XGA Data Projector LCD Product Line Featuring the Industry’s Highest Optical Transmittance in 1.8, 2.3, and 3.3 cm Size Panels LCX023ELT/EMT LCX029CNT/CPT, CRT/CST LCX038ART/AST Due to the increasingly widespread use of data projectors, ■ there are now even stronger desires for brighter and higher resolution projectors. To respond to these desires, Sony has These devices achieve the highest optical transmittance in their size class 1.8 cm (0.7-type): 21% (typ.) ■ Dual Metal Shield (DMS) structure adopted developed a product line of 786K-dot XGA data projector ■ Aspherical high efficiency microlenses incorporated ■ Improved uniformity due to the adoption of the OCS (On Chip Spacer) structure ■ Built-in crosstalk-free and ghost-free circuits cm (1.3-type), achieve the highest brightness in their size class in the industry, and can be used in a wide range of ■ Up/down and/or right/left inversion functions, input level shifter circuits applications, from mobile PC-based presentations to con- ■ Antidust glass structure adopted LCDs based on the unique Sony-developed DMS structure and taking full advantage of high light resistance technology and a newly-developed high aperture ratio structure. All three sizes, 1.8 cm (0.7-type), 2.3 cm (0.9-type), and 3.3 ference rooms, and even in large conference halls. Highest Optical Transmittance in Their Class Achieved By adopting Sony’s unique DMS structure, a newly-developed high aperture ratio structure, and aspheric microlenses (with ML) these products achieve the greatest brightness of any devices in their respective size class. The 1.8 cm (0.7-type) models achieve an aperture ratio of 42% and an optical transmittance of 21% (with ML), the 2.3 cm (0.9-type) models achieve an aperture ratio of 54% and an optical transmit- V O I C E To respond to our customers desires for even brighter images with even higher picture quality, we are simultaneously releasing three new XGA data projector LCDs, a high-brightness 1.3-type device, a 0.9-type device, and a 0.7-type device. All of us on this project team grappled with the main development issues, which were to achieve both high optical transmittance and high light resistance. We are convinced that Sony’s customers will be fully satisfied with this new lineup of XGA LCD products for use in applications from ultrasmall mobile projectors to high picture quality portable projectors. tance of 26% (with ML), and the 3.3 cm (1.3-type) models achieve an aperture ratio of 67% and an optical transmittance of 30% (with ML). For the 2.3 cm (0.9-type) models this corresponds to an improvement by a factor of 1.2 over conventional products. To improve the light resistance, we developed the DMS structure used in previous products even further, and achieved light resistances of 1000 ANSI lm in the 0.7-type models, 1500 ANSI lm in the 0.9-type models, and 3000 ANSI lm in the 1.3-type models. In particular, the LCX038ART/AST is the industry’s first 1.8 cm (0.7-type) XGA data projector LCD, and can be used to implement ultraportable data projectors. (See table 1.) High-picture Quality Achieved The three model types in this release all adopt the TFT circuit technology developed in Sony’s previous data projector LCD products, and achieve crosstalkfree and ghost-free display. The device structure is a high-brightness structure consisting of a high light resistance DMS structure and an OCS structure, and achieves excellent uniformity. Furthermore, by adopting this device structure and the CXD3503R color shading correction IC, it is possible to correct not only for color shading in the LCD panel itself, but also for color shading in the illumination system, and thus these devices can achieve highpicture quality images with greater evenness. All three of the model types in this release feature a contrast of 400:1 (typical), which was achieved by optimizing both the LCD design and the LCD orientation technology. Ease of Use To support a wide range of applications, Sony data projector LCDs include both up/down and/or right/left inversion functions and input level shifter circuit to allow 5 V drive of the timing system. Related Sony products create an environment that allows users to get the best performance from the characteristics provided by the LCDs themselves. These products include, for the analog system, the CXA2111R signal driver and the CXA3512R high voltage drive sample-and-hold IC, which has been well-received by the market, and the CXD2467AQ, which integrates a programmable TG and RGB drivers on a single chip as the digital system structure. VSIG1 VSIG2 VSIG3 VSIG4 VSIG5 VSIG6 VSIG7 VSIG8 VSIG9 VSIG10 VSIG11 VSIG12 COM 1 21 2 17 19 18 22 16 25 24 29 26 23 27 28 15 30 20 3 4 5 6 7 8 9 10 11 12 13 14 31 ■ Figure 1 XGA Panel Dimension Specifications Comparison ■ Figure 2 Panel Block Diagram S/H driver CXA3512R S/H driver CXA3512R R G B Signal driver CXA2111R S/H driver CXA3512R PRG, CLP LPF Color shading correction CXD3503R HSYNC PLL CXA3106AQ VST S/H driver CXA3512R S/H driver CXA3512R S/H driver CXA3512R MCLK/2 LCD panel R 6 6 6 6 6 6 LCX023ELT/EMT LCX029CNT/CPT,CRT/CST LCX038ART/AST LCD panel G LCX023ELT/EMT LCX029CNT/CPT,CRT/CST LCX038ART/AST LCD panel B LCX023ELT/EMT LCX029CNT/CPT,CRT/CST LCX038ART/AST ENB, PRG, FRP DSYNC Timing pulses Timing generator CXD3500R VSYNC ■ Figure 3 System Block Diagram ■ Table 1 XGA Panel Specifications Comparison Product name With ML No ML LCX038* ART/AST LCX029* CRT/CST CNT/CPT LCX023* EMT ELT 1.8 cm (0.7-Type) 2.3 cm (0.9-Type) 3.3 cm (1.3-Type) Screen size XGA, high aperture ratio XGA, high aperture ratio XGA, high aperture ratio 1,024 (H) × 768 (V) 1,024 (H) × 768 (V) 1,024 (H) × 768 (V) Number of dots (786,000) (786,000) (786,000) Outer dimensions 25 mm (H) × 26 mm (V) 28.2 mm (H) × 30.2 mm (V) 38 mm (H) × 42 mm (V) Dot pitch 18 µm × 18 µm 14 µm × 14 µm 26 µm × 26 µm 54% Aperture ratio 42% 67% 26% (With ML) 30% (With ML) Optical 21% transmittance 18% (No ML) 23% (No ML) 1,500 ANSI lm 3,000 ANSI lm Light resistance 1,000 ANSI lm Built in Built in Antidust glass Built in * Under development LCX017 DLT 4.6 cm (1.8-Type) XGA 1,024 (H) × 768 (V) (786,000) 50 mm (H) × 56 mm (V) 36 µm × 36 µm 70% 24% 6,000 ANSI lm Built in COM pad V shift register (bidirectional scanning) Side-black control circuit Precharge control circuit 38 mm 28.2 mm H shift register (bidirectional scanning) Input signal level shifter circuit Black-frame control circuit 42 mm 104 mm 105 mm 30.2 mm 26 mm 25 mm HVDD VVDD VSS 16.5 mm Black-frame control circuit 16.5 mm V shift register (bidirectional scanning) 16.5 mm PSIG VSSGL VSSGR HST HCK1 HCK2 BLK RGT VST VCK PCG DWN ENB HB VB LCX023ELT/EMT Up/down and/or right/left inversion control circuit LCX029CNT/CPT, CRT/CST 101.5 mm LCX038ART/AST