Christie Projector Mirage Ds+8k J Technical Manual
Have a look at the manual Christie Projector Mirage Ds+8k J Technical Manual online for free. It’s possible to download the document as PDF or print. UserManuals.tech offer 476 Christie manuals and user’s guides for free. Share the user manual or guide on Facebook, Twitter or Google+.
J Series Serial Commands Technical Reference Information81 of 90020-100796-01 Rev. 1 (10-2011) (STD) VIDEO STANDARD CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION This control displays or sets the current video standard that is decoding the input signal. You can allow the projector to automatically determine the standard or you can specify a specific standard from the selection list. 0 = Auto. Automatically determined by decoder. 1 = PAL is a commonly used format in much of Europe, China, Australia and some South American and African countries. 2 = NTSC is a commonly used format in North America and Japan. 3 = SECAM is a format found primarily in France, Eastern Europe and much of Africa. 4 = NTSC44 is a tape-only standard and is usually used with hybrid signals used to provide compatibility with video material of another TV format without a complete translation. 5 = PAL-M is a format found primarily in Brazil. 6 = PAL-NC is a format found primarily in Argentina and Chile and some other Latin American countries. 7 = PAL-60 Only those standards that have similar horizontal and vertical frequencies to the current input source are enabled. SUBCODE INxy DESCRIPTION OF USE Set the video standard on slot input y to the specified value in the range of known video standards. MAIN Set the video standard on the main video to the specified value in the range of known video standards. PIIP or SECD Set the video standard on the PIP or Secondary video to the speci- fied value in the range of known video standards. EXAMPLES: (STD 0) - Set video standard to 0 (PAL) on main video. (STD+MAIN 1) - Set video standard to 1(NTSC_M) on main video. (STD+PIIP 0) - Set video standard to 0(PAL) on PIP video. (STD+IN32 3) - Set video standard to 3(NTSC_4_43) on slot 3 input 2. (STD ?) - Returns the current video standard on main video. (STD+PIIP ?) - Returns the current video standard value on PIP video. (STD+IN12 ?) - Returns the current video standard value on slot 1 input 2. (SZP) SIZE PRESETS CONTROL GROUP: Unsaved SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Sets the image to one of several preset size/position presets. 0 = Default 1 = None 2 = Full Screen 3 = Full Width 4 = Full Height 5 = Anamorphic 6 = Custom
82 of 90J Series Serial Commands Technical Reference Information020-100796-01 Rev. 1 (10-2011) (SZP) Size Presets con’t SUBCODE DESCRIPTION OF USE Set preset size type. EXAMPLE: (SZP 1) - Set the size preset to no resizing. (TBL) TOP BLANKING CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Set the number of lines to blank (turn to black) at the top of the image. This can be used to blank out any unwanted data near the top edge of the image. A positive amount of blanking makes the image smaller. A negative amount of blanking makes the image larger. Negative blanking is only applicable to analog signals, when the autosetup has not been able to set the image size correctly. It is preferable not to use negative blanking, but to run autosetup again, ensuring that the content has active pixels on each edge of the image. The maximum amount of top blanking allowed is half the image height minus 10. For negative blanking, the image size can only be increased to the limit of the sync. SUBCODE Nix DESCRIPTION OF USE Set the top blanking for slot x, input y. MAIN Set the top blanking for the main image. PIIP or SECD Set the top blanking for the PIP or Secondary image. EXAMPLES: (TBL 40) - Set top blanking to 40 on main video. (TBL+MAIN 40) - Set top blanking to 40 on main video. (TBL+PIIP 40) - Set top blanking to 40 on PIP video. (TBL+IN32 40) - Set top blanking to 40 on slot 3 input 2. (TBL?) - Returns the top blanking value on main video. (TBL+PIIP?) - Returns the top blanking value on PIP video. (TBL+IN12?) - Returns the top blanking value on slot 1 input 2. (TDD) 3D EMITTER DELAY CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Adjust the output 3D emitter delay to match the active glasses to the L/R frames of the projector. Proper adjust- ment of this delay will eliminate cross talk and odd colors caused by timing differences between the glasses and the projected image. The user specified delay is added after sync locking. SUBCODE MAIN DESCRIPTION OF USE Set the 3D Emitter Delay for the main image. INxy Set the 3D Emitter Delay for slot x, input y.
J Series Serial Commands Technical Reference Information83 of 90020-100796-01 Rev. 1 (10-2011) (TDD) 3D Emitter Delay con’t EXAMPLES: (TDD 2000) - Set 3D Emitter Delay to 20.00 milliseconds on main video. (TDD+MAIN 1000) - Set 3D Emitter Delay to 10.00 milliseconds on main. (TDD+IN12 2500) - set 3D Emitter Delay to 25.00 milliseconds on slot 1 input 2. (TDD?) - Returns the 3D Emitter Delay value on main video. (TDD+IN12?) - Returns the 3D Emitter Delay value on slot 1 input 2. (TDI) 3D SYNC INPUT CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION The 3D sync signal is generated by the 3D source to ensure left/right eye content is synchronized to the projector and to the user. The 3D Stereo cable has 2 inputs for right eye - left eye signals. This control specifies which of the 2 right-left eye input signals on the cable is active. It is important to ensure that the correct 3D sync input is selected (either Input A or Input B) with each 3D signal source. If there is no external sync, then choose None and the sync will be generated internally. This allows the content to be displayed, however, there is a 50% chance that the content will be displayed with the left/right eyes swapped or inverted. This function is not used in Interleaved 3D mode as each eye gets a dedicated input and no 3D sync input is required. SUBCODE MAIN DESCRIPTION OF USE Set the 3D Sync Input for the main image. INxy Set the 3D Sync Input for slot x, input y. EXAMPLES: (TDI 0) - Set 3D Sync Input to A on main video (TDI+MAIN 1) - Set 3D Sync Input to B on main (TDI+IN12 2) - Set 3D Sync Input to Internal on slot 1 input 2 (TDI?) - Returns the 3D Sync Input value on main video (TDI+IN12?) - Returns the 3D Sync Input value on slot 1 input 2
84 of 90J Series Serial Commands Technical Reference Information020-100796-01 Rev. 1 (10-2011) (TDM) 3D MODE CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Select the 3D mode: Off: 3D operation is disabled. Auto 3D: Attempts to automatically determine which 3D mode to use. Native 3D: All content is shown at native frame rate from 96-120Hz input and output. Frame Doubled 3D: 3D Content from a single 48-60Hz signal (24/30Hz per eye) are displayed twice to provide a 3D content to be viewed at 96-120Hz to the user. Dual Input 3D: Content from two independent 48-60Hz “passive” frame locked sources are interleaved into a native 96-120Hz native frame rate. This requires an optional input module and both signals must be from the same signal type. Side-by-Side 3D: Content is transmitted with each eye above one another in a single frame at half resolution, and is extracted and scaled to show in an alternate-frame sequence. Top/Bottom 3D: Content is transmitted with each eye above one another in a single frame at half resolution, and is extracted and scaled to show in an alternate-frame sequence. Frame Packed 3D: Content is transmitted with each eye at full resolution in a double-sized frame, and extracted to show in an alternate-frame sequence. This mode is typically used for BlueRay-3D movies and 3D video gaming. SUBCODE MAIN DESCRIPTION OF USE Set the 3D Mode for the main image. INxy Set the 3D Mode for slot x, input y. EXAMPLES: (TDM 0) - Set 3D Mode to Off on main video. (TDM+MAIN 1) - Set 3D Mode to Native 3D on main. (TDM+IN12 2) -Set 3D Mode to Frame Doubled on slot 1 input 2. (TDM?) - Returns the 3D Mode value on main video. (TDM+IN12?) - Returns the 3D Mode value on slot 1 input 2. (TDN) INVERT 3D INPUT CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Adjust the output 3D emitter delay to match the active glasses to the L/R frames of the projector. Proper adjust- ment of this delay will eliminate cross talk and odd colors caused by timing differences between the glasses and the projected image. The user specified delay is added after sync locking. SUBCODE MAIN DESCRIPTION OF USE Set the 3D input inversion for the main image. INxy Set the 3D input inversion for slot x, input y. EXAMPLES: (TDN 1) - Set 3Dinput inversion to inverted on main video. (TDN+MAIN 0) - Set 3D input inversion to not inverted on main. (TDN+IN12 0) - Set 3D input inversion to not inverted on slot 1 input 2. (TDN?) - Returns the 3D input inversion value on main video. (TDN+IN12?) - Returns the 3D input inversion value on slot 1 input 2.
J Series Serial Commands Technical Reference Information85 of 90020-100796-01 Rev. 1 (10-2011) (TDO) 3D SYNC OUT CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION This defines if the 3D Sync is output and controls how it is processed. It is only valid when a cable is used to con- nect stereo 3D signals to the projector via the GPIO port. When there is no 3D signal, Sync Output should be Off. Typically only the last projector in the 3D Stereo cable chain is connected to the emitter and should specify To Emitter. All other projectors should select To Next Input if other projectors are used in the chain. When power is off, the output becomes locked to the input - when power is restored, the user specified state is restored. SUBCODE MAIN DESCRIPTION OF USE Set the 3D Sync Out for the main image. INxy Set the 3D Sync Out for slot x, input y. EXAMPLES: (TDO 0) - Set 3D Sync Out to off on main video (TDO+MAIN 1) - Set 3D Sync Out to To Emitter on main (TDO+IN12 2) - Set 3D Sync Out to To Next on slot 1 input 2 (TDO?) - Returns the 3D Sync Out value on main video (TDO+IN12?) - Returns the 3D Sync Out value on slot 1 input 2 (TDT) 3D TEST PATTERN CONTROL GROUP: Unsaved SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Enables a 3D test pattern for diagnostics. The scrolling diagonal lines indicate how well left and right are syn- chronized. If ghosting is occurring, the input may have to be switched or inverted. Adjustments to the emitter delay can also help correct the synchronization. SUBCODE DESCRIPTION OF USE Enable or disable 3D test pattern. EXAMPLES: (TDT 1) - Enable 3D test pattern (TDT 0) - Disable 3D test pattern (TED) TWIN HDMI EDID TYPE SELECTION CONTROL GROUP: Option SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Set the preferred EDID Timings on the Twin HDMI input card. Available Models are: 0 = Default 1 = 3D 2 = Custom SUBCODE SLxy DESCRIPTION OF USE Set the EDID timings on slot x to the specified type.
86 of 90J Series Serial Commands Technical Reference Information020-100796-01 Rev. 1 (10-2011) (TED) Twin HDMI EDID Type Selection con’t EXAMPLES: (TED+SL31 1) - Set EDID type to 1 (3D) on slot 3 input 1. (TED+SL12?) - Returns the current EDID type on slot 1 input 2. (TIL) TILING CONTROL CONTROL GROUP: Preference SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Set the projector as part of a tiled array. SUBCODE SLCT DESCRIPTION OF USE Enable or disable tiling. RTOT Set the total number of rows in the projector array. CTOT Set the total number of columns in the projector array. RVAL Set the row number of this projector. CVAL Set the column number of this projector. EXAMPLES: (TIL+SLCT 1) - Enable tiling. (TIL+RTOT 2) - Set the total number of rows of projectors to 2. (TIL+CTOT 2) - Set the total number of columns of projectors to 2. (TIL+RVAL 2) - Set the projector to be in the 2nd row. (TIL+CVAL 1) - Set the projector to be in the 1st column. (TMD) TIME/DATE CONTROL GROUP: Preference SUBCLASS: Power Down ACCESS LEVEL: Admin DESCRIPTION Set the date, time or time zone. SUBCODE DATE DESCRIPTION OF USE Set the date in the form yyyy/mm/dd. TIME Set the local time in the form hh:mm:ss Note: Currently, time must be set using 24hr clock (regardless of LOC+TIME setting). EXAMPLES: (TMD+TIME 17:50:45) - Set new local time. (TMD+DATE 2007/02/30) - Set the local date. (TMD+TIME?) - Get local time (TMD+TIME! 17:50:45).
J Series Serial Commands Technical Reference Information87 of 90020-100796-01 Rev. 1 (10-2011) (TNT) TINT CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Tint adjusts the balance of red-to-green in your image. It is useful only for video images processed by decoder cards. SUBCODE INxy DESCRIPTION OF USE Set the tint level on slot x, input y to the specified value in the range of -45 deg to 45 deg. MAIN Set the tint level on the main video to the specified value in the range -45 deg to 45 deg. PIIP or SECD Set the tint level on the PIP or Secondary video to the specified value in the range of -45 deg to 45 deg. EXAMPLES: (TNT 40) - Set tint level to 40 on main video. (TNT MAIN 40) - Set tint level to 40 on main video. (TNT PIP 20) - Set tint level to 20 on PIP video. (TNT IN32 40) - Set tint level to 40 on slot 3 input 2. (TNT ?) - Returns the current tint level on main video. (TNT PIP ?) - Returns the current tint level on PIP video. (TNT IN12 ?) - Returns the current tint level on slot 1 input 2. (TTM) THIC TRANSMITTER MODE CONFIGURATION CONTROL GROUP: Option SUBCLASS: Power Down ACCESS LEVEL: Operator DESCRIPTION Select a working mode for one of the transmitters on the THIC card. 0 = Default to select 12-bit per channel HDMI output 1 = Compatible to select 8-bit per channel HDMI output 2 = DVI only to select 8-bit per channel DVI output SUBCODE SLxy DESCRIPTION OF USE Set transmitter working mode for THIC card. EXAMPLES: (TTM+SL11 0) - Use 12 bit HDMI output for THIC on slot1 input 1. (TTM+SL42 1) - Use 8 bit HDMI output for THIC on slot4 input 2. (TTM+SL11 2) - Use 8 bit DVI output for THIC on slot1 input 1. (TTM+SL12 ?) - Get the transmitter working mode for THIC on slot1 input 2.
88 of 90J Series Serial Commands Technical Reference Information020-100796-01 Rev. 1 (10-2011) (TXE) TEXTURE ENHANCEMENT CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Applies texture detail enhancement based on adaptive horizontal, vertical and diagonal large edge and small edge enhancement processes. SUBCODE INxy DESCRIPTION OF USE Set the texture enhancement for slot x, input y. MAIN Set the texture enhancement for main video. PIIP or SECD Set the texture enhancement for PIP or Secondary video. EXAMPLE: (TXE 50) - Set the texture enhancement to 50% for main video. (UID) USER ID CONTROL GROUP: Unsaved SUBCLASS: Power Down ACCESS LEVEL: None DESCRIPTION Allows users to login to the serial interface. SUBCODE DESCRIPTION OF USE Enter user ID and password. EXAMPLES: (UID username password) - Login a user. (UID) - Logout the current user, also happens automatically when a new user logs in. (UID?)(UID!username 01) - Display the current logged in user and their access level. (VBL) VIDEO BLACK INPUT CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION This control affects the black level for video signals. Most NTSC video standards include an offset to black which is useful for setting up CRT projectors. Set this control to 7.5 IRE if the video black level seems excessively ele- vated. Set to 0 IRE if video black levels are crushed. This control applies to analog cards with YUV color space only. Valid values are: 0 = 0 IRE 1 = 7.5 IRE SUBCODE INxy DESCRIPTION OF USE Get the video black level for slot x, input y. MAIN Set the video black level for main video. PIIP or SECD Set the video black level for PIP or Secondary video. EXAMPLES: (VBL 1) - Set the video black level for main video to 7.5IRE. (VBL+MAIN 1) - Set the video black level for main video to 7.5IRE. (VBL+IN32 0) - Set the video black level for PIP video to 0IRE. (VBL?) - Returns the video black level on main video.
J Series Serial Commands Technical Reference Information89 of 90020-100796-01 Rev. 1 (10-2011) (VRT) VERTICAL POSITION CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION This control sets the vertical position of the image. SUBCODE DESCRIPTION OF USE Set the vertical position for the main image. EXAMPLES: (VRT 500) - Set vertical position to 500 on main video. (VRT?) - Returns the vertical position value on main video. (VST) VERTICAL STRETCH CONTROL GROUP: Input SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Use Vertical Stretch to adjust the height of the image while keeping the width constant. This controls how much the image is electronically stretched vertically. As it does not affect the horizontal width, it changes the aspect ratio of the image. 1000 is the neutral position where no stretching is done. Vertical Scale = (VST-Value / 1000). * (SIZ-Value / 1000). SUBCODE DESCRIPTION OF USE Set the vertical stretch for the main image. EXAMPLES: (VST 500) - Set vertical stretch to 500 on main video. (VST?) - Returns the vertical stretch value on main video. (WRP) WARP / KEYSTONE CONTROL GROUP: Configuration/Unsaved SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION This serial command will control the writing and reading of 2D keystone maps, warp maps, edge-blend map, uni- formity maps and associated parameters. NOTE: The commands below are used from the OSD only, and are not highly applicable for use from Serial Commands. If they are set, they will only be applied on Power up or if applying them from the OSD. SUBCODE SLCT DESCRIPTION OF USE Select warping mode: 0 = disabled, 1 = 2D keystone, or 2 = Twist maps. KRST Reset keystone settings to zero EXAMPLES: (WRP+SLCT 0) - Warping disabled. (WRP+SLCT 1) - Use 2D keystone mode. (WRP+SLCT 2) - Use Twist map #1.
90 of 90J Series Serial Commands Technical Reference Information020-100796-01 Rev. 1 (10-2011) (ZOM) LENS ZOOM POSITION ADJUSTMENT CONTROL GROUP: Configuration SUBCLASS: Power Up ACCESS LEVEL: Operator DESCRIPTION Adjust the lens zoom to a specific position. SUBCODE DESCRIPTION OF USE Move the zoom motor to a specified position. The default data range is -1200 to 1200. The range may change after running the Lens Calibration function, which determines the full range allowed by the hardware. EXAMPLE: (ZOM 500) - Move lens zoom to position 500.