Category: Interactive recording & broadcasting
The recording system has the advantages of embedded low power consumption and environmental protection, and the power consumption of the whole machine does not exceed 30W under normal working conditions.
● Based on the demand for the stability of recording and broadcasting equipment, the recording and broadcasting host must adopt an embedded architecture design, and server and PC architecture are not accepted. The height of the recording host should not exceed 1U.
● Support 3 SDI input interfaces (each interface adaptive 3G-SDI/HD-SDI signal), 1 HDMI input interface and 1 VGA input interface, and each interface supports 1080P60 video input, HDMI-IN supports audio input .
● Support 2 channels of video output at the same time, 1 channel VGA-OUT, 1 channel HDMI-OUT, the output resolution is 1080P image, the output content can be customized as live image or guide interface, HDMI-OUT supports simultaneous audio and video output.
● Support 2 audio input and 2 audio output interfaces; 1 audio 3.5mm headphone monitor interface, which can monitor live sound.
● Supports 2 groups of RS232 and 4 groups of RS485 interfaces, and supports the docking of peripheral director stations and central control.
● Support 1 gigabit network interface.
● Support 1 USB3.0 and 1 USB2.0 interface, you can connect an external U disk for recording.
● Supports 4 sets of DC-12V power output, which can supply power to peripheral devices such as broadcast guide keyboard.
● The power switch button of the recording and broadcasting host adopts self-locking technology, and it can be turned on after power on.
● The hard disk storage capacity of the recording and broadcasting host is ≥1T, which supports expansion.
● The recording system has the advantages of embedded low power consumption and environmental protection, and the power consumption of the whole machine does not exceed 30W under normal working conditions.
● In order to ensure the effect of video recording and audio, reduce the environmental noise of the recording and broadcasting classroom, and ensure the normal heat dissipation of the host system, a fanless heat dissipation design is adopted.