Advantech ICR-4401 Manual

Advantech Router ICR-4401

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Side 1/46
LAN Industrial Router
ICR-4401
USER MANUAL
ICR-4401
© 2023 Advantech Czech s.r.o. No part of this publication may be reproduced or transmitted in any form or by
any means, electronic or mechanical, including photography, recording, or any information storage and retrieval
system without written consent. Information in this manual is subject to change without notice, and does not
represent a commitment on the part of Advantech.
Advantech Czech s.r.o. shall not be liable for incidental or consequential damages resulting from the furnish-
ing, performance, or use of this manual.
All brand names used in this manual are the registered trademarks of their respective owners. The use of
trademarks or other designations in this publication is for reference purposes only and does not constitute an
endorsement by the trademark holder.
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Used symbols
Danger – Information regarding user safety or potential damage to the router.
Attention – Problems that can arise in specific situations.
Information, notice – Useful tips or information of special interest.
Advantech Czech s.r.o., Sokolska 71, 562 04 Usti nad Orlici, Czech Republic
Document No. MAN-0064-EN, revision from April 19, 2023. Released in the Czech Republic.
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Contents
1 Product Overview 2
1.1 Product Introduction ................................. 2
1.2 Hardware Overview ................................. 3
1.3 Order Codes ..................................... 5
1.4 Product Revisions .................................. 5
1.5 Package Contents .................................. 6
1.6 Product Dimensions ................................. 7
1.7 Mounting Recommendations ............................ 9
1.8 Wall Mounting ..................................... 10
1.9 DIN Rail Mounting .................................. 11
1.10 Product Label ..................................... 12
2 Hardware Functionality 13
2.1 Antennas Interfaces ................................. 13
2.2 Ethernet Interfaces .................................. 13
2.3 Power over Ethernet (PoE) PSE ........................... 14
2.4 SFP Cage ....................................... 16
2.5 Power Supply ..................................... 17
2.6 Low Power Mode ................................... 18
2.7 I/O Port Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
2.8 Serial Interfaces ................................... 20
2.9 USB Port ....................................... 21
2.10 MicroSD Card Reader ................................ 22
2.11 LED Status Indication ................................ 24
2.12 Reset Functions ................................... 25
3 First Use 26
3.1 Accessories Connection ............................... 26
3.2 Router Configuration ................................. 26
4 Technical Parameters 28
4.1 Basic Parameters ................................... 28
4.2 Standards and Regulations ............................. 29
4.3 Type Tests and Environmental Conditions . . . . . . . . . . . . . . . . . . . . . 30
4.4 Parameters of WiFi .................................. 31
4.5 Parameters of I/O Ports ............................... 32
4.6 Parameters of Serial Interfaces ........................... 32
4.7 Parameters of PoE .................................. 33
4.8 System Configuration ................................ 33
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Appendix A: Troubleshooting 34
Appendix B: Customer Support 36
Appendix C: Regulatory & Safety Information 37
Appendix D: Related Documents 39
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List of Figures
1 Hardware Overview of the Router .......................... 3
2 Router Dimensions – Front, Top and Right view with Wall Mounting holder . . . 7
3 Router Dimensions – Front, Top and Right view with DIN holder . . . . . . . . . 8
4 Rotated Wall Mounting Clips ............................. 10
5 Default Position of the DIN Rail Clips . . . . . . . . . . . . . . . . . . . . . . . . 11
6 Removing Router from the DIN Rail ......................... 11
7 Label Example .................................... 12
8 Ethernet Connector Pinout of RJ45 Socket . . . . . . . . . . . . . . . . . . . . 13
9 PoE PSE Funcional Scheme ............................ 14
10 SFP Module Installation ............................... 16
11 Power Connector Pinout ............................... 17
12 Position of the Grounding Screw .......................... 18
13 I/O Connector Pinout ................................. 19
14 Functional Scheme of the Binary Interface ..................... 19
15 Serial Connector Pinout ............................... 20
16 USB Connector Pinout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
17 MicroSD Card Insertion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
18 Resetting the Router ................................. 25
19 Router’s Web Interface ................................ 27
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List of Tables
1 Hardware Overview of the Router .......................... 4
2 Order Codes Overview ................................ 5
3 HW Revisions History ................................ 5
4 Contents of Package ................................. 6
5 Ethernet Connector Pinout Description of RJ45 Socket . . . . . . . . . . . . . . 13
6 PoE PSE Parameters ................................ 15
7 Tested SFP Modules ................................. 16
8 Power connector pinout ............................... 17
9 Connection of I/O Ports ............................... 19
10 Connection of RS232 ................................ 20
11 Connection of CAN Bus ............................... 20
12 Connection of RS485 ................................ 20
13 USB Connector Pinout ................................ 21
14 Technical Specifications of MicroSD Card ..................... 22
15 LED Status Indication ................................ 24
16 Basic Parameters ................................... 28
17 Standards and Regulations ............................. 29
18 Type Tests and Environmental Conditions ..................... 30
19 Technical Parameters of WiFi ............................ 31
20 Electrical Characteristics of Binary Inputs ..................... 32
21 Parameters of Serial Interfaces ........................... 32
22 System Configuration ................................ 33
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1. Product Overview
1.1 Product Introduction
The ICR-4401 is a &LAN Router Powerful Edge Computing Gateway focused on the
global market.
This router is an ideal solution for demanding IoT applications such as industrial routers
and gateways, digital signage, industrial computers, and tablets, etc.
The router, assembled in a robust metal box, is equipped with five ,1Gb Ethernet ports
one together with interfaces of , , , two andSFP cage RS232 RS485 CAN bus binary inputs
two . A can be inserted under this cover as well. The desig-binary outputs microSD card
nated router models can be equipped with a with antennas.WiFi module 3x3 MIMO
Configuration of the router may be done via a password-protected Web interface. Web
interface provides detailed statistics about the router’s activities, signal strength, detailed sys-
tem log etc. The router supports VPN tunnels using (), , , orIPSec OpenVPN GRE L2TP PPTP
to make sure safe communication. , ,IPv6 Dual Stack DHCP NAT NAT-T DynDNS DNS, , ,
proxy VLAN QoS NTP VRRP, , , , , port forwarding, primary connection backup and many other
functions are supported.
The router supports the and , which monitors theLow Power Mode hardware watchdog
router status and performs an automatic restart if required.
The user may insert which are started on various actions. It is possible toLinux scripts
create up to four different configurations for the same router. These configurations can be
switched when necessary via Web interface or binary input status.
The router can automatically upgrade its configuration and firmware from your central
server. WebAccess/DMP WebAccess/VPNand remote device management platforms are
supported as well.
Examples of possible applications
mobile office
security system
remote monitoring
vending and dispatcher machines
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1.2 Hardware Overview
The router case preview is shown in Figure . A short description of hardware parts of the
1
router is listed in Table , including the links to the chapters with a detailed description.1
Figure 1: Hardware Overview of the Router
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# Item/Caption Type Description
1 LEDs Status LED indication; see Chapter .2.11
2 RST Button to reboot the router or to restore the default
configuration; see Chapter .
2.12
3 PWR 2-pin
terminal
Power supply socket; see Chapter .2.5
4 ETH2 SFP cage SFP cage socket for modules with speed up to 10 Gbps;
see Chapter .
2.4
5 ETH1 RJ45 1 Gb Ethernet connection for the second LAN; see Chap-
ter .
2.2
6 ETH0 RJ45 1 Gb Ethernet switched connection (with four ports) for the
first LAN; see Chapter .
2.2
7 USB USB-A USB 2.0 host port; see Chapter .2.9
8 SERIAL & I/O 14-pin
terminal
RS232, RS485, CAN bus, binary input, and binary output
interfaces. See Chapter for more information, Chap-
2.7
ter for I/O parameters, and Chapter for serial inter-4.5 4.6
face parameters.
9 WIFI1 R-SMA Connectors for the WiFi antennas. See Chapter for
2.1
more information and Chapter for WiFi parameters.4.4
10 Grounding
screw
M3 Pay attention to proper grounding; see Chapter .2.5
11 microSD slot microSD MicroSD card slot; see Chapter .2.10
12 Wall clips Wall mounting clips, included as standard accessories;
see Chapter .
1.8
Table 1: Hardware Overview of the Router
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1.3 Order Codes
Order codes overview is shown in the table below.
Order code Configuration
ICR-4401 Gb ETH SWITCH SFP cage, USB, microSD card slot, RS232, RS485, CAN
bus, two binary inputs, two binary outputs
ICR-4401 Gb ETH SWITCH SFP cage, , USB, microSD card slot, RS232,S PoE PSE
RS485, CAN bus, two binary inputs, two binary outputs
ICR-4401 Gb ETH SWITCH SFP cage, , USB, microSD card slot,W Dual-Band WiFi
RS232, RS485, CAN bus, two binary inputs, two binary outputs
ICR-4401 Gb ETH SWITCH SFP cage, , , USB, microSDWS PoE PSE Dual-Band WiFi
card slot, RS232, RS485, CAN bus, two binary inputs, two binary outputs
ICR-4401W11Gb ETH SWITCH SFP cage, , USB, microSD card slot,Dual-Band WiFi
RS232, RS485, CAN bus, two binary inputs, two binary outputs
ICR-4401W1S1Gb ETH SWITCH SFP cage, , , USB, microSDPoE PSE Dual-Band WiFi
card slot, RS232, RS485, CAN bus, two binary inputs, two binary outputs
Table 2: Order Codes Overview
1.4 Product Revisions
For the product revision history, see the table below. The revision number is printed on the
packaging and product labels.
The router GUI can also display the product revision under Status -> General -> System
Information -> Product Revision. Please note that the default revision (Rev.1.0) is unavailable
here.
Rev.# Description
1.0 Initial version (revision not printed on the labels).
2.0 New design of the mainboard and PoE board; see for details.PCN-2023-03
Table 3: HW Revisions History
1This product has no E8 certification and has a limited operating temperature range of -40
C to +60 C.
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1.5 Package Contents
The standard set of router includes items listed in the following table:
Item# Description Figure Q’ty
1 Router 1 pcs
2Wing for wall mounting
(screwed on the router) 2 pcs
32-pin terminal block for power supply
(deployed on the router) 1 pcs
4
14-pin terminal block for RS232,
RS485, CAN BUS, and I/O
(deployed on the router)
1 pcs
5 Printed 1 pcsQuick Start Guide Leaflet
Table 4: Contents of Package
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1.6 Product Dimensions
For the dimensions of the router see the figures below. Note that all sizes are measured in
millimeters.
Variant with Wall Mounting Clip
Figure 2: Router Dimensions – Front, Top and Right view with Wall Mounting holder
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Variant with DIN Rail Clip
Figure 3: Router Dimensions – Front, Top and Right view with DIN holder
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1.7 Mounting Recommendations
The router can be placed:
on a flat surface,
on a wall using the wall mounting clip (see Chapter ),
1.8
on a DIN rail EN 60715 with the metal DIN rail clip (see Chapter )1.9
For most applications with a built-in router within a switchboard, it is possible to recognize
two kinds of environments:
A non-public, industry environment of low voltage with high interference,
a public environment of low voltage and without high interference.
For both of these environments, it is possible to mount the router to a switchboard, af-
ter which there is no need to have examination immunity or issues in connection with EMC
according to EN 61439-1:2011.
In compliance with the EN 61439-1:2011 specification, it is necessary to observe the
following assembly instructions for a router attached to a switchboard:
For whip antennas it is recommended to observe a minimum distance of 6 cm from ca-
bles and metal surfaces on every side in order to avoid interference. When using an
external antenna separate from the switchboard it is necessary to fit a lightning conduc-
tor.
When mounting a router on sheet-steel we recommend using a cable antenna.
For all cables, we recommend to bind the bunch, and for this we recommend:
The length of the bunch (the combination of power supply and data cables) should
be a maximum 1.5 m. If the length of data cables exceeds 1.5 m or if the cable is
leading towards the switchboard, we recommend installing surge protectors.
Data cables must not be binded together with mains voltage cables
∼ ∼230 V/50 Hz or 120 V/60 Hz.
Sufficient space must be left between each connector for the handling of cables,
To ensure the correct functioning of the router we recommend the use of an earth-
bonding distribution frame for the grounding of the grounding screw, see Chapter .
2.5
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1.8 Wall Mounting
The wall mounting clip is supplied with the router as standard accessories.
The router can be screwed to a wall (or another surface) using the wall mounting clips. Two
wall mounting clips are assembled to the router during the production and need to be roteted
as shown of Figure .
4
There are two wholes on the clip with a diameter of 5 millimeters. For detailed information
about the mounting dimensions see Figure in Chapter .2 1.6
When mounting the wall mounting clip, tighten the screws with max. torque of 0.4 Nm.
Figure 4: Rotated Wall Mounting Clips
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1.9 DIN Rail Mounting
The DIN rail clips are not supplied with the router as standard accessories, but they can be
ordered by the order code (two pieces for one router).BB-DIN-ICR32
Two DIN rail clips can be assembled to the router and used to mount it to the DIN rail which
meets the 60715 standards. The default position of the clips is shown in Figure . If needed,
5
the clips can be rotated vertically as well.
When mounting the clips, tighten the screws with max. torque of 0.4 Nm.
Figure 5: Default Position of the DIN Rail Clips
To remove the router from the DIN rail, it is necessary to lightly push down the router so
that the bottom part of the DIN rail clip hitched to the DIN rail get out of this rail and then fold
out the bottom part of the router away from the DIN rail as shown in Figure .
6
Figure 6: Removing Router from the DIN Rail
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1.10 Product Label
An example of the product label, with all the information printed on it, is in the figure below.
Figure 7: Label Example
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2. Hardware Functionality
See Chapter for the product hardware overwiew. Table lists a short description of the
1.2 1
hardware, including the links to the chapters with a detailed description.
2.1 Antennas Interfaces
Three R-SMA connectors are available for the connection of the WiFi antennas.WIFI1
Recommended tightening moment for screwing the antenna to the SMA connector is 0.9 Nm.
2.2 Ethernet Interfaces
The RJ45 panel socket is used for four ETH0 (switched) and one ETH1 Ethernet interfaces.
The pinout of the socket is shown in Figure and described in Table .
10 5
Figure 8: Ethernet Connector Pinout of RJ45 Socket
Pin 10base-T & 100base-T 1000base-T PoE PSE (Mode B)
1 Tx+ (Transmit Data+) BI_DA+ (BiDirectional pair A+)
2 Tx- (Transmit Data-) BI_DA- (BiDirectional pair A-)
3 Rx+ (Receive Data+) BI_DB+ (BiDirectional pair B+)
4 BI_DC+ (BiDirectional pair C+) PoE PSE+ (positive pole)
5 BI_DC- (BiDirectional pair C-) PoE PSE+ (positive pole)
6 Rx- (Receive Data-) BI_DB- (BiDirectional pair B-)
7 BI_DD+ (BiDirectional pair D+) PoE PSE- (negative pole)
8 BI_DD- (BiDirectional pair D-) PoE PSE- (negative pole)
Table 5: Ethernet Connector Pinout Description of RJ45 Socket
All four ETH0 ports can be used for if the router is equipped with this feature. ForPoE PSE
more information about the PoE, see Chapter ; for technical parameters, see Chapter .
2.3 4.7
The isolation barrier of the Ethernet ports against the ground is 1500 V.
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2.3 Power over Ethernet (PoE) PSE
Available only for models with PoE PSE feature; see Chapter for the order codes.
1.3
The IEEE 802.3af/PoE (Type 1) and IEEE 802.3at/PoE+ (Type 2) standards are supported.
The device is Mode B compliant.
You can use the command to control the PoE functionality; see the Commands and Scripts
application note.
The router power supply must be 48 V DC to work as the PoE PSE device.
The PoE PSE feature allows the router to power other devices over the Ethernet socket;
see the functional scheme in Figure .
9
Figure 9: PoE PSE Funcional Scheme
The PoE PSE is supported by all four ETH0 network sockets and can be enabled sepa-
rately in the configuration pages; see the router configuration manual , ChapterEthernet [1]
Configuration -> Ethernet Configuration, for details. For the Ethernet socket pinout, see Chap-
ter .
2.2
For a current PoE state, see the status page in the GUI. When enabled and anGeneral
external device is powered, you can find current, voltage, power, and power class information
here.
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The following table summarizes the PoE parameters.
PoE PSE parameters
Required power supply parameters 48 V / up to 135 W
Power available to a PoE device 12.95 W / per port
Required power supply wattage
for a PoE device
15.40 W / per port
Power available to a PoE(+) device 25.50 W / per port
Required power supply wattage
for a PoE(+) device
30.0 W / per port
Table 6: PoE PSE Parameters
PoE Power Budget Examples
Example #1
This example is for the Advantech power supply, which can supplyRPS-ICR4-WR2-PSE
a power of . We will use 15 W as the maximum router power consumption; see Chap-65 W
ter . You can use this power supply to power:
4.1
up to three PoE devices (3 15.4 W + 15 W = 61.2 W < 65 W),×
just one PoE+ device (1 30 W + 15 W = 45 W < 65 W).×
Example #2
To power four PoE+ devices, you should power the router with a minimum power supply of
135 W; see the following calculation:
required power supply wattage = 4 30 W + 15 W = 135 W.×
Use a power supply with enough power to cover the required power consumption of all
connected PoE devices, including the router itself. We recommend using a power supply
with some power reserve.
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2.4 SFP Cage
A hot-pluggable (SFP) network interface module with a speed of up to 10 Gbps can be
settled into the ETH2 SFP cage.
Installing an SFP Module
To install a SFP module, see Figure and follow these steps:
10
You should use the bale clasp if the SFP module is equipped with it. If so, close the
clasp before inserting the SFP module.
Hold the SFP module with the hardware label facing up.
Insert the SFP module into the ETH2 slot and gently push on it until it snaps into the slot
tightly.
Figure 10: SFP Module Installation
See Table for a list of successfully tested SFP modules on the product.
7
Model Manufacturer
SFP-GSM-20K Advantech
ML-S+31Dout-10 MaxLink
S-3553LC20D MikroTik
SFP-PLUS-LR10-HPE Hewlett Packard
SFP-TXCIS OEM
TXM431-LR(UN) TP-Link
UF-RJ45-1G Ubiquiti
Table 7: Tested SFP Modules
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2.5 Power Supply
Two pin terminal connector with 3.5 mm pitch is used to power the router. Corresponding
connector is supplied with the router as a standard accessories.
Pin Signal mark Description
1 VCC(+) Positive pole of DC supply voltage (+9 to +48 V DC)
2 GND(-) Negative pole of DC supply voltage
Table 8: Power connector pinout
Figure 11: Power Connector Pinout
Required power supply voltage for the router is between +9 V and +48 V DC, see the
connection scheme on Figure . Protection against reversed polarity without signaling is
11
built into the router. For correct operation it is necessary that the power source is able to
supply power of 18 W (non-PoE version).
If the router is grounded, using the grounding screw, there is no protection against the
reversed polarity. The negative pole of the DC power supply must be at the same voltage
reference as the grounding screw. If not, a voltage difference between these two points
might damage the router, and only an authorized service center can fix it.
The power voltage for the PoE router version must be 48 V DC to work as the PoE PSE
device.
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All metal parts, including the box, are connected together with the negative pole of the
power supply (common pole). If recommended for the installation environment, protect the
router by grounding it properly by the grounding screw, see Figure .
12
Figure 12: Position of the Grounding Screw
2.6 Low Power Mode
In applications requiring low power consumption (such as solar power - not 7/24 mode)
is strictly recommended to use LPM mode prior to powering down the entire router.
LPM (Low Power Mode) is a router mode where the router is in sleep mode with minimal
power consumption; see Chapter for the LPM consumption. The router can be woken up
4.1
from this mode by a signal applied to the BIN1 input or after a predetermined period of time.
Putting the router into LPM mode can be done using the command, see Commands and
Scripts application note for more details.
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2.7 I/O Port Interfaces
The I/O user interface is designed for binary input processing and binary output control.
The pinout of the I/O interface is described in Figure and Table . For detailed electrical
13 9
parameters see Chapter . The functional scheme of connection for the binary input and4.5
binary output is in Figure .14
Figure 13: I/O Connector Pinout
Pin Signal mark Description
11 BIN0 The first binary input
12 BOUT0 The first binary output
13 BIN1 The second binary input
14 BOUT1 The second binary output
Table 9: Connection of I/O Ports
Figure 14: Functional Scheme of the Binary Interface
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2.8 Serial Interfaces
The RS232, RS485 CAN serial interfaces together with the two I/O interfaces are physically
connected to the 14-pin terminal block panel socket. All these interfaces are not isolated from
the router. The pinout of this connector is described in Figure and the tables below.
15
Figure 15: Serial Connector Pinout
Pin Signal mark Description
1 RXD Received Data
2 CTS Clear to Send
3 GND Ground
4 RTS Request to Send
5 TXD Transmit Data
Table 10: Connection of RS232
Pin Signal mark Description
6 CAN_H CAN High
7 CAN_L CAN Low
Table 11: Connection of CAN Bus
Pin Signal mark Description
8 B (+) In/Out
9 A (-) In/Out
10 GND Ground
Table 12: Connection of RS485
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2.9 USB Port
There is one USB 2.0 host port with socket of USB-A type. USB Mass Storages and FTDI
serial converters are supported. For a piece of advice, how to fix an unsupported FTDI chip,
see the application note, chapter .
Commands and Scripts How to Use Unsupported FTDI Chip
The USB port is disabled on overload to prevent its damage (connected device is trying to get
too high current). The port is enabled again after the reboot of the router.
Mounting USB Flash Drive to the System
It is necessary to mount the USB flash drive to be able to access it in the system of the
router. Follow these steps to mount the drive:
Use the command to see the list of recently connected devices.dmesg
In the output of the command find out the entry for the microSD card, for example:
To mount the card to to directory, use the command:mnt mount
For more information about the commands for creating, mounting, checking and unmounting
a file system on a USB Flash Drive, see the application note for router app.
Ext4_tools
USB Socket Pinouts
USB socket pinouts is described in Figure and Table .
16 13
Figure 16: USB Connector Pinout
Pin Signal mark Description Data flow direction
1 +5 V Positive pole of 5 V DC supply voltage, 0.5 A
2 USB data - USB data signal – negative pole Input/Output
3 USB data + USB data signal – positive pole Input/Output
4 GND Negative pole of DC supply voltage
Table 13: USB Connector Pinout
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2.10 MicroSD Card Reader
The microSD card reader is located on the router’s rear panel under a metal cover. This
card reader allows the router to operate with microSD memory cards. The technical speci-
fications are stated in the table below. The microSD card changing procedure is described
below.
Technical specifications of microSD card
Supported technologies SD, SDHC, SDXC
Supported capacity SDHC
SDXC
up to 32 GB
from 32 GB to 512 GB
Supported microSD card filesystems vfat, ext2, ext3, ext4
Table 14: Technical Specifications of MicroSD Card
Inserting the microSD card:
To remove an inserted microSD card, use the flat end of a spudger, or your finger-
nail, press the card slightly into its slot until you hear a click, release the card and it
will pop out of its slot.
To insert a microSD card push card into the slot with correct orientation as shown
on the picture until it clicks into place.
Figure 17: MicroSD Card Insertion
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Mounting microSD Card to the System
It is necessary to mount the microSD card to be able to access it in the system of the
router. Follow these steps to mount the card:
Use the command to see the list of recently connected devices.dmesg
In the output of the command find out the entry for the microSD card, for example:
To mount the card to to directory, use the command:mnt mount
For more information about the commands for creating, mounting, checking and unmounting
a file system on a microSD card, see the application note for router app.
Ext4_tools
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2.11 LED Status Indication
There are status LEDs on the top side of the router to provide router status information.
Moreover, ETH0 and ETH1 connectors, located on the front panel, have two additional LEDs
providing information about the port status.
Caption Color State Description
PWR Green
Green
Green
On
Blinking
Fast blinking
The router is booting up.
The router booted up and is ready.
The router firmware is being updated.
USR Green The function of this LED is user-defined.
IN0 Green On The first binary input is active.
IN1 Green On The second binary input is active.
OUT0 Green On The first binary output is active.
OUT1 Green On The second binary output is active.
ETH0
ETH1
Green
Green
On
Off
Selected 1 Gbps bit rate.
Selected 100/10 Mbps bit rate.
ETH0
ETH1
Yellow
Yellow
Yellow
On
Blinking
Off
The network cable is connected.
Data transmission.
The network cable is not connected.
Table 15: LED Status Indication
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2.12 Reset Functions
Consider creating a router configuration backup before performing the router’s factory
reset.
The RST button can be used in three different scenarios:
: Hold theReset RST button for ; the router will reboot, applying itsless than 4 seconds
customized configuration. The router reset can be initiated by clicking the Reboot menu
item in the router web GUI.
Factory Reset: To restore the default factory configuration of the router, press and hold
the button for . After that, the LED turns off and onRST more than 4 seconds PWR
again. We recommend holding the button for 1 second after turning on the PWRRST
LED.
: If the router cannot boot up due to the incorrect configu-Emergency Factory Reset
ration, turn off the router (disconnect the power supply). Then, push and hold the RST
button, turn on the router and hold the RST button for . The routerat least 10 seconds
configuration will be set to the default one.
It is necessary to use a narrow screwdriver or any other small tool to press the RST button.
Figure 18: Resetting the Router
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3. First Use
3.1 Accessories Connection
Before putting the router into operation, it is necessary to connect all the components
required to run your applications; see Chapter for the hardware overview.
1.2
3.2 Router Configuration
Initial router configuration can be made via a web browser on your PC. Here you can
perform router monitoring, configuration, and administration.
Connect the power supply to the router, see Chapter , and the router will boot up.
2.5
Configure your PC to get the IP settings automatically from the network. Connect the network
card of your PC to the default router LAN interface, Ethernet port ETH0, and the DHCP server
will assign an IP address to your PC.
To get the router web interface, enter the address in a web browser.
Please note that usage of the HTTPS protocol for secure communication over the network is
required.
There is just the user account created on the router by default. See the product
label default passwordon the router for its 1. Log in to the web interface with the
user and his password. If logged in successfully, the user will have access to the router web
interface, see Figure . See the router configuration manual for a detailed description and
19 [1]
examples of the router configuration.
After logging on to the device for the first time, we strongly recommend changing the
default password due to security reasons.
For security reasons, we recommend regularly updating the router’s firmware to the latest
version. Downgrading the firmware to an older version than the production version or
uploading firmware intended for a different device may cause the device’s malfunction.
All routers have the client pre-installed by default. The activated clientWebAccess/DMP
periodically uploads router identifiers and configuration to the server.WebAccess/DMP
See the configuration manual , chapter
[1] Basic Information -> WebAccess/DMP Config-
uration, for more information.
1Use the password if the router’s label does not contain a unique password.
26
ICR-4401
Figure 19: Router’s Web Interface
A detailed description of the router settings in the web interface can be found in the configura-
tion manual of the router.[1]
27
ICR-4401
4. Technical Parameters
4.1 Basic Parameters
Parameter Description
Temperature range Operating
Storage
-40 C to +75 C (-40 F to +167 F)1
-40 C to +85 C (-40 F to +185 F)
Humidity Operating
Storage
5 to 95 % relative humidity non condensing
5 to 95 % relative humidity non condensing
Altitude Operating 2000 m / 70 kPa
Degree of protection IP30
Supply voltage 9 48 V DC
Battery for RTC CR1225
Consumption for
non-WiFi (WiFi)
version
Idle
Average
Maximum
LPM mode
5.4 W (7.3 W)
5.6 W (7.9 W)
11.6 W (15.1 W) / 142 W2
3 mW / 170 mW3
Dimensions of device (w/o wings) 195 110 47 mm (7.68" 4.33" 1.85")× × × ×
DIN rail clip specification 2 pcs of DIN 35 mm, EN 60715
Total weight 1250 g (2.76 lbs)
Antenna connectors WIFI1 R-SMA connectors for WiFi 50
Interfaces ETH0
ETH1
ETH2
USB
SERIAL & I/O
RJ-45 socket for 1Gb Ethernet SWITCH
RJ-45 socket for 1Gb Ethernet
SFP cage for up to 10 Gbps SFP modules
USB-A
14-pin panel socket terminal block for RS232,
RS485, CAN bus and I/O interfaces
Table 16: Basic Parameters
1Models having ICR-4401 x order codes have an operating temperature range of -40W1 C to +60 C.
2Maximal power consumption for model with the PoE PSE (for maximal power load on all ETH0 ports).
3For device equipped with the PoE PSE.
28
ICR-4401
4.2 Standards and Regulations
Parameter Description
Radio EN 301 893, EN 300 328
EMC EN 301 489-1, EN 301 489-17, EN 61000-4-2, EN 61000-4-3,
EN 61000-4-4, EN 61000-4-5, EN 61000-4-6, EN 61000-6-2,
EN 55032
Safety EN 62368-1, IEEE 802.3
Mechanical EN 60068-2-27, EN 60068-2-64, EN 60529
Climatic EN 60068-2-2, EN 60068-2-1, EN 60068-2-14, EN 60068-2-30
Transportation E-Mark (E8), homologation number: 10R - 06 114591
National CE, UKCA compliant
Environmental REACH, RoHS3 and WEEE compliant
Table 17: Standards and Regulations
1Models having ICR-4401 x order codes have no E8 certification.W1
29
ICR-4401
4.3 Type Tests and Environmental Conditions
Phenomena Test Description Test levels
ESD EN 61000-4-2 Enclosure contact 6 kV (crit. A)±
RF field AM
modulated
EN 61000-4-3 Enclosure 20 V/m (crit. A)
(80 – 1000 MHz)
10 V/m (crit. A)
(1 – 6 GHz)
Fast transient EN 61000-4-4 Signal ports
Power ports
Ethernet ports
±1 kV (crit. A)
±2 kV (crit. A)
±1 kV (crit. A)
Surge EN 61000-4-5 Ethernet ports
Power ports
±1 kV (crit. A), shielded cab.
±1 kV (crit. A)
RF conducted EN 61000-4-6 All ports 10 V/m (crit. A)
(0.15 – 80 MHz)
Radiated emission EN 55032 Enclosure Class B
Conducted
emission
EN 55032 Signal ports
Power ports
Ethernet ports
Class B
Class B
Class B
Dry heat EN 60068-2-2 Test Bb, storage +85 C, operation +75 C
Cold EN 60068-2-1 Test Ab, storage -40 C, operation -40 C
Damp heat EN 60068-2-78 95 % rel. humidity (+40 C)
Dry heat, cyclic EN 60068-2-30 +55 C / +25 C, rel. humidity 95 %, 6 h - 6 h
Dry heat EN 60068-2-2 Test Bb, storage +85 C, operation +75 C
Thermal shock/
temp. variation
EN 60068-2-14 Test Nb, -40 C/+75 C, 3h/3h, 2 cycles, 3 K/min
Degrees of protec-
tion provided by
enclosures
EN 60529 IP30
Vibration, broad-
band random
EN 60068-2-64 Spectrum A.3 cat 1, breakpoints A.6 cat 1
Shock EN 60068-2-27 50 m/s2, 11 ms, half sine, 10 in each dir.
Table 18: Type Tests and Environmental Conditions
30
ICR-4401
4.4 Parameters of WiFi
Parameter Description
Short Module Description Dual Band 2.4/5GHz 3x3 WiFi 5 (802.11ac Wave 1)
Supported Standards IEEE: 802.11ac compliant & compatible with
802.11a/b/g/n
Antenna Connectors 3x3 MIMO R-SMA
Input impedance: 50
Data Rate
(3x3 MIMO OFDM)
Up to 600 Mbps @ 2.4 GHz
Up to 1300 Mbps @ 5 GHz
Frequency Ranges 2.412 – 2.472 GHz
4.920 – 5.825 GHz
Spectrum Widths 20/40MHz @ 2.4GHz
20/40/80MHz @ 5GHz
Modulation Techniques OFDM: BPSK, QPSK, DBPSK, DQPSK, 16-QAM, 64-
QAM, 256-QAM
2.4 GHz supported channels 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13
5 GHz supported channels 36, 38, 40, 42, 44, 46, 48, 52, 56, 60, 64, 100, 104, 108,
112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157,
161, 165
Type of device Access point (AP)
Station (STA)
Multi-role (AP & STA)
Key Features Spatial Multiplexing, Cyclic-Delay Diversity (CDD), Low-
Density Parity Check (LDPC) Codes, Maximal Ratio
Combining (MRC), Space Time Block Code (STBC), Dy-
namic Frequency Selection (DFS), IEEE 802.11d, e, h, i,
j, k, r, v time stamp, and w standards
Security – Standards WPA, WPA2, WPA3, 802.1X
Security – Encryption WEP, TKIP, AES
Security – EAP Types EAP–FAST, EAP–TLS, EAP–TTLS, PEAP–GTC,
PEAP–MSCHAPv2, PEAP–TLS, LEAP
TX Power (per chain) Max. 21 dBm @ 2.4 GHz
Max. 18 dBm @ 5 GHz
Table 19: Technical Parameters of WiFi
31
ICR-4401
4.5 Parameters of I/O Ports
Electrical characteristics of the binary inputs are in Table . Status of the binary input can
20
be retrieved in the router’s web interface (on the page) or by theGeneral Status
and commands, see application note.
Commands and Scripts
Logical1Voltage Current Status2
1 3 V 0.5 mA Off
0 5 V 0.8 mA On
0 12 V 1.6 mA On
0 48 V 3.4 mA On
Table 20: Electrical Characteristics of Binary Inputs
The maximum binary output load is at .500 mA 48 V
4.6 Parameters of Serial Interfaces
Supported parameters of the RS232 and RS485 interfaces, which can be configured in
Expansion Port 1 Expansion Port 2resp. menu items, are in Table .
21
Parameter Description
Baudrate 300, 600, 1200, 2400, 4800,
9600, 19200, 38400, 57600,
115200, 230400.
Data Bits 5, 6, 7, 8.
Parity none, even, odd.
Stop Bits 1, 2.
Flow Control none, hardware.
Table 21: Parameters of Serial Interfaces
1The binary status returned by the shell command.
2The binary status returned by the shell command and displayed on the page.General Status
32
ICR-4401
4.7 Parameters of PoE
For more information about the PoE PSE feature, including the parameters, see Chap-
ter .
2.3
4.8 System Configuration
The main parametes of the system are listed in Table .
22
Parameter Description
CPU architecture Quad-Core ARMv8-A (core Cortex-A72)
CPU frequency 1200 MHz
CPU power 4.72 DMIPS/MHz
Flash memory 4 MB of NOR
4 096 MB of eMMC
838 MB for Router Apps
512 MB for customer data
RAM size 1 024 MB
Watchdog HW watchdog
RTC Battery backup RTC
TPM Trusted Platform Module (TPM) 2.0
Table 22: System Configuration
33
ICR-4401
Appendix A: Troubleshooting
If you cannot connect to the router from your PC, your network card may be configured
in such a way that it is not possible to connect to the router. Take one or more of the
following steps in order to solve the problem:
Make sure your PC’s network card is configured to obtain the IP address form the
DHCP server (by default the DHCP server is running in the router).
Connect the router to the PC via Switch.
Connect the router to the PC, start the router first and then start the PC after the
router’s initialization.
Ethernet connection fails or is not establishing.
It is possible to turn auto negotiation off and set a rate and duplex manually on the
Ethernet interface of the router. Available on "LAN Configuration" page in the router.
I cannot connect from the Internet to the device behind the router. I have NAT
enabled.
The device’s gateway has to be configured so it points to the router.
I can’t access my Web server placed behind the router over NAT.
The remote HTTP access to the router has to be disabled on "NAT Configuration"
page in the router. Also enable "Send all remaining incoming packets to default
server" feature and fill in the IP address of your Web server. On the Web server,
the default gateway has to be the IP address of the router.
DynDNS doesn’t work.
If the same IP address is recorded in your canonic name as a dynamically assigned
address, it means that the provider is using NAT or a firewall.
You can verify NAT using ping to your server with static address and then compare
with router’s IP address.
You can verify a Firewall by accessing remotely to the router’s Web interface.
The operator may not provide the address of DNS server and without DNS server’s
address it is impossible to connect to the dyndns.org server. The following mes-
sages will be shown in the System Log:
DynDNS daemon started
Error resolving hostname: no such file or directory
Connect to DynDNS server failed
34
ICR-4401
L2TP or IPSec isn’t establishing.
Check the "System Log" page for error messages.
IPSec tunnel establishes but the communication does not run.
Probably there are bad routing rules defined in the connected devices, or the default
gateway.
Serial communication is not working.
Verify that the router model supports serial communications. Also verify the serial
communication settings. To do so, open the router’s configuration menu via the
web browser, select the appropriate "Expansion Port" from "Configuration" part of
the menu and verify the settings.
Is the router Cisco compatible? Can I use the Cisco configuration?
No, the Firmware in the router (Conel OS) is based on Linux with BusyBox. Thus
the Cisco configuration cannot be used. But network connections are defined by
standards so connecting the router to the Cisco or other networking devices is pos-
sible and will be compatible.
FTP or SFTP does not work
FTP will work on v2 routers only. You can use SFTP on all routers to transfer les
to/from the router. If having troubles with FTP on v2 routers, make sure you have
FTP enabled: "Configuration" section, "Services", "FTP". Then you can connect
with any client on port 21 with name and password same as for the Web interface.
If having troubles with SFTP, make sure you have SSH enabled: "Configuration"
section, "Services", "SSH". Then you can connect with any client on port 22 with
name and password same as for the Web interface.
How can I connect to the router’s command line? (SSH, Telnet)
You can use SSH on all routers or Telnet on v2 routers only. SSH is enabled by
default, but you can verify in Web interface in "Configuration" section, "Services",
"SSH". Then connect with any SSH client on port 22 of the router. User and pass-
word is the same as for the Web interface. Telnet on v2 routers can be enabled
here: "Configuration" section, "Services", "Telnet".
35
ICR-4401
Appendix B: Customer Support
Customer Support for Europe
Advantech Czech s.r.o.
Sokolska 71
562 04, Usti nad Orlici
Czech Republic
Phone: +353 91 792444
Fax: +353 91 792445
E-mail: iiotcustomerservice@advantech.eu
Web: www.advantech.com
Customer Support for NAM
Advantech B+B SmartWorx
707 Dayton Road
Ottawa, IL 61350 USA
Phone: +1-800-346-3119 (Monday – Friday, 7 a.m. to 5:30 p.m. CST)
Fax: +1-815-433-5109
E-mail: support@advantech-bb.com
Web: www.advantech-bb.com
Customer Support for Asia
Phone: +886-2-2792-7818 #1299 (Monday – Friday, 9 a.m. to 5:30 p.m. UTC+8)
Fax: +886-2-2794-7327
E-mail: icg.support@advantech.com.tw
Web: www.advantech.com
36
ICR-4401
Appendix C: Regulatory & Safety Information
Safety Notices
Please, observe the following instructions:
The router must be used in compliance with all applicable international and national laws
and in compliance with any special restrictions regulating the utilization of the router in
prescribed applications and environments.
To prevent possible injury and damage to appliances and to ensure compliance with
all relevant provisions, use only the original accessories. Unauthorized modifications or
the use of unapproved accessories may result in damage to the router and / or a breach
of applicable regulations. Unauthorized modifications or use of unapproved accessories
may void the warranty.
The router can not be opened.
This equipment is not suitable for use in locations where children are likely toCaution!
be present.
Power supply must not exceed 48 V DC max.
Do not expose the router to extreme ambient conditions. Protect the router against dust,
moisture and high temperature.
Only routers with appropriate certification and labelling should be used in locations where
flammable and explosive materials are present, including gas stations, chemical plants,
or locations in which explosives are used. We remind users of the duty to observe the
restrictions concerning the utilization of radio devices at such places.
Switch off the router when travelling by plane. Utilization of the router on a plane may
endanger the operation of the plane or interfere with the mobile telephone network, and
may be unlawful. Failure to observe these instructions may result in the suspension or
cancellation of telephone services for the respective client and / or may result in legal
sanctions.
When using the router in close proximity to personal medical devices, such as cardiac
pacemakers or hearing aids, you must proceed with heightened caution.
The router may cause interference when used in close proximity to TV sets, radio re-
ceivers or personal computers.
It is recommended that you create an appropriate copy or backup of all important settings
that are stored in the memory of the device.
37
ICR-4401
Product Disposal Instructions
The WEEE (Waste Electrical and Electronic Equipment: 2012/19/EU) directive was in-
troduced to ensure that electrical/electronic products are recycled using the best available
recovery techniques to minimize the environmental impact. This product contains high quality
materials and components which can be recycled. At the end of it’s life this pro- duct MUST
NOT be mixed with other commercial waste for disposal. The device contains a battery. Re-
move the battery from the device before disposal. The battery in the device needs to be
disposed of apart accordingly. Check the terms and conditions of your supplier for disposal
information.
38
ICR-4401
Appendix D: Related Documents
[1] Configuration Manual for v4 Platform
[EP] Product-related documents and applications can be obtained on atEngineering Portal
address.
39
ICR-4401
We, Advantech Czech s.r.o., declare that the radio equipment nar-
rated in this user’s manual complies with Directive (WiFi2014/53/EU
version) and with the essential requirements and other relevant pro-
visions of Directives and (non-WiFi ver-2014/30/EU 2014/35/EU
sion).
We, Advantech Czech s.r.o., declare that the radio equipment narrated in this user’s
manual complies with Radio Equipment Regulations 2017 ( ) andS.I. 2017 No. 1206
with the Electromagnetic Compatibility Regulations 2016 ( andS.I. 2016 No. 1091
S.I. 2016 No. 1101).
The full text of the EU Declaration of Conformity is available at the following internet address:
icr.advantech.cz/eudoc


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Mærke: Advantech
Kategori: Router
Model: ICR-4401

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