.1.5 |STANDARD |SPECTRAL SENSE ----- 2.2.1.5 Pilot Symbols/Frame Size To view the status of these parameters, press the T (Down) key. The following screen is displayed: STATUS 2.2.1.5 |PILOT SYMBOLS |FRAME SIZE ----- Press the W (Back) key to return to the S2 Status menu. 3.5.2.2.2 2.2.
Chapter 3 SOURCE 1 2.2.2.2 |SATELLITE FREQUENCY |01550.000 MHz (UNLOCKED) To edit the frequency setting: 1. Press the Edit key. The cursor appears below the first number. 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.2.2.2.3 2.2.2.
Chapter 3 3.5.2.2.2.5 2.2.2.5 Rolloff To view and edit the current Source 1 Rolloff settings, press the T (Down) key. The following screen is displayed and the Edit key is lit: SOURCE 1 2.2.2.5 |ROLLOFF |20% (UNLOCKED) To edit the Rolloff setting: 1. Press the Edit key. The cursor appears below the first character of the current setting. 2. Use the S (Up) and T (Down) keys to toggle between the available percentage settings. 3.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.2.2.2.8 2.2.2.8 LNB Power OP To view and edit the current Source 1 LNB power output settings, press the T (Down) key. The following screen is displayed and the Edit key is lit: SOURCE 1 2.2.2.8 |LNB POWER OP |DISABLE (UNLOCKED) To enable/disable the LNB Power Op: 1. Press the Edit key. The cursor appears below the first character of the current setting. 2.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. This is the end of the Source 1 configure menu options. To return to the Source 1 menu press the W (Back) key. 3.5.2.2.3 2.2.3 – 2.2.5 Source 2/3/4 Configure To access further Source menus from the Source 1 menu (dependent on model and option licences obtained), press the T (Down) key. The options for Source 2, 3 and 4 menus are as described for Source 1, see above.
Chapter 3 3. Use the S (Up) and T (Down) keys to toggle between the available types: ASI and IP Input (dependent on model and option licences obtained). 4. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.3.2 2.2 IP Input Card This menu allows the viewing and editing of the IP Input Card parameters. To access this menu, press the T (Down) key. The following screen is displayed: IP I/P 2.2 3.5.3.2.1 |IP Input Card | > 2.2.
Chapter 3 STATUS 2.2.1.4 3.5.3.2.1.5 |IP PACKETS RECEIVED |0000000000 2.2.1.5 Corrected Packet Count To view the corrected packet count, press the T (Down) key. The following screen is displayed: STATUS 2.2.1.5 3.5.3.2.1.6 |CORRECTED PACKET COUNT |0000000000 2.2.1.6 Lost Packet Count To view the lost packet count, press the T (Down) key. The following screen is displayed: STATUS 2.2.1.6 3.5.3.2.1.7 |LOST PACKET COUNT |0000000000 2.2.1.
Chapter 3 STATUS 2.2.1.10 3.5.3.2.1.11 |FIFO OVERFLOW COUNT |0000000010 2.2.1.11 MDI Delay Factor To view the MDI Delay Factor, press the T (Down) key. The following screen is displayed: STATUS 2.2.1.11 3.5.3.2.1.12 |MDI DELAY FACTOR |00.000 2.2.1.12 MDI Media Loss Rate To view the MDI media loss rate, press the T (Down) key. The following screen is displayed: STATUS 2.2.1.12 3.5.3.2.1.13 |MDI MEDIA LOSS RATE |0 .000 2.2.1.13 FEC Latency To view the FEC latency, press the T (Down) key.
Chapter 3 NETWORK 1 |IP ADDRESS 1 2.2.2 |000.000.000.000 < To edit the Network 1 IP address: 1. Press the Edit key. The cursor appears below the first character of the address. 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.3.2.2.1 2.2.2.
Chapter 3 3.5.3.2.2.3 2.2.2.3 MAC Address 1 To view the MAC Address 1, press the T (Down) key. The following screen is displayed: NETWORK 1 |MAC ADDRESS 1 2.2.2.3 |00:20:AA:4f:06:1b 3.5.3.2.2.4 2.2.2.4 Ethernet Line Mode 1 To view and edit the Ethernet Line Mode 1, press the T (Down) key. The following screen is displayed: NETWORK 1 |ETHERNET LINE MODE 1 2.2.2.4 |AUTO To edit the Ethernet Line Mode 1: 1. Press the Edit key. The cursor appears below the first character of the displayed option. 2.
Chapter 3 3.5.3.2.2.8 2.2.2.8 ICMP Enable 1 To view and edit the ICMP 1, press the T (Down) key. The following screen is displayed: NETWORK 1 |ICMP ENABLE 1 2.2.2.8 |Enable To enable/disable the ICMP: 1. Press the Edit key. The cursor appears below the first character of the displayed option. 2. Use the S (Up) and T (Down) keys to toggle between the Enable/Disable options. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.3.2.2.9 2.2.2.
Chapter 3 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.3.2.2.11 2.2.2.11 ARP Enable 1 To view and edit the ARP 1, press the T (Down) key. The following screen is displayed: NETWORK 1 |ARP ENABLE 1 2.2.2.11 |Enable To enable/disable the ARP: 1.
Chapter 3 This is the last of the Network 1 screens. To return to the top level Network 1 screen press the W (Back) Key. 3.5.3.2.3 2.2.3 Network 2 From the Network 1 screen 2.2.2, press the T (Down) key. The following screen is displayed. NETWORK 2 |IP ADDRESS 2 2.2.3 |000.000.000.000 > The Network address 2 may be edited and all of the Network 2 parameters viewed and edited (where possible) as described in Section 3.5.3.2.2.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.3.2.4.2 2.2.4.2 SNMP Enable To view and edit the SNMP, press the T (Down) key. The following screen is displayed: SETUP 2.2.4.2 |SNMP ENABLE |Disable To enable/disable the SNMP: 1. Press the Edit key. The cursor appears below the first character of the displayed option. 2. Use the S (Up) and T (Down) keys to toggle between the Enable/Disable options. 3.
Chapter 3 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.3.2.4.5 2.2.4.5 Network Util 2 (Max Value) To view and edit the Network Util 2, press the T (Down) key. The following screen is displayed: SETUP 2.2.4.
Chapter 3 2.2.4.7 |0 .004 To edit the MDI Media Loss Rate: 1. Press the Edit key. The cursor appears below the first character of the displayed option. 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. This is the last of the Setup screens.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. This is the last of the I/P Port screens. To return to the top level I/P Port screen, press the W (Back) key. 3.5.3.2.6 2.2.6 Stream 1/ Unicast Enable 1 To view and edit the Unicast Enable 1, press the T (Down) key. The following screen is displayed: STREAM 1 2.2.6 |UNICAST ENABLE 1 |TRUE > To enable/disable the Unicast 1: 1. Press the Edit key.
Chapter 3 To edit the Source IP Address 1: 1. Press the Edit key. The cursor appears below the first character of the displayed value. 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.3.2.6.3 2.2.6.
Chapter 3 3.5.3.2.6.5 2.2.6.5 Row Port 1 To view and edit the Row Port 1, press the T (Down) key. The following screen is displayed: STREAM 1 2.2.6.4 |ROW PORT 1 |00000 To edit the Row Port 1 value: 1. Press the Edit key. The cursor appears below the first character of the displayed value. 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3.
Chapter 3 3.5.3.2.8.2 2.2.8.2 Port 1/ 2 Link Down To view the alarms for ports 1 and 2, press the T (Down) key. The following screen is displayed: ALARMS 2.2.8.2 3.5.3.2.8.3 |PORT 1 LINK DOWN |PORT 2 LINK DOWN Alarm Alarm 2.2.8.3 Port 1/ 2 IP Conflict To view the IP alarms for ports 1 and 2, press the T (Down) key. The following screen is displayed: ALARMS 2.2.8.3 3.5.3.2.8.4 |PORT 1 IP CONFLICT |PORT 2 IP CONFLICT 2.2.8.
Chapter 3 This is the last of the Alarm screens. To return to the top level Alarm screen, press the W (Back) key. 3.5.3.2.9 2.2.9 Version To view the Unit Software Version, press the T (Down) key. The following screen is displayed: VERSION 2.2.9 3.5.3.2.9.1 |SOFTWARE VERSION |0.13 > 2.2.9.1 Firmware SW Version To view the Firmware SW Version, press the X (Forward) key. The following screen is displayed: VERSION 2.2.9.1 3.5.3.2.9.2 |FIRMWARE SW VERSION |0.77 2.2.9.
Chapter 3 To choose the Select input type: 1. Press the Edit key. The cursor appears below the displayed type (ASI shown above). 2. Use the S (Up) and T (Down) keys to toggle between the available types: ASI, 8VSB and AUTO (dependent on model type). 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. To choose the Primary input: 1. Move to the Primary Input function using the X (Forward) key 2. Press the Edit key.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. To enable/disable the Auto Tune function: 1. Press the Edit key. The cursor appears below the current option. 2. Use the S (Up) and T (Down) keys to toggle between the Enabled/Disabled options until the required option is displayed. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.
Chapter 3 2. Press the Edit key. The cursor appears below the displayed type (ASI shown above). 3. Use the S (Up) and T (Down) keys to toggle between the available types: ASI and G.703 (dependent on model and option licences obtained). 4. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.5.2 2.2 G703 To access this function, press the T (Down) key. The following screen is displayed: G703 2.2 3.5.5.2.1 |CONFIGURE G.703 INPUT | > 2.2.
Chapter 3 3.5.5.2.1.4 2.2.1.4 ATM Alert Status To view the ATM Alert Status, press the T (Down) key. The following screen is displayed: STATUS 2.2.1.4 3.5.5.2.1.5 |ATM ALERT STATUS | SYNC LOSS 2.2.1.5 PDH Rate/Framing To view the PDH Rate/Framing Status, press the T (Down) key. The following screen is displayed: STATUS 2.2.1.5 3.5.5.2.1.6 |PDH RATE |FRAMING NONE NONE 2.2.1.6 Randomizer/Stuffing Pkts To view the Randomizer/Stuffing Pkts Status, press the T (Down) key.
Chapter 3 SETUP 2.2.2.1 |MODE | MPEG To choose the Mode: 1. Press the Edit key. The cursor appears below the displayed type (MPEG shown above). 2. Use the S (Up) and T (Down) keys to toggle between the available types: MPEG and ATM (dependent on model and option licences obtained). 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.5.2.2.2 2.2.2.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 4. Use the X (Forward) and W (Back) keys to toggle between the Reed-Solomon and Derandomizer inputs. 3.5.5.2.2.4 2.2.2.4 Man Packet Length Ctrl/Packet Length Size To access the Man Packet Length Ctrl/Packet Length Size Setup function, press the T (Down) key. The following screen is displayed: SETUP 2.2.2.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 4. Use the X (Forward) and W (Back) keys to toggle between the ATM Delta and ATM Alpha inputs. To select the ATM Alpha value: 1. Press the Edit key. Press the X (Forward) key until cursor appears below the current value. 2. Use the S (Up),T (Down) and X (Forward) keys to obtain the required value. 3.
Chapter 3 SETUP 2.2.2.7 |ATM HEADER ERR IGNORE |ATM VPI FALSE 017 To select the ATM Header Err Ignore value: 1. Press the Edit key. The cursor appears below the displayed type (FALSE shown above). 2. Use the S (Up) and T (Down) keys to toggle between the available options: TRUE and FALSE (dependent on model and option licences obtained). 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 4.
Chapter 3 3.5.5.2.2.9 2.2.2.8 Sync Miss Limit To access the Sync Miss Limit Setup function, press the T (Down) key. The following screen is displayed: SETUP 2.2.2.9 |SYNC MISS LIMIT | 003 To set the Sync Miss Limit value: 1. Press the Edit key. 2. Use the S (Up) and T (Down) keys until the required value is obtained. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. This is the last of the G703 screens.
Chapter 3 STATUS 3.1.1 |SERVICE ID: 00002 |SERVICE NO PMT The second line of the display shows information about the decryption status of the service. To return to the previous menu, press the W (Back) key. 3.5.6.2 3.2 Video To access the Video menu, press the T (Down) key. The following screen is displayed: SERVICE 3.2 3.5.6.2.1 |VIDEO | > 3.2.1 Component Selection To view and edit this service, press the X (Forward) key. The following screen is displayed and the Edit key is lit: VIDEO 3.2.
Chapter 3 6. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. To edit the user STD: 1. Press the Edit key. The cursor appears below the first character of the current STD selection. 2. Use the S (Up) and T (Down) keys to toggle between the MPEG-4 AVC and MPEG-2 options. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.6.2.3 3.2.
Chapter 3 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. This is the last of the Video service options, to return to the Video service menu, press the W (Back) key. 3.5.6.3 3.3 Audio To access the Audio Service menu, press the T (Down) key. The following screen is displayed: SERVICE 3.3 3.5.6.3.1 |AUDIO | > 3.3.1 Audio 1 Menu To access the Audio 1 menu, press the X (Forward) key. The following screen is displayed: AUDIO 3.3.1 3.5.6.3.1.
Chapter 3 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. To edit the user STD: 1. Press the Edit key. The cursor appears below the first character of the current STD selection. 2.
Chapter 3 options Decoder 1, STEREO to Decoder 6, STEREO are available. If disabled, available options are Decoder 1, STEREO and Decoder 2, STEREO. 3. Select the required option and press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.6.4.2 3.4.2 – 3.4.8 CH 3+4, 5+6, 7+8, 9+10, 11+12, 13+14 and 15+16 Embedding To edit the embedding options for these channels, proceed as detailed for CH 1+2 above.
Chapter 3 To return to the Service Table Menu and access further menus, press the W (Back) key twice. 3.5.7.1.1.2 4.1.1.2 - 4.1.1.24 Service ID Slots 2-24 If the unit is a multi-service descrambler (depending on the model and licenses enabled) there can be up to 24 menus similar to that shown in Para 3.5.7.3. Each menu displays the Service ID and Status for each slot of descramble service selection. 3.5.7.2 4.
Chapter 3 DIR 4.2.3 3.5.7.2.4 |UNIQUE HARDWARE ID |34390968634 4.2.4 Manuf ID To view the manufacturer, model and hardware identifier values, press the T (Down) key. The following screen is displayed: DIR 4.2.4 3.5.7.2.5 |MANUF ID DE |MODEL ID 1D HW TYPE 82 4.2.5 Download Status To view the Download Status, press the T (Down) key. The following screen is displayed: DIR 4.2.5 3.5.7.2.6 |DOWNLOAD STATUS |IDLE 4.2.6 Enter New PIN To enter a new local lockout PIN, press the T (Down) key.
Chapter 3 When the reset PIN is input, the local lockout PIN will be reset. To reset PIN: 1. Press the Edit key. The cursor appears below the first character of the current selection. 2. Use the Up, T (Down), X (Forward) and W (Back) keys to enter the required number. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.7.2.8 4.2.8 Over Air Extd Carrier Timeout To edit the setting for this option, press the T (Down) key.
Chapter 3 DIR 4.2.10 |POWER-UP CARRIER |NO STORED SERVICE The second line displays the service name of the stored service. 3.5.7.2.11 4.2.11 Emergency Home Carrier To view the current condition of this option, press the T (Down) key. The following screen is displayed: DIR 4.2.11 |EMERGENCY HOME CARRIER |NO STORED SERVICE The second line displays the service name of the stored service. This is the last option of the Director Menu.
Chapter 3 Note: Selecting AUTO will output SD-SDI for SD material and HD-SDI for HD material. 3. Use the W (Back) and X (Forward) keys to toggle between OUTPUT ONE and TWO. 4. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. 3.5.8.1.2 5.1.2 Output 3 To edit the output types for output 3 (dependent on model and option licences obtained), press the X (Forward) key. The following screen is displayed and the Edit key is lit: OUTPUT 5.1.
Chapter 3 This is the last of the Output menu options. To return to the Output menu and access further menus, press the W (Back) key. 3.5.9 6 Presets The Preset menu allows the access and editing of 40 sets of equipment preconfigured settings. This enables you to quickly store and retrieve your front panel settings (input tuning parameters) so that you don’t have to re-enter them manually. To access this menu, press the T (Down) key. The following screen is displayed: PRESETS 6 3.5.9.1 |PRESETS | 6.
Chapter 3 2. Edit the parameter value as required using the W (Back) and X (Forward) keys to select each digit in turn, and then using the S (Up) and T (Down) keys to increment or decrement the digit. 3. Press Save to save the new settings or Edit to abandon the operation and return to the current setting. To save a preset: 1. Press the Edit key. The cursor appears below the first character of SELECT Preset line. 2. Use the X (Forward) key to move to the SAVE Preset line. 3.
Chapter 3 BLANK 3-60 EN/LZT 790 0005 R1A
4 Remote Control Chapter 4 Contents 4.1 4.1.1 4.2 4.3 4.3.1 4.3.2 4.4 4.4.1 4.4.2 4.5 4.5.1 4.5.2 Introduction........................................................................................... 4-3 Local Control Lockout........................................................................... 4-3 RS232/485 RCP ................................................................................... 4-3 Director ............................................................................................
Remote Control BLANK 4-2 EN/LZT 790 0005 R1A
Remote Control 4.1 Introduction The RX8000 Series Receivers can be remotely controlled / monitored in a variety of ways: 4.1.1 • RS232/485 Remote Control Protocol (RCP) • Director Over-Air Control (Not RX8320) • Web Browser • SNMP Local Control Lockout Common for all control methods is that the equipment can still be controlled locally from the front panel interface unless the front panel is disabled. This can be achieved either: • locally using the front panel menu 1.5.
Remote Control 4.3 Director Ericsson’s Director Over-Air Control (OAC) system is available either as a standard feature or as an option on all of the RX8000 Series Receivers, except for the RX8320. OAC is a subset of the Director facility and is a remote control protocol which is used to access the units using Ericsson’s nCompass Control System. An Over-Air Download facility is also provided and a network connection is required for this.
Remote Control 4.4 Web Browser The Web Browser interface is available as a standard feature on all of the RX8000 Series Receivers. For more detailed information on Web Browser remote control, see Chapter 5, Web Browser Control. 4.4.1 Setting Up Web Browser Remote Control A personal computer (PC) running a Web Browser can be used to configure, control and monitor the Receiver remotely.
Remote Control Figure 4.1 Typical Web Browser Status Page For more information on the Web Browser interface and a description of the available web pages, see Chapter 5, Web Browser Control. 4.5 SNMP Simple Network Management Protocol (SNMP) is available as a standard feature on all of the RX8000 Series Receivers. SNMP is a network protocol used to monitor network-attached devices for conditions that warrant administrative attention.
Remote Control 3. Ensure the trap community, read-write community and read-only community are configured as public or private in the same way as the MIB browse or SNMP application being used. 4.5.2 Downloading the MIB SNMP exposes management data in the form of variables on the managed systems, which describe the system configuration. The SNMP Management Information Base (MIB) stored on each unit defines which information (variables) should be monitored.
Remote Control BLANK 4-8 EN/LZT 790 0005 R1A
5 Web Browser Control Chapter 5 Contents 5.1 5.1.1 5.1.2 5.2 5.2.1 5.2.2 5.2.2.1 5.2.2.2 5.2.2.3 5.2.2.4 5.2.2.5 5.2.3 5.2.4 5.2.4.1 5.2.5 5.2.5.1 5.2.6 5.2.6.1 5.2.6.2 5.2.7 5.2.7.1 5.2.8 5.2.9 5.2.9.1 5.2.10 5.2.11 5.2.11.1 5.2.11.2 5.2.11.3 5.2.11.4 5.2.11.5 5.2.12 5.2.13 5.2.14 5.2.15 5.2.16 5.2.17 EN/LZT 790 0005 R1A Introduction........................................................................................... 5-3 Setting up Web Browser Control ..............................................
Chapter 5 List of Figures Figure 5.1 Web Page Overview............................................................................. 5-3 Figure 5.2 About dialog ......................................................................................... 5-4 Figure 5.3 Status Web Page ................................................................................. 5-6 Figure 5.4 Device Info Web Page.......................................................................... 5-7 Figure 5.
Chapter 5 5.1 Introduction This chapter describes the features and options provided by the Web Browser interface menus and web pages for controlling the RX8000 Series Receivers remotely. The Web Browser interface is available as a standard feature on all of the RX8000 Series Receivers. 5.1.1 Setting up Web Browser Control For information on how to set up Web Browser remote control, see Chapter 4, Remote Control. 5.1.
Chapter 5 • Header – The header of the web page displays the Ericsson logo and the unit model number name. At the right-hand side of the header an About button which, when clicked, displays an information dialog about the unit, including the software version number. Click the OK button to close the dialog. Figure 5.2 About dialog • Function Tabs – The web pages for control and monitoring of specific functions are accessed by selecting the appropriate function tab along the top of each web page.
Chapter 5 Table 5.1 Web Page Icons, Buttons and Symbols Item Description Navigation Click on this icon to navigate one step up (to the parent folder) in the folder structure. Click on this icon to navigate back to the previous view. This icon typically appears when you are editing a single record in a table or a sub-table. Click on this button to apply the changes you have made to parameters in this web page. The result of your actions will be shown in the result window below.
Chapter 5 5.2 Web Pages 5.2.1 Status To use the receiver Web Browser Interface, the IP address assigned to the receiver control port in the front panel system menu should be entered into the address field of the Web browser. Provided that the network is correctly configured, the following status page should be automatically loaded and displayed. Figure 5.3 Status Web Page This page provides a number of top-level status items: 5-6 • Name – Shows the configured device name for this product.
Chapter 5 • Audio Status – The decode status of the current audio stream. • CA (Conditional Access) Status - The status of the encryption authorizations. • Output Feed – The status of the output. • Mode – Indicates whether unit configuration is active or redundant. A small window located at the bottom left of the Status Page will show events raised and all the necessary details of those events.
Chapter 5 • Name – This field contains a name string that can be assigned by the user. The last saved name is displayed on power-up but may be replaced by the user. The default name is the receiver model name. • Product Name – The name and/or model of the product. • Current Time – The time taken from the input Transport Stream. • Uptime – The elapsed time since power-up. • Front Panel Lockout - Indicates whether the front panel controls are active or inactive.
Chapter 5 To view this page, select the Environment button from the Device Info Page. Figure 5.6 Device Info > Environment Web Page There are no fields on this page, which may be edited by the user. Selecting the Refresh button will ensure that the latest information is displayed from the current values of the equipment. 5.2.2.3 Device Info > Network Settings This page gives details of settings for control 1 and 2 networks. To view this page, select the Network Settings button from the Device Info Page.
Chapter 5 Figure 5.8 Device Info > Modules Web Page There are no fields on this page which may be edited by the user. Selecting the Refresh button will ensure that the latest information is displayed from the current values of the equipment. 5.2.2.5 Device Info > Trap Destination Table When an alarm occurs within the equipment, an SNMP Trap message is sent to all destinations and a list of these destinations is given in this web page.
Chapter 5 4. Select the Back button to return to the Device Info > Trap Destination Table web page. 5. Select the Apply Changes button to confirm additions. Selecting the Refresh button will ensure that the latest information is being displayed from the current values of the equipment. 5.2.3 Alarms The alarms Page provides access to the alarms settings for the receiver. To view this page, select the Alarms tab from the top of the current web page.
Chapter 5 Figure 5.11 Alarms Web Page The contents of this page are composed mainly of fields with drop-down menus which allow the setting or masking of various alarms and check boxes which can be used to activate relay mapping. Two of the alarm fields, namely C/N (Carrier-toNoise) Margin and Over Temperature also have associated entry fields which allow the user to enter a value which, if exceeded, will activate the alarm.
Chapter 5 The Parameters section of this web page allows the user to enable further licenses by entering the custom key provided (when a license is purchased) in the Custom Key field. Once the custom key has been entered, the unit will need to be rebooted for the key to become effective. The custom key is a 22 decimal digit number. License keys are supplied by Ericsson Customer Support upon requirement for a new licensed feature.
Chapter 5 5.2.5 CA This page allows viewing of the Conditional Access (CA) Service Status and activation of various Director controls. To view this page, select the CA tab from the top of the current web page. Figure 5.14 CA Web Page The Director section of this web page allows the user to view the current settings for the Director and to activate or deactivate various functions as required.
Chapter 5 Any changes which are made to the CA page functions may be confirmed by selecting the Apply Changes button. Selecting the Refresh button will ensure that the latest information is being displayed from the current values of the equipment. The CA Service Status button allows the user to view the Conditional Access Status Table. 5.2.5.1 CA Service Status To view this page, select the CA Service Status button on the CA page. Figure 5.
Chapter 5 • Input Source – allows a choice of Source Selection Mode from the drop-down menu. • Primary Input – allows selection of the primary input to the receiver. • Input Loss Switch Period – allows the user to define a period, in seconds, before the unit switches to the alternate input (either Input Source or Primary). • Return to Primary – checking this box specifies that when the Primary is locked the unit will always return to the Primary after a timeout period.
Chapter 5 There are also four Configuration buttons which allow the viewing and setting of the tuning parameters for the four possible RF inputs. Any changes which are made to the Satellite Input page may be confirmed by selecting the Apply Changes button. Selecting the Refresh button will ensure that the latest information is being displayed from the current values of the equipment. 5.2.6.
Chapter 5 • LNB 22 kHz – this check box allows the LNB 22 kHz signal to be activated. Any changes which are made to the Configuration page may be confirmed by selecting the Apply Changes button. Selecting the Refresh button will ensure that the latest information is being displayed from the current values of the equipment. 5.2.7 Input Main Page (I/P Input Card RX8XX/HWO/GIGE fitted) This page allows the user to view and edit the various inputs to the receiver.
Chapter 5 • IP Input TS Null Pkt Threshold – allows the user to determine the IP Input null packet occupancy percentage before switch. This option is available for all inputs (G.703, S2, etc.) An IP Input button is provided on this page which gives access to a further web page. This is described in the following section. Any changes which are made to the Input page may be confirmed by selecting the Apply Changes button.
Chapter 5 Figure 5.20 Input > IP Input Web Page The following user-editable fields are displayed on this web page: User-editable fields in the IP Interface Section: • IP Address 1/2 – allows the user to input the relevant IP address. • Subnet Mask 1/2 – allows the user to input the relevant Subnet Mask address. • Default Gateway 1/2 – allows the user to input the relevant Default Gateway address. • VLAN (Virtual Local Area Network) Tag 1/2 - allows the user to input the relevant VLAN Tag Value.
Chapter 5 • Mcast IP Address 1/2 – allows the user to set the Multicast IP Address for the primary stream on Port 1/2. • Source IP Address 1/2 – allows the user to set the Source IP Address for the primary stream on Port 1/2. • UDP Port 1/2 – allows the user to set the UDP Port Address for the primary stream on Port 1/2. • Column Port 1/2 – allows the user to set the Column Port Address for the primary stream on Port 1/2.
Chapter 5 Figure 5.22 Clear ARP Success Window Any changes which are made to the Input>IP Input page may be confirmed by selecting the Apply Changes button. Selecting the Refresh button will ensure that the latest information is being displayed from the current values of the equipment. 5.2.8 Input (8VSB Input Card RX8320/HWO/8VSB fitted) This page allows the user to view and edit the various inputs to the receiver. To view this page, select the Input tab from the top of the current web page. Figure 5.
Chapter 5 • Primary Input – allows selection of the primary input to the receiver. • Input Loss Switch Period – allows the user to define a period, in seconds, before the unit switches to the alternate input (either Input Source or Primary). • Return to Primary – checking this box specifies that when the Primary is locked the unit will always return to the Primary after a timeout period.
Chapter 5 User-editable fields in the Input Section: • Input source – allows a choice of Source Selection from the drop-down menu. • Primary Input – allows selection of the primary input to the receiver. • Input Loss Switch Period – allows the user to define a period, in seconds, before the unit switches to the alternate input (either Input Source or Primary).
Chapter 5 • Derandomizer – checking this box enables the Derandomizer function. User-editable fields in the Advanced Section: • MPEG – allows the selection of the input mode from a drop-down menu. • Sync Cnt to Lock – allows the user to input an appropriate value. • Sync Miss Limit – allows the user to input an appropriate value. • Destuffing – checking this box enables the destuffing function. • Man Pkt Length Ctrl - checking this box enables this function.
Chapter 5 4. If the MSD license is selected, and service filter mode is set to ‘Multiservice’ in the Output tab, the services to be fitted can be added by ticking the filter checkbox. 5. If service filter mode is set to ‘Remap’ in the Output tab, service PIDs may be remapped by selecting ‘remap config’ under PID info. New PIDs for each available components may be entered on the ‘Remap to PID’ box. Other details about the service are available by hovering over the relevant table column.
Chapter 5 Figure 5.27 Decode Web Page The following user-editable fields are displayed on this page. User-editable fields in the Service section: • Service – allows the selection of the decode service is to be used from a dropdown menu • PCR - allows the selection of the PCR to be used from a drop-down menu. By default, this is the PCR of the selected decode Service. User-editable fields in the Video Section: • PID (Program ID) - allows the selection of the PID to be used from a drop-down menu.
Chapter 5 • Decode Mode – allows the selection of the decode mode from a drop-down menu. User-editable fields in the Decoders 1-6 sections (number of audio decoders is license and model dependent): • PID – allows the selection of an PID audio for decode from a drop-down menu. • Gain – allows the input of a value in dB. Any changes which are made to the Decode page may be confirmed by selecting the Apply Changes button.
Chapter 5 • Service Hunt – In this mode, upon the loss of a service the unit will select the first available service from the service list. • Service Drop – In this mode, if a service is lost its selection data will be dropped such that the service will not be selected again upon reacquisition. • Major/Minor Tracking – In this mode, the service will be selected/maintained using the major and minor channels referenced from the VCT.
Chapter 5 • Test Pattern Standard - allows the selection of the test pattern standard from a drop-down menu. • Video Output Mode - allows the selection of the video output mode from a drop-down menu. Note: 4:2:2 video cannot be up-scaled or cross-converted on RX8200. • VGA Output Format - allows the selection of the VGA output format from a drop-down menu. • VGA Output Sync - allows the selection of the VGA output sync from a dropdown menu.
Chapter 5 Figure 5.
Chapter 5 The following user-editable fields are displayed on this page. User-editable fields in the VBI section: • VBI PID - allows selection of the VBI PID from the service list via a drop-down menu. • User PID – allows user to input VBI PID. User-editable fields in the VANC section: • PID - allows input of PID. • Enable VANC – allows enable/disable of VANC data from a drop-down menu.
Chapter 5 • VANC Station ID User Name - allows input of Station ID user name. User-editable fields from AFD/Bar section: • Enable AFD/Bar - allows enable/disable of AFD/Bar from a drop-down menu. Any changes which are made to the Decode > VBI VANC page may be confirmed by selecting the Apply Changes button. Selecting the Refresh button will ensure that the latest information is being displayed from the current values of the equipment. 5.2.11.
Chapter 5 Figure 5.31 Decode > DVB-Subtitles Web Page The following fields, which may be edited by the user, are displayed on this page. User-editable fields in the DVB Subtitles section: • PID - allows selection of the type of PID from a drop-down menu. • Enable Subtitles – checking this box allows the enabling of subtitles. • Scale - allows selection of the level of scaling from a drop-down menu. • Position - allows selection of the position of subtitles from a drop-down menu.
Chapter 5 Figure 5.32 Decode > Teletext Web Page The following user-editable fields are displayed on this page. • Teletext PID – allows selection of the type of Teletext PID from a drop-down menu. • Teletext Insertion – allows enable/disable of Teletext Insertion from a dropdown menu. • PTS Synchronisation – checking this box enables PTS Synchronisation. Any changes which are made to the Decode > Teletext page may be confirmed by selecting the Apply Changes button.
Chapter 5 Figure 5.33 Output Web Page The following user-editable fields are displayed on this page. User-editable fields in the Output section: • TS (Transport Stream) Feed – allows selection of the type of transport stream output from a drop-down menu. • Output One/Two/Three – allows selection of the type of output from a dropdown menu. User-editable fields in the Filter Section: • Service Filter Mode - allows selection of the Service Filter Mode from a dropdown menu.
Chapter 5 • Custom Src IP - allows input of the Custom source IP. User-editable fields in the Common section: • Link Speed – allows the selection of the IP output card link configuration. • Spanning Tree – checking this box enables the spanning tree protocol. User-editable fields in the IP Output Status section: • Swap RIP (Routing Information Protocol) Metrics - checking this box enables this function.
Chapter 5 5.2.14 SNMP This page gives access to the Simple Network Management Protocol (SNMP) parameters for the receiver. To view this page, select the SNMP Tab from the current web page. Figure 5.35 SNMP Web Page The following user-editable fields are displayed on this page: • Version - allows selection of the SNMP version from a drop-down menu. • Sys Services – allows input of a value for MIB-2 services that this device primarily offers (MIB-II RFC1213). See MIB-2 for definition.
Chapter 5 5.2.15 Presets This page gives access to a list of 40 preset configurations. This feature may be used to store input (tuning) parameters in order that settings do not have to be reentered when changes are made. To view this page, select the Presets tab from the top of the current web page. Figure 5.36 Preset Web Page The following user-editable fields are displayed on this page: • Select Preset Number – allows the input of the number of the preset which is to be selected.
Chapter 5 5.2.16 Save/Load This page gives access to a range of Configuration download and Upload facilities which are supported by the receiver. To view this page, select the Save/Load tab from the top of the current web page.
Chapter 5 Figure 5.37 Save/Load Web Page Only a portion of the web page is shown in Figure 5.37. The facilities available from this page are as follows: EN/LZT 790 0005 R1A • Save Configuration to File – allows the user to save the current receiver configuration as an XML file.
Chapter 5 5.2.17 • Save Splice Logs File - allows the user to save the current splice logs file. It is recommended that these are saved periodically, as they may be required in the event of a fault occurring on the unit. Left-click on the link to display the log in the web page (click the browser refresh button to return to the Web Browser Interface). Right-click on the link and select the Save button in the displayed dialog to save as a file.
6 Options Chapter 6 Contents 6.1 6.1.1 6.1.2 6.1.3 6.1.4 6.1.5 6.1.6 6.1.7 6.1.8 6.1.9 6.1.10 6.1.11 6.1.12 6.1.13 6.1.14 6.2 6.2.1 6.2.2 6.2.3 6.2.4 6.2.5 6.2.6 6.2.7 6.2.8 6.2.9 6.2.10 6.2.10.1 6.2.10.2 6.2.11 6.2.12 6.2.13 6.2.14 6.2.15 6.2.16 6.2.17 6.2.18 EN/LZT 790 0005 R1A Hardware and Software Options .......................................................... 6-3 DVB-S2 Input Card (RX8200/HWO/DVBS2) ........................................ 6-5 8-VSB Input Card (RX83XX/HWO/8VSB) ..................
Chapter 6 6.2.19 6.2.20 6.2.21 6.2.22 6.2.23 6.2.24 6.2.25 6.2.26 6.2.27 6.2.28 6.2.29 6.2.30 6.2.31 6.2.32 6.2.33 6.2.34 6.2.35 6.2.36 Dolby Digital Decode (RX8XXX/SWO/AC3)....................................... 6-12 AAC Audio Decode (RX8XXX/SWO/AAC)......................................... 6-12 DVB-S2 16APSK (RX8XXX/SWO/DVBS2/16APSK) ......................... 6-13 Null Packet Detection Redundancy Switching (RX8XXX/SWO/DVBS2/NULL) ..........................................................
Chapter 6 6.1 Hardware and Software Options These options require extra hardware to be fitted to the unit, or, in the case of software, extra licenses to be purchased. See Table 6.1 for a list of available options. Contact the Customer Services Helpdesk for details (see Preliminary Pages). z = Option RX8330 RX8320 Hardware and Software Options for the RX8000 Series Receivers RX8315 RX8310 RX8200 Table 6.
RX8310 RX8315 RX8330 RX8320 RX8200 Chapter 6 Option Number z z z z RX8XXX/SWO/MP2/MP4/SD MPEG-2/4 AVC SD 4:2:0 Decoding z z z z RX8XXX/SWO/MP2/MP4/SD/HD MPEG-2/4 AVC HD 4:2:0 Decoding z z z z z RX8XXX/SWO/SING/SERVFILT Single Service Filtering z z z z z RX8XXX/SWO/MULT/SERVFILT Multi-Service Filtering z z z z RX8XXX/SWO/IP/DATA High Speed Data Output z z z z RX8XXX/SWO/PW Password Protection Web Browser RX8XXX/SWO/IP/OUT IP Transport Stream Out B RX8XXX/SWO/DI
Chapter 6 6.1.1 DVB-S2 Input Card (RX8200/HWO/DVBS2) This option is only available for the RX8200 Receiver and is fitted as standard to the base models of RX8310, 8315 and 8330. With accompanying software options, the DVB-S2 Input card supports DVB-S, QPSK demodulation and DVB-S2, QPSK and 8PSK demodulation. RX8200/HWO/DVBS2 provides four L-band inputs.
Chapter 6 The MPEG-2 4:2:2 SD Decoding Card provides 4:2:2 video decoding facilities. 6.1.6 MPEG-4 AVC 4:2:2 Decoding Card (RX8200/BAS/2) This option is only available for the RX8200 DVB Receiver. RX8200/BAS/2 is equipped with MPEG-4 4:2:2 decoding functionality. This function is dormant and is enabled with additional software options. 6.1.7 IP Output Card (RX8XXX/HWO/IP/OUT) This option is available for the RX8200, 8310, 8315 and 8330 DVB Receivers.
Chapter 6 Figure 6.2 shows a more detailed picture of the MPEG-2 data transfer. TS-packets are mapped in a datagram, using User Data Protocol (UDP), Internet Protocol (IP) and Ethernet. 188 8H 20H 14H … 188 Information Information Information TS packets (1 to7) UDP datagram IP datagram Ethernet frame Figure 6.2: Building the Ethernet Frame 6.1.8 SD Video and ASI Output Card (RX8200/HWO/SD) This option is only available for the RX8200 Receiver.
Chapter 6 6.1.12 Balanced Audio Output Card (RX8200/HWO/BAL/AUD) This option is only available for the RX8200 Receiver. The Balanced Audio Output card provides two stereo pairs of balanced analog and digital outputs. If four stereo pairs are required, two cards should be ordered. 6.1.13 XLR Terminal Audio Break-Out Cable (RX8XXX/CABLE/XLR) This option is available for the RX8200, 8310, 8315, 8320 and 8330 Receivers.
Chapter 6 The DVB-S2 Low Symbol Rate software option enables a DVB-S2 symbol rate of 1-5 Msym/s. 6.2.4 MPEG-2 SD Decode (RX8XXX/SWO/MPEG2/SD) This option is available for the RX8200, 8310, 8315 and 8330 Receivers. This option enables MPEG-2 SD 4:2:0 decoding. 6.2.5 MPEG-2 HD Decode (RX8XXX/SWO/MPEG2/HD) This option is available for the RX8200, 8310, 8315 and 8330 Receivers. This option enables MPEG-2 HD and MPEG-2 SD 4:2:0 decoding. 6.2.
Chapter 6 6.2.10 Single-Service Filtering (RX8XXX/SWO/SING/SERVFILT) This option is available for the RX8200, 8310, 8315, 8320 and 8330 Receivers. This option filters a complete service from a Multiple Program Transport Stream (MPTS) source and generates an Single Program Transport Stream (SPTS). When the Output tab/Filter Group/Service Filter Mode/Single Service option is selected the Filter column of the ServicePlus web page is enabled (see 5.2.10 Service Plus web page description).
Chapter 6 The output bit rate, which is selected by the user, may be constant (by inserting NULL packets) or variable (plus the increment due to the PSI SI insertion). 6.2.11 Multi-Service Filtering (RX8XXX/SWO/MULTI/SERVFILT) This option is available for the RX8200, 8310, 8315, 8320 and 8330 Receivers. This option enables the filtering of services within a Multiple Program Transport Stream (MPTS) and provides a single CBR MPTS output.
Chapter 6 Note: 6.2.15 This option is available to all other units by selecting RX8XXX/HWO/IP/OUT. Note this will also order an IP Output Card. Director (RX8XXX/SWO/DIR5) This option is only available for the RX8200 Receiver. This option provides Director Conditional Access (CA), over-air control and over-air software downloads. This license provides only single service decryption. 6.2.
Chapter 6 This option enables two x AAC-LC and HE-AAC decoding. 6.2.21 DVB-S2 16APSK (RX8XXX/SWO/DVBS2/16APSK) This option is available for the RX8310, 8315 and 8330 Receivers. This option adds DVB-S2 QPSK, 8PSK and 16APSK capability to the DVB-S2 Input Option Card. 6.2.22 Null Packet Detection Redundancy Switching (RX8XXX/SWO/DVBS2/NULL) This option is available for the RX8200, 8310, 8315, 8320 and 8330 Receivers.
Chapter 6 6.2.27 MPEG-2 SD 4:2:2 Decoding (RX8200/SWO/MP2/SD/422) This option is only available for the RX8200 Receiver. This option enables MPEG-2 SD 4:2:2 Decoding and requires the installation of the MPEG-2 SD 4:2:2 hardware option card. 6.2.28 MPEG-2 HD 4:2:2 Decoding (RX8200/SWO/MP2/HD/422) This option is only available for the RX8200 Receiver. This option enables MPEG-2 HD 4:2:2 Decoding and requires the installation of the MPEG-2 SD 4:2:2 hardware option card. 6.2.
Chapter 6 This option enables the conversion of HD video from 720p to 1080i or from 1080i to 720p. 6.2.34 Framesync (RX8200/SWO/FSYNC) This option is only available for the RX8200 Receiver. This option enables the framesync input, which allows the unit to synchronise the video/audio playout of the unit to an external clock so that all synchronized equipment will output A/V frames at the same time. 6.2.35 4 x Audio Capability (RX8200/SWO/4AUD) This option is only available for the RX8200 Receiver.
Chapter 6 BLANK 6-16 EN/LZT 790 0005 R1A
7 Preventive Maintenance and Fault-Finding Chapter 7 Contents 7.1 7.2 7.2.1 7.2.1.1 7.2.2 7.2.3 7.2.3.1 7.2.3.2 7.2.3.3 7.3 7.3.1 7.3.2 7.3.3 7.4 7.4.1 7.4.2 7.4.3 7.4.4 7.4.5 7.4.6 7.4.7 7.4.8 7.5 7.5.1 7.5.2 Introduction........................................................................................... 7-3 Preventive Maintenance ....................................................................... 7-3 Routing Inspection...........................................................................
Chapter 7 BLANK 7-2 EN/LZT 790 0005 R1A
Chapter 7 7.1 Introduction This chapter provides the schedules and instructions, where applicable, for routine inspection, cleaning and maintenance of the equipment which should be performed by an operator. There are also some basic fault-finding procedures to follow in the event of a suspected unit failure 7.2 Preventive Maintenance 7.2.1 Routing Inspection 7.2.1.1 Cooling Fans There are no routine checks associated with this unit other than to ensure that the unit is adequately cooled.
Chapter 7 2. If liquid has been spilled, or objects have fallen into the product. 3. If the product has been exposed to rain or water. 4. If the product does not operate normally by following the operating instructions. Adjust only those controls that are covered by the operating instructions, as an improper adjustment of other controls may result in damage and will often require extensive work by a qualified technician to restore the product to its normal operation. 5.
Chapter 7 7.3.3 Levels of Continuing Ericsson Service Support For stand-alone equipment, then Ericsson BASIC Essential Support is the value for money choice. BASIC provides you with year-by-year Service long after the warranty has expired. For systems support you can choose either Gold Business Critical Support or Silver Business Advantage. These packages are designed to save you costs and protect your income through enlisting the help of Ericsson support specialists. Call Ericsson Sales for more details.
Chapter 7 7.4.3 Preliminary Investigations Always investigate the failure symptoms fully, prior to taking remedial action. Fault diagnosis for the equipment operator is limited to the following tasks, since the operator should NOT remove the covers of the equipment: 1. Ensure all leads and connectors are in place and serviceable. 2. Ensure the unit is powered. If not investigate the power source. Check the fuse. 3. Ensure the alarm status LED on the front of the unit is not lit.
Chapter 7 Warning! Before replacing the rear panel fuse, disconnect the unit from the supply. Failure to do this may expose hazardous voltages. Unplug the unit from the local supply socket. 1. Ensure that power is turned off and the power cable is disconnected from the AC power inlet. 2. Ease out the fuse carrier by placing a small, flat-bladed screwdriver in the notch at the top of the carrier. Caution...
Chapter 7 7.4.6 Summary Status LED Unlit If the Summary Status LED is unlit, fault-find the problem as detailed in Table 7.2. Table 7.2 Summary Status LED Unlit Fault-finding Step Action If Result of Action is Yes… If Result of Action is No… 1 Check Status LED. Is the unit still working? If the unit is clearly working normally then the Status LED itself is probably at fault. Call a Service Engineer. Proceed to next step. 2 Check Power Source.
Chapter 7 Table 7.3 Fans Not Working/Overheating Step Action If Result of Action is Yes… If Result of Action is No… 1 Check Fan Rotation. Inspect the fans located at the sides of the enclosure. Are the fans rotating? Check the temperature (select Chassis / Temperature Alarms on the Device Info web page). Check that the unit has been installed with sufficient space allowed for air-flow (see Chapter 2, Installing the Equipment). If the ambient air is too hot, additional cooling may be required.
Chapter 7 7.5.2 Equipment Dispose of this equipment safely at the end of its life. Local codes and/or environmental restrictions may affect its disposal. Check with your local authority.
A Glossary Annex A The following list covers most of the abbreviations, acronyms and terms as used in Ericsson Manuals, User and Reference Guides. All terms may not be included in this Reference Guide. EN/LZT 790 0005 R1A μm Micrometre (former name - micron): a unit of length equal to one millionth (10-6) of a metre. 1000BaseT The term for the Electrical Gigabit Ethernet interface. This is the most common interface for Gigabit Ethernet. Most Gigabit-enabled PCs and equipment use this interface.
Annex A A-2 AMOL I and II Automatic Measure of Line-ups I and II: Used by automated equipment to measure programme-viewing ratings. ARP Address Resolution Protocol. A protocol used to "resolve" IP addresses into underlying Ethernet MAC addresses. ASI Asynchronous Serial Interface. ASIC Application-Specific Integrated Circuit: A customized chip designed to perform a specific function. Async Asynchronous.
Annex A EN/LZT 790 0005 R1A Bouquet A collection of services (TV, radio, and data, or any combination of the three) grouped and sold together, and identified in the SI as a group. A single service may be in several bouquets. B-Picture; B-Frame Bi-directionally Predictive Coded Picture/Frame: A picture that is coded using motion-compensated prediction from previous I or P frames (forward prediction) and/or future I or P frames (backward prediction). B frames are not used in any prediction.
Annex A A-4 Chrominance The colour part of a TV picture signal, relating to the hue and saturation but not to the luminance (brightness) of the signal. In a composite-coded colour system, the colour information (chrominance, often referred to as chroma) is modulated onto a high frequency carrier and added to the monochrome-format video signal carrying the luminance (Y).
Annex A EN/LZT 790 0005 R1A DCE Data Communications Equipment: Typically a modem. It establishes, maintains and terminates a session on a network but in itself is not the source (originator) or destination (end receiving unit) of signals (e.g. a computer, see DTE). A DCE device may also convert signals to comply with the transmission path (network) format. DCT Discrete Cosine Transform: A technique for expressing a waveform as a weighted sum of cosines. Raw video data is not readily compressible.
Annex A DSNG Digital Satellite News-Gathering. DSP Digital Signal Processor. DTE Data circuit Terminating Equipment: A communications device that originates (is the source) or is the end receiving unit (destination) of signals on a network. It is typically a terminal or computer. DTH Direct-To-Home. The term used to describe uninterrupted transmission from the satellite directly to the subscriber, that is, no intermediary cable or terrestrial network utilized.
Annex A EN/LZT 790 0005 R1A Encryption Encoding of a transmission to prevent access without the appropriate decryption equipment and authorization. EPG Electronic Programme Guide: On-screen programme listing using thumbnail pictures and/or text. Ethernet The most widely used local area network (LAN) defined by the IEEE as the 802.3 standard. Transmission speeds vary according to the configuration. Ethernet uses copper or fibre-optic cables. ETS European Telecommunications Standard.
Annex A A-8 GUI Graphical User Interface: The use of pictures rather than just words to represent the input and output of a program. A program with a GUI runs under a windowing system and has a screen interface capable of displaying graphics in the form of icons, drop-down menus and a movable pointer. The on-screen information is usually controlled / manipulated by a mouse or keyboard. HDTV High Definition Television.
Annex A EN/LZT 790 0005 R1A IP Internet Protocol: The IP part of TCP/IP. IP implements the network layer (layer 3) of the protocol, which contains a network address and is used to route a message to a different network or sub-network. IP accepts packets from the layer 4 transport protocol (TCP or UDP), adds its own header to it and delivers a datagram to the layer 2 data link protocol. It may also break the packet into fragments to support the Maximum Transmission / Transfer Unit (MTU) of the network.
Annex A A-10 JPEG Joint Photographic Experts Group: ISO/ITU standard for compressing still images. It has a high compression capability. Using discrete cosine transform, it provides user specified compression ratios up to around 100:1 (there is a trade-off between image quality and file size). kbps 1000 bits per second. Kbit 1024 bits, usually refers to memory capacity or allocation.
Annex A EN/LZT 790 0005 R1A MEM Multiplex Element Manager: A GUI-based control system, part of the range of Ericsson AB compression system control element products. The evolution 5000 MEM holds a model of the system hardware. Using this model, it controls the individual system elements to configure the output multiplexes from the incoming elementary streams. The MEM monitors the equipment status and controls any redundancy switching.
Annex A Multicast An IP mechanism that allows transmission of data to multiple receivers. A multicast can also have several transmit sources simultaneously. In video applications, multicast is typically used to distribute a video signal from a central source to multiple destinations. MUSICAM Masking pattern adapted Universal Sub-band Integrated Coding And Multiplexing: An audio bit rate reduction system relying on subband coding and psychoacoustic masking.
Annex A EN/LZT 790 0005 R1A OFDM Orthogonal Frequency Division Multiplex: A modulation technique used for digital TV transmission in Europe, Japan and Australia; more spectrally efficient than FDM. In OFDM, data is distributed over a large number of carriers spaced apart at precise frequencies. The carriers are arranged with overlapping sidebands in such a way that the signals can be received without adjacent channel interference.
Annex A A-14 PES Packetised Elementary Stream: A sequential stream of data bytes that has been converted from original elementary streams of audio and video access units and transported as packets. Each PES packet consists of a header and a payload of variable length and subject to a maximum of 64 kbytes. A time stamp is provided by the MPEG-2 systems layer to ensure correct synchronization between related elementary streams at the Decoder.
Annex A EN/LZT 790 0005 R1A PRPB Analogue Colour difference signals. Refer to CRCB for an explanation. PROM Programmable Read-Only Memory: A device, which may be written once with data for permanent storage, and then read whenever required. Special types of PROM permit the erasure of all data by Ultraviolet light (EPROM) or by application of an electronic signal (EEPROM). PS Program Stream: A combination of one or more PESs with a common timebase.
Annex A A-16 ROM Read Only Memory: A non-volatile storage device for digital data. Data has been stored permanently in this device. No further information may be stored (written) there and the data it holds cannot be erased. Data may be read as often as required. RS Reed-Solomon coding: An error detection and correction, coding system. 16 bytes of Reed-Solomon Forward Error Correction code are appended to the packet before transmission bringing the packet length to 204 bytes.
Annex A STB Set-Top Box: A box that sits on top of a television set and is the interface between the home television and the cable TV company. New technologies evolving for set-top boxes are video-on-demand, video games, educational services, database searches, and home shopping. The cable equivalent of the IRD. SFN Single Frequency Network: The SFN technique allows large geographic areas to be served with a common transmission multiplex.
Annex A SNTP Simple Network Time Protocol is an Internet protocol used to synchronize the clocks of computers to some time reference. It is a simplified version of the protocol NTP protocol which is too complicated for many systems. Spatial Redundancy Information repetition due to areas of similar luminance and/or chrominance characteristics within a single frame. Removed using DCT and Quantization (Intra-Frame Coding). A-18 SPI Synchronous Parallel Interface.
Annex A EN/LZT 790 0005 R1A UART Universal Asynchronous Receiver Transmitter: A device providing a serial interface for transmitting and receiving data. UDP User Datagram Protocol. A protocol above the IP layer that provides port multiplexing in addition. In essence, you can transmit IP data packets to several receiving processes in the same unit/device. Unicast Point-to-point connection, i.e. the "opposite" of multicast which is one to many (or many to many).
Annex A A-20 Y (Luminance) Defines the brightness of a particular point on a TV line. The only signal required for black and white pictures. Y/C Broadcast video with separate colour, Y (luminance) and C (Chroma) (sometimes called S-Video).
B Technical Specification Annex B Contents B.1 B.1.1 B.1.2 B.1.3 B.1.4 B.1.5 B.2 B.2.1 B.2.2 B.2.3 B.3 B.3.1 B.3.2 B.3.3 B.3.4 B.3.5 B.3.6 B.3.7 B.4 B.4.1 B.4.1.1 B.4.1.2 B.4.2 B.4.2.1 B.4.3 B.4.4 B.4.5 B.5 B.5.1 B.5.2 B.5.3 B.5.4 B.5.5 B.6 B.6.1 B.6.2 B.7 EN/LZT 790 0005 R1A Output...................................................................................................B-3 Supported Video Resolutions ...............................................................B-3 Supported Video Bit Rates .
Annex B B.8 B.9 B.9.1 B.9.2 B.9.3 B.9.4 B.9.5 B.9.6 B.9.7 B.9.8 B.9.8.1 B.9.8.2 B.9.9 B.9.9.1 B.9.9.2 B.9.10 Cable Types ....................................................................................... B-20 Compliance ........................................................................................ B-21 Safety ................................................................................................. B-21 EMC .............................................................................
Annex B B.1 Output B.1.1 Supported Video Resolutions The RX8000 Receiver supports MPEG-2 and MPEG-4 AVC, 4:2:0. Table B.1 Supported Video Resolutions Input Resolutions (H x V) Frame-Rates Output Format (H x V) Specification 1920 x 1080 29.97 SMPTE 274M 1440 x 1080 25 720 x 480 interlaced, 1920 x 1080 interlaced 720 x 576 interlaced, 1920 x 1080 interlaced 1280 x 1080 960 x 1080 1280 x 720 59.
Annex B B.1.3 Composite Video Output The equipment supports video decoding as per ITU-R BT.470 and ANSI/SMPTE 170M. Table B.3 625 Line Description Test Signal Limit Bar Level VITS17 700mV +/- 7mV Bar Tilt VITS17 <0.5% Sync Level VITS17 300mV +/- 3mV DC Offset VITS17 +/- 100mV Chrominance to Luminance Gain Inequality Colour Bars 100 +/- 5% Chrominance to Luminance Phase Inequality VITS17 <20nS K factor K 2T VITS17 <1% Pulse X bar K rating VITS17 100 +/- 1% VITS18 0.
Annex B Description Test Signal Limit DC Offset NTC-7 comp +/- 100mV Chrominance to Luminance Gain Inequality NTC-7 comp 100 +/- 5% Chrominance to Luminance Phase Inequality NTC-7 comp <20nS K factor K 2T NTC-7 comp <1% Pulse X bar K rating Frequency Response (MultiBurst) 100 +/- 1% FCC Multiburst 0dB +/- 0.2 dB 0.5 MHz 0dB +/- 0.2 dB 1.25 MHz 0dB +/- 0.2 dB 2 MHz 0dB +/- 0.2 dB 3 MHz 0dB +/- 0.3 dB 3.58 MHz 0dB +/- 0.3 dB 4.
Annex B Parameter Value for Y, R, G, B Value for Pb, Pr ± 1 dB MHz ± 1 dB Condition Notes 20 MHz to 30 MHz +1 dB/-2.
Annex B B.1.5 HD SDI Digital Video HD SDI output supports: • Embedded Decoded Audios • Closed Captioning (EIA 708B) • VITC • VANC Table B.
Annex B B.2.2 MPEG Audio The RX8000 Receiver supports decoding of MPEG audio as follows: B.2.3 • Compression layers: MPEG-1 layers I and II • Sampling rate: 48 kHz • Maximum compressed data rate: 384 kbps (layer II) Dolby Digital AC-3 Audio The RX8000 Receiver is able to decode and output the primary stereo pair of a Dolby Digital AC-3 encoded audio stream.
Annex B Table B.8 Analogue Audio Performance Specifications Parameter Specification Safety status SELV Output connector Male 9 pin D-sub Output format Balanced Bit rates 32 kbps to 384 kbps Sampling rates 48 KHz Nominal Output Level 0dBu +/- 0.1 dB in 20 kΩ Output impedance: <20kΩ Clipping Level 12 dBFS – 24 dBFS (step size 1dB) Frequency Response 48 kHz +/- 0.65 dB (< 25 Hz) +/- 0.5 dB (25 Hz – 16 kHz) +/- 0.
Annex B B.3.3 Audio Routing The RX8000 Receiver supports the following routing of audio signals: • STEREO (Channel 1 left, Channel 2 right) • MIXED TO BOTH (Channel 1 and 2 on left and right) • LEFT TO BOTH (Channel 1 on left and right) • RIGHT TO BOTH (Channel 2 on left and right) When the input signal is STEREO, the Audio digital output format will always be STEREO. Where a dual mono service is available, it is possible to configure the output as MIXED TO BOTH, LEFT TO BOTH and RIGHT TO BOTH.
Annex B B.3.7 Mono kbps Stereo kbps 80 160 96 192 112 224 128 256 160 320 192 384 Digital Audio Outputs Digital audio outputs comply with E1A-422 1 and have a maximum data rate of 3.072 Mbps. Digital audio is output on two 9-way, D-type and four BNC connectors. Audio output is balanced 2 – 7 Volts. B.4 Input Specifications B.4.1 DVB-S2 Satellite Receivers B.4.1.1 General Table B.
Annex B Parameter Specification Tuning step 1 kHz Carrier frequency search range ± 1 to ± 5 MHz Receive spectrum sense Normal and inverted L-band Power Input power level per carrier -65 to –25 dBm Total L-band input power < -10 dBm Oscillator power at the L-band input < -65 dBm, 950 < Fosc < 2150 MHz DVB-S Modulation (EN 300 421) Modulation QPSK Convolutional FEC rates 1/2, 2/3, 3/4, 5/6, 7/8 Symbol rate range Rs = 1.0 to 45.
Annex B Parameter Specification Miscellaneous DVB-S Phase noise tolerance 3 SSB phase-noise power spectral density < -68 – 10*log(Rs/20) dBc/Hz at δF = 10 kHz offset Phase noise power spectral density of the form C – 20*Log(δF) δF = Frequency offset from carrier Rs = Symbol-rate (Msymbol/s) DVB-S2 Phase noise tolerance 4 -25 dBc/Hz at δF = 100 Hz -50 dBc/Hz at δF = 1 kHz -73 dBc/Hz at δF = 10 kHz -93 dBc/Hz at δF = 100 kHz -103 dBc/Hz at δF = 1 MHz -114 dBc/Hz at δF > 10 MHz LNB power and control Se
Annex B Table B.13 DVB-S2 Satellite Input – DVB-S2 Es/No Ratio LDPC FEC Rate DVB-S2 Theoretical 5 Es/No Ratio (dB) in perfect linear channel for correct MPEG-2 system operation 1/2 QPSK 1.00 3/5 QPSK 2.23 2/3 QPSK 3.10 3/4 QPSK 4.03 4/5 QPSK 4.68 5/6 QPSK 5.18 8/9 QPSK 6.20 9/10 QPSK 6.42 3/5 8PSK 5.50 2/3 8PSK 6.62 3/4 8PSK 7.91 5/6 8PSK 9.35 8/9 8PSK 10.69 9/10 8PSK 10.
Annex B Table B.14 LNB Power and Control Parameter Specification Voltage V (nominal) Receiver Polarisation 6 13 Vertical/circular right 18 Horizontal/circular left Voltage Current 350 mA maximum LNB control 22 ± 2 kHz tone Tone amplitude 0.65 ±0.2 Vp-p B.4.2 8-VSB Terrestrial Receivers B.4.2.1 General Table B.
Annex B B.4.3 DVB-ASI Input Table B.16: DVB-ASI Copper B.4.4 Input Specification Safety status SELV Connector type BNC, Female Input impedance 75 Ω Data rate range 0.350 - 160 Mbps Error decoding None 100/1000BaseT Dual NIC Input Receivers Table B.17 100/1000BaseT IP Dual NIC Input Specifications B.4.5 Input Specification Safety status SELV Connector type 8 way RJ-45 Connector Designation 100/1000 BT Signal Type 100/1000BaseT Ethernet (IEEE 802.3/802.
Annex B Table B.18 Frame Sync Connector Item Specification Safety status SELV Connector type BNC, Female Connector designation Frame Sync Pin: Centre Analogue Black and Burst Input Shield Ground/Chassis B.5 Output Specifications B.5.1 Video Outputs See: Table B.3 Table B.4 Table B.5 Table B.7 B.5.2 625 Line 525 Line in B.1.3 Composite Video Output, HD Analogue Output Specification in B.1.4 Analogue HD Video Output Digital Video Output Connectors in B.1.5 HD SDI Digital Video.
Annex B Item Specification Voltage B.5.4 Maximum Switching Power 24 W / 60 VA Minimum Switching Load 0.1 mA, 100 mV AC DVB-ASI Output Table B.20: DVB-ASI Copper B.5.5 Input Specification Safety status SELV Connector type BNC, Female Input impedance 75 Ω Data rate range 0.350 - 160 Mbps Error decoding None 1000BaseT IP Output Table B.
Annex B B.6 Environmental B.6.1 Conditions Table B.22 Environmental Conditions Operational Specification Temperature 0°C to +50°C ambient air temperature with free air-flow Humidity 0% to 95% (non-condensing) Cooling requirements Convection cooling/free air-flow Handling movement Fixed (non-mobile) use only Storage/Transportation B.6.2 Temperature -20°C to +70°C (-4°F to +158°F) Humidity 0% to 95% (non-condensing) Physical Table B.
Annex B B.7 Power Supply – AC Mains Input This equipment is fitted with a wide-ranging power supply. It is suitable for supply voltages of 100-240 V AC -10% +6% at 50/60 Hz nominal. Table B.25 AC Power Supply Specification Item Specification Power distribution system Type TN ONLY (EN 60950-1 Annex V): Power distribution system which is directly earthed, the parts of the equipment required to be earthed being connected by protective earthing conductors.
Annex B Table B.
Annex B B.9.2 EMC 8 The equipment has been designed and tested to meet the following: B.9.3 EN 55022 and CISPR22 European EN 61000-3-2 9 European Electromagnetic Compatibility (EMC), Part 3 Limits; Section 2. Limits for harmonic current emissions (equipment input current ≤ 16 A per phase). EN 61000-3-39 European Electromagnetic Compatibility (EMC), Part 3. Limits; Section 3. Limitation of voltage fluctuations and flicker in low voltage supply systems for equipment with rated current ≤ 16 A.
Annex B DIRECTIVE 2004/108/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 15 December 2004 on the approximation of the laws of the Member States relating to electromagnetic compatibility 1999/5/EC of 9 March 1999 on radio equipment and telecommunications terminal equipment and the mutual recognition of their conformity. (If fitted with telecom type interface modules). Note: B.9.5 The CE mark was first affixed to this product in 2008.
Annex B Defines country of origin. The packaging is reusable per GB 18455-2001. This symbol guarantees that packaging with this symbol is recyclable and will be accepted by cardboard recyclers. Recyclable per GB 18455-2001. B.9.8 Materials Declarations Ericsson’s products are designed and manufactured in keeping with good environmental practise. Our component and materials selection policy prohibits the use of a range of potentially hazardous materials.
Annex B 50 It is assumed that while the product is in normal use, any batteries associated with real-time clocks or battery-backed RAM will be replaced at the regular intervals. The EFUP relates only to the environmental impact of the product in normal use, it does not imply that the product will continue to be supported for 50 years. B.9.9 Equipment Disposal B.9.9.1 General Dispose of this equipment safely at the end of its life. Local codes and/or environmental restrictions may affect its disposal.
Annex B B-26 • First/Last name • Password request (6 numbers/characters). If you do not include this information one will be created for you.
C Language Abbreviations Annex C Contents C.1 C.2 ISO Languages.................................................................................... C-3 Non-ISO Languages............................................................................ C-4 List of Tables Table C.1 ISO Language Codes .......................................................................... C-3 Table C.2 Non-ISO Language Codes ..................................................................
Annex C BLANK C-2 EN/LZT 790 0005 R1A
Annex C C.1 ISO Languages Languages are shown in alphabetical order. Table C.
Annex C C.2 NO LANGUAGE ABBREVIATION 27 SPANISH SPA 112 SWEDISH SWE 117 THAI THA 123 TURKISH TUR 128 URDU URD 130 VIETNAMESE VIE Non-ISO Languages The following non-ISO 1 languages are supported. Table C.
Annex C The non-ISO languages allow tagging of audio without reference to specific languages. The system can then transmit two languages (Main and Auxiliary) which could be any type of audio. Note: The non-ISO languages need to be user-defined in the Encoder for them to be available. For language codes not supported by the RX8000 Receiver, the Receiver will list ‘undefined’ as the language descriptor. This does not affect the way the audio is selected.
Annex C BLANK C-6 EN/LZT 790 0005 R1A
