SONY SR Projector
SRX-R110/SRX-R105
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th stunning 1800:1 contrast ratio for Digital
Sony is proud to introduce the SRX-R110 and SRX-R105 SR Ultra High
Resolution Projectors.
These state-of-the-art projectors are equipped with three Silicon X-tal
TM
Reflective Display (SXRD ) imaging devices, delivering an amazing
resolution of 4096 x 2160 pixels (H x V) – more than four times the
resolution of full HDTV (1920 x 1080, 16:9 wide screen format) – and
meeting the “4K” quality resolution level stipulated by Digital Cinema
Initiative (DCI).
The SRX-R110 and the SRX-R105 offers a high contrast ratio of more than
1800:1. In addition, the SRX-R110 provides a high brightness of 10,000
ANSI lumens*, and the SRX-R105 a brightness of 5,000 ANSI lumens*.
The use of twin Xenon lamps combined with a gamma curve of 2.6 – (also
recommended by DCI as the standard for Digital Cinema) – means the
SRX-R110 and the SRX-R105 offer pure, high-quality color tonal
reproduction reminiscent of film.
Even in a multi-screen mode, high-resolution visuals are available from each
quadrant. The SRX-R110 and the SRX-R105 Projectors are the ideal choice
for Digital Cinema and large-venue applications such as auditoriums and
concert halls.
ANSI lumens is a measuring method of the American National Standards Institute IT 7.228. Since there is
no uniform method of measuring brightness, specifications will vary among manufacturers.
*
3
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The state-of the-art techno
Silicon X-tal Reflective Display
(SXRD) imaging device
The SXRD device used by the SRX-R110 and SRX-R105 is a
1.55-inch* Liquid Crystal on Silicon based imager
developed using leading-edge manufacturing technology.
High-quality, accurate visuals are created using this brilliant
imaging device.
TM
CineAlta
---Innovative Solutions
for Digital Cinema
Measured diagonally.
*
In 1999, Sony introduced a totally new concept of
digital cinema production for moviemakers to
demonstrate a new higher level of picture quality,
efficiency and flexibility in production processes.
Sony’s new approach was to produce movies in a
high-definition progressive video format at 24 frames per
second using digital video tape media. This concept
and Sony’s product line enabling this concept were
named “CineAlta”, and have been highly embraced by
an ever-broadening spectrum of producers, directors and
cinematographers all over the world. An increasing
number of movies have been produced using CineAlta
equipment, and from this point forward, more and more
motion pictures will continue to be produced digitally
using these systems.
High resolution “4K”
Sony original SXRD display devices deliver the exceptionally
high resolution of “4K” (4096 H x 2160 V pixels at 1.85:1
aspect ratio). “4K” is stipulated by DCI as a resolution
corresponding to the master images of 65mm film for Digital
Cinema. The resolution of “4K” is more than four times as
many pixels as full HDTV (1920 x 1080, 16:9 wide screen
format). “4K” resolution is ideal for visual applications in
which quality is critical.
Since this revolutionary introduction, Sony has
continually provided a comprehensive range of CineAlta
products including digital video cameras, digital VTRs,
monitors and digital editing systems -- each offering
breathtaking picture quality and stunning performance.
Sony’s development for the motion picture industry does
not remain in the content creation domain, but
continues with another important revolution by
engineering an incredibly high, 4K- resolution digital
projection system under the CineAlta logo.
The SXRD device helps to achieve this high picture quality
by incorporating nearly 8.85 million pixels per imager at a
narrow pitch of 8.5 micrometers. These high-density pixels
enable an outstandingly high-resolution that are half the size
of pixels projected using typical 2K resolution projection
systems. Even in multi-screen mode, full 2K resolution per
quadrant is possible.
High 1800:1 contrast ratio
The SRX-R110 and the SRX-R105 offer a high contrast ratio
of more than 1800:1* through the use of Sony’s unique new
SXRD device. The SXRD imaging device itself achieves a
contrast ratio of 4000:1.
Now Sony’s CineAlta lineup consists of products from
acquisition through theatrical projection Sony’s CineAlta
4K digital projector is the latest, but most important
piece of the “Digital Cinema” picture.
This stunning picture quality makes the SRX-R110 and
SRX-R105 ideal for applications in which dynamic range is
essential.
The high contrast ratio has been achieved through two key
technologies – the ‘Vertically Aligned Liquid Crystal’ system
and an extremely thin liquid crystal cell gap.
The contrast ratio is measured under the condition that projection is on the screen with a
screen gain of 1.0.
*
4
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logy for high picture quality
The SXRD device also adopts a structure that does not use
"spacers" - columns found in conventional reflective liquid
crystal devices to maintain a constant gap between the liquid
cell floor and the top of the device. Spacers tend to both
scatter and reflect light, which can impair high contrast
pictures. In the spacerless SXRD device, these artifacts are
no longer seen.
Vertically Aligned Liquid Crystal system
In every type of projector system, displaying absolute black
is a major issue in order to achieve a high contrast ratio.
In other words, the contrast ratio of a projector depends on
how effectively the light from the source can be blocked so
it does not leak through the LCD device.
All Liquid Crystal Display (LCD) devices control the amount
of light to be projected by applying an electric field to the
liquid crystal gap. In typical LCD devices, black is produced
when electric field is applied across the liquid crystal cell
gap. However molecules near the surface of the glass
substrate may not be accurately controlled due to the
influence of the alignment film. This is not an issue for
bright images. However, when displaying dark black
images, light can tend to leak from the LCD device, since
the molecules near the surface are less accurately controlled,
resulting in a creamy black color.
Short response time
The thin cell gap structure in SXRD devices also contributes
to an ultra-short response time of 5 milliseconds. The SXRD
device reacts promptly to the instantaneous change of colors,
enabling the projector to display a smooth motion.
Consequently, the SRX-R110 and SRX-R105 are free from
motion blur – a particularly significant benefit for visuals that
include fast-moving objects.
Reliable imaging device
The SXRD device does not exhibit these characteristics.
This is because the Vertically Aligned Liquid Crystal system
displays black when an electric field is not applied and
because all molecules are in the correct alignment to block
light. The direct result is a far deeper black level, leading to
a high contrast ratio.
The SRX-R110 and the SRX-R105 use high-power bright
lamps. As a result special attention has been paid to the
reliability of the SXRD device. The inorganic materials
utilized for the alignment layer of the SXRD device are
resistant to deterioration or deformities that could occur due
to the intense heat and light generated by the powerful
projector lamp.
Thin liquid crystal cell gap
Another important factor enabling the high contrast of the
SXRD device is its ultra thin cell gap of less than
2 micrometers. With conventional Vertically Aligned Liquid
Crystal systems, a thin cell gap could not be achieved. Sony
has overcome this difficulty through the use of innovative
planarization technology in the silicon backplane structure
and an advanced Silicon wafer-based assembly process.
SXRD Cross-Section view
Thin Cell Gap (2.0 µm) Space-less
• Short response time < 5 msec
Light
• High Device Contrast ratio 4000 : 1
Inorganic
Glass Substrate
Alignment Layer
• High reliability
Vertically Aligned Liquid Crystal
Aluminium Pad
Silicon Backplane
Narrow Inter-Pixel
Spacing (0.35 µm)
• High fill factor 92 %
• High reflectivity
High-Density Pixel Pitch 8.5 µm
• 4 x Full-HDTV (4096 H x 2160 V pixels)
5
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Highly pure, superb color tonal reproduction
Highly bright and pure light
source of Xenon lamp
The SRX-R110 provides a high brightness of 10,000 ANSI
lumens*, and the SRX-R105 provides a brightness of 5,000
ANSI lumens using Xenon lamps.
A Xenon lamp provides pure, superb color tonal
reproduction as it has been used for film projector - essential
for Digital Cinema.
The SRX-R110 utilizes two 2kW Xenon lamps, and the
SRX-R105 uses two 1kW Xenon lamps.
The Xenon lamp utilized in the SRX-R110 and the SRX-R105
satisfies the wide color range needed for Digital Cinema
Distribution Master (DCDM) formats stipulated by DCI.
Measured under conditions with the lamp power at 100% in dual-lamp mode.
*
12-bit LCD driver
The SRX-R110 and the SRX-R105 utilize a 12-bit imager
driver for reproducing extremely natural images.
Gamma curve selection
The SRX-R110 and the SRX-R105 provide three preset
gamma curve values. You can select an optimum value from
1.8, 2.2, and 2.6 according to the desired color tone. The
value 2.6 is available for Digital Cinema applications.
6
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Operational versatility
Dual-lamp system with
Multiple screen capability
Both the SRX-R110 and SRX-R105 provide single-mode,
dual-mode, and quad-mode display. In quad mode, four
quadrants of full HD images (1920 x 1080 pixels) can be
projected simultaneously. In single mode, an ultra high and
smooth resolution 4096 x 2160-pixel image is projected.
selectable lamp modes
The SRX-R110 and SRX-R105 adopt a dual-lamp system that
uses two lamps for reliable, flexible and efficient use of light
sources. With the dual-lamp system, users can select either
single- or dual-lamp modes according to their desired
brightness and applications.
The dual-lamp mode provides maximum lamp power, and at
the same time enables virtually fail-safe operation; if one
bulb burns out the other can keep projecting images.
In the single-lamp mode, users can select any of two lamps
manually, or the projectors can automatically select a lamp
based on each lamp’s operating time. Another automatic
mode is provided to make the lamps operate alternately at
user-defined intervals selectable from four hours to twelve
hours (in increments of one hour). This feature is useful for
the application where “24/7” operation is required.
The lamp power can be set between 100% and 51%, in
eight steps. This function combined with the selectable lamp
modes contributes to achieving longer lamp life.
A
A
Single-mode
Variety of lenses
Four types of optional zoom lens are available. They are all
newly designed to project images of extreme resolution and
contrast with minimal chromatic aberration from 174 inches
(4,428 mm) to 610 inches (15,497 mm) in screen width.
A
B
Dual-mode
A
C
B
D
Quad-mode
7
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Four option slots
LKRI-001
Analog Input Board
LKRI-002
HD-SDI (4:2:2) Input Board
LKRI-003
Dual-link HD-SDI Input Board
Input signal flexibility
Simple remote controller unit
The supplied remote controller unit is
provided to perform various simple
controls of the projectors such as
turning on/off lamp power, adjusting
zoom/focus and lens shift
Four option slots are available to increase the flexibility of
the SRX-R110 and the SRX-R105 by using three types of
option boards that connect to different types of signal
formats.
Four input boards can be accommodated simultaneously in
the side panel of the projector. You can select the screen
mode from single, dual, and quad mode, and assign the
appropriate signal board to each quadrant.
control.
•The LKRI-001 Analog Input Board utilizes 5 BNC
connectors that can accept 0.7 volt analog signal levels.
•The LKRI-002 HD-SDI (4:2:2) Input Board can accept
SMPTE 259M SD digital 525 or 625 line video.
It can auto switch to either SMPTE 292M 1080 4:2:2 YUV
serial picture data or SMPTE 372M 4:2:2 RGB serial picture
data.
•The LKRI-003 Dual-link HD-SDI Input Board can accept
any of the following signals: SMPTE 372M dual-link
HD-SDI (4:4:4), SMPTE 292M HD-SDI (4:2:2), dual-link
DC-SDI (RGB 4:4:4), or DC-SDI (YPbPr 4:2:2).
With four LKRI-003 boards, the SRX-R110 or SRX-R105
can project 4096 x 2160 4k images.
8
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Ethernet
Easy setup on a PC using
supplied software
The SRX-R110 and SRX-R105 come equipped with setup
software that allows easy setup and adjustments via its
intuitive GUIs on a PC*. These projectors can be controlled
through Ethernet or RS-232C interface, and multiple numbers
of projectors can be controlled from a single PC**.
A comprehensive range of setup parameters including input
configurations, colorimetry controls, installation adjustments
and maintenance settings can be controlled via this software.
SRX-R110/R105
SRX-R110/R105
SRX-R110/R105
Note PC
RS-232C
Note PC
SRX-R110/R105
System requirements for the setup software
OS: Microsoft Windows XP Professional.
*
®
®
** When using an Ethernet connection.
Easy maintenance
Special consideration for maintenance issue is taken into the
development of these projectors to effectively perform
periodic maintenance.
Lamp bulbs and lamp house units used in the projectors can
be easily replaced on site without any special tools, thus
shortening the downtime required for the replacement.
What’s more, a cumbersome adjustment after the
replacement is not required.
The supplied setup software is another convenient tool for
maintenance. This allows operators to easily verify lamp’s
operating time. Automatic email alerts from the projector
provides operators with maintenance reminders as well as
error occurrences.
Installation setting
Colorimetry setting
9
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Dimensions
1330 (52 3/8)
1116 (44)
360 (14 1/4)
754.5 (29 3/4)
439 (17 3/8)
167 (6 5/8)
Unit=mm (inches)
Optional Accessories
LKRL-Z115 Zoom Lens
1.5 to 1.9*x zoom lens
LKRL-Z120 Zoom Lens
1.9 to 2.3x zoom lens
LKRL-Z125 Zoom Lens
2.3 to 4.0x zoom lens
LKRL-Z140 Zoom Lens
4.0 to 7.0x zoom lens
The number denotes the ratio of the projection distance to the screen width.
*
LKRI-001 Analog Input Board
LKRI-002 HD-SDI (4:2:2) Input Board
LKRI-003 Dual-link HD-SDI Input Board
LKRX-105
1kW Xenon lamp bulb for
replacement (for SRX-R105)
LKRX-B105
1kW Xenon lamp house unit for
replacement (for SRX-R105)
LKRX-110
2kW Xenon lamp bulb for
replacement (for SRX-R110)
LKRX-B110
2kW Xenon lamp house unit for
replacement (for SRX-R110)
LKRA-001
8-inch Exhaust Duct Adaptor
10
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Specifications
Input Boards
LKRI-001
Analog input board
SXRD Device Main Specifications
BNC x 5, HD/SD analog video input,
Display device
Size
SXRD (Silicon X-tal Reflective Display)
•
•
RGB/Y Cb Cr selectable
Computer signals
1.55" across Diagonal
4096(H) X 2160(V) Pixels
72%
Resolution
R
G
B
0.7 Vp-p 2dB positive, 75 Ω
Reflectivity
0.7 Vp-p 2dB positive, 75 Ω
0.7 Vp-p 2dB positive, 75 Ω
Contrast (as device)
Pixel pitch
More than 4000 : 1
8.5µm
0.35µm
•
•
Standard definition video [Y Cb Cr]
Y
Cb
Cr
High definition video [RGB]
R
G with sync 1.0 Vp-p 2dB, 75 Ω, Tri-level sync:
0.3 Vp-p / Bi-level sync: 0.3 Vp-p
Width (between pixels)
Response speed
Liquid crystal mode
Alignment layer
Backplane process
Liquid crystal cell gap
1.0 Vp-p 2dB sync negative, 75 Ω
0.7 Vp-p 2dB positive, 75 Ω
0.7 Vp-p 2dB positive, 75 Ω
5msec (tr + tf)
Vertical Aligned Mode
Inorganic Thin Film
0.35µm MOS Process
Less than 2µm
0.7 Vp-p 2dB positive, 75 Ω
B
0.7 Vp-p 2dB positive, 75 Ω
•
•
High definition video [Y Pb Pr]
Optical
Projection system
Imaging device
Y
1.0 Vp-p 2dB, 75 Ω,Tri-level sync:
3-SXRD panel, prism color integrated system
SXRD, 1.55-inch (diagonal), 4096(H) x 2160(V) pixels
on each chip
0.3 Vp-p / Bi-level sync: 0.3 Vp-p
0.35 Vp-p 2dB, positive 75 Ω
0.35 Vp-p 2dB, positive 75 Ω
Pb
Pr
Lamp
2kW Xenon lamp x 2 (SRX-R110)
Sync
HD Horizontal
TTL level, high impedance, sync
positive/negative
TTL level, high impedance, sync
positive/negative
1kW Xenon lamp x 2 (SRX-R105)
Screen coverage
Light output
14 feet to 51 feet (Approx. 4.5 m to 15.5 m)
(viewable area, measured horizontally)
10,000 ANSI lumens 10% (SRX-R110)*
5,000 ANSI lumens 10% (SRX-R105)
HD Vertical
LKRI-002
BNC x 2(Input x 1,Loop-through out x 1)
HD-SDI (SMPTE-292M / ITU-R.BT709 / BTA-S004)
SDI (SMPTE-259M / ITU-R.BT601)
BNC x 4(Input x 2,Loop-through out x 2)
HD-SDI (Single-link, HD-SDI/4:2:2,SMPTE-292M):Y Pb Pr,
DC-SDI (Single-link, DC-SDI/4:2:2):Y Pb Pr,
Dual-link HD-SDI (Dual-link HD-SDI/4:4:4,SMPTE-372M):RGB,
Dual-link DC-SDI (Dual-link DC-SDI/4:4:4):RGB
HD-SDI (4:2:2)
input board
LKRI-003
Dual-link HD-SDI
input board
General
White reference
Xenon white reference
X
Y
•
•
White reference
more than 1800:1
600 TV lines (SDI input/SMPTE-259M)
0.3140
0.3510
•
•
Contrast
Resolution
1920 x 1080 pixels (HD-SDI input, SMPTE-292M)
4096 x 2160 pixels (RGB)
Others
Safety regulations
[UL60950 listed], [cUL60950], [FCC Class A], [IC Class A], [VCCI
Class A], [EN60950],[CE Class A], [C-tick], [GB4943], [GB9254],
[K60950], [CISPR22], [CISPR24]
Remote controller x 1/ CD-ROM x 1 (Remote control application
for Windows® XP Professional Edition) / Dry cell (AA size) x 2 /
Ethernet Cross Cable (3 m) x 1
Operation instructions x 1 / Installation manual x 1
LKRL-Z115: 1.5 to 1.9x zoom lens
LKRL-Z120: 1.9 to 2.3x zoom lens
LKRL-Z125: 2.3 to 4.0x zoom lens
LKRL-Z140: 4.0 to 7.0x zoom lens
LKRI-001: Analog input board
LKRI-002: HD-SDI (4:2:2) input board
LKRI-003: Dual-link HD-SDI input board
LKRX-105: 1kW Xenon lamp bulb for replacement (for SRX-R105)
LKRX-B105: 1kW Xenon lamp house unit for replacement (for SRX-R105)
LKRX-110: 2kW Xenon lamp bulb for replacement (for SRX-R110)
LKRX-B110: 2kW Xenon lamp house unit for replacement (for SRX-R110)
LKRA-001: 8-inch Exhaust Duct adaptor
•
•
•
•
•
•
Signal specifications Video: Component (Y Cb Cr), HD (G
Computer: XGA, SXGA, UXGA
B
R/Y Pb Pr)
Power requirements AC 200 to 240 V, 50/60 Hz (SRX-R110)
AC 100 to 240 V, 50/60 Hz (SRX-R105)
Operating temperature +5ºC to +35ºC (+41ºF to +90ºF)
Storage temperature -20ºC to +60ºC (12ºF to +140ºF)
Operating humidity 35% to 85% (without condensation)
Supplied
accessories
Optional
accessories
Storage humidity
Dimensions
(W x H x D)
Mass
Input/Output
Input A
Input B
Input C
Input D
Remote interface
10% to 90%
Approx. 740 x 500 x 1330mm
(29 4/5 x 19 4/5 x 52 3/5 inchs)
Approx. 110 kg (242 lb 8oz)
Open for optional signal interface board
Open for optional signal interface board
Open for optional signal interface board
Open for optional signal interface board
D-sub 9-pin, RS-232C (female) x 1
Ethernet terminal, 10Base-T/100Base-TX x 1
ANSI lumens is a measuring method of the American National Standards Institute.
*
Preset Data of Input Signals
No Signal Number
fH
fV
Aspect Horizontal Vertical
No Signal Name
fH
fV
Aspect Horizontal Vertical
Sampling
Sampling
Sampling
1280
Sampling
1024
1200
1080
720
0
3
4
5
NO INPUT
0
0
38 1280 x 1024_VESA85 91.15 kHz 85.02 kHz 5:4
39 1600 x 1200_VESA60 75.00 kHz 60.00 kHz 4:3
VIDEO60(480_60I) 15.73 kHz 59.94 kHz 4:3
VIDEO50(575_50I) 15.63 kHz 50.00 kHz 4:3
1280
1280
480
570
1080
768
768
768
768
960
960
1024
1024
1600
45 1080_50I
31.25 kHz 50.00 kHz 16:9 1920
HDTV(1080_60I)
33.75 kHz 60.00 kHz 16:9 1920
47 720_60P
45.00 kHz 60.00 kHz 16:9 1280
37.50 kHz 50.00 kHz 16:9 1280
27.00 kHz 48.00 kHz 16:9 1920
33.75 kHz 60.00 kHz 16:9 1920
31.25 kHz 50.00 kHz 16:9 1920
33.75 kHz 60.00 kHz 16:9 1920
23 1024 x 768_VESA60 48.36 kHz 60.00 kHz 4:3
24 1024 x 768_VESA70 56.48 kHz 70.07 kHz 4:3
25 1024 x 768_VESA75 60.02 kHz 75.03 kHz 4:3
26 1024 x 768_VESA85 68.68 kHz 85.00 kHz 4:3
32 1280 x 960_VESA60 60.00 kHz 60.00 kHz 4:3
33 1280 x 960_VESA75 75.00 kHz 75.00 kHz 4:3
36 1280 x 1024_VESA60 63.97 kHz 60.01 kHz 5:4
37 11280 x 1024_VESA75 79.98 kHz 75.03 kHz 5:4
1024
1024
1024
1024
1280
1280
1280
1280
48 720_50P
720
49 1080_48I (24PsF)
(75) 1080_60i
1080
1080
1080
1080
(76) 1080_25PsF
(77) 1080_30PsF
Note: When a signal other than the preset signals shown above is fed into this projector, the images may not
*
be projected properly.
SXGA+(1400 x 1050) computer signal is not supported by this projector. If this signal is fed into the
*
projector, one of the four directions of an image are irregularly missing.
11
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© 2005 Sony Corporation. All rights reserved.
Reproduction in whole or in part without permission is prohibited.
Features and specifications are subject to change without notice.
All non-metric weights and measures are approximate.
Sony is a registered trademark of Sony Corporation.
CineAlta, SXRD, and SXRD logo are trademarks of Sony Corporation.
Microsoft and Windows are registered trademarks of Microsoft Corporation.
Pentium is a registered trademark of Intel Corporation.
All other trademarks are property of their respective owners.
Distributed by
MSD2005-379(10200V1)EXC0005
Printed in Hong Kong
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SR projector SRX-R110/SRX-R105
(Installation chart)
Installation Data
LKRL-Z115 Zoom Lens
In case of [4096]-horizontal pixels (A) Full Screen Projection – 4096(H) pixels x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
5280
12000
6330
Required screen height [H]
H = W x 0.527344
2380
2640
3170
3700
4220
4750
7390
Diagonal Screen Size [SS]
SS = W x 1.130527
5090 (200.4) 5660 (222.8) 6790 (267.3) 7920 (311.8) 9050 (356.3) 10180 (400.8) 11310 (445.3) 13570 (534.3) 15830 (623.2)
Throwing distance [min.]
= W x 1.493566 – 64.0
Throwing distance [max.]
= W x 1.749196 – 60.1
6610
7810
7410
8680
8900
10400
12180
11890
13930
13380
15680
14880
17430
17860
20930
20850
24420
10430
In case of [4096]-horizontal pixels (B) Cinemascope (2.39:1) Projection – 4096(H) x 1714(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
12000
5030
Required screen height [H]
H = W x 0.418457
1890
2100
2520
2930
3350
3770
4190
5860
Diagonal Screen Size [SS]
SS = W x 1.084023
4880 (192.1) 5430 (213.8) 6510 (256.3) 7590 (298.8) 8680 (341.7) 9760 (384.3) 10850 (427.2) 13010 (512.2) 15180 (597.6)
Throwing distance [min.]
= W x 1.493566 – 64.0
Throwing distance [max.]
= W x 1.749196 – 60.1
6660
7810
7410
8680
8900
10400
12180
11890
13930
13380
15680
14880
17430
17860
20930
20850
24420
10430
In case of [3840]-horizontal pixels (A) 16:9 Projection – 3840(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
5070
10000
5630
12000
6750
Required screen height [H]
H = W x 0.562500
2540
2820
3380
3940
4500
7880
Diagonal Screen Size [SS]
SS = W x 1.147347
Throwing distance [min.]
= W x 1.593137 – 64.0
Throwing distance [max.]
= W x 1.865809 – 60.1
5170 (203.6) 5740 (226)
6890 (271)
9500
8040 (316.5) 9180 (361.4) 10330 (406.7) 11480 (452)
13770 (542.1) 16070 (632.7)
7110
8330
7910
9260
11090
13000
12690
14860
14280
16730
15870
18590
19060
22320
22240
26060
11130
In case of [3996]-horizontal pixels (B) Vista Vision (1.85:1) Projection – 3996(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
5410
12000
6490
Required screen height [H]
H = W x 0.540541
2440
2710
3250
3790
4330
4870
7570
Diagonal Screen Size [SS]
SS = W x 1.136743
4110 (161.8) 4570 (179.9) 5480 (215.7) 6390 (251.6) 7310 (287.8) 8220 (323.6) 9130 (359.4) 10960 (431.5) 12780 (503.1)
Throwing distance [min.]
= W x 1.530943 – 64.0
Throwing distance [max.]
= W x 1.792969 – 60.1
6830
8000
7600
8900
9130
10660
12490
12190
14280
13720
16070
15250
17860
18310
21450
21370
25040
10690
In case of [2880]-horizontal pixels (A) 4:3 Projection – 2880(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
6750
10000
7500
12000
9000
Required screen height [H]
H = W x 0.750000
3380
3750
4500
5250
6000
10500
Diagonal Screen Size [SS]
SS = W x 1.250000
5630 (221.7) 6250 (246.1) 7500 (295.3) 8750 (344.5) 10000 (393.7) 11250 (443)
12500 (492.1) 15000 (590.6) 17500 (689)
Throwing distance [min.]
= W x 2.124183 – 64.0
Throwing distance [max.]
= W x 2.487745 – 60.1
9500
10560
12370
12690
14860
14810
17350
16930
19840
19060
22320
21180
24810
25430
29790
29680
34760
11130
Effective area of projector LCD device
*
LKRL-Z120 Zoom Lens
In case of [4096]-horizontal pixels (A) Full Screen Projection – 4096(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
5280
12000
6330
Required screen height [H]
H = W x 0.527344
2380
2640
3170
3700
4220
4750
7390
Diagonal Screen Size [SS]
SS = W x 1.130527
5090 (200.4) 5660 (222.8) 6790 (267.3) 7920 (311.8) 9050 (356.3) 10180 (400.8) 11310 (445.3) 13570 (534.6) 15830 (623.2)
Throwing distance [min.]
= W x 1.749196 – 77.1
Throwing distance [max.]
= W x 2.312155 – 119.5
7800
8670
10420
13750
12170
16060
13920
18370
15670
20680
17420
23000
20920
27620
24420
32250
10280
11440
In case of [4096]-horizontal pixels (B) Cinemascope (2.39:1) Projection – 4096(H) x 1714(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
12000
5030
Required screen height [H]
H = W x 0.418547
1890
2100
2520
2930
3350
3770
4190
5860
Diagonal Screen Size [SS]
SS = W x 1.084023
4880 (192.1) 5430 (213.8) 6510 (256.3) 7590 (298.8) 8680 (341.7) 9760 (384.3) 10850 (427.2) 13010 (512.2) 15180 (597.6)
Throwing distance [min.]
= W x 1.749196 – 77.1
Throwing distance [max.]
= W x 2.312155 – 119.5
7800
8670
10420
13750
12170
16060
13920
18370
15670
20680
17420
23000
20920
27620
24420
32250
10280
11440
In case of [3840]-horizontal pixels (A) 16:9 Projection – 3840(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
5070
10000
5630
12000
6750
Required screen height [H]
H = W x 0.562500
2540
2820
3380
3940
4500
7880
Diagonal Screen Size [SS]
SS = W x 1.147347
Throwing distance [min.]
= W x 1.865809 – 77.1
Throwing distance [max.]
= W x 2.466299 – 119.5
5170(203.5)
8320
5740(226)
9260
6890(271.3)
11120
8040(316.5)
12990
9180(361.4)
14850
10330(406.7) 11480(452)
13770(542.1) 16070(632.7)
16720
22070
18590
24540
22320
29470
26050
34400
10970
12210
14670
17140
19610
In case of [3996]-horizontal pixels (B) Vista Vision (1.85:1) Projection – 3996(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
5410
12000
6490
Required screen height [H]
H = W x 0.540541
2440
2710
3250
3790
4330
4870
7570
Diagonal Screen Size [SS]
SS = W x 1.136743
Throwing distance [min.]
= W x 1.792969 – 77.1
Throwing distance [max.]
= W x 2.370017 – 119.5
4110(161.8)
8000
4570(179.9)
8890
5480(215.7)
10690
6390(251.6)
12480
7310(287.8)
14270
8220(323.6)
16060
9130(359.4)
17860
10960(431.5) 12780(503.1)
21440
28320
25030
33060
10540
11730
14100
16470
18840
21210
23580
In case of [2880]-horizontal pixels (A) 4:3 Projection – 2880(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
6750
10000
7500
12000
9000
Required screen height [H]
H = W x 0.750000
3380
3750
4500
5250
6000
10500
Diagonal Screen Size [SS]
SS = W x 1.250000
Throwing distance [min.]
= W x 2.487745 – 77.1
Throwing distance [max.]
= W x 3.288399 – 119.5
5630(221.7)
11120
6250(246.1)
12370
7500(295.3)
14850
8750(344.5)
17340
10000(393.7) 11250(443)
12500(492.1) 15000(590.6) 17500(689)
19830
26180
22320
29470
24810
32760
29780
39340
34760
45910
14670
16320
19610
22890
Effective area of projector LCD device
*
Download from Www.Somanuals.com. All Manuals Search And Download.
LKRL-Z125 Zoom Lens
In case of [4096]-horizontal pixels (A) Full Screen Projection – 4096(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
5280
12000
6330
Required screen height [H]
H = W x 0.527344
2380
2640
3170
3700
4220
4750
7390
Diagonal Screen Size [SS]
SS = W x 1.130527
5090 (200.4) 5660 (222.8) 6790 (267.3) 7920 (312)
9050 (356.3) 10180 (400.8) 11310 (445.3) 13570 (534.3) 15830 (623.2)
Throwing distance [min.]
= W x 2.312155 – 97.5
Throwing distance [max.]
= W x 3.797105 – 161.8
10310
16920
11470
18820
13780
22620
16090
26410
18400
30210
20720
34010
23030
37800
27650
45400
32280
52990
In case of [4096]-horizontal pixels (B) Cinemascope (2.39:1) Projection – 4096(H) x 1714(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
12000
5030
Required screen height [H]
H = W x 0.418457
1890
2100
2520
2930
3350
3770
4190
5860
Diagonal Screen Size [SS]
SS = W x 1.084023
Throwing distance [min.]
= W x 2.312155 – 97.5
Throwing distance [max.]
= W x 3.797105 – 161.8
4880(192.1)
10310
5430 (213.8) 6510 (256.3) 7590 (298.8) 8680 (341.7) 9760 (384.3) 10850 (427.2) 13010 (512.2) 15180 (597.6)
11470
18820
13780
22620
16090
26410
18400
30210
20720
34010
23030
37800
27650
45400
32280
52990
16920
In case of [3840]-horizontal pixels (A) 16:9 Projection – 3840(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
5070
10000
5630
12000
6750
Required screen height [H]
H = W x 0.562500
2540
2820
3380
3940
4500
7880
Diagonal Screen Size [SS]
SS = W x 1.147347
Throwing distance [min.]
= W x 2.466299 – 97.5
Throwing distance [max.]
= W x 4.050245 – 161.8
5170(203.5)
11010
5740 (226)
12240
6890 (271.3) 8040 (316.5) 9180 (361.4) 10330 (406.7) 11480 (452)
13770 (542.1) 16070 (632.7)
14710
24130
17170
28180
19640
32240
22100
36290
24570
40340
29500
48440
34440
56540
18060
20080
In case of [3996]-horizontal pixels (B) Vista Vision (1.85:1) Projection – 3996(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
5410
12000
6490
Required screen height [H]
H = W x 0.540541
2440
2710
3250
3790
4330
4870
7570
Diagonal Screen Size [SS]
SS = W x 1.136743
Throwing distance [min.]
= W x 2.370017 – 97.5
Throwing distance [max.]
= W x 3.892127 – 161.8
4110(161.8)
10570
4570 (179.9) 5480 (215.7) 6390 (251.6) 7310 (287.8) 8220 (323.6) 9130 (359.4) 10960 (431.5) 12780 (503.1)
11760
19290
14130
23190
16500
27080
18870
30970
21240
34860
23610
38750
28350
46540
33090
54320
17350
In case of [2880]-horizontal pixels (A) 4:3 Projection – 2880(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
6750
10000
7500
12000
9000
Required screen height [H]
H = W x 0.750000
3380
3750
4500
5250
6000
10500
Diagonal Screen Size [SS]
SS = W x 1.250000
Throwing distance [min.]
= W x 3.288399 – 97.5
Throwing distance [max.]
= W x 5.400327 – 161.8
5630 (221.7) 6250 (246.1) 7500 (295.3) 8750 (344.5) 10000 (393.7) 11250 (443)
12500 (492.1) 15000 (591)
17500 (689)
45950
14710
24130
16350
26830
19640
32240
22930
37640
26210
43040
29500
48440
32790
53840
39370
64640
75440
Effective area of projector LCD device
*
LKRL-Z140 Zoom Lens
In case of [4096]-horizontal pixels (A) Full Screen Projection – 4096(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
5280
12000
6330
Required screen height [H]
H = W x 0.527344
2380
2640
3170
3700
4220
4750
7390
Diagonal Screen Size [SS]
SS = W x 1.130527
5090 (200.4) 5660 (222.8) 6790 (267.3) 7920 (311.8) 9050 (356.3) 10180 (400.8) 11310 (445.3) 13570 (534.3) 15830 (623.2)
Throwing distance [min.]
= W x 3.797105 – 122.8
Throwing distance [max.]
= W x 6.979550 – 169.0
16970
31230
18870
34720
22660
41700
26460
48680
30260
55660
34060
62640
37850
69620
45450
83580
53040
97540
In case of [4096]-horizontal pixels (B) Cinemascope (2.39:1) Projection – 4096(H) x 1714(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
12000
5030
Required screen height [H]
H = W x 0.418457
1890
2100
2520
2930
3350
3770
4190
5860
Diagonal Screen Size [SS]
SS = W x 1.084023
4880 (192.1) 5430 (213.4) 6510 (256)
7590 (298.8) 8680 (341.3) 9760 (383.9) 10850 (426.8) 13010 (511.8) 15180 (597.2)
Throwing distance [min.]
= W x 3.797105 – 122.8
Throwing distance [max.]
= W x 6.979550 – 169.0
16970
31230
18870
34720
22660
41700
26460
48680
30260
55660
34060
62640
37850
69620
45450
83580
53040
97540
In case of [3840]-horizontal pixels (A) 16:9 Projection – 3840(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
5070
10000
5630
12000
6750
Required screen height [H]
H = W x 0.562500
2540
2820
3380
3940
4500
7880
Diagonal Screen Size [SS]
SS = W x 1.147347
5170 (203.5) 5740 (226)
6890 (271.3) 8040 (316.5) 9180 (361.4) 10330 (406.7) 11480 (452)
13770 (542.1) 16070 (632.7)
Throwing distance [min.]
= W x 4.050245 – 122.8
Throwing distance [max.]
= W x 7.444853 – 169.0
18110
33330
20130
37050
24180
44500
28230
51940
32280
59380
36330
66830
40380
74270
48490
89160
56590
104050
In case of [3996]-horizontal pixels (B) Vista Vision (1.85:1) Projection – 3996(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
10000
5410
12000
6490
Required screen height [H]
H = W x 0.540541
2440
2710
3250
3790
4330
4870
7570
Diagonal Screen Size [SS]
SS = W x 1.136743
4110 (161.8) 4570 (179.9) 5480 (215.7) 6390 (251.6) 7310 (287.8) 8220 (323.6) 9130 (359.4) 10960 (431.5) 12780 (503.1)
Throwing distance [min.]
= W x 3.892127 – 122.8
Throwing distance [max.]
= W x 7.154213 – 169.0
17400
32020
19340
35600
23230
42750
27130
49910
31020
57060
34910
64210
38800
71370
46590
85680
54370
99980
In case of [2880]-horizontal pixels (A) 4:3 Projection – 2880(H) x 2160(V) pixels
Unit=mm (inches)
14000
Screen width [W]
4500
5000
6000
7000
8000
9000
6750
10000
7500
12000
9000
Required screen height [H]
H = W x 0.750000
3380
3750
4500
5250
6000
10500
Diagonal Screen Size [SS]
SS = W x 1.250000
5630 (221.7) 6250 (246.1) 7500 (295.3) 8750 (344.5) 10000 (393.7) 11250 (443)
12500 (492.1) 15000 (590.6) 17500 (689)
Throwing distance [min.]
= W x 5.400327 – 122.8
Throwing distance [max.]
= W x 9.926471 – 169.0
24180
44500
26880
49460
32280
59380
37680
69310
43080
79240
48490
89160
53890
99090
64690
75490
118940
138800
Effective area of projector LCD device
*
Download from Www.Somanuals.com. All Manuals Search And Download.
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