
IPES/IES-5416DFT Series
16 10/100TX + 2 1000T + 2 100/1000FX Dual Speed Fiber L2+ 8 PoE
at/af Industrial Managed Switch w/ITU G.8032 Ring
User Manual (Hardware)
IP-67
IP-43
Sep. 2015

Recommendation for Shielded network cables
STP cables have additional shielding material that is used to reduce external interference.
The shield also reduces the emission at any point in the path of the cable. Our
recommendation is to deploy an STP network cable in demanding electrical environments.
Examples of demanding indoor environments are where the network cable is located in
parallel with electrical mains supply cables or where large inductive loads such as motors
or contactors are in close vicinity to the camera or its cable. It is also mandatory to use an
STP cable where the power device (like IP camera) is used outdoors or where the network
cable is routed outdoors.

Important Notice
Lantech Communications Global, Inc. reserves the right to modify the
equipment, its specification or this manual without prior notice, in the interest
of improving performance, reliability, or servicing. At the time of publication
all data is correct for the operation of the equipment at the voltage and/or
temperature referred to. Performance data indicates typical values related to
the particular product.
No part of this documentation or information supplied may be divulged to any
third party without the express written consent of Lantech Communications
Global Inc. Products offered may contain software which is proprietary to
Lantech Communications Global Inc. The offer or supply of these products
and services does not include or infer any transfer of ownership.
Interference Issues
This Equipment has been tested and found to comply with the limits for a
Class A digital device, pursuant to Part 15 of the FCC rules. These limits are
designed to provide reasonable protection against harmful interference in a
commercial or industrial installation. This equipment generates, uses, and
can radiate radio frequency energy. It may cause harmful interference to
radio communications if the equipment is not installed and used in
accordance with the instructions.

FCC Warning
This Equipment has been tested and found to comply with the limits for a
Class-A digital device, pursuant to Part 15 of the FCC rules. These limits
are designed to provide reasonable protection against harmful interference
in a residential installation. This equipment generates, uses, and can
radiate radio frequency energy. It may cause harmful interference to radio
communications if the equipment is not installed and used in accordance
with the instructions. However, there is no guarantee that interference will
not occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct
the interference by one or more of the following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to
which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
CE Mark Warning
This is a Class-A product. In a domestic environment this product may
cause radio interference in which case the user may be required to take
adequate measures.

Content
Chapter 1 Introduction ............................................. 5
Specification ............................................................. 5
Chapter 2 Hardware Description .......................... 12
2.1 Physical Dimension ...................................... 12
2.2 IP Protection ................................................. 14
2.3 LED Indicators.............................................. 17
Chapter 3 Hardware Installation ........................... 19
Chapter 4 Network Application ............................. 25
4.1 ITU G.8032 Scheme ...................................... 25
4.2 Ring Coupling ................................................ 25
4.3 Multiple Rings ................................................ 26
4.4 Dual Homing .................................................. 27
4.5 Chain ............................................................. 27
Chapter 5 Console Management .......................... 29
5.1 Connecting to the Console Port ................... 29
5.2 Login in the Console Interface ..................... 29

5
Chapter 1 Introduction
Lantech IES-5416DFT & IPES-5416DFT-8(IP67/IP43) series is a high performance L2+
IP67/IP43 industrial Gigabit uplink switch with 8x10/100TX + 2 GigaT + 2Dual Speed
Giga FX w/8 PoE at/af injectors by M12 connectors which provides L2 wire speed and
advanced security function for connecting PD network.
Specification
IES-5416DFT series
IEEE 802.3 10Base-T Ethernet
IEEE 802.3u 100Base-TX
IEEE802.3z Gigabit fiber
IEEE802.3x Flow Control and Back Pressure
IEEE802.3ad Port trunk with LACP
IEEE802.1d Spanning Tree
IEEE802.1w Rapid Spanning Tree
IEEE802.1s Multiple Spanning Tree
IEEE 802.3ad Link Aggregation Control Protocol (LACP)
IEEE 802.1AB Link Layer Discovery Protocol (LLDP)
IEEE 802.1X User Authentication (Radius)
IEEE802.1p Class of Service
IEEE802.1Q VLAN Tag
Back-plane (Switching Fabric): 11.2Gbps
Packet throughput ability (Full-Duplex): 23.8Mpps @64bytes
14,880pps for Ethernet port
148,800pps for Fast Ethernet port
1,488,000pps for Gigabit Fiber Ethernet port

10/100TX: 16 x ports M12 4-pole D-coded with Auto MDI/MDI-X
function
10/100/1000T: 2 x ports M12 8-pole A-coded with Auto MDI/MDIX function
100/1000 Dual Speed Fiber: 2 x LC connector for single-mode or
multi-mode type fiber cable
RS-232 connector: 1 x M12 5-pole A-coded
Power Input connector : 1 x M12 5-pole A-coded
Relay contact : 1 x M12 5-pole A-coded
10Base-T: 2-pair UTP/STP Cat. 3, 4, 5/ 5E/ 6 cable
EIA/TIA-568 100-ohm (100m)
100Base-TX: 2-pair UTP/STP Cat. 5/ 5E/ 6 cable
EIA/TIA-568 100-ohm (100m)
1000Base-TX: 2-pair UTP/STP Cat. 5/ 5E/ 6 cable
EIA/TIA-568 100-ohm (100m)
Multi-mode: 50/125um~62.5/125um
Single mode: 9/125um
Available distance: 0.5km (Multi-mode)/10km (Single-mode)
Wavelength: 850nm (Multi-mode)/1310nm (Single-mode)
Multi-mode: 50/125um~62.5/125um
Single mode: 9/125um
Available distance: 2km (Multi-mode)/30km (Single-mode)
Wavelength: 850nm (Multi-mode)/1310nm (Single-mode)
High-speed optical switching (<4ms)
Minimal insertion loss (Max 1.6dB as Bypass Mode)
Per unit: Power 1 (Green), Power 2 (Green), P-Fail (Red)
Ethernet port: Link/Activity (Green), Speed (Green); Optical fiber:
Link/Activity (Green)
1 Digital Input (DI) :
Level 0: -30~2V / Level 1: 10~30V
Max. input current:8mA

1 Digital Output(DO): Open collector to 40 VDC, 200mA
5% ~ 95% (Non-condensing)
-40°C~75°C / -40°F~167°F
(72V model: -40°C~60°C / -40°F~140°F)
Standard model:9.5~60VDC dual input
72V model: 50.4~90VDC dual input
110V model : 43~137.5VDC dual input
Max. 13W 12V~48VDC input
Max. 16W 72VDC/110VDC input
IP67 model: Aluminum case
285mm(W)x200mm(H)x84.4mm(D)
IP43 model: Aluminum case
273mm(W)x187mm(H)x84.4mm(D)
2.1kgs(IP67); 1.8kgs (IP43)
DIN Rail** and Wall Mount Design
FCC Class A,
CE EN55022 Class A, CE EN55024, CE EN61000-4-2, CE
EN61000-4-3, CE EN61000-4-4, CE EN61000-4-5, CE EN610004-6, CE N61000-4-8, EN61000-4-11
IEC60068-2-32 (Free fall), EN61373 (Shock and Vibration)
EN50155/EN50121-3-2/EN50121-4 verification
EN45545-2 R24 (EN ISO 4589-2, EN ISO 5659-2, NF X70-100-1
& 2) Fire & Smoke verification
*Future release
**Optional

IEEE 802.3 10Base-T Ethernet
IEEE 802.3u 100Base-TX
IEEE802.3z Gigabit fiber
IEEE802.3x Flow Control and Back Pressure
IEEE802.3ad Port trunk with LACP
IEEE802.1d Spanning Tree
IEEE802.1w Rapid Spanning Tree
IEEE802.1s Multiple Spanning Tree
IEEE 802.3ad Link Aggregation Control Protocol (LACP)
IEEE 802.1AB Link Layer Discovery Protocol (LLDP)
IEEE 802.1X User Authentication (Radius)
IEEE802.1p Class of Service
IEEE802.1Q VLAN Tag
IEEE802.3at/af Power over Ethernet
Back-plane (Switching Fabric): 11.2Gbps
Packet throughput ability (Full-Duplex): 23.8Mpps @64bytes
14,880pps for Ethernet port
148,800pps for Fast Ethernet port
1,488,000pps for Gigabit Fiber Ethernet port
10/100TX: 16 x ports M12 4-pole D-coded with Auto MDI/MDI-X
function
10/100/1000T: 2 x ports M12 8-pole A-coded with Auto MDI/MDIX function
100/1000 Dual Speed Fiber: 2 x LC connector for single-mode or
multi-mode type fiber cable
RS-232 connector: 1 x M12 5-pole A-coded
Power Input connector : 1 x M23 5-pole A-coded

Relay contact : 1 x M12 5-pole A-coded
10Base-T: 2-pair UTP/STP Cat. 3, 4, 5/ 5E/ 6 cable
EIA/TIA-568 100-ohm (100m)
100Base-TX: 2-pair UTP/STP Cat. 5/ 5E/ 6 cable
EIA/TIA-568 100-ohm (100m)
1000Base-TX: 2-pair UTP/STP Cat. 5/ 5E/ 6 cable
EIA/TIA-568 100-ohm (100m)
Multi-mode: 50/125um~62.5/125um
Single mode: 9/125um
Available distance: 0.5km (Multi-mode)/10km (Single-mode)
Wavelength: 1310nm (Multi-mode/Single-mode)
Multi-mode: 50/125um~62.5/125um
Single mode: 9/125um
Available distance: 2km (Multi-mode)/30km (Single-mode)
Wavelength: 1310nm (Multi-mode/Single-mode)
High-speed optical switching (<4ms)
Minimal insertion loss (Max 1.6dB as Bypass Mode)
Per unit: Power 1 (Green), Power 2 (Green), P-Fail (Red)
Ethernet port: Link/Activity (Green), Speed (Green); Optical fiber:
Link/Activity (Green)
1 Digital Input (DI) :
Level 0: -30~2V / Level 1: 10~30V
Max. input current:8mA
1 Digital Output(DO): Open collector to 40 VDC, 200mA
5% ~ 95% (Non-condensing)
-40°C~75°C / -40°F~167°F
(72V model: -40°C~60°C / -40°F~140°F)
Standard model: 45~56VDC dual input
12V model: 9.5~56VDC dual input

72V model: 50.4~90VDC dual input
110V model: 43~137.5VDC dual input
240W for 45~56V input
(55V input is recommended for 802.3at 30W applications)
80W for 12V input
120W for 24V input
80W for 72V Input
80W for 110V Input
M12 port # 1~#8 support IEEE 802.3at/af End-point, Alternative A
mode. Per port provides 30W PoE at/ 15W PoE af.
Max. 13W 12V~48VDC input
Max. 16W 72VDC/110VDC input
IP67 model: Aluminum case
285mm(W)x200mm(H)x84.4mm(D)
IP43 model: Aluminum case
273mm(W)x187mm(H)x84.4mm(D)
2.1kgs(IP67); 1.8kgs (IP43)
DIN Rail** and Wall Mount Design
FCC Class A,
CE EN55022 Class A, CE EN55024, CE EN61000-4-2, CE
EN61000-4-3, CE EN61000-4-4, CE EN61000-4-5, CE EN610004-6, CE N61000-4-8, EN61000-4-11
IEC60068-2-32 (Free fall), EN61373 (Shock and Vibration)
EN50155/EN50121-3-2/EN50121-4 verification
EN45545-2 R24 (EN ISO 4589-2, EN ISO 5659-2, NF X70-100-1
& 2) Fire & Smoke verification

12
Chapter 2 Hardware Description
In this paragraph, it will describe the Industrial switch’s hardware spec, port, cabling
information, and wiring installation.
2.1 Physical Dimension
Aluminum case. IP-67,
285 (W) x 201.4 (D) x 84.4 (H) mm

13
Port description of IP-67 series switch
Aluminum case. IP-43,
273 (W) x 188.4(D) x 84.4 (H) mm
**The description of interface of IP-43 model is the same as IP-67
series.

14
2.2 IP Protection
The IP Code, Ingress Protection Rating, sometimes also interpreted as International
Protection Rating, classifies and rates the degree of protection provided against the
intrusion (including body parts such as hands and fingers), dust, accidental contact, and
water in mechanical casings and with electrical enclosures. It is published by the
International Electrotechnical Commission (IEC)
Solid particle protection
The first digit indicates the level of protection that the enclosure provides against access
to hazardous parts (e.g., electrical conductors, moving parts) and the ingress of solid
foreign objects.
Object size
protected against
No protection against contact and ingress of objects
Any large surface of the body, such as the back of a
hand, but no protection against deliberate contact
with a body part
Fingers or similar objects
Ingress of dust is not entirely prevented, but it must
not enter in sufficient quantity to interfere with the
satisfactory operation of the equipment; complete
protection against contact
No ingress of dust; complete protection against
contact

15
Liquid ingress protection
The second digit indicates the level of protection that the enclosure provides against
harmful ingress of water.
Dripping water (vertically
falling drops) shall have no
harmful effect.
Test duration: 10 minutes
Water equivalent to 1 mm
rainfall per minute
Dripping
water when
tilted up to
15°
Vertically dripping water
shall have no harmful effect
when the enclosure is tilted
at an angle up to 15° from
its normal position.
Test duration: 10 minutes
Water equivalent to 3 mm
rainfall per minute
Water falling as a spray at
any angle up to 60° from
the vertical shall have no
harmful effect.
Test duration: 5 minutes
Water volume: 0.7 litres per
minute
Pressure: 80–100 kPa
Water splashing against
the enclosure from any
direction shall have no
harmful effect.
Test duration: 5 minutes
Water volume: 10 litres per
minute
Pressure: 80–100 kPa
Water projected by a
nozzle (6.3 mm) against
enclosure from any
direction shall have no
harmful effects.
Test duration: at least
15 minutes
Water volume: 12.5 litres per
minute
Pressure: 30 kPa at distance
of 3 m

Water projected in powerful
jets (12.5 mm nozzle)
against the enclosure from
any direction shall have no
harmful effects.
Test duration: at least
3 minutes
Water volume: 100 litres per
minute
Pressure: 100 kPa at
distance of 3 m
Ingress of water in harmful
quantity shall not be
possible when the
enclosure is immersed in
water under defined
conditions of pressure and
time (up to 1 m of
submersion).
Test duration: 30 minutes
Immersion at depth of at
least 1 m measured at
bottom of device, and at least
15 cm measured at top of
device
The equipment is suitable
for continuous immersion in
water under conditions
which shall be specified by
the manufacturer.
Normally, this will mean
that the equipment is
hermetically sealed.
However, with certain types
of equipment, it can mean
that water can enter but
only in such a manner that
it produces no harmful
effects.
Test duration: continuous
immersion in water
Depth specified by
manufacturer
Powerful
high
temperature
water jets
Protected against closerange high pressure, high
temperature spray downs.

17
2.3 LED Indicators
The diagnostic LEDs that provide real-time information of system and optional status are
located on the front panel of the industrial switch. The following table provides the
description of the LED status and their meanings for the switch.
The switch unit is owner switch of ITU-Ring
The switch is not owner switch
A network device is detected.
The port is transmitting or receiving packets
from the TX device.
The port is operating in PoE mode.(IPES)
The port is not operating in PoE
mode.(IPES)
A network device is detected.
The port is transmitting or receiving packets
from the TX device.

19
Chapter 3 Hardware Installation
3.1Hardware installation
3.1.1Unpack switch and check the accessory with packing list
3.1.2 Mount the switch on desired position
3.1.3 Connect the M23 connector of power input. The PoE supply voltage
for IPES-5416DFT-8 series is connected via a 5-pin M23 connector and
supplied with by an external power supply unit.
Voltage of Power Input
Standard model:
The power input voltage can be from
9.5V to 60VDC
72V model:
The power input voltage can be from
50.4V to 90VDC
110V model:
The power input voltage can be from
43V to 137.5VDC
Standard model:
The voltage of power input should use
48VDC to feed power IEEE 802.3af
standardized devices or 54VDC for
IEEE 802.3at standardized ones.
12V model:
The power input voltage can be from
9.5V to 56VDC to feed power on both

the 802.3af and 802.3at standardized
devices.
72V model:
The power input voltage can be from
50.4V to 90VDC to feed power on both
802.3af/at standardized devices.
110V model:
The power input voltage can be from
43V to 137.5VDC to feed power on
both 802.3af/at standardized devices.
Make sure that the external power supply unit you use to provide
the PoE voltage fulfils the following basic criteria:
The output voltage of power supply must exceed 48VDC for 802.3af
and 53VDC for 802.3at operation (*with IPES-5416DFT-8-72V, only
72VDC can power both the 802.3af and 802.3at PD. **with IPES5416DFT-8-110V, only 110VDC can power both the 802.3af and
802.3at PD.)
The power consumption can satisfy the total power request from all
PD devices required.
Pin assignment of Power input

21
Dual Power Input
The power input can be supported redundantly. The supply voltage is
electrically isolated from the housing.
Note: With single power supply of the mains voltage, the device will
report a power failure. You can disable this power fail event via web
browser.
Pin assignment of alarm relay
A break in contact is reported via the relay contact :
The failure of at least one of the two supply voltages.
The break link status of at least one switch port.
3.1.4 Fitting the device, grounding
Install the system in a dry and clean area to protect the switch to
get exposed with dirt.
Plug the connector to the power supply plug then turn on the power
supply.
Ground
The chassis is grounded via a separate ground nut (M3).
Use toothed locking washers for a good electrical connection.

22
Ground screw of IPES-5408T switch
3.1.5 Connect the M12 connector with RJ-45 data cable, ports are not
used shall be caped that comes with the package to insulate the
surrounding.

23
Pin assignment of M12 10/100Tx network connector
Pin assignment of M12 10/100/100T network connector

24
3.1.6 Check the status of LED, make sure the switch was in working
status.
Note:
The protection class IP67/IP43 is only achieved when bolted together.
The other components attaching to the system have to meet with the
IP67/IP43 protection class in order to reach the whole system IP 67/IP43
protection.
Empty ports must be sealed with the protective caps supplied.

25
Chapter 4 Network Application
4.1 ITU G.8032 Scheme
LANTECH G.8032 protocol is following ITU (International Telecommunication Unit)
G.8032 v2 draft. The benefits of G.8032 are:
1. <50ms recovery time when failover
2. G.8032 has defined the protocol scheme, parameters, functions, test measures to be
unified that the users can evaluate the possible network infrastructure without literally
testing each brand in large scale.
4.2 Ring Coupling

29
Chapter 5 Console Management
5.1 Connecting to the Console Port
The supplied cable which one end is M12 5-pole connector and the other end is RS232 connector. Attach the end of RS-232 connector to PC or terminal and the other
end of M12 connector to the console port of the switch. The connected terminal or
PC must support the terminal emulation program.
5.2 Login in the Console Interface
When the connection between Switch and PC is ready, turn on the PC and run a
terminal emulation program or Hyper Terminal and configure its communication
parameters to match the following default characteristics of the console port:
Baud Rate:115200 bps
Data Bits: 8
Parity: none
Stop Bit: 1
Flow control: None

30
The settings of communication parameters
Having finished the parameter settings, click ‘OK’. When the blank screen shows up,
press Enter key to have the login prompt appears. Key in ‘admin’ (default value) for
both User name and Password (use Enter key to switch), then press Enter and the
Main Menu of console management appears. Please see below figure for login
screen.
Console login interface
===============Notice===============
For web-based management, please refer to our “Software Management Manual” at
http://www.lantechcom.tw/global/eng/support-downloads.html