Printed in Japan. DS.CP-X955.1098
CP-X955W LCD Multimedia Projector
Model CP-X955
Performance Specifications
Liquid crystal panel structure
Number of Pixels
Resolution
Lens
Lamp
Brightness
Contrast ratio
Speakers
Power supply
Power consumption
Operating temperature
Input signals
1.3” polysilicon active-matrix TFT x 3
786,432 pixels (V768xH1.024)
1,024 x 768 color pixels
Power zoom (F=2.3-3.0 f=48.1-72.1mm) 1:1.5 power focus
150W UHB
1,100 ANSI lumens
200:1
2W - 2W(stereo)
AC1 00-1 20V, 5A /AC220-240V, 2.2A
Approx. 250
32°F-95°F
VGA, S-VGA, XGA, S-XGA, MAC13”, MAC16”, MAC19”, NTSC, NTSC 4.43, PAL,
M-PAL, SECAM, S-VIDEO
Input
I
Output Terminals
Video signal input terminals
S-VIDEO
Mm DIN 4-pin terminal x 2
VIDEO
RCA jack terminal x 2
AUDIO
RCA jack terminal x 2 IL/RIRGB
input signal terminals
RGB
signal; D-sub 15-pin shrink terminal x 2
AUDIO
Stereo mini jack x 2RGB
output signal terminals
RGB
signal; D-sub 15-pin shrink terminal x 1
AUDIO
Stereo mini jack x 1
Control terminals
D-sub 15-pin shrink terminals x 1
Dimensions
W x H x D
15.9” x 6.4” x 12.3”
Weight
17.8 lbs.
Supplied Accessories
Remote control, Batteries, Power cord (U.S., UK, Euro), Video/audio cable, MAC adaptor, RS-232C cable, RGB
cable, PS/2 mouse cable, ADB mouse cable, multiple language operator’s manual with laser pointer
Specifications and product offerings are subject to change without notice©t998 Hitachi America, Ltd. All rights reserved.
The CP-X955 allows the user to display images from diverse information sources accurately and with excellent resolution.
For example, reproduction of video and VGA images is extraordinarily crisp and clear. This versatile projector
compensates for data loss automatically in order to ensure more natural XGA reproduction.
When re-sizing an XGA image to create an S-VGA image, different characters may appear on screen due to the loss of
certain pixel information from the image. With Fine Re-Sizing, the image is reproduced with the addition of the lost
information from a different frame, resulting in effective re-sizing with only a small overall loss of pixel information.