. RX1290 Multi-Format Receiver Software Version 3.0.0 (and later) REFERENCE GUIDE EN/LZT 790 0003/2 R1A. The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any error or damage of any kind resulting from the use of this document. Preliminary Pages Contents Chapter 1: Introduction This chapter identifies the equipment versions covered by this Reference Guide; describes the purpose of the equipment in a typical system; provides a summary of its main features; identifies the controls, indicators and connectors.

1. Tandberg Receiver Rx1290 Manual
2. Tandberg Rx 1290
3. Tandberg Rx 1290 Manual

Chapter 2: Installing the Equipment This chapter provides a guide to the suitability of an installation. 3.0.0 Maintenance release. May 2008 3.0.0 References to New IP Card added. June 2011 3.0.0 Allocation of Ericsson Number Identity and re-brand completion.

Associated Documents The following manuals/guides are also associated with this equipment: Ericsson Document Identity Original Document Title. Corporation. Trademarks ™ Alteia Trademark of Ericsson AB.

Macrovision This product incorporates copyright protection technology that is protected by U.S. Patents and other intellectual property rights. Use of this copyright protection technology must be authorized by Macrovision Corporation, and is intended for home and other limited viewing uses only unless authorized by Macrovision. Ericsson and your business. Warranty All Ericsson products and systems are designed and built to the highest standards and are covered under a comprehensive 12 month warranty. Levels of Continuing Ericsson Service Support For standalone equipment, then Ericsson BASIC Essential support is the value for money choice for you. Internet Address www.ericsson.com Technical Training Ericsson provides a wide range of training courses on the operation and maintenance of our products and on their supporting technologies.

Ericsson can provide both regularly scheduled courses and training tailored to individual needs. Courses can be run either at your premises or at one of our dedicated training facilities. 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. Introduction Chapter 1 Contents Scope of This Reference Guide.1-3 1.1.1 Who Should Use This Reference Guide.1-3 1.1.2 What Equipment is Covered by This Reference Guide.1-3 1.1.2.1 The Equipment Models.

1-3 1.1.2.2 Software Version. 1-5 Summary of Features. Introduction List of Figures Figure 1.1 Front View of a RX1290 Multi-Format Receiver.1-3 Figure 1.2 Typical Satellite Compression System.1-8 Figure 1.3 What the Satellite Receiver Does.1-9 Figure 1.4 Typical Compression System. 1-10 Figure 1.5 Role of the Decoder.1-11 Figure 1.6 Front Panel States. Maintenance information requiring the covers to be removed is not included. Do not remove the covers of this equipment. Hazardous voltages are present within this equipment and may be exposed if the covers are removed.

Only Ericsson television trained and approved service engineers are permitted to service this equipment. Introduction Table 1.2 Hardware Options Marketing Code Price Object Supply Object Description Number Number RX1290/HWO/DVBS2 FAZ 101 0116/3 ROA 128 3800 DVBS2 I/P SAT DEMOD OPTION RX1290/HWO/DVBS2/IF/C FAZ 101 0116/5 ROA 128 3801 DVBS2 I/P SAT DEMOD+CONST O/P RX1290/HWO/IP/PROFEC FAZ 101 0116/8 ROA 128 3802 IP, PRO-MPEG INPUT OPTION. Introduction Marketing Code Price Object Supply Object Description Number Number RX1290/SWO/LDELAY FAZ 101 0116/21 FAT 102 0223 LOW LATENCY DECODE MODE (4:2:0 ONLY) RX1290/SWO/HSETHER FAZ 101 0116/19 FAT 102 0224 HIGH SPEED DATA PIPING LICENSE RX1290/SWO/PAA FAZ 101 0116/25 FAT 102 0229 QUAD PHASE ALIGNED MPEG-1 LAYER 2 AUDIO RX1290/SWO/4AUD. Elite platinum rice cooker manual. Introduction Up to 40 preselected choices can be stored within the unit. Multiple Inputs (Satellite Receivers): L-band Satellite Receivers have four inputs.

Video Decoding: MPEG 4:2:0 mode support. MPEG 4:2:2 mode support (MPEG-2 Only).

Audio Decoding: Sampling rate 48 kHz. All MPEG-1 data rates. Introduction Front Panel User Interface. 1.2.2 Inputs 1.2.2.1 ASI Input (Decoder) One BNC connector supporting both byte-mode and single packet burst mode.

1.2.2.2 Remote Control An RJ-45 Ethernet connector for connection to a PC or network switch to provide SNMP control. 1.2.2.3 DVB-S / DVB-S2 L-Band Inputs (Satellite Receivers) (Option) Four F-type connectors connect the L-band output of a suitable LNB either directly. Typical Satellite System The Multi-Format Receiver is a component of the MPEG-4 AVC/MPEG-2/DVB compliant range of Ericsson's equipment. They are designed for use by broadcasters and distributors of video, audio and data Services over satellite. Figure 1.2 Typical Satellite Compression System. Introduction 1.3.2 Input Connections The Satellite Receiver interfaces directly to Low-Noise Block (LNB) and accepts an intermediate frequency (IF) input in the band 950 - 2150 MHz (L-band) for operation in the specified symbol-rate range (see Annex B, Technical Specification). The unit can provide dc power and polarization switching to the LNB.

1.4.1 Typical Decoder System The Decoder is a component of Ericsson’s 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. Introduction Figure 1.5 Role of the Decoder Control Modes 1.5.1 Introduction The Multi-Format Receiver is designed for unattended operation. Once set-up, the unit requires no further attention except to ensure the fans are working. There are up to three control modes associated with the Receiver (dependent upon options fitted).

Introduction Guided Tour 1.6.1 Construction The Multi-Format Receiver is constructed using a screened self-ventilated modular system. All operational inputs and outputs are via rear-panel connectors. The unit may be operated freestanding or mounted in a 19-inch rack. 1.6.2 Front Panel Controls The physical interface for the Front Panel consists of an alphanumeric LCD display, pushbuttons, and status LEDs that are used to set-up and monitor the unit. Introduction 1.6.4 Rear Panel Inputs and outputs to the unit are taken via the rear panel. Connector descriptions are given in Chapter 2, Installing the Equipment and Chapter 6, Options. EN/LZT 790 0003/2 R1A 1-13.

Introduction BLANK 1-14 EN/LZT 790 0003/2 R1A. Installing the Equipment Chapter 2 Contents Read This First!.2-3 2.1.1 Handling.2-3 2.1.2 Installing the Equipment.

2-3 2.1.3 Lifting.2-3 2.1.4 Site Requirements.2-3 2.1.4.1 Power Supplies.2-3 2.1.4.2 Environment.2-3 2.1.4.3 Lightning Protection.2-3 Preliminary Checks. Installing the Equipment 2.7.9 Alarm Connector and Relay. 2-15 2.7.10 RS-232 Low-speed Asynchronous Data Output.

2-15 2.7.11 Serial Remote Control. 2-16 Option Card Connectors.2-16 List of Figures Figure 2.1 Air-flow Through the Equipment.2-5 Figure 2.2 AC Power Inlet Assembly.2-7 Figure 2.3 Location of the Technical Earth.

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). Installation of the product should follow these instructions, and should only use installation accessories recommended by the manufacturers. The product may fall, causing serious injury and serious damage to the product. Use only with a cart, stand, bracket or table recommended by Ericsson. An appliance and cart combination should be moved with care. Quick stops, excessive force, and uneven surfaces may cause the appliance and cart combination to overturn.

Installing the Equipment 2.3.2 Ventilation 2.3.3 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 this side of the unit. Installing the Equipment 2.3.4 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. Installing the Equipment Warning! The RX1290 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. This unit must be correctly earthed through the molded plug supplied. If the local mains supply does not have an earth conductor do not connect the unit.

Contact Ericsson Customer Services for advice. Before connecting the unit to the supply, check the supply requirements in Annex B.

Installing the Equipment Technical Earth Figure 2.3 Location of the Technical Earth Signal Connections 2.7.1 General Caution! It is strongly recommended that the terminal marked at the rear panel of the equipment is connected to a site Technical Earth before any external connections are made and the equipment is powered. Installing the Equipment RX1290 Multi-Format Receiver Motherboard RX1290/BAS ASI/HDSDI/SDSDI OUT 1 Transport Stream/Digital Video Output ASI/HDSDI/SDSDI OUT 2 Transport Stream/Digital Video Output ASI/HDSDI/SDSDI OUT 3 Transport Stream/Digital Video Output ASI In AUDIO 1 Analogue/Digital Audio Output AUDIO 2 Analogue/Digital Audio Output FRAME SYNC Frame Synchronization CVBS OUT. Installing the Equipment 2.7.2 ASI/HD-SDI/SD-SDI OUT The unit has three ASI/SMPTE 292M video (HD-SDI)/656 video (SD-SDI) outputs in the standard configuration. ASI/HD-SDI/SD-SDI OUT 1/2/3 The output standard must be selected from the user interface or remote control interface. The ASI/HD-SDI/SD-SDI output is coaxial via BNC connectors.

Video control is through the Video Menu (Menu 3.1). Installing the Equipment In addition, four unbalanced digital audio outputs are available via separate BNC connectors. Table 2.5 Analogue/Digital Audio Connectors AUD 1 Item Specification Connector type 9-way, D-type, Male Connector AUDIO 1 designations AUDIO 2 Pin-outs Pin 1 - Digital audio + Pin 2 - Ground Pin 3 - Left + Pin 4 - Right +. Installing the Equipment Table 2.7 SVGA Connector Item Specification Connector type 15-way D-type Connector Video Out designation Pin-outs Red / Pr 75 Ω, 0,7Vt-t Green / Y 75 Ω, 0,7Vt-t Blue / Pb 75 Ω, 0,7Vt-t Video GND Red GND Green GND Blue GND Sync GND. Installing the Equipment Table 2.8 Frame Sync Hi-Z Connector Item Specification BNC 75 Ω socket Connector type Connector FRAME SYNC designation Pin: Centre Analogue Black and Burst Input Shield Ground/Chassis Last unit must be terminated with 75 Ω Impedance 2.7.7 Ethernet The equipment has an Ethernet remote control port for SNMP Control. Installing the Equipment 2.7.9 Alarm Connector and Relay The alarm relay connector has a summary relay. The summary relay is activated whenever the unit detects an ALARM RELAY alarm, or the power is switched off.

Table 2.11 Alarm Connector Item Specification Connector type 9-way, D-type, Female for the summary alarm. Installing the Equipment Item Specification Pin 5 - Ground (RS-232) Pin 6 - Reserved Pin 7 - No connection Pin 8 - Reserved Pin 9 - Reserved 2.7.11 Serial Remote Control A 9-way, D-type male connector provides a configurable RS232/RS485 asynchronous low-speed data serial RS232/RS485 REMOTE communications interface for remote control. Operating the Equipment Locally Chapter 3 Contents Powering the Equipment.3-5 3.1.1 Switching On.3-5 3.1.2 Power up Operating Modes.3-5 Front Panel Controls and Pushbuttons.3-6 Front Panel Operating Modes. 3-6 3.3.1 General.3-6 3.3.2 Navigate Mode. Operating the Equipment Locally 3.7.12 Setting Up VITC.

3-19 3.7.13 Setting Up Closed Captions. 3-20 3.7.14 Setting Up ITS Insertion.3-20 3.7.15 Setting Up VPS. 3-20 3.7.16 Setting Up WSS. 3-20 3.7.17 Setting Up Video Index. 3-21 3.7.18 Setting Up Monochrome Samples. Table 3.13 Setting Aspect Ratio.3-16 Table 3.14 Setting Video Delay Mode.3-16 Table 3.15 Setting Video Ddelay Mode.3-16 Table 3.16 Setting Low delay mode.3-17 Table 3.17 Manually Selecting the Audio Components.3-17 Table 3.18 Setting Up Async Data. Operating the Equipment Locally BLANK EN/LZT 790 0003/2 R1A.

Operating the Equipment Locally Powering the Equipment 3.1.1 Switching On Caution! This equipment should not be operated unless the cooling fan is working and there is free-air flow around the unit.

Connect the signal inputs and AC power supply to the Multi-Format Receiver and power up the unit. Operating the Equipment Locally Front Panel Controls and Pushbuttons Front Panel items are described under Section 1.6, Guided Tour. ALARM LED LCD display Edit Left POWER LED Save Down Right Figure 3.2 Front Panel Controls and Pushbuttons Front Panel Operating Modes 3.3.1 General Operating the Multi-Format Receiver from the Front Panel is via two operating. Operating the Equipment Locally Pushbutton LEDs will be updated to indicate which pushbutton presses are still valid as each navigation pushbutton press event is processed. For example, a lit Up pushbutton LED indicates there are pages above the current one.

3.3.3 Edit Mode Edit mode edits the right display area and allows the user to alter control. Operating the Equipment Locally 3.4.2 Selecting a Menu Option Some items shown in the right display area of the front panel LCD display have a set number of options. An example of this is the VIDEO TEST PATTERN (Menu 3.1.6) which has a number of preset Video Test Patterns associated with it. Use the following steps as a general guide to selecting an option. Operating the Equipment Locally Setting Up Preset Services (Menu 1) 3.5.1 Using Preset Services This group allows up to 40 Services to be stored as presets.

Selecting a Service from the preset list in Menu 1 automatically reconfigures the Multi-Format Receiver to receive that Service with its associated parameters set as stored. Operating the Equipment Locally Setting Up the Input (Menu 2) 3.6.1 DVB-S2 Satellite Receiver (TT1290/HWO/DVBS2 and TT1290/HWO/DVBS2/IF/CONST) Table 3.6 Setting Up the DVB-S2 Satellite Receiver Step Action Result Go to Menu 2.3 and select The Receiver can take its signals from four SOURCE 1. Operating the Equipment Locally 3.6.1.1 DVB-S2 Input Option Card TT1290/HWO/DVBS2/IF/CONST The DVB-S2 demod option TT1290/HWO/DVBS2/IF/CONST offers three L-band inputs plus an IF input. If this input option card is fitted in the receiver then note that Menu 2.3.5 sets the IF input frequency. LNB Frequency, Satellite Frequency and LNB Power parameters are not applicable for this input. Operating the Equipment Locally 3.6.3 10/100BaseT Input – RX1290/HWO/IP Table 3.8 steps through the set-up procedure of the Telco Receiver using Menu 2 Input, and the IP input.

Table 3.8 Setting Up the IP Interface Step Action Result Connect the Ethernet cable to the IP input connector. Operating the Equipment Locally 3.6.4 100/1000BaseT Dual IP Input – RX1290/HWO/GIGE Steps through the set-up procedure of the Receiver using Menu 2 Input, and the IP input. Table 3.9 Setting Up the Dual IP Interface Step Action Result Connect the Ethernet cables to the IP input connectors.

Operating the Equipment Locally Step Action Result Return to Input Menu 2, it should display the current status. If status is NOT LOCKED, verify that the cable is properly connected and that all values have been entered correctly. Service Configuration (Menu 3) 3.7.1 Selecting and Setting Up a Service Each Transport Stream may contain many Services. Operating the Equipment Locally Step Action Result Scroll to Menu 3.1.7 and edit Edits the video test pattern to be displayed. The video test pattern to be displayed.

Scroll to Menu 3.1.10 and edit Edits the parameter for framesync enable. The parameter for framesync enable (ENABLED or DISABLED). Operating the Equipment Locally Table 3.13 Setting Aspect Ratio Step Action Result Scroll to Menu 3.1.9 and edit Edits the parameter for the output SD aspect the parameter for aspect ratio ratio. (4:3, or 16:9).

3.7.5 Setting Video Delay This menu allows the user to vary the output presentation delay. Operating the Equipment Locally Table 3.16 Setting Low delay mode Step Action Result Go to Menu 3.1.15 and edit Gains access to the low delay option. There is a the option displayed. (LOW choice between low delay and normal mode. DELAY MODE, NORMAL). Operating the Equipment Locally Step Action Result Scroll to Menu 3.3.4 and edit the Edits the Audio 1 digital output format and Audio 1 digital output format output routing. (AES3 or AC-3) and output Note that when the input signal is STEREO, routing (STEREO, MIXED TO the Audio digital output format will always be BOTH, LEFT TO BOTH,.

Operating the Equipment Locally Step Action Result Scroll to Menu 3.8.1 and edit The unit receives and displays the correct bit- the High speed data output rate. (ENABLED or DISABLED).

Scroll to Menu 3.8.3 and edit If the Forward to Gateway option is turned on, the Forward to Gateway the unit will forward the data stream to the ON/OFF and the Gateway IP. Operating the Equipment Locally 3.7.13 Setting Up Closed Captions Table 3.22 Setting Up Closed Captions Step Action Result Scroll to Menu 3.10.3 and edit Edits the parameter for enabling Closed the parameter for enabling Captions pass-through.

Closed Captions pass-through (ENABLED or DISABLED). Operating the Equipment Locally 3.7.17 Setting Up Video Index Table 3.26 Setting Up Video Index Step Action Result Scroll down to Menu 3.10.7 Edits the parameter for enabling Video Index and edit the parameter for pass-through. Enabling Video Index insertion (ENABLED or DISABLED). Operating the Equipment Locally 3.7.21 Setting Up VANC Data Insertion Table 3.30 Setting Up VANC Data Insertion Step Action Result Scroll down to Menu 3.11.1 Edits the parameter for enabling VANC Data and edit the parameter for insertion. Enabling VANC Data insertion PLEASE NOTE: Any data passed by this (ENABLED or DISABLED).

Operating the Equipment Locally 3.7.25 Setting Up DVB Subtitles Table 3.34 Setting Up DVB Subtitles Step Action Result Scroll down to Menu 3.15.1 Edits the parameter for enabling DVB Subtitles. And edit the parameter for PLEASE NOTE: This feature is only supported enabling DVB Subtitles for SD 4:2:0 video sources only. Operating the Equipment Locally 3.8.2 Basic Interoperable Scrambling System (BISS) (Menu 4.4) BISS Mode 1 is similar to RAS in that it uses a fixed control word to encrypt the data in the transport stream. Unlike RAS, the scrambling algorithm is non-proprietary, using the DVB Common Scrambling Algorithm to allow interoperability with other manufacturers’. Operating the Equipment Locally Setting Up the Transport Stream Output (Menu 5) 3.9.1 Set-Up Procedure Use Table 3.37 to step through the Transport Stream Output set-up procedure using Menu 5. This allows the Transport Stream for the current Service to be output on the ASI output connectors. Operating the Equipment Locally 3.9.3 Transport Stream Output Bit-rates The Maximum input/output rates are described in Table 3.39.

Table 3.39 Maximum Descrambled Transport Stream Output Bit-rates Level of TSO Setting Input Output Descrambling None POST INPUT 160 Mbps 160 Mbps Common Interface, POST TS 100 Mbps. Operating the Equipment Locally Step Action Result Scroll to Menu 6.4 and edit the Edits the Audio 2 alarms menu. AUDIO 2 menu (NO ALARM, SET ALARM ONLY). Scroll to Menu 6.5 and edit the Edits the Audio 3 alarms menu.

AUDIO 3 menu (NO ALARM, SET ALARM ONLY). Operating the Equipment Locally Step Action Result Scroll to Menu 7.1.3.1 and edit the Edits the Subnet Mask.

Scroll to Menu 7.1.3.2 and edit the Edits the Gateway address. Gateway address. Scroll to Menu 7.1.4 and Edits the Restore System Defaults menu. Operating the Equipment Remotely Chapter 4 Contents Remote Control.4-3 4.1.1 Introduction.

4-3 4.1.2 Remote Protocol Control Documentation.4-3 4.1.3 Configuring the Unit for Remote Control via SNMP Port. 4-3 4.1.4 Configuring the Unit for Remote Control Via the Serial Remote Port. 4-3 4.1.5 Configuring the Unit for Remote Control Over-air. Operating the Equipment Remotely BLANK EN/LZT 790 0003/2 R1A. The unit is ready for Remote Control. Note: The remote control protocols are not contained as a part of the product.

An additional license fee, NDA or other agreement with Ericsson may be necessary to obtain the information required to control the product remotely. Operating the Equipment Remotely Table 4.2 Configuring the Serial Remote Port and Activating Remote Protocol Step Action Result Go to menu 7.1. Displays ‘OPERATING MODE’.

Displays ‘FRONT PANEL’. Press the down pushbutton The settings should be set to match the external and select ‘SERIAL REMOTE’. Ericsson Customer Services Help Desk will not be able to provide you with the Local lockout PIN, as it is uniquely created at the time of the lockout. The user creates the PIN at lockout time. To obtain the PIN, please consult the person responsible for the administration of the unit.

Operating the Equipment Remotely BLANK EN/LZT 790 0003/2 R1A. Alarms Chapter 5 Contents Introduction. 5-3 Location of the Alarm and Power LEDs.5-3 Alarm LED. 5-3 List of Figures Figure 5.1 Front Panel LEDs. 5-3 EN/LZT 790 0003/2 R1A. Alarms BLANK EN/LZT 790 0003/2 R1A. Alarms Introduction There are two Front Panel LEDs that indicate the status of the Multi-Format Receiver.

These are used to indicate abnormal performance of the unit. Location of the Alarm and Power LEDs The red ALARM LED is used to indicate an equipment fault condition, for example a missing or faulty input signal. Alarms. Audio 3 not running - This alarm is raised if the third audio is incorrect.

Audio 4 not running - This alarm is raised if the forth audio is incorrect. Unit temperature - This alarm is raised if the unit exceeds an internal temperature of +65 It is possible to signal additional alarms depending on the Transport Stream input type and optional functionality in the unit. Options Chapter 6 Contents Hardware Enabled Options.6-3 DVB-S2 Input Cards (RX1290/HWO/DVBS2 and RX1290/HWO/DVBS2/IF/CONST).6-3 6.2.1 General.6-3 6.2.2 Connector Details - L-Band Inputs.6-3 6.2.3 Connector Details – IF Monitor Input (RX1290/HWO/DVBS2/IF/CONST).6-4 6.2.4 Connector Details – Constellation Output (RX1290/HWO/DVBS2/IF/CONST). Options List of Figures Figure 6.1 The Protocol Stack.6-6 Figure 6.2 Building the Ethernet Frame.6-6 List of Tables Table 6.1 DVB-S2 Satellite Receiver (L-band) Connector.6-4 Table 6.2 DVB-S2 Satellite Receiver (IF Monitor Input) Connector.

6-4 Table 6.3 DVB-S2 Satellite Receiver (Constellation Output) Connector. Options Hardware Enabled Options These options require extra hardware to be fitted to the unit. Contact the Customer Services Helpdesk for details (see Preliminary Pages).

DVB-S2 Input Cards (RX1290/HWO/DVBS2 and RX1290/HWO/DVBS2/IF/CONST) 6.2.1 General The DVB-S2 Input card supports DVB-S, QPSK demodulation and DVB-S2, QPSK and 8PSK demodulation. Options Table 6.1 DVB-S2 Satellite Receiver (L-band) Connector Input Specification Connector Type F-type, Female Connector designation IN 1, IN 2, IN 3, IN 4 3 x L-band inputs only on RX1290/HWO/DVBS2/IF/CONST Pin: Centre RF Input Shield Ground/Chassis LNB Supply Refer to the next caution box 75 Ω. Options 6.2.4 Connector Details – Constellation Output (RX1290/HWO/DVBS2/IF/CONST) Connect the I and Q constellation output connectors to a suitable display device such as an oscilloscope set to X-Y mode. I/Q Output Constellation output is enabled using the Input Status Menu (Menu 2). Options MPEG-2 Transport Stream Control traffic for in-band (Multi-Program Transport management Stream or Single-Program (telnet, http, snmp) Transport Stream) MPEG-2/DVB layer TCP/UDP UDP – User Datagram Protocol Transport layer - IP Link layer – 10/100BaseT Ethernet Figure 6.1 The Protocol Stack The MPEG-2/DVB layer is specified in ISO/IEC IS 13818 –.

Options 100/1000BaseT Dual IP Input – RX1290/HWO/GIGE Dual IP NIC Input card provides a 100/1000BaseT Ethernet port, on which a transport stream can be received in UDP packets at up to 208 Mbps. The card can receive RTP encapsulated transport streams. RTP encapsulation provides a more robust transport stream than UDP encapsulation. Options 6.5.1.2 Mode of Operation when input port is set to Port 1 or Port 2 When the user sets the input port to either port 1 or port 2, a link down or TS lock drop does not cause any switch over to the other port. This mode of operation is the manual mode where the user decides what port is being used regardless of the status of the link. Options 6.11 MPEG-2 HD 4:2:2 Decode (RX1290/SWO/MPEG- 2/HD/422) This option enables MPEG-2 HD 4:2:2 decode functionality. 6.12 MPEG-4 SD Decode (RX1290/SWO/MPEG4/SD) This option enables MPEG-2 HD decode functionality.

6.13 MPEG-4 HD, SD MPEG-2, HD 4:2:2 Decode (RX1290/SWO/MPEG-4/HD) This option enables H.264 HD and SD and MPEG-2 HD 4:2:2 decode functionality. 6.14 DVB-S2 QPSK (RX1290/SWO/DVBS2/QPSK) This option enables the DVB-S2 demodulator option card QPSK demodulation. Options 6.19 AAC Audio Support (RX1290/SWO/AAC) This option enables AAC audio decode support on the receiver. 6.20 Down Conversion (RX1290/SWO/DCONV) This option enables down conversion of HD to SD video on the receiver. 6.21 Common Interface (RX1290/SWO/CI) This option enables Common Interface descrambling support on the receiver. 6.22 Provider Lock (RX1290/SWO/PROV/LOCK) This provides the option to support Provider Lock.

Checks on Completion of Servicing.7-4 Maintenance and Support Services.7-5 7.4.1 Introduction. 7-5 7.4.2 Warranty.7-5 7.4.3 Levels of Continuing Ericsson Service Support.7-5 7.4.4 Warranty.7-5 7.4.4.1 Levels of Continuing Ericsson Service Support.7-5 Fault-finding.7-6 7.5.1 General. Preventive Maintenance and Fault-finding BLANK EN/LZT 790 0003/2 R1A. Preventive Maintenance and Fault-finding Introduction This chapter provides the schedules and instructions, where applicable, for routine inspection, cleaning and maintenance which should be performed by an operator. There are also some basic fault-finding procedures to follow in the event of a suspected failure of the RX1290 Multi-Format Receiver. If the equipment has been subject to a lightning strike or power surge.

7.3.2 Replacement Parts When replacement parts are required, be sure only parts specified by Ericsson (or having the same characteristics as the original part) have been used. Unauthorized substitutions may result in fire, electric shock or other hazards.

Ericsson and your business. 7.4.2 Warranty All Ericsson products and systems are designed and built to the highest standards and are covered under a comprehensive 12 month warranty. 7.4.3 Levels of Continuing Ericsson Service Support For standalone equipment, then Ericsson BASIC Essential support is the value for money choice for you. Preventive Maintenance and Fault-finding Fault-finding 7.5.1 General The information contained in this chapter is intended to isolate the unit as the faulty equipment if a system failure occurs. If the following information fails to clear the abnormal condition, please contact Customer Services using the information given in the Preliminary Pages of this manual. Preventive Maintenance and Fault-finding AC User Accessible Fuse Replacement Caution! This product should be operated only from the type of power source indicated on the marking label.

If you are not sure of the type of power supply to your home or business, consult your appliance dealer or local power company. Preventive Maintenance and Fault-finding Caution! When replacing the power input fuse, always ensure that a fuse of the correct type and rating is fitted. Failure to do so results in inadequate protection. Replace the fuse in the carrier. Insert the fuse carrier back in the AC power inlet.

AC Power Inlet To access the fuse, ease out the notch with a small flat-blade. 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. Μm Micrometer (former name - micron): a unit of length equal to one millionth (10-6) of a meter. Glossary AMOL I and II Automatic Measure of Line-ups I and II: Used by automated equipment to measure programme-viewing ratings. Address Resolution Protocol. A protocol used to 'resolve' IP addresses into underlying Ethernet MAC addresses.

Asynchronous Serial Interface. ASIC Application-Specific Integrated Circuit: A customized chip designed to perform a specific function. Glossary 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). Glossary Chrominance The color 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 color system, the color 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). Glossary 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.

Glossary DSNG Digital Satellite News-Gathering. Digital Signal Processor. 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. The term used to describe uninterrupted transmission from the satellite directly to the subscriber, that is, no intermediary cable or terrestrial network utilized.

Group of Pictures: MPEG video compression works more effectively by processing a number of video frames as a block. The Ericsson AB Encoder normally uses a 12 frame GOP; every twelfth frame is an I frame.

Glossary 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.

Glossary 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. Glossary 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.

Glossary 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. Glossary 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. Glossary 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. Glossary Packetized 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. Data may be written to, or read from, the device as often as required. When power is removed, the data it contains is lost. Remote Authorization System: A Ericsson AB proprietary public-key encryption system used to prevent unauthorized viewing of a TV programme or programmes.

Glossary 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. Reed-Solomon coding: An error detection and correction, coding system. Glossary 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. Glossary 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.

Glossary UART Universal Asynchronous Receiver Transmitter: A device providing a serial interface for transmitting and receiving data. 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. Glossary Y (Luminance) Defines the brightness of a particular point on a TV line.

Tandberg Receiver Rx1290 Manual

The only signal required for black and white pictures. Broadcast video with separate color, Y (luminance) and C (Chroma) (sometimes called S-Video). Y: Luminance component (Brightness), U and V: Chrominance (Color difference) A-20 EN/LZT 790 0003/2 R1A. Technical Specification Annex B Contents Output.B-3 B.1.1 Supported Video Resolutions.B-3 B.1.2 Supported Video Bit-rates.B-3 B.1.3 Composite Video Output.B-3 B.1.4 Performance Figures.B-5 B.1.5 HD SDI.B-6 Audio Decoding and Output Stage.B-7 B.2.1 General.B-7 B.2.2 MPEG Audio.B-7 B.2.3 Dolby Digital AC-3 Audio.B-7 B.2.4. Technical Specification B.5.4 SNMP Remote Control Connector. B-21 B.5.5 Alarm Connector.B-21 Environmental.B-22 B.6.1 Conditions.B-22 Compliance.B-22 Safety.B-22 B.8.1 EMC.B-23 B.8.2 Telecommunications.B-23 B.8.3 CE Marking.B-23 B.8.4 C-Tick Mark. Technical Specification Output B.1.1 Supported Video Resolutions The Multi-Format Receiver supports H.264, 4:2:0 and 4:2:2.

Tandberg Rx 1290

Tandberg Rx 1290 Manual

Table B.1 Supported Video Resolutions Input Resolutions Frame Output Format Specification (H x V) Rates (H x V) 1920 x 1080 1920 x 1080 SMPTE 274M interlaced 1440 x 1080 29.97. Technical Specification Table B.3 625 Line Description Test Signal Limit Bar Level VITS17 700mV +/- 7mV Bar Tilt VITS17.