Panasonic Projector Pt Ex12ku Operating Instructions

							Technical Information
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Appendix
Technical Information
Adjusting screens of multiple screen images
[Edge blending] and [Color matching] allow images from multiple projectors to be overlapped seamlessly.
■
■ [Edge blending]
1) 
Check that the settings of [Screen] and [Image adjust] of each projector are the 
same.
2)  Project images from each projector that you want to overlap.
■
z The following is an example of how to overlap images from projector 
A and B.
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3) 
Select [Edge blending] in the [Setting] menu and display the setting screen.
4)  Select [Edge blending] to turn it [On], and then press [Start] and [W idth] to adjust 
the overlapping position and the amount of overlap (blending width) of images from 
projectors A and B respectively.
■
z The following values are an example.
■
z Set [Width] to the same value for all projectors to be overlapped.
Projector 
A: Set [Right] in \W[Wi\fth] to 100
Line \bre\f): Moves wi\Wth the 
[Wi\fth] valueFrame \bgreen): Proj\Wecte\f image
Overlapping areas \W
\bshown with sha\fow)\W
Frame \bgreen): Proj\Wecte\f imag e
Projector B: Set [\WLeft] in [Wi\fth] to \W100
Exit
E\fge blen\fing
On
On All
Left
Right
Top
Bottom
Black level
Test pattern
Menu off Start
Wi\fth
Start
Wi\fth
Start
Wi\fth
Start
Wi\fth
All
Reset Back
Next
Move
Back
Exit
E\fge blen\fing
On
On All
Left
Right
Top
Bottom
Black leve
l
Test pattern
Menu of f Start
Wi\fth
Start
Wi\fth
Start
Wi\fth
Start
Wi\fth
All
Reset Back
Next
Move
Back
5)  Where required, adjust the focus and zoom for the image position from each 
projector. 
						

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Appendix
6) Then use [Lens shift] to overlap the shaded areas.
■
z The red line will turn yellow if it is overlapped correctly.
Line (yellow)Frame (green): Pro\jje\fted image
E\bit
Edge blending
On
On All
Left
Right
Top
Bottom
Bla\fk level
Test pattern
Menu off Start
Width
Start
Width
Start
Width
Start
Width
All
Reset Ba\fk
Ne\bt
Move
Ba\fk E\bit
Edge blending
On
On All
Left
Right
Top
Bottom
Bla\fk level
Test pattern
Menu off Start
Width
Start
Width
Start
Width
Start
Width
All
Reset Ba\fk
Ne\bt
Move
Ba\fk
7)  Turn [Test pattern] to [On] to display a 50% white test pattern.
■
z The overlapping areas will be displayed more brightly than other areas.
8) 
Adjust [Black level] so that there is no difference between the overlapping areas and 
other areas.
■
z To adjust the overlapping areas, setting a smaller value to the [Contrast] in the [Image adjust] menu is 
recommended.
If the left and right colors do not match, proceed to the following step.
■
■ [Color matching]
9) 
Select [Color matching] in the [Setting] menu and display the setting screen.
10)  Turn on color matching with [On] and adjust [Red]/[Green]/[Blue]/[White].
11)  Select [Advanced color matching] if more detailed settings are required, and display 
the setting screen.
12)  Turn on advanced color matching with [On] and adjust each color with [Target].
■
z Set the [Target] value to within the [Measured] value range.
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Appendix
 
z Adjusting colors with a colorimeter
1)  Turn [Advanced color matching] to [On].
2)  Select [Test pattern] and press the  button.
■
z Displays the test pattern selection screen.
3) 
Select [Red] (or [Green], [Blue]) from [Measured] and press the  button.
■
z The test pattern is displayed.
Measured Test pattern
Exit
Target
Red
Green B\fue
Red
Green B\fue
Cyan
Magenta
Ye\f\f\bwWhite
4)  Measure the chromaticity coordinates (x, y) and luminance (Lx) using the 
colorimeter.
5)  Select [Exit] and press the  button.
■
z Return to the advanced color matching setting screen.
6) 
Enter the value obtained in Step 4).
7)  Calculate the “L” value from the following formula and enter the value.
Example) Calculate “L” for the measured red value.
Luminance (Lx) of red
Luminance of red + luminance of green +  luminance of blue (Lx)
8) Adjust the [Target] value again.
9)  Select [Store] to register the adjusted value.
■
z Where required, adjust other projectors in the same way. 
						

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Appendix
PJLink
This projector complies with Class1 as defined by JBMIA (Japan Business Machine and Information System 
Industries Association) PJLink standards. This projector is compatible with all commands defined by PJLink 
Class1, and verifies that it complies with Class1 standards defined by PJLink.
Projector input namePJLink
Input nameParameter
INPUT 1 RGB (PC Analog) RGB 111
RGB (Scart) RGB 313
RGB (PC Digital) DIGITAL 131
RGB (AV HDCP) DIGITAL 232
HDMI DIGITAL 333
INPUT 1 AUX 146
INPUT 2 Video VIDEO 121
Y,Pb/Cb,Pr/Cr VIDEO 323
RGB RGB 212
S-video VIDEO 222
INPUT 2 AUX 247
INPUT 3 INPUT 3 AUX 348
INPUT 4 INPUT 4 AUX 449 
						

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Appendix
■
■ PJLink
The PJLink subcommittee was established within the Data Projector Group in September 2003. 
The new 
PJLink interface specification for projectors was stipulated by the PJLink subcommittee as part of its first year of 
activities.
PJLink is a unified standard for the control and management of projectors.
The standard allows centralized management of projectors and operation with a controller , regardless of 
manufacturer.
JBMIA aims to provide early systemization of monitoring and control of network projectors, which will become 
mainstream in the future, delivering greater convenience to the user and making projectors more widely used.
Class1: standardization of the projector's basic control and monitoring functions.
Basic projector control: power control, input selection, etc.
Acquisition of each type of projector information and status: power status, input selection status, error status, 
lamp cumulative operating time, etc.
JBMIA: Japan Business Machine and Information System Industries Association.
Association that changed its name on April 1, 2002, from Japan Business Machine Makers 
Association (JBMA), which was established in 1960.
PJLink is a registered trademark of JBMIA and pending trademark in some countries.
PJLink URL: http://pjlink.jbmia.or.jp/english/
Serial terminal
The projector / connection terminals conform with RS-232C so that the projector 
can be connected to and controlled from a computer.
■
■ Connection
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Appendix
■
■ Pin assignments and signal names
 terminal
Outside view Pin No.
Signal name Details
(1)
(5)
(6)
(9)
(1)
—NC
(2) TXDTransmitted data
(3) RXDReceived data
(4) —NC
(5) GNDGround
(6) —NC
(7) CTS
Connected internally
(8) RTS
(9) —NC
 terminal
Outside view Pin No.
Signal name Details
(1)(5)
(6) (9)
(1)
—NC
(2) RXDReceived data
(3) TXDTransmitted data
(4) —NC
(5) GNDGround
(6) —NC
(7) RTS
Connected internally
(8) CTS
(9) —NC
■
■ Transmission conditions
Signal level
RS-232C-compliant Character length8 bit
Sync. method Asynchronous Stop bit1 bit
Baud rate 19 200 bps
*1X parameterNone
Parity None S parameterNone
*1: Fixed to 9 600 bps when [AMX D. D.] is set to on.
■
■ Basic format
Transmission from the computer begins with STX, then the ID, command, parameter, and ETX are sent in this 
order. Add parameters according to the details of control.
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*1: When sending commands without parameters, a colon (:) is not necessary .         
						

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Appendix
■
■ Basic format (with sub command)
Parameter (6 bytes\“)*1
Symbol “\f” or “-” (1\“ byte) an\b set 
value or a\bjustment\“ value (5 bytes)
Operation (1 byte)
*1
“=” (Value specifie\b\“ using parameter is\“ set)
Sub comman\b 
(5 bytes)
Same as basic form\“at
*1:  When sending commands without parameters, the operation (E) and parameter are not necessary .
■
■ List of commands
The following list shows commands to control the projector via a computer
.
 
z Command for projector control
CommandDetails
Note (parameters)
PON Power on
To check if the power is on, use the “Check power status” command.
POF Power standby
QPW Check power status 000 = Standby 001 = Power on
IIS Switch input signal VID = Input 2 - video
SVD = Input 2 - S-video
RG1 = Input 1 - RGB (PC analog)
RG2 = Input 2 - RGB
DVI = Input 1 - RGB (PC digital)
HD1 = Input 1 - HDMI
SCT = Input 1 - RGB (Scart)
AU1,SD1 = Input 3 - SDI1
AU1,SD2 = Input 3 - SDI2
AU2,SD1 = Input 4 - SDI1
AU2,SD2 = Input 4 - SDI2
QSL Check used lamp 0 = 2-Lamps
1 = auto for 1-Lamp
2 = Lamp 1 for 1-Lamp
3 = Lamp 2 for 1-Lamp
LPM Select used lamp 0 = 2-Lamps
1 = auto for 1-Lamp
2 = Lamp 1 for 1-Lamp
3 = Lamp 2 for 1-Lamp
OLP Set lamp power 0 = Normal 2 = Auto 3 = Eco mode 1  4 = Eco mode 2
QLP Check lamp power 0 = Normal 2 = Auto 3 = Eco mode 1  4 = Eco mode 2
Q$L Check lamp usage 
status 1 = Lamp 1 
2 = Lamp 2
(when [Lamp power] is set to standard)
OSH Shutter 0 = Finish 1 = Execute
QSH Check shutter status 0 = Finish 1 = Execute
VSE Change aspect ratio 0 = NORMAL 2 = WIDE  5 = TRUE  6 = FULL 40 = ZOOM  50 = CUSTOM
QSE Check aspect ratio 
setting 0 = NORMAL
 2 = WIDE  5 = TRUE  6 = FULL 40 = ZOOM  50 = CUSTOM
QFI Check filter status 6 = Filter counter remaining (ratio), responded in values 000 to 100 (unit: %) 
						

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Appendix
 
z Command for lens control
CommandSubcommand
Details Note (parameters)
VXX LNSI2Lens H shift
+ 00000 = Fine adjustment 1 +, + 00001 = Fine adjustment 1 
-, 
+ 00100 = Fine adjustment 2 +, + 00101= Fine adjustment 2 
-, 
+ 00200 = Rough adjustment 1 +, + 00201 = Rough adjustment 1 
-
VXX LNSI3Lens V shift
VXX LNSI4Lens focus
VXX LNSI5Lens zoom 
						

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Appendix
Other terminals
■
■  terminal pin assignments and signal names
Outside view Pin No.
Signal name
(1)
(2) (3)
(4)
(1)
GND (luminance signal)
(2) GND (color signal)
(3) Luminance signal
(4) Color signal
■
■  terminal pin assignments and signal names
Outside view Pin No.
Signal name
(4) is not used.
(5) to (8), (10), and (11) are GND 
terminals.
(10) (6)
(11)
(15) (1)
(5)
(1)
R
(2) G
(3) B
(9) +5 V
(12) DDC data
(13) HD/SYNC
(14) VD
(15) DDC clock
■
■  terminal pin assignments and signal names
Outside view Pin No.
Signal name Pin No.Signal name
(1) T.M.D.S data 2 + (11)T.M.D.S clock
shield
(2) T.M.D.S data 2
shield (12)
T.M.D.S clock 
-
Odd number pins from  (1) to  (19)(3)
T.M.D.S data 2 -(13) CEC
(2)
(18) (1)
(19)
(4)
T.M.D.S data 1 + (14)—
(5) T.M.D.S data 1
shield (15)
SCL
(6) T.M.D.S data 1 
-(16) SDA
(7) T.M.D.S data 0 + (17)DDC/CEC
GND
Even number pins from  (2) to  (18)(8) T.M.D.S data 0
shield (18)
+5 V
(9) T.M.D.S data 0 
-(19)Hot plug detection
(10) T.M.D.S clock + 
						

							Technical Information
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Appendix
■
■  terminal pin assignments and signal names
Outside view Pin No.
Signal name Pin No.Signal name
(24)
(17) (16)
(9)
(8)
(1)
(1)
T.M.D.S data 2 -(13) —
(2) T.M.D.S data 2 + (14)+5 V
(3) T.M.D.S data 2/4
shield (15)
GND
(4) —(16)Hot plug detection
(5) —(17)T.M.D.S data 0 
-
(6)
DDC clock (18)T.M.D.S data 0 +
(7) DDC data (19)T.M.D.S data 0/5
shield
(8) —(20) —
(9) T.M.D.S data 1 
-(21) —
(10) T.M.D.S data 1 + (22)T.M.D.S clock
shield
(11) T.M.D.S data 1/3
shield (23)
T.M.D.S clock +
(12) —(24)T.M.D.S clock 
-