DOCSLIB.ORG

Electrical Physical Displays Dmx / Artnet

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Electrical Physical Displays Dmx / Artnet Technical Data Sheet ELECTRICAL Voltage: 100-240VAC, 50 / 60Hz Max Current: 4A Mains Connector: IEC 320 PHYSICAL Weight: 45 lbs (20.41 kg) Dimensions: 35.49” (901.19mm) wide 22.65” (575.36mm) deep 9.62” (244.34mm) high DISPLAYS Internal: Two 15.6” widescreen touchscreens (both touchscreens are 10 point multi-touch) External: Support for two monitors / touchscreens (DVI-D) Full Boar 4 Lighting Control Console (see Hog4OS manual for list of supported touchscreens) • Operating System: Hog 4 OS • Built in DMX Processor 8000 DMX / ARTNET / SCAN • Built-in Kensington Security Lock Local Output Processing: 12 universes (6,144 ch) • USB Recovery Flash Drive Included Local DMX Outputs: 4 x Neutrik 5-pin female XLR • USB Flash Drive for Show file storage included Expansion via external DP8000s: Yes, Unlimited • Desklights included • Light Converse Visualizer dongle included I/O CONNECTIVITY • Dust cover included USB 2.0 Ports: 4 rear • Custom Road Case Included USB 3.0 Ports: 1 top HogNet: Yes (allows connectivity to other consoles) FixtureNet: Yes (Art-Net, sACN, Visualizer connect) Onboard MIDI: In/Out/Thru (supports MIDI Show Control, MIDI Timecode, and MIDI Notes) Onboard LTC: Input via 3-pin XLR Visualizer connectivity: FixtureNet / Art-Net / sACN CONTROL SURFACE: (list of supported visualizers in Hog 4 OS help manual) Playback Faders: 10, motorized Remote Focus: Yes, via Open Sound Control GrandMaster: dedicated, motorized DBO Key: dedicated, toggle on/off COMPUTER Encoder Wheels: 5 with dedicated function buttons Function Keys: 12 keys with dedicated LCD displays Motherboard: Advantech AIMB-581 KeyBoard: Support for external USB keyboard Processor: Intel Core i3-2120 3.3Ghz Trackball: Built-in backlit trackball with rotary encoder Memory: 8 GB Desklight: 2, dimmable blue and white LEDs Internal Hard Drive: 32 GB SSD Worklight: Yes, dimmable white Internal CD-R/DVD-ROM: No Ventlight: Yes, dimmable blue 2105 Gracy Farms Lane All specifications subject to change without notice Austin, TX 78758 DRAFTwww.highend.com 512.836.2242.
Load more

Recommended publications
  • Evaluating the Effect of Four Different Pointing Device Designs on Upper Extremity Posture and Muscle Activity During Mousing Tasks
    Applied Ergonomics 47 (2015) 259e264 Contents lists available at ScienceDirect Applied Ergonomics journal homepage: www.elsevier.com/locate/apergo Evaluating the effect of four different pointing device designs on upper extremity posture and muscle activity during mousing tasks * Michael Y.C. Lin a, Justin G. Young b, Jack T. Dennerlein a, c, a Department of Environmental Health, Harvard School of Public Health, 665 Huntington Avenue, Boston, MA 02115, USA b Department of Industrial & Manufacturing Engineering, Kettering University, 1700 University Avenue, Flint, MI 48504, USA c Department of Physical Therapy, Movements, and Rehabilitation Sciences, Bouve College of Health Sciences, Northeastern University, 360 Huntington Avenue, Boston, MA 02115, USA article info abstract Article history: The goal of this study was to evaluate the effect of different types of computer pointing devices and Received 10 January 2014 placements on posture and muscle activity of the hand and arm. A repeated measures laboratory study Accepted 3 October 2014 with 12 adults (6 females, 6 males) was conducted. Participants completed two mouse-intensive tasks Available online while using a conventional mouse, a trackball, a stand-alone touchpad, and a rollermouse. A motion analysis system and an electromyography system monitored right upper extremity postures and muscle Keywords: activity, respectively. The rollermouse condition was associated with a more neutral hand posture (lower Pointing device inter-fingertip spread and greater finger flexion) along with significantly lower forearm extensor muscle Computer tasks fi Musculoskeletal disorders activity. The touchpad and rollermouse, which were centrally located, were associated with signi cantly more neutral shoulder postures, reduced ulnar deviation, and lower forearm extensor muscle activities than other types of pointing devices.
    [Show full text]
  • Chapter 9. Input Devices
    Table of contents 9 Input devices .................................................................................................................9-1 9.1 Keyboards ............................................................................................................. 9-4 9.2 Fixed-function keys .............................................................................................. 9-6 9.3 Pointing devices.................................................................................................... 9-7 9.3.1 General........................................................................................................... 9-7 9.3.2 Mouse ............................................................................................................ 9-9 9.3.3 Joystick and trackball .................................................................................. 9-10 9.3.3.1 General..................................................................................................9-10 9.3.3.2 Hand-operated displacement joysticks .................................................9-10 9.3.3.3 Finger-operated displacement joysticks................................................9-11 9.3.3.4 Thumb tip and fingertip-operated displacement joysticks....................9-13 9.3.3.5 Hand-operated isometric joysticks........................................................9-13 9.3.3.6 Thumb tip and fingertip-operated isometric joysticks..........................9-14 9.3.3.7 Ball controls..........................................................................................9-14
    [Show full text]
  • Computer and Its Components Theory : 05 Marks Textbook Questions A
    Computer and Its Components Theory : 05 Marks Textbook Questions A. Multiple choice questions 1. The collection of unprocessed facts, figures and symbols is known as ____________. (a) Information (b) Software (c) Data and Information (d) None of the above Ans. (d) None of the above as the correct answer is data 2. ______________ is the processed form of data which is organized meaningful and useful. (a) Information (b) Software (c) Data (d) None of the above Ans. (a) Information 3. Hardware is any part of the computer that has a physical structure that can be seen and touched. (a) True (b) False (c) Not sure (d) None of the above Ans. (a) True 4. Components of computer hardware are ____________________________. (a) Input devices and output devices (b) A system unit and storage devices (c) Communication devices (d) All of the above Ans. (d) All of the above 5. __________ devices accept data and instructions from the user. (a) Output (b) Input (c) Components of hardware (d) Storage Ans. (b) Input 6. Which disk is made up of a circular thin plastic jacket coated with magnetic material? (a) Hard Disk (b) Compact Disk (c) DVD (d) Floppy Disk Ans. (d) Floppy Disk 7. ___________ disks are used to store more than 25 GB of data with a very high speed in less amount of time. (a) Digital Versatile (b) Compact (c) Blue‐Ray (d) None of the above Ans. (c) Blue‐Ray 8. Random Access Memory and Read Only Memory are examples of _______________. (a) Primary Memory (b) Secondary Memory (c) Auxiliary Memory (d) Both primary and secondary memory Ans.
    [Show full text]
  • Control Surface: Electrical Physical Displays Dmx
    Technical Data Sheet ELECTRICAL Voltage: 100-240VAC, 50 / 60Hz Max Current: 5A Mains Connector: IEC 320 PHYSICAL Weight: 21 lbs (9.52kg) Dimensions: 19.09” (485.03mm) wide 16.59” (421.5mm) deep 5.21” (132.36mm) high DISPLAYS Support for one monitor / touchscreen: DVI-D or VGA (only connection will work at a time) • DVI-D supports digital video connection only • Rack Hog 4 Lighting Control Console DVI-to-VGA adapter will not work on DVI port • VGA monitor compatibility not guaranteed • Operating System: Hog 4 OS (see Hog4OS manual for list of supported touchscreens) • Built in DMX Processor 8000 • USB Recovery Flash Drive Included DMX / ARTNET / SCAN • USB Flash Drive for Show file storage included Local Output Processing: 16 universes (8,192 ch) • Light Converse Visualizer dongle included Local DMX Outputs: 8 x Neutrik 5-pin female XLR Expansion via external DP8000s: Yes, Unlimited I/O CONNECTIVITY USB 2.0 Ports: 2 rear / 2 front HogNet: Yes (allows connectivity to consoles / DPs) FixtureNet: Yes (Art-Net, sACN, Visualizer connect) Onboard MIDI: In/Out/Thru CONTROL SURFACE: (supports MIDI Show Control, MIDI Timecode, and MIDI Notes) KeyBoard: Support for external USB keyboard Onboard LTC: Input via 3-pin XLR Trackball: Support for external USB trackball/mouse Visualizer connectivity: FixtureNet / Art-Net / sACN Ventlight: Yes, blue front vent light when unit is powered on (list of supported visualizers in Hog 4 OS help manual) Supported External Control Surfaces via USB: Remote Focus: Yes, via Open Sound Control • Hoglet 4 • NanoHog 4 • Playback Wing 4 • Master Wing 4 COMPUTER • MiniWing 4 Motherboard: Advantech AIMB-581 • Hog 3 Playback Wing Memory: 8 GB • Hog 3 Programming Wing Internal Hard Drive: 128 GB SSD • Hog 3 X-Wing Internal CD-R/DVD-ROM: No 2105 Gracy Farms Lane All specifications subject to change without notice Austin, TX 78758 DRAFTwww.highend.com 512.836.2242.
    [Show full text]
  • The Trackball Controller: Improving the Analog Stick
    The Trackball Controller: Improving the Analog Stick Daniel Natapov I. Scott MacKenzie Department of Computer Science and Engineering York University, Toronto, Canada {dnatapov, mack}@cse.yorku.ca ABSTRACT number of inputs was sufficient. Despite many future additions Two groups of participants (novice and advanced) completed a and improvements, the D-Pad persists on all standard controllers study comparing a prototype game controller to a standard game for all consoles introduced after the NES. controller for point-select tasks. The prototype game controller Shortcomings of the D-Pad became apparent with the introduction replaces the right analog stick of a standard game controller (used of 3D games. The Sony PlayStation and the Sega Saturn, for pointing and camera control) with a trackball. We used Fitts’ introduced in 1995, supported 3D environments and third-person law as per ISO 9241-9 to evaluate the pointing performance of perspectives. The controllers for those consoles, which used D- both controllers. In the novice group, the trackball controller’s Pads, were not well suited for 3D, since navigation was difficult. throughput was 2.69 bps – 60.1% higher than the 1.68 bps The main issue was that game characters could only move in eight observed for the standard controller. In the advanced group the directions using the D-Pad. To overcome this, some games, such trackball controller’s throughput was 3.19 bps – 58.7% higher than the 2.01 bps observed for the standard controller. Although as Resident Evil, used the forward and back directions of the D- the trackball controller performed better in terms of throughput, Pad to move the character, and the left and right directions for pointer path was more direct with the standard controller.
    [Show full text]
  • Chapter 3 Input Devices
    CSCA0201 FUNDAMENTALS OF COMPUTING Chapter 3 Input Devices 1 Input Devices Topics: • Input Devices • Examples of Input Device • Keyboard • Pointing Devices • Graphic and Video Input Devices • Audio Input Devices 2 Input Devices Input Devices • Any peripheral (piece of computer hardware equipment) used to provide data and control signals to a computer. • Allows the user to put data into the computer. • Without any input devices, a computer would only be a display device and not allow users to interact with it. 3 Input Devices Examples of Input Device • Keyboard • Mouse • Touchscreen • Graphic tablet • Microphone • Scanner 4 Input Devices Keyboard • One of the primary input devices used with a computer. • The keyboard looks very similar to the keyboards of electric typewriters, with some additional keys. • Keyboards allow a computer user to input letters, numbers, and other symbols into a computer • Uses an arrangement of buttons or keys. • Requires pressing and holding several keys simultaneously or in sequence. 5 Input Devices Keyboard 6 Input Devices Types of Keyboard • Standard • Laptop • Gaming and Multimedia • Thumb-sized • Virtual • Foldable 7 Input Devices Types of Keyboard Standard • Desktop computer keyboards, such as the 101-key US traditional keyboards or the 104-key Windows keyboards, include alphabetic characters, punctuation symbols, numbers and a variety of function keys. 8 Input Devices Types of Keyboard Laptop Keyboard • The laptop computer keyboard is a small version of the typical QWERTY keyboard. • A typical laptop has the same keyboard type as a normal keyboard, except for the fact that most laptop keyboards condense the symbols into fewer buttons to accommodate less space.
    [Show full text]
  • Input Devices
    Student Notes Input Devices Input is any data or instructions entered into the memory of a computer. An input device is any hardware component that allows a user to enter data and instructions into a computer. The following is a list of the most common input devices which are nowadays found in a computer system. QWERTY Keyboard glossary pg. 129, 132 A keyboard contains keys that allow a user to enter data and instructions into the computer. All computer keyboards have a typing area that includes the letters of the alphabet, numbers, punctuation marks, and other basic keys. Many desktop computer keyboards also have a numeric keypad located on the right side of the keyboard. On notebook and many handheld computers, the keyboard is built into the top of the system unit. A standard computer keyboard is called a QWERTY keyboard because of the layout of its typing area which is similar to that of a typewriter. Advantages of using keyboards for data input include It is not necessary to buy additional equipment because most computer systems are normally supplied with keyboards. Entering data and instructions with keyboards is generally faster than with pointing devices. Disadvantages of using keyboards for data input include It takes a lot of time to practice in order to type quickly and accurately. Typing speeds are still very slow when compared with computer speeds. Mouse glossary pg. 130 A mouse is the most widely used pointing device with a GUI environment on personal computers. A mechanical mouse has a rubber ball on its underside to detect movement of the mouse.
    [Show full text]
  • Restart the Computer
    Gloucester County Library System COMPUTER BASICS WINDOWS XP VISTA, WINDOW 7 Computer Classes Check the GCLS online calendar for the schedule of Computer Classes www.gcls.org Basic Computer Skills: Required for all other computer classes. Learn how to use the mouse, open and close programs, select items and text. Internet Basics: Learn how to use the Internet, click links, navigate sites and print useful information. Email Basics: Learn about email, create your own email address and get some valuable practice. Software Basics: Overview of common office software such as Microsoft Word, Excel and PowerPoint. When Caring for a PC Good Practices Plug your PC, monitor, printer, scanner, etc. into a surge protector Keep your PC in a well-ventilated area Keep your PC away from moisture, and moisture away from your PC Properly turn off your PC and monitor when not in use • Safety Tips Sit in a comfortable chair when using a PC Make sure your PC is on a stable surface NEVER open the case on your PC while it is plugged in Take breaks often to rest your eyes and increase circulation • Anti-Virus Software Purchase anti-virus software and keep it up-to-date Scan your PC each time you turn on your PC Anti-virus software will protect your computer from dangerous viruses • Basic Cleaning Clean your monitor with a clean soft cloth using water or isopropyl alcohol if needed Clean your keyboard with a clean soft cloth – if needed, use isopropyl alcohol to remove grime – only use a small amount on a clean soft cloth.
    [Show full text]
  • Visunet Edge KM8622 KVM Workstation Dimensions
    KVM Workstation VisuNet Edge KM8622 Features • Extended temperature range for indoor/outdoor use • Fiber or Cat5 KVM communication for keyboard and touchscreen • Modular design for field maintainability • Solution for Class I, Div. 1 areas • Utilizes 6000 Series Type X purge • Variety of keyboard and mounting options • Watershed housing allows for proper drainage • Widescreen 16:10 aspect ratio Application The VisuNet Edge is a universal design that is well suited for many applications. Unit features a hazardous area KVM for keyboard and touchscreen inputs. The intrinsically safe touchscreen properly protects the touchscreen interface. Specifically designed for manufacturing environments where dust, bacteria, water, and other undesirable materials might accumulate, the sloped enclosure provides washdown solutions with proper drainage to prevent standing water. The formed lip enclosure opening prevents the flow of liquid or other contaminants from entering the enclosure. Dimensions Release date 2017-04-13 21:33 date 2017-04-13 Release of issue 2017-04-13 Date t159185_eng.xml Refer to "General Notes Relating to Pepperl+Fuchs Product Information". Pepperl+Fuchs Group USA: +1 330 486 0002Germany: +49 621 776 2222 Singapore: +65 6779 9091 1 www.pepperl-fuchs.com [email protected] [email protected] [email protected] Technical data VisuNet Edge KM8622 General specifications Distance Transmitter "K3": 300 m (1000 ft) Transmitter "K4": 120 m (400 ft) Transmitter "K5": 200 m (650 ft), 62.5 µ multimode; 400 m (1300 ft), 50.0 µ multimode Supply Connection Monitor: power, CAT5, fiber (LC) Power consumption Main unit: 70 W max, 100 ..
    [Show full text]
  • Mouse / Pointing Device
    Mouse / Pointing Device Overview There are a number of ailments that can come from using your mouse incorrectly, from sore wrists to aching shoulders. They may take years to develop, but once present, can be difficult to reverse. That's why it is so important - even if you're not currently feeling pain - to position and use your mouse properly so that you avoid future problems. Set-up & Positioning 1. Place your mouse close to your keyboard and within easy reach. Placing your mouse too far away can cause your shoulders muscles to tire from constantly supporting your outstretched arm, leading to neck and shoulder pain. Keeping it close to your keyboard means you won't have to overstretch when reaching for the mouse. 2. Keep your mouse close to your keyboard. Placing your mouse on a desk if your keyboard is on a tray can cause you to overreach, and result in shoulder or neck pain. You should be able to use your mouse comfortably with your arms close to your side, and your elbows at a slightly "open" angle. 3. Consider a mouse tray to help keep your mouse near your keyboard. Your mouse should be close to your keyboard, and both should be comfortably placed. If you are using a keyboard tray, the best position for your mouse is on an adjustable tray that slides over the numeric keypad of your keyboard, putting your mouse about 2 inches above your keyboard (known as a mouse bridge). If your keyboard tray has a mouse tray to the side that tilts, then try angling it down slightly to improve your wrist posture.
    [Show full text]
  • • Summary • Features • Options • Specifications
    Rugged Pointing Devices • Summary • Features • Options • Specifications Product Summary: Pointing Devices Cortron offers a variety of Commercial Off The Shelf (COTS), custom and semi- custom Trackballs, Handgrips, Joysticks and our unique DuraPuck Pointing pointing devices. As with all Cortron products, our standalone products are designed to meet the rigors of even the most hostile industrial and military environments, making it ideal for critical applications such as Air Traffic Control, Weapons Systems and Tactical Field operations where continuous long-term cursor control is required and reliable performance is paramount. Highly ergonomic designs of the pointing devices and integrated button actuators promotes maximum operator efficiency by significantly reducing the keystroking movements and accompanying stress typically associated with intensive human machine interfaces. Cortron Rugged pointing devices are designed to be virtually impervious to liquids, sand, dust, and other types of contaminants found in harsh applications, both indoors and in the field. Vital components are sealed for long-term protection and survival. Cortron Rugged pointing devices are designed in a modular fashion – typically utilizing similar (or same) set of electronics and are configured to meet a particular requirement. Rugged Pointing Devices 2014_09 Rev D Rugged Pointing Devices Typical Pointing Device Features include: Spill Proof/Dust Proof designs for even the harshest conditions Precise movement and response with smooth acceleration curve for ease
    [Show full text]
  • Advantages of Magnetic Mice Over Trackballs As Input Devices on Moving Platforms
    Advantages of Magnetic Mice over Trackballs as input devices on moving platforms Stefan Röttger1, Saskia Vetter1, & Sören Ollhoff2 1German Naval Medical Institute 2Federal Office of Bundeswehr Equipment, Information Technology and In-Service Support Germany Abstract Although ergonomic studies show that cursor control with a computer mouse is faster and sometimes more accurate than cursor control with a trackball, trackballs are the standard input device for cursor movements on many moving platforms such as airplanes and ships. One reason for this is that trackballs can be fixed to the workstation, which prevents involuntary cursor movements that could otherwise be induced by movements of the platform. In this study, standard trackballs and computer mice with magnetic adhesion to the mouse pad were evaluated by 18 sailors of the German Navy after 26 days of computer operation on their moving ship. Results show that users of magnetic mice performed better and showed less muscular fatigue than trackball users. Thus, magnetic mice should be considered as the standard input device on moving platforms. Introduction Although the standard input device for cursor control in the operation of most computer systems is the computer mouse, trackballs are commonly used for cursor control on moving platforms such as ships or airplanes. There are two reasons for this preference of trackballs: first, on many moving platforms, there is only limited space to accommodate the human-computer-interface and less space is required for the operation of a trackball. Second, trackballs can be fixed to the workplace, which is intended to prevent motion-induced shifts of the device and the cursor on the computer screen.
    [Show full text]