Digital Projection HIGHlite 660 3D Series Installation And Quick Start Manual
High brightness digital video projector
connection guide
operating guide
reference guide
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- Page 1 HIGHlite 660 3D Series High Brightness Digital Video Projector 4INSTALLATION AND QUICK-START GUIDE 4CONNECTION GUIDE 4OPERATING GUIDE 4REFERENCE GUIDE Rev E February 2015 114-242E...
- Page 2 NOTE: this symbol indicates that there is some important information that you should read. Product revision Because we at Digital Projection continually strive to improve our products, we may change specifications and designs, and add new features without prior notice.
- Page 3 Digital Projection HIGHlite 660 3D Series Introduction Notes Congratulations on your purchase of this Digital Projection product. Your projector has the following key features: • Support for most 3D standards • Full range of digital and legacy analog inputs •...
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Page 4: Table Of Contents
Digital Projection HIGHlite 660 3D Series CONTENTS INSTALLATION AND QUICK-START GUIDE Adjusting the image................19 ......1 ..................19 Orientation WHAT’S IN THE BOX? ..............3 ................... 19 Keystone CONNECTING THE POWER SUPPLY ..........4 ....................19 Picture PROJECTOR OVERVIEW ............... 5 Front and rear views ................ -
Page 5: Operating Guide
Digital Projection HIGHlite 660 3D Series CONTENTS (continued) Image menu ..................44 CONTROL CONNECTIONS ............30 HDBaseT/LAN..................30 ..................44 Video Filters Wired remote control ................30 ..................44 VGA Setup Service port ..................31 Color menu..................45 RS232 ....................31 .................... - Page 6 Digital Projection HIGHlite 660 3D Series CONTENTS (continued) Some 3D settings explained ............... 78 Full lens calculation example ............100 ..................78 Dark Time SCREEN REQUIREMENTS ............101 ................78 Fitting the image to the DMD™ ............101 Source Dominance ..................
- Page 7 Digital Projection HIGHlite 660 3D Series CONTENTS (continued) ................... 149 APPENDIX B: LENS CHARTS ............ 123 HDMI 2 and 3 How to use the lens charts ..............123 .................. 149 HDBaseT input How to find the right lens chart............124 Control connections ................
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Page 9: Installation And Quick-Start Guide
HIGHlite 660 3D Series High Brightness Digital Video Projector INSTALLATION AND QUICK-START GUIDE Rev E February 2015... - Page 10 Digital Projection HIGHlite 660 3D Series IN THIS GUIDE IN THIS GUIDE What’s In The Box? ..................... 3 Adjusting the image ....................Connecting The Power Supply ................ 4 Orientation ........................Projector Overview ..................... 5 Keystone ......................... Front and rear views ....................
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Page 11: What's In The Box
Digital Projection HIGHlite 660 3D Series WHAT’S IN THE BOX? What’s In The Box? Notes Make sure your box contains everything listed. If any pieces are missing, contact your dealer. You should save the original box and packing materials, in case you ever need to ship your projector. -
Page 12: Connecting The Power Supply
Digital Projection HIGHlite 660 3D Series CONNECTING THE POWER SUPPLY Connecting The Power Supply Notes Lift the cable lock up, push the mains connector in firmly and push the lock down to secure the cable. Use only the power cable provided. -
Page 13: Projector Overview
Digital Projection HIGHlite 660 3D Series PROJECTOR OVERVIEW Projector Overview Notes Front and rear views Front infrared window Lens Air outlet Adjustable feet Control panel Rear infrared window Front view Connection panel Power switch and power connection Air inlet Rear view... -
Page 14: Control Panel Indicators
Digital Projection HIGHlite 660 3D Series PROJECTOR OVERVIEW Control panel indicators Notes Power indicator During startup all LEDs light up at the same time to indicate the Behavior Meaning projector is carrying out a self-test. The projector is switched off. -
Page 15: Remote Control
Digital Projection HIGHlite 660 3D Series REMOTE CONTROL Remote Control Notes The remote control is shipped with no battery fitted. Remove the back cover and insert the supplied cells while observing the correct cell polarity. Only the controls shown highlighted are used on this projector. - Page 16 Digital Projection HIGHlite 660 3D Series REMOTE CONTROL Remote control - continued from previous page Notes Lens controls Adjust position, zoom and focus. Only the controls shown highlighted are used on this projector. INFO Open the Information menu. TEST POWER Switch to test pattern.
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Page 17: Infrared Reception
Digital Projection HIGHlite 660 3D Series REMOTE CONTROL Infrared reception Notes The projector has infrared sensors at the front and back. 40° The angle of acceptance is 40°. Make sure that the remote control is within the angle of acceptance when trying to Infrared reception is confirmed by control the projector. -
Page 18: Remote Control Troubleshooting
Digital Projection HIGHlite 660 3D Series REMOTE CONTROL Remote control troubleshooting Notes The remote control is shipped with no battery fitted. Remove the back cover and insert the supplied cells while observing the correct cell polarity. The infrared receivers are disabled when a remote control is connected via a cable. -
Page 19: Positioning The Screen And Projector
Digital Projection HIGHlite 660 3D Series POSITIONING THE SCREEN AND PROJECTOR Positioning The Screen And Projector Notes Install the screen, ensuring that it is in the best position for viewing by your audience. Always allow the projector to Mount the projector, ensuring that it is at a suitable distance cool for five minutes before from the screen for the image to fill the screen. -
Page 20: Tilting The Projector
Digital Projection HIGHlite 660 3D Series POSITIONING THE SCREEN AND PROJECTOR Tilting the projector Notes Pitch Always allow the projector to The projector can be positioned at any angle. cool for five minutes before disconnecting the power or moving the projector. -
Page 21: Adjusting The Optional Rigging Frame
Digital Projection HIGHlite 660 3D Series POSITIONING THE SCREEN AND PROJECTOR Adjusting the optional rigging frame Notes Remove the four adjustable feet. Always allow the projector to Secure the rigging frame to the projector, as cool for five minutes before... -
Page 22: Changing The Lens
Digital Projection HIGHlite 660 3D Series CHANGING THE LENS Changing The Lens Notes Inserting a new lens Before changing the lens, Remove the six screws securing the front cover to the body of always make sure the projector the projector. -
Page 23: Removing The Lens
Digital Projection HIGHlite 660 3D Series CHANGING THE LENS Removing the lens Notes Remove the six screws securing the front cover to the body of the projector. Remove the front cover from the projector. Before changing the lens, always make sure the projector... -
Page 24: Operating The Projector
Digital Projection HIGHlite 660 3D Series OPERATING THE PROJECTOR Operating The Projector Notes Switching the projector on Connect the power cable between the mains supply and the projector. Switch on at the switch next to the power connector. Wait until the self-test has completed and the standby indicator on the projector control panel shows amber. The lamp will be off and the The self-test is running when all the projector will be in STANDBY mode. -
Page 25: Selecting An Input Signal Or Test Pattern
Digital Projection HIGHlite 660 3D Series OPERATING THE PROJECTOR Selecting an input signal or test pattern Notes Input signal Connect an image source to the projector. For full details of how to use the controls and the menu system, see... -
Page 26: Adjusting The Lens
Digital Projection HIGHlite 660 3D Series OPERATING THE PROJECTOR Adjusting the lens Notes The lens can be adjusted using the menu, or: Lens Zoom When any of the three lens • adjustment buttons is pressed, Press ZOOM , then use the DOWN arrow buttons on the keypad or remote control to adjust the size of the image on the screen. -
Page 27: Adjusting The Image
Digital Projection HIGHlite 660 3D Series OPERATING THE PROJECTOR Adjusting the image Notes Orientation • Main Menu This can be set from the menu. Setup Setup Select the orientation which suits the positioning of the projector. Lens shift works from the audience’s perspective, regardless of projector orientation. - Page 28 Digital Projection HIGHlite 660 3D Series This page is intentionally left blank. Installation and Quick-Start Guide...
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Page 29: Connection Guide
HIGHlite 660 3D Series High Brightness Digital Video Projector CONNECTION GUIDE Rev E February 2015... - Page 30 Digital Projection HIGHlite 660 3D Series IN THIS GUIDE IN THIS GUIDE Signal Inputs And Outputs ................23 Analog inputs ......................Digital inputs and outputs ..................Low latency inputs ....................DVI connection example ................... EDID on the DVI and VGA inputs ................
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Page 31: Signal Inputs And Outputs
Digital Projection HIGHlite 660 3D Series SIGNAL INPUTS AND OUTPUTS Signal Inputs And Outputs Notes Analog inputs For a complete listing of pin configurations for all signal and Component control connectors, see Appendix When using RGsB or RGBs: E: Wiring Details in the Reference •... -
Page 32: Digital Inputs And Outputs
Digital Projection HIGHlite 660 3D Series SIGNAL INPUTS AND OUTPUTS Digital inputs and outputs Notes DVI 1 This input has a DVI-I connector, which can receive For further information on setting either analog (DVI-A) or digital (DVI-D) signal from a... -
Page 33: Low Latency Inputs
Digital Projection HIGHlite 660 3D Series SIGNAL INPUTS AND OUTPUTS Low latency inputs Notes The following inputs have been designed to offer access to a very high bandwidth digital video path, free of the limitations inherent to standard image processing techniques: There is no scaler on the low latency •... -
Page 34: Dvi Connection Example
Digital Projection HIGHlite 660 3D Series SIGNAL INPUTS AND OUTPUTS DVI connection example Notes Notes DVI 1 Single link DVI video source Single link DVI video source DVI 2 (top socket) Dual Pipe 3D video source DVI 2 (top and bottom) -
Page 35: Edid On The Dvi And Vga Inputs
Digital Projection HIGHlite 660 3D Series SIGNAL INPUTS AND OUTPUTS EDID on the DVI and VGA inputs Notes If you connect a computer graphics card or other source which uses DDC to discover the capabilities of the attached display, it will automatically configure itself to the best settings when connected to the projector via DVI, HDMI or VGA inputs. -
Page 36: 3D Connections
Digital Projection HIGHlite 660 3D Series SIGNAL INPUTS AND OUTPUTS 3D connections Notes 3D sources up to 60Hz requiring frame doubling and left/right interleaving For a complete listing of pin Connect to any of the inputs on the connection panel. -
Page 37: 3D Sync
Digital Projection HIGHlite 660 3D Series SIGNAL INPUTS AND OUTPUTS 3D Sync Notes 3D Sync in • Sync input signal. For a complete listing of pin configurations for all signal and Connect the 3D sync from your graphics card or server. -
Page 38: Control Connections
Digital Projection HIGHlite 660 3D Series CONTROL CONNECTIONS Control Connections Notes HDBaseT/LAN For a list of all commands used to • This input can be used as a LAN port, or as an HDBaseT signal input, or both at the same time. The control the projector via LAN, see HDBaseT function is described in Signal Inputs And Outputs >... -
Page 39: Service Port
Digital Projection HIGHlite 660 3D Series CONTROL CONNECTIONS Service port Notes • The Service port is used to download, via USB, firmware updates issued from time to time by Digital Projection. For a complete listing of pin RS232 configurations for all signal and •... -
Page 40: Lan Connection Examples
Digital Projection HIGHlite 660 3D Series CONTROL CONNECTIONS LAN connection examples Notes The projector’s features can be controlled via a LAN connection, using a standard internet browser or a terminal-emulation program. The examples below illustrate LAN connectivity using the HDBaseT/LAN port; alternatively, you can connect the projector to a LAN network using the Control port. -
Page 41: Rs232 Connection Example
Digital Projection HIGHlite 660 3D Series CONTROL CONNECTIONS RS232 connection example Notes Null-modem cable Computer Projector RS232 Back panel with control connections Connection Guide Rev E February 2015 page 33... - Page 42 Digital Projection HIGHlite 660 3D Series This page is intentionally left blank. Connection Guide...
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Page 43: Operating Guide
HIGHlite 660 3D Series High Brightness Digital Video Projector OPERATING GUIDE Rev E February 2015... - Page 44 Digital Projection HIGHlite 660 3D Series IN THIS GUIDE IN THIS GUIDE Using The Menus ....................37 Blending .......................... Menus and sub-menus ..................... Segmentation ........................Drop-down lists ......................Blend Width ........................Sliders ........................Black Level Uplift ......................Commands ......................... Reduce Black Level Uplift Width ..................
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Page 45: Using The Menus
Digital Projection HIGHlite 660 3D Series USING THE MENUS Using The Menus Notes Use the buttons on the projector control panel or on the remote control, to access the menu system. Some menu items may not be • To open or close the on-screen display (OSD), press... -
Page 46: Drop-Down Lists
Digital Projection HIGHlite 660 3D Series USING THE MENUS Drop-down lists Notes To use a drop-down list: Navigate to the drop-down list in the menu and Some menu items may not be press available due to settings in other menus. These will be grayed out on the actual menu. -
Page 47: Sliders
Digital Projection HIGHlite 660 3D Series USING THE MENUS Sliders Notes To use a slider, press the arrow buttons to adjust it. LEFT RIGHT Some menu items may not be available due to settings in other menus. These will be grayed out on the actual menu. -
Page 48: Editing Fields
Digital Projection HIGHlite 660 3D Series USING THE MENUS Editing fields Notes Some features require a text or numeric field to be edited. To edit a field, first select it using the LEFT RIGHT arrow buttons, then press Some menu items may not be... -
Page 49: Using The Projector
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Using The Projector Notes Using the Menus See also earlier in this guide and Appendix D: Menu Main menu in the Reference Guide. • Input Selection Main Menu Select an input source from the drop-down list. -
Page 50: Lens Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Lens menu Notes Zoom Main Menu To move the lens in or out: Lens Select Zoom In Zoom Out , then press When the image is the desired size, select and then press... -
Page 51: Nudge
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Nudge Notes To position the image correctly on the screen, use the Nudge controls. Main Menu Lens Nudge Another way of moving the lens is by using the SHIFT button on the keypad or the remote. -
Page 52: Image Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Image menu Notes • Brightness Contrast Gamma Saturation Set the slider or select from the drop-down list as required, to improve the quality of the image. Main Menu Image • Black Level Offset... -
Page 53: Color Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Color menu Notes Gamut Main Menu gives you the brightest possible image. Peak Color Choose HDTV for high definition standards and SDTV for standard definition standards. A value between selects the relevant color temperature. -
Page 54: Geometry Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Geometry menu Notes Aspect Ratio Main Menu Choose from Source Fill Display Fill & Crop, Anamorphic TheaterScope Geometry Some devices (e.g. certain DVD players) pack a 16:9 image into a 4:3 aspect ratio. In such cases, to display the image correctly, choose the aspect ratio. -
Page 55: Size & Position
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Size & Position Notes • Enable • to choose: Setting Main Menu Geometry Global , in which case these settings will be applied to all signals on all inputs. Size & Position , in which case these settings will be applied only to the current input signal. -
Page 56: Geometry Engine
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Geometry Engine Notes Choose from Keystone Cornerstone Rotation Warp • is set to , set the sliders to correct Geometry Engine Keystone H Keystone V Keystone Main Menu for any distortion caused by the projector being in a different horizontal or vertical plane to the Geometry screen. - Page 57 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Geometry Engine (continued) Notes Keystone settings Main Menu Geometry Projector to the left The projector is positioned If possible, position the projector to the left of the screen. facing the screen at a right angle to To correct, apply a positive avoid geometry corrections.
- Page 58 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Geometry Engine (continued) Notes Main Menu Geometry Some items on this menu may • is enabled if is set to Keystone or Rotation. Pincushion / Barrel Geometry Engine be unavailable depending on the setting.
- Page 59 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Geometry Engine (continued) Notes Main Menu Geometry Some items on this menu may be unavailable depending on the setting. Geometry Engine • Geometry Engine is set to Rotation, set the Rotation slider to rotate the image on the screen.
- Page 60 Warp Map setting. Geometry Engine Using DP Warp Generator, an external Digital Projection computer application, up to eight customized warp maps can be created and uploaded to the projector. If is set to Geometry Engine Warp, and any warp maps have been uploaded, you can select from the drop-down list.
- Page 61 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Geometry Engine (continued) Notes Main Menu Geometry Cornerstone Cornerstone is selected from the main page, you can use Cornerstone Geometry the sliders to stretch the image from each of the four corners.
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Page 62: Edge Blend Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend menu Notes Main Menu Edge Blend Overview This menu is available only when When several projectors are used to create a large tiled Setup > System > Configuration image, the edges need to be blended to avoid the overlaps... -
Page 63: Array H Position And V Position
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Array Width and Height Notes • Set this to the total number of projectors in the array. None of the other options are available until one of these two settings is greater than . -
Page 64: S-Curve Value
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR S-Curve Value Notes • In the regions where two or more projectors overlap, the brightness of the signal is decreased to blend the images. S-Curve Value controls the Main Menu steepness of this decrease. - Page 65 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR S-Curve Value (continued) Notes When images overlap, the area of overlap receives light from all overlapping sources. Without S-Curve, the overlapping edges would be brighter than the rest of the image, as shown in Fig. 1.
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Page 66: Blending
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Blending Notes This setting enables s-curve blending, or displays an align pattern to help define overlaps between segments. Main Menu Edge Blend This menu is available only when Setup > System >... -
Page 67: Segmentation
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Segmentation Notes Segmentation can be used if the same image is fed into each projector. • , every projector in the array will display the whole image. Segmentation Main Menu Edge Blend •... - Page 68 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Segmentation (continued) Notes An example array: Main Menu Edge Blend For a detailed step-by-step description of the edge blend process, see Blending images from multiple projectors further in this section. Image source DVD player, Blu-ray, computer, etc.
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Page 69: Blend Width
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Blend Width Notes Use this to set the width of the blended regions. Top Blend Region To apply the settings in these menus, use the Apply command at Bottom Blend Region the bottom of each page. -
Page 70: Reduce Black Level Uplift Width
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Reduce Black Level Uplift Width Notes Use this to correct for stray light from the pond of mirrors, the DMD’s inactive outermost mirrors. Main Menu Edge Blend Reduce Black Level Uplift Width... - Page 71 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Reduce Black Level Uplift Width (continued) Notes A detailed view of one of the projectors in a Main Menu two-projector array: Edge Blend Reduce Black Level Uplift Width Black level uplift region This image occupies the left half of a two-projector array.
- Page 72 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Reduce Black Level Uplift Width (continued) Notes In the Reduce Black Level Uplift Main Menu menu, settings correspond Width Edge Blend to coordinates within the unblended Reduce Black Level Uplift Width regions.
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Page 73: Blending Images From Multiple Projectors
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Blending images from multiple projectors Notes The following procedure explains how to set up an array of projectors and how to blend the images together. Before you start Position the projectors Ensure that all projectors are in good working order. -
Page 74: Edge Blend Procedure
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend procedure Notes Align the projectors as they will be used in the array. Each projector should be perpendicular to the screen, or as close as possible. Ideally, each projector should allow for a minimum of 20% screen overlap where it is adjoined by other projectors. - Page 75 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend procedure (continued) Notes Ensure that all projectors are color-matched. If necessary, use the White Field test pattern and test the light output of each projector. Ensure the setting has the same value across the array.
- Page 76 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend procedure (continued) Notes Set up the array. For each projector, open the Edge Blend menu and enter Array Width Array Height Array H Position Array V Position should be identical for all projectors. These settings define the size of the array. For example, a two-by-...
- Page 77 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend procedure (continued) Notes Define blend regions. From the Edge Blend menu on all projectors, Blending Align Pattern Set up Blend Width on each projector so that the align patterns overlap perfectly and completely cover the blend regions (Fig.
- Page 78 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend procedure (continued) Notes Uplift black levels (optional). If you do not need to uplift the black levels, skip to step 8, Blend the images. Switch all projectors to the Black Field test pattern.
- Page 79 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend procedure (continued) Notes Adjust uplift edges (optional). This step is necessary if you have uplifted the black levels in the previous step. During the black level uplift process, brighter lines appear on the edges of the uplifted regions.
- Page 80 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend procedure (continued) Notes Blend the images. Edge Blend > Blending each projector to activate s-curves in the blend regions. Once blending is activated, use test patterns to detect irregularities within the blend and to correct them.
- Page 81 Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Edge Blend procedure (continued) Notes Set up segmentation (optional). If you are feeding the same source into all the projectors and aim to have each projector reproduce a segment of the source, you can use Edge Blend >...
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Page 82: Pip Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR PIP menu Notes Two images can be combined, in three different ways using this feature. The PIP menu is available only when > > is set to Setup System Configuration Main Menu Option •... -
Page 83: 3D Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR 3D menu Notes • as required. 3D Enable • Use the Frame Rate Multiplier to reduce flicker when the incoming 3D video signal has a low Main Menu frame rate. For example, a 48 Hz frame rate could be tripled to 144 Hz. -
Page 84: Types
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR 3D types Notes In most situations you can use the Auto setting to have the projector automatically detect the format. Otherwise, consider the notes below to help you set up the 3D input manually. -
Page 85: 3D Types
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR 3D types (continued) Notes • Frame Packing This format will be detected, re-synchronized, frame-multiplied and displayed at 144 Hz with the left eye / right eye dominance automatically extracted from the video data. You need to optimize Dark Time manually to suit your chosen switching glasses. -
Page 86: Some 3D Settings Explained
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Some 3D settings explained Notes Fully on Dark Time Left Right Ghosting can be caused by the left and right images In order to achieve maximum light overlapping during the time that the ZScreen or 3D output and a smooth grayscale, glasses are switching. -
Page 87: Frame Rate Multiplier
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Frame Rate Multiplier Notes If the 3D video is available only at low frame rates, it will be necessary to multiply the frame rate to obtain a flicker-free image. For example, a 60Hz frame rate can be doubled to 120 Hz, or a 48 Hz frame rate could be tripled to 144 Hz. -
Page 88: Lamps Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Lamps menu Notes to choose between . In the Operation Lamp 1 + Lamp 2 Lamp 1 Lamp 2 Auto 1 Auto 1 mode, the lamp usage will be spread evenly over the two lamps, over time. -
Page 89: Setup Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Setup menu Notes • Orientation Depending on how the projector is mounted, select the appropriate setting from the drop-down Main Menu Setup list. • Latency Affects interlaced sources only. For fastest response, the... -
Page 90: Input Configuration
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Input Configuration Notes This menu allows adjustment of various technical parameters specific to each of the signal inputs: • should normally be set to except when you are having problems with a long... -
Page 91: Network
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Network Notes This menu allows setup of two networks, using the Control and LAN inputs respectively. Main Menu Setup Network Any new settings will not be effective until the projector has been power cycled. -
Page 92: On Screen Display
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR On Screen Display Notes • Select a display Language from the drop-down list. • The menus will disappear if no buttons are pressed within the selected from the drop- Timeout Main Menu down list. -
Page 93: System
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR System Notes • Configuration : switch between Edge Blend Main Menu Setup • to set an address for the remote control. IR Address System The other settings in this menu are provided mainly to allow control from the Virtual OSD. -
Page 94: Setting Up An Ir Address
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Setting up an IR address Notes The projector and the remote control need a matching IR address: a two-digit number Main Menu between 00 and 99. Setup System The default IR address is 00. This is also a master address, which, if assigned to a remote, will work regardless of the value assigned to the projector. -
Page 95: Information Menu
Digital Projection HIGHlite 660 3D Series USING THE PROJECTOR Information menu Notes This menu gives information about lamp operating times, software and hardware configuration, input source and network settings. The values shown in the menus on this page are examples and may differ significantly on your OSD. - Page 96 Digital Projection HIGHlite 660 3D Series This page is intentionally left blank. Operating Guide...
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Page 97: Reference Guide
HIGHlite 660 3D Series High Brightness Digital Video Projector REFERENCE GUIDE Rev E February 2015... - Page 98 Digital Projection HIGHlite 660 3D Series IN THIS GUIDE IN THIS GUIDE The DMD™ ......................92 Frame Rates And Pulldowns Explained ........... 119 Interlaced and progressive scan ................Choosing A Lens ....................94 Frame rates of image sources ................Basic calculation .......................
- Page 99 Digital Projection HIGHlite 660 3D Series IN THIS GUIDE IN THIS GUIDE (continued) Appendix D: Menu Map .................. 138 Control connections ....................Input Selection ....................... Update port ........................Test Pattern ......................Service port ........................Lens ......................... Wired remote control ....................
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Page 100: The Dmd
Digital Projection HIGHlite 660 3D Series THE DMD™ The DMD™ Notes A DMD™ (Digital Micromirror Device™) is a true digital light modulator which utilizes an array of up to 2.3 million moving aluminium mirrors, with each one representing a pixel in the final projected image. The outermost micromirrors in the array remain inactive (pond of mirrors) and are not used in constructing the image. - Page 101 Digital Projection HIGHlite 660 3D Series THE DMD™ Notes Depending on the voltage polarity applied, each mirror will either tilt to the left to produce a bright pixel or to the right for a dark pixel. When light is applied to the complete DMD™, only the light redirected from a mirror tilting to the left is projected.
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Page 102: Choosing A Lens
Digital Projection HIGHlite 660 3D Series CHOOSING A LENS Choosing A Lens Notes A number of lenses are available. Which lens you choose depends on the screen size, image aspect ratio, throw distance and light output. For information about individual lens... -
Page 103: Basic Calculation
Digital Projection HIGHlite 660 3D Series CHOOSING A LENS Basic calculation Notes Identify the required lens by calculating the throw ratio. A throw ratio is the ratio of the throw distance to the screen width: The basic calculation on this page... -
Page 104: Basic Calculation Example
Digital Projection HIGHlite 660 3D Series CHOOSING A LENS Basic calculation example Notes Calculate the throw ratio using the formula. INFORMATION YOU NEED FOR THIS CALCULATION The basic calculation on this page does not take into consideration Your screen is 4.5 m wide and you wish to place the projector DMD™... -
Page 105: Full Lens Calculation
Digital Projection HIGHlite 660 3D Series CHOOSING A LENS Full lens calculation Notes Introducing TRC The choice of lens will affect the image size and will address discrepancies between the DMD™ resolution and the source. TRC can only be applied if greater When an image fills the height of the DMD™... -
Page 106: Calculating Trc
Digital Projection HIGHlite 660 3D Series CHOOSING A LENS Calculating TRC Notes To calculate TRC, use the following formula: DMD™ aspect ratio TRC can only be applied if greater TRC = than 1. If TRC is 1 or less, disregard... -
Page 107: Calculating The Throw Ratio With Trc
Digital Projection HIGHlite 660 3D Series CHOOSING A LENS Calculating the throw ratio with TRC Notes For TRC > 1, amend the basic throw ratio formula as follows: Throw distance TRC can only be applied if greater Throw ratio = than 1. -
Page 108: Full Lens Calculation Example
Digital Projection HIGHlite 660 3D Series CHOOSING A LENS Full lens calculation example Notes INFORMATION YOU NEED FOR THESE CALCULATIONS Your screen is 4.5 m wide; you wish to place the projector approximately 11 m from the screen. You use a WUXGA projector;... -
Page 109: Screen Requirements
Digital Projection HIGHlite 660 3D Series SCREEN REQUIREMENTS Screen Requirements Notes Fitting the image to the DMD™ If the source image supplied to the projector is smaller than the DMD™ resolution, the image will not fill the DMD™. The following examples show how a number of common formats may be displayed, depending on your DMD™... -
Page 110: 1080P Images Displayed Full Height
Digital Projection HIGHlite 660 3D Series SCREEN REQUIREMENTS 1080p images displayed full height Notes 4:3 = 1.33:1 = 1440 pixels 16:10 = 1.6:1 = 1728 pixels 1.66:1 (Vista) = 1792 pixels 16:9 = 1.78:1 = 1920 pixels (native resolution) Reference Guide... -
Page 111: Wuxga Images Displayed Full Width
Digital Projection HIGHlite 660 3D Series SCREEN REQUIREMENTS WUXGA images displayed full width Notes full width = 1920 pixels WUXGA images displayed with a height of 1080 pixels 4:3 = 1.33:1 = 1440 pixels 16:10 = 1.6:1 = 1728 pixels 1.66:1 (Vista) = 1792 pixels... -
Page 112: Wuxga Images Displayed Full Height
Digital Projection HIGHlite 660 3D Series SCREEN REQUIREMENTS WUXGA images displayed full height Notes Only WUXGA or UXGA images can fill the full height of the DMD™, using all 1200 pixels without scaling. UXGA = 4:3 = 1.33:1 = 1600 pixels WUXGA = 16:10 = 1.6:1 = 1920 pixels... -
Page 113: Diagonal Screen Sizes
Digital Projection HIGHlite 660 3D Series SCREEN REQUIREMENTS Diagonal screen sizes Notes Screen sizes are sometimes specified by their diagonal size (D). When dealing W = width with large screens and projection distances at different aspect ratios, it is more convenient to measure screen width (W) and height (H). -
Page 114: Fitting The Image To The Screen
Digital Projection HIGHlite 660 3D Series SCREEN REQUIREMENTS Fitting the image to the screen Notes It is important that your screen is of sufficient height and width to display images at all the aspect ratios you are planning to use. -
Page 115: Positioning The Screen And Projector
Digital Projection HIGHlite 660 3D Series SCREEN REQUIREMENTS Positioning the screen and projector Notes For optimum viewing, the screen should be a flat surface perpendicular to the floor. The bottom of the screen should be 1.2 m The projector should be installed... -
Page 116: Positioning The Image
Digital Projection HIGHlite 660 3D Series POSITIONING THE IMAGE Positioning The Image Notes The normal position for the projector is at the centre of the screen. However, you can set the projector above or below the centre, or to one side, and adjust the image using the Lens shift feature (known as rising and falling front) to maintain a geometrically correct image. - Page 117 Digital Projection HIGHlite 660 3D Series POSITIONING THE IMAGE Notes Any single adjustment outside the ranges specified on the following page may result in an unacceptable level of distortion, particularly at the corners of the image, due to the image passing through the periphery of the lens optics.
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Page 118: Maximum Offset Range
Digital Projection HIGHlite 660 3D Series POSITIONING THE IMAGE Maximum offset range Notes The maximum offset range available with no distortion or vignetting is dependent on which lens is used. Shifting the lens beyond its undistorted limits may be physically possible, however you may experience some vignetting or distortion. -
Page 119: Aspect Ratios Explained
Digital Projection HIGHlite 660 3D Series ASPECT RATIOS EXPLAINED Aspect Ratios Explained Notes The appearance of a projected image on the screen depends on a combination of the following: • The DMD™ resolution: • 1080p with a 1920 x 1080 resolution, corresponding to an aspect ratio of 16:9 •... -
Page 120: Aspect Ratio Examples For Dmd™ Resolution 1080P
Digital Projection HIGHlite 660 3D Series ASPECT RATIOS EXPLAINED Aspect ratio examples for DMD™ resolution 1080p Notes Source: 4:3 Unused screen areas Cropped parts of the image Aspect Ratio: Source Aspect Ratio: Fill Display, Anamorphic Aspect Ratio: Fill & Crop... - Page 121 Digital Projection HIGHlite 660 3D Series ASPECT RATIOS EXPLAINED Aspect ratio examples for DMD™ resolution 1080p (continued) Notes Source: 16:9 (native resolution) Aspect Ratio: Source / Fill Display / Fill & Crop Reference Guide Rev E February 2015 page 113...
- Page 122 Digital Projection HIGHlite 660 3D Series ASPECT RATIOS EXPLAINED Aspect ratio examples for DMD™ resolution 1080p (continued) Notes Source: 16:10 Unused screen areas Cropped parts of the image Aspect Ratio: Source Aspect Ratio: Fill Display Aspect Ratio: Fill & Crop...
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Page 123: Aspect Ratio Examples For Dmd™ Resolution Wuxga
Digital Projection HIGHlite 660 3D Series ASPECT RATIOS EXPLAINED Aspect ratio examples for DMD™ resolution WUXGA Notes Source: 4:3 Unused screen areas Cropped parts of the image Aspect Ratio: Source Aspect Ratio: Fill Display Aspect Ratio: Anamorphic Aspect Ratio: Fill & Crop... - Page 124 Digital Projection HIGHlite 660 3D Series ASPECT RATIOS EXPLAINED Aspect ratio examples for DMD™ resolution WUXGA (continued) Notes Source: 16:9 Unused screen areas Cropped parts of the image Aspect Ratio: Source Aspect Ratio: Fill Display Aspect Ratio: Fill & Crop...
- Page 125 Digital Projection HIGHlite 660 3D Series ASPECT RATIOS EXPLAINED Aspect ratio examples for DMD™ resolution WUXGA (continued) Notes Source: 16:10 (native resolution) Aspect Ratio: Source / Fill Display / Fill & Crop Reference Guide Rev E February 2015 page 117...
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Page 126: Aspect Ratio Example: Theaterscope
Digital Projection HIGHlite 660 3D Series ASPECT RATIOS EXPLAINED Aspect ratio example: TheaterScope Notes setting is used in combination with an anamorphic lens to restore 2.35:1 images packed into a 16:9 frame. Such images TheaterScope are projected with black lines at the top and bottom of the 16:9 screen to make up for the difference in aspect ratios. -
Page 127: Frame Rates And Pulldowns Explained
Digital Projection HIGHlite 660 3D Series FRAME RATES AND PULLDOWNS EXPLAINED Frame Rates And Pulldowns Explained Notes Interlaced and progressive scan A progressive scan is a method of updating the image by drawing all the lines of each frame in a sequence. In contrast, interlaced video alternately scans odd and even lines. -
Page 128: Pulldowns - Conversion Into Destination Formats
Digital Projection HIGHlite 660 3D Series FRAME RATES AND PULLDOWNS EXPLAINED Pulldowns - conversion into destination formats Notes Pulldowns are a method of converting a 24p source into a different destination format by adding extra frames to the source. 2:3 (normal) pulldown This method is used to convert a 24p source (film) into a 60i destination (NTSC video) by adding two extra fields for every four frames, effectively increasing the frame rate to 30 fps. -
Page 129: 2:3:3:2 (Advanced) Pulldown
Digital Projection HIGHlite 660 3D Series FRAME RATES AND PULLDOWNS EXPLAINED 2:3:3:2 (advanced) pulldown Notes This method is very similar to the normal pulldown. Unlike the normal pulldown method, the resulting 30 fps video sequence contains only one frame containing fields from two different source frames. -
Page 130: Appendix A: Lens Part Numbers
Digital Projection HIGHlite 660 3D Series APPENDIX A: LENS PART NUMBERS Appendix A: Lens Part Numbers Notes Throw ratios Lens extension (±2%) Throw distance range Part number The throw ratios given here apply 0.77 : 1 fixed lens 80 mm (3.2 in) 1.3 - 2.5 m (4.3 - 8.2 ft) -
Page 131: Appendix B: Lens Charts
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS Appendix B: Lens Charts Notes How to use the lens charts For information about individual The lens charts on the following pages provide a quick lens part numbers, see Appendix A guide to the type of lens needed for a particular projector. -
Page 132: How To Find The Right Lens Chart
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS How to find the right lens chart Notes Charts are shown in order of DMD resolution, as follows: • 1080p For information about individual • lens part numbers, see Appendix A WUXGA earlier in this document. -
Page 133: Wuxga (1920 X 1200 Pixels)
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS WUXGA (1920 x 1200 pixels) Notes Full width images For information about individual Formats that fit the width of the DMD™ without applying a throw ratio correction (TRC) include: lens part numbers, see Appendix A earlier in this document. -
Page 134: Dmd™ Resolution 1080P / Wuxga, Full Dmd™ Width Images
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS DMD™ resolution 1080p / WUXGA, full DMD™ width images Notes For 1080p, full width images are 2.35:1 (Scope), 1.85:1 (Flat) 1.78:1 (native). For WUXGA, full width images are all of the above, plus 1.66:1 (Vista) and 1.6:1 (native). -
Page 135: Dmd™ Resolution 1080P, 1.25:1 Images
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS DMD™ resolution 1080p, 1.25:1 images Notes This chart has a TRC of 1.42, for 0.77 : 1 fixed lens 6 m (19.7 ft) use with the following images: 1.16 : 1 fixed lens 1.45 - 1.74 : 1 zoom lens... -
Page 136: Dmd™ Resolution 1080P, 1.33:1 Images
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS DMD™ resolution 1080p, 1.33:1 images Notes This chart has a TRC of 1.33, for 0.77 : 1 fixed lens 6 m (19.7 ft) use with the following images: 1.16 : 1 fixed lens 1.45 - 1.74 : 1 zoom lens... -
Page 137: Dmd™ Resolution 1080P, 1.6:1 Images
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS DMD™ resolution 1080p, 1.6:1 images Notes This chart has a TRC of 1.11, for 0.77 : 1 fixed lens 6 m (19.7 ft) use with the following images: 1.16 : 1 fixed lens 1.45 - 1.74 : 1 zoom lens... -
Page 138: Dmd™ Resolution 1080P, 1.66:1 Images
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS DMD™ resolution 1080p, 1.66:1 images Notes This chart has a TRC of 1.07, for 0.77 : 1 fixed lens 6 m (19.7 ft) use with the following images: 1.16 : 1 fixed lens 1.45 - 1.74 : 1 zoom lens... -
Page 139: Dmd™ Resolution Wuxga, 1.25:1 Images
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS DMD™ resolution WUXGA, 1.25:1 images Notes This chart has a TRC of 1.28, for 0.77 : 1 fixed lens 6 m (19.7 ft) use with the following images: 1.16 : 1 fixed lens 1.45 - 1.74 : 1 zoom lens... -
Page 140: Dmd™ Resolution Wuxga, 1.33:1 Images
Digital Projection HIGHlite 660 3D Series APPENDIX B: LENS CHARTS DMD™ resolution WUXGA, 1.33:1 images Notes This chart has a TRC of 1.2, for use 0.77 : 1 fixed lens 6 m (19.7 ft) with the following images: 1.16 : 1 fixed lens 1.45 - 1.74 : 1 zoom lens... -
Page 141: Appendix C: Supported Signal Input Modes
Digital Projection HIGHlite 660 3D Series APPENDIX C: SUPPORTED SIGNAL INPUT MODES Appendix C: Supported Signal Input Modes Notes 2D input modes SDTV 480i 720 x 480 59.94 15.73 ü ü ü 576i 720 x 576 50.00 15.63 ü ü... - Page 142 Digital Projection HIGHlite 660 3D Series APPENDIX C: SUPPORTED SIGNAL INPUT MODES Notes COMPUTER VGA59 640 x 480 59.94 31.47 ü ü ü VGA60 640 x 480 60.00 31.50 ü ü ü MACI 640 x 480 66.67 35.00 ü ü...
- Page 143 Digital Projection HIGHlite 660 3D Series APPENDIX C: SUPPORTED SIGNAL INPUT MODES Notes COMPUTER SXGA50 1280 x 1024 49.84 1057 52.68 ü ü ü (continued) SXGA60 1280 x 1024 60.02 1066 63.98 ü ü ü SXGA75 1280 x 1024 75.02 1066 79.98...
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Page 144: 3D Input Modes
Digital Projection HIGHlite 660 3D Series APPENDIX C: SUPPORTED SIGNAL INPUT MODES 3D input modes Notes Only the DVI 2 / HDMI 2 & HDMI 3 inputs support HDMI 1.4 3D formats. Geometric correction is only available when using frame... - Page 145 Digital Projection HIGHlite 660 3D Series APPENDIX C: SUPPORTED SIGNAL INPUT MODES Notes Only the DVI 2 / HDMI 2 & HDMI 3 inputs support HDMI 1.4 3D formats. Geometric correction is only 1080p23 Dual Pipe 1920 x 1080 23.98 1125 26.97...
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Page 146: Appendix D: Menu Map
Digital Projection HIGHlite 660 3D Series APPENDIX D: MENU MAP Appendix D: Menu Map Notes Main Menu Sub Menus Some of the information in this menu map is summarized. See the actual Input Selection menu on the projector for full detail. -
Page 147: Image
Digital Projection HIGHlite 660 3D Series APPENDIX D: MENU MAP Notes Main Menu Sub Menus Some of the information in this menu Image map is summarized. See the actual Brightness (slider, value range -50 ~ 50 [0]) menu on the projector for full detail. -
Page 148: Geometry
Digital Projection HIGHlite 660 3D Series APPENDIX D: MENU MAP Notes Main Menu Sub Menus Some of the information in this menu Geometry map is summarized. See the actual Aspect Ratio Source, Fill Display, Fill & Crop, Anamorphic, TheaterScope menu on the projector for full detail. -
Page 149: Edge Blend
Digital Projection HIGHlite 660 3D Series APPENDIX D: MENU MAP Notes Main Menu Sub Menus Some of the information in this menu Edge Blend map is summarized. See the actual Array Width (slider, value range 1 ~ 4) menu on the projector for full detail. -
Page 150: Pip
Digital Projection HIGHlite 660 3D Series APPENDIX D: MENU MAP Notes Main Menu Sub Menus Some of the information in this menu map is summarized. See the actual Option Off, PIP, PAP, POP menu on the projector for full detail. -
Page 151: Setup
Digital Projection HIGHlite 660 3D Series APPENDIX D: MENU MAP Notes Main Menu Sub Menus Some of the information in this menu Setup map is summarized. See the actual Orientation Desktop Front, Desktop Rear, Ceiling Front, Ceiling Rear menu on the projector for full detail. -
Page 152: Information
Digital Projection HIGHlite 660 3D Series APPENDIX D: MENU MAP Notes Main Menu Sub Menus Some of the information in this menu Setup (continued) map is summarized. See the actual System menu on the projector for full detail. Configuration PIP, Edge Blend... -
Page 153: Appendix E: Wiring Details
Digital Projection HIGHlite 660 3D Series APPENDIX E: WIRING DETAILS Appendix E: Wiring Details Notes Signal inputs and outputs For full details of all input settings, Input Configuration in the Operating Guide. 15 way D-type connector VGA: pin view of female connector... -
Page 154: Hdmi 1
Digital Projection HIGHlite 660 3D Series APPENDIX E: WIRING DETAILS HDMI 1 Notes 19 way type A connector TMDS Data 2+ For full details of all input settings, TMDS Data 2 Shield Input Configuration in the HDMI: pin view of panel connector TMDS Data 2- Operating Guide. -
Page 155: Dvi 1
Digital Projection HIGHlite 660 3D Series APPENDIX E: WIRING DETAILS DVI 1 Notes 24 way D-type connector Pin 1 TMDS data 2− Digital red− (link 1) High-bandwidth Digital Content Pin 2 TMDS data 2+ Digital red+ (link 1) Protection (HDCP) is supported on... -
Page 156: 3G-Sdi
Digital Projection HIGHlite 660 3D Series APPENDIX E: WIRING DETAILS 3G-SDI Notes 75 ohm BNC 3G-SDI signals are very high 3G-SDI connector speed digital signals which require better quality coaxial cable than CVBS 1 (Composite 1) conventional analogue video. The data rate is 3 Gigabits per second. -
Page 157: Dvi 2
Digital Projection HIGHlite 660 3D Series APPENDIX E: WIRING DETAILS DVI 2 Notes 24 way D-type connector, plus a second identical DVI socket for Dual Pipe 3D connections High-bandwidth Digital Content Pin view as described for Input 3 above. DVI: pin view of female connector Protection (HDCP) is supported on this input. -
Page 158: Control Connections
Digital Projection HIGHlite 660 3D Series APPENDIX E: WIRING DETAILS Control connections Notes Update port RJ45 socket For full details of all network settings, see Network in the Operating Guide. Update port Service port USB type B socket Pin 1... -
Page 159: Rs232
Digital Projection HIGHlite 660 3D Series APPENDIX E: WIRING DETAILS RS232 Notes 9 way D-type connector 1 unused Only one remote connection (RS232 2 Received Data (RX) or LAN) should be used at any one time. RS232: 3 Transmitted Data (TX) -
Page 160: Appendix F: Glossary Of Terms
Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Appendix F: Glossary Of Terms Notes 1080p HDTV resolution pixels aspect ratio which corresponds to 1920 x 1080 (a widescreen of 16:9). 3D active glasses Wireless battery-powered glasses with LCD shutters. Synchronization information is communicated to the glasses by means of an infrared (IR) or radio frequency (RF) emitter which is connected to the Sync Out terminal on the projector. - Page 161 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Aspect ratio Notes The proportional relationship between the width and the height of the projected image. It is represented by two numbers separated by a colon, indicating the ratio of image width and height respectively: for example, 16:9 or 2.35:1.
- Page 162 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Chrominance Notes Also known as ‘C’, this is the component, or pair of components, of an S-Video Component Video signal which describes color difference information. Cold mirror A mirror that preferentially reflects or transmits infra-red light. In a projector, a cold mirror is used to reflect the visible component of the lamp beam into the illumination optics and transmit the unwanted infrared radiation into an absorber.
- Page 163 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Contrast (electronic control) Notes The adjustment of the white point of the image without affecting the black point. This increases the intensity range of the displayed image. Contrast (optical) The intensity difference between the darkest and lightest areas of the screen.
- Page 164 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS DMD™ (Digital Micromirror Device™) Notes The optical tool that transforms the electronic signal from the input source into an optical image projected on the screen. The DMD™ of a...
- Page 165 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Frame rate Notes The number of frames shown per second (fps). In TV and video, a frame rate is the rate at which the display device scans the screen to “draw”...
- Page 166 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Horizontal Scan Rate Notes The rate at which the lines of the incoming signal are refreshed. The rate is set by the horizontal synchronization from the source and measured in Hertz.
- Page 167 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Letterboxing Notes Black margins at the top and bottom of the image. Letterboxing appears when a wider image is packed into a narrower frame without changing the original aspect ratio.
- Page 168 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Pillarboxing Notes Black margins at the left and right of the image. Pillarboxing appears when a narrower image is packed into a wider frame without changing aspect ratio. Pixel Short for Picture Element.
- Page 169 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS RGB (Red, Green and Blue) Notes An uncompressed Component Video standard. S-curve edge blend blend region A factor applied during to gradually reduce the light output within the so the combined light output of all overlapping images remains a constant.
- Page 170 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS SPDIF Notes Sony/Philips Digital Interface. A digital audio interface standard. resolution aspect ratio. (Shortened from SXGA+, stands for Super Extended Graphics A display of 1400 x 1050 pixels with a 4:3 screen Array Plus.)
- Page 171 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS TRC (Throw ratio correction) Notes A special number used in calculating throw distances throw ratios when the image does not fill the width of the DMD™. TRC is the ratio of the DMD™...
- Page 172 Digital Projection HIGHlite 660 3D Series APPENDIX F: GLOSSARY OF TERMS Notes This is the luminance input (brightness) from an S-Video Component Video signal. ZScreen A special kind of light modulator which polarizes the projected image for 3D viewing. It normally requires that images are projected onto a silver screen.
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Page 173: Technical Specifications
Digital Projection HIGHlite 660 3D Series TECHNICAL SPECIFICATIONS Technical Specifications Notes Digital Projection reserves the right to change product specifications without prior notice. Models The specifications on these pages refer to the following projectors: Series name(s) Resolution Part number Lumens... -
Page 174: Inputs And Outputs
Digital Projection HIGHlite 660 3D Series TECHNICAL SPECIFICATIONS Inputs and outputs Notes Type Connector Type Connector Video & Computer Communication & Control DVI-D / DVI-A DVI-I 3D Sync Out HDMI 1.3 HDMI 3D Sync In 3G-SDI RJ45 HDBaseT RJ45 RS232... -
Page 175: Lamps
Digital Projection HIGHlite 660 3D Series TECHNICAL SPECIFICATIONS Lamps Notes Typical lamp life Typical lamp life Lamp type Part number (full power) (Eco mode) 1500 hours 2000 hours 2 x 330 W 111-100 (lamp & housing) Up to 3000 hours in... -
Page 176: Electrical And Physical Specifications
Digital Projection HIGHlite 660 3D Series TECHNICAL SPECIFICATIONS Electrical and physical specifications Notes • Power requirements 90-240 VAC, 50-60 Hz (single phase) • Power Consumption 840 W • Thermal Dissipation 2866 BTU/hr • Fan Noise 39 dBA • Operating Temperature 0°C to 40°C (32 to 104F) - Page 177 Digital Projection HIGHlite 660 3D Series This page is intentionally left blank. Reference Guide...
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Page 178: Contact Information
Shi Ao International Center (+65) 6284-1238 (+44) 161 947 3300 powerinfo@digitalprojection.com Chaoyang District (+44) 161 684 7674 www.digitalprojection.com www.digitalprojectionasia.com Beijing 100029, PR CHINA enquiries@digitalprojection.co.uk (+86) 10 84888566 service@digitalprojection.co.uk (+86) 10 84888566-805 www.digitalprojection.co.uk techsupport@dp-china.com.cn www.dp-china.com.cn 114-242E HIGHlite 660 3D Series User Manual...
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