8. Technical data 47" version (LCN-47, LCS-47)

8 Technical data 47" version (LCN-47, LCS-47)

8.1 General data

characteristic

Screen size

Aspect ratio

active area (HxW)

width x height x depth (without stand, with handle!)

weight

8.2 LCD panel

characteristic

Driver element

Pixel number

Display colors

Viewing angle

Brightness

Contrast ratio

Response time (Gray to Gray)

Interfaces

Dead pixel rate

specification

47” diagonal

16:9

1048mm x 593mm 41.26in. x 23.35in.

1139.4mm x 684.4mm x 125mm 44.86in x 26.94in X 4.92in

40.2kg 88.7lbs

Table 8-1

specification

a-Si TFT active matrix

(1920 x R.G.B. x 1080) pixel (HDTV)

16.8 millions of colors

176 degree vertical / 176 degree horizontal

500cd/m²

1800:1

Typ. 6.5 msec, max. 12 msec.

VGA (D-Sub 15 pins), DVI (DVI-D 24 pins), Composite (RCA), S-Video (Mini-DIN 4 pin), Component (Mini-DIN 8 pin), SDI/HD-SDI in/out (BNC), RS232 IN/OUT (D-Sub 9)

Max. 8 bright pixels out of which max. 2 clusters of two bright pixels. Max. 10 dark pixels out of which max. 5 clusters of two dark pixels

Table 8-2

8.3 Electrical data

Characteristic

 

specification

 

 

 

Power supply

 

100VAC-240 VAC, 50/60 Hz

 

 

 

Power consumption operating mode

 

303W 1033.8 BTU/h

 

 

 

Power consumption Standby mode

 

19.9W 67.9 BTU/h

 

 

 

Table 8-3

Barco - LC series - R5976934 - user's manual - Revision 08 - April 2008________________________________________________________________________________________ 8-1

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Barco R5976934 user manual Technical data 47 version LCN-47, LCS-47, General data

R5976934 specifications

The Barco R5976934 is a high-performance projection solution designed primarily for use in medical imaging and clinical applications. This innovative device stands out due to its unique combination of advanced features, cutting-edge technologies, and tailored characteristics that enhance its functionality and user experience.

One of the main features of the R5976934 is its exceptional image quality. It offers high resolution and contrast ratios, ensuring that images are displayed with remarkable clarity, making it ideal for procedures that require precise details, such as surgeries and diagnostics. The device supports a wide color gamut, ensuring that images are rendered with vividness and accuracy, essential for medical imaging where color differentiation can be critical.

In terms of technology, the Barco R5976934 is equipped with an advanced DLP (Digital Light Processing) system, which allows for brilliant brightness levels and improved sharpness. This technology minimizes motion blur, making it suitable for dynamic scenarios in medical environments. Additionally, the projector features Barco’s proprietary Color Boost technology that enhances color performance and consistency across various lighting conditions, ensuring that medical professionals can rely on the accuracy of the displayed images.

The R5976934 also prioritizes user convenience with its easy integration capabilities. The projector supports multiple input formats, making it compatible with various devices such as computers and imaging systems. This flexibility is crucial in a multi-device environment often seen in medical settings. Furthermore, the projector is designed for seamless operation, equipped with user-friendly interfaces that allow quick adjustments and settings modifications, enabling healthcare professionals to focus on what matters most—patient care.

Another notable characteristic is the projector’s durability and reliability. Constructed with robust materials, the R5976934 is designed to withstand the rigorous demands of operating rooms and medical facilities. It also boasts a long operational life and low maintenance requirements, reducing the total cost of ownership over time.

In summary, the Barco R5976934 is an exceptional medical imaging projector that excels in image quality, advanced DLP technology, and ease of use. Its design and features make it an invaluable tool for healthcare professionals, enhancing their ability to deliver precise diagnostics and treatment while ensuring operational efficiency in medical environments.