Description
The PTC-600W is a 4K AI tracking PTZ camera engineered for live production and large venue capture. It combines a 1/1.8″ CMOS sensor and 30x optical zoom to deliver high-resolution images at long range. Built for unattended operation, its AI natural tracking maintains smooth framing during presentations and performances.
Key features include 4K60 HDMI output, 30x optical zoom, 10-bit 4:2:2 processing and advanced AI auto-tracking. The camera supports PoE++ power over Ethernet to simplify installation and provide stable performance. Dual-stream network output and NDI HX3 support enable efficient multichannel delivery and integration with modern IP workflows.
Image quality is enhanced by a large-format sensor that preserves color fidelity and detail in low light. The camera offers 4x digital zoom in addition to the 30x optical lens and provides noise reduction in 2D/3D modes. Electronic shutter ranges and precise iris control support varied lighting and motion scenarios.
Connectivity covers HDMI 2.0 UHD up to 2160p60 YUV 4:2:2, 3G-SDI up to 1080p, USB-C UVC output and a Gigabit RJ45 port with IEEE 802.3bt PoE++. Audio inputs include dual XLR line inputs and a 3.5 mm mic input for integrated production audio. Network streaming supports RTSP RTMP(S) SRT ONVIF and NDI HX3 allowing simultaneous streams to multiple CDNs.
The PTC-600W is suited for lecture capture, performance halls and corporate presentation environments where reliable tracking and broadcast-grade image processing matter. It supports FreeD for virtual production compatibility and has tally lights for program/preview indication. Configurable presets and a wide pan/tilt range enable repeatable camera positioning across events.
Installation and operation are designed for professional AV systems with support for RS-422, VISCA over IP, DVIP and ONVIF integration. Firmware updates are available via Web UI or USB Type-C to keep systems current. The steel housing, near-silent pan-tilt motors and PoE++ single-cable setup reduce rack and cable complexity while maintaining robust performance.



