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Wolf Cinema Projector Dcx 1000fd User Manual

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    							B-22
    fRD  fRaMe DelaY 
    Use  FRD  to  adjust  the  number  of  lines  of  delay  between  the  input  and  output  frames  (range 
    varies with incoming signal). 
    fRz  fReeze IMage 
    FRZ 1 = freeze the image. FRZ 0 = unfreeze the image. 
    fse  f an sensoR enable 
    Use FSE if you want the projector to shut down 3 minutes after a critical cooling fan failure. FSE 
    1	 =	 enabled,	 FSE	0	=	 disabled. 	NOTE:	 Definition	 of	a	which	 cooling	 fan	is	critical	 varies	with	
    projector model. 
    fYI  foR YoUR InfoRMa TIon 
    The projector broadcasts an FYI message when it detects a change in status. The FYI message 
    contains the relevant status code followed by its new state (P1), up to 2 additional parameters of 
    detail, and a brief text description. The address of the source projector precedes the FYI code. 
    noTe:  FYI messages are gated by the Error Message Enable (EME) control. Turning off EME 
    also turns off FYI. 
    status Code new state (P1) Meaning and additional Parameters
    001 Power  0 = Off 1 = On 2 = Boot 10  = Cool Down 11 = Warm Up  P1 value indicates the new “Power” state 
    detected. 
    002 Proj. Address  ##### (5-digit address)  P1 value indicates the new address of  this source projector. 
    003 Proj. Selected  0 = RS232 Inactive, UI  Inactive 1 = RS232 Inactive, 
    UI Active 2 = RS232 Active, 
    UI Inactive 3 = RS232 
    Active, UI Active  This projector has been activated or 
    inactivated via the PROJ key or the APJ 
    serial message. 
    004 Baud Rate  ####### (7-digit baud rate)  P1 value indicates the new baud rate. 
    005 Standby  0 = Off 1 = On  P1 value indicates whether the system is 
    in standby mode 
    006 Signal  0 = Good Signal 1 = Signal  missing 2 = bad sync  P1 describes signal detection P2 = hor. 
    frequency of signal P3 = vert. frequency 
    of signal 
    007 OSD  0 = Off 1 = On  P1 value indicates whether the on-
    screen display is on or not. 
    009 Shutter  0 = Open 1 = Closed  P1 value indicates whether the shutter is  open or closed. 
    010 Input  0 = Open 1 = Closed  P1 describes the current channel 
    number P2 = Switcher# (projector is 
    always switcher “000”) P3 = Slot# 
    011 Picture Mute.  0 = Off 1 = On  P1 value indicates whether the picture is 
    displayed or not 
    012 PIP.  0 = Off 1 = On  P1 value indicates whether Picture-in-
    Picture mode is on or not 
    255 General / Misc.  ### (3-digit channel  number)  P1 describes miscellaneous general 
    state detected 
    3.53  fRD
    frame Delay
    3.54  fRz
    freeze Image
    3.55  fse
    fan sensor enable
    3.56  fYI
    for Your Information
    Appendix	B	►	Serial	Communications 
    						
    							B-23
     examples: (Status code for each FYI is shown as bold) 
      (00030FYI 001 000 "Powered Off")
      (00030FYI 002 00057 "Projector address changed from 30 to 57")
      (00057FYI 003 001 "Projector UI active, RS-232 Inactive")
      (00057FYI 004 38400 "Baud rate changed to 38400")
       (00057FYI 006 000 01573 05994 "Good Signal")
      (00057FYI 006 002 "Bad Sync: HSync is too high")
      (00057FYI 007 000 "OSD Off")
       (00057FYI 009 001 "Shutter Closed")
      (00057FYI 010 034 000 003 "Switched to channel 34, projector input 03")
      (00057FYI 010 035 000 004 "Switched to channel 35, projector input 04") 
    gaM  gaMMa 
    Use GAM to set a 3-digit gamma level interpolated between a base curve (\
    2.2 by default, or an 
    arbitrary gamma curve, selected via the BGM Base Gamma control), a high\
     curve (3.0), and a 
    linear curve. Range is 100-280 (=1.8-2.0). 
    gIo  geneRal InPUT oUTPUT 
    Use	GIO	to	configure	and	control	the	General	Purpose	Input	and	Output	(GPIO)	bits.	 There	are	
    7 GIO pins available on the 9pin DIN GPIO connector, plus power and ground. 
    gPIo Pins
    Connector Pin #  Signal 
    1  +12V (200mA) 
    2  GPIO 1 
    3  GPIO 2 
    4  GPIO 3 
    5  Ground 
    6  GPIO 4 
    7  GPIO 5 
    8  GPIO 6 
    9  GPIO 7 
    general Message format: 
    (GIO?)		 	 	 	 //	Request	state	and	configuration	of	all	pins
    (GIO?	C#)		 	 	 //	Read	configuration	for	specific	pin
    (GIO	C#	)		 	 //	Set	pin	#	configuration	to	
    (GIO	C#	“List	of	configurations”)		 //	Set	multiple	pin	configurations	starting	at	pin		i.e.	
     (GIO # )    // Set pin  to  H= High, L= Low 
    GIO # “List of states”)     // Set multiple pin states, starting at pin  i.e.  
    (GIO # P )   // Pulse pin  for  milliseconds 
    Where		 	 C	=	configure
        # = desired pin number or start pin number
        x = no change 
    noTes:  When	 a	command	 is	issued	 to	a	pin	 configured	 as	an	 input,	 the	command	 triggers	the	same	
    1. 
    functions as if the input pin actually changed state. 
    The	 GIO	 configuration	 and	state	 take	time	to	save	 to	the	 projector.	 Leave	your	projector	
    2. 
    running for several after your setup is complete. 
    GPIO numbers start from 1 not zero. 
    3. 
    3.57  gaM
    gamma
    3.58  gIo
    general Input output
    Appendix	B	►	Serial	Communications 
    						
    							B-24
    examples:
    (GIO?)		 	 	 	 //	Request	state	and	configuration	of	all	pins
    (GIO!	"HLLLLHL"	"IOOOOII")		 //	Reply	of	pin	state	and	configuration
    (GIO	"HLLLLHL"	"IOOOOII")		 //	Set	Pin	state	and	configuration.	The	above	commands		
            can be used to save and restore Preference information 
    (GIO C1 O)       // Set Pin 1 as output
    (GIO?	C1)		 	 	 //	Get	Configuration	for	pin	1	
    (GIO!C1	O)		 	 	 //	Reply	for	get	pin	configuration	
    (GIO C2 “OOIO”)      // Set pin 2=out, 3=out, 4=in, 5=out 
    (GIO	1	H)		 	 	 //	If	configured	as	output,	set	to	high	
    	 	 	 	 //	If	configured	as	input,	perform	task	equivalent	to	the		
            input going high
    (GIO	1	“HLLL”)	 	 	 //	 Assuming	config	as	outputs	1=high,	2,3,4=low	
    (GIO 1 P 100)       // Pulse pin 1 for 100mS 
    gnb  gReen blaCKleVel 
    Set	or	request	the	green	Blacklevel	(0-511)	for	a	specific	source	setup	
    gnD  gReen DRIV
    e 
    Set	
    
    or	request	the	green	Drive	(0-511)	for	a	specific	source	setup.	
    gog  gReen oDD gaIn 
    Set or request the green  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	
    examples: 
      (GOG 130 135)  Sets the BNC analog path to 130, the DVI/option card path to 135.  
      (GOG 0 120)  Leaves the BNC path as it was, the DVI/option card path to 120.
      (GOG 125)  Sets both paths to 125. 
    goo  gReen oDD offseT 
    Set  or  request  the  green  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.	
    3.59  gnb
    green blacklevel
    3.60  gnD
    green Drive
    3.61  gog
    green odd gain
    3.62  goo
    green odd offset
    Appendix	B	►	Serial	Communications 
    						
    							B-25
    3.63  hDC
    DHDM ConfigurationhDC  DhDM ConfIgURa TIon 
    When	 the	Dual	 SD/HD-SDI	 module	is	present,	 the	HDC	 command	 specifies	how	the	card	 is	
    being  used.    The  module  can  be  used  to  support  a  Dual  Link  setup  or  have  two  independent 
    single	 HD	channels.	 By	default	 the	configuration	 is	set	 to	two	 single	 channels.	 You	may	 select	 a	
    dual link setup where the 'A' channel on the module is the primary video channel or the selection 
    can be made to have the 'B' channel as the primary video in a dual link format. P1 is the Option 
    Slot	number	(1	or	2)	and	P2	is	the	value	you	want	to	set	for	the	configuration	(see	table	below).	
    Value Configuration
    0 Two Single HD Channels 
    1 Dual Link, Channel A Primary 
    2 Dual Link, Channel B Primary 
      examples:
    	 (HDC	2	2)		 Set	configuration	on	Option	slot	2	to	be:	Dual	Link,	Channel	B		 	
          primary
    	 (HDC?	2)		 Request	configuration	for	slot	2	only;	returns	(HDC!	002	002)	for		
          above setting.
    	 (HDC?)		 	 Request	configuration	for	either	slot;	returns	(HDC!	001	000)
          (HDC! 002 002) if cards exist in both slots. 
    hDD  DhDM DUal lInK foRMa T 
    When	 the	Dual	 SD/HD-SDI	 module	is	present,	 it	can	 be	configured	 to	accept	 a	Dual	 Link	292M	
    serial input by combining the separate SDI inputs to allow a higher bandwidth / higher resolution  
    (1920	 X	1080)	 source.	 The	table	 below	 shows	 how	to	configure	 the	projector	 to	properly	 display	
    the  Dual  Link  source. This  command  is  only  available  when  the  module  is  present  and  is  only 
    used	 for	Dual	 Link	sources.	 Parameter	 1	is	 the	 option	 slot	number	 you	wish	 to	configure	 (1	or
    	2),	
    and Parameter 2 the value to select the desired format. 
     
    Value selected format
    0 4:4:4 RGB 10bit 
    1 4:4:4 YCrCb 10bit 
     
      examples:
    	 (HDD	2	1)	 Configure	slot	2	to	accept	4:4:4	 YCrCb	10bit	Dual	Link	Video
    	 (HDD?	2)	 Request	current	configuration	for	slot	2	only;	from	above	this	would		
          return (HDD 001)
      (HDD?)     Request Dual Link format for the main video.
      (HDD? p)   Request Dual Link format for the pip video. 
    3.64  hDD
    DhDM Dual link format
    Appendix	B	►	Serial	Communications 
    						
    							B-26
    3.65  hDl
    DhDM look Thru settinghDl   DhDM looP  ThRU seTTIng 
    When the Dual SD/HD-SDI module is present, a serial input may be routed to a serial output to 
    allow chaining of signal sources using the HDL command. You can specify which input is routed 
    to which output. Primary and Secondary sources may also be used as designated inputs to loop 
    to	 outputs.	 P1	defines	 the	option 	card	 slot	you	 wish	 to	configure	 and	P2	refers	 to	what	 loop	thru	
    inputs and outputs are desired. The table below lists the value options. 
    Value Input output
    0 A  C 
    B  D 
    1 A  D 
    B  C 
    2 Primary  C 
    Secondary  D 
    3 Primary  D 
    Secondary  C 
      examples:
      (HDL 2 3)  Set loop thru on option slot 2 to be: Primary thru to D and    
          Secondary thru to C 
    	 (HDL?	2)		 Request	loop	thru	for	slot	2	only;	returns	(HDL!	002	003)	for	above		
          setting. 
    	 (HDL?)		 	 Request	loop	thru	for	either	slot;	returns	(HDL!	001	001)
          (HDL! 002 003) if cards exist in both slots.
    hIs  laMP  hIsToRY 
    Use  the  read-only  HIS  request  to  obtain  the  projector’s  lamp  history.  Note  for  dual-lamp,  this 
    information	 is	stored	 separately	 for	each	 lamp	(P1	identifies	 Lamp	1	or	 2)—see	 examples	
    below. 
      examples: 
      (HIS? 1) What is the Lamp 1 history?
    	 	 (HIS!	001	001	00555	“000000014”)	 //	Lamp	1,	sn.=”000000014”,	first	lamp		
                used, on for 555 hours              
        (HIS! 001 002 00095 “000000018”)   // Lamp 1, sn.=”000000018”, second  
                lamp used, on for 95 hours 
      (HIS?) What is the complete lamp history for Lamp 1 and Lamp 2?
    	 	 (HIS!	001	001	00555	“000000014”)	 //	Lamp	1,	sn.=”000000014”,	first	lamp		
                used, on for 555 hours
        (HIS! 001 002 00095 “000000018”)  // Lamp 1, sn.=”000000018”, second  
                lamp used, on for 95 hours
    	 	 (HIS!	002	001	00666	“000000022”)	 //	Lamp	2,	sn.=”000000022”,	first	lamp		
         
    
          used, on for 666 hours 
    3.66  hIss
    lamp history
    Appendix	B	►	Serial	Communications 
    						
    							B-27
    hlP  helP 
    Use HLP for a list of all serial commands supported in your projector—send the (HLP?) request. 
    Each item in the list has 3 parameters stating if the command is disabled (and why), its 3-character 
    code, and the menu label or brief description: 
      P1 = current on/off state of the command
        0 = enabled 
        1 = disabled because power is off 
        2 = disabled because the required hardware is missing
        3 = disabled because the function has not been licensed 
        4 = disabled because the factory option has not been enabled 
        5 = disabled because the command is not valid in the current context
    	 	 6	=	disabled	because	the	user	has	an	insufficient	security	level	
        7 = disabled because the function has been locked in the service menu
        8 = this is a read-only function 
     
      P2 = 3-letter ASCII code for the command (ASR, BRU, etc.) 
      P3 = menu label for the command. For those commands for which there is no equivalent  
      menu item, short descriptive text is returned 
    hoR  hoRIzonT al PosITIon 
    Use HOR to adjust the horizontal position of the image. 
    l Vs  lens VaRIsCoPe sYsTeM 
    This enables (1) the lens settings to be saved / restored when the channel is changed.  When off 
    (0), changing the channel does not affect the lens settings. When LVS is activated it may cause 
    a query to proceed with lens motor calibration (see LCB). Lens calibration is necessary for LVS 
    to  function.    Since  calibration  will  take  a  couple  of  minutes,  the  user  is  allowed  to  decline  and 
    leave LVS turned off. 
    InM  In MenU 
    Use  INM  to  specify  whether  a  source  setup  is  to  be  included  in  (1)  or  excluded  from  (0)  the 
    source	setup	selection	menu.	See	section	See	also	2.5,	 Accessing	Specific	Source	Setups.
    IoP  IMage oPTIMIza TIon
    With the IOP control, the user can choose whether raw image quality or the cleanness\
     of image 
    transitions is more important.
    Choosing Best Image Quality allows scaler resources to be allocated under some conditions to 
    improve image quality in the form of deeper pixel depth. However, when switching sources, the 
    screen will go blank and increase your switching time.
    Choosing Smooth Switching allows for cleaner transitions and/or fading when a user selects a 
    new source to be displayed. The images will fade from the old image to the new image according 
    to the Fade Time control (FAD).
    Seamless Switching overrides the Frame Lock Enable (FLE) settings and forces the output to run 
    at 60Hz regardless of the input signal. The image is 100% seamless when switching sources.
    Parameter Value
    P1 0 = Best Image Quality
    1 = Smooth Switching
    2 = Seamless Switching
    3.67  hlP
    help
    3.68  hoR
    horizontal Position 
    3.69  lVs
    lens Variscope system
    3.70  InMIn Menu
    3.71  IoP
    Image optimization
    Appendix	B	►	Serial	Communications 
    						
    							B-28
    3.72  ITg
    Test Pattern greyITg  TesT Pa TTeRn gReY  
    Use	 ITG	to	set	 the	 grey	 level	 for	the	 flat	field	 internal	 test	pattern.	 The	range	 of	adjustment	
    depends on the bit depth available in your projector model. 
    Use	 ITP	to	 display	 an	internal	 test	pattern,	 or	to	find	 out	what	 test	pattern	 is	currently	 displayed.	
    The basic test pattern collection is shown listed below - your projector\
     may vary slightly.
    Pattern # Description
    0 User image - no test pattern displayed.
    1 Grid + grey scale + color bars + circle + convergence marks
    2 Gray Scale 16
    3 White
    4 Grey - slide bar selects value 0-1023
    5 Black
    6 Checker
    7 13 point
    8 Color Bars
    9 RGBW Grey Scale
    10 Multi Color
    11 Edge Blend
    12 Aspect Ratio
    13 Red & Blue ramp
    Ken  KeYP aD enable 
    Use  KEN  to  set  the  keypad  input  protocols,  Wired,  IR  Front  and  IR  Rear,  to  respond  to  the 
    protocol of the desired keypad. The following table outlines how to use the command parameters 
    to set the desired protocols. Note: the built-in keypad cannot be disabl\
    ed. 
    noTe: Protocols B – G are used with the ‘Brick’ style rental staging keypad. 
    Parameter Value
    P1  0 = Wired 
    1 = IR Front 
    2 = IR Rear 
    P2  0 = Off 
    1 = Responds to any protocol 
    10 = Protocol A 
    11 = Protocol B 
    12 = Protocol C 
    13 = Protocol D 
    14 = Protocol E 
    15 = Protocol F 
    16 = Protocol G 
    example:
    (KEN I2 12): Sets IR Rear to Protocol C              
    (KEN? I1) returns (ken! I001 001): the current protocol for IR-front\
    3.73  ITP
    Internal Test Pattern
    3.74  Ken
    Keypad enable
    Appendix	B	►	Serial	Communications 
    						
    							B-29
    3.75  KeY
    Key CodeKeY  KeY  CoDe
    To  emulate  use  of  the  projector’s  keypad,  you  can  send  codes  representing  each  keypress. 
    noTe:  For  most  keys,  sending  a  key  code  to  depress  a  key  also  sends  a  code  to  release  the 
    key. Key codes for arrow keys and lens keys, however, cause continual adjustment that must be 
    stopped with a separate code.
    Quick
    Setup
    Appendix	B	►	Serial	Communications 
    						
    							B-30
    3.76  KsT
    KeystoneKsT  KeYsTone
    Use KST to correct vertical keystone (14-50) so that the sides of the image do not slope away 
    from each other, and the image is rectangular. The default value is 32 (no keystone).
    For advanced 2D keystone using the Warp Module, see Warp Keystone Corners (WKC).
    lbl   lefT blanKIng 
    Use LBL to blank the left edge of the image (0-1000). The amount of blanking feasible depends 
    on the incoming source data. 
    lCb  lens CalIbRa Te 
    LCB forces the projector to calibrate the lens/motors and is intended for use in conjunction with 
    Wolf  Cinema's  Lens  VariScope  System  (LVS).  Lens  Calibration  is  not  necessary  if  LVS  is  not 
    used. 
    LCB  provides  three  types  of  calibrations  to  be  performed.  A  Reference  calibration  locates  a 
    positional  reference  point  for  repeatable  motor  positioning.  A  Motion  calibration  calculates 
    and  sets  motion  parameters  that  optimize  individual  motors  response  for  accurate  positional 
    placement. A Full calibration executes both of these calibrations. 
    If  LVS  has  already  been  enabled  (refer  to  LVS  command),  a  Reference  calibration  will  be 
    performed when the projector is powered up. Motion calibration only needs to be done once when 
    LVS is initially enabled because the results are retained in memory for future use.  Therefore, if 
    LVS is to be used, it is only necessary to perform motion calibration onc\
    e. 
    LVS  can  only  be  enabled  if  both  calibrations  have  been  performed  at  least  once.  If  LVS  is 
    disabled, neither calibration is necessary. 
    Refer to the tables below for the parameters to control the LVS calibration process.
    Command Values:
    Parameter Description
    1 - Relative Calibrate Motor Zero Reference Position
    2 - Manual Calibrate Motion Parameters for Lens Motors
    3 - Calibrate Calibrate both Reference and Motion Parameters
      
    Query Values:
    1 = calibration has been done, 0 = calibration has not been done
    Parameter Description
    Reference Calibration Motion Calibration
      examples:
      (LCB 3) Stop Horizontal Movement, Lens will not stop until this command is issued or   
        the end stop is reached. 
      (LCB?) Query the current status of calibration, responds with (LCB!1 0) indic\
    ates  
        that reference is calibrated but motion parameters are not. 
    3.77  lbl
    left blanking
    3.78  lCb 
    lens Calibrate
    Appendix	B	►	Serial	Communications 
    						
    							B-31
    lDT  leVel DeTeCToR 
    Enable  (1)  or  disable  (0)  the  LDT  (Level  Detector  Test)  mode  that  can  aid  in  setting  up  input 
    levels.	 Use	in	conjunction	 with	LDV	 (Level	 Detector	 Value),	which	defines	 a	threshold	 below	
    which all incoming colors will be turned black, and above which all colors will turn to white. At this 
    point, the Level Detector will be enabled. 
    lDV  leVel DeTeCT oR ValUe 
    Use an LDV setting of 1 to 1023 when the LDT (see above) will be enabled. This is a threshold 
    below which all incoming colors will be turned black, and above which all colors will turn to white, 
    and is an aid for setting up input levels. 
     
     
    lho  lens hoRIzonT al offseT 
    LHO adjusts horizontal offset on projectors having a motorized lens mount, and requires keypad 
    emulation. 
    examples:
    	 (LHO	K3)		 Move	the	image	to	the	right	→	
    	 (LHO	K2)		 Move	the	image	to	the	left	←	
      (LHO K0)    Stop horizontal movement (without this, lens movement will    
          continue until it reaches the end stop). 
    To “nudge” the image a minimum distance, script in a delay between (LHO K3) and (LHO K0). 
    Depending	on	your	application,	a	delay	of	at	least	20-30	milliseconds	may	be	sufficient.	
    l TC laMP  TRaCKIng CalIbRa TIon 
    Use LTC to calibrate the current lamp and optical response. 
    Parameter Description
    P1 = Calibration  0 = Use default settings 1 = Run automatic calibration on current projector 
    or, if more parameters present,
    1= Set custom gain and offset 
    P2 = Gain  Gain value can be from 0 to 32767 
    P3 = Offset  Offset value can be between -32768 to 32767 
    noTe:  LTC calibration can take several minutes to complete and will vary the lamp output during 
    calibration.  All  lamp  settings  will  return  to  their  initial  condition  once  the  calibration  has  been 
    completed. 
    Warning:	 Custom	settings	allow	the	user	 to	set	 LTC	 to	any	 value	 within	 the	specified	 range.	The	
    software	does	not	check	that	the	specified	values	are	functional.	
    lMe  laMP  Message enable 
    Use  LME  to  enable  (1)  or  disable  (0)  display  of  the  lamp  timer  message  when  the  lamp  has 
    reached its Lamp Limit  setting. 
    lng  langUage 
    Use LNG to get/set the current language used in the projector’s menu system. 
    1 = English    4 = German
    2 = French    5 = Italian
    3 = Spanish
    3.79  lDT
    level Detector
    3.80  lDV
    level Detector Value
    3.81  lho
    lens horizontal offset
    3.82  lTC 
    lamp Tracking  Calibration
    3.83  lMe
    lamp Message enable
    3.84  lng
    language
    Appendix	B	►	Serial	Communications 
    						
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