ST.RE.E10141.5 Issue 5 ENGLISH (UK) REFERENCE GUIDE TT1280 and TT1282 High Definition Professional Receiver/Decoder Software Version 2.0.
Preliminary Pages ENGLISH (UK) ITALIANO READ THIS FIRST! LEGGERE QUESTO AVVISO PER PRIMO! If you do not understand the contents of this manual DO NOT OPERATE THIS EQUIPMENT. Se non si capisce il contenuto del presente manuale NON UTILIZZARE L’APPARECCHIATURA. Also, translation into any EC official language of this manual can be made available, at your cost. È anche disponibile la versione italiana di questo manuale, ma il costo è a carico dell’utente.
Preliminary Pages List of Contents Chapter 1: Introduction This chapter identifies the equipment versions covered by this manual; describes the purpose of the equipment in a typical system; provides a summary of its main features; identifies the controls, indicators and connectors.
Preliminary Pages About This Reference Guide This Reference Guide provides instructions and information for the installation and operation of the TT1280 and TT1282 1U digital integrated Receiver/Decoder (IRD). 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 reissue.
Preliminary Pages Warnings, Cautions and Notes. Heed Warnings All warnings on the product and in the operating instructions should be adhered to. The manufacturer can not be held responsible for injuries or damage where warnings and cautions have been ignored or taken lightly. Read Instructions All the safety and operating instructions should be read before this product is operated. Follow Instructions All operating and use instructions should be followed.
Preliminary Pages Contact Information TANDBERG Television Customer Services Support Services Our primary objective is to provide first class customer care that is tailored to your specific business and operational requirements. All levels are supported by one or more service performance reviews to ensure the perfect partnership between TANDBERG Television and your business.
Preliminary Pages Technical Training Training Courses TANDBERG Television provides a wide range of training courses on the operation and maintenance of our products and on their supporting technologies. TANDBERG 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.
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Chapter 1 1. 1Introduction Contents 1.1 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 The Equipment Models................................. 1-3 Software Version .......................................... 1-4 1.2 Summary of Features ............................................... 1-4 1.2.1 Main Features.................................
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Introduction 1.1 Scope of This Reference Guide 1.1.1 Who Should Use This Reference Guide This Reference Guide is written for operators/users of the TT1280 and TT1282 Integrated Receiver/Decoder (IRD). It describes the unit’s 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.
Introduction Model Number Marketing Code Description TT1282 Common Interface (-48 V version) TT1282/CIBAS/48V MPEG-2 HD Decoder with integrated Common Interface CAM reader, -48 Vdc voltage input. MPEG 4:2:0 and 4:2:2 video decode. TT1282 Director TT1282/DIRBAS MPEG-2 HD Decoder with integrated Director Smart Card Reader, AC mains voltage input. MPEG 4:2:0 and 4:2:2 video decode. Software Version This Reference Guide covers the functions of software version 2.0.0 and later.
Introduction • Data: DTS audio detection and pass-through. Low Speed Data: RS-232 asynchronous (up to 38.4 kbit/s). High Speed Data: Ethernet Data-piping (up to 5 Mbit/s) (option). High Speed Data: RS-422 synchronous (up to 2048 kbit/s) (option). • Transport Stream Output: ASI Transport Stream output with maximum data rate 160 Mbit/s. • Remote Control: SNMP. RS-232 (Alteia protocol). • Clock/Calendar: Available to co-ordinate universal and local time.
Introduction BPSK/QPSK/8PSK/16QAM (HOM) L-Band Inputs (Satellite Receivers) (Option) Four F-type connectors connect the L-band output of a suitable LNB either directly or via a suitable attenuator giving lightning and surge protection. DVB-S QPSK, DVB-S2 QPSK, 8PSK Input (Satellite Receivers)(Option) Four F-type connectors (TT1280/HWO/DVBS2) or Three F-type connectors + IF Inputs + Constellation output (TT1280/HWO/DVBS2/IF/CONST).
Introduction There are five relays for failure monitoring (four alarms and one summary alarm). The operator can define (using the Alarm Menu pages) which alarm conditions drive the relays. This is described in Chapter 5, Alarms and Annex C, Menus. 1.3 The Satellite Receiver 1.3.1 Typical Satellite System The IRD Satellite Receivers are components of the MPEG-2/DVB compliant range of TANDBERG Television equipment.
Introduction 1.3.3 What the Satellite Receiver Does The Receiver can be tuned to a specified satellite channel frequency and polarisation. 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 synthesised local oscillator. A software tuning and acquisition algorithm resolves translation errors (mainly due to the LNB).
Introduction 1.4 The Telco Receiver/Decoder 1.4.1 Typical Decoder System The Decoder is a component of TANDBERG Television’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 1.4.2 What the Decoder Does The ASI interface is used to present the Transport Stream in the format required by the internal Decoder circuitry. At this point, the operation of the unit is the same as the Satellite Receiver. The Decoder can be used to receive an input signal from a Public Telecom Network via a Network Adapter Unit (NAU). No error correction is supported at the input of the unit so a level of Quality of Service should be negotiated with the Telecom Network Provider.
Introduction 1.5.2 Front Panel (Local) Modes Operating the IRD from the Front Panel is via two main operating modes: Navigate and Edit. See Section 3.3, Front Panel Operating Modes. Timeout (5 minutes) EDIT Off NAVIGATE EDIT EDIT On SAVE Figure 1.6: Front Panel States 1.6 Guided Tour 1.6.1 Construction The IRD is constructed using a screened self-ventilated modular system. All operational inputs and outputs are via rear-panel connectors.
Introduction Alarm LED Lock LED Figure 1.7: Front Panel Controls 1.6.3 LCD display Edit Save Left Up Down Right Front Panel LEDs Figure 1.7 shows the location of the LEDs on the front panel. The LEDs indicate the equipment status as follows: The red ALARM LED is used to indicate an IRD fault condition, e.g. a missing or faulty input signal. It should be off for correct operation, although it may be lit briefly during power-up.
Chapter 2 2. Installing the Equipment Contents 2.1 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 Power Supplies............................................. 2-3 Environment .................
Installing the Equipment Table 2.9: Alarm Connector......................................................... 2-15 Table 2.10: RS-232 Low-speed/RS-422 High-speed Data Connector................................................................... 2-15 Page 2-2 Reference Guide: TT128x High Definition Professional Receiver/Decoder ST.RE.E10141.
Installing the Equipment 2.1 Read This First! 2.1.1 Handling The IRD 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 TANDBERG Television Customer Services (see Preliminary Pages for contact details).
Installing the Equipment 2.2 Preliminary Checks 2.2.1 Mechanical Inspection WARNING… REMOVING THE COVERS OF THIS EQUIPMENT MAY INVALIDATE ANY WARRANTIES, CAUSE A SAFETY HAZARD OR/AND AFFECT THE EMC PERFORMANCE. CHECK WITH TANDBERG TELEVISION CUSTOMER SERVICES. Inspect the equipment for damage-in-transit. If in doubt, please contact TANDBERG Television Customer Services (see Preliminary Pages). 2.2.2 Moving the Equipment Safely Do not place this product on an unstable cart, stand, bracket, or table.
Installing the Equipment 2.3 Installing the Equipment 2.3.1 Fixing The IRD is designed for fixed use only and has been shipped with fixing brackets suitable for a standard 19-inch rack. When installed in a rack, it should be secured using the fixing brackets and M6 x 18 mm panhead screw in each corner of the front panel. In addition, support shelves must be used to reduce the weight on the brackets. Ensure it is firmly and safely located and it has an adequate flow of free-air.
Installing the Equipment Protection from Moisture Do not install this equipment in areas of high humidity or where there is a danger of water ingress. 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.
Installing the Equipment WARNINGS… THE TT1280 AND TT1282 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 TT1280 AND TT1282 RANGE OF RECEIVERS/DECODERS ARE NOT FITTED WITH AN AC POWER ON/OFF SWITCH.
Installing the Equipment Table 2.2: Non Standard Supply Cord Wire Colours Wire Colour (UK) 2.5.3 Action green-and-yellow ...must be connected to the terminal in the plug which is marked with the letter E or the safety earth symbol or coloured green or green-and-yellow. blue ...must be connected to the terminal in the plug which is marked with the letter N or coloured black. brown ...must be connected to the terminal in the plug which is marked with the letter L or coloured red.
Installing the Equipment 2.6.3 Connecting the Equipment to the DC Power Supply Connect the Receiver to the local d.c. power supply as follows. 1. Local DC Power Supply Ensure the power supply is isolated and switched off. 2. Receiver Ensure the correct fuse type and rating has been fitted to both the equipment and the power cable. 3. Supply Cord Connect the d.c. lead to the Receiver input connector and then to the local d.c. power supply. Switch on the d.c. power supply. 2.
Installing the Equipment 2.8 Signal Connections 2.8.1 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. This limits the migration of stray charges. All signal connections are made via the rear panel. A typical rear panel is shown in Figure 2.4. The connections are also shown schematically in Figure 2.
Installing the Equipment TT128x Professional Receivers Motherboard (TT1280/CIBAS), TT1280/DIRBAS), (TT1282/CIBAS), (TT1282/DIRBAS) ASI/SSI In Frame Synchronisation ASI/SSI FRAME SYNC ASI OUT 1 ASI OUT 2 AUDIO 1 AUDIO 2 Video Out HDSDI 1 HDSDI 2 DATA OUT ALARM RELAY ASI Transport Streams ASI Transport Streams Analogue/Digital Audio Output Analogue/Digital Audio Output Analogue Video Output Digital Video Output Digital Video Output Low-speed Async Data Alarms IP Input Card (TT1280/HWO/IP) IP In IP IN
Installing the Equipment 2.8.2 ASI Out Two BNC sockets output ASI Transport Streams with a maximum data rate of 160 Mbit/s. NOTE… These sockets are shared with the HD SDI output, under the control of Menu 5.1 Table 2.3: ASI Out Connector 2.8.3 Item Specification Connector type BNC 75 Ω socket Connector designation ASI/HDSDI OUT 1 ASI/HDSDI OUT 2 Pin-outs Video output Ground/Chassis Centre Shield Audio Outputs A pair of 9-way male D-type connectors provide two stereo channels.
Installing the Equipment 2.8.4 SVGA Output (RGB HV) The IRD is equipped with a SVGA 15-pin D-type connector for video output in the standard configuration. The SVGA connector shall be set to RGB/HV (SVGA) or YPrPb under control of the user interface and remote control interfaces. Table 2.5: SVGA Connector Item Specification Connector type 15-way D-type Connector designation Video Out Pin-outs 2.8.
Installing the Equipment NOTE… These connectors are shared with the ASI output, under the control of menu 5.1. 2.8.6 Frame Synchronisation A BNC socket is used by the Decoder to frame lock to an external video source (NTSC, PAL or SECAM). The frame information is input as a composite signal, with or without active video. The user can offset the synchronisation to the video output by ±8 lines of the reference signal, with a resolution of 1 pixel of the reference signal.
Installing the Equipment 2.8.8 Alarm Connector and Relay The alarm relay connector has a summary and four general purpose relays. The summary relay is activated whenever the unit detects an alarm, or the power is switched off. ALARM RELAY Table 2.9: Alarm Connector Item Specification Connector type 9-way, D-type, Female for the summary alarm relay Connector designation ALARM RELAY Pin-outs 2.8.
Installing the Equipment 2.9 Option Card Connectors Option cards are described in Chapter 6, Options. Page 2-16 Reference Guide: TT128x High Definition Professional Receiver/Decoder ST.RE.E10141.
Chapter 3 3. Operating the Equipment Locally Contents 3.1 Powering the Equipment........................................... 3-3 3.1.1 Switching On ................................................ 3-3 3.1.2 Power-up Operating Modes.......................... 3-3 3.2 Front Panel Controls and Pushbuttons ..................... 3-4 3.3 Front Panel Operating Modes................................... 3-4 3.3.1 General......................................................... 3-4 3.3.2 Navigate Mode ..................
Operating the Equipment Locally List of Tables Table 3.1: Navigate Mode ............................................................. 3-4 Table 3.2: Edit Mode ..................................................................... 3-5 Table 3.3: Selecting a Menu Option .............................................. 3-6 Table 3.4: Entering a Menu Value ................................................. 3-6 Table 3.5: Setting Up a Preset Service ......................................... 3-7 Table 3.
Operating the Equipment Locally 3.1 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 IRD and power up the unit. After a short period of initialisation and the IRD gaining lock, the unit powers up in Navigate mode. This is the usual operating condition. The Lock LED will be on (green) when a signal is locked and off when unlocked.
Operating the Equipment Locally 3.2 Front Panel Controls and Pushbuttons Front Panel items are described under Section 1.6, Guided Tour. Alarm LED LCD display Lock LED Edit Save Left Up Down Right Figure 3.2: Front Panel Controls and Pushbuttons 3.3 Front Panel Operating Modes 3.3.1 General Operating the IRD from the Front Panel is via two operating modes: Navigate Mode (see Section 3.3.2) and Edit Mode (see Section 3.3.3). 3.3.
Operating the Equipment Locally The Front Panel returns to Navigate mode when Edit is pressed again (abort edit with no save) or when Save is pressed (save modified parameter values). Processing of events from the front panel event queue depends on the current operating mode of the front panel. Table 3.2: Edit Mode Action Result Up Pushbutton Pressed Increases value of current edit parameter by one unit. Down Pushbutton Pressed Decreases value of current edit parameter by one unit.
Operating the Equipment Locally 3.4 Using the Local Controls 3.4.1 LCD Menu Descriptions Detailed LCD menu descriptions are given in Annex C, Menus. This chapter concentrates on describing the use of the menus for local operation. 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.
Operating the Equipment Locally 3.5 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 IRD to receive that Service with its associated parameters set as stored. 3.5.2 Setting Up a Preset Service Follow the steps in Table 3.5 to store the current Service as a preset. Table 3.
Operating the Equipment Locally 3.6.2 Step Action Result 7 Scroll to Menu 2.3.2.5. Enter the LNB 22 kHz setting then press Save. Enables or disables the LNB 22 kHz control tone for the selected Source (On, Off). 8 Scroll to Menu 2.3.2.6. Enter the SEARCH RANGE then press Save. This sets up the centre frequency Search Range for the selected Source in kHz. 9 Scroll to Menu 2.3 and select SOURCE 2. Repeat steps 2 through 8. HOM Satellite Receivers (TT1280/HWO/HOM) Table 3.
Operating the Equipment Locally 3.6.3 DVB-S2 Satellite Receiver (TT1280/HWO/DVBS2 and TT1280/HWO/DVBS2/IF/CONST) Table 3.8: Setting Up the DVB-S2 Satellite Receiver Step Action Result 1 Go to Menu 2.3 and select SOURCE 1. The Receiver can take its signals from four sources. Set up source 1. 2 Scroll to Menu 2.3.2. Enter the LNB FREQUENCY then press Save. This sets up the LNB frequency for the selected Source in MHz. 3 Scroll to Menu 2.3.2.1. Enter the SATELLITE FREQUENCY then press Save.
Operating the Equipment Locally 3.6.4 Telco Receiver - TTV G.703 Table 3.9 steps through the set up procedure of the Telco Receiver using Menu 2 Input, and the TTV G.703 input. Table 3.9: Setting Up the TTV G.703 Interface Step Action Result 1 Connect the cable to the TTV G.703 input. 2 Power up the unit and navigate to Menu 2 Input. Accesses the Input menu. 3 Press the Right pushbutton to access Menu 2.3. Selects the G.703 menu. 4 Navigate to INTERLEAVER (Menu 2.3.3), then press Edit.
Operating the Equipment Locally Step Action Result 7 Navigate to IP INPUT MULTICAST IP ADD (Menu 2.3.2.4), then press Edit. Edits the IP Input Multicast IP address parameter. Select the Multicast IP address, then press Save. 8 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. 3.7 Service Configuration (Menu 3) 3.7.
Operating the Equipment Locally 3.7.3 Selecting the Audio Component Introduction Automatic audio component selection is based on component order in the PMT as follows: • Audio 1 selects the first component in the PMT and Audio 2 selects the second component. • Audio 1 does not select the same component as Audio 2 and vice-versa when component-PIDs are reordered in a new PMT. • Coding type and language are manually selectable through the User PID and type parameters.
Operating the Equipment Locally 3.7.4 Setting Up Asynchronous Data (RS-232) These menu pages allow status monitoring and configuration of the low speed data. Table 3.14: Setting Up Async Data 3.7.5 Step Action Result 1 Go to Menu 3.5 and press Edit. Select the data stream PID. Selects the data stream. 2 Scroll to Menu 3.5.1 and edit the low speed data output (ENABLED or DISABLED). Press Save. The unit receives and displays the correct bit-rate.
Operating the Equipment Locally 3.7.7 Setting Up Closed Captions Table 3.17: Setting Up Closed Captions 3.7.8 Step Action Result 1 Scroll to Menu 3.8.2 and edit the parameter for enabling Closed Captions pass through (ENABLED or DISABLED). Press Save. Edits the parameter for enabling Closed Captions pass-through. Setting Up VITC Table 3.18: Setting Up VITC 3.7.9 Step Action Result 1 Scroll to Menu 3.8.1 and edit the parameter for enabling VITC pass through (ENABLED or DISABLED). Press Save.
Operating the Equipment Locally BISS (as specified in EBU Tech 3292 May 2002) is standard on all units. It is not possible to have both DVB Common Interface and TANDBERG Director options fitted on the same unit. 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.
Operating the Equipment Locally 3.9 Setting Up the Transport Stream Output (Menu 5) 3.9.1 Set-up Procedure Use Table 3.21 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. Table 3.21: Setting Up the Transport Stream Output (TSO) Step Action Result 1 Go to Menu 5 to enter the TRANSPORT STREAM OUTPUT setting.
Operating the Equipment Locally 3.9.4 Transport Stream Packet Lengths The input transport stream packet lengths may be 188/204/208 bytes. With the transport stream output set to POST INPUT or POST TS DESCRAMBLE, the output packet length is the same as the input. With the transport stream output set to POST ES DESCRAMBLE, the output is always 188 bytes. 3.9.5 ASI Output Mode • Spread mode in = > spread mode out (except when the TSO is set to POST ES DESCRAMBLE in step 2 in Table 3.21.
Operating the Equipment Locally 3.11 Setting Up System Parameters (Menu 7) This menu gives access to the Setup Menu to set up and edit System Parameters as well as the IRD Details menu (see Table 3.26). Table 3.25: Setting Up a System Step Action Result 1 Go to Menu 7. Accesses the System menu. 2 Scroll to Menu 7.1 and edit the Operating Mode (FRONT PANEL, SERIAL REMOTE, NCP or NETWORK (SNMP). Press Save. Edits the Operating Mode menu. 3 Scroll to Menu 7.1.
Operating the Equipment Locally 3.12 Restarting the Unit The System Restart submenu allows the user to reboot the unit without having to remove and insert the power cable. Table 3.27: System Restart Menu Step Action Result 1 Go to Menu 7.3. Accesses the System Restart menu. 2 Press Edit. ACTIVATE will be displayed. 3 Press Save to activate. Unit is restarted. Reference Guide: TT128x High Definition Professional Receiver/Decoder ST.RE.E10141.
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Chapter 4 4. Operating the Equipment Remotely Contents 4.1 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.
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Operating the Equipment Remotely 4.1 Remote Control 4.1.1 Introduction The IRD can be remotely controlled in a variety of ways. The basic control methods are: • • • TANDBERG Device Controller (TDC) • TANDBERG Director (over-air) Third-party application using TANDBERG SNMP MIB protocol Third-party application using Alteia remote control protocol (RS-232/RS-485) Common for all control methods is that the IRD needs to be set up to accept the remote control handling.
Operating the Equipment Remotely Table 4.2: Configuring the Serial Remote Port and Activating Remote Protocol Step Action Result 1. Go to menu 7.1. Displays ‘OPERATING MODE’. 2. Press Edit. Displays ‘FRONT PANEL’. 3. Press the down pushbutton and select ‘SERIAL REMOTE’. The settings should be set to match the external control host. 4. Press Save. The unit is ready for Remote Control.
Operating the Equipment Remotely Entering the OAC Lockout PIN Table 4.4: Entering the OAC Lockout PIN 4.2 Step Action Result 1. Go to menu #4.3.6 DIRECTOR. Displays ‘NCP LOCK OVERRIDE PIN’. 2. Press Edit. Displays ‘ENTER CURRENT PIN’. 3. Enter the four-digit PIN and press Save. The unit is ready for local control. Returning the Unit to Local Control Mode Once the unit is in remote control mode, no local controls are available.
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Chapter 5 5. Alarms Contents 5.1 Introduction ............................................................... 5-3 5.2 Location of the Alarm and Lock LEDs....................... 5-3 List of Figures Figure 5.1: Front Panel LEDs ........................................................ 5-3 5.3 ALARM LED.............................................................. 5-3 Reference Guide: TT128x High Definition Professional Receiver/Decoder ST.RE.E10141.
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Alarms 5.1 Introduction There are two Front Panel LEDs that indicate the status of the IRD. These are used to indicate abnormal performance of the unit. 5.2 Location of the Alarm and Lock LEDs The red ALARM LED is used to indicate an equipment fault condition, for example a missing or faulty input signal. It should be off during correct operation, although it may be lit briefly during power-up.
Alarms It is possible to signal additional alarms depending on the Transport Stream input type and optional functionality in the unit. Satellite inputs: • • Page 5-4 Bit Error Rate (BER) above (programmable) threshold. Modulation Error Ratio (MER) above (programmable) threshold. Reference Guide: TT128x High Definition Professional Receiver/Decoder ST.RE.E10141.
Chapter 6 6. Options Contents 6.1 Hardware Enabled Options....................................... 6-3 6.2 QPSK Input Card (TT1280/HWO/QPSK).................. 6-3 6.2.1 General......................................................... 6-3 6.2.2 Connector Details - L-Band Inputs ............... 6-3 6.3 HOM Input Card (TT1280/HWO/HOM)..................... 6-4 6.3.1 General......................................................... 6-4 6.3.2 Connector Details - L-Band Inputs ............... 6-4 6.
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Options 6.1 Hardware Enabled Options These options require extra hardware to be fitted to the unit. Contact the Customer Services Helpdesk for details (see Preliminary Pages). 6.2 QPSK Input Card (TT1280/HWO/QPSK) 6.2.1 General The QPSK Input Card supports QPSK demodulation for Satellite Receivers with two L-band inputs. 6.2.
Options CAUTION… 1. The Receiver provides dc power (refer to Chapter 3, Operating the Equipment Locally) via the active L-band input connector to drive an LNB (Low Noise Block Down-Converter). Do not connect equipment other than an LNB to this connector. Failure to do this may result in damage to the external equipment 2. 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. 6.
Options 6.4 DVB-S2 Input Cards (TT1280/HWO/DVBS2 and TT1280/HWO/DVBS2/IF/CONST) 6.4.1 General The DVB-S2 Input card supports DVB-S, QPSK demodulation and DVB-S2, QPSK and 8PSK demodulation. Two options are available. TT1280/HWO/DVB-S2 offers four L-band inputs, TT1280/HWO/DVB-S2/IF/CONST offers three L-band inputs plus an IF monitor input plus received constellation output. 6.4.
Options The specification for this connector is given in Annex B, Technical Specification. Table 6.4: DVB-S2 Satellite Receiver (IF Monitor Input) Connector 6.4.4 Input Specification Connector Type BNC, Female Connector designation IF Pin: Centre Shield IF Input Ground/Chassis Impedance 75 Ω Connector Details – Constellation Output (TT1280/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.
Options 6.6 IP Input Card (TT1280/HWO/IP) The IP Input card provides a 10/100BaseT Ethernet port, on which a transport stream can be received in UDP packets at up to 50 Mbit/s. The mapping of MPEG-2 TS packets into IP data frames is done according to the protocol stack shown in Figure 6.1. The figure shows the Protocol Stack in use when mapping MPEG-2 into IP frames and Ethernet.
Options 6.7 Software Enabled Options These options may be enabled through software licence keys. Contact the Customer Services Helpdesk for details (see Preliminary Pages). 6.8 High Speed Data Over Ethernet (TT1280/SWO/HSETHER) The IRD can be enabled through a licence key to output high-speed data over the Ethernet port. The IRD uses the Data-Piping protocol to de-encapsulate the data received. The data must be carried as private data on a designated transport stream PID.
Chapter 7 7. Preventive Maintenance and Faultfinding Contents 7.1 Routine Checks......................................................... 7-3 7.1.1 Cooling Fan .................................................. 7-3 7.1.2 Cleaning ....................................................... 7-3 7.2 Servicing ................................................................... 7-3 7.2.1 Conditions Requiring Servicing..................... 7-3 7.2.2 Replacement Parts ....................................... 7-4 7.2.
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Preventive Maintenance and Fault-finding 7.1 Routine Checks 7.1.1 Cooling Fan There are no routine checks associated with this equipment other than to ensure that the unit is adequately cooled. This equipment must never be operated unless the cooling fan is working. This should be checked periodically. CAUTION... The fan contained within this unit is not fitted with an insect/dust filter. Pay particular attention to the environment in which it is going to be used. Cooling Fan Figure 7.
Preventive Maintenance and Fault-finding 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. If the product has been dropped or the case has been damaged. 6. When the product exhibits a distinct change in performance. 7.
Preventive Maintenance and Fault-finding For systems support you can choose either Gold or Silver Advantage. These packages are designed to save you costs and protect your income through enlisting the help of TANDBERG Television support specialists. VOYAGER Advantage is the truly mobile service solution. This provides a service specifically designed to keep you mobile and operational. Call TANDBERG Customer Services for more details. 7.4 Fault-finding 7.4.
Preventive Maintenance and Fault-finding 7.5 Changing the Equipment Fuse 7.5.1 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. For products intended to operate from battery power, or other sources, refer to the operating instructions.
Preventive Maintenance and Fault-finding AC Power Inlet Fuse Carrier To access the fuse, ease out the notch with a small flat-blade screwdriver. Figure 7.2: Fuse Carrier If the replacement fuse also blows, do not continue. Disconnect the equipment and contact TANDBERG Customer Services (see Preliminary Pages) for advice. 7.5.2 DC User Accessible Fuse Replacement WARNING… BEFORE REPLACING THE REAR PANEL FUSE, ISOLATE THE UNIT FROM THE SUPPLY.
Preventive Maintenance and Fault-finding 7.6 Disposal 7.6.1 Moulded Plugs If the moulded plug fitted to the mains cable supplied with this equipment is not required, use another cable. If the supplied plug is to be changed, cut it off and dispose of it safely. WARNING... IF THE MOULDED PLUG FITTED TO THE MAINS CABLE SUPPLIED WITH THIS EQUIPMENT IS NOT REQUIRED, PLEASE CUT IT OFF AND DISPOSE OF IT SAFELY.
Annex A A. Glossary The following list covers most of the abbreviations, acronyms and terms as used in TANDBERG Television Limited Manuals, User and Reference Guides. All terms may not be included in this Reference Guide. µm Micrometre (former name - micron): a unit of length equal to one millionth (10-6) of a metre. 3:2 pulldown A technique used when converting film material (which operates at 24 pictures per second) to 525-line video (operating at 30 pictures per second).
Glossary B3ZS Bipolar with Three Zero Substitution: A method of eliminating long zero strings in a transmission. It is used to ensure a sufficient number of transitions to maintain system synchronisation when the user data stream contains an insufficient number of 1s to do so. B3ZS is the North American equivalent of the European HDB3. Backward Compatibility Refers to hardware or software that is compatible with earlier versions. BAT Bouquet Association Table: Part of the service information data.
Glossary COFDM Coded OFDM: COFDM adds forward error correction to the OFDM transmission consisting of Reed-Solomon (RS) coding followed by convolutional coding to add extra bits to the transmitted signal. This allows a large number of errors at the receive end to be corrected by convolutional (Viterbi) decoding followed by RS decoding. Compression Reduction in the number of bits used to represent the same information.
Glossary DVB SI Digital Video Broadcasting Service Information. DVB-PI DVB-Professional Interfaces: TTV Lan search shows – DVB Physical Interfaces Earth Technical Earth: Ensures that all equipment chassis within a rack are at the same potential, usually by connecting a wire between the Technical earth terminal and a suitable point on the rack. This is sometimes known as a Functional earth. Protective Earth: Used for electric shock protection. This is sometimes known as a safety earth.
Glossary Hub A device in a multipoint network at which branch nodes interconnect. ICAM Integrated Conditional Access Module: Embedded in the IRD and responsible for descrambling, plus packet filtering and reception. It also contains the physical interface to the subscriber’s viewing card. IEC International Electrotechnical Committee. IF Intermediate Frequency: Usually refers to the 70 MHz or 140 MHz output of the Modulator in cable, satellite and terrestrial transmission applications.
Glossary LNB Low Noise Block Down-Converter: The component of a subscriber satellite transmission receiving dish which amplifies the incoming signal and down-converts it to a suitable frequency to input to the IRD (typically 950 MHz 1600 MHz). LO Local Oscillator. LSB Least significant bit. Luminance The television signal representing brightness, or the amount of light at any point in a picture. The Y in YCRCB.
Glossary NIT Network Information Table: Part of the service information data. The NIT provides information about the physical organisation of each transport stream multiplex, and the characteristics of the network itself (such as the actual frequencies and modulation being used). nm Nanometre: a unit of length equal to one thousand millionth (10-9) of a metre.
Glossary P-picture/P-frame A picture / frame produced using forward prediction. It contains predictions from either previous I frames or previous P frames. The P frame is used as a reference for future P or B frames. ppm Parts per million. PPV Pay Per View: A system of payment for viewing services based on a usage / event basis rather than on on-going subscription. Subscribers must purchase viewing rights for each PPV event that they wish to view. PPV events may be purchased as IPPV or OPPV.
Glossary 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. STT System Time Table (ATSC). SFN Single Frequency Network: The SFN technique allows large geographic areas to be served with a common transmission multiplex.
Glossary Transport Stream A set of packetised elementary data streams and SI streams, which may comprise more than one programme, but with common synchronisation and error protection. The data structure is defined in ISO/IEC 13818-1 [1] and is the basis of the ETSI Digital Video Broadcasting standards. Transport Stream Packet Header A data structure used to convey information about the transport stream payload. TS Transport Stream.
Annex B B. Technical Specification Contents B.1 Output B.1.1 B.1.2 B.1.3 B.1.4 ......................................................................B-3 Supported Video Resolutions .......................B-3 Supported Video Bit-rates ............................B-3 Performance Figures ....................................B-3 HD SDI .........................................................B-4 B.2 Audio Decoding and Output Stage............................B-4 B.2.1 General....................................
Technical Specification Table B.3: Analogue Audio Performance Specifications............... B-6 Table B.4: Supported Audio Specifications ................................... B-6 Table B.5: Supported Audio Data Bit-rates (MPEG-2) .................. B-7 Table B.6: QPSK Satellite Receiver Input Specification................ B-7 Table B.7: QPSK L-band Satellite Input — Eb/No Ratio ............... B-8 Table B.8: QPSK Bit-rate R188 Limits (Mbit/s).............................. B-9 Table B.
Technical Specification B.1 Output B.1.1 Supported Video Resolutions The IRD supports 4:2:0 MP@HL and 4:2:2 P@ML (TT1282 only) with video resolutions described in Table B.1. Table B.1: Supported Video Resolutions Input Resolutions (H x V) Frame Rates Output Format (H x V) Specification 1920 x 1080 23.976 1920 x 1080 SF SMPTE RP211 1440 x 1080 24 1920 x 1080 interlaced SMPTE 274M 1280 x 720 progressive SMPTE 296M 1280 x 1080 1920 x 1080 25 1440 x 1080 29.
Technical Specification B.1.4 HD SDI HD SDI output supports: • • • Embedded Decoded Audios Closed Captioning (EIA 708B) VITC B.2 Audio Decoding and Output Stage B.2.1 General The IRD is capable of simultaneously decoding two PES streams of audio from the transport stream.
Technical Specification It is possible to output the compressed Dolby Digital stream from the digital audio output, allowing it to be decoded to 5.1 channels by an external Decoder. Sampling rates (kHz): 32, 44.1, 48 Maximum compressed data rate: 640 kbit/s NOTE… Support for Dolby Digital decoding requires approval and licensing from Dolby. The compressed Dolby Digital stream is not embedded on the SDI output. B.2.
Technical Specification Table B.3: Analogue Audio Performance Specifications Parameter Conditions Limit Gain 0 dBm input level ±1 dB Frequency response 100 Hz - 15 kHz, 0 dBm input level ±0.2 dB 20 Hz - 20 kHz, 0 dBm input level +0.5 dB, -1 dB 0 dB input level, 100 Hz -80 dB 0 dB input level, 1 kHz -70 dB 0 dB input level, 10 kHz -60 dB +8 dBm input level, 100 Hz -70 dB +8 dBm input level, 6.
Technical Specification B.3.6 Supported Audio Bit-rates Table B.5: Supported Audio Data Bit-rates (MPEG-2) B.3.7 Mono kbit/s Stereo kbit/s Mono kbit/s Stereo kbit/s 32 64 96 192 48 96 112 224 56 112 128 256 64 128 160 320 80 160 192 384 Digital Audio Outputs Digital audio outputs comply with E1A-4221 and have a maximum data rate of 3.072 Mbit/s. Digital audio is output on two 9-way, D-type connectors. Audio output: balanced 2 – 7 volts. B.4 Input Specifications B.4.
Technical Specification Parameter Specification Modulation Signal type QPSK per EN 300 4213 Convolutional FEC rates 1/2, 2/3, 3/4, 5/6, 7/8 Symbol rate range Rs = 1.0 to 45.0 MSymbol/s Symbol rate step 1 Symbol/s Symbol rate lock range ± 120 ppm Bit-rate R188 range See Table B.8 for QPSK bit-rate R188 limits Eb/No ratio See Table B.7 Miscellaneous Phase noise tolerance SSB phase-noise power spectral density < K + 8.
Technical Specification Table B.8: QPSK Bit-rate R188 Limits (Mbit/s) FEC R188min R188max 1/2 1.000000 41.470588 2/3 1.228758 55.294118 3/4 1.382353 62.205882 5/6 1.535948 69.117647 7/8 1.612745 72.573529 LNB Power and Control The IRD provides LNB power and control signals through the active RF input connector. LNB power and controls are enabled through the Satellite Input Menu, see Annex C, Menus. The IRD supports voltage controlled LNBs only.
Technical Specification B.4.2 HOM Satellite Receivers General Table B.
Technical Specification Table B.11: L-band Satellite Input — Eb/No Ratio Convolutional FEC Rate Eb/No Ratio (dB) in IF Loop for correct MPEG-2 system operation 1/2 QPSK 4.5 2/3 QPSK 5.0 3/4 QPSK 5.5 5/6 QPSK 6.0 7/8 QPSK 6.4 2/3 8PSK 6.9 5/6 8PSK 8.9 8/9 8PSK 9.4 3/4 16QAM 9.0 7/8 16QAM 10.7 Eb/No ratio is referred to user bit-rate Ru188. See EN 300 421 specification.
Technical Specification B.4.3 DVB-S2 Satellite Receivers General Table B.
Technical Specification Parameter Specification QPSK LDPC FEC rates 1/2, 3/5, 2/3, 3/4, 4/5, 5/6, 8/9. 9/10 8PSK, LDPC FEC rates 3/5, 2/3, 3/4, 5/6, 8/9, 9/10 LDPC FEC Frame length Normal Pilot tones Automatic detection Symbol rate range Rs = 5 to 31 MSymbol/s Symbol rate step 1 Symbol/s Symbol rate lock range ± 100 ppm Maximum Channel bit rate 90 Mbit/s Maximum user bit rate 81 Mbit/s Es/No (C/No) ratio See Table B.
Technical Specification Eb/No ratio is referred to user bit-rate Ru188. See EN 300 421 specification. For more detailed specification information and advice on performance in specific applications, please contact TANDBERG Television Customer Services. Table B.15: DVB-S2 Satellite Receiver Input – DVB-S2 Es/No Ratio LDPC FEC Rate DVB-S2 Theoretical13 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.
Technical Specification Table B.16: LNB Power and Control Parameter Specification Voltage V (nominal) Receiver Polarisation14 13 Vertical/circular right 18 Horizontal/circular left Voltage B.4.4 Current 350 mA maximum LNB control 22 ± 2 kHz tone Tone amplitude 0.65 ±0.2 Vp-p Boost voltage 1 V typical TTV G.703 (DS3 and E3) OTTV G.703 (DS3 and E3) (Option Card) Table B.17: TTV G.
Technical Specification B.4.7 Input Specification Safety status SELV Connector type 8 way RJ-45 Connector Designation 10/100 BT Signal Type 10/100BaseT Ethernet (IEEE 802.3/802.3u) Data Rate 1.5 – 50 Mbit/s SSI Input (SMPTE 310M) Table B.20: SSI Input (SMPTE 310M) Specifications B.4.8 Input Specification Safety status SELV Connector type BNC, Female Input impedance 75 Ω Data Rate Range 0 – 19.
Technical Specification Connector type 15-way D-type Connector designation Video Out Video standards 1080 interlaced Video level (luminance) 700 mV ± 30 mV Reference Guide: TT128x High Definition Professional Receiver/Decoder ST.RE.E10141.
Technical Specification Digital Video Table B.23: Digital Video Output Connectors B.5.2 Item Specification Safety status SELV Connector type BNC, Female, 75 Ω Connector designation HD SDI 1 HD SDI 2 Output standard (USA) ANSI/SMPTE 292M SDI output level 800 mV pk-pk nominal ±10% Jitter Performance, Nominal SMPTE Recommended Practices RP 192 –1996 Jitter Measurement Procedures in Bit-Serial Digital Interfaces Audio Outputs Table B.
Technical Specification Table B.26: RS-422 Synchronous (High-speed) Data Connector Item Specification Safety status SELV Connector type 9-Way D-type Connector designation RS232/RS422 DATA OUT Data-rates (bit/s) Integer multiples of 56 kbit/s and 64 kbit/s Standards EIA RS-422/ ITU-T V.11 Line length < 1200 metres High-Speed Data over Ethernet This connector is located at the back of the unit using the RJ-45 Ethernet port and is enabled through the licence key (TT1280/SWO/HSETHER). Table B.
Technical Specification Item Specification Maximum Switching Voltage 50 Vdc / 30 Vac Maximum Switching Power 24 W / 60 VA Minimum Switching Load 0.1 mA, 100 mVdc B.6 Environmental B.6.1 Conditions Table B.30: Environmental Conditions Operational Specification Temperature 0°C to +50°C ambient air temperature with free airflow Humidity 0% to 95% (non-condensing) Cooling requirements Convection cooling/free airflow Handling/movement Fixed (non-mobile) use only Storage/Transportation B.6.
Technical Specification B.7 Power Supply B.7.1 AC Mains Input This equipment is fitted with a wide-ranging power supply. It is suitable for supply voltages of 100-120 Vac -10% +6% or 220-240 Vac -10% +6% at 50/60 Hz nominal. Table B.32: AC Power Supply Specification Item Specification Power distribution system Type TN ONLY (EN 60950 para 1.2.12.
Technical Specification B.7.2 DC Supply Input (-48 V Version) NOTES... 1. Only models TT1280/CIBAS/48V, TT1280/DIRBAS/48V, TT1282/CIBAS/48V and TT1282/DIRBAS/48V use a DC power supply. 2. Ensure correct polarity is maintained. 3. The unit must have a protective earth. Table B.33: DC Power Supply Specification Item Specification Rated voltage For connection to –48 Vdc supplies only. (PSU input tolerance –40 to –60 Vdc). Correct polarity must always be observed.
Technical Specification B.9 Compliance15 B.9.1 Safety This equipment has been designed and tested to meet the requirements of the following: EN 60950 European Safety of information technology equipment. IEC 60950 International Safety of information technology equipment. In addition, the equipment has been designed to meet the following: UL 60950 B.9.2 USA Safety of information technology equipment.
Technical Specification B.9.3 CE Marking The CE mark is affixed to indicate compliance with the following directives: 89/336/EEC of 3 May 1989 on the approximation of the laws of the Member States relating to electromagnetic compatibility. 73/23/EEC of 19 February 1973 on the harmonisation of the laws of the Member States relating to electrical equipment designed for use within certain voltage limits.
Annex C C. Menus Contents C.1 LCD Menus ...............................................................C-3 C.1.1 Using the Menus...........................................C-3 C.1.2 Menu Descriptions........................................C-3 C.2 Menu Pages - Main Menu.........................................C-3 C.3 The Menu Structure ..................................................C-4 C.4 Presets Menu Items (Menu 1)...................................C-5 C.5 Input Status Menu (Menu 2)......................
Menus Table C.21: Output Connector Selector Submenu......................C-14 Table C.22: Alarms Menu............................................................C-15 Table C.23: Transport Stream Alarm Setup Menu......................C-15 Table C.24: Video Alarm Setup Menu.........................................C-16 Table C.25: Audio 1 Alarm Setup Menu......................................C-16 Table C.26: Audio 2 Alarm Setup Menu......................................C-17 Table C.
Menus C.1 LCD Menus C.1.1 Using the Menus Detailed description of the use of menus is given in Chapter 3, Operating the Equipment Locally. C.1.2 Menu Descriptions This annex describes the front panel LCD menus. When the unit is first powered up, it progresses through a series of start-up pages on the LCD display. The menu is created in a tree structure, where each branch may contain items, new branches, or both.
Menus C.3 The Menu Structure SWITCH ON Boot Screen 1. Presets 1 Presets Select 1.1 Presets Save TT1280 1 Preset Menu 2 Input Menu 3 Service Menu 4 Conditional Access Menu 5 TS Output Menu 6 Alarms Menu 7 Systems Menu 7. System 6.1 6.2 6.3 6.4 6.5 6.6 6.7 2. Input (QPSK, HOM, G.703 or IP) 3. Service Selection Section C.8 Transport Stream alarm setup Video alarm setup Audio 1 alarm setup Audio 2 alarm setup MER alarm setup BER alarm setup Temperature alarm setup 5. TS Output Section C.7 5.
Menus C.4 Presets Menu Items (Menu 1) The Presets menu contains up to 40 editable preset numbers in the range 01 – 40. Selecting a Service via the Presets menu automatically reconfigures the input of the IRD. Each preset can have a selected language, network name and service provider associated with it. Table C.
Menus C.5.3 SSI Menu When the SSI (SMPTE 310) source is selected this menu allows the user to monitor the signal lock status. Table C.5: Input Selection Menu C.5.4 Display Title: SMPTE 310 Description WWWWWWWWWW Displays the signal lock status (LOCKED, NOT LOCKED). QPSK Satellite Option Menu When a QPSK Input interface is used, the Input menu allows the user to edit the QPSK parameters. Table C.6: QPSK Satellite Menu Display Title: Input Description Quality PV BER -1 -3 -5 1.
Menus C.5.5 HOM Satellite Option Menu When a Higher Order Modulation Input interface is used, the Input menu allows the user to edit the HOM parameters. Table C.7: HOM Satellite Menu Display Title: Input Description Quality PV BER -1 -3 -5 XX.LX E-8 XXXXXXXXXXXXXX XXXXXXXXXXXXXXX is a bar-graph indicating the current level (10 x –1 to –5 range) XXXXXXXX Eb/N0 XXX.X is a measure of the signal to noise ratio (first X is + or -) XXX.
Menus C.5.6 TTV G.703 (DS3 and E3) Option Menu When a TTV G.703 input interface is used, the Input menu allows the user to edit the set-up parameters Table C.8: TTV G.703 Menu Display Title: Input Description STATUS PDH Rate XXXXX is the framing mode of the TTV G.703 input module (None, C-Bit, M13) XXXXX RANDOMISATION XXXX XXXX (ACTIVE, NOT ACTIVE) STUFFING PKTS YYYY YYYY (PRESENT, NOT PRESENT) SETUP REED-SOLOMON DECODER XXXXX is the EDITABLE Reed-Solomon option.
Menus C.6 Service Menu (Menu 3) C.6.1 Overview The Service menu allows access to the currently available services. This group provides a summary of the data streams associated with the decoded service. In the case of multiple streams of the same component type, each stream can be selected independently. After making a selection (in EDIT mode using page 1), and selecting the required component data streams (using the other pages), pressing SAVE makes it the current service.
Menus Display Title: Video Description GOP Structure Y…..Y Pixel Aspect Ratio YYY Y…..Y video GOP structure and length YYY is the current video aspect ratio (16:9) Rate Buffer Level XXX% XXX is the current video rate buffer level fill percentage Bit-rate YY.YY Mbit/s YY.
Menus C.6.3 Audio 1 Menu The Audio 1 signal status submenu contains information about the audio format and status of the currently decoded audio stream on the primary audio output. Table C.12: Audio 1 Menu Display Title: Audio 01 Description Bit-rate YYY kbit/s XX is the number of Audio streams present YYYY is the currently selected audio1 PID ZZZZ is the stream status (OK, STOP, FAIL) VVV is the audio layer (MUS, LIN, DD) WWWWWWW is the audio language XX.
Menus C.6.5 Async Data Menu The Async Data submenu allows status monitoring and configuration of the low speed data. Table C.14: Async Data Menu Display Title: Async Data Description WW Streams PID XXXX WW is the number of Low speed data streams present XXXX is the currently selected LSD PID YYYYYYYYYYY is the stream status (PRESENT, NOT PRESENT) YYYYYYYYYYY Bit-rate YYYYYYYY ZZZZ C.6.
Menus C.6.8 VBI Menu The VBI status submenu displays the current status of the VBI components. NOTE… The VITC menu functionality is not supported in software version 1.0.0. Table C.17: VBI Menu Display Title: VBI Description Closed Captions XXXXXXXXXXX XXXXXXXXXXX indicates the presence of Closed Captions (PRESENT, NOT PRESENT) YYYYYYY is the editable parameter for enabling Closed Captions pass through (ENABLED, DISABLED) ZZZZ indicates the status of the output (OK, STOP, FAIL) YYYYYYY ZZZZ C.6.
Menus C.7 Transport Stream Output Menu C.7.1 Overview The Transport Stream Output submenu allows editing of the position of the ASI output. Table C.20: Transport Stream Output Menu C.7.2 Display Title: Transport Stream Output Description XXXXXXXXXXX Position of TS output (POST INPUT, POST ES DESCRAMBLE, POST TS DESCRAMBLE). Output Connector Selector Submenu This menu allows editing of the output connector functionality. Table C.
Menus C.8 Alarms Menu (Menu 6) C.8.1 Overview The Alarms menu provides a summary of the alarm status. Table C.22: Alarms Menu C.8.2 Display Title: Alarms Description Section Transport Stream Alarm Setup Transport Stream alarm and relay settings. C.8.2 Video Alarm Setup Video alarm and relay settings. C.8.3 Audio 1 Alarm Setup Audio 1 alarm and relay settings. C.8.4 Audio 2 Alarm Setup Audio 2 alarm and relay settings. C.8.
Menus C.8.3 Video Alarm Setup Menu Table C.24: Video Alarm Setup Menu Display Title: Description IF VIDEO NOT RUNNING YYYYYYYYYYYYYY is editable: YYYYYYYYYYYYYY NO ALARM SET ALARM ONLY SET ALARM AND RELAY 1 SET ALARM AND RELAY 2 SET ALARM AND RELAY 3 SET ALARM AND RELAY 4 SET RELAY 1 ONLY SET RELAY 2 ONLY SET RELAY 3 ONLY SET RELAY 4 ONLY C.8.4 Audio 1 Alarm Setup Menu Table C.
Menus C.8.5 Audio 2 Alarm Setup Menu Table C.26: Audio 2 Alarm Setup Menu Display Title: Description IF AUDIO 02 NOT RUNNING YYYYYYYYYYYYYY is editable: YYYYYYYYYYYYYY NO ALARM SET ALARM ONLY SET ALARM AND RELAY 1 SET ALARM AND RELAY 2 SET ALARM AND RELAY 3 SET ALARM AND RELAY 4 SET RELAY 1 ONLY SET RELAY 2 ONLY SET RELAY 3 ONLY SET RELAY 4 ONLY C.8.6 Satellite BER Alarm Setup Menu Table C.
Menus C.8.7 MER Alarm Setup Menu Table C.28: MER Alarm Setup Menu Display Title: Description IF MER LESS THAN XX.X YYYYYYYYYYYYYY is editable 0 to 69.9: YYYYYYYYYYYYYY NO ALARM SET ALARM ONLY SET ALARM AND RELAY 1 SET ALARM AND RELAY 2 SET ALARM AND RELAY 3 SET ALARM AND RELAY 4 SET RELAY 1 ONLY SET RELAY 2 ONLY SET RELAY 3 ONLY SET RELAY 4 ONLY C.8.8 Temperature Alarm Setup Menu Table C.
Menus C.9 System Menu (Menu 7) C.9.1 Setup Menu The Setup submenu allows the user to edit the operating mode, LCD contrast, serial remote protocol, IP address, subnet mask, service hunt mode, and the customisation key. Table C.
Menus C.9.2 IRD Details Menu The IRD Details submenu displays the software, firmware, hardware, PLD version and electronic serial number of the IRD. Table C.31: IRD Details Menu Display Title: IRD Details Description Electronic Serial Number XXXXX is the unit serial number XXXXX Software Version XX.XX.XX is the software version number XX.XX.XX Firmware Versions XX.XX is the firmware 1 version number XX.XX XX.
Annex D D. Language Abbreviations Languages are shown in alphabetical order.
Language Abbreviations The following non-ISO1 languages are supported. NOTE… Only applicable for a transport stream going to an Alteia Receiver.
Annex E E. Factory Defaults Units are shipped with the following factory default parameters. These can be restored at any time using the System Menu. All other parameters are unaffected by restoring the factory defaults. Menu Description Default #2 Input SELECT INPUT ASI #2 Input QPSK/8PSK/16 QAM SOURCE 1 LNB FREQUENCY 10750.0 MHz SATELLITE FREQUENCY 12168.0 MHz SYMBOL RATE 27.
Factory Defaults Menu Description Default CLIPPING LEVEL 18 dB AC3 DOWNMIX METHOD SURROUND STEREO ASYNC DATA ENABLED SYNC DATA (High Speed Ethernet Data Not Fitted) ENABLED ETH.
