我的位置:
- 數(shù)字音視工程網(wǎng)/
- 產(chǎn)品中心/
- 產(chǎn)品詳情
巴可BARCO-仿真培訓(xùn)投影機-SIM 7QP
QXGA LCoS projector for training and simulation in portrait mode
地址:北京市朝陽區(qū)太陽宮中路12號冠城大廈12層
電話:400-000-9370、400-882-2726、010-80101166(聯(lián)系就說在DAV音視工程網(wǎng)上看到的)
廠商介紹: 巴可BARCO是全球顯示行業(yè)領(lǐng)先的技術(shù)公司,主要為娛樂、企業(yè)和醫(yī)療保健市場設(shè)計開發(fā)網(wǎng)絡(luò)可視化和創(chuàng)新協(xié)作解決方案。巴可偉視(北京)電子有限公司為中國市場專業(yè)市場設(shè)計開發(fā)可視化解決方案:涉及控制室、國防與航天、數(shù)字影院、醫(yī)療保健、媒體與娛樂、模擬與虛擬現(xiàn)實。巴可BARCO產(chǎn)品包括專業(yè)工程投影機、數(shù)字影院... [詳細(xì)]
經(jīng)銷商 | 聯(lián)系方式 | 價格 |
---|---|---|
巴可BARCO | 400-000-9370、400-882-2726、010-80101166 | 面議 |
Powered by LCoS technology, Barco’s SIM 7QP was specifically designed for commercial, fast-jet and rotary-wing training applications that require a high vertical field of view.
Eye-limiting resolution without speed limits
With its 1536x2048 resolution, Barco’s SIM 7QP delivers razor-sharp images for the ultimate fidelity in simulation training. LCoS technology has the highest pixel-fill factor of all the current display technologies, and produces a smooth-as-silk picture with imperceptible gaps between pixels. Barco’s unique smear reduction technology ensures that speed will not affect the SIM 7QP’s superior image quality, or result in flicker or breakup.
Back to black
Barco’s SIM 7QP has an impressive dynamic contrast ratio of more than 2,000,000:1 for realistic dusk and night time scenes, and deep black levels. The SIM 7QP’s stimulated night vision capabilities are compatible even with generation 4 NVGs. What’s more, the SIM 7QP is the brightest LCoS training projector on the market.
Ready for multi-channel action
The SIM 7QP comes equipped with Barco-engineered technologies that make it ready for multi-projector set-ups:
? Edge blending technology creates one continuous image without blurry overlap zones where projections converge.
? DynaColor and linked constant light output (CLO) ensure the same light and color levels across the entire screen.
? Warping (geometry correction) enables accurate projection from different angles and across spherical or curved surface