Wolf Cinema Projector Dcx 1000fd User Manual
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B-12 3.7 aPW auto Power Up 3.8 aRo aspect Ratio overlay 3.9 asR auto source 3.10 asU Quick setupaPW aUTo PoWeR UP Set APW to automatically power up (1) or remain off (0) after a power failure. aRo asPeCT Ra TIo oVeRla Y This is a function used when setting up the projector. When turned on (1), it overlays a number of common aspect ratio boxes on top of the source image. Turning off the overlay (0), will return to your source image. asR aUTo soURCe Use ASR to automatically select a particular source setup (P1= S1-50) when switching channels. Enable (P2=1) or disable (P2=0) this function as desired. See section see 2.5 Accessing Specific Source Setups. noTe: In an ASR reply, on/off state is P3 and the availability of the source setup is P2. See below. asU QUICK seTUP Use ASU to do a Quick Setup of optimized settings based on the incoming sign\ al detected. bbl boTT oM blanKIng Use BBL to blank (turn to black) the bottom of the image. Range depends on the incoming signal. baUD Ra Tes bDR: Set the RS232 (only) baud rate to 1200, 2400, 9600, 19200, 38400, 57600 or 115200. Omit the “00” if desired. bDs: Set the RS422 (only) baud rate to 1200, 2400, 9600, 19200, 38400, 57600 or 115200. Omit the “00” if desired. Wait at least 2s before sending the first message at the new rate. A reply returns a 7-digit value: the complete number, plus leading zeros (see below). An invalid setting will trigger an error message. Examples: bdr96) Set the RS232 baud rate to 9600 (bds38400) Set the RS422 baud rate to 38400 (BDR?) What is the current RS232 baud rate? (BDR!0019200) The current RS232 baud rate is 19200 (BDS!0115200) The current RS422 baud rate is 115200 bgC base gaMMa CURVe Select the base gamma curve. “0” represents the default 2.2 curve, 1-21 are user-defined Arbitrary Gamma Curves. bKl baCKlIghT Turn the built-in keypad backlighting off (0) or on (1). bKY bRoaDCasT KeYs Enable (1) or disable (0) broadcasting of commands to all projectors\ on a network. 3.11 bbl bottom blanking 3.12 bDR or bDs baud Rates 3.13 bgC gamma Curve 3.14 bKlbacklight 3.15 bKY broadcast Keys Appendix B ► Serial Communications
B-13 blb blUe blaCKleVel Set or request the blue Blacklevel (0-511) for a specific source setup. blD blUe DRIVe Set or request the blue Drive (0-511) for a specific source setup. bog blUe oDD gaIn Set or request the blue Odd Gain (0-255) for a specific source setup. You can set an Odd Gain value for two separate analog input paths. The first input path is Input 1 (BNC connectors). The second input path is one of: Input 2 (DVI-A connector), or Input 5 or Input 6 (one of the analog option cards). To leave one of the input values unaffected, enter a value of 0 for the input. If only one value is specified, then both input paths will have the same value. examples: (BOG 130 135) Sets the BNC analog path to 130, the DVI/option card path to 135. (BOG 0 120) Leaves the BNC path as it was, the DVI/option card path to 120. (BOG 125) Sets both paths to 125. boo blUe oDD offseT Set or request the blue Odd Offset (0-255) for a specific source setup. You can set an Odd Offset value for two separate analog input paths. The first input path is Input 1 (BNC connectors). The second input path is one of: Input 2 (DVI-A connector), or Input 5 or Input 6 (one of the analog option cards). To leave one of the input values unaffected, enter a value of 0 for the input. If only one value is specified, then both input paths will have the same value. bRT bRIghTness Set the image brightness from 0-1000. The BRT value represents a percentage, e.g. 1000=100.0 % or 0505=50.5%. bRU WhITe fIelD UnIfoRMITY Use BRU to adjust light output in the 8 zones around the central zone in the image, and/or to turn BRU on/off. To find out if BRU is on, send a request with no parameters. The reply will be “off” (0) or “on” (1). examples: (BRU 2 0 65) Set right red zone to 65. (BRU 5 G 24) Set top left green zone to 24. (bru? 0 B) What is the overall brightness of blue? (bru! 0 B 039) The overall brightness of blue is 39. (BRU 1) Enable White Field Uniformity feature (if feature is available). (bru?) What is the status of the Uniformity Enable feature/checkbox? (bru! 1) White Field Uniformity is Enabled. 3.16 blb blue blacklevel 3.17 blD blue Drive 3.18 bog blue odd gain 3.19 boo blue odd offset 3.20 bRT brightness 3.21 bRU White field Uniformity Appendix B ► Serial Communications
B-14 ParameterDescription P1 = Where to adjust? or (if Wolf WARP and no other parameters)P1 = Which type of White Field Uniformity 0 = Overall 1 = Left 2 = Right 3 = Top 4 = Bottom 5 = Top Left 6 = Top Right 7 = Bottom Left 8 = Bottom Right If Wolf WARP and no P2 or P3 parameters, P1= 0 = Disable 1 = Enable normal White Field Uniformity 2 – 4 = User-defined White Field Uniformity (requires s/w v1.1 or higher) P2 = Which color to adj. 0 or R = Red 1 or G = Green 2 or B = Blue P3 = Setting 0 – 255 for “Overall” and 0 – 127 for all other zones bUs WhITe fIelD UnIfoRMITY seleCT This enables or disables White Field Uniformity. If a WARP module is installed the control changes to a list and allows several different uniformity maps to be selected. Without Wolf WARP Module: 0 = disabled, 1 = enabled With Wolf WARP Module: use the (BUS?L) request to read the list. CCa CoMPRehensIVe ColoR aDjUsTMenT Use the CCA service function to change the factory-set native colors (Max Drives) in the projector, or to define one or more custom color palettes (i.e., color gamut). CCA changes x/y coordinates for red, green, blue and white points for a given gamut. Can be applied \ with CCS command. noTe: Remember that Max Drives represents the measured native colors of the projector, and that all color performance depends on these native colors. A new CCA for Max Drives will change all color performance and gamut (palettes). Parameter Description P1 = Which gamut (palette) to adjust. 0 = This is a duplicate of 1 (Max Drives) 1 = Max Drives 2 = Color Temperature** 3 = SD Video* 4 = HD Video* 5 = User 1 6 = User 2 7 = User 3 8 = User 4 * noTe: Factory-set to industry standards. Adjustment is not recommended as it will change this performance standard. * Affects only the current color temperature setting. Changing Color Temp coordinates with CCA is not recommended. P2 Red x P3 Red y P4 Green x P5 Green y P6 Blue x P7 Blue y P8 White x 3.22 bUs White field Uniformity select 3.23 CCa Comprehensive Color adjustment Appendix B ► Serial Communications
B-15 P9 White y P10 Magenta x P11 Magenta y P12 Cyan x P13 Cyan y P14 Yellow x P15 Yellow y examples: (CCA?) = What is the current color adjustment? (CCA 1 661 341 332 575 144 93 320 330) = Set “Max Drives” to these x/y coordinates CCC CoMPRehensIVe ColoR CleaR The CCC command will copy the data from one of the comprehensive color setups into the currently selected user setup (USER1-4). See CCS for a list of possib\ le selections. CCI ColoR TeMPeRa TURe Use CCI to implement a color temperature from 3200K-9300K. This control changes just the white point (x/y) of the current gamut, and is applied only if you are using color temperature (CCS) as your “Select Color Adjustment” choice. CCs seleCT oUTPUT ColoR Use CCS to select a predefined or user-defined color palette for use with a given source. 0 = Max Drives (default) 1 = Color Temperature 2 = SD Video 3 = HD Video 4 = User 1 5 = User 2 6 = User 3 7 = User 4 Cha Channel seleCT Use CHA to select a channel (1-99). This is the same as SRC command. Cle ColoR enable Enable a specific color to be projected on the screen (1=red, 2=green, 3=blue, 4=yellow, 5=cyan, 6=magenta, 7=white, 8=black). noTe: Colors will always revert to white (full color) upon power- up and if “Exit” at presentation level. ClP ClaMPIng Use CLP to define the blacklevel clamping location for the current signal (0 = Sync Tip, 1 = Back Porch, 2 = Tri-level). ClR ColoR Set the color intensity (1-1000) for video images. The CLR value represents a percentage, e.g. 1000=100.0 % or 0505=50.5%. Con ConTRasT Use CON to set the contrast level (0-1000). The CON value represents a percentage, e.g. 1000=100.0 % or 0505=50.5%. 3.24 CCC Comprehensive Color Clear 3.25 CCI Color Temperature 3.26 CCs select output Color 3.27 Cha Channel select 3.28 Cle Color enable 3.29 ClP Clamping 3.30 ClR Color 3.31 Con Contrast Appendix B ► Serial Communications
B-16 3.32 CRM Chroma / luma DelayCRM ChRoMa / lUMa Dela Y Use CRM to set the time delay (20-50) between the chroma and luminance\ in decoded signals. CsP ColoR sP aCe CSP specifies which color space the input signal uses. 0=RGB, 1=YprPb, 2=YPbPr (HDTV). Def f aCToRY DefaUl Ts Use DEF to reset all parameters in the projector to factory defaults—all source setups are deleted, all factory-defined color palettes are restored, and all user adjustments/preferences are set to default values. DEF may also change your baud rate and projector number. noTe: You must include P1 = 111 in any DEF message. This requirement prevents accidental use of DEF. Because the DEF message can take a fairly long time, it is a good idea to include the optional Acknowledge code ($) to determine when the defaults have been complete\ d—i.e., ($def 111). Dls DeleTe soURCe Use DLS to delete a specific locked or unlocked source setup (1-50), or to delete all unlocked source setups (0). To delete all setups, even those that are locked, you must first unlock all source setups using the memory lock command (MLK S0 0). Dl Y Dela Y Use DLY to delay a real-time event for a number of milliseconds (1-65535ms). example: (RTE G 5 H “(DLY 100) (PWR 0)”) = When pin 5 goes high, Delay 100ms, then power \ off. DRK DaRK InTeRV al Use DRK to control the time interval—in active output lines—between frames projected to the screen, so that active 3D applications are well-synchronized with shutters in 3D glasses. Range depends on source frequency. For 3D models only. DT a soURCe Da Ta Use DTA to read from the projector (or load into the projector) all of the settings related to a specific source setup (1-99), or pertaining to system parameters. This essentially creates a back- up. If a source setup does not exist, use DTA to define all settings for it. This essentially creates a back-up. Keep in mind that a DTA request triggers reply messages for each setting in a source setup. Because of the large number of replies, requesting an acknowledgement from the projector ($) is a good idea—receiving the ($) back confirms that the projector has returned all data and completed the full DTA reply. ReaDIng seTTIngs (Da Ta) foR a sPeCIfIC soURCe seTUP Message the number of the source setup to read – must have leading ‘S’:\ For example, ($DTA? S5) If P1 = source#1-99, this identifies a specific source setup to read Reply P1 = the number of the source setup being read (1-99) P2 = switcher number (0=projector) P3 = slot number P4 = the vertical frequency (cHz) P5 = the horizontal frequency (10’s of Hz) 3.33 CsP Color space 3.34 Def factory Defaults 3.35 Dls Delete source 3.36 Dl Y Delay 3.37 DRK Dark Interval 3.38 DT a source Data Appendix B ► Serial Communications
B-17 P6 = input polarity & routing Bits 2-0 // horizontal sync source 0 = no sync 1 = horizontal on vertical input 2 = horizontal on horizontal input 3 = horizontal on green input 4 = horizontal on red input 5 = horizontal from Vid1 input 6 = horizontal from Vid2 input Bit 3 // set if composite sync (H & V on same wire) Bit 4 // set if horizontal sync has negative polarity Bit 5 // set if vertical sync has negative polarity Setting 1 = reply message for first source setup setting Setting 2 = reply message for second source setup setting Setting 3 = reply message for third source setup setting Etc… Setting n = reply message for last source setup setting $ acknowledge of DTA message (if requested) example: ($DTA? S5) (DTA! S005 000 001 05996 03150 059) (CON! S005 045) (BRT! S005 167) Etc… $ ReaDIng seTTIngs (Da Ta) foR all soURCe seTUP To request all settings for all sources, use P1=0 ($DTA? S0). The reply will be a sequence of replies for each source. If you requested an acknowledgement ($), it will arrive after the last reply for the last source. example: ($DTA? S0) (DTA! S005 000 001 05996 03150 059)setup (CON! S005 045) (BRT! S005 167) Etc.… (DTA! S034 000 001 05996 03150 059) (CON! S034 022) (BRT! S034 137) Etc.… $ DoWnloaDIng soURCe seTUP seTTIngs (Da Ta) T o a PRojeCT oR Send a DTA message to define a new source setup, or redefine an existing source setup, and include the specified parameters (refer back to the “Reading Setting for a Specific Source Setup” list of parameters shown above). example: (DTA S005 000 001 05996 03150 085) (CON S005 045) (BRT S005 167) Etc.… (DTA S034 000 001 05996 03150 085) (CON S034 022) (BRT S034 137) Etc.… Appendix B ► Serial Communications
B-18 3.39 DTl Detail ReaDIng PRefeRenCe seTTIngs Settings for projector preferences are either Transferable or Projector-specific: Transferable: Valid for any projector of the same model. Single DTA parameter = T. Projector-specific: Unique to an individual projector. Single DTA parameter = P. example: ($DTA? T) = Request for all preferences that can be used in other projectors of the same model (BDR! 09600) (LPI! 00345) Etc.… $ ($DTA? P) = Request for preferences that are unique to an individual projector (CTM! 001 002 00000 000 01187) (CTM! 002 007 05400 012 043) Etc.… $ DoWnloaDIng PRefeRenCes T o a PRojeCT oR To download preference settings to a projector, just send the various settings as separate commands—DTA is not used. Take special care when sending BDR (Baud Rate) and ADR (Projector # or Address) messages, as they change the way your network operates and you may accidentally break communication. For example, BDR should always be broadcast to all projectors or you will be unable to talk to some projectors. DTl DeT aIl Use DTL to set the detail for RGB and video images. DTT DeT aIl ThResholD Sets the minimum change required before the detail (DTL) function is activated. This sharpens images without increasing background noise. ebb eDge blenDIng blaCK leVels The EBB control is only active when Edge Blending (EBS) and Black Edge Blending (BEB) have been enabled. The particular edges that have been blended with the Edge Blending (EBL) command will be active for blending the black levels. For example, you cannot adjust the Edge Blend Black level for the top edge, if there is no edge blending active for the top edge. Similar to the EBL control, data can be specified by zones or edges, or by index. 3.40 DTT Detail Threshold 3.41 ebb edge blending black levels Appendix B ► Serial Communications
B-19 Parameter ValueDescription P1 1-16 (P1: 1-9 = blend edge/zone brightness) (P1: 10-13 = edge zone width) (P1: 14-16 = color components of overall black level) 1 = Center 2 = Top 3 = Bottom 4 = Left 5 = Right 6 = Top Left 7 = Top Right 8 = Bottom Left 9 = Bottom Right 10 = Left Width 11 = Right Width 12 = Top Width 13 = Bottom Width 14 = Black Red Level 15 = Black Green Level 16 = Black Blue Level P2 When P1 = 1-9, P2 = 0-247 When P1 = 10-13, P2 = 0-255 When P1 = 14-16, P2 = 0-255 Brightness (0-247) Zone Width (0-255) Color Level (0-255) examples: (BEB 2 15) Set Brightness of top edge to 15 (BEB?) Request state of Black Edge Blending (BEB! 1) Black Edge Blending is enabled ebe eDge blenDIng blaCK leVels seleCT This command enables (1) or disables (0) the Black Edge Blending feature. This feature can only be enabled when Edge Blending has been enabled (EBS). ebl eDge blenDIng Use EBL to blend together the overlapping edges of adjacent images, and/or to turn EBL on/off. To find out if EBL is on, send a request with no parameters. The reply will be “off” (0) or “on” (1). Note that on-screen values do not match values through ASCII messaging. Parameter Description P1 = Which blend edge? or (if Wolf WARP and no other parameters) P1 = Type of edge blending to use. 0 = Left 1 = Right 2 = Top 3 = Bottom Or, if Wolf WARP and no P2 or P3 parameters, P1= 0 = Disable 1 = Enable normal Edge Blending 2 – 4 = User-defined custom blend (requires s/w v1.1 or higher) P2 = Which blend characteristic? 0 = Width of blend 1 = Shape of blend 2 = Midpoint of blend P3 = Setting Left/Right Width = 0, 5-80, Top/Bottom Width 5-60, Shape 2-30, Midpoint 2-30 3.42 ebe edge blending black levels select 3.43 ebl edge blending Appendix B ► Serial Communications
B-20 examples: (EBL 2 0 15) Set width of top blend to 15 (EBL?) What is the current status of Edge Blending—on or off? (EBL! 1) Edge Blending is currently enabled ebo eDge blenDIng oVeRlaP Use EBO in conjunction with Edge Blending to simplify the aligning of edge-blended projectors. Enabling EBO (1) sets the blend region to a uniform gain of 25% and the rest of the image to 100%. Disable EBO (0) to restore previous gain settings. ebs eDge blenDIng seleCT This enables (1) or disables (0) edge blending. If a WARP module is installed the control changes to a list and allows several different edge blends to be selected. Use the (EBS?L) request to read the list. eMe eRRoR Message enable Use EME to turn all notification off, or to choose how you wish to be notified of projector errors. 0 = Off 1 = On-screen display 2 = ASCII message (i.e., via ERR messages) 3 = Both eRR eRRoR Message The projector broadcasts an ERR message when an error is detected. Each ERR message includes the error code (P1), error type (P2), and a text explanation. Error messages also include the address of the source projector. noTe: The type of error and the text explanation are enclosed together in quotation marks, separated by a colon and a space. Below, the text explanation appears as -----. error Code (P1) Type of error (P2) Meaning 001 “System Error: -----” System crash. 002 “System Warning: -----” System error. 003 “Invalid parameter:—“ Invalid parameter number. 004 “Too many parameters:” Message requires fewer parameters 005 “Too few parameters:-----” Message requires more parameters 006 “Source does not exist:-----” The source setup# is wrong 007 “Could not be executed:” Current content prevented the command from executing. 008 “Checksum error:-----” The checksum is incorrect. 009 “Unknown request:-----” Message code undefined. If the message sent as a command it is ignored and no error is returned. 010 “Communication error:-----” Error receiving serial data on one of the RS-232 ports. 011 “RX Break A serial break was received. 012 Supplementary info Additional information about the error. Message content depends on the nature of the error. 3.44 ebo edge blending overlap 3.45 ebs edge blending select 3.46 eMe error Message enable 3.47 eRR error Message Appendix B ► Serial Communications
B-21 examples: noTe: The 65535 signifies the port address of the controller receiving the message. SYNC no longer responding (65535 00030ERR 001 "System Error: SYNC no longer responding") Attempt to delete the current source (65535 00030ERR 002 "System Warning: The current source cannot be deleted") (BDR38900) (65535 00030ERR 003 "BDR: Invalid parameter 1") (BLB 25 25) (65535 00030ERR 004 "BLB: Too many parameters") (ASR S10) (65535 00030ERR 005 "ASR: Too few parameters") (ASR S10 1) (65535 00030ERR 006 "ASR: Source does not exist") (CON 45) with no source (65535 00030ERR 007 "CON: Could not be executed") (&con 64 250) (65535 00030ERR 008 "CON: Checksum Error") (ABC?) (65535 00030ERR 009 "ABC: Unknown request") faD f aDe TIMe Use FAD to set the time for dissolving one display image into the next (0=seamless, 100=1 second). Or, if using v1.0 software, FAD sets the time for fading to black and then to the new display image. fCs foCUs The FCS adjusts lens focus on projectors having a motorized lens mount, and requires keypad emulation. examples: (FCS K3) –ve Focus direction (FCS K2) +ve Focus direction. (FCS K0) Stop focus adjustment (if not issued, lens movement will continue until it reaches the end stop). To “nudge” the focus a minimum amount, script in a delay between (FCS K3) and (FCS K0). Depending on your application, a delay of at least 20-30 milliseconds may be sufficient. fIl InPUT fIl TeR Use FIL to force an internal filter for HDTV (1), SDTV (2), EDTV (3), Graphics/RGB (4) or to turn the automatic filtering feature off (0). This automatic filter is for analog sources only. fle fRaMe loCK enable Use FLE to define how the projector controls the output frame timing based on the input signal. Use the following parameters to achieve the desired output frame timing.\ P1 = 0: Rate Matched – the output runs at close to the input frequency but is not locked to it so the output will drift in phase relative to the output. P1 = 1: Locked – if possible the output image is phase locked to the in\ put frames P1 = 2: Free Run – the output runs at 60Hz frame rate For older versions of software (v1.1 and earlier) this control is a checkbox to enable a “Locked” output. When unchecked the output is “Frame Matched”. fMT 2/3 PUll DoWn ThResholD Use FMT to adjust the threshold (0-255) at which the projector will consider an incoming video signal as film vs. video. 3.48 faD fade Time 3.49 fCs focus 3.50 fIl Input filter 3.51 fle frame lock enable 3.52 fMT 2/3 Pull Down Threshold Appendix B ► Serial Communications