Managed industrial network switch

• (10) 10/100/1000 + (4) 100/1000 SFP slots,
• -40 to + 75 ° C,
• 12 to 58 VDC
• Offers ten 10- / 100- / 1000Mbps copper ports and an additional four multirate SFP slots.
• Comprehensive management via SNMP, Telnet, HTTPS and CLI.
• L2 wire speed switching.
• 9000 byte jumbo frames.
• 8000 MAC forwarding addresses.
• High redundancy thanks to LACP and spanning tree (STP / RSTP / MSTP).
• High reliability with a link loss recovery time <20ms.
• State-of-the-art VLAN and VLAN mirroring capable.
• Support of 802.1p and TOS / DS Quality of Service with four queues per port.
• Efficient bandwidth usage with IGMP v1 / v2 for video multicast over the network.
• Secure thanks to IP, MAC and IEEE802.1x access control.
• IP30 Industrial Design: Can be used at temperatures between -40 ° and + 75 ° C; two 12-58 VDC power connections.
• Warranty: 1 year, extension possible

INDRy II Managed Ethernet Switches have been specially designed for demanding industrial environments. The switches are approved for operating temperatures between -40 and + 75 ° C and have been subjected to demanding shock and vibration tests. Dual current inputs from 12 to 58 VDC ensure functionality in almost any environment; the IP30-approved housing can be mounted on top-hat rails as well as on the wall.

The INDRY II L offers 14 Gigabit Ethernet ports, which enable you to update your existing industrial network infrastructure with a real Gigabit speed. The switch is equipped with ten 10- / 100- / 1000 Mbps copper ports (RJ-45), four further multirate SFP connections allow fiber optic uplinks. Equip the SFP connections with an individual combination of 100FX or 1000BaseSX / LX / LH SFP modules. If your cabling infrastructure changes, simply replace the SFPs according to your needs.

A real gigabit network ensures high data throughput and reduces the response time for sensitive applications such as video and / or voice mixed with data on the same line. The powerful features and extensive management of the INDRy II L offer all the advanced filters and multicast algorithms that are required today to prioritize, partition and organize a highly available and fast network as easily as possible.