24 Port 2.5G Smart Manageable PoE Fiber Switch
Specification
| Product Name |
24 Port 1G 2.5G Industrial PoE Fiber Switch (12F+12TP) |
| Model No. |
IM-FP121212GW |
| Port |
12 x 1000Mpbs SFP ports
12 x10/100/1000M UTP RJ45(Support MDI/MDIX auto-sensing)
|
| Standard |
IEEE 802.3, IEEE802.3U, IEEE802.3ab, IEEE802.3z, IEEE802.1d STP, IEEE802.1w RSTP, IEEE802.1s MSTP, ITU-T G.8023 EPR/Y.1344, IEEE802.1Q, IEEE802.1X, IEEE802.3ad, IEEE802.3x, IEEE802.3af, IEEE802.3at, IEEE802.1ad, IEEE802.1p, IEEE802.1ab, IEEE802.3az |
| VLAND ID |
4096 |
| Jumbo Frame |
9.6KB |
| MAC Address Table Size |
8K |
| Poe Standard |
IEEE802.3af, IEEE802.3at |
| Switching features |
Transmission mode: storage and forward
System bandwidth: 108Gbps (non-traffic jam)
DRAM size: 128M
Flash size: 16M
Packet buffer size: 4Mb
VLAND ID: 4096
MAC Address Table Size: 8K
Jumbo Frame: 9.6KB
|
| Network media |
10BASE-T: CAT3, CAT4, CAT5 un-shielded twisted pair(≤100m)
100/1000BASE-TX: CAT5 or above shielded twisted pair(≤100m)
SFP port transmission distance: 20Km, 40Km, 60Km, 80Km, 100Km
|
| LEDs |
Power, network, fiber |
| Power supply |
Input voltage: AC220V
Non-polar power input: support
|
| Environment |
Working temperature: -40°~75°C
Working humidity: 5%~95%, non-condensing
|
| Certification |
CE-EMC: EN 55032:2015+AC: 2016+A1:2020+A11: 2020
EN 55035:2017+A11: 2020/EN IEC 61000-3-2:2019/A1: 2021
EN 61000-3-3: 2013/A2: 2021/AC:2022
CE-LVD: EN IEC 62368-1: 2020+A11:2020
FCC: 47 CFR FCC Part 15 Subpart B(Class B) ANSI C63.4: 2014
|
| Mechanical information |
Safety class: IP30
Dimension: 483x 294.6 x 44.5mm
|
| Warranty |
Replacement within 1year; 3 years repairing |
What It Is
IM-FP121212GW is a fully managed industrial PoE Ethernet switch designed for environments where large numbers of powered devices, long-distance fiber links, and centralized control must coexist reliably.
It is built for industrial networks that cannot rely on separate power systems, scattered switches, or frequent manual intervention.
This device combines high-density PoE delivery, fiber-based backbone connectivity, and industrial-grade management into a single platform.
Once deployed, it becomes a stable infrastructure node—supplying power, forwarding data, and enforcing network policies continuously, around the clock.
What It Connects
Twelve Gigabit RJ45 ports provide dense access for industrial edge equipment.
Each copper port automatically negotiates speed and duplex settings and delivers both data and electrical power over a single Ethernet cable.
Typical connected devices include:
IP cameras
Wireless access points
VoIP and intercom systems
PoE-enabled industrial terminals
Twelve Gigabit SFP fiber ports form the optical backbone of the network.
These ports support both single-mode and multi-mode fiber, enabling distances from short local links to up to 100 km.
This allows the switch to sit at the center of large industrial sites, rail corridors, utility networks, or campus-scale installations.
How Power Is Delivered
PoE functionality is built directly into the switch.
All twelve copper ports comply with IEEE 802.3af, supplying up to 15.4 W per port.
The total PoE power budget reaches 340 W, allowing all connected devices to be powered simultaneously without external injectors.
Power is delivered entirely through standard Category 5 Ethernet cabling.
No local power adapters are required at the device side.
This simplifies installation, reduces failure points, and lowers long-term maintenance cost—especially in outdoor or hard-to-access locations.
How It Behaves on the Network
IM-FP121212GW is a managed industrial switch.
It does not behave passively.
It actively controls how traffic moves, how failures are handled, and how devices are isolated.
Ring protection mechanisms and spanning-tree protocols allow the network to recover from link failures within milliseconds.
This is essential in large PoE deployments where losing connectivity can also mean losing power to field devices.
Traffic is processed deterministically using store-and-forward forwarding.
Latency-sensitive data—such as control signals or real-time video—can be prioritized, while non-critical traffic is constrained.
Large data frames are handled efficiently, preventing congestion under heavy load.
How Networks Are Segmented
The switch supports multiple VLAN models, allowing networks to be divided logically without additional hardware.
Traffic can be separated by:
Port
MAC address
IP subnet
Protocol
VLAN translation allows different network domains to interconnect cleanly.
Multicast traffic is tightly controlled.
Video streams and real-time data flows are forwarded only to where they are needed, preventing unnecessary bandwidth consumption in large camera or sensor deployments.
How Access Is Controlled
Security is enforced at multiple levels.
Devices must authenticate before accessing the network.
Ports can be restricted by identity, address, or policy.
Unauthorized access, spoofing attempts, and address misuse are actively blocked.
Management access is protected using encrypted protocols.
Configuration, monitoring, and diagnostics can be performed remotely without exposing the network to unnecessary risk.
How It Is Managed
The switch supports multiple management methods to suit different operational environments.
Engineers can configure and monitor it through:
Command-line access
Web-based interface
SNMP-based network management systems
Firmware updates are protected by redundancy mechanisms to prevent failed upgrades from disrupting operation.
Built-in diagnostic tools help locate cable faults quickly, reducing on-site troubleshooting time.
Time synchronization, logging, and monitoring functions allow the switch to integrate cleanly into centralized industrial management platforms.
How It Survives Industrial Environments
IM-FP121212GW is built for continuous operation under physical and electrical stress.
It operates reliably from -40°C to +85°C.
Humidity tolerance spans 5% to 95%, non-condensing.
A metal IP30-rated enclosure protects internal components from dust and mechanical impact.
The switch withstands vibration, shock, electrical surge, electrostatic discharge, and electromagnetic interference.
It is suitable for deployment near heavy machinery, power equipment, and rail systems.
How It Is Powered
The device uses dual DC 48 V non-polar power inputs.
Non-polar design simplifies wiring and reduces installation errors in the field.
Redundant power inputs improve availability in mission-critical deployments.
Where It Fits Best
Industrial PoE Surveillance Networks
Powers and manages camera systems in factories, mines, petrochemical plants, and perimeter security zones.
Multicast optimization improves video efficiency without excessive tuning.
Large-Scale Automation Environments
Supports dense connectivity for PLCs, HMIs, sensors, and PoE-enabled terminals.
Traffic prioritization ensures control signals are delivered reliably.
Transportation and Rail Systems
Designed for roadside cabinets, stations, and rail corridors.
Long-distance fiber ports support linear deployments, while ring protection ensures continuity.
Compliance with rail standards allows safe integration into transit networks
Energy and Utility Infrastructure
Used in substations, wind farms, and grid monitoring systems.
Wide temperature tolerance and fiber reach support outdoor and remote installations.
Smart Buildings and Industrial Parks
Acts as a central PoE distribution and control node.
Separates office, production, and security traffic while simplifying centralized management.
IPv6-Ready IIoT Deployments
Supports modern IPv6-based management and communication models.
Enables scalable integration of IIoT devices, remote platforms, and cloud-connected systems.
Why This Model Exists
This switch is not built to be minimal.
It is built to be central.
It exists for networks where:
Devices need power and data from the same place
Failures must recover automatically
Traffic must be controlled, not just forwarded
Environments are hostile to ordinary equipment
For industrial deployments where power, connectivity, and control converge,
IM-FP121212GW fits naturally.
WEB Info
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Support cable diagnosis and can locate the fault point
-
Support IEEE802.3az EEE(Energy Efficient Ethernet) Management, optimize power consumption
-
Support STP, RSTP, MSTP, ITU-T G.8032 Ethernet Protection Ring(EPR)
-
Support QoS, transport classification QoS, CoS, bandwidth control(input/output direction), storm suppression, differentiated services
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Support IEEE802.1q VLAN, VLAN port, based Mac VLAN, IP subnet VLAN, Protocol VLAN, VLAN convert, MVR
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Support dynamic IEEE802.3ad LACP link aggregation, static link aggregation
-
Support IGMP/MLD snooping V1/V2/V3, IGMP filtrating/ modulating, IGMP searching
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Support IGMP agent report, MLD snooping
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Safety: based on port and Mac IEEE802.1X, RADIUS, ACL, TACACS+, HTTP/HTTPS, SSL/SSH v2
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Support Cisco® like CLI, Web management, SNMP v1/v2c/v3, Telnet
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Support software upgrade via TFTP and HTTP, firmware redundancy prevents upgrade failing
-
Support DHCP client/Relay/Snooping/Snooping option 82/Relay option 82
-
Support RMON, MIB II, mirror image, event log, DNS, NTP/SNTP, IEEE802.1ab LLDP
-
Support IPV6 Telnet server/ICMP v6, SNMP, HTTP, SSH/SSL, NTP/SNTP, TFTP, QoS, ACL
Accessories
| Industrial Optical Module |
| OSPL1G05D |
1000BASE-SX |
| OSPL1G06D |
1000BASE-SX(1310nm) |
| OSPL1G20D |
1000BASE-LX |
| OSPL1G40D |
1000BASE-EX |
| OSBL1G20D-35 |
1000BASE-BX-U(TX 1310 RX1550) |
| OSBL1G20D-53 |
1000BASE-BX-D(TX 1550 RX1310) |
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