AJA OG-HI5-4K-PLUS OpenGear 4x 3G-SDI to HDMI 2.0 with up to UltraHD 60p, also supports HD-SDI to HD-HDMI
$1,630.00
Overview
OG-Hi5-4K-Plus is an openGear card that offers 3G-SDI to HDMI 2.0 conversion for 4K/UltraHD/2K/HD/SD sources, supporting up to 60p from professional 4K/UltraHD devices when monitoring to HDMI 2.0 displays. OG-Hi5-4K-Plus generates HDR metadata in accordance with HDMI v2.0b/CTA-861.3, including HDR support, and offers a simple monitoring connection from 4K devices with Quad 3G-SDI or Dual 3G-SDI outputs to compatible HDMI 2.0 displays, with two sample interleave (2SI) or square division (Quadrant) pixel mapping.
Designed for use in high density openGear 2RU frames including AJA’s OG-X-FR frame, new DashBoard Software support on Windows®, macOS® and Linux® offers remote control and monitoring of the openGear architecture and provides convenient and industry standard configuration, monitoring and control options over a PC or local network.
Features
- openGear compatible card
- Convert Quad 3G-SDI to HDMI 2.0b at up to 4K 60p
- Support for 4:2:2/4:4:4 HDMI 2.0b output
- Supports 12-bit workflows
- HDR signaling metadata pass-through and optional override
- HDR support for HDR10 and HLG
- Embedded audio support 8-channel 24-bit
- Embedded audio pass-through of AC-3 (Dolby Digital) and E-AC-3 (Dolby Digital Plus) compressed audio, including DD+ Atmos (aka DD+ JOC)
- Remote Ethernet configuration through Ross DashBoard software
- Power: 12 watts
- Hot-swappable
- Rear I/O card included
- Two slots required for each card
- Compatible with OG-X-FR, OG-3-FR and DFR-8321 openGear frames
- Five year warranty
Connectivity
The latest generation of affordable 4K monitors utilize an HDMI 2.0 connection, which allows a full 4K signal to be passed over a single cable. Typical professional 4K workflows use four SDI cables to carry the full resolution image, making it difficult to incorporate these newer monitors. OG-Hi5-4K-Plus is an easy-to-use converter that bridges the gap between these two worlds for seamless integration.