Hdbaset™ Do's & Don'ts and Best Practices
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HB-T-HDMI and HB-R-HDMI HDMI to Hdbaset Mini Converter Installation & Operation Guide Version 1.0R1 Published: October 1, 2015
HB-T-HDMI and HB-R-HDMI HDMI to HDBaseT Mini Converter Installation & Operation Guide Version 1.0r1 Published: October 1, 2015 Table of Contents Notices . 4 Trademarks . 4 Copyright . 4 Contacting Support . 4 Chapter 1: Introduction . 5 Overview. 5 Features . 5 Block Diagram. 6 Audio . 6 I/O Connections . 6 Installation . 7 Pairing HDMI and SDI HDBaseT Converters. 8 Appendix A: Specifications . 9 HB-T-HDMI & HB-R-HDMI Formats . 9 Video Displays . 9 VESA Displays . 9 Video Input . 10 HB-T-HDMI input . 10 HB-R-HDMI input . 10 Video Output . 10 HB-T-HDMI output . 10 HB-R-HDMI output. 10 HDCP . 10 Audio Input. 10 Control Data Ports. 10 RS-232 Extension. 10 RS-232 Cable Option . 10 DB9 Pinout . 10 IR Extension Input & Output Ports . 11 IR/RS-232 Cable Kit Option . 11 Physical . 11 Power . 11 Size. 11 Environment. 11 Appendix B: Safety and Compliance . .12 Federal Communications Commission (FCC) Compliance Notices . 12 Class A Interference Statement . 12 FCC Caution . 12 Canadian ICES Statement . 12 European Union and European Free Trade Association (EFTA) Regulatory Compliance. 13 Declaration of Conformity . 13 Recycling Notice . 14 Korean KCC Compliance Statement . 14 Taiwan Compliance Statement . 14 Japanese Compliance Statement . 15 Translated Warning and Caution Messages. 15 HB-T-HDMI & HB-R-HDMI v1.0r12 www.aja.com Before Operation Please Read These Instructions . 15 Warranty Information . .21 Limited Warranty. 21 HB-T-HDMI & HB-R-HDMI v1.0r13 www.aja.com Notices Trademarks AJA®, lo®, Ki Pro®, KONA®, KUMO®,T-TAP®, Because it matters.® and ROI® are registered trademarks of AJA Video Systems, Inc. -
120L10E Spec Release V08102020
4K Ultra HD Smart Laser TV with HDR and 120" Wide Color Gamut , screen included 4K class Model 120L10E Lose yourself in an immersive 120-inch display This 120-inch ‘panel-less’ 4K Ultra HD Smart Laser TV is a masterful combination of movie-theater technology, elegant aesthetics, and a simple table-top setup. Enjoy watching your favorite shows, movies or sports on a 120” screen in your living room, family room or home theater. The Hisense 4K Ultra HD Smart Laser TV features Hisense’s proprietary technology to produce luminance, incredible color and unmatched motion rate. In addition, the TV comes with built- in Harman Kardon® speakers with a wireless subwoofer. The Laser TV delivers 3000 lumens, HDR, Wide Color Gamut, a UHD Upscaler to bring your content to near 4K quality, Wi-Fi, popular music and movie apps (such as Netflix) and many more features to enjoy for an incredible and premium viewing experience. 4K UHD RESOLUTION* 120-INCH AMBIENT LIGHT REJECTION (ALR) SCREEN Enjoy four times (8.3 million) the amount of pixels of standard The 120-inch Hisense display screen makes converting your living full high definition TVs for a crystal-clear picture that will or workspace into the perfect setting for your viewing needs. With change your viewing experience. cutting-edge ALR screen technology that rejects ambient daylight and allows you to experience a great picture in either dark or illuminated settings. UHD UPSCALER HARMAN KARDON SPEAKERS Convert any input and all resolutions (SD/HD/FHD) 2x10W (left) and 2x10W (right) audio and a 60W subwoofer. -
Digital Visual Interface (DVI)
Digital Visual Interface 1 Digital Visual Interface Digital Visual Interface (DVI) A male DVI-D (single link) connector. Type Digital computer video connector Production history Designer Digital Display Working Group Designed April 1999 Produced 1999 to present Superseded by DisplayPort General specifications Hot pluggable Yes External Yes Video signal Digital video stream: (Single) WUXGA (1,920 × 1,200) @ 60 Hz (Dual) Limited by copper bandwidth limitations, DVI source limitations, and DVI sync limitations. Analog RGB video (−3 dB at 400 MHz) Pins 29 Data Data signal RGB data, clock, and display data channel Bitrate (Single link) 3.96 Gbit/s (Dual link) Limited only by copper bandwidth limitations, DVI source limitations, and DVI sync limitations. Max. devices 1 Protocol 3 × transition minimized differential signaling data and clock Pin out A female DVI-I socket from the front Pin 1 TMDS data 2− Digital red− (link 1) Pin 2 TMDS data 2+ Digital red+ (link 1) Digital Visual Interface 2 Pin 3 TMDS data 2/4 shield Pin 4 TMDS data 4− Digital green− (link 2) Pin 5 TMDS data 4+ Digital green+ (link 2) Pin 6 DDC clock Pin 7 DDC data Pin 8 Analog vertical sync Pin 9 TMDS data 1− Digital green− (link 1) Pin 10 TMDS data 1+ Digital green+ (link 1) Pin 11 TMDS data 1/3 shield Pin 12 TMDS data 3- Digital blue− (link 2) Pin 13 TMDS data 3+ Digital blue+ (link 2) Pin 14 +5 V Power for monitor when in standby Pin 15 Ground Return for pin 14 and analog sync Pin 16 Hot plug detect Pin 17 TMDS data 0− Digital blue− (link 1) and digital sync Pin 18 TMDS data 0+ Digital blue+ (link 1) and digital sync Pin 19 TMDS data 0/5 shield Pin 20 TMDS data 5− Digital red− (link 2) Pin 21 TMDS data 5+ Digital red+ (link 2) Pin 22 TMDS clock shield Pin 23 TMDS clock+ Digital clock+ (links 1 and 2) Pin 24 TMDS clock− Digital clock− (links 1 and 2) C1 Analog red C2 Analog green C3 Analog blue C4 Analog horizontal sync C5 Analog ground Return for R, G, and B signals Digital Visual Interface (DVI) is a video display interface developed by the Digital Display Working Group (DDWG). -
USB Displayport Dual View Hdbaset™ 2.0 KVM Extender (4K@100M for Single View)
CE924 USB DisplayPort Dual View HDBaseT™ 2.0 KVM Extender (4K@100m for Single View) The ATEN CE924 USB DisplayPort Dual View HDBaseT™ 2.0 KVM Extender integrates the latest HDBaseT™ 2.0 technologies to deliver 4K video, stereo audio, USB, and RS-232 signals. The HDBaseT™ 2.0 guarantees the most reliable transmission on the market as well as it provides long-reach capability that extends Full HD 1080P signals up to 150 meters. In addition, CE924 supports single 4K display or dual 1080p display for DisplayPort video output resolution up to 100m by using a single Cat6 / 2L-2910 Cat 6 cable. With an easy cable installation supporting various signals, the CE924 is ideal for applications where convenient remote access is required – such as transportation control centers, medical facilities, industrial warehouses, and extended workstations. Features Allows dual view DisplayPort access to a computer and KVM control from a remote console Supports HDBaseT 2.0 technology - Extends video, audio, USB, and RS-232 signals via a single Cat6 / 6a / 2L-2910 Cat 6 cable - Enhanced bit error detection and correction to resist signal interference during high-quality video transmissions - Status detection and LED indication for HDBaseT™ signal transmission on the remote unit EDID Buffer for smooth power-up and the highest quality display Single category cable to transmit AV and control signal - HDBaseT Standard mode up to 4K @ 100 m (via Cat 6 / 6a / 2L-2910); (single view only; dual-view resolution up to 1080p) - HDBaseT Long-Reach mode up to 1080P @ 150 m -
Retrospective on Development of Radio and Wire Data Communication
March, 2006 IEEE P802.15-06-0107-00-wng0 IEEE P802.15 Wireless Next Generation Networks Project IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Title Retrospective on Development of Radio and Wire Data Communication Date 4 March 2006 Submitted Source Chandos A. Rypinski Voice: +1.415.435.0642 consultant Fax: [- ] Tiburon, CA 94920 USA E-mail: [email protected] Re: Call for contributions for 15WNG Erik Schylander, 13 Feb 2006 Abstract An account of: the development of phase shift keying and orthogonal frequency division multiplex with carriers positioned at spectral null of the adjacent carrier at Collins Radio 1954-58, the early development of 802.3 CSMA, 802.4 Token bus and 802.5 Token ring and the 802.4L radio PHY for token bus, the 802.6 and 802.9 committee’s working on voice-data integration, the start of 802.11 from 802.4L, the original functional targets and the DFW MAC adopted as a starting point the circumstances for the development 11A and 11B. Purpose The intent is show the effect of early and current decision-making as influenced by function goals and obscure design considerations. Possibly some future choices may be better made with knowledge of these examples. Notice This document has been prepared to assist the IEEE P802.15. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. -
Ethernet/Category 5 Network Cabling Guide Prepared by SJ Wilkinson (August 2002) Based on Steve Derose’S Guide to CAT5 Network Wiring (See Later Web Reference)
Ethernet/Category 5 Network Cabling Guide Prepared by SJ Wilkinson (August 2002) Based on Steve DeRose’s Guide to CAT5 Network Wiring (See later Web Reference) Networks A Local Area Network (LAN) can be as simple as two computers, each having a network interface card (NIC) or network adapter and running network software, connected together with a crossover cable. Here the crossover cable would have a plug at either end to connect into the NIC socket at the back of each computer. The next step up would be a network consisting of three or more computers and a hub. Each of the computers is plugged into the hub with a straight-thru cable (the crossover function is performed by the hub). For a small network the straight-thru cables would have plugs at either end – one to connect to the computer and one to the hub. For larger networks wall cabling, wall sockets and patch cables are used. A CAT5 "patch panel" is used at the hub end where all your wires come together and provides a group of sockets for further cables. Straight-thru patch cables connect computers to sockets (jacks). Straight-thru wall cables connect sockets to the patch panel. Straight-thru patch cables connect the patch panel to the hub. Patch panels often make network cabling neater but are not essential as (a) wiring a plug is no harder than wiring a panel; (b) you still need cables to go from the panel to the hub; and (c) it adds extra connections, so lowers reliability. 1 Planning your Network Pick a location for your hub, preferably centred to keep cable runs shorter. -
Dodea FACILITIES MANAGEMENT GUIDE
DoDEA FACILITIES MANAGEMENT GUIDE: TECHNOLOGY SYSTEMS DESIGN GUIDELINES DoDEA-NETWORK VERSION 2.0 DEPARTMENT OF DEFENSE EDUCATION ACTIVITY APRIL 14, 2016 UPDATED DRAFT DoDEA Technology Systems Design Guide – DoDEA Network Requirements TABLE OF CONTENTS Acronyms ........................................................................................................................................ 3 1.0 Purpose ........................................................................................................................ 5 2.0 Applicability ................................................................................................................. 5 3.0 References ................................................................................................................... 5 4.0 Responsibilities ............................................................................................................ 7 5.0 Data/Telecommunications Systems Summary ............................................................. 8 5.1 Outside Cable Plant .................................................................................................... 10 5.2 System Requirements ................................................................................................ 11 5.2.A Main Telecommunications Room (TR1) ........................................................................... 11 5.2.B Secondary Telecommunications Room (TR2) ................................................................... 13 5.2.C Video Distribution ............................................................................................................ -
Developed by the Consumer Technology Association Video Division
4K Ultra High-Definition TV A display system may be referred to as 4K Ultra High-Definition if it meets the following minimum performance attributes: Display Resolution – Has at least 8 million active pixels, with at least 3840 horizontally and at least 2160 vertically. Physical pixels shall be individually addressable such that the horizontal and vertical resolution above can be demonstrated over the full range of colors provided by the display. Aspect Ratio – The width to height ratio of the display’s native resolution is 16:9 or wider. Upconversion – The display is capable of upscaling HD video and displaying it at 4K Ultra High- Definition display resolution. Digital Input – Has one or more HDMI inputs supporting at least 3840x2160 native content resolution at 24p, 30p, & 60p frames per second. At least one of the 3840x2160 HDMI inputs shall support HDCP v2.2 or equivalent content protection. Colorimetry – Processes 2160p video inputs encoded according to ITU-R BT.709 color space, and may support wider colorimetry standards. Bit Depth – Has a minimum bit depth of 8 bits. Connected 4K Ultra High-Definition TV A display system may be referred to as Connected 4K Ultra High-Definition (or Connected 4K UHD) if it meets the following minimum performance attributes: 4K Ultra High-Definition Capability – Meets all of the requirements of CTA’s 4K Ultra High-Definition Display Characteristics V3. Video Codec – Decodes IP-delivered video of 3840x2160 resolution that has been compressed using HEVC* and may decode video from other standard encoders. Audio Codec – Receives and reproduces, and/or outputs multichannel audio. -
Programme Pour Développeurs AJA
Programme pour développeurs AJA KONA IP Programme pour développeurs AJA La technologie AJA est au cœur de nombreux produits. De par leur Travailler ensemble qualité supérieure et de la simplicité du kit de développement, les produits Le programme pour développeurs d’AJA permet aux entreprises partenaires d’intégrer les produits AJA AJA dédiés aux développeurs sont dans leurs systèmes. En utilisant des périphériques éprouvés d’entrée/sortie vidéo existants, les partenaires faciles à intégrer dans n’importe quel profitent de l’expertise d’AJA pour développer et soutenir ces technologies, en économisant de l’argent et en environnement Windows, Mac ou commercialisant leurs produits intégrés plus rapidement. Linux. AJA a une longue expérience en construction de périphériques vidéo davantage votre configuration. Avec des fonctionnalités allant des E/S fiables de haute qualité pour l’industrie de la vidéo. Le programme monocanal à multicanal, des flux E/S simultanés, l’intégration directe de pour développeurs AJA vous donne accès à ce niveau de qualité pour la fibre optique et les applications à large bande passante, les produits l’intégration dans vos propres produits. pour développeurs répondent à tous les besoins et couvrent toutes les gammes de prix. De nombreux produits d’AJA vendus au détail sont également disponibles pour vos développements. Que vous ayez besoin Le SDK complet et les outils de développement fournis par AJA vous d’incorporer la technologie de conversion dans un ensemble aideront à les intégrer dans tout environnement sous Windows®, OS X et préconstruit à l’aide de l’un de nos mini-convertisseurs, ou d’intégrer Linux®. -
Displayport to HDMI Converter Cable - 6 Ft (2M) - 4K
DisplayPort to HDMI Converter Cable - 6 ft (2m) - 4K Product ID: DP2HDMM2MB This 6-foot (2M) DisplayPort™ to HDMI® adapter cable lets you connect your DisplayPort equipped Ultrabook™, laptop or desktop computer to an HDMI display or projector with no additional adapters or cables required. The passive adapter supports video resolutions up to Ultra HD 4K. Astonishing picture quality This adapter cable ensures you can maintain an astonishing picture quality, four times the resolution of 1080p, when converting DisplayPort to HDMI. The adapter is also backward compatible with lower resolution displays and video sources. With support for high-definition resolutions of 1080p and 720p, you can future-proof your existing setup for 4K video. www.startech.com 1 800 265 1844 Hassle-free setup For the simplest and most discreet installation, this DP to HDMI adapter connects directly from your DisplayPort video source to the HDMI port on your display. It doesn't need a power source, unlike some converter dongles that require active power and separate bulky video cabling. Clutter-free installation At 6ft (2m) in length, this adapter cable delivers a compact connection that eliminates excess to ensure a tidy, professional installation. For shorter installations, we also offer a 3 ft DP to HDMI cable (DP2HDMM1MB), enabling you to choose the right cable length for your custom installation needs. The DP2HDMM2MB is backed by a 2-year StarTech.com warranty and free lifetime technical support. www.startech.com 1 800 265 1844 Certifications, Reports Applications -
Cabling to Support 4K UHD Hdbaset Applications | WP00033 | BAVS BDC 0217 a AG
Cabling to Support 4K UHD Author: Ronald Tellas HDBaseT Applications Manager, Technology and Applications, Enterprise Networking Introduction Table of Contents HDBaseT™* networking technology enables HDMI signals to be transmitted over balanced Introduction 1 twisted-pair cabling. This allows AV system designers to combine the benefits of HDBaseT and category cabling by transmitting uncompressed high-definition video, audio, Ethernet, Types of Convergence 1 control, USB and remote power over a single network cable, extending reach up to 100 m IT and AV Standards 1 from the AV source to the display. White paper Goals 2 Types of Convergence HDBaseT Signals 2 Convergence can be discussed in two ways: Cabling Effects on Transfer Quality 2-3 Technology Infrastructure Measuring Cable Transfer Quality 4 Cable Transfer Quality Results 4 Technology convergence combines several autonomous networks onto a single network, working from the same system switch and backbone. VoIP phones, IP Cable Transfer Quality Analysis 5 surveillance cameras, lighting systems and building controls are all connecting to networks External Effects on Transfer Quality 6 to transfer data, receive data and adjust performance in real-time. Visual Errors 7 Infrastructure convergence uses category cabling to support different applications, Field Testing 7 such as Class 2 circuits for remote signaling, audio and video, including HDBaseT. Extender Variation 7 Channel Configurations 8 Grounding of Cable Shielding 9 IT and AV Standards Power over HDBaseT (POH) 9 Because there is no convergence of standards for IT and AV networks, both must be consulted individually. Conclusion 10 IT networking standards rely on ANSI/TIA-568-C.2 and ISO/ IEC 11801 cabling standards. -
Structured Cabling
The SIMPLIFIED Guide to STRUCTURED CABLING - Terms - Uses - Categories - Set Up How much do you know about structural cabling? Alien Crosstalk is… A) When extraterrestrials have a casual conversation while crossing the road B) Confusing political rhetoric about immigrants C) Interference caused by one of the twisted pairs of wires in a cable affecting another pair of wires in an adjacent cable. Propagation Delay A) Waiting to start a family until you're 40 B) When your small airplane won't start C) The time it takes for a signal to move down a cable. Don’t worry if you had no idea what those terms meant. Only a few people do, and you probably want them working on your communication infrastructure! Like most technical work, there are quite a few jargon words and phrases that make sense to us, but sound like gibberish to most people. What follows is a nuts and bolts review that will familiarize you with the process of structural cabling so you can actually understand the technician who is working on your project. Let’s start with an easy one: What is "cabling?" There's a lot of name-calling when you talk to electricians and cable installers. No, not that kind… we're talking about a lot of different names for the same kinds of things, like these: VDV: Means "Voice, Data, Video" Backbones: The inter- and intra-building cable connections between entrance facilities, equipment rooms and telecommunications closets Premises Cabling: Any application that introduces wiring for its LAN (Local Area Network) computers, phones, fire alarms, audio or video into a building or campus as opposed to cabling for a municipality or geographically distant centers.