Kaleido-X16

Super-silent, 16 inputs, dual output multiviewers

The Kaleido-X16 is a compact, ultra-quiet multiviewer that is ideal for small control rooms and trucks or large rooms with monitoring router design. Offering the finest image quality, it can be used with 3Gbps/HD/SD and analog video. Kaleido-X16 provides 16 inputs, two multiviewer outputs and two router outputs. When paired with routers, Kaleido-X16 can also create large combined multiviewer and routing systems.

Key features and benefits

  • Unmatched image quality
  • Unmatched multiviewer picture quality, and superior on-screen graphics, for the most critical monitoring applications
  • 2 HDMI and 2 HD-SDI multiviewer outputs
  • DXF-200 optical DVI extension uses multi-mode fiber with SC connector to simplify long runs of up to 3280 ft (1 km)
  • Superior layout flexibility
  • Any of the video inputs can be displayed, any number of times, at different resolutions and sizes up to full screen, on the multiviewer outputs, without blocking or bandwidth limitations
  • Multiformat operation
  • 3Gbps/HD/SD/analog inputs
  • Stereoscopic 3D support (dual link 1.5 Gbps, SMPTE-292M)
  • DVI and MPEG video accepted with optional interfaces
  • Scalable for the largest systems
  • Expansion through combination with upstream router (NVISION or third-party)
  • Can create the very largest combined multiviewer/router systems with up to 1152 video inputs, 144 independent multiviewer outputs
  • Advanced signal probing
  • Integral signal probing and on-screen alarms
  • Display of XDS Metadata and Closed Captioning
  • Built-in router
  • Two 3Gbps/HD/SD router outputs (16 x 2)
  • Internal router control by NVISION panel and NV9000 Controller
  • Legendary ease of use
  • Easy layout preparation with XEdit
  • Intuitive on-screen mouse control
  • Choice of multiviewer remote control panels: simple Kaleido-RCP2 and advanced RCP-200 with router control
  • Ultra-quiet, robust design
  • Super silent for installation within studios and control rooms
  • Highly robust 1RU design with optional redundant power supply