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
-
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
-
Support
IEEE802.1q
VLAN,
VLAN
port,
based
Mac
VLAN,
IP
subnet
VLAN,
Protocol
VLAN,
VLAN
convert,
MVR
-
Support
dynamic
IEEE802.3ad
LACP
link
aggregation,
static
link
aggregation
-
Support
IGMP/MLD
snooping
V1/V2/V3,
IGMP
filtrating/
modulating,
IGMP
searching
-
Support
IGMP
agent
report,
MLD
snooping
-
Safety:
based
on
port
and
Mac
IEEE802.1X,
RADIUS,
ACL,
TACACS+,
HTTP/HTTPS,
SSL/SSH
v2
-
Support
Cisco®
like
CLI,
Web
management,
SNMP
v1/v2c/v3,
Telnet
-
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)
|
