RSG2200

Product Overview
RUGGEDCOM RSG2200
9-port Managed Gigabit Ethernet Switch,128-bit Encryption
The RUGGEDCOM RSG2200 from Siemens is a utility grade,
fully managed modular Ethernet switch, featuring up to 9
Gigabit copper and/or fiber Ethernet ports, or up to 9 100FX
Fiber Fast Ethernet ports. The RSG2200 features 2-port
modules for superior flexibility, support for multiple fiber
types, and long haul optics, giving it high density port
capabilities with cost effective gigabit Ethernet port speeds.
Designed to operate reliably in harsh environments, the
RSG2200 provides a high level of immunity to electromagnetic
interference and heavy electrical surges typical of
environments found in utility substations, rail applications,
and oil and gas operations. An operating temperature
range of -40°C to +85°C coupled with hazardous location
compliance (Class 1 Division 2), optional conformal coating
and a galvanized 1U form factor steel enclosure with
industrial grade DIN, panel, or 19” rack-mounting options
allows the RSG2200 to be placed in almost any location.
The embedded Rugged Operating System (ROS) provides
advanced cyber security features and comprehensive
networking functions such as Enhanced Rapid Spanning
Tree (eRSTP), Port Rate Limiting, and a full array of intelligent
functionality for high network availability and manageability.
Coupled with ruggedness and durability that is designed in
from the onset, the RSG2200 is ideal for creating mission
critical, real-time, control applications where high reliability
and availability is of paramount importance.
All RUGGEDCOM products are backed by a five year warranty
and unsurpassed technical support.
The RSG2200’s modular flexibility offers 1000BaseX
fiber and 10/100/1000BaseTX copper port combinations.
Support for front or rear mount connectors coupled
with support for multiple fiber connector types (SFP,
GBIC, LC, SC) without loss of port density makes the
RSG2200 highly versatile and suitable for any application.
usa.siemens.com/ruggedcom
Features and Benefits
Ethernet Ports
Rugged Operating System (ROS) Features
■ Up to 9-Gigabit Ethernet ports – copper and/or fiber
■ Up to 9 100FX Fiber Fast Ethernet ports
■ 2 port modules for tremendous flexibility
■ Supports many types of fiber/optics
■ Long haul optics allow Gigabit distances up to 70km
■ Multiple connector types (LC, SC, SFP, GBIC)
■ Simple plug and play operation – automatic learning,
negotiation, and crossover detection
■ MSTP 802.1Q-2005 (formerly 802.1s)
■ RSTP (802.1W) 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)
■ IGMP Snooping for multicast filtering
■ Port Rate Limiting and Broadcast Storm Limiting
■ Industrial automation features (e.g. Modbus)
Cyber Security
■ Muti-level user passwords
■ SSH / SSL / SFTP (128-bit 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 authentication and 56-bit encryption
Rugged Rated for Reliability in Harsh
Environments
■ Immunity to EMI and heavy electrical surges
- Zero-Packet-Loss Technology
- Meets IEEE 1613 (electric utility substations)
Class 1 with copper ports or Class 2 with all fiber ports
- 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)
■ Conformal coated printed circuit boards (optional)
■ 18 AWG galvanized steel enclosure
■ Hazardous Location Compliance: Class 1 Division 2
2
RUGGEDCOM RSG2200
Management Tools
■ Web-based, Telnet /SSH, CLI management interfaces
■ SNMP v1/v2/v3 (56-bit encryption)
■ Remote Monitoring (RMON)
■ Rich set of diagnostics with logging and alarms
Universal Power Supply Options
■ Fully integrated power supply (no external adaptors)
■ Popular low-voltage DC ranges: 24VDC (10-36VDC) or
48VDC (36-72VDC)
■ Universal high-voltage range: 88-300VDC or 85-264VAC
■ Screw or pluggable terminal blocks ensure reliable
maintenance free connections
■ CSA/UL 60950 safety approved to +85°C
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
RUGGEDCOM RSG2200
Integrated Power Supply
„ Universal high-voltage range:
88-300VDC or 85-264VAC
„Popular low voltage DC ranges: 24VDC (10-36VDC), 48VDC (36-72VDC)
„ True Dual Redundant Parallel Load
Sharing (Optional)
„Screw or pluggable terminal
blocks available
Operating Temperature
Critical Alarm Relay
„ -40°C to +85°C
„No fans
„ Form-C contact ratings:
Max voltage 250VAC,125VDC
Max current 2A@250VAC,
2A@30VDC
Ethernet Port Types
„ 10/100/1000 TX RJ45
„1000SX Multimode
„1000LX Singlemode
„100FX Multimode
„100FX Singlemode
„Pluggable Optics (SFP and GBIC)
„SC and LC Connectors
Modularity
Mounting Options
Modular HMI
„ 5 available slots
„ Up to 9 Gigabit ports
„ Dual and single port modules
„Panel/Din rail
„19” rack mount
„Front or rear mount
„Front or rear mount
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
RUGGEDCOM RSG2200
3
ROS Features
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:
■ Passwords – Multi-level user passwords secures switch
against unauthorized configuration
■ SSH / SSL / SFTP – Extends capability of password
protection to add 128-bit encryption of passwords and data as they cross the network
■ Enable/Disable ports – Capability to disable ports so
that traffic can not pass
■ 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 – authentication service using MD5 hash and
providing centralized password management
■ SNMPv3 – encrypted authentication access security and data encryption (CBC-DES with 56-bit encryption key)
■ Secure socket layer – Web-based management using
SSL with data encryption (128-bit encryption key)
■ RSA – 1024 bit key for key management and key
exchange
■ TACACS+ – Terminal Access Control and Accounting Services. Client provides encrypted authentication
and authorization
■ Point to Point (PPP) – using CHAP (MD5 Hash)
authentication service
■ SFTP – Secure File Transfer Protocol using SSH encryption
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 that are ‘pruned’ to prevent loops. eRSTP
yields worst-case fault recovery 1 of 5ms times the ‘bridge
diameter’ and allows rings of up to 160 switches. For
example, a ring of ten switches will have fault recovery
times under 50ms. eRSTP implements 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). A
configurable “weighted fair queuing” algorithm controls
how frames are emptied from the queues.
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.
Link Aggregation (802.3ad)
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, and v3) 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:
■ Can be enabled on a per VLAN basis
■ Detects and filters all multicast streams regardless of whether subscribers exist
■ Supports “router-less” operation by supporting an
“active” mode
■ Restores traffic streams immediately after an RSTP
topology change
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
4
RUGGEDCOM RSG2200
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
ROS Features
SNMP (Simple Network Management Protocol)
Loss of Link Management
SNMP provides a standardized method for network
management stations 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 with data encryption (CBC-DES with
56-bit encryption key) 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).
Some intelligent electronic devices (IEDs) have dual fiber
optic ports with automatic failover to a backup port should
the primary fail. ROS ensures this mechanism works reliably
under all failure modes by appropriately disabling link signals
when required. ROS also flushes learned MAC addresses to
ensure the failover occurs quickly.
A feature of SNMP supported by ROS is the ability to
generate “traps” upon system events. RUGGEDCOM NMS, the
RUGGEDCOM management solution, can record traps from
multiple devices providing a powerful network troubleshooting
tool. It also provides a graphical visualization of the network
and is fully integrated with all RUGGEDCOM products.
Port Configuration and Status
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.
Port Statistics and RMON (Remote Monitoring)
SNTP automatically synchronizes the internal clock of all
ROS devices on the network. This allows for correlation
of time stamped events for troubleshooting.
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.
SCADA and Industrial Automation
Event Logging and Alarms
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.
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.
SNTP (Simple Network Time Protocol)
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.
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.
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.
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
HTML Web Browser and Telnet/SSH User
Interfaces
ROS provides a simple, intuitive user interface for configuration
and monitoring via a standard graphical web browser or via
Telnet/SSH. 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.
Configuration via ASCII Text File
All configuration parameters are stored in an ASCII formatted
text file that can easily be transferred via TFTP, SFTP 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.
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.
RUGGEDCOM RSG2200
5
EMI and Environmental Type Tests
IEC 61850-3 EMI Type Tests
Test
Description
IEC 61000-4-2
ESD
IEC 61000-4-3
Radiated RFI
IEC 61000-4-4
Burst (fast transient)
IEC 61000-4-5
Surge
IEC 61000-4-6
Induced (conducted) RFI
IEC 61000-4-8
Magnetic field
IEC 61000-4-29
Test Levels
Severity Levels
Enclosure contact
Enclosure air
Enclosure ports
Signal ports
D.C. power ports
A.C. power ports
Earth ground ports 3
+/- 8kV
+/- 15kV
20 V/m
+/- 4kV @ 2.5kHz
+/- 4kV
+/- 4kV
+/- 4kV
4
4
Note 1
Note 1
4
4
4
Signal ports
+/- 4kV line-to-earth, +/- 2kV line-to-line
4
D.C. power ports
A.C. power ports
Signal ports
D.C power ports
A.C. power ports
Earth ground ports
Signal ports
D.C. power ports
A.C. power ports
Signal ports
D.C. power ports
D.C. power ports
Signal ports
D.C. power ports
A.C. power ports
Signal ports
D.C. Power ports
A.C. Power ports
+/- 2kV line-to-earth, +/- 1kV line-to-line
+/- 4kV line-to-earth, +/- 2kV line-to-line
10V
10V
10V
10V
40 A/m continuous, 1000 A/m for 1 s
1000 A/m for 1 s
30% for 0.1s, 60% for 0.1s, 100% for 0.05s
30% for 1 period, 60% for 50 periods
100% for 5 periods, 100% for 50 periods
2.5kV common, 1kV diff. mode@1MHz
2.5kV common, 1kV diff. mode@1MHz
2.5kV common, 1kV diff. mode@1MHz
30V Continuous, 300V for 1s
30V Continuous, 300V for 1s
10%
2kVac (Fail-safe relay output)
1.5V DC
2kVac
5kV (Fail-safe relay output)
5kV
5kV
3
4
3
3
3
3
Note 1
5
N/A
N/A
N/A
3
3
3
4
4
3
N/A
N/A
N/A
N/A
N/A
N/A
Enclosure contact
Enclosure air
Enclosure ports
Test Levels
+/-2kV, +/-4kV, +/- 8kV
+/-4kV, +/-8kV, +/-15kV
35 V/m
Severity Levels
N/A
N/A
N/A
Signal ports
D.C. power ports
A.C. power ports
Earth ground ports 3
Signal ports
D.C. power ports
A.C. power ports
Signal ports
D.C. power ports
A.C. power ports
Signal ports
D.C. power ports
A.C. power ports
+/- 4kV @ 2.5kHz
+/- 4kV
+/- 4kV
+/- 4kV
2.5kV common mode@1MHz
2.5kV common, 1kV diff. mode@1MHz
2.5kV common, 1kV diff. mode@1MHz
5kV (Fail-safe relay output)
5kV
5kV
2kVac
1.5kVac
2kVac
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
Enclosure ports 3
D.C. power ports
Voltage dips and interrupts
IEC 61000-4-11
IEC 61000-4-12
Damped oscillatory
IEC 61000-4-16
Mains frequency voltage
IEC 61000-4-17
Ripple on D.C. power supply
IEC 60255-5
Dielectric strength
IEC 60255-5
H.V. impulse
A.C. power ports
IEEE 1613 (C37.90.x) EMI Immunity Type Tests
Test
Description
IEEE C37.90.3
ESD
IEEE C37.90.2
Radiated RFI
IEEE C37.90.1
Fast transient
IEEE C37.90.1
Oscillatory
IEEE C37.90
H.V. impulse
IEEE C37.90
Dielectric strength
Environmental Type Tests
Test
Description
Test Levels
Severity Levels
IEC 60068-2-1
Cold temperature
Test Ad
-40°C, 16 hours
N/A
IEC 60068-2-2
Dry heat
Test Bd
+85°C, 16 hours
N/A
IEC 60068-2-30
Humidity (damp heat, cyclic) Test Db
95% (non-condensing), 55°C , 6 cycles
N/A
IEC 60255-21-1
Vibration
Test Fc
2g @ (10 - 150) Hz
Class 2 2
IEC 60255-21-2
Shock
Test Ea
30g @ 11mS
Class 2 2
1 RUGGEDCOM
specified severity levels.
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”).
3 Only applicable to functional earth connections separated from the safety earth connection.
2 Class
6
RUGGEDCOM RSG2200
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
Technical Specifications
Power Supply
■ Power consumption: 28W Max
■ 24VDC: 10-36VDC, 1.2A
■ 48VDC: 36-72VDC, 0.6A
■ HI voltage AC/DC: 88-300VDC or 85-264VAC
Critical Alarm Relay
■ Form-C contact ratings:
- Max Voltage 250VAC,125VDC
- Max Current 2A@250VAC, 2A@30VDC
Physical Dimensions
■ Height: 1.74” (44mm) (1U)
■ Width: 18.3” (464mm) (fits 19” rack mount)
■ Depth: 12.4” (315mm)
■ Weight: 5.2kg
■ Ingress protection: IP40 (1mm objects)
■ Enclosure: 18 AWG galvanized steel enclosure
■ Mounting: 19” rack, DIN rail or panel mounted
Switch Properties
■ Switching method: Store and forward
■ Switching latency: 7 us (100Mbps)
■ Switching bandwidth: 18 Gbps
■ MAC addresses: 8192
■ MAC address table size: 64kbytes
■ Priority queues: 4
■ Frame buffer memory: 2 Mbit
■ Simultaneous VLANs: 255
■ VLAN ID range: 1 to 4094
■ IGMP multicast groups: 256
■ Port rate limiting
■ No head of line blocking
Regulatory Approvals
■ ISO: Designed and manufactured using an 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 CFR
Chapter 1, Subchapter J
Network Management
■ HTTPS graphical web-based, SSL (128-bit encryption)
■ SNMP v1, v2c, v3 (56-bit encryption)
■ Telnet, VT100, SSH/SFTP (128-bit encryption)
■ Command Line Interface (CLI)
■ RSA key management (1024 bit key)
■ Authentication and accounting - TACACS+ (encrypted),
RADIUS client, PPP
Warranty
■ 5 Years – Applicable to design and manufacturing related
product defects
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
EMI Immunity and Environmental Compliance
■IEC 61000-6-2 Industrial (Generic)
■IEC 61800-3 Industrial (Variable Speed Drive Systems)
■ IEC 61850-3 Electric Utility Substations
■ IEEE 1613 Electric Utility Substations
■ NEMA TS 2 Traffic Control Equipment
■ Hazardous Locations: Class 1 Division 2
IEC 61850 Compliance
■ IEC 61850-9-2 Sampled Values
■ IEC 61850-8-1 GOOSE Messages
IEEE Compliance
■ 802.3-10BaseT
■ 802.3u-100BaseTX, 100BaseFX
■ 802.3x-Flow Control
■802.3ad-Link Aggregation
■802.3af-Power Over Ethernet (PoE)
■ 802.1D-MAC Bridges
■ 802.1D-Spanning Tree Protocol
■ 802.1p-Class of Service
■802.1Q-VLAN Tagging
■802.1w-Rapid Spanning Tree Protocol
■802.1x-Port Based Network Access Control
■802.1Q-2005 (formerly 802.1s) MSTP
IETF RFC Compliance
■RFC768-UDP
■ RFC783-TFTP
■ RFC791-IP
■RFC792-ICMP
■RFC793-TCP
■ RFC826-ARP
■ RFC854-Telnet
■RFC894-IP over Ethernet
■RFC1112-IGMP v1
■ RFC1519-CIDR
■ RFC1541-DHCP (client)
■ RFC2030-SNTP
■RFC2068-HTTP
■RFC2236-IGMP v2
■ RFC2284-EAP
■RFC2475-Differentiated Services
■RFC2865-RADIUS
■ RFC3376 IGMPv3
■RFC3414-SNMPv3-USM
■RFC3415-SNMPv3-VACM
IETF SNMP MIBS
■ RFC1493-BRIDGE-MIB
■RFC1907-SNMPv2-MIB
■RFC2012-TCP-MIB
■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
RUGGEDCOM RSG2200
7
All dimensions are in millimeters, unless otherwise stated.
NOTE
Dimensional tolerances are in accordance with ISO 2768-mK, unless otherwise stated.
Dimension
Drawings
303.28
44.45 ± 0.8
285.24
438.15
Figure 31: Overall Dimensions
Overall dimensions
All dimensions are in millimeters, unless otherwise stated.
33
8
RUGGEDCOM RSG2200
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
Chapter 5
RUGGEDCOM RSG2200
Dimension Drawings
Dimension Drawings
Installation Guide
25.40
32.76
21.08
11.68
4.57
6.35
31.75
308.10
314.71
28.96
461.01
6.35
51.05
12.70
479.29
Figure 32: Rack Mount Dimensions
Rack mount dimensions
All dimensions are in millimeters, unless otherwise stated.
34
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
RUGGEDCOM RSG2200
9
Dimension Drawings
RUGGEDCOM RSG2200
Chapter 5
Dimension Drawings
486.4
476.3
38.9
51.6
Installation Guide
134.4
159.8
84.1
80.0
158.0
125.5
127.5
10.4
7.4
11.7
Figure 33: Panel and DIN Rail Mount Dimensions
Panel and DIN rail mount dimensions
All dimensions are in millimeters, unless otherwise stated.
10
RUGGEDCOM RSG2200
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
35
Order Code
6GK60220AS2 - ____ - ____ - _______- _____- _____ Z
Slot 1
PS1
Slot 3
PS2
Mount
Main
MOD
A __ + B ___ + C ___ + D ___ + E ___ S1
S2
S3
S4
S5
Slot 5
RSG2200
Slot 2
Slot 4
Slot 6
PS1 and PS2: Power Supply 1 and 2 5
0 = No Power Supply (PS2 Only)
1 = 24VDC (12-36VDC), screw terminal block
2 = 48VDC (36-72VDC), screw terminal block
3 = 88-300VDC or 85-265VAC, screw terminal block
4 = 24VDC (12-36VDC), pluggable terminal block
5 = 48VDC (36-72VDC), pluggable terminal block
6 = 88-300VDC or 85-264VAC, pluggable terminal block
Mount: Mounting Options
A = No mounting option
D = 19” rack mount kit
E = DIN and Panel mount kit
F = 19” rack, DIN and Panel mount kit
Main: Ethernet and Power Connectors
B = Ethernet on rear; LED panel on front; power connector on rear
C = Ethernet on front; LED panel on front; power connector on rear
D = Ethernet on rear; LED panel on top; power connector
on rear
E = Ethernet on front; LED panel on top; power connector
on rear
MOD: Manufacturing Modifications
0 = None
1 = Conformal coating
S1, S2, S3, S4:
Gigabit Ethernet Modules for Slots 1, 2, 3, 4 6
00 = None
01 = 2 x 10/100Tx RJ45
02 = 2 x 1000SX – Multimode, 850nm, LC, 500m
03 = 2 x 1000LX – Singlemode, 1310nm, SC connectors, 10 km
04 = 2 x 1000LX – Singlemode, 1310nm, LC connectors, 10 km
05 = 2 x 1000LX – Singlemode, 1310nm, SC connectors, 25 km
06 = 2 x 1000LX – Singlemode, 1310nm, LC connectors, 25 km
07 = 2 x 1000LX SFP – Blank (no optical transceiver)
08 = 2 x 1000SX SFP – Multimode, 850nm, LC, 500m 3
09 = 2 x 1000LX SFP – Singlemode, 1310nm, LC, 10km 3
10 = 2 x 1000LX SFP- Singlemode, 1310nm, LC, 25km 3
11 = 2 x 1000LX SFP – Singlemode, 1550nm, LC, 70km 2 3
12 = 2 x 1000LX GBIC – Blank, (no optical transceiver)
13 = 2 x 1000LX GBIC – Singlemode, 1310nm, SC, 10km 4
14 = 2 x 1000LX GBIC – Singlemode, 1310nm, SC, 25km 4
15 = 2 x 1000LX GBIC – Singlemode, 1550nm, SC, 70km 2 4
16 = 2 x 100FX – Multimode, 1300nm, ST
17 = 2 x 100FX – Multimode, 1300nm, SC
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
18 = 2 x 100FX – Multimode 1300nm, LC
19 = 2 x 100FX – Multimode 1300nm, MTRJ
20 = 2 x 100FX – Singlemode 1310nm, ST, 20km
21 = 2 x 100FX – Singlemode 1310nm, SC, 20km
22 = 2 x 100FX – Singlemode 1310nm, LC, 20km
23 = 2 x 100FX – Singlemode 1310nm, SC, 50km
24 = 2 x 100FX – Singlemode 1310nm, LC, 50km
25 = 2 x 100FX – Singlemode, 1310nm, SC, 90km
26 = 2 x 100FX – Singlemode 1310nm, LC, 90km
27 = 2 x 1000TX, SFP, RJ45
S5: Gigabit Ethernet Modules for slot 5 6
00 = None
01 = 1 x 10/100Tx RJ45
02 = 1 x 1000SX – Multimode, 850nm, LC, 500m
03 = 1 x 1000LX – Singlemode, 1310nm, SC connectors, 10 km
04 = 1 x 1000LX – Singlemode, 1310nm, LC connectors, 10 km
05 = 1 x 1000LX – Singlemode, 1310nm, SC connectors, 25 km
06 = 1 x 1000LX – Singlemode, 1310nm, LC connectors, 25 km
07 = 1 x 1000LX SFP – Blank (no optical transceiver)
08 = 1 x 1000SX SFP – Multimode, 850nm, LC, 500m 3
09 = 1 x 1000LX SFP – Singlemode, 1310nm, LC, 10km 3
10 = 1 x 1000LX SFP – Singlemode, 1310nm, LC, 25km 3
11 = 1 x 1000LX SFP – Singlemode, 1550nm, LC, 70km 2 3
13 = 1 x 1000LX GBIC – Blank, (no optical transceiver)
14 = 1 x 1000LX GBIC – Singlemode, 1310nm, SC, 10km 4
15 = 1 x 1000LX GBIC – Singlemode, 1310nm, SC, 25km 4
16 = 1 x 1000LX GBIC – Singlemode, 1550nm, SC, 70km 2 4
17 = 1 x 100FX – Multimode, 1300nm, ST
18 = 1 x 100FX – Multimode, 1300nm, SC
19 = 1 x 100FX – Multimode 1300nm, LC
20 = 1 x 100FX – Multimode 1300nm, MTRJ
21 = 1 x 100FX – Singlemode 1310nm, ST, 20km
22 = 1 x 100FX – Singlemode 1310nm, SC, 20km
23 = 1 x 100FX – Singlemode 1310nm, LC, 20km
24 = 1 x 100FX – Singlemode 1310nm, SC, 50km
25 = 1 x 100FX – Singlemode 1310nm, LC, 50km
26 = 1 x 100FX – Singlemode, 1310nm, SC, 90km
27 = 1 x 100FX – Singlemode 1310nm, LC, 90km
1 Distance ratings are typical but will depend on type of cabling, number
of connectors and splices.
2 These transceivers have an operating temperature range of -20 °C to +85°C. All other transceivers have an operating temperature range of -40°C to +85°C.
3 SFP plugable optics that consist of a blank cage (x07 for dual, E07 for
single) plus specified fiber optic interface(s) installed.
4 GBIC plugable optics that consist of a blank cage (x12 for dual, E13 for single) plus specified fiber optic interface(s) installed.
5 Power Supply 1 and 2 must be either both screw terminal block or both pluggable terminal blocks.
6 Switch must be ordered with at least one module installed.
RUGGEDCOM RSG2200
11
Example Order Codes
6GK6022-0AS21-0DB0-Z A03+B03+C00+D00+E00
19” Rack mounted, Single 24VDC power supply, 4 1000LX
Gigabit Ethernet Ports (Singlemode 1310nm fiber, SC
connectors), with Ethernet ports on the rear.
6GK6022-0AS22-2DC0-Z A01+B01+C02+D02+E00
19” Rack mounted, Dual 48VDC power supplies, 4 10/100/1000
RJ45 Ethernet Ports, 4 1000SX Gigabit Ethernet Ports (Multimode
1300nm fiber, LC connectors) Ethernet ports, with Ethernet ports
on the front.
6GK6022-0AS23-2DB1-Z A08+B08+C08+D08+E08
19” Rack mounted, Dual power supplies (HI and 48VDC),
9 1000LX Gigabit Ethernet Ports (SFP “pluggable” optics with
Multimode, 850nm, LC connectors), with Ethernet ports on the
front, conformal coating.
12
RUGGEDCOM RSG2200
9-port Managed Ethernet Gigabit Switch, 128-bit Encryption
Siemens Industry, Inc.
5300 Triangle Parkway
Norcross, GA 30092
1-800-241-4453
[email protected]
usa.siemens.com/ruggedcom
Subject to change without prior notice.
All rights reserved.
©2015 Siemens Industry, Inc.
The information provided in this brochure contains descriptions or
characteristics of performance which in case of actual use do not
always apply as described or which may change as a result of
further development of the products. An obligation to provide
the respective characteristics shall only exist if expressly agreed in
the terms of contract. Availability and technical specifications are
subject to change without notice.
All product designations may be trademarks or product names
of Siemens AG or supplier companies whose use by third parties
for their own purposes could violate the rights of the owners.