Home
>
Digital Projection
>
Projector
>
Digital Projection Titan Wuxga 3d , Dual 3d, Titan Wuxga 330, 660 User Manual
Digital Projection Titan Wuxga 3d , Dual 3d, Titan Wuxga 330, 660 User Manual
Have a look at the manual Digital Projection Titan Wuxga 3d , Dual 3d, Titan Wuxga 330, 660 User Manual online for free. It’s possible to download the document as PDF or print. UserManuals.tech offer 577 Digital Projection manuals and user’s guides for free. Share the user manual or guide on Facebook, Twitter or Google+.
Rev A April 2011 Page 2.7
Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual 2. Installation
Notes
This chart has a TRF of 1.0, for
use with the following images:
Choosing a lens using the lens charts
Use the charts on this page and on the following pages to choose which lens best
suits your application.
Examples
For a screen width of 10m at a distance of 30m, the 2.56- 4.16: 1 zoom lens
would be best suited.
For the same screen size at a distance of 50m, the 4.16 - 6.96: 1 zoom lens
would be best suited.
if you need to be more precise, then use the calculations on the page immediately
following the lens charts.
Full width images, including 2.35:1, 1.85:1, 16:9 and WUXGA (native
resolution) •
•
2.35:1 (Scope), 1.85:1, 16:9
and WUXGA
1.12 : 1 fixed lens (1.2 - 2m)
105-609
105-609 1.39 - 1.87 : 1
zoom lens
105-610
107-196 1.87 - 2.56 : 1
zoom lens
105-611
107-197 4.16 - 6.96 : 1
zoom lens
105-613
107-199
0.67 : 1 fixed lens 105-607
107-195
feetmetres
Screen width
10 20 30 40 50 60 70 80 metres
33 66 98 131 164 197 230 262 feet
66 20
49 15
33 10
16 5
Throw distance
2.56 - 4.16 : 1
zoom lens
105-612
107-198
1.12 : 1 fixed lens (3 - 15m)
105-608
105-608
1.16 - 1.49 : 1
zoom lens
109-236
109-359
6.92 - 10.36 : 1 zoom lens
109-235
109-358
Page 2.8 Rev A April 2011
2. Installation Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual
Notes
This chart has a TRF of 1.07,
for use with the following
images:
1.66:1 (Vista)
Lens charts continued
1080 pixel height image 1.66:1 (Vista)
Use the chart below to choose which lens best suits your application.
if you need to be more precise, then use the calculations on the page immediately
following the lens charts.
feetmetres
Screen width
10 20 30 40 50 60 70 80 metres
33 66 98 131 164 197 230 262 feet
66 20
49 15
33 10
16 5
Throw distance
1.12 : 1 fixed lens
(1.2 - 2m)
105-609
105-609 1.39 - 1.87 : 1
zoom lens
105-610
107-196 1.87 - 2.56 : 1
zoom lens
105-611
107-197 4.16 - 6.96 : 1
zoom lens
105-613
107-199
0.67 : 1 fixed lens 105-607
107-195 2.56 - 4.16 : 1
zoom lens
105-612
107-198
1.12 : 1 fixed lens (3 - 15m)
105-608
105-608
1.16 - 1.49 : 1
zoom lens
109-236
109-359 6.92 - 10.36 : 1
zoom lens
109-235
109-358
Rev A April 2011 Page 2.9
Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual 2. Installation
Lens charts continued
1080 pixel height image 1.6:1
Use the chart below to choose which lens best suits your application.
if you need to be more precise, then use the calculations on the page immediately
following the lens charts.
Notes
This chart has a TRF of 1.1, for
use with the following images:
1.6:1
(but not WUXGA:
see TRF = 1)
feetmetres
Screen width
10 20 30 40 50 60 70 80 metres
33 66 98 131 164 197 230 262 feet
66 20
49 15
33 10
16 5
Throw distance
1.12 : 1 fixed lens
(1.2 - 2m)
105-609
105-609 1.39 - 1.87 : 1
zoom lens
105-610
107-196 1.87 - 2.56 : 1
zoom lens
105-611
107-197 4.16 - 6.96 : 1
zoom lens
105-613
107-199
0.67 : 1 fixed lens 105-607
107-195 2.56 - 4.16 : 1
zoom lens
105-612
107-198
1.12 : 1 fixed lens (3 - 15m)
105-608
105-608
1.16 - 1.49 : 1
zoom lens
109-236
109-359 6.92 - 10.36 : 1
zoom lens
109-235
109-358
Page 2.10 Rev A April 2011
2. Installation Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual
Notes
This chart has a TRF of 1.2, for
use with the following images:
UXGA only
Lens charts continued
Full height image UXGA 4:3
Use the chart below to choose which lens best suits your application.
if you need to be more precise, then use the calculations on the page immediately
following the lens charts.
feetmetres
Screen width
10 20 30 40 50 60 70 80 metres
33 66 98 131 164 197 230 262 feet
66 20
49 15
33 10
16 5
Throw distance
1.12 : 1 fixed lens
(1.2 - 2m)
105-609
105-609 1.39 - 1.87 : 1
zoom lens
105-610
107-196 1.87 - 2.56 : 1
zoom lens
105-611
107-197 4.16 - 6.96 : 1
zoom lens
105-613
107-199
0.67 : 1 fixed lens 105-607
107-195 2.56 - 4.16 : 1
zoom lens
105-612
107-198
1.12 : 1 fixed lens (3 - 15m)
105-608
105-608
1.16 - 1.49 : 1
zoom lens
109-236
109-359 6.92 - 10.36 : 1
zoom lens
109-235
109-358
Rev A April 2011 Page 2.11
Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual 2. Installation
Notes
This chart has a TRF of 1.33,
for use with the following
images:
4:3 = 1.33:1
(but not UXGA:
see TRF = 1.2)
Lens charts continued
1080 pixel height image 4:3
Use the chart below to choose which lens best suits your application.
if you need to be more precise, then use the calculations on the page immediately
following the lens charts.
feetmetres
Screen width
10 20 30 40 50 60 70 80 metres
33 66 98 131 164 197 230 262 feet
66 20
49 15
33 10
16 5
Throw distance
1.12 : 1 fixed lens
(1.2 - 2m)
105-609
105-609 1.39 - 1.87 : 1
zoom lens
105-610
107-196 1.87 - 2.56 : 1
zoom lens
105-611
107-197 4.16 - 6.96 : 1
zoom lens
105-613
107-199
0.67 : 1 fixed lens 105-607
107-195 2.56 - 4.16 : 1
zoom lens
105-612
107-198
1.12 : 1 fixed lens (3 - 15m)
105-608
105-608
1.16 - 1.49 : 1
zoom lens
109-236
109-359 6.92 - 10.36 : 1
zoom lens
109-235
109-358
Page 2.12 Rev A April 2011
2. Installation Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual
Notes
The Throw ratio for a particular
lens is fixed, and assumes that
the image fills the width of the
DMD.
For images that do not fill the
width of the DMD, the Throw
ratio is effectively increased. To
correct for this, a Throw Ratio
Factor (TRF) is used.
Choosing a lens by calculation
For any screen size not listed above, or if you need to be more precise, then use the
calculations below.
Identify actual width of the image in pixels.
Calculate the Throw Ratio Factor: TRF = DMD width (1920)
Image width in pixels
Identify the screen width required.
Identify the throw distance required.
Throw distance calculations are based on the distance from the outer end\
of the
lens, which will vary from lens to lens. Once a lens has been chosen, th\
e figures
can be checked using the lens extension values given on the next page.
Calculate the throw ratio required. Throw ratio = Throw distance
Screen width x TRF
Choose a lens with the required throw ratio from the list at the bottom of the
page.
Check from the list that the lens chosen will work at the throw distance\
required.
Example
An image, 1024 x 768 pixels, screen width 6.5m, throw distance 18m from the
outer end of the lens.
Throw Ratio Factor (TRF) = 1920 = 1.875
1024
Throw ratio required = 18 = 1.48
6.5 x 1.875
Choose the 1.39 - 1.87 zoom lens.
•
•
•
•
•
•
•
•
•
•
High Brightness High Contrast Throw distance range
0.67 : 1 fixed lens 105-607 107-195 1.1 - 3.2m (3.6 - 10.5ft)
1.12 : 1 fixed lens (3 - 15m) 105-608 105-608 3 - 15m (9.8 - 49.2ft)
1.12 : 1 fixed lens (1.2 - 2m) 105-609 105-609 1.2 - 2m (3.9 - 6.6ft)
1.16 - 1.49 : 1 zoom lens 109 236 109-359 3 - 15m (9.8 - 49.2ft)
1.39 - 1.87 : 1 zoom lens 105-610 107-196 4 - 24m (13.1 - 78.7ft)
1.87 - 2.56 : 1 zoom lens 105-611 107-197 4 - 24m (13.1 - 78.7ft)
2.56 - 4.16 : 1 zoom lens 105-612 107-198 9.1 - 45m (29.9 - 147.6ft)
4.16 - 6.96 : 1 zoom lens 105-613 107-199 12 - 80m (39.4 - 262.5ft)
6.92 - 10.36 : 1 zoom lens 109-235 109-358 12 - 80m (39.4 - 262.5ft)
Rev A April 2011 Page 2.13 Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual 2. Installation Notes The Throw ratio for a particular lens is fixed, but assumes that the image fills the width of the DMD. For images that do not fill the width of the DMD, the Throw ratio is effectively increased. To correct for this, a Throw Ratio Factor (TRF) is used. Useful lens calculations The following lens calculations may be useful: Throw ratio = Throw distance Screen width Throw ratio factor (TRF) = DMD width in pixels = 1920 image width in pixels image width in pixels Therefore: Screen width = Throw distance Throw ratio x TRF Throw distance = Screen width x Throw ratio x TRF Lens extension The throw distance calculated above is to the outer end of the lens. For each lens, the nominal distance between the front of the projector and the outer end of the lens (lens extension) will be as listed below. High Brightness/ Contrast Lens extension (±2%) 0.67 : 1 fixed lens 105-607 107-195 204 mm (8.0 in) 1.12 : 1 fixed lens (3 - 15m) 105-608 105-608 268 mm (10.6 in) 1.12 : 1 fixed lens (1.2 - 2m) 105-609 105-609 268 mm (10.6 in) 1.16 - 1.49 : 1 zoom lens 109 236 109-359 226 mm (8.9 in) 1.39 - 1.87 : 1 zoom lens 105-610 107-196 194 mm (7.6 in) 1.87 - 2.56 : 1 zoom lens 105-611 107-197 159 mm (6.3 in) 2.56 - 4.16 : 1 zoom lens 105-612 107-198 145 mm (5.7 in) 4.16 - 6.96 : 1 zoom lens 105-613 107-199 129 mm (5.1 in) 6.92 - 10.36 : 1 zoom lens 109-235 109-358 179 mm (7.0 in) lens extension, measured from front of corner post
Page 2.14 Rev A April 2011 2. Installation Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual Notes Each time a new lens is fitted to the projector, the calibration procedure must be carried out. See Setup menu, in Section 4. Controlling the projector. Make sure the rear lens cap is removed, before fitting the lens. Be careful not to scratch the lens surfaces. If you do accidentally touch a lens, then clean the surface using a lens paper. The lens release lever should always be set to the locked position, as shown on the next page, to prevent the lens from falling out. Zoom drive connector Fitting the lens Turn the lens release lever clockwise so that it is pointing upwards, to open the lock fully. Remove the rear lens cap from the lens. Insert the lens into the lens aperture, making sure that the plug on the zoom drive mechanism lines up with the socket on the front of the projector, then push the lens in firmly as far as it will go. • • • Lens release lever, open Lens release lever, mid- position Turn the lens release lever anti-clockwise to the mid-position, as shown below. • The lens can now be pushed in further. Push the lens in firmly as far as it will go. •
Rev A April 2011 Page 2.15 Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual 2. Installation Notes Be careful not to scratch the lens surfaces. If you do accidentally touch a lens, then clean the surface using a lens paper. The lens release lever should always be set to the locked position to prevent the lens from falling out. Make sure the front lens cap is removed, before switching on the projector. Lens clamp kit, part number 111-256, comprises: 2 x lens clamp quadrants 4 x 20mm M3 allen screws Turn the lens release lever anti-clockwise so that it is pointing downwards, to close the lock fully. • Lens release lever, locked Fixed lens clamp In addition to the lens lock, any of the fixed lenses can be permanently secured to the projector, as follows: Fit and lock the lens to the projector, as described above. Fit the two clamp quadrants either side of the lens, as shown below, and secure them with the four screws. • • Lens clamp quadrants
Page 2.16 Rev A April 2011 2. Installation Digital Projection TITAN WUXGA 3D, Dual 3D, 330. 660 User Manual Notes For more information on using the Lens shift feature, see section 4. Using the menus, Using the control keys. If the lens is to be shifted in two directions combined, the maximum range is somewhat less, as can be seen below. (zoom lens shift shown). full horizontal or vertical shift without distortion combined shift is reduced Shifting the image The normal position for the projector is at the centre of the screen. However , you can set the projector above or below the centre, or to one side, and adjust the image using the Lens shift feature to maintain a geometrically correct image. Any single adjustment outside the ranges specified below may result in an unacceptable level of distortion, paricularly at the corners of the image, due to the image passing through the periphery of the lens optics. If the lens is to be shifted in two directions combined, the maximum range without distortion will be somewhat less, as can be seen in the diagrams to the right. The maximum range available with no distortion is dependent on which lens is used. The tables below show the maximum range for images that fill the DMD. For images which do not use the full height or width, extra shift will be possible, up to the limit of the lens mount movement. 0.67 : 1 fixed lens vertical (pixels) horizontal (pixels) vertical (vs DMD height) horizontal (vs DMD width) ± 108 ± 192± 0.09H± 0.1W 1.16 - 1.49 : 1 zoom lens vertical (pixels) horizontal (pixels) vertical (vs DMD height) horizontal (vs DMD width) ± 540 ± 345± 0.45H± 0.18W 1.12 : 1 fixed lenses and all other zoom lenses vertical (pixels) horizontal (pixels) vertical (vs DMD height) horizontal (vs DMD width) + 756 - 540 ± 345 + 0.63H - 0.45H± 0.18W It is physically possible to shift the lens further than this, however t\ here will be some vignetting of the image beyond the ranges specified above. • •