Christie Digital Systems Matrix Hd4 Users Manual
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Section 2: Installation and Setup 2-2 020-100001-01 Rev. 01 (04/07) Connect the Line Cord The North American-rated line cord is provided with each projector. Ensure that you are using a line cord, socket and power plug that meets the appropriate local rating standards. Plug the line cord to the AC receptacle located on the right hand side of the projector and the three-pronged end into a grounded AC outlet. Ensure the socket outlet is installed near the equipment and is easily accessible. The input voltage to the projector must be capable of 100 – 240 VAC in 500W and 1000W models and 200- 240 VAC in 1200W models. (See also Section 6 – Specifications for complete details on all power requirements.) Use the approved North American-rated line cord supplied with the projector. If you are connecting to an area outside of North America ensure an appropriately rated line cord is used. Turn the Projector ON Press the POWER button on either the remote or built-in keypad to turn the projector on. Wait a few minutes to allow the projector to warm up. The LED status window displays an active pattern of segments to indicate the projector is changing its state from powered down to powered up. The message “On” appears in the display when the projector has completed its initialization and is ready for use. Select a Source Press one of the input keys on the remote or built-in keypad to select and display the image for the source you connected in Step 3. Adjust Image Adjust the more common image settings, such as Brightness, Contrast, Gamma, Focus, Zoom etc. using the direct keys on the IR remote. You can also access the menu system and adjust these and other image settings by pressing Menu on the remote. Ste p 4 f Ste p 5 f Ste p 6 f Ste p 7 f
Section 2: Installation and Setup 020-100001-01 Rev. 01 (04/07) 2-3. Proper installation of your projector will ensure the quality of your display. Whether you are installing a projector temporarily or permanently you should take the following into account to ensure your projector performs optimally. Choose the installation type that best suits your needs: front or rear screen, floor mount or inverted mount. Front Screen, Floor Mount Installation ADVANTAGES CONSIDERATIONS • Easy to set up • Can be moved or changed quickly • Easy to access • Shares floor space with audience Front Screen, Inverted Mount (ceiling) Installation ADVANTAGES CONSIDERATIONS • Does not take up audience space • Projector is unobtrusive • Projector cannot be accidentally moved • Installation is more permanent • It is more difficult to access the projector Rear Screen, Floor Mount Installation ADVANTAGES CONSIDERATIONS • Projector is completely hidden • Projector is easily accessed • Usually good ambient light rejection • Requires separate room • Installation cost is usually higher Rear Screen, Inverted Mount (ceiling) Installation ADVANTAGES CONSIDERATIONS • Projector is completely hidden • Usually good ambient light rejection • Requires separate room • Installation cost is usually higher Rear Screen, Floor Mount with Mirror ADVANTAGES CONSIDERATIONS • Projector is completely hidden • Usually good ambient light rejection • Requires less space behind screen than other rear screen installations • Requires separate room • Installation cost is usually higher Front Screen Installations In front screen installations the projector and audience are positioned in front of the screen, which can be flat or curved. Flat screens are most recommended with this projector. They offer a gain of about one with a viewing angle just less than 180°. This type of screen reflects incident light equally in all directions so the audience can see the display from various angles. Curved screens have a gain greater than one with a viewing angle much less than 180°. This type of screen does not reflect incident light equally in all directions instead it is concentrated in a viewing cone. The audience sitting within the viewing cone area will see a brighter image than those sitting just outside this area. 2.2 Installation Considerations Installation type f Screen T ype f
Section 2: Installation and Setup 2-4 020-100001-01 Rev. 01 (04/07) Rear screen installations There are two basic types of rear screens: diffused and optical. A diffused screen has a surface, which spreads the light striking it. Purely diffused screens have a gain of less than one. The main advantage of the diffused screen is its wide viewing angle, similar to that of a flat screen for front screen projection. This type of screen is suitable when a wide viewing angle is required but there is low ambient room lighting. Optical screens take light from the projector and redirect it to increase the light intensity at the front of the screen. This reduces it in other areas. A viewing cone, similar to that of a curved front screen installation is created. This type of screen is better suited for brightly lit rooms where the audience is situated within the viewing cone. Screen size Choose a screen size, which is appropriate for your lens and application. Keep in mind that if the projector will be used to display text information, the image size must allow the audience to recognize all text clearly. The eye usually sees a letter clearly if eye- to-text distance is less than 150 times the height of the letter. Small text located too far from the eye will likely be illegible at a distance no matter how sharply and clearly it is displayed.
Section 2: Installation and Setup 020-100001-01 Rev. 01 (04/07) 2-5. To fill a screen with an image, the aspect ratio of the screen should be equal to the aspect ratio of the image (expressed as the ratio of its width to its height). Standard video from a VCR has a 4:3 or 1.33:1 aspect ratio. For example, to display a VCR output with a 4:3 aspect ratio onto a 10-foot (3m) high screen, the width of the screen must be at least 13.3feet (4m). The high brightness of this projector is well suited for locations where ambient lighting might be considered less than ideal for projection. A typical room with ceiling lights and windows rarely requires special attention. Contrast ratio in your images will be noticeably reduced only if light directly strikes the screen, such as when a shaft of light from a window or floodlight falls on the image. Images may then appear washed out and less vibrant. In general, avoid or eliminate light sources directed at the screen. Other considerations and tips that can help improve your installation: • Keep the ambient temperature constant and below 35°C (95°F). Keep the projector away from heating and/or air conditioning vents. Changes in temperature may cause drifts in the projector circuitry, which may affect performance. • Keep the projector away from devices, which radiate electromagnetic energy such as motors and transformers. Common sources of these include slide projectors, speakers, power amplifiers, elevators, etc. Choose the best screen size for the application. Since more magnification reduces brightness, use a screen size appropriate for the venue but not larger than required. Installing a large screen in a small room is similar to watching television at a close range; too large a screen can overpower a room and interfere with the overall effect. A good rule of thumb is to be no closer than 1.5 times the width of the screen. Throw distance Throw distance is the distance measured from your projector’s front feet to the screen. This is an important calculation in any projector installation as it determines whether or not you have enough room to install your projector with a desired screen size and if your image will be of the right size for your screen. You can quickly estimate the throw distance by taking the horizontal width of the screen and multiplying it by the lens throw ratio. The result of this calculation tells you roughly how far back the projector should be positioned from the screen in order to project a focused image large enough to fill the screen. For example, using a 0.73:1 lens, throw distance would roughly be 0.73 x screen width. IMPORTANT: Once you determine the type of lens and screen size you’re going to use, calculate the precise throw distance using the formula or graphs located in Appendix D. Due to lens manufacturing tolerances for lens focal length, actual throw distance can vary ±5% between lenses described as having the same throw ratio. Ambient Li ghting f Other Considerations f Projector Position and f Mountin g
Section 2: Installation and Setup 2-6 020-100001-01 Rev. 01 (04/07) Vertical and horizontal position The correct vertical and horizontal position of the projector in relation to the screen depends on the lens type and the screen size. Ideally, the projector should be positioned perpendicular to the screen. This way, the image will appear rectangular instead of keystoned (trapezoidal). The vertical position of the image can be offset – that is moved above or below the optical axis (lens center) by adjusting the fully motorized lens mount with the keypad. The amount of vertical offset available depends directly on the lens installed in the projector and can be slightly limited if horizontal offset has been applied. Vertical offset can also be expressed as the percent of half the image height OR the number of pixels of shift from lens center. Refer to Figure 2.1 for some illustrated examples of vertical offset. Table 2.1 along with Figure 2.2 show the maximum vertical offset of a lens or alternatively, how much of your projected image will appear above or below lens center if the maximum vertical offset is applied using that lens. Table 2.1. Lens Offsets Lens Type Offset Movement (All motorized lenses)
Section 2: Installation and Setup 020-100001-01 Rev. 01 (04/07) 2-7. Figure 2.1. Vertical Offset Examples
Section 2: Installation and Setup 2-8 020-100001-01 Rev. 01 (04/07) Figure 2.2. Lens Vertical Offsets
Section 2: Installation and Setup 020-100001-01 Rev. 01 (04/07) 2-9. The horizontal position of the image can be offset – that is moved to the left or right of lens center, by adjusting the fully motorized lens mount through software. The amount of horizontal offset available depends on the lens installed and if the image has already been vertically offset. Horizontal offset can also be expressed as the percent of half the image width – the number of pixels of shift to one side of lens center. Refer to Figure 2.3 for some illustrated examples of horizontal offset. See also Table 2.1 along with Figure 2.4 which shows the maximum horizontal offset of a lens or alternatively, how much of your projected image will appear to one side of lens center if the maximum horizontal offset is applied using that lens. Figure 2.3. Horizontal Offset Examples
Section 2: Installation and Setup 2-10 020-100001-01 Rev. 01 (04/07) Figure 2.4. Lens Horizontal Offsets
Section 2: Installation and Setup 020-100001-01 Rev. 01 (04/07) 2-11. Mounting There are several methods for mounting the projector. Depending on your chosen installation, one method may be more suitable than another. In typical front and rear screen installations the projector can be mounted to a secure and level surface, such as a table or cart. Carts are useful when the projector has to be moved during a presentation or from site to site. It is recommended you lock the wheels on a cart, when it’s in position, to prevent someone from accidentally moving it during a presentation. CEILING MOUNT - The projector can also be inverted and suspended from the ceiling using a specially designed ceiling mount fixture. This type of mounting is recommended for fixed installations and for those that want the projector out of plain view or have a limited amount of space for projector and audience. For more information, contact your dealer. Use only the CHRISTIE approved ceiling mount kit designed for your projector. Refer to the installation instructions and safety guidelines provided in the kit. SPECIAL MOUNTING – The projector can be rotated (front-to-back) up to 360 degrees and mounted without it affecting performance. However, the side-to-side tilt limit of the projector must not exceed ±15 degrees. This tilt limit is required to ensure optimal performance of the projector. STACKING – An optional stacking frame is available for all models which allows stacking up to a maximum of three projectors in an upright or inverted orientation. Refer to the instructions provided in the Stacking Frame kit (104-117101-01) for details regarding the assembly. Adjusting projector height You can modify the height of the projector to remedy a slightly uneven mounting surface by adjusting the two feet threaded into the bottom chassis. Turn each foot clock-wise or counter-clockwise until the project is level on all sides. Folded Optics In rear screen applications where space behind the projector is limited, a mirror may be used to fold the optical path. See Figure 2.5. The position of the projector and mirror must be accurately set – if considering this type of installation call your dealer for assistance. Figure 2.5. Folded Optical Path