DOCSLIB.ORG

Smart Videohub – Tech Specs | Blackmagic Design

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Smart Videohub – Tech Specs | Blackmagic Design Product Technical Specifications Smart Videohub 12G 40x40 Advanced 12G-SDI video router supports any SD, HD or Ultra HD SDI format on the $4,995 same router at the same time. Smart Videohub 12G 40x40 features 40 inputs and 40 outputs and includes video reference, redundant power connections and an elegant machined metal front panel with large full HD LCD for monitoring and routing label display. Routing can be performed by direct button selection and the spin knob controller. 12G-SDI technology supports all SDI video standards up to 2160p60. Connections SDI Video Inputs Reference Inputs Updates 40 x 10-bit SD-SDI, HD-SDI and 12G‑SDI. Tri-Sync or Black Burst. USB SDI Video Outputs Reference Outputs Front Panel Router Control 40 x 10-bit SD-SDI, HD-SDI and 12G‑SDI. Reference terminating loop output. 40 buttons for local control of Videohub. 6 buttons and scroll wheel SDI Rates Control Panel Connection for control of LCD display or RJ45 DVB-ASI, 270Mb, 1.5G, 3G, 6G, 12G. Ethernet. Ethernet. RS-422. Video Input Re-Sync Serial Control Connection Router Configuration None. DB-9 RS-422. Via front panel LCD or RJ45 Ethernet. SDI Reclocking Multi Rate Support RS-422 Router Control On all SDI outputs. Auto detection of SD, HD or 6G-SDI. 1 x input for controlling router Simultaneous routing of 4K, HD, SD crosspoint switching. video and DVB-ASI. Smart Videohub 12G 40x40 - Technical Specifications Page 1 of 4 Standards SD Video Standards Ultra HD Video Standards SDI Audio Sampling 525i59.94 NTSC, 625i50PAL 2160p23.98, 2160p24, 2160p25, Television standard sample rate of 2160p29.97, 2160p30, 2160p50, 48kHz and 24-bit. HD Video Standards 2160p59.94, 2160p60 720p50, 720p59.94, 720p60 SDI Color Precision 1080p23.98, 1080p24, 1080p25, 4K Video Standards 10-bit 4:2:2 and 4:4:4 1080p29.97, 1080p30, 1080p50, 4K DCI 23.98p, 4K DCI 24p, 4K DCI 1080p59.94, 1080p60 25p, 4K DCI 29.97p, 4K DCI 30p, 4K SDI Color Space 1080PsF23.98, 1080PsF24, 1080PsF25, DCI 50p, 4K DCI 59.94p, 4K DCI 60p YUV or RGB 1080PsF29.97, 1080PsF30 1080i50, 1080i59.94, 1080i60 SDI Compliance SDI Auto Switching SMPTE 259M, SMPTE 292M, SMPTE Automatically selects between SD-SDI, 2K Video Standards 296M, SMPTE 372M, SMPTE 424M, HD-SDI, 12G-SDI and DVB-ASI on each 2K DCI 23.98p, 2K DCI 24p, 2K DCI 25p SMPTE 425M Level A and B, SMPTE input so that each input can be 2K DCI 23.98PsF, 2K DCI 24PsF, 2081-1, SMPTE 2081-10, SMPTE running a different television 2K DCI 25PsF 2082-1, SMPTE 2082-10, ITU-R BT.656 standard. and ITU-R BT.601 SDI Metadata Support SDI Video Sampling Video payload identification ancillary 4:2:2 and 4:4:4 data as per SMPTE 352M. Smart Videohub 12G 40x40 - Technical Specifications Page 2 of 4 Control Built in Control Panel External Control Panel 40 buttons for local control of Videohub Includes Blackmagic Videohub with 6 buttons and scroll wheel for menu software control panel for Mac and control. 5 inch color display. Windows. Supports Blackmagic Smart Control and Blackmagic Master Control hardware panels. Includes Blackmagic Videohub SDK and Ehternet Videohub Control Protocol. Software Software Control Internal Software Upgrade Router control included free for Via included updater application. Windows™ and Mac™. Operating Systems Mac 10.12 Sierra, Windows 8.1 or Mac 10.13 High Sierra Windows 10. or later. Display Displays Built in 5 inch LCD for video and menu settings. Power Requirements Power Supply Power Fail Protection 2 x Internal 90 - 240V AC. IEC power Crosspoint connections preserved cables required. and restored instantly at power on. Physical Specifications Smart Videohub 12G 40x40 - Technical Specifications Page 3 of 4 Physical Installation 2 rack unit size. Less than 6 inches deep. Environmental Specifications Operating Temperature: Storage Temperature: Relative Humidity: 0° to 40° C (32° to 104° F) -20° to 45° C (-4° to 113° F) 0% to 90% non-condensing What's Included Smart Videohub 12G 40x40 SD card with software and manual Warranty 3 Year Limited Manufacturer's Warranty, and 12 Month Warranty on the front panel. All items on this website are copyright Blackmagic Design Pty. Ltd. 2018, all rights reserved. All trademarks are property of their respective owners. MSRP excludes sales taxes/duties and shipping costs. This website uses remarketing services to advertise on third party websites to previous visitors to our site. You can opt out at any time by changing cookie settings. Privacy Policy Blackmagic Design Authorized Reseller Smart Videohub 12G 40x40 - Technical Specifications Page 4 of 4.
Load more

Recommended publications
  • User Requirements for Video Monitors in Television Production
    EBU – TECH 3320 User requirements for Video Monitors in Television Production Source: P/Display Version 1.0 Geneva May 2007 1 Page intentionally left blank. This document is paginated for recto-verso printing Tech 33xx User requirements for Video Monitors in Television Production Contents Scope .............................................................................................................. 5 1. Definition of a Grade 1 monitor ......................................................................... 5 2. Definition of a Grade 2 monitor ......................................................................... 5 3. Definition of a Grade 3 monitor ......................................................................... 6 4. Special application of displays ........................................................................... 6 4.1 Viewfinder monitors.................................................................................. 6 4.2 Displays used for set design......................................................................... 6 4.3 Displays used in location shooting, or on set/studio floor ..................................... 6 4.3.1 Luminance ranges ............................................................................... 6 4.3.2 Black level........................................................................................ 7 4.3.3 Contrast ratio .................................................................................... 7 4.3.4 Gamma characteristics ........................................................................
    [Show full text]
  • Bit-Serial Digital Interface for High-Definition Television Systems
    ANSI/SMPTE 292M-1996 SMPTE STANDARD for Television ---- Bit-Serial Digital Interface for High-Definition Television Systems Page 1 of 9 pages 1 Scope ANSI/SMPTE 274M-1995, Television ---- 1920 × 1080 Scanning and Interface This standard defines a bit-serial digital coaxial and fiber-optic interface for HDTV component signals ANSI/SMPTE 291M-1996, Television ---- Ancillary operating at data rates in the range of 1.3 Gb/s to 1.5 Data Packet and Space Formatting Gb/s. Bit-parallel data derived from a specified source format are multiplexed and serialized to form the serial SMPTE RP 184-1995, Measurement of Jitter in Bit- data stream. A common data format and channel Serial Digital Interfaces coding are used based on modifications, if necessary, to the source format parallel data for a given high- IEC 169-8 (1978), Part 8: R.F. Coaxial Connectors with definition television system. Coaxial cable interfaces Inner Diameter of Outer Conductor 6.5 mm (0.256 in) are suitable for application where the signal loss does with Bayonet Lock ---- Characteristic Impedance 50 not exceed an amount specified by the receiver manu- Ohms (Type BNC), and Appendix A (1993) facturer. Typical loss amounts would be in the range of up to 20 dB at one-half the clock frequency. Fiber IEC 793-2 (1992), Optical Fibres, Part 2: Product optic interfaces are suitable for application at up to 2 Specifications km of distance using single-mode fiber. IEC 874-7 (1990), Part 7: Fibre Optic Connector Several source formats are referenced and others Type FC operating within the covered data rate range may be serialized based on the techniques defined by this 3 Definition of terms standard.
    [Show full text]
  • Presentation Title Sub-Title / Date
    Review of HDTV (production) standards Hans Hoffmann Senior Engineer Technical Department, EBU [email protected] Overview HDTV basics Interfaces Compression HD-Ready, HDTV-Ready, EBU Demos @ IBC2005 1080p/50 Summary Uncompromised quality of Sound and Video Details (for advertisements) “Bad” HDTV more annoying than “bad” SDTV High-Definition Television Design Viewing Distance: max. 3h on a 50inch display Preferred Viewing Distance: Line or pixel structure Picture width pw [m] ] c/pw [m ph Line density Ld [m] not visible gh h ] e hi D [m ur c/p nal ago s] ct Di che Pi [in 1' (1/ . 60° ) View in g Dista [m] n ce d α Definitions • SDTV: – 625-line TV = active 576 lines, “576i/25” – 525-line TV = active 480 lines, “480i/29.94” • HDTV: – 1080i/25 – 1080p/25 or 1080p/24 – 720p/50 – 1080p/50 •Interlaced or progressive scan HDTV – Options in the Signal Chain Creation Production Encoder Distribution Decoder Interfacing Display What did we learn from theSat. SDTV debate on interfaces and compression?DTT. IP etc. • The wholeSig. Process.signal chain determines STBthe final qualityDisplay at theCompression consumer Decoder Studio-InterfacesHDTV is muchSignal Processimoreng sensitiveContribution to technicalNew STBand Display HD-SDI (1.485Gb) P/I still MPEG-2 (VC-1, H264) HD-Ready HD-SDI (3Gb) artistical1080i/25 errors. 422P@HL HDTV Ready 720p/50-60 10 Gb? 1080p/25 Emission format (720p/50 1080i/25-30 HD-SDTI • We 1080p/24need to be moreH.264-AcarefulVC and have1080i/25)to provide 720p/50 prop. SMPTE VC1 Impact of sufficient1080p/50 quality 720p/50headroom in the studio.
    [Show full text]
  • Type D-11 HDCAM Data Stream and AES3 Data Mapping Over SDTI
    PROPOSED SMPTE 369M SMPTE STANDARD for Television ¾ Type D-11 HDCAM Data Stream and AES3 Data Mapping over SDTI Page 1 of 11 pages Table of contents 1 Scope 2 Normative references 3 General specifications 4 Header data 5 Payload data 6 AES3 data 7 Auxiliary data 8 EDH Annex A SDI and SDTI operation at 23.98… Hz) Annex B SDI and SDTI operation at 24 Hz) Annex C Bibliography 1 Scope This standard specifies the mapping of type D-11 HDCAM compressed picture data stream into the SDTI payload area (SMPTE 305.2M) together with the mapping of four channels of AES3 data and time code data into H-ANC packets. Type D-11 HDCAM compressed picture data stream mapping is defined for source coded picture rates of 24/1.001/P, 24/P, 25/P, 50-I, 30/1.001/P, and 60/1.001. For the transmission of compressed picture data coded at source picture rates of 25/P and 50/I, the SDTI interface operates at a frame rate of 25 Hz. For the transmission of compressed picture data coded at source picture rates of 30/1.001P and 60/1.001I, the SDTI interface operates at a frame rate of 30/1.001 Hz. The transmission of compressed picture data coded at the source picture rates of 24/1.001/P and 24/P require the SDTI interface to operate at frame rates of 24/1.001 Hz and 24 Hz with the parameters defined in normative annex A and annex B of this standard.
    [Show full text]
  • HD-SDI, HDMI, and Tempus Fugit
    TECHNICALL Y SPEAKING... By Steve Somers, Vice President of Engineering HD-SDI, HDMI, and Tempus Fugit D-SDI (high definition serial digital interface) and HDMI (high definition multimedia interface) Hversion 1.3 are receiving considerable attention these days. “These days” really moved ahead rapidly now that I recall writing in this column on HD-SDI just one year ago. And, exactly two years ago the topic was DVI and HDMI. To be predictably trite, it seems like just yesterday. As with all things digital, there is much change and much to talk about. HD-SDI Redux difference channels suffice with one-half 372M spreads out the image information The HD-SDI is the 1.5 Gbps backbone the sample rate at 37.125 MHz, the ‘2s’ between the two channels to distribute of uncompressed high definition video in 4:2:2. This format is sufficient for high the data payload. Odd-numbered lines conveyance within the professional HD definition television. But, its robustness map to link A and even-numbered lines production environment. It’s been around and simplicity is pressing it into the higher map to link B. Table 1 indicates the since about 1996 and is quite literally the bandwidth demands of digital cinema and organization of 4:2:2, 4:4:4, and 4:4:4:4 savior of high definition interfacing and other uses like 12-bit, 4096 level signal data with respect to the available frame delivery at modest cost over medium-haul formats, refresh rates above 30 frames per rates. distances using RG-6 style video coax.
    [Show full text]
  • Designed to Perform the 8 Channel Server
    Designed to Perform NEW The 8 Channel Server Production & Media Server Designed to Perform More Power. More Channels. More Capabilities. The new generation of XT servers, with its flexible 8 channel SD/HD & 6 channel 3D/1080p configuration, combines EVS’ world-class speed & reliability with the ultimate capabilities and performance. XT3 integrates today’s top broadcast and IT technologies to offer broadcasters and producers unparalleled motion control and adaptability. Based on its unique Loop Recording technology and its powerful networking capabilities, XT3 offers operators complete media control from ingest to playout, including live editing, slow-motion replays, multi-channels playback, and transfer to third-party systems such as craft editors, automation, archiving, or storage. The XT3 is the first server to natively support such a wide range of codecs without requiring hardware changes, allowing production teams to easily choose amongst the different compression schemes they want to use throughout the entire edit process. Designed to boost broadcasters’ live and near-live production capabilities, the XT3 provides operators with the highest level of bandwidth, flexibility and control available in the industry today. Main Applications ■ Live OB/Remote production ■ Studio ingest ■ Live studio production ■ Content control & delay ■ Fast turnaround production ■ Scenarized production ■ VTR replacement Production & Media Server Designed to Perform The 8 Channel Server Loop Recording Dual Networking EVS ingest solutions and loop recording guarantee unin- The XT3 can be linked to either one of two separate networks : terrupted multi-channel recording and access to recorded The EVS high-bandwidth media sharing network called material at any time. Recording starts as soon as the server XNet[2], which allows all video and audio sources recorded is booted, and remains on until the server is shut down.
    [Show full text]
  • Multi-Rate Serial Digital Interface (SDI) Physical Layer IP Core Is an Ipexpress User-Configurable Core and Can Be Used to Generate Any Allowable Configuration
    ispLever TM CORECORE Multi-Rate Serial Digital Interface Physical Layer IP Core User’s Guide January 2012 ipug70_01.2 Multi-Rate Serial Data Interface Physical Layer Lattice Semiconductor IP Core User’s Guide Introduction Serial Digital Interface (SDI) is the most popular raw video link standard used in television broadcast studios and video production facilities. Field Programmable Gate Arrays (FPGAs) with SDI interface capability can be used for acquisition, mixing, storage, editing, processing and format conversion applications. Simpler applications use FPGAs to acquire SDI data from one or more standard definition (SD) or high definition (HD) sources, perform sim- ple processing and retransmit the video data in SDI format. Such applications require an SDI physical layer (PHY) interface and some basic processing blocks such as a color space converter and frame buffer. In more complex applications, the acquired video receives additional processing, such as video format conversion, filtering, scaling, graphics mixing and picture-in-picture display. FPGA devices can also be used as a bridge between SDI video sources and backplane protocols such as PCI Express or Ethernet, with or without any additional video processing. In an FPGA-based SDI solution, the physical interface portion is often the most challenging part of the solution. This is because the PHY layer includes several device-dependent components such as high speed I/Os (inputs/outputs), serializer/deserializer (SERDES), clock/data recovery, word alignment and timing signal detection logic. Video processing, on the other hand, is algorithmic and is usually achieved using proprietary algorithms developed by in-house teams. The Lattice Multi-Rate SDI PHY Intellectual Property (IP) Core is a complete SDI PHY interface that connects to the high-speed SDI serial data on one side and the formatted parallel data on the other side.
    [Show full text]
  • 1. Introduction
    AN377 TIMING AND SYNCHRONIZATION IN BROADCAST VIDEO 1. Introduction Digitization of video signals has been common practice in broadcast video for many years. Early digital video was commonly encoded on a 10-bit parallel bus, but as higher processing speeds became practical, a serial form of the digitized video signal called the Serial Digital Interface (SDI) was developed and standardized. Serialization of the digital video stream greatly facilitates its distribution within a professional broadcast studio. Master Sync Generator Sync Video Server (Mass Storage) (Genlock) On-site Video Cameras SDI SDI Video Switching/ Processing SDI Transmission Facility SDI SDI Distribution Video Amplifier SDI SDI Router Frame Synchronizer SDI SDI Remote Professional Video Server Video Camera Monitor (Storage) Figure 1. Typical Example of a Professional Broadcast Video In a studio with multiple cameras, it is important that video signals coming from multiple sources are frame aligned or synchronized to allow seamless switching between video sources. For this reason, a synchronization signal is often distributed to all video sources using a master synchronization generator as shown in Figure 1. This allows video switching equipment to select between multiple sources without having to buffer and re-synchronize all of its input video signals. In this application note, we will take a closer look at the various components that make up a broadcast video system and how each of the components play a role in the synchronization chain. Rev. 0.1 8/09 Copyright © 2009 by Silicon Laboratories AN377 AN377 2. Digitizing the Video Signal A video camera uses sensors to capture and convert light to electrical signals that represent the three primary colors– red, green, and blue (RGB).
    [Show full text]
  • Alpha HD Capture and Playback (1+1 Or 0+2) HD/SD-SDI PCI-E Card
    Professional broadcast solutions Alpha HD Capture and playback (1+1 or 0+2) HD/SD-SDI PCI-e card Description Stream Alpha HD is a PCI-Express card for overlay and YEAR output of computer graphics. It can be used as a basis for WARRANTY creation of on-air graphic design systems (CG-systems) and broadcasting video servers. Features Free SDK/Tools/Drivers • Works with 8 and 10-bit component serial 3G-SDI signal • Windows 7,8,10,Server 2008/12 (32 and 64 bit) , HD-SDI, SD-SDI, DVB-ASI in accordance with ITU-R.601, • Stream Labs API SMPTE 424m, SMPTE 292m, SMPTE 274m, SMPTE 259m • Direct Show Filter и DVB-ASI standards; • Examples for integration in SW and Tools for HW • Automatic activation of video signal relay bypass mode tests upon computer power loss; • Support V4L2 and ALSA • Synchronization from input SDI/HD/3G-SDI signal • Free Sources for C programming language or analog Black burst/tri-level signal. When external • Medialooks SDK synchronization is lacking internal synchronizing generator is applied; • Digital key signal (alpha-channel) output for use with external mixer that has a DSK (Down Stream Key) input. Key signal delay relative to output graphics has a software controlled wide adjustments range; • 16-channels SDI/HD/3G-SDI embedded audio input/ output; • Error control in incoming SDI signals with check total count according to EDH method. EDH packets on the output are formed anew in accordance with SMPTE165 standard. www.stream-labs.com Connection DIAGRAM Specifications Video Input Connector 75-Ohm BNC HDMI Audio Output 1
    [Show full text]
  • Blackmagic Design Pty
    Product Technical Specifications Mini Converter SDI Multiplex 4K The converter you need when converting between Quad Link HD‑SDI, Dual Link $495 3G‑SDI and Single Link 6G‑SDI Ultra HD equipment. Mini Converter SDI Multiplex 4K includes 4 x 6G‑SDI inputs and 4 x 6G‑SDI outputs so it can convert in both directions. Also converts between Dual Link HD‑SDI 4:4:4 and Single Link 3G‑SDI. Connections SDI Video Inputs Multi Rate Support Reclocking 4 x 1.5Gb/s SDI or 2 x 3G‑SDI or 1 x Auto detection of SD, HD or 6G‑SDI Yes 6G‑SDI. on Input 1 SDI Video Output Updates and Configuration 4 x 6G‑SDI. USB Standards SD Video Standards HD Video Standards 2K Video Standards 525i59.94 NTSC, 625i50 PAL 720p50, 720p59.94, 720p60, 2K DCI 23.98p, 2K DCI 24p, 1080p23.98, 1080p24, 1080p25, 2K DCI 25p, 2K DCI 23.98PsF, 1080p29.97, 1080p30, 1080p50, 2K DCI 24PsF, 2K DCI 25PsF 1080p59.94, 1080p60, 1080PsF23.98, 1080PsF24, 1080PsF25, Ultra HD Video Standards 1080PsF29.97, 1080PsF30, 1080i50, 2160p23.98, 2160p24, 2160p25, 1080i59.94, 1080i60 2160p29.97, 2160p30 Mini Converter SDI Multiplex 4K - Technical Specifications Page 1 of 4 4K Video Standards SDI Video Rates SDI Color Precision 4K DCI 23.98p, 4K DCI 24p, SDI video connections are switchable 4:2:2 and 4:4:4 4K DCI 25p between standard definition, high definition and 6G‑SDI SDI Color Space SDI Compliance YUV and RGB SMPTE 259M, SMPTE 292M, SDI Video Sampling SMPTE 296M, SMPTE 372M, 4:2:2 and 4:4:4 SDI Auto Switching SMPTE 424M‑B, SMPTE 425M, Automatically detects SD, HD or 6G- SMPTE ST‑2081, ITU‑R BT.656 and SDI Audio Sampling ‑SDI.
    [Show full text]
  • Aspen 3232HD-3G 32X32 3G HD−SDI Router
    Aspen 3232HD-3G 32x32 3G HD−SDI Router The Aspen series routers are high−performance matrix switcher for 3G HD−SDI and HD−SDI dual link video signals. These units can switch any or all inputs to any or all outputs. Aspen 3232HD-3G HD-SDI Video Features Guaranteed 3G Bandwidth - Fully Loaded. Max Data Rate - 2.97Gbps. Multi-Standard Operation - SDI (SMPTE 259M & SMPTE 344M), HD−SDI (SMPTE 292M), 3G HD−SDI (SMPTE 424M) and dual link HD−SDI (SMPTE 372M). Advanced Equalization - Allows recovery of signals at over 155 meters at 3Gb/s, over 200 meters at 1.5Gb/s Reclocking & EQ Control - Reclockers and Equalizers can be turned on or off on a per port basis to allow non- SMPTE data such as MPEG-2 to pass through. - Input Equalization - Per input. - Re-Clocking - 5 modes: auto, bypass, 3G HD-SDI, HD-SDI & SD per input. Sync Features Looping Sync Input - Composite or Tri-sync. Control Features Front Panel XY Control (1616/3232HD-3G) - Multi-color I/O & function buttons. Built-in Web Control Interface - - Configuration and Set up - including Names, Salvos, Layers, Output Reclockers, Input Equalizers and more. - Touch and Click compatible for control via tablets or smartphones RS-232, RS-422 & Ethernet. Optional Remote Control Panels - Via RJ-45 (Ethernet). Supports TCP/IP Protocol - Rear Panel RJ-45 connector. Other Features 7 Year warranty - Parts and Labor Take - The Take button executes a selected function when pressed (switch, salvo recall, IP address change, etc.). Salvos - Memory locations of switching lists that are saved in the router and recalled by a single command.
    [Show full text]
  • SMPTE-259M SDI.Pdf
    © SMPTE 2005 – All rights reserved SMPTE Standard for Television Date: 2005-12 08 SMPTE 259M Revision of 259M - 1997 SMPTE Technology Committee N26 on File Management & Networking Technology TP Rev 1 SDTV1DigitalSignal/Data - Serial Digital Interface Note 1 SDTV - Standard Definition Television Warning This document is not a SMPTE Standard. It is distributed for review and comment. It is subject to change without notice and may not be referred to as a SMPTE Standard. Recipients of this document are invited to submit, with their comments, notification of any relevant patent rights of which they are aware and to provide supporting documentation. Distribution does not constitute publication. Page 1 of 16 Contents Page Foreword 2 Introduction 2 1 Scope 3 2 Normative References 3 3 Signal Levels and Specifications 3 4 Connector and cable Types 5 5 Channel coding 5 6 Transmission order 5 7 Component 4:2:2 signals 5 8 Levels of operation 7 Annex A (Normative) Composite NTSC 4fsc signals 8 Annex B (Informative) Composite PAL 4fsc signals 10 Annex C (informative) Generator polynomial implementations 13 Annex D (informative) Timing jitter specification 14 Annex E (informative) Waveform measurement method 14 Annex F (Informative) Optional Ancillary Data 4fsc PAL 14 Annex G (informative) 259M Road Map 15 Bibliography 16 Page 2 of 16 Foreword SMPTE (the Society of Motion Picture and Television Engineers) is an internationally recognized standard developing organization. Headquartered and incorporated in the United States of America, SMPTE has members in over 80 countries on six continents. SMPTE’s Engineering Documents, including Standards, Recommended Practices and Engineering Guidelines, are prepared by SMPTE’s Technology Committees.
    [Show full text]