Product Description
Outstanding 802.3bt PoE++ and 10G Fiber Solution for Hardened Environment
Featuring Plug and Play designed and 10G SFP+ uplink ports to be installed in heavy industrial environments, PLANET IGS-1000-8UP4X Industrial-grade, DIN-rail type Unmanaged Gigabit Ethernet Switch features eight 10/100/1000BASE-T ports and IEEE 802.3bt PoE++ (Power over Ethernet Plus Plus) injector function to deliver up to 95 watts of power output and high data transmission speed to PDs (powered devices) installed in a remote area where sufficient and reliable power input is required. Its four 1G/2.5G/10GBASE-X SFP+ fiber optic uplink ports provide long distance, high speed and stable data transmission to a remote core network.
The IGS-1000-8UP4X is designed with redundant power system and is able to operate reliably, stably and quietly in any hardened environment without affecting its performance. It comes with a total power budget of up to 360 watts for different kinds of PoE applications and operating temperature ranging from -40 to 75 degrees C in a rugged IP30 metal housing. Though it includes robust features designed for industrial Ethernet networks, its Plug and Play makes configuration easy.
10Gbps Fiber Ports and Multiple Dual Speed Ports Deliver High-speed Networking
Featuring a 10Gbps uplink, the IGS-1000-8UP4X whether connecting to an industrial backbone or high-capacity servers, its prowess is unmatched. Operating flawlessly across an extensive temperature range, it guarantees a non-blocking switch fabric, delivering astonishing wire-speed throughput of up to 96Gbps.
The 10G fiber port serves as a backbone for high-bandwidth applications, such as video streaming, cloud computing, and virtualization, ensuring seamless and swift data transmission. This transformative capability simplifies the process of industrial LAN upgrades, efficiently catering to escalating bandwidth requirements.
802.3bt PoE++ 90~95-watt Power over 4-pair UTP Solution
As the IGS-1000-8UP4X adopts the IEEE 802.3bt PoE++ standard and UPoE technology, it is capable to source up to 95 watts of power by using all the four pairs of standard Cat5e/6 Ethernet cabling to deliver power and full-speed data to each remote PoE compliant powered device (PD). It possesses triple amount of power capability more than the conventional 802.3at PoE+ and is an ideal solution to satisfy the growing demand for higher power consuming network PDs, such as:
- PoE PTZ speed dome cameras
- Thin clients
- AIO (all-in-one) touch PCs, point of sale (POS) and information kiosks
- Remote digital signage displays
- PoE lightings
Intelligent LED Indicator for Real-time PoE Usage
The IGS-1000-8UP4X helps users to monitor the current status of PoE power usage easily and efficiently via its advanced LED indicator. On the front panel of the Industrial Gigabit PoE++ Switch, there are four different power usage LED indicators indicating 90W, 180W, 270W, and 360W.
Dual Power Input for High Availability Network System
The IGS-1000-8UP4X features a strong dual power input system with 48~54V DC to enhance system reliability and uptime. In the example below, when power supply 1 fails to work, the hardware failover function will be activated automatically to keep powering the IGS-1000-8UP4X via power supply 2 alternatively without any loss of operation.
Environmentally Hardened Design
With the IP30 metal industrial case, the IGS-1000-8UP4X provides a high level of immunity against electromagnetic interference and heavy electrical surges which are usually found on plant floors or in curb-side traffic control cabinets without air conditioning. It features a ventilated construction in which a cooling fan is not necessary, thereby making its operation noiseless. Being able to operate under the temperature range from -40 to 75 degrees C, the IGS-1000-8UP4X can be placed in almost any difficult environment.
Robust Protection
The IGS-1000-8UP4X provides contact discharge of ±6KV DC and air discharge of ±8KV DC for Ethernet ESD protection. It also supports ±6KV surge immunity to improve product stability and protects users’ networks from devastating ESD attacks, making sure the flow of operation does not fluctuate.