Leitch Opus Master Control Product Manual
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Leitch Opus Master Control Product Manual

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Opus Master Control
Switcher
Product Guide
OPUS-BROCHURE
Edition B

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Summary of Contents for Leitch Opus Master Control

  • Page 1 Opus Master Control Switcher Product Guide OPUS-BROCHURE Edition B...
  • Page 2 Digital Glue, DigiWorks, DTV Glue, Engineering The Big Picture, EventWORKS, EZ HD, Focused on the Future, Genesis, HDTV Glue, HEDCO, Innovision, ISIS, JUNO, LeFont, Leitch, Leitch Network Systems, LNS, LogoMAX, LogoMotion, Media File, MediaPort, MIX BOX, Monarch, Motion File, OPUS, PanelMAPPER, , PROM-Slide, RouterWORKS,...
  • Page 3 About this Manual Purpose This guide provides an overview of the features, operational procedures, and specifications of the Opus Master Control Switcher. It is intended to help anyone responsible for system design customization. The complete Opus manual is supplied with the product. Writing Conventions To enhance your understanding, the authors of this manual have adhered to the following text conventions:...
  • Page 4 About this Manual Opus Product Guide...

  • Page 5: Table Of Contents

    Contents Chapter 1: Installation........1 General Installation ............1 Control Panel..............4 Layout ..............4 Power Supplies............5 Timecode..............5 Frame Design and Installation ........6 Modules..............8 Rear Connections...........9 Serial Ports .............9 Alarm Ports ............10 X-Y Ports..............11 External Interface using X-Y Ports......12 Audio Connections..........13 Audio Monitoring..........15 AES Audio 75 W Adapter........16 Embedded Audio..........18 Video Output ............19...
  • Page 6 Contents Breakaway ..............31 Source Breakaway ..........32 Transition Type Breakaway.........32 Transition Take Breakaway .........33 Keyer Control .............34 Keyer Setup ............34 Keyer Selection and Attributes ......35 Alphanumeric Displays/Potentiometer Functions............36 Audio Control.............39 Audio Over Setup ..........39 Audio Channels and Configuration ....40 Audio Control Operation ........41 Assignment &...
  • Page 7 Power Consumption..........61 Physical..............62 Chapter 5: Diagrams and Illustrations ....63 Opus Master Control Panel (Front)......64 Opus Master Control Panel (Rear) ......65 Opus Frame Rear Connections ........66 Single Frame & Panel Interconnections.....67 Connecting Multiple Frames & Panels Using a Hub.68 Frame Module Locations and Functions ....69 LED Status on Power Up ..........70...
  • Page 8 Contents viii Opus Product Guide...

  • Page 9: Chapter 1: Installation

    Chapter 1 Installation General Installation The basic Opus master control switcher consists of a frame and a control panel. A general installation overview is shown below: 1. Mount the Opus processor unit (frame) in an enclosure that provides power and cooling facilities. The frame is designed for mounting in a standard equipment rack (width 19 in., depth 24-30 in.).
  • Page 10 Chapter 1: Installation General Installation 3. Connect the control panel Ethernet port (ENET2) to the Ethernet port (ENET2) on the frame’s rear panel. This connection can be made via a hub using a straight through Ethernet cable or directly using a crossed Ether- net cable.
  • Page 11 Chapter 1: Installation General Installation Inputs: On the frame connect sources to inputs 1 through 16 (video & audio), to the key and fill inputs (video only), and to the audio over inputs (audio only). Outputs: Connect one of the outputs of the Opus master control to your transmitter path, the other may be used as an on-air monitor.

  • Page 12: Control Panel

    Chapter 1: Installation Control Panel Control Panel The Opus Master Control Switcher control panel is made up of source selections, transition control, and monitoring functions. Layout Figure 1-4. Opus Control Panel (front) Figure 1-5. Opus Control Panel (rear) Opus Product Guide...

  • Page 13: Power Supplies

    Chapter 1: Installation Control Panel Power Supplies The Opus control panel is fitted with two power supplies. The redundancy system is designed so that one power sup- ply is active at any given time. Upon failure of one power supply, the change over is instantaneous. The first supply to be powered up will become active.

  • Page 14: Frame Design And Installation

    Chapter 1: Installation Frame Design and Installation Figure 1-7. Timecode Connections Frame Design and Installation Frame Design Opus frames are designed for forced horizontal air flow cooling. The frame must be mounted in such a way as to create unrestricted air movement and no frame or wiring should be placed where it restricts air flow to the exhaust section.
  • Page 15 Chapter 1: Installation Frame Design and Installation Frame Installation Figure 1-9. Frame Installation Opus Product Guide...

  • Page 16: Modules

    Chapter 1: Installation Frame Design and Installation Modules Note: All standard The Opus frame is fitted with 3 power supply modules for modules (and any optional redundancy. modules ordered) are fully installed when the unit is shipped to the customer. Table 1-1.

  • Page 17: Rear Connections

    Chapter 1: Installation Frame Design and Installation Rear Connections Figure 1-10. Opus Frame Rear Connections Serial Ports Note: Both RS-232 and The serial ports on the frame allow external control of Opus RS-422 cables must be by computer and automation systems via serial connections shielded.

  • Page 18: Alarm Ports

    Chapter 1: Installation Frame Design and Installation Table 1-2. RS-232 and RS-422 Functions Pin RS-232 Function RS-422 Function Frame Ground Frame Ground RxD (Data received by router) Ts (Data sent by router) TxD (Data sent by router) Rb (Data received by router) Data Terminal Ready Rc (Receiver Common) Ground...

  • Page 19: X-Y Ports

    X-Y Ports The X-Y control bus is the high speed serial interface which interconnects Leitch routers and control panels. The X-Y control bus links multiple routers and control panels in a bus topology. Figure 1-13 highlights the control line (the bus) that daisy-chains each device together.

  • Page 20: External Interface Using X-Y Ports

    (up to a maximum of 16). External Router Control The X-Y port can be used with any Leitch router to expand the input source capability of Opus. The configuration is set using RouterMAPPER (version 5.00 or higher). The Opus control panel shows the source status of any reassigned inputs.

  • Page 21: Audio Connections

    Chapter 1: Installation Frame Design and Installation Audio Connections Note: All MCB-25 audio Figure 1-14. Basic Audio Inputs and Output cabling must be shielded. Opus Product Guide...
  • Page 22 Chapter 1: Installation Frame Design and Installation Please refer to Figure 1-15 and Figure 1-16 for AES input connections and AES output connections. Figure 1-15. AES Input Connections Figure 1-16. AES Output Connections Opus Product Guide...

  • Page 23: Audio Monitoring

    Chapter 1: Installation Frame Design and Installation Audio Monitoring Audio Connections for AES 4 Figure 1-17 is an illustration of the audio connections for AES 4. Please repeat these connections for AES 1-3. Figure 1-17. Audio Monitoring Opus Product Guide...

  • Page 24: Aes Audio 75 W Adapter

    Chapter 1: Installation Frame Design and Installation AES Monitor Connections Figure 1-18. AES Monitor Connections AES Audio 75 Ω Adapter The basic Opus AES audio input and output connections are balanced 110 Ω signals and use DB-25 connectors. The AES Audio 75 Ω adapter is a passive unit which allows the AES inputs and outputs to be converted to 75 Ω...
  • Page 25 Chapter 1: Installation Frame Design and Installation Figure 1-19. MCS-AES-75Ω Adapter (front/rear view) Figure 1-20. MCS-AES-75Ω and Frame (with ribbon) Opus Product Guide...

  • Page 26: Embedded Audio

    Chapter 1: Installation Frame Design and Installation Embedded Audio Figure 1-21. Embedded Audio Outputs For embedded audio operation, the optional MCS-GP-E-H(S) module needs to be fitted. The number of AES audio inputs is then reduced to 12 (Inputs 13-16 are reserved) and the embedded audio outputs become the main program outputs.

  • Page 27: Video Output

    Chapter 1: Installation Frame Design and Installation Video Output Figure 1-22. Video Outputs Figure 1-23. Reference Connections Opus Product Guide...

  • Page 28: Gpi/Gpo Connections

    Chapter 1: Installation Frame Design and Installation GPI/GPO Connections Figure 1-24. General Purpose Inputs/Outputs Opus Product Guide...
  • Page 29 Chapter 1: Installation Frame Design and Installation Figure 1-25. MCB-25 showing GPI/GPO Connections Opus Product Guide...

  • Page 30: Audio Configuration

    Chapter 1: Installation Audio Configuration Figure 1-26. GPI/GPO Details Audio Configuration The default audio configuration is as follows: Note: The default settings can be changed using • Input Resolution (20 bits) RouterMAPPER (version 5.00 or higher). • Output Resolution (20 bits) •...

  • Page 31: Frame And Control Panel Interconnections

    Chapter 1: Installation Frame and Control Panel Interconnections Frame and Control Panel Interconnections Note: If the PC or hub is The panel, frame, and PC for setup and use of RouterMAP- not used, connect the panel PER (version 5.00 or higher) are connected together as Ethernet 2 to the frame shown in Figure 1-27: Ethernet 2 using a twisted...
  • Page 32 Chapter 1: Installation Frame and Control Panel Interconnections The pin assignments to each Ethernet connection are listed in the following table: Table 1-3. Ethernet Connector Pin Assignments Function Transmit Data + Transmit Data - Receive Data + Not Used Not Used Received Data - Not Used Not Used...

  • Page 33: Chapter 2: Operation

    Chapter 2 Operation Overview The Opus master control is a state-of-the-art switcher. There are 14 clusters of buttons and keys on the panel, all of which are shown in Figure 2-1. Figure 2-1. Opus Control Panel Opus Product Guide...

  • Page 34: Preview, Program, And Preset

    Chapter 2: Operation Preview, Program, and Preset Preview, Program, and Preset There are three primary buses located in the centre of the master control panel, Aux Preview, Program and Preset, each with 16 pushbuttons. These 3 buses share 16 eight- character alphanumeric displays, which show thee of the source currently assigned to each of the inputs.

  • Page 35: Transition Control

    Chapter 2: Operation Transition Transition Control The Transition Control cluster (in the lower right-hand corner of the panel, directly below the Next Transition cluster) consists of five pushbuttons labeled, from left to right, PREROLL, TAKE, HOLD, SILENT, and FTB. These pushbuttons define the action of the master control switcher in terms of the state of the Program output upon execution of a transition.
  • Page 36 Chapter 2: Operation Transition pre-transition state. If this occurs during the count down period (prior to the actual start of the transition) then the transition does not occur. Note: If a source has not If PREROLL is assigned to a preset source, the tally illumi- been assigned a PREROLL nates to half brightness when that input is selected on the value then the PREROLL is...

  • Page 37: Next Transition

    Chapter 2: Operation Transition Next Transition The Next Transition cluster determines what type of tran- sition (if any) will occur when the TAKE button is selected. Transitions can be the background, keyers, audio overs, or any combination of the three. Figure 2-3.

  • Page 38: Transition Functions

    Chapter 2: Operation Transition Transition Functions The Transition Functions cluster consists of nine pushbut- tons and one eight-character alphanumeric display. The controls within this section are used to determine the type and rate of transition that will occur upon activation of the next transition.

  • Page 39: Breakaway

    Chapter 2: Operation Breakaway updated accordingly. The duration for each of the rates may be defined using the RouterMAPPER (version 5.00 or higher) settings. Breakaway The Breakaway cluster (located on the bottom row of the panel to the left of the Transition Functions cluster) con- sists of three pushbuttons that define the mode of source selection and/or transition function in terms of audio and video switching.

  • Page 40: Source Breakaway

    Chapter 2: Operation Breakaway tion on a bus) will cause the Breakaway tally to extinguish. If TAKE is pressed on a transition, it is started according to the Breakaway state, and the Breakaway tally turns off. Source Breakaway Note: Audio One is by Normally, the audio source selection follows the video default AES 1 and AES 2.

  • Page 41: Transition Take Breakaway

    Chapter 2: Operation Breakaway Transition Take Breakaway This can be selected by pressing one of the Breakaway but- tons and then pressing TAKE. This Breakaway is available as video or audio; selecting either AUDIO ONE or AUDIO TWO assigns the breakaway to audio. Selecting VIDEO and AUDIO Breakaway followed by the TAKE pushbutton results in a normal transition.

  • Page 42: Keyer Control

    Chapter 2: Operation Keyer Control Keyer Control The Keyer Control cluster (located above the Next Transi- tion cluster) consists of nine pushbuttons, three potentiom- eters, and three eight-character alphanumeric displays. Figure 2-6. Keyer Control Cluster Keyer Setup The two keyers each have an associated key and fill routing switcher bus, which, in turn, has four inputs (four ‘key’...

  • Page 43: Keyer Selection And Attributes

    Chapter 2: Operation Keyer Control The user must select the PRESET pushbutton to dis- play the next source on the key bus in the Preset win- source 2 dow (e.g., if is the current displayed source, selection of PRESET pushbutton will show the alpha- numeric for source 3).

  • Page 44: Alphanumeric Displays/Potentiometer Functions

    Chapter 2: Operation Keyer Control Alphanumeric Displays/Potentiometer Functions Upon initial selection of either KEY 1 or KEY 2, the three alphanumeric displays on the far right of the Keyer Control CLIP nnnn GAIN nnn TRSP nnn cluster will display , and ‘nnn’...
  • Page 45 Chapter 2: Operation Keyer Control HUE nnn • Refers to the value of the chrominance phase, ranging from 0 to 359 (with step resolution of 1). Each of the keyers may also have either a shadow or a bor- der added, although a keyer cannot have both simulta- neously.
  • Page 46 Chapter 2: Operation Keyer Control MATTE nnn • Ranges from 1 to 100, with step resolu- tion of 1, and acts as a mix function between grey tones and full matte. Selecting the MODIFY KEY Pushbutton The MODIFY KEY pushbutton enables selection of the invert key modifier.

  • Page 47: Audio Control

    Chapter 2: Operation Audio Control Audio Control The Audio Control cluster consists of 10 pushbuttons, 3 potentiometers, and 2 eight-character alphanumeric dis- plays. These allow for the control of audio attributes on the master control and are explored in greater details in the fol- lowing sections.

  • Page 48: Audio Channels And Configuration

    Audio Control cluster (assuming audio over control is assigned to the key that was changed). Audio Channels and Configuration The Opus master control switcher can accommodate up to four AES channels of audio, the equivalent of eight monau- ral channels. There are four channel select pushbuttons within the Audio Control cluster: CH 1/2, CH 3/4, CH 5/6, and CH 7/8 (AES channels 1, 2, 3, and 4, respectively).

  • Page 49: Audio Control Operation

    Chapter 2: Operation Audio Control Table 2-2. Audio Channel Assignments Pushbutton Assignment CH 3/4 AES Channel 2 CH 5/6 AES Channel 3 CH 7/8 AES Channel 4 It is important to remember that some control attributes are applicable to the individual channels within an AES audio channel, while some are only applicable to the overall AES audio channel.
  • Page 50 Chapter 2: Operation Audio Control In the PST control mode the lower display is used to indi- cate the current Preset source gain. In the Audio Over mode the lower display is used to indicate the audio gain for the current audio over source or the last adjusted ratio. Pro- PgmLvL gram Level is indicated in the upper display as the lower display shows the current program level output.
  • Page 51 Chapter 2: Operation Audio Control Phase Reverse The PHASE REV pushbutton acts on either of the two channels that make up an AES pair. The particular source and channel affected by the PHASE REV control is deter- mined by the current selection, made using the PST or AUDIO OVER pushbuttons in conjunction with a channel select pushbutton.

  • Page 52: Assignment & Setup

    Chapter 2: Operation Assignment & Setup Assignment & Setup The Assignment & Setup cluster allows the user to setup a variety of parameters and configurations as indicated in the previous sections. The Assignment & Setup cluster con- sists of pushbuttons (numerical, alphabetical), and three eight-character alphanumeric displays.
  • Page 53 Chapter 2: Operation Assignment & Setup sets of outputs for the Program bus, labeled PGM1 and PGM2 (on the rear connector panel). Normally, Program Special will be fed from the main output in exactly the same manner as the Program. If PGM SPECIAL is activated, the internal Program Special bus will immediately switch to the source currently selected on the Program bus.
  • Page 54 Pressing the TAKE pushbutton will transfer the value in the Preset window to the Status window. Master Assign Pushbutton The Opus master control switcher has the ability to accom- modate multiple control panels and frames on a dedicated ethernet connection. This provides the customer the ability to utilize control panels and frames in an ‘n’...

  • Page 55: Clock And Timer

    Chapter 2: Operation Clock and Timer Clock and Timer The Clock and Timer cluster consists of 2 eight-character displays labeled Clock and Timer respectively, and 5 push- buttons. The internal clock can either freerun or display the time code input into the panel. Figure 2-9.
  • Page 56 Chapter 2: Operation Clock and Timer Clock Setup Using the TIME SETUP Pushbutton CLOCK Selecting the TIME SETUP pushbutton causes to be displayed in the Function display, and TIMECODE FRE- ERUN to be displayed in the Status display. The user can cycle through the input options by pressing the pushbutton labeled RECALL/NEXT.
  • Page 57 Chapter 2: Operation Clock and Timer • START / STOPThis pushbutton operates in toggle fashion and allows the timer to be alternately started or stopped; the value of the display is not affected by the operation of this pushbutton. Note: The Auto feature is •...

  • Page 58: Machine Control

    Chapter 2: Operation Machine Control Machine Control The Machine Control cluster consists of 7 pushbuttons. These pushbutton controls are intended to be utilized with external playback/record machines. The pushbuttons are graphically labeled to represent (from left to right): ‘play,’ ‘stop,’ CUE, MARK, ‘blank,’ ‘rewind,’ and ‘fast forward.’ Figure 2-10.

  • Page 59: Monitor Control

    Chapter 2: Operation Monitor Control Monitor Control The Monitor Control cluster consists of 10 pushbuttons and an audio bar graph display meter. The row of 10 push- buttons is used to select the source for the Monitor bus out- put (note that this selection is always married; i.e., audio and video switch together).

  • Page 60: Non-Sync Operation

    The alternative (automatic) to a mix transition is a V fade for both audio and video. System Timing The Opus master control switcher allows system timing to be set from the control panel. The process is password pro- tected, however.

  • Page 61: Chapter 3: Configuration

    Chapter 3 Configuration The Opus master control switcher is configured using Rou- terMAPPER™ (version 5.00 or higher) software. For more information about this application please refer to the Rour- terMapper manual. RouterMAPPER allows the user to Primary Input • Set up source name •...

  • Page 62: Audio Over

    Chapter 3: Configuration Audio Over • On-air source lockout • Define names and GPI / GPO assignments for external keyers Audio Over • Set up source name • Define the audio over source as a machine • Enable / disable the audio over Next Transition controls Audio I/O...

  • Page 63: Gpo

    Chapter 3: Configuration Assign each of the 36 general purpose outputs (GPO) Genlock • Define the operating standard • Define the reference types • System timing Misc. • Define each Quick Select as to what will be stored / recalled •...
  • Page 64 Chapter 3: Configuration Master Assign Opus Product Guide...

  • Page 65: Chapter 4: Technical Specifications

    Chapter 4 Technical Specifications SDTV 270 Mb/s, 525/625, per SMPTE 259M Connector BNC per IEC 169-8 Impedance 75 Ω Equalization Automatic up to 100m of Belden 1694 HDTV 1.485Gb/s serial, per SMPTE 292M • 1080i per SMPTE 296M-1999 • 720p per SMPTE 274M •...

  • Page 66: Gpi

    Chapter 4: Technical Specifications 4 Fill 2 Preset 5 Monitor 2 Clean Feed 1 Squeeze Background2 Monitor 1 Preview 6 Auxiliary 1 Squeeze Monitor Input Quantity Polarity Insensitive Type Optically isolated Voltage Range5 to 15 V nominal, 24 V maximum Current Range4 to 14mA, 50mA maximum Sensitivity 150ns latch time, nominal...

  • Page 67: Audio

    Chapter 4: Technical Specifications Audio AES Input and Output 48KHz per AES3-1992 20/24 bit operation selectable Channels 4 (4 stereo pairs) Connector 25-pin “D” type (MCB-25 breakout included) Levels 4 AES audio levels standard Embedded Input and Output Per SMPTE 272M for SD video Per SMPTE 299M for HD video 4 Channel 2 groups...

  • Page 68: Audio Connections

    Chapter 4: Technical Specifications 92dB (unweighted) THD+N -80dB Crosstalk >80dB isolation <0.005%, +24 dBu, Hi-Z or 600 W Dynamic Range100dB Audio Connections Inputs: Outputs: 16 Primary 1 Program 8 Over 2 Program Special 5 Monitor 1 Preset 2 Clean Feed 1 Preview 2 Monitor External References...

  • Page 69: Control Panel Interfaces

    Chapter 4: Technical Specifications 1 Terminating Audio Reference • AES3 per AES11-DARS (48KHz) BNC per IEC 169-8 (75 Ω, unbalanced) Connector • Connector 25-pin “D” type (MCB-25 breakout included) Control Panel Interfaces The audio display shows both a VU characteristic level and a PPM level while following industry accepted standards for such measurements.

  • Page 70: Physical

    Chapter 4: Technical Specifications Physical Frame General 6RU, 19-in. (48.3 cm) rack mountable chassis Dimensions 17.50 in. W x 15.83 in. D x 10.47 in. H (44.5 cm W x 40.2 cm D x 26.6 cm H) Weight 55 lb. (25kg) fully loaded Control Panel Dimensions: Surface...

  • Page 71: Chapter 5: Diagrams And Illustrations

    Chapter 5 Diagrams and Illustrations This section contains illustrations that display various Opus features and configurations: • Opus Master Control Panel (Front) • Opus Master Control Panel (Rear) • Opus Frame Rear Connections • Single Frame & Panel Interconnections •...

  • Page 72: Opus Master Control Panel (Front)

    Chapter 5: Diagrams and Illustrations Opus Master Control Panel (Front) Opus Master Control Panel (Front) Opus Product Guide...

  • Page 73: Opus Master Control Panel (Rear)

    Chapter 5: Diagrams and Illustrations Opus Master Control Panel (Rear) Opus Master Control Panel (Rear) Opus Product Guide...

  • Page 74: Opus Frame Rear Connections

    Chapter 5: Diagrams and Illustrations Opus Frame Rear Connections Opus Frame Rear Connections Opus Product Guide...

  • Page 75: Single Frame & Panel Interconnections

    Chapter 5: Diagrams and Illustrations Single Frame & Panel Interconnections Single Frame & Panel Interconnections Opus Product Guide...

  • Page 76: Connecting Multiple Frames & Panels Using A Hub.68

    Chapter 5: Diagrams and IllustrationsConnecting Multiple Frames & Panels Using a Hub Connecting Multiple Frames & Panels Using a Opus Product Guide...

  • Page 77: Frame Module Locations And Functions

    Chapter 5: Diagrams and Illustrations Frame Module Locations and Functions Frame Module Locations and Functions Opus Product Guide...

  • Page 78: Led Status On Power Up

    Chapter 5: Diagrams and Illustrations LED Status on Power Up LED Status on Power Up Opus Product Guide...

  • Page 79: Video Functional Diagram (Overall)

    Chapter 5: Diagrams and Illustrations Video Functional Diagram (Overall) Video Functional Diagram (Overall) Opus Product Guide...

  • Page 80: Module Interconnections

    Chapter 5: Diagrams and Illustrations Module Interconnections Module Interconnections Opus Product Guide...

  • Page 81: Video Functional Diagram (Representative)

    Chapter 5: Diagrams and Illustrations Video Functional Diagram (Representative) Video Functional Diagram (Representative) Opus Product Guide...

  • Page 82: Audio Functional Diagram (Representative)

    Chapter 5: Diagrams and Illustrations Audio Functional Diagram (Representative) Audio Functional Diagram (Representative) Opus Product Guide...

  • Page 83: Mcs-Mk I/O Submodule Locations (Top)

    Chapter 5: Diagrams and Illustrations MCS-MK I/O Submodule Locations (Top) MCS-MK I/O Submodule Locations (Top) Opus Product Guide...

  • Page 84: Mcs-Mk I/O Submodule Locations (Bottom)

    Chapter 5: Diagrams and Illustrations MCS-MK I/O Submodule Locations (Bottom) MCS-MK I/O Submodule Locations (Bottom) Opus Product Guide...

  • Page 85: Mcs-Mk Signal Flow

    Chapter 5: Diagrams and Illustrations MCS-MK Signal Flow MCS-MK Signal Flow Opus Product Guide...

  • Page 86: Mcs-Mk Block Diagram (Representative)

    Chapter 5: Diagrams and Illustrations MCS-MK Block Diagram (Representative) MCS-MK Block Diagram (Representative) Opus Product Guide...

  • Page 87: Mcs-Fx-S (-2) Submodule Locations (Top)

    Chapter 5: Diagrams and Illustrations MCS-FX-S (-2) Submodule Locations (Top) MCS-FX-S (-2) Submodule Locations (Top) Opus Product Guide...

  • Page 88: Mcs-Fx-S (-2) Block Diagram (Representative)

    Chapter 5: Diagrams and Illustrations MCS-FX-S (-2) Block Diagram (Representative) MCS-FX-S (-2) Block Diagram (Representative) Opus Product Guide...

  • Page 89: Mcs-Gp-E I/O Submodule Locations (Top)

    Chapter 5: Diagrams and Illustrations MCS-GP-E I/O Submodule Locations (Top) MCS-GP-E I/O Submodule Locations (Top) Opus Product Guide...

  • Page 90: Mcs-Gp-E I/O Submodule Locations (Bottom)

    Chapter 5: Diagrams and Illustrations MCS-GP-E I/O Submodule Locations (Bottom) MCS-GP-E I/O Submodule Locations (Bottom) Opus Product Guide...

  • Page 91: Embedded Audio Block Diagram

    Chapter 5: Diagrams and Illustrations Embedded Audio Block Diagram Embedded Audio Block Diagram Opus Product Guide...

  • Page 92: Mcs-Hd16-Aes Block Diagram (Representative)

    Chapter 5: Diagrams and Illustrations MCS-HD16-AES Block Diagram (Representative) MCS-HD16-AES Block Diagram (Representative) Opus Product Guide...

  • Page 93: Chapter 6: Ordering Information

    Opus SD master control switcher, complete with frame and panel Opus Line Items MCS-HD16-FR Opus HD, frame only MCS-SD16-FR Opus SD, frame only MCS-RCP Opus master control panel only Opus Optional Items MCS-BC-S Opus SD key border/shadow submodules Opus Product Guide...
  • Page 94 Chapter 6: Ordering Information Opus Optional Items MCS-FX-S Opus SD effects module MCS-FX-S-2 Opus SD two channel effects submodule MCS-GP-E-S-U Opus SD embedded audio MCS-2A-U Opus analog audio 110 to 75 Ω 1RU conversion frame (one per AES channel) MCS-AES-75 SPT- RS-422 machine control adapter LXYTOSONY...

  • Page 95: Opus Field Options / Spares

    Chapter 6: Ordering Information Opus Field Options / Spares Opus Field Options / Spares MCS-FX-S-2U Opus SD second effects channel upgrade MCS-GP-E-S Opus SD embedded audio module MCS-FX-H-2U Opus HD second effects channel upgrade MCS-GP-E-H Opus HD embedded audio module MCS-2A Opus analog audio module MCS-SD-KIT...
  • Page 96 Chapter 6: Ordering Information Opus Field Options / Spares Opus Product Guide...
  • Page 97 • The same period as the hardware Product warranty for media of software licensed as an integral part of any Leitch hardware Product, and encoding created by Leitch as physically affixed on or embedded in such media;...

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