Projectiondesign Projector F35 User Manual

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6.9.2  Using DPMS (Display Power Management Signaling)
The projector is enabled for DPMS (Display Power Management Signaling). When\
 enabled, 
the projector will automatically switch to standby mode after a specified ti\
me if there is no 
valid source present at its inputs. When a valid source is reconnected, the projector will start 
up again.
To enable or disable DPMS, go to menu entry SETTINGS > DPMS. The desired DPMS time-
out is set in the DPMS > DPMS TIMEOUT menu entry. 
DPMS is disabled by default.
6.10 Disabling LED indicators
In certain installations it may desirable to completely disable the LED \
indicator in the keypad 
of the projector. To disable the LED indicators, go to menu entry SETTINGS > LED  
INDICATORS MUTE.
If the LED indicators are enabled, the timeout period can be set in the menu under SET-
TINGS > BACKLIGHT TIMEOUT.
6.11 Setting the background color
The background color displayed when the projector is searching for a source can be set to 
a set of predefined colors. Go to menu entry SETTINGS > BACKGROUND to set the des\
ired 
color. Default is black. Setting OSD menu timeout
If the OSD menu is open and not used for a defined period of time, it \
will automatically be 
disabled. The default time is 30 seconds. This timeout interval can be c\
ontrolled from 5 sec-
onds to 60 seconds. The timeout can also be set to “never” for the\
 OSD menu to never time 
out. Go to menu entry SETTINGS > MENU TIMEOUT to change this setting.
6.12 Selecting the startup logo
When the projector is starting up, a logo is displayed in the entire image. The logo can also 
be set to “black” if it is desirable to disable the manufacturers default logo. Go to menu entry 
SETTINGS > SPLASH to change this setting.
6.13 Setting OSD menu timeout
If the OSD menu is open and not used for a defined period of time, it \
will automatically be 
disabled. The default time is 30 seconds. This timeout interval can be c\
ontrolled from 5 sec-
onds to 60 seconds. The timeout can also be set to “never” for the\
 OSD menu to never time 
out. Go to menu entry SETTINGS > MENU TIMEOUT to change this setting.
6.14 Selecting the startup logo
When the projector is starting up, a logo is displayed in the entire image. The logo can also 
be set to “black” if it is desirable to disable the manufacturers default logo. Go to menu entry 
SETTINGS > SPLASH to change this setting.
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							42User’s Guide - Advanced setupF35/FL35  
user’s guide - Advanced setup
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7 Optimising the picture
The projector has power features for picture optimization. This chapter describes details in 
using these features. All color calibration is done using projectiondesign’s proprietary Real-
Color™ solution.
7.1 Calibration data
All projectiondesign projectors are measured and calibrated with high precision equipment at 
the factory for the best out-of-box experience. Over the lifetime of the\
 lamps the characteris-
tics of the projector might change slightly. The same applies when replacing lamps.
7.1.1  Updating RealColor™ calibration data
For accurate results with the RealColor™ system, accurate measurement data is required. 
RealColor™ calibration data can be found under the menu entry PICTURE\
 > CALIBRATION > 
REALCOLOR CALIBRATION > MEASURED VALUES
X, Y and relative luminance values for red, green, blue, white and BrilliantColor™ 1 is entered 
in this menu. The BrilliantColor™ should all be set to 0.000 for the \
VizSim (RGBRGB) color 
wheel. All values can also be updated using the communications protocol over RS-232 or 
LAN.
Before setting these values, it is important to select the desired BrilliantColor™  
setting. Go to menu entry PICTURE > REALCOLOR > BRILLIANTCOLOR to select\
  
the desired BrilliantColor™ look.
Measurements must be done on the built in test patterns. This is in particularly important for 
the BrilliantColor™ 1 test pattern since it is impossible to generate this pattern correctly using 
a computer source. In the user menu these patterns can be accessed through PICTURE > 
CALIBRATION > REALCOLOR CALIBRATION > CALIBRATION TESTIMAGE. Use the arrow 
keys to cycle through the images.  
Performing a factory reset of the projector will restore the measured values to the  
values measured in the factory.
When measuring data, a high quality measurement instrument is highly recommended 
for accurate results. Spectrometers (like PhotoResearch PR-655) are preferred.
For an easier calibration procedure, automated calibration can be achieved using 
projectiondesign’s software package ProNet. A license for the calibration software 
package of ProNet must be purchased separately.
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user’s guide - Optimising the picture
7.2  Working with RealColor™
7.2.1 Setting the BrilliantColor™ correctly
The BrilliantColor™ setting is used to control how color boost is applied in the image.  
It can operate in four modes:
•  Computer Native (Default): This give max brightness and color boost. R\
ecommended  
for non-video applications, like CAD and visualization.
• Computer Balanced: Gives the same brightness as Computer Native, but has\
 a less  
aggressive color boost profile.
• Video Native: Gives less brightness than computer, but will appear with significantly less 
noise in video content.
• Video Balanced: Same brightness as Video Native, but with a smoother color boost 
profile.
• Off: Only recommend for applications requiring a pure red, green, blue mix of colors.  
No secondary color or white are added to the mix.
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7.2.2  Gamma
The projector features a set of 6 built in gamma curves: Film 2.2, Film 2.8, Video 1, Video 2, 
Computer 1, Computer 2. The different gamma curves are displayed below.
The names of the curves are descriptive for their recommended use. Use any of the  
computer curves for video applications will results in significant image noise.
Figure 7-1.  Film 2.2 gamma
Figure 7-2.  Film 2.8 gamma
Figure 7-3.  Video 1 gamma
 
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							46User’s Guide – Optimising the pictureF35/FL35  
user’s guide - Optimising the picture
Figure 7-4.  Video 2 gamma 
Figure 7-5.  Computer 1 gamma 
Figure 7-6.  Computer 2 gamma
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7.2.3  RealColor™ operating modes
Before any color correction is applied to the image, the feature must be enabled. Go to menu 
entry PICTURE > REALCOLOR > COLOR CORRECTION to enable RealColor™.
RealColor™ can operate in 3 modes:
• Color temperature/white point correction only.
• Red, Green, Blue, White correction. In this mode optimal color coordinates for Cyan, 
Magenta and Yellow will be computed automatically.
• Red, Green, Blue, Cyan, Magenta, Yellow, White. In this mode color points and intensity 
for each color can be manipulated separately.
To change the RealColor™ mode, please go the menu entry PICTURE > REAL\
COLOR > 
DESIRED VALUES > DESIRED COORDS MODE.
7.2.4   Setting a white point or color temperature
After enabling RealColor™, set the color temperature in the menu entry PICTURE > REAL-
COLOR > COLOR TEMPERATURE. Values between 3200K and 9300K can be selected. 
These color temperatures are tracking the “black body curve”- the black curved line in the 
center of CIE Chart in Figure 7-7. The default is the D65 illuminant at 6500K. 
Figure 7-7.  CIE Chart with the black body curve
The white point can also be set to a custom value defined by an x, y c\
oordinate not linked 
to the black body curve. Go to menu entry PICTURE > REALCOLOR > X-COORDI\
NATE and 
PICTURE > REALCOLOR > Y-COORDINATE to change the white point. 
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user’s guide - Optimising the picture
7.2.5 Defining the system color gamut
All colors visible to the eye are defined by CIE Chart in Figure 7-7. The boundary of the colors 
the projector can display is called the system color gamut. The white triangle\
 in Figure 7-7 is 
an example of a system color gamut. By default the projector has the widest possible system 
gamut, which is limited by the color wheel selected for the system. The \
VizSim color wheel 
has the widest color gamut and the High Brightness color wheel has the s\
mallest.
The system color gamut cannot be expanded outside color gamut defined \
by the  
color wheel.
It may be desirable to change the system color gamut of the projector to:
- Color match multiple projectors.
- Meet defined color standards, like REC 709.
- Create a special “look” to the image.
Before the system color gamut can be change the desired RealColor™ mode has to be  
defined. To change the RealColor™ mode, please go the menu entry PICTURE > REAL\
-
COLOR > DESIRED VALUES > DESIRED COORDS MODE.
RealColor™ has to be enabled for the desired system gamut to be applied. Go to menu entry 
PICTURE > REALCOLOR > COLOR CORRECTION to enable RealColor™.
After RealColor™ is enabled and the desired color correction mode is selected, please go 
the menu entry PICTURE > REALCOLOR > DESIRED VALUES to change the color points to 
the your desired system color gamut.
For graphical visualization of the system color gamut and easy color man\
agement for 
a single or multiple projectors, the ProNet software package could be used. A license 
for the calibration software package of ProNet must be purchased separately.
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Please refer to our website at projectiondesign.com to download the required 
files or seek other information
8 Maintenance
8.1 Software upgrades
In order to upgrade your projector, please follow the method and sequence described below.
• You will need a USB memory stick set up with a FAT-file system to perform this upgrade
• Access the upgrade software from the following web-address;  
www.projectiondesign.com
•    Download and save the firmware.zip-file to your PC desktop
• Unzip and extract the firmware file to the root of a memory stick 
PS! Important that the USB is safely removed from computer, using the eject function on your PC.
• Set the projector in standby mode
• Insert the memory stick in the projector and wait for a few seconds
• The LCD display will indicate that it has detected an upgrade file on \
the memory stick. 
Wait a few seconds while the file is validated
• Remove the memory stick when the LCD display instructs you to do so. 
• Do not remove the power cord while the upgrade is still in progress
• The projector may restart several times during the upgrade
The upgrade has finished successfully when the ordinary LCD display returns.
 
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user’s guide - Maintenance
8.2 Lamp replacement (UHP units only)
The LAMP indicators on the keypad will turn red when lamp life expires or if the lamp fails. 
Change the lamp when lifetime expires. Always replace lamp with the same type and rating. 
USE ORIGINAL LAMPS ONLY.
The lamp includes an electronic lamp timer that is tracking the life time of the lamp.
Allow lamp to cool down before changing. One lamp may be changed while the other lamp is 
operating (hot-swap). 
Release the screw (LAMP 1) or (LAMP 2) depending on which lamp that needs to be re-
placed.
Be careful not to touch the protective glass when replacing the lamp,  
this may cause the protective glass to overheat and break while in use.
Be extremely careful when removing the lamp module. In the unlikely 
event that the bulb ruptures, small glass fragments may be generated. 
The lamp module is designed to contain these fragments, but use 
caution when removing the lamp module.
A Open the lamp lid(s).
B Turn the three locking screws a quarter turn anti-clockwise.
C Pull the lamp out.
D Replace with a new lamp in reverse order.
E  Insert a new lamp. Observe the guide pins.
F  Turn the tree locking screws a quarter turn clockwise.
G Close the lamp lid.
H  Turn the locking screw clockwise.
In the unlikely event of a lamp rapture, a limited amount of mercury vapor 
may be emitted into the room. To avoid inhailing this mercury vapor 
(which is toxic, and can be harmful for lungs and nervous system) the 
room should be thoroughly ventilated for a period of at least 30 minutes. 
There are no known health hazards from exposure to lamps that are 
intact and which are used within an enclosed fixture. No adverse effects 
are expected from occational exposure to broken lamps. As a matter of 
good practise, avoid prolonged or frequent exposure to lamps unless 
there is adequate ventilation. The major hazard from broken lamps is the 
possibility of sustaining glass cuts.
A
B
H
G
F
E
D
C
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