SMC SMCGS10P-Smart EUK 752.9717EUK プリント

www.smc.com

www.edge-core.com

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SMC Network’s EZ Switch SMCGS10P-Smart is a new 10-port Gigabit Ethernet Smart switch providing 8 Gigabit PoE 

ports and 2 100/1000BASE-X SFP slots. The switch supports a flexible web-based management interface as well as 

SNMP for both IPv4 and IPv6. The new SMC Smart switch provides a range of feature-rich functions, including VLANs, 

Spanning Tree, link aggregation, multicasting, security, storm control, and QoS with 8 priority queues. Ideal for users 

looking to migrate from unmanaged to managed networks, this Smart switch is easy to install and perfect for SMB and 

SOHO businesses.    

This entry-level managed switch provides 20 Gbps 

wire-speed switching performance across all 10 ports. This 

enables the switch to fully support existing high-performance 

PCs and laptops, which significantly improves application 

response times and the speed of large file transfers.

The two Gigabit Ethernet 100/1000BASE-X SFP slots 

provide uplink flexibility, offering extended fiber connections 

to the network backbone. 

VLAN features support flexible network partition and 

configuration, performance improvement, and cost savings.

IEEE 802.1QinQ VLAN tags expand the VLAN space by 

double-tagging packets.

IGMP snooping prevents flooding of IP multicast traffic and 

limits bandwidth-intensive video traffic to only the 

subscribers.

Storm control monitors the amount of storm traffic that is 

sent every single second on an interface. It allows the 

administrator to specify how much storm traffic can be sent 

as a percentage of the total bandwidth of an interface.  

IEEE 802.1w Rapid Spanning Tree Protocol provides a 

loop-free network and redundant links to the core network 

with rapid convergence, ensuring faster recovery from failed 

links, and enhancing overall network stability and reliability.

IEEE 802.1s Multiple Spanning Tree Protocol runs STP per 

VLAN base (up to 8 instances), providing Layer 2 load 

sharing on redundant links.

IEEE 802.3ad Link Aggregation Control Protocol (LACP) 

increases bandwidth by automatically aggregating several 

physical links together as a logical trunk and providing load 

balancing and fault tolerance for uplink connections.

Support for eight egress queues per port enable 

differentiated management of up to eight traffic types.

Traffic is prioritized according to 802.1p, DSCP, IP 

precedence, and TCP/UDP port number, giving optimal 

performance to real-time applications such as voice and 

video. Asymmetric bidirectional rate-limiting, per port or per 

traffic class, preserves network bandwidth and allows 

maximum control of network resources.

Port Security limits the total number of devices that can 

access a switch port based on MAC address, and protects 

against MAC flooding attacks.

IEEE 802.1X port-based or MAC-based  access control 

ensures all users are authorized before being granted 

access to the network. User authentication is carried out 

using a standard-based RADIUS server, with support for 

dynamic VLAN assignment. 

An embedded user-friendly web interface helps users 

quickly and simply configure switches. SNMP v1/v2 is 

supported for management by a network management 

station. The switch supports management functions over 

both IPv4 and IPv6. Cable diagnostics identifies cable 

faults (such as short, open, etc.) and feeds back a distance 

to the fault. LLDP (Link Layer Discovery Protocol) enables 

administrators to monitor devices attached to switch ports.

The SMCGS10P-Smart can provide up to 30 Watts of 

power to attached devices, such as VoIP phones, wireless 

access points, surveillance cameras, etc, all over existing 

Cat. 5 cables. The switch can deliver up to 30 Watts on 2 

ports, 15.4 Watts on 4 ports, or 7.5 Watts on 8 ports. This 

eliminates the need for individual power sources for 

devices in the network, saving on costs for power cables 

and avoiding power outlet availability issues. If the power 

demand exceeds the switch’s maximum power budget, 

ports can be prioritized to receive power.