Ibex-RT-630-5G Series EN 50155 5G and WLAN Router User Manual
- June 17, 2024
- IBEX
Table of Contents
Ibex-RT-630-5G Series
EN 50155 5G and WLAN Router
RT-630-5G Series EN 50155 5G and WLAN Router
User Manual
Ibex-RT-630-5G Series EN 50155 5G and WLAN Router
General Information
1.1. Legal Information
The contents of this document are provided “as is”. Except as required by
applicable law, no warranties of any kind are made in relation to the accuracy
and reliability or contents of this document, either expressed or implied,
including but not limited to the implied warranties of merchantability and
fitness for a particular purpose. Westermo reserves the right to revise this
document or withdraw it at any time without prior notice. Under no
circumstances shall Westermo be responsible for any loss of data or income or
any special, incidental, and consequential or indirect damages howsoever
caused. More information about Westermo can be found at
www.westermo.com.
1.2. About This Guide
This guide is intended for installation engineers and users of the Westermo
products. It includes information on safety and regulations, a product
description, installation instructions and technical specifications.
1.3. Software Tools
Related software tools are available at
https://www.westermo.com/support/productsupport.
1.4. License and Copyright for Included FLOSS
This product includes software developed by third parties, including
Free/Libre Open Source Software (FLOSS). The specific license terms and
copyright associated with the software are included in each software package
respectively. Please visit the product web page for more information.
Upon request, the applicable source code will be provided. A nominal fee may
be charged to cover shipping and media. Please direct any source code request
to your normal sales or support channel.
Safety and Regulations
2.1. Warning Levels
Warning signs are provided to prevent personal injuries and/or damages to the
product.
The following levels are used:
Level of warning| Description| Consequence personal injury|
Consequence material damage
---|---|---|---
WARNING| Indicates a potentially hazardous situation| Possible death or
major injury| Major damage to the product
CAUTION| Indicates a potentially hazardous situation| Minor or moderate
injury| Moderate damage to the product
NOTICE| Provides information in order to avoid misuse of the product,
confusion or misunderstanding| No personal injury| Minor damage to the product
NOTE| Used for highlighting general, but important information| No personal
injury| Minor damage to the product
Table 1. Warning levels
2.2. Safety Information Before installation:
Read this manual completely and gather all information available on the
product. Make sure it is fully understood. Check that your application does
not exceed the safe operating specifications for the product.
SAFETY DURING INSTALLATION
The product must be installed and operated by qualified service personnel and
installed into an apparatus cabinet or similar, where access is restricted to
service personnel only. For Ibex products, outdoor installation is allowed.
Before energising and connecting communication cables to the product, ensure a
protective earthing conductor is first connected to the protective earthing
terminal (only valid for metallic housings). Westermo recommends a cross-
sectional area of at least 4 mm 2 . Upon removal of the product, disconnect
the product from the power supply and all other communication ports before
disconnecting the protective earthing conductor.
HAZARDOUS VOLTAGE
Do not open an energised product. Hazardous voltage may occur when connected
to a power supply.
PROTECTIVE FUSE
** The power supply wiring must be sufficiently fused.
It must be possible to disconnect manually from the power supply. Ensure
compliance to national installation regulations.
POWER SUPPLY CONNECTION
** There are safety regulations governing the power source that can be used
in conjunction with the product. Refer to chapter Interface Specifications.
RADIO PRODUCTS
** Observe the usage limitations of radio products at filling stations, in
chemical plants, in systems with explosives or potentially explosive
locations.
The product may not be used in airplanes. Exercise particular caution near
personal medical aids, such as pacemakers and hearing aids. Never perform work
on the antenna system during a thunderstorm.
To fulfill human safety, a minimum separation distance of 20 cm or more should
be maintained between the antenna of the product and personnel during
operation.
HOT SURFACE
Be aware that the surface of this product may become hot. When it is operated
at high temperatures, the external surface may exceed Touch Temperature Limit
according to the product’s relevant electrical safety standard.
This product complies with Touch Temperature Limits throughout its operational
temperature range.
CORROSIVE GASES
If the product is placed in a corrosive environment, it is important that all
unused connector sockets are protected with a suitable plug, in order to avoid
corrosion attacks on the gold plated connector pins.
CABLE TEMPERATURE RATING FOR FIELD TERMINAL WIRES**
There may be a requirement on the minimum temperature rating of the cable to
be connected to the field wiring terminals, see chapter Interface
Specifications.
2.3. Care Recommendations
Follow the care recommendations below to maintain full operation of the
product and to fulfill the warranty obligations:
- Do not drop, knock or shake the product. Rough handling above the specification may cause damage to internal circuit boards.
- Use a dry or slightly water-damp cloth to clean the product. Do not use harsh chemicals, cleaning solvents or strong detergents.
- Do not paint the product. Paint can clog the product and prevent proper operation.
If the product is used in a manner not according to specification, the
protection provided by the equipment may be impaired.
If the product is not working properly, contact the place of purchase, the
nearest Westermo distributor office or Westermo technical support.
**NOTE
Devices not used shall be kept in the factory sealed moisture barrier bag.
Open, unsealed devices should not be kept unpowered for more than 30 days.
2.4. Product Disposal
This symbol means that the product shall not be treated as unsorted municipal
waste when disposing of it. It needs to be handed over to an applicable
collection point for recycling electrical and electronic equipment.
By ensuring the product is disposed of correctly, you will help to reduce
hazardous substances and prevent potential negative consequences to both the
environment and human health, which could be caused by inappropriate disposal.
**Figure 1. WEEE symbol for treatment of product disposal
2.5. Compliance Information
REGULATORY NOTICE
Any changes or modifications shall be approved by the party responsible for
compliance. If not, users could void the user’s authority to operate the
equipment. Country code and antenna gain need to be set properly for correct
functionality in the installed country.
2.5.1. Agency Approvals and Standards Compliance
Approvals and Standards
Climate| • EN 50155, class OT4 Railway applications – Electronic
equipment used on rolling stock
EMC| • EN 50155, Railway applications – Electronic equipment used on
rolling stock
• EBA EMV 06, German Federal Railway Authority, Radio compatibility of rail
vehicles
• EN 50121-3-2, Railway applications – Electromagnetic compatibility, Part
3-2: Rolling stock – Apparatus
• ETSI EN 301 489-1, Electromagnetic compatibility (EMC) and Radio spectrum
Matters (ERM) for radio equipment and services – Part 1: Common technical
requirements
• ETSI EN 301 489-17, Electromagnetic compatibility (EMC) and Radio spectrum
Matters (ERM) for radio equipment – Part 17: Specific conditions for Broadband
Data Transmission Systems
• ETSI EN 301 489-19, Electromagnetic Compatibility (EMC) standard for radio
equipment and services – Part 19: Specific conditions for Receive Only Mobile
Earth Stations (ROMES) operating in the 1,5 GHz band
• ETSI EN 301 489-24, Electromagnetic compatibility (EMC) and Radio spectrum
Matters (ERM) for radio equipment and services – Part 24: Specific conditions
for IMT-2000 CDMA Direct Spread (UTRA) for Mobile and portable (UE) radio and
ancillary equipment
• ETSI EN 301 489-52, Electromagnetic Compatibility (EMC) standard for radio
equipment and services – Part 52: Specific conditions for Cellular
Communication Mobile and portable (UE) radio and ancillary equipment
Mechanical
(Shock and vibration)
| • EN 61373 category 1, class A and B
• EN 60068-2-27, 100 m/s2, 30 ms
• MIL STD 810G Method 516.7, 10 g, 11 ms
Insulation (Coordination and test)| • EN 50124-1, Railway
applications – Insulation coordination
• EN 50155, Railway applications – Electronic equipment used on rolling stock
Radio communication| • ETSI EN 300 328, Wideband transmission systems;
Data transmission equipment operating in the 2.4 GHz ISM band and using wide
band modulation techniques
• ETSI EN 301 893, 5 GHz RLAN
• ETSI EN 300 440, Short Range Devices (SRD)
• ETSI EN 301 908-1, IMT cellular networks, Part 1: Introduction and common
requirements
• ETSI EN 301 908-13, IMT cellular networks, Part 13: Evolved Universal
Terrestrial Radio Access (E-UTRA)
• 3GPP LTE Advanced standard
• 3GPP Release 16 – 5G NSA/SA
• IEEE802.11, Wireless LAN Medium Access Control (MAC) and Physical Layer
(PHY) Specifications
Safety| • IEC EN 61010-1, Safety Requirements for electrical equipment
for measurement, control, and laboratory use
• EN 45545-2, Fire protection on railway vehicles
2.5.2. Simplified Declaration of Conformity
Hereby, Westermo declares that this product is in compliance with applicable
EU directives and UK legislations. The full declaration of conformity and
other detailed information is available at www.westermo.com/support/product-
support.
Figure 2. The European Conformity and the UK Conformity Assessment markings
Product Description
3.1. Product Description
The Ibex-RT-630-5G a mobile 5G router for onboard usage in trains, trams,
locomotives, mining vehicle and bus applications. The router offers
outstanding performance and rugged internet connectivity back-up to enable
hybrid train-to-ground installations with a single device. It makes full use
of the 5G cellular networks and 2.4 and 5 GHz WLAN bands.
The device utilizes a high performance GNSS receiver with concurrent reception
of up to 4 GNSS signals from GPS, Galileo, GLONASS or BeiDou systems.
The Westermo configuration management tool, WeConfig, can be used for
discovery and basic configuration and maintenance. The configuration can be
done via SNMP or via WebGUI. The status information is available in local LED
status indicators, and through SNMP/WebGUI.
The Mobile Communication Gateway (MCG) router is designed to withstand the
tough onboard environmental conditions and can be remotely managed using web
browser or SNMP management tools. The MCG provides advanced firewall
functionalities and highperformance VPN connectivity.
Integrating hardware, software and network design support tools, this router
platform offers advanced capabilities, the lowest total cost of ownership and
will create the most reliable and resilient networks.
The is engineered to maintain uninterrupted data communication, even in
exceptionally harsh environments. Tested and certified to withstand extreme
temperatures, vibrations and shocks, these routers only use industrial grade
components which contributes towards a market leading mean time between
failure (MTBF), maximized service life, and reduced operational and life cycle
costs.
3.2. Available models
Art. no.| Model| Region| PoE Port| Rated
current
---|---|---|---|---
3629-06301| Ibex-RT-630-5G-LV EU| Europe| X2| 24 VDC
Table 2. List of available models
3.3. Hardware Overview
3.3.1. Frontside Overview
No.| Description| |
---|---|---|---
1 & 2| Gigabit Ethernet ports X1 and X2| 3| SIM card slot
4| Protective earth terminal| 5| Power input DC
6| Frontside label| 7| Warning symbol for surface temperatures above +60°C
8| Antenna ports A1 – A7| 9| LED indicators
Table 3. Location of interface ports and LED indicators
3.3.2. Front Side Label
No. | Description | Remarks |
---|---|---|
1 | Article number | Example of article number |
2 | Serial number | Example of serial number |
3 | Manufacturing date | The Date Format is: YYWW YY = Manufacturing Year WW = |
Manufacturing Week
4| QR code| The data matrix is: AAAAAAAAARR-1-VV-SSSSSSSS-YYWW AAAAAAAAA =
Article number
RR = Region code
VV = Product revision SSSSSSSS = Serial number YY = Manufacturing Year WW =
Manufacturing Week
Table 4. Front side label
3.3.3. Interface Ports View
No. | Description | No. | Description |
---|---|---|---|
1 | Antennas | 2 | SIM |
3 | 1000Base-T | 4 | Grounding point |
5 | Power |
Table 5. Interface ports view
3.4. Connector Information
3.4.1. Power Input Connection
Marking| Position| Direction| Description|
---|---|---|---|---
DC| 1| +DC| Positive terminal|
2| –|
3| -DC| Negative terminal
4| –|
Housing| Shield| Chassis of product (ground)
Table 6. M12 A-coded 4-pin male power connector according to IEC 61076-2-101
NOTE
If the product is powered by PoE, the protective dust cap which is part of the
delivery must be closed to protect the power interface from water or dust
ingress.
3.4.2. SIM Card Slot
To remove the SIM card drawer, untighten the two knurled screws until they are
loose and not anymore connected to the unit frame. Carefully move the drawer
out of the frame.
Place the SIM cards into the sockets in slot 1 and/or slot 2 with the contacts
facing down.
Let chamfered corners align according markings on the drawer.
Put the SIM card drawer back into the unit, ensuring that it fits into place
and tighten the knurled screws on both sides until the drawer is fully
inserted and plane with the unit frame.
NOTICE
To use the device in its specified temperature range it is important to use a
robust industrial SIM card with extended temperature range.
NOTICE
In order to guarantee proper IP against dust and water, please check carefully
that the drawer is fully inserted and screws are properly tightened.
NOTICE
Before removing and inserting the SIM drawer, ensure that power has been
turned off by removing the power connector from the unit.
NOTE
The sim cards must be fully inserted into the sockets until the mechanical
stop.
NOTE
The product supports two SIM cards with the restriction that only one SIM card
is active.
3.4.3. Ethernet Ports
Marking| Position| Direction| Description|
---|---|---|---|---
X1/X2| 1| In/Out| DA+| ****
2| In/Out| DA-
3| In/Out| DB+
4| In/Out| DB-
5| In/Out| DD+
6| In/Out| DD-
7| In/Out| DC-
8| In/Out| DC+
Housing| Shield| Chassis of product (ground)
Table 7. M12 X-coded 8-pin female Ethernet connector according to IEC 61076-2-109
Position | Device mode A | Device mode B |
---|---|---|
1 | +DC | |
2 | +DC | |
3 | -DC | |
4 | -DC | |
5 | -DC | |
6 | -DC | |
7 | +DC | |
8 | +DC |
Table 8. Ethernet PoE connection on X2
NOTE
If the Ethernet function is not used, the protective dust cap which is part of
the delivery must be closed to protect the interface from water or dust
ingress.
3.4.4. Antenna Ports
The antenna connectors are identified on the product with A1 to A7. QMA
industrial standard connector is used.
A1 to A4 are used for 5G communication. It is recommended to use all 4 antenna
ports.
A6 and A7 are used for WLAN communication. At least A6 must be connected to an
external WLAN antenna. The antenna configuration is made through the software
interface.
A5 is used for the included GNSS receiver. The antenna port must be connected
to an external GNSS antenna.
NOTICE
Any unused antenna ports must be properly terminated with 50 Ohm, otherwise
the product might be damaged when power is applied to a non-terminated antenna
port.
NOTE
To ensure specified IP protection, suitable QMA connectors/cables and
terminations must be used.
3.5. LED Indicators
LED | Description |
---|---|
DC | Power status |
OPR | Operation status |
ERR | Error status |
X1 | Ethernet status for X1 port |
X2 | Ethernet status for X2 port |
Table 9. LED indicators
NOTE
Refer to management guide for detailed LED status indication.
3.6. Dimensions
Dimensions are stated in mm and are regardless of variants.
Installation
4.1. Mounting
The product is fixed with the four fixing points located at the corners of the
product. M5 or M6 screws are used for the fixation of the product. The screws
are tightened with min. 3.0 Nm (fixing screw ISO 898/1, quality class 8.8).
NOTICE
All four specified fixing points must be used for fixing. The installation
surface should be flat to have all fixing points connected to the surface.
NOTE
For indoor installation, consider additional protection against dust to ensure
proper heat dissipation.
NOTE
For outdoor installation, consider additional protection against sun
radiation, dust and dirt to optimize ambient temperature range.
NOTE
Unused connectors must be covered by a protective cap (delivered with the
product), tightened to the specified torque in order to fulfill the specified
ingress protection code.
4.2. Factory Reset
To reset the product into factory default settings, a reset adapter is needed
which is plugged into one of the Ethernet ports X1 or X2 during startup.
Art. no. | Description |
---|---|
3623-0799 | Factory Reset Plug, X-coded |
Factory reset procedure
- Plug the factory reset adapter to one of the Ethernet interfaces.
- Power the product.
- Wait until factory reset adapter is detected. This is indicated by solid RED ON LED.
- Remove factory reset adapter within 15 seconds.
- Successful initiation of the factory reset is indicated by blinking RED ON LED.
4.3. Earth connection
For correct function, the earth connection at the grounding point needs to be
properly connected to a solid ground. An M5 grounding screw at the housing is
used for grounding. A short wire with a cross section of at least 4 mm2 shall
be used. The grounding wire is set below the rip-lock washer. The nut is
fixed for good reliable grounding contact. The tightening torque of the nut
shall be 2.0 Nm.
NOTICE
Do not use equipment without protective earth connection.
4.4. Connection of Cables
Recommended tightening torque for the M12 connectors is 0.6 Nm. All M12
connections are screw connections.
When connecting the power cable, ensure that the pins are connected correctly
before tightening the power cable to the unit.
NOTE
This product has no replaceable fuse and should be connected via an external
fuse for protection.
4.5. Cooling
This product uses convection cooling. Make sure that it is installed so that
the ambient temperature is within the specified temperature range, e.g. by
avoiding obstruction of the airflow around the product.
It is recommended to install the product in areas where the natural convection
airflow is not blocked and that there is enough spacing around the
product.When operating the product at
high ambient temperatures, it is recommended to mount the product to a
metallic base plate to improve the heat dissipation. The base plate increases
the surface to spread the heat.
NOTICE
Limited air flow is rising the product temperature and may lower the upper
limit of the operating temperature range.
NOTICE
Temperature is dependent on the operational parameters, like RF output power,
amount of traffic.
NOTICE
This product has integrated temperature sensors for monitoring the internal
device temperatures. If temperature limits are exceeded, alarms are sent
through the SW interface.
NOTICE
The operating conditions shall be ensured so that the normal operation does
not cause temperature alarms. Improve installation conditions or RF parameters
in case of any temperature alarms.
4.6. Replacement of Product
The device cannot be repaired. In case of a malfunction, it must be replaced.
Disconnect all cables and unscrew the product from the wall. Mount the
replacement product and reconnect all cables, observing the instructions in
Connection of Cables.
MTTR (Mean Time To Repair), i.e. time for replacement of product is: < 10
minutes.
HOT SURFACE
Be aware that the surface of this product may become hot. When it is operated
at high temperatures, the external surface may exceed Touch Temperature Limit
according to the product’s relevant electrical safety standard.
This product complies with Touch Temperature Limits throughout its operational
temperature range.
Specifications
5.1. Interface Specifications
DC, Power port
Connector| M12 A-coded male
Rated voltage| 24 VDC
Operating voltage| 16.8 to 31.2 VDC
Rated current| 0.6 A
Rated frequency| DC
Inrush current| 44 mA2s at 24 VDC
Startup current| 2 x rated current
Polarity| Reverse polarity protected
Redundant power input| No
Conductor cross section (flexible)| > 0.5 mm² (AWG 20)
Cable temperature rating| -40 to +70°C
Shielded cable| Not required
PoE (on X2 only)
Connector| M12 X-coded female
Device mode| A and B
Rated voltage| 48 VDC
Operating voltage| 42.5 to 57 VDC
Power classification| Class 4
Ethernet TX
Connector| M12 X-coded female
Electrical specification| IEEE std 802.3
Data rate| 10 Mbit/s, 100 Mbit/s, 1000 Mbit/s, manual or auto
Duplex| Full or half, manual or auto
Transmission range| Up to 100 m with CAT5e cable or better
Cabling| Shielded cable CAT5e or better is recommended
Conductive chassis| Yes
NOTE
The product is to be connected to internal Ethernet networks without exiting a
facility and being subjected to TNVs.
NOTICE
To avoid damages on the Ethernet interfaces, ensure that the far end side of
the Ethernet cable shield itself is connected to protective earth.
SIM card
SIM type| Mini-SIM 2FF
Recommended temperature rating| Industrial grade
Antenna WLAN (A6 and A7)
Connector| QMA female
Direction| Transmit and receive
Cabling| 50 Ohm coaxial cable and WLAN antenna required
Conductive chassis| Yes
WLAN interface| High-power 2×2 MIMO 802.11n Access Point/Client
WLAN frequency bands| 2.400 to 2.4835 GHz, 5.150 to 5.350 GHz, 5.470 to
5.725 GHz, 5.725 to 5.850 GHz
Transmitting power| Max. conducted combined transmit power within the
whole frequency range:
1 port: BPSK…16QAM: 22 dBm, 64QAM: 20 dBm
2 ports: BPSK…16QAM: 25 dBm, 64QAM: 23 dBm
NOTICE
Depending on the installation country there are frequency/band restrictions
and output power limitations.
Antenna 5G (A1 to A4)
Connector| QMA
Direction| Transmit and receive
Cabling| 50 Ohm coaxial cable and 5G antenna required
Conductive chassis| Yes
Mobile interface| 4×4 MIMO 5G , sub 6GHz, LTE fallback DL Cat 19 / UL
Cat 18, UMTS WDMCA, 3GPP Release 16 NSA/SA operation
Mobile frequency bands| 5G NR SA:
n1/n2/n3/n5/n7/n8/n12/n13/n14/n18/n20/n25/n26/n28/n29/n30/n38/n40/n
41/n48/n66/n70/n71/n75/n76/n77/n78/n79
5G NR NSA:
n1/n2/n3/n5/n7/n8/n12/n13/n14/n18/n20/n25/n26/n28/n29/n30/n38/n40/n
41/n48/n66/n70/n71/n75/n76/n77/n78/n79
LTE-FDD:
B1/B2/B3/B4/B5/B7/B8/B12/B13/B14/B17/B18/B19/B20/B25/B26/B28/B29/
B30/B32/B66/B71
LTE-TDD: B34/B38/B39/B40/B41/B42/B43/B48 LAA: B46 (TDD)
UMTS-WCDMA: B1/B2/B4/B5/B8/B9/B19
MIMO| 5G-SA
DL 4 × 4 MIMO: n1/n3/n7/n38/n40/n41/n77/n78
UL 2 × 2 MIMO: n38/n40/n41/n77/n78 5G-NSA
DL 4 × 4 MIMO: n1/n3/n7/n38/n40/n41/n77/n78 LTE
DL 4 × 4 MIMO: B1/B3/B7/B38/B40/B41/B42/B43
Transmitting power| Class 3 (23 dBm) for 5G NR bands
Class 2 (26 dBm) for 5G NR HPUE bands (n38/n40/n41/n77/n78/n79) Class 1.5 (29
dBm) for 5G NR HPUE2 bands (n41/n77/n78/n79)
Class 3 (23 dBm) for LTE bands
Class 2 (26 dBm) for LTE HPUE bands (B38/B41/B42/B43) Class 3 (24 dBm) for
WCDMA bands
Antenna mapping| A1:
5G NR:
– Refarmed: LBa. TX0/PRX & MHBb. TX0/PRX & UHBc. TX1/DRX
– n41 TX0/PRX
– n77/n78d./n79e. TX1/DRX
LTE: LB TX0/PRX & MHB TX0/PRX & UHB TX1/DRX
WCDMA: LMB TRX
A2:
5G NR:
– Refarmed: MHB PRX MIMO & UHB PRX MIMO
– n41 PRX MIMO
– n77/n78/n79 PRX MIMO
LTE: MHB PRX MIMO & UHB PRX MIMO & LAAf. PRX
A3:
5G NR:
– Refarmed: MHB TX1g./DRX MIMO & UHB TX0/PRX
– n41 TX1/DRX MIMO
– n77/n78/n79 TX0/PRX
LTE: MHB TX1g./DRX MIMO & UHB TX0/PRX
A4:
5G NR:
– Refarmed: LB TX1 / DRX & MHB DRX & UHB DRX MIMO
– n41 DRX
– n77/n78/n79 DRX MIMO
LTE: LB TX1/DRX & MHB DRX & UHB DRX MIMO & LAA DRX
WCDMA: LMB DRX
a. 617–960 MHz
b.1452–2690 MHz
c. 3400–3800 MHz
d. n77/n78: 3300–4200 MHz
e. n79: 4400–5000 MHz
f. 5150-5925 MHz
g. MHB TX1 will be active when supporting Sub 2.6 GHz EN-DC
Antenna GNSS (A5)
Connector| QMA
Direction| Receive
LNA supply voltage| Max. 3.7 VDC (DC voltage for active antenna)
LNA supply current| Max. 70 mA (DC current for active antenna)
Cabling| 50 Ohm coaxial cable and GNSS antenna required
Conductive chassis| Yes
GNSS receiver| GPS: L1C/A
SBAS: L1C/A: WAAS, EGNOS, MSAS QZSS: L1C/A/S
GLONASS: L1OF
BeiDou: B1I Galileo: E1B/C
Supported GNSS constellations| Concurrent GPS, GLONASS, Galileo and
BeiDou plus SBAS and QZSS receptiona.
Sample rate| 25 Hz (independent of the GNSS constellation)
Protocols| NMEA 4.10/4.11, UBX
a.SBAS and QZSS are only active in combination with GPS
NOTICE
Unused antenna port must be terminated with 50 Ohm terminations.
NOTICE
To avoid damages on the antenna interfaces, ensure that the far end side of
the antenna cable and/or the antenna itself is connected to protective earth.
NOTE
External GNSS LNA is recommended to improve sensitivity.
5.2. Type Tests and Environmental Conditions
Environmental phenomena| Basic standard| Description| Test
levels
---|---|---|---
ESD| EN 61000-4-2| Enclosure| Contact: ±6 kV Air: ±8 kV
Fast transients| EN 61000-4-4| DC power port| ± 2 kV, direct coupling
Ethernet ports| ± 2 kV, capacitive coupling clamp
Antenna ports
Surge| EN 61000-4-5| DC power port| L-E: ± 1 kV, 12 Ω, 9 µF, 1.2/50 µs
L-E: ± 2 kV, 42 Ω, 0.5 µF, 1.2/50 µs
L-L: ± 1 kV, 12 Ω, 9 µF, 1.2/50 µs
L-L: ± 2 kV, 42 Ω, 0.5 µF, 1.2/50 µs
Ethernet ports| L-E: ± 1 kV, 2 Ω, 18 µF, 1.2/50 µs
Antenna ports
Power frequency magnetic field| EN 61000-4-8| Enclosure| 300 A/m
continues, DC, 16.7 Hz, 50 Hz, 60 Hz
Radiated RF immunity| EN 61000-4-3| Enclosure| 20 V/m, 80% AM
(1kHz) at 80 MHz to 6 GHz
30 V/m, PM 200 Hz square at 380 MHz to 385 MHz
30 V/m, PM 200 Hz square at 390 MHz to 395 MHz
3 V/m, PM 200 Hz square at 104, 136, 165, 200, 260, 330, 430, 560, 715 ±1, 920
±1 MHz
Conducted RF immunity| EN 61000-4-6| DC power port| 10 V, 80% AM
(1 kHz) from 0.15 to 80 MHz
Ethernet ports
Antenna ports
Radiated RF emission| EN 55032| Enclosure| Class B
Conducted RF emission| EN 55032| DC power port| Class B
Ethernet ports
Insulation resistance| EN 50155| Power port (DC) to all other ports| >
100 MOhm
Dielectric strength| EN 50155| Power port (DC) to all other ports| 750
VDC, 60 s
Table 10. EMC and electrical conditions
Environmental phenomena| Basic standard| Description| Test
levels
---|---|---|---
Temperatures| EN 60068-2-1
EN 60068-2-2
EN 60068-2-14| Operational| -40 to +70°C (-40 to +158°F)a.
Storage and transport| -55 to +85°C (-67 to +185°F)
Humidity| EN 60068-2-30| Operational| 5-95 % relative humidity
Storage and transport
Altitude| | Operational| 2000 m
MTBF| IEC TR 62380| | 283’858 hours
Vibration| EN 60068-2-64 (random)| Operational, endurance test| 2.3 m/s2
random, 5 to 2000 Hz, 3 x 4 h
EN 60068-2-64 (random)| Operational, endurance test| 11.44 m/s2 random, 5 to
150 Hz, 3 x 5 h
Shock b.| EN 60068-2-27| Operational| 100 m/s2, 30 ms, 3 x 6 shocks (half
sine)
MIL STD 810, M516.7| 10 g, 11 ms, 3 x 6 shocks (saw tooth)
Weight| | | 1650 gr
Degree of protection| EN 60529| Enclosure| IP66c.
Cooling| | | Convection
Pollution degree| EN 61010-1| | PD2
Conformal coating type| IPC-A-610| Electronic modules| AR (Acrylic)
a. Refer to “Safety and Regulations” chapter regarding touch temperature
b. The power and Ethernet cables need to be fastened 200 mm or closer to the
unit. The same recommendation applies to the Antenna cables.
c. Provided all connectors are connected with IP66 cabling or fitted with
protective caps (delivered with the unit) and tightened to the specified
torque
Table 11. Environmental and mechanical conditions
Abbreviations and Terms
Abbreviation | Description |
---|---|
3GPP | 3rd Generation Partnership Project |
5G | 5th GenerationStandard for Wireless Broadband Communication |
AM | Amplitude Modulation |
AREMA | American Railway Engineering and Maintenance-of-Way Association |
AWG | American Wire Gauge |
BeiDou | Chinese Global Positioning System |
BPSK | Binary Phase Shift Keying |
CA | Carrier Aggregation |
CAT5e | Category 5 Enhanced Cable |
CE | Conformité Européenne |
CPU | Central Processing Unit |
DC | Direct Current |
DL | Down Link |
DRX | Discontinuous Reception |
EMC | Electromagnetic Compatibility |
EN | European Standard |
ERR | Error |
ESD | Electro Static Discharge |
ETSI | European Telecommunications Standards Institute |
FCC | Federal Communication Commission |
FDD | Frequency Division Duplex |
FLOSS | Free/Libre Open Source Software |
Galileo | European Global Positioning System |
GNSS | Global Navigation Satellite System |
GLONASS | Russian Global Positioning System |
GPS | US Global Positioning System |
IEC | International Engineering Consortium |
IC | Industry Canada |
ID | Identification |
IMT | International Mobile Telecommunications |
I/O | Input / Output |
IP | Ingress Protection |
Abbreviation | Description |
--- | --- |
ISO | International Standardization Organisation |
LAA | License Assisted Access |
LAN | Local Area Network |
LB | Low Band |
LED | Light Emitting Diode |
LMB | Low-mid Band |
LTE | Long Term Evolution (4G) Standard for Wireless Broadband Communication |
LV | Low Voltage |
MHB | Mid-high Band |
MIMO | Multiple Input, Multiple Output |
MTBF | Mean Time between Failure |
MTTR | Mean Time to Repair |
NR | New Radio |
NSA | Non Stand Alone |
OPR | Operation |
PM | Pulse Modulated |
PoE | Power over Ethernet |
PRX | Primary Reception |
QMA | Quick-connect RF Connectors |
QR | Quick Response |
QZSS | Quasi-Zenith Satellite System |
RF | Radio Frequency |
SA | Stand Alone |
SBAS | Satellite-Based Augmentation System |
SIM | Subscriber Identity Module |
SN | Serial Number |
SNMP | Simple Network Management Protocol |
TDD | Time Division Duplex |
TNV | Telephone Network Voltage |
TRX | Transmitter / Receiver |
UHB | Ultra-high Band |
UL | Up Link |
UMTS | Universal Mobile Telecommunications System |
VPN | Virtual Private Network |
WCDMA | Wideband Code Division Multiple Access |
Abbreviation | Description |
--- | --- |
WebGUI | Web Graphical User Interface |
WeConfig | Westermo Configuration Tool |
WEEE | Waste Electrical and Electronics Equipment |
WLAN | Wireless Local Area Network |
Table 12. Abbreviations and terms
Revision Notes
Revision | Date | Change description |
---|---|---|
Rev. A | 2023-12 | First revision |
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Tel +46 16 42 80 00 Fax +46 16 42 80 01
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@ Westermo Network Technologies AB, Sweden
www.westermo.com
References
- Westermo ᐅ Robust and Secure Industrial Networking Solutions
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