TM
RuggedWireless RS920W
Wireless Serial Device Server with Ethernet over VDSL Interface
Features and Benefits
Interface Ports
ꢀ.1 Ethernet over VDSL (EoVDSL) interface
ꢀ.2 RS485/RS422/RS232 Serial Ports (DB9 of RJ45)
ꢀ.Serial Fiber Interface (ST) available
Ethernet Over VDSL Port Characteristics
ꢀ Up to 4km LAN segments
ꢀ Symmetric data rates up to 50 Mbps
ꢀ Automatically selects fastest data rate based on distance and
quality of cable
ꢀ Software selectable to be master or slave
ꢀ Frequency Division Multiplexing (FDM)
Cyber Security
ꢀ WPA (Wi-Fi Protected Access) with TKIP for enhanced
security and encryption
ꢀ WPA2/802.11i with CCMP for robust security and encryption
ꢀ IEEE 802.1X/RADIUS using EAP-PEAP for secure
"enterprise class" authentication configuration
ꢀ Pre-shared Key Mode (PSK) for "personal" mode
authentication configuration
The RuggedWireless™ RS920W is an industrially hardened
Wireless Serial Device Server that has been specifically designed
to operate reliably in electrically harsh and climatically demanding
environments. The RS920W features a wireless LAN (WLAN)
interface combined with 2 serial ports and one Ethernet over
VDSL (EoVDSL) interface. The RS920W allows you to connect
RS-232/422/485 serial devices at up to 230 kbps and for wireless
access and control via an IEEE 802.11i wireless LAN. The
RS920W can also act as a wireless access point and in
combination with the EoVDSL interface, can aggregate many
devices at a remote location back to the central control room
using existing telephone grade cable (or other legacy serial
cabling) at distances of up to 4km.
ꢀ Multi-level user passwords
ꢀ SSH/SSL encryption
ꢀ Enable/disable ports, MAC based port security
ꢀ Port based network access control (802.1x)
ꢀ VLAN (802.1q ) to segregate and secure network traffic
ꢀ Radius centralized password management
ꢀ SNMPv3 encrypted authentication and access security
TM
Rugged Operating System (ROS ) Features
ꢀ Simple plug and play operation - automatic learning,
negotiation, and crossover detection
ꢀ RSTP (802.1D-2004) and Enhanced Rapid Spanning
Tree (eRSTP™) network fault recovery (<5ms)
ꢀ Quality of Service (802.1p) for real-time traffic
ꢀ VLAN (802.1q) with double tagging and GVRP support
ꢀ Link aggregation (802.3ad)
The RS920W functions as a wireless "client/bridge" within an
IEEE 802.11b/g compliant WLAN. This allows the RS920W to
transfer data for connected serial port and Ethernet devices via
an installed Wireless Access Point. The RS920W is capable of
wireless data rates of up to 54Mbps whose bandwidth is available
for the combined device traffic volume emanating from two serial
ports and two Ethernet ports. Static authentication support is
provided by WPA-PSK. For authentication by an access point
and a RADIUS server, the RS920W supports IEEE 802.1X/
RADIUS for wireless user traffic and distributing dynamic
encryption keys. All wireless communications are protected by
"hardware accelerated encryption" to ensure high performance
when using strong encryption and authentication protocols such
as WPA/TKIP and WPA2/802.11i. The web management
interface is protected using SSL.
ꢀ IGMP Snooping for multicast filtering
ꢀ Port Rate Limiting and Broadcast Storm Limiting
ꢀ Port configuration, status, statistics, mirroring, security
ꢀ Loss of link management on fiber ports
ꢀ SNTP time synchronization (client and server)
RuggedRated™ for Reliability in Harsh Environments
ꢀ.Immunity to EMI and heavy electrical surges
ꢁ Meets IEEE 1613 (electric utility substations)
ꢁ Exceeds IEC 61850-3 (electric utility substations)
ꢁ Exceeds IEC 61800-3 (variable speed drive systems)
ꢁ Exceeds IEC 61000-6-2 (generic industrial)
ꢁ Exceeds NEMA TS-2 (traffic control equipment)
ꢀ.-40°C to +85°C operating temperature
ꢀ.no fans or moving parts for improved reliability
ꢀ.20 AWG galvanized steel enclosure
ꢀ.DIN or panel mounting options provide secure
mechanical reliability
The RS920W has an operating temperature range of -40 to +85°C
without the use of internal cooling fans allowing it to be placed in
almost any location. The RS920W also has an integrated power
supply with a wide range of voltages for worldwide operability, and
is compliant with EMI and environmental standards for utility
substations, industrial manufacturing, process control and
intelligent transportation systems applications.
Universal Power Supply
ꢀ.Fully integrated power supplies (no external adaptors)
ꢀ.Popular low-voltage DC ranges: 24VDC, 48VDC
ꢀ.Universal high-voltage range: 88-300VDC
or 85-264VAC
SRUGGEDCOM
9001:2000
9001:2 00
O
O
The RS920W is backed by a five year warranty and
unsurpassed technical support.
I
I
S
ꢀ.CSA/UL 60950 safety approved to +85°C
CERTIFIED
ꢀ.Screw down terminal blocks ensure
RuggedWireless™ RS920W
1
TM
RuggedWireless RS920W
Wireless Serial Device Server with Ethernet over VDSL Interface
TM
ROS Features
Serial IP Encapsulation
Many 'legacy' devices (RTU, PLC, IED, etc.) only support
serial communications via RS232, RS422 or RS485. ROS™
that are 'pruned' to prevent loops. eRSTP yields worst-case
fault recovery1 of 5ms times the 'bridge diameter' and allows
rings of up to 80 switches. For example, a ring of ten switches
encapsulates the serial data within a TCP connection allowing will have fault recovery times under 50ms. eRSTP implements
these devices to be reached via an IP network. A wide range
of baud rates, frame packetization options, and diagnostics
allows any serial protocol to function. The RS416 has specific
support for the following serial protocols:
ꢀ Raw Socket serial encapsulation
ꢀ Modbus TCP (client and server)
ꢀ DNP 3
both STP and RSTP to ensure interoperability with commercial
switches unlike other proprietary 'ring' solutions.
Quality of Service (IEEE 802.1p)
Some networking applications such as real-time control
or VoIP (voice over IP) require predictable arrival times for
Ethernet frames. Switches can introduce latency in times
of heavy network traffic due to the internal queues that buffer
frames and then transmit on a first come first serve basis.
ROS™ supports 'Class of Service' in accordance with IEEE
802.1p that allows time critical traffic to jump ahead to the
front of the queue thus minimizing latency and reducing jitter
to allow such demanding applications to operate correctly.
ROS™ allows priority classification by port, tags, MAC
address, and IP type of service (TOS).
ꢀ WIN and TIN
ꢀ Microlok
MODBUS TCP
The Modbus protocol is ubiquitous in the industrial control
and automation world. ROS converts Modbus RTU
master/slave serial data packets to Modbus TCP client/server
packets for transmission over an IP network. This allows
communications to Modbus RTU slaves via Ethernet and
allows multiple masters to poll the same slave device.
A configurable "weighted fair queuing" algorithm controls how
frames are emptied from the queues.
Cyber Security
Cyber security is an urgent issue in many industries where
advanced automation and communications networks play
a crucial role in mission critical applications and where high
reliability is of paramount importance. Key ROS™ features that
address security issues at the local area network level include:
VLAN (IEEE 802.1q)
Virtual local area networks (VLAN) allow the segregation
of a physical network into separate logical networks with
independent broadcast domains. A measure of security is
provided since hosts can only access other hosts on the
same VLAN and traffic storms are isolated. ROS™ supports
802.1q tagged Ethernet frames and VLAN trunks. Port
based classification allows legacy devices to be assigned
to the correct VLAN. GVRP support is also provided to
simplify the configuration of the switches on the VLAN.
ꢀ Passwords - Multi-level user passwords secures switch
against unauthorized configuration
ꢀ SSH / SSL - Extends capability of password protection to
add encryption of passwords and data as they cross
the network
ꢀ Enable / Disable Ports - Capability to disable ports so that
traffic can not pass
Link Aggregation (802.3ad)
ꢀ 802.1q VLAN - Provides the ability to logically segregate
traffic between predefined ports on switches
ꢀ MAC Based Port Security - The ability to secure ports on
a switch so only specific Devices / MAC addresses can
communicate via that port
ꢀ 802.1x Port Based Network Access Control - The ability
to lock down ports on a switch so that only authorized
clients can communicate via this port
ꢀ Radius - Provides centralized password management
ꢀ SNMPv3 - encrypted authentication and access security
The link aggregation feature provides the ability to aggregate
several Ethernet ports into one logical link (port trunk) with
higher bandwidth. This provides an inexpensive way to set up
a high speed backbone to improve network bandwidth. This
feature is also known as "port trunking", "port bundling", "port
teaming", and "ethernet trunk".
IGMP Snooping
ROS uses IGMP snooping (Internet Group Management
Protocol v1&v2) to intelligently forward or filter multicast traffic
streams (e.g. MPEG video) to or from hosts on the network.
This reduces the load on network trunks and prevents
packets from being received on hosts that are not involved.
ROS™ has a very powerful implementation of
IGMP snooping that:
The ROS™ cyber security features are included to help
address the various industry specific security standards such
as NERC CIP, ISA S99, AGA 12, IEC 62443, ISO 17799:2005
and PCSRF SPP-ICS.
Enhanced Rapid Spanning Tree Protocol (eRSTP™)
RuggedCom eRSTP allows the creation of fault-tolerant ring
and mesh Ethernet networks that incorporate redundant links
1 eRSTP fault recovery times may be approximated as follows:
For 100 Mbps, fault recovery performance is <5ms/hop
For 1,000 Mbps, fault recovery performance is <5ms/hop + 20ms
RuggedWireless™ RS920W
3
TM
RuggedWireless RS920W
Wireless Serial Device Server with Ethernet over VDSL Interface
TM
ROS Features
ꢀ Can be enabled on a per VLAN basis.
Port Configuration and Status
ꢀ Detects and filters all multicast streams regardless of
ROS™ allows individual ports to be 'hard' configured
for speed, duplex, auto-negotiation, flow control and more.
This allows proper connection with devices that do not
negotiate or have unusual settings. Detailed status of ports
with alarm and SNMP trap on link problems aid greatly in
system troubleshooting.
whether subscribers exist.
ꢀ Supports "router-less" operation by supporting an
"active" mode.
ꢀ Restores traffic streams immediately after an RSTP
topology change.
SNMP (Simple Network Management Protocol)
Port Statistics and RMON (Remote Monitoring)
ROS™ provides continuously updating statistics per port
that provide both ingress and egress packet and byte
counters as well as detailed error figures. Also provided
is full support for the RMON statistics, history, alarms, and
event groups. RMON allows for very sophisticated data
collection, analysis and detection of traffic patterns.
SNMP provides a standardized method for network
management stations the ability to interrogate devices from
different vendors. SNMP versions supported by ROS™ are
v1, v2c, and v3. SNMPv3 in particular provides security
features (such as authentication, privacy, and access control)
not present in earlier SNMP versions. ROS™ also supports
numerous standard MIBs (Management Information Base)
allowing for easy integration with any network management
system (NMS). A feature of SNMP supported by ROS™ is
the ability to generate "traps" upon system events. A NMS
can record traps from multiple devices providing a powerful
network troubleshooting tool. RuggedVueTM is RuggedCom's
NMS that provides graphical visualization of the network
and is fully integrated with all RuggedCom products.
Event Logging and Alarms
ROS™ records all significant events to a non-volatile
system log allowing forensic troubleshooting. Events
include link failure and recovery, unauthorized access,
broadcast storm detection, and self-test diagnostics
among others. Alarms provide a snapshot of recent
events that have yet to be acknowledged by the network
administrator. An external hardware relay is de-energized
during the presence of critical alarms allowing an
external controller to react if desired.
SCADA and Industrial Automation
ROS™ contains features that optimize network performance
and simplify switch management based on the unique
requirements found in SCADA and industrial automation
applications. Features such as Modbus TCP management for
retrieval of switch data using the ubiquitous Modbus protocol
and DHCP Option 82, a Rockwell Automation ODVA
requirement for IP address assignment based on the location
of the end device, provide capabilities not found in typical
"commercial" or "office grade" Ethernet switches.
HTML Web Browser and Telnet User Interfaces
ROS™ provides a simple, intuitive user interface for
configuration and monitoring via a standard graphical
web browser or via Telnet. All system parameters include
detailed on-line help to make setup a breeze. ROS™ ,
presents a common look and feel and standardized
configuration process allowing easy migration to other
RuggedCom managed products.
Port Based Network Access Control (802.1x)
ROS™ supports the IEEE 802.1x standard that defines
a mechanism for port-based network access control which
provides a means of authenticating and authorizing
devices attached to LAN ports.
Configuration via ASCII Text File
All configuration parameters are stored in an ASCII
formatted text file that can easily be transferred via TFTP
or Xmodem. The configuration file can be saved for
backup purposes and easily manipulated by a text editor.
The same text file can be downloaded to the switch at
a later date in order to re-configure or restore a previous
configuration.
Port Rate Limiting
ROS™ supports configurable rate limiting per port to limit
unicast and multicast traffic. This can be essential to
managing precious network bandwidth for service providers.
It also provides edge security for denial of service
(DOS) attacks.
Command Line Interface (CLI)
A command line interface can be used in conjunction
with remote shell to automate data retrieval, configuration
updates, and firmware upgrades. A powerful SQL-like
capability allows expert users the ability to selectively
retrieve or manipulate any parameters the device
has to offer.
Broadcast Storm Filtering
Broadcast storms wreak havoc on a network and can cause
attached devices to malfunction. This could be disastrous on
a network with mission critical equipment. ROS™ limits this
by filtering broadcast frames with a user-defined threshold.
Port Mirroring
ROS™ can be configured to duplicate all traffic on one port
to a designated mirror port. When combined with a
network analyzer, this can be a powerful troubleshooting tool.
RuggedWireless™ RS920W
4
TM
RuggedWireless RS920W
Wireless Serial Device Server with Ethernet over VDSL Interface
EMI and Environmental Type Tests
NEMA TS-2 Requirements
Test
Description
Levels
Performance Criteria*
Temperature: Low Temperature/Low
TS-2 1998, Section 2, para 2.2.7.3
89.0 VAC @ -34°C
Voltage
Temperature: Low Temperature/High
Voltage
TS-2 1998, Section 2, para 2.2.7.4
TS-2 1998, Section 2, para 2.2.7.5
TS-2 1998, Section 2, para 2.2.7.6
TS-2 1998, Section 2 para. 2.2.8.4
TS-2 1998, Section 2, para 2.1.10
135.0VAC @ -34°C
135.0VAC @ + 75°C
EUT Continued to function properly during
and following all temperature and humidity
testing
Temperature: High Temperature/High
Voltage
Temperature: High Temperature/Low
Voltage
89.0VAC @ + 75°C
EUT functioned properly following test pro-
cedure. No physical damage.
Vibration Endurance Test
Mechanical Shock
0.5g @ 30Hz for 1hr on all three planes
+/-10g half sine wave for 11msec on all
three planes
EUT functioned properly following test pro-
cedure. No physical damage.
One +/-300VDC pulse every other cycle
once every 3 seconds across 360 ° of line
cycle (2500W peak)
Electrical Transients: High Repetition Noise
(AC Terminals)
EUT functioned properly during and follow-
ing test procedure. No damage
TS-2 1992, Section 2, para. 2.1.6.1
TS-2 1998, Section 2 para. 2.1.6.2
One +/-600VDC pulse every second, ran-
domly distributed across 360 ° of line
cycle. Ten pulses total.
Electrical Transients: Low-Repetition High
Energy (AC Terminals
EUT functioned properly during and follow-
ing test procedure. No damage
One +/-300VDC pulse every second, mini- EUT functioned properly during and follow-
mum 5 pulses per port ing test procedure. No damage
One +/-1000VDC pulse every two seconds, EUT functioned properly following test pro-
3 per each polarity. cedure. No damage
TS-2 1998, Section 2, para 2.1.7
TS-2 1992, Section 2, para. 2.1.8
Electrical Transients: I/O Terminals
Electrical Transients: Nondestruct
Transient Immunity (AC Terminals)
IEC 61000-6-2 EMC Generic Standard: Immunity for Industrial Environments
Test
Description
Levels
+/- 4kV
+/- 8kV
RuggedCom Test Level
+/- 8kV
Performance Criteria*
Enclosure Contact
B
B
A
B
B
B
IEC 61000-4-2
ESD
Radiated RFI
Enclosure Air
Enclosure ports
Signal ports
D.C Power ports
A.C. Power ports
+/- 15kV
20V/m
+/- 4kV @ 2.5kHz
+/- 4kV
IEC 61000-4-3
IEC 61000-4-4
10 V/m, 80 to 1000Mhz
+/- 1kV @ 5kHz
+/- 2kV @ 5kHz
+/- 2kV @ 5kHz
Burst (Fast Transient)
+/- 4kV
+/- 2kV line-to-earth, +/- 2kV
Signal ports
D.C Power ports
A.C. Power ports
Signal ports
+/- 1kV line-to-earth
B
B
line-to-line
+/- 4kV line-to-earth, +/- 2kV
line-to-line
IEC 61000-4-5
IEC 61000-4-6
Surge
+/- 0.5kV line-to-earth/line
+/- 2kV line-to-earth, +/- 1kV +/- 4kV line-to-earth, +/- 2kV
B
line-to-line
line-to-line
10V @ 0, 5-80 MHz
10V @ 0, 5-80 MHz
A
D.C Power ports
A.C. Power ports
Earth ground ports
Enclosure ports
10V @ 0, 5-80 MHz
10V @ 0, 5-80 MHz
10V @ 0, 5-80 MHz
30 A/m @ 50, 60 Hz
10V @ 0, 5-80 MHz
10V @ 0, 5-80 MHz
10V @ 0, 5-80 MHz
A
Induced (Conducted) RFI
A
A
40 A/m continuous, 1000
A/m for 1s
IEC 61000-4-8
IEC 61000-4-11
Magnetic Field
Voltage Dips
A
30% reduction for 0.5
period
30% for 1 period
B
A.C. Power ports
>95% reduction for 250
100% for 5 periods, 100%
for 50 periods
C
periods
2kVac
2kVac
Signal ports
D.C. Power ports
A.C. Power ports
Signal ports
N/A
N/A
N/A
N/A
N/A
N/A
(Fail-Safe Relay output)
(Fail-Safe Relay output)
IEC 60255-5
IEC 60255-5
Dielectric Strength
H.V. Impulse
2kVac
2kVac
2kVac
2kVac
5kV
5kV
(Fail-Safe Relay output)
(Fail-Safe Relay output)
D.C. Power ports
A.C. Power ports
5kV
5kV
5kV
5kV
Environmental Type Tests
Description
Test
IEC 60068-2-1
IEC 60068-2-2
Test Levels
-40°C, 16 Hours
+85°C, 16 Hours
Severity Levels
Cold Temperature
Dry Heat
Test Ad
Test Bd
N/A
N/A
95% (non-condensing),
55°C , 6 cycles
2g @ (10 - 150) Hz
30g @ 11mS
IEC 60068-2-30
Humidity (Damp Heat, Cyclic)
Test Db
N/A
1
IEC 60255-21-1
IEC 60255-21-2
Vibration
Shock
Tests Fc
Tests Ea
Class 2
Class 2
Notes: 1. Class 2 refers to "Measuring relays and protection equipment for which a very high security margin is required or where the vibration levels are very high, ( e.g. shipboard application and for severe transportation conditions")
RuggedWireless™ RS920W
5
TM
RuggedWireless RS920W
Wireless Serial Device Server with Ethernet over VDSL Interface
Technical Specifications
Power Supply
Network Management
.
.
ꢀ Power Consumption: 10W MAX
ꢀ ROSVue HTTP graphical web-based
.
.
ꢀ 24VDC: 9-36VDC, 0.4A
ꢀ SNMP v1, v2c, v3
.
.
ꢀ 48VDC: 36-72VDC, 0.2A
ꢀ Telnet, VT100
.
.
ꢀ HI Voltage AC/DC: 88-300VDC, 85-264VAC, 0.1A
ꢀ Command Line Interface (CLI)
Critical Alarm Relay
ꢀ Form-C failsafe contact relay: 1A@30VDC
IEEE Compliance
ꢀ.802.3-10BaseT
.
ꢀ.802.3u-100BaseTX, 100BaseFX
ꢀ.802.3x-Flow Control
ꢀ.802.3z-1000BaseLX
ꢀ.802.3ab-1000BaseTX
ꢀ.802.3ad-Link Aggregation
ꢀ.802.1D-MAC Bridges
ꢀ.802.1D-Spanning Tree Protocol
ꢀ.802.1p-Class of Service
ꢀ.802.1q-VLAN Tagging
ꢀ.802.1D-2004-Rapid Spanning Tree Protocol
ꢀ.802.1x-Port Based Network Access Control
Physical
.
ꢀ Height: 7.4"
.
ꢀ Width: 2.6"
.
ꢀ Depth: 5.0"
.
ꢀ Weight: 2.7lbs
.
ꢀ Ingress Protection: IP40 (1mm objects)
.
ꢀ Enclosure: 20 AWG galvanized steel enclosure
.
ꢀ Mounting: DIN rail or panel mounted
Switch Properties
.
ꢀ Switching method: Store & Forward
IETF RFC Compliance
ꢀ.RFC768-UDP
.
ꢀ Switching latency: 8 us (100Mbps)
.
ꢀ Switching bandwidth: 1.8Gbps
ꢀ.RFC783-TFTP
.
ꢀ MAC address table size: 16kbytes
ꢀ.RFC791-IP
.
ꢀ Priority Queues: 4
ꢀ.RFC792-ICMP
.
ꢀ Frame buffer memory: 1 Mbit
ꢀ.RFC793-TCP
.
ꢀ VLANs: 64
ꢀ.RFC826-ARP
.
ꢀ IGMP and static multicast groups: 256
ꢀ.RFC854-Telnet
.
ꢀ Port rate limiting: 128kbps, 256, 512, 4, 8Mbps
ꢀ.RFC894-IP over Ethernet
ꢀ.RFC1112-IGMP v1
ꢀ.RFC1519-CIDR
.
ꢀ No head of line blocking
Approvals
ꢀ.RFC1541-DHCP (client)
ꢀ.RFC2030-SNTP
ꢀ.RFC2068-HTTP
ꢀ.RFC2236-IGMP v2
ꢀ.RFC2284-EAP
ꢀ.RFC2475-Differentiated Services
ꢀ.RFC2865-Radius
ꢀ.RFC3414-SNMPv3-USM
ꢀ.RFC3415-SNMPv3-VACM
.
ꢀ Hazardous Locations: Class 1, Division 2
.
ꢀ ISO: Designed and manufactured using a ISO9001: 2000
certified quality program
.
ꢀ CE Marking
.
ꢀ Emissions: FCC Part 15 (Class A),
EN55022 (CISPR22 Class A)
.
ꢀ Safety: cCSAus (Compliant with CSA C22.2 No. 60950,
UL 60950, EN60950)
.
ꢀ Laser Eye Safety (FDA/CDRH): Complies with 21
IETF SNMP MIBS
CFR Chapter1, Subchapter J.
.
ꢀ RFC1493-BRIDGE-MIB
Warranty
.
ꢀ RFC1907-SNMPv2-MIB
.
ꢀ 5 Years-Applicable to design or manufacturing
.
ꢀ RFC2012-TCP-MIB
related product defects.
.
ꢀ RFC2013-UDP-MIB
.
ꢀ RFC2578-SNMPv2-SMI
.
ꢀ RFC2579-SNMPv2-TC
.
ꢀ RFC2819-RMON-MIB
.
ꢀ RFC2863-IF-MIB
.
ꢀ draft-ietf-bridge-rstpmib-03-BRIDGE-MIB
.
ꢀ draft-ietf-bridge-bridgemib-smiv2-03-RSTP-MIB
.
ꢀ IANAifType-MIB
RuggedWireless™ RS920W
6
TM
RuggedWireless RS920W
Wireless Serial Device Server with Ethernet over VDSL Interface
Fiber Specifications and Mechanical Drawing
Fiber Optical Specifications
Parameter
Mode
Connectors
Fiber Port Type
Multimode
MTRJ / ST / SC / LC
2
1310
50 or 62.5/125
-15.7
Singlemode
LC / SC / ST
50
1310
8 or 9/125
-2.5
Typical Dist. (km)
Optical Wavelength (nm)
Cable SizeCore/Cladding (um)
Tx Power (dBm)
20
90
-15.5
-32
16.5
2.5
-39
41.5
Rx Sensitivity (dBm)
Typical Budget (dB)
-33.5
17
-37
34.5
Longer segment lengths dependent on fiber specifications. Consult factory for further details.
RuggedWireless™ RS920W
7
TM
RuggedWireless RS920W
Wireless Serial Device Server with Ethernet over VDSL Interface
Order Code
RS920W -_____ -____ -____ -____ -_____
PS
M
S
VV
WW
PS: Power Supply
ꢀ
.
ꢀ
.
ꢀ
.
24 = 24VDC (9-36VDC)
48 = 48VDC (36-72VDC)
HI = 85-264VAC or 88-300VDC
M: Mounting options
ꢀ
ꢀ
.
D = Din Rail
.
P = Panel Mounting
ꢀ.N = None
S: Serial Port Options
.
ꢀ XX = None
ꢀ S1 = 2 x RS232/422/485 DB9
.
ꢀ S2 = 2 x RS232/422/485 RJ45
.
ꢀ S3 = 2 x Fiber 850nm ST
VV: VDSL Interface
.
ꢀ V1 = Standard reach (<2.5km)
.
ꢀ V2 = Long Reach (4km) Master / CO
.
ꢀ V3 = long Reach (4km) /CPE
WW: Wireless Options
ꢀ.W1 = 802.11i - US (North America)
ꢀ.W2 = 802.11i - EU (European Union) (coming soon)
ꢀ.W3 = 802.11i - CH (China) (coming soon)
ꢀ.W4 = 802.11i - AU (Australia) (coming soon)
Power Cables
43-10-0008 - Bare-wire
43-10-0007 - with lugs
For additional information on our products and
RuggedCom Inc.
30 Whitmore Road
Woodbridge, Ontario, Canada L4L 7Z4
Tel: (905) 856-5288 Fax: (905) 856-1995
Toll Free: (888) 264-0006
Technical Support Center: (866) 922-7975 or (954) 922-7975
© 2007 RuggedCom Inc.
RuggedWireless is a trademark of RuggedCom Inc.
Ethernet is a trademark of the Xerox Corporation.
Patent Pending
All specifications in this document are subject to change without notice.
Rev 1-F
RuggedWireless™ RS920W
8
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