RuggedCom Switch RSG2288 User Guide

RuggedSwitch®  
RSG2288  
9-Port Modular Managed Gigabit Ethernet Switch  
Installation Guide  
February 15, 2011  
RuggedCom Inc. I 300 Applewood Crescent, Concord, Ontario, Canada L4K 5C7  
Tel: +1 905 856 5288 I Fax: +1 905 856 1995 I Toll Free: 1 888 264 0006  
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Federal Communications Commission Radio  
Frequency Interference Statement  
This equipment has been tested and found to comply with the limits for a Class A digital  
device pursuant to Part 15 of the FCC Rules. These limits are designed to provide  
reasonable protection against harmful interference when the equipment is operated in a  
commercial environment. This equipment generates, uses and can radiate radio  
frequency energy and, if not installed and used in accordance with the instruction  
manual, may cause harmful interference to radio communications. Operation of this  
equipment in a residential area is likely to cause harmful interference in which case the  
user will be required to correct the interference on his own expense.  
CAUTION  
This product contains a laser system and is classified as a “CLASS 1 LASER PRODUCT”  
Use of controls or adjustments or performance of procedures other than those specified  
herein may result in hazardous radiation exposure.  
This product contains no user-serviceable parts. Attempted service by unauthorized personnel  
shall render all warranties null and void.  
Changes or modifications not expressly approved by RuggedCom Inc. could invalidate  
specifications, test results, and agency approvals, and void the user’s authority to operate the  
equipment.  
Should this device require service, please refer to the “Warranty” section of this guide.  
IMPORTANT  
This product should be installed in a restricted access location where access can only be  
gained by service personnel or users who have been instructed about the reasons for the  
restrictions applied to the location and about any precautions that shall be taken; and access  
is through the use of a tool or lock and key, or other means of security, and is controlled by  
the authority responsible for the location.  
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Table of Contents  
Table of Contents  
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Table of Figures  
Table of Figures  
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Table of Tables  
Table of Tables  
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Product Overview  
1 Product Overview  
1.1 Functional Overview  
The RuggedSwitch® RSG2288 is an industrially hardened, fully managed,  
modular, Ethernet switch specifically designed to operate reliably in electrically  
harsh and climatically demanding utility substation and industrial environments.  
The RSG2288 includes the IEEE 1588 v2 protocol with hardware time stamping  
allowing high precision time synchronization over the Ethernet network with  
accuracies of 1us or better. The RSG2288’s superior ruggedized hardware  
design coupled with the embedded Rugged Operating System (ROSTM) provides  
improved system reliability and advanced cyber security and networking features,  
making it ideal for creating mission-critical, Gigabit networks or aggregating  
switches into a Gigabit backbone.  
The RSG2288’s modular flexibility offers 100/1000BaseX 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 RSG2288 highly versatile and  
suitable for any application. The RSG2288 is packaged in a rugged, galvanized  
steel enclosure with industrial grade DIN, panel, or 19” rack-mount mounting  
options.  
1.2 Feature Highlights  
Ethernet Ports  
Up to 9-Gigabit Ethernet ports supporting copper and fiber media  
Up to 9 100FX Fiber Fast Ethernet ports  
2 port modules for tremendous flexibility  
Fiber types supported include multimode, singlemode, and bidirectional  
single strand  
Full compliance with IEEE: 802.3, 802.3u & 802.3z  
Non-blocking, store and forward switching  
Full duplex operation and flow control (IEEE 802.3x)  
Industry standard fiber optical connectors: LC, SC, SFP, GBIC  
Long haul optics allow Gigabit distances up to 70km  
Advanced Time Synchronization  
Support for IEEE 1588 v2, GPS, and IRIG-B time synchronization  
Hardware time stamping on all ports including Gigabit  
Transparent clock operation for high precision on switched networks (1us or  
better)  
Peer-to-peer path delay measurements  
High precision TCXO (Temperature Compensated Oscillator)  
Supports master, slave and transparent clock modes  
Support for IRIG-B input and output  
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Product Overview  
Cyber Security Features  
Multi-level user passwords  
SSH/SSL encryption  
MAC-based port security  
Selective port enable/disable  
Port-based network access control using IEEE 802.1x  
VLAN support (IEEE 802.1Q) to segregate and secure network traffic  
RADIUS centralized access management  
SNMPv3 featuring encrypted authentication and session  
RuggedRated™ for Reliability in Harsh Environments  
Immunity to EMI and heavy electrical surges  
o Zero-Packet-Loss™ Technology  
o Meets IEEE 1613 Class 2 (electric utility substations)  
o Exceeds IEC 61850-3 (electric utility substations)  
o Exceeds IEEE 61800-3 (variable speed drive systems)  
o Exceeds IEC 61000-6-2 (generic industrial environment)  
o Exceeds NEMA TS-2 (traffic control equipment)  
-40 to +85°C operating temperature (no fans)  
Conformal coated printed circuit boards (optional)  
18 AWG galvanized steel enclosure  
Hazardous Location Certification: Class 1 Division 2  
Universal Power Supply Options  
Fully integrated, dual-redundant (optional) power supplies  
Universal high-voltage range: 88-300VDC or 85-264VAC  
Popular low voltage DC ranges: 12, 24 or 48 VDC  
Screw or pluggable terminal blocks for reliable, maintenance-free  
connections  
CSA/UL 60950 safety approved to +85°C  
Rugged Operating System (ROS™) Networking Features  
Simple plug and play operation: automatic learning, negotiation, and  
crossover detection  
RSTP (Rapid Spanning Tree Protocol) support: IEEE 802.1w  
eRSTP™ (Enhanced Rapid Spanning Tree) support, <5ms network fault  
recovery  
QoS (Quality of Service) support: IEEE 802.1p, for real-time traffic  
VLAN (Virtual LAN) support: IEEE 802.1Q with double tagging  
GVRP (GARP VLAN Registration Protocol) support: IEEE 802.1D  
GMRP (GARP Multicast Registration Protocol) support: IEEE 802.1D  
Link Aggregation support: IEEE 802.3ad  
IGMP Snooping for multicast filtering  
Port rate limiting and broadcast storm limiting  
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Product Overview  
Port configuration, status, statistics, mirroring, security  
Loss of link management on fiber ports  
SNTP time synchronization (both client and server)  
Industrial automation features (e.g. Modbus)  
Rugged Operating System (ROS™) Management Features  
Secure Web-based management interface  
Console menu and Command Line management interfaces via SSH, RSH,  
and Telnet  
SNMP v1, v2c, and v3  
RMON (Remote MONitoring)  
Rich set of diagnostics with logging and alarms  
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Product Overview  
1.3 Mounting Flexibility  
The RS2000 series of products have been designed with maximum mounting  
and display flexibility. Customers can order an RS2000 series switch that can be  
mounted in a standard 19” rack, 1” DIN Rail, or directly onto a panel. For rack  
mount installations, the RS2000 series can be ordered with connectors on the  
front panel or on the rear of the chassis. Placing the connectors on the rear  
allows all data and power cabling to be installed and connected at the rear of the  
rack. See Figure 1 for rack-mount orientation examples.  
Figure 1: RSG2288 Rack mount chassis orientation options – Front and rear mount.  
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Product Overview  
1.4 Ethernet Panel Description  
The Ethernet connector panel of the RSG2288 is organized into six slots, five of  
which are modular and may be selected at the time the unit is ordered. Figure 2  
shows the physical layout of these ports.  
Figure 2: RSG2288 Ethernet Port Layout  
Slots 1, 2, 3 and 4 support two-port Ethernet modules up to 1Gbps. Slot 5  
supports a one-port module up to 1Gbps. Slot 6 contains the PTP Source Card  
(refer to 2.9 for details) to support advanced time synchronization.  
Section 3.5 lists and provides specifications for the fiber optic interfaces available  
for the RSG2200 series. The complement of modules installed on a particular  
unit may be determined by reading the factory data file via the RuggedSwitch®  
ROSTM user interface.  
Each Ethernet port is equipped with an LED per port that indicates link/activity  
status information. The LED is solid for ports with a valid link, and blinks for  
activity. Figure 3 shows a copper port module in slot 1 and a fiber module in slot  
2 along with the associated link/activity LEDs for each port.  
Figure 3: Ethernet panel LEDs  
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Product Overview  
1.4.1 Fiber Optic Transceiver Orientation and Connection  
Depending on the order code of the product, the RSG2200 series products can  
be equipped with several different types of fiber optic ports. The Transmit (TX)  
and Receive (RX) connections of each port must be properly connected and  
matched for proper link and operation. Modules populated on the top row of the  
device typically have locking mechanisms or tabs facing the top of the unit.  
Modules located on the bottom row of the device have locking mechanisms or  
tabs facing the bottom of the unit.  
The diagrams in this section depict each fiber connector style supported by the  
RuggedSwitch® in order to provide a reference for the proper orientation of cable  
connections. A front view (looking into the connector) and a top view of the  
connector module are shown for each one. Note that if modules are populated on  
the bottom row of the device, the transceiver orientation will be inverted relative  
to the diagram (i.e. RX and TX will be reversed).  
Figure 4 and Figure 5 show front and top views of the pluggable fiber transceiver  
modules supported by RuggedSwitch®. Note that when the module is installed in  
the unit, most of the body of the module as shown in top views below will not be  
visible.  
Table 1: Pluggable Fiber Transceiver Modules  
Figure 5: 1000LX GBIC connector  
Figure 4: 1000LX SFP (mini-GBIC) Module and  
LC connector  
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Product Overview  
Figure 6 through Figure 9 show front and top views of the fixed fiber transceiver  
modules supported by RuggedSwitch®. Note that when the daughter card  
containing transceiver modules is installed in the unit, most of the body of the  
module as shown in top views below will not be visible.  
Table 2: Fixed Fiber Transceivers  
Figure 7: 1000LX SC connector  
Figure 6: 1000LX LC connector  
Figure 9: 100FX MTRJ connector  
Figure 8: 1000LX ST connector  
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Product Overview  
1.5 Display Panel Description  
RuggedCom RS2000 series products are equipped with a versatile display panel,  
shown in Figure 10, which is designed to provide quick status information for  
each port, as well as the entire device to allow for simple diagnostics and  
troubleshooting. It features:  
RS232 console port for ‘out of band’ console access and configuration  
Power supply and Alarm status indicators  
Convenient port status indicators conveying Link/Activity, Duplex, or Speed  
via the Mode push-button (toggles between the three display modes)  
System reset via the Mode push-button (if held for 5 seconds)  
Figure 10: RSG2288 LED Display Panel  
The device status LEDs provide a quick visual indication of the operational status  
of the unit. Table 3 lists the possible LED colors and the corresponding  
description.  
LED  
Color  
Green  
Description  
Power supply operating normal  
Power supply failure  
Red  
Off  
PS1 / PS2  
No power supply installed  
Red  
An alarm condition exists – log in to the web  
management interface or to the CLI to determine  
the alarm code  
Alarm  
Off  
No alarms exist  
Table 3: LED Display – Device status LED behavior definition  
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Product Overview  
The port-based LEDs can be cycled between three display modes: Status,  
Duplex, and Speed. Pushing the mode button causes the display mode to be  
cycled.  
Mode  
Color  
Green (Solid)  
Description  
Link detected  
Green (Blinking)  
Off  
Activity  
Status  
No link  
Green (Solid)  
Orange (Solid)  
Off  
Full-Duplex operation  
Half-Duplex operation  
No link  
Duplex  
Speed  
Green (Blinking)  
Green (Solid)  
Orange (Solid)  
Off  
1000Mb/s  
100Mb/s  
10Mb/s  
No link  
Table 4: Port Status behavior definition  
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Installation  
2 Installation  
2.1 Rack Mounting  
The RS2000 family of products can be rack mounted using the included rack  
mount adapter assemblies shown in Figure 11. Secure the rack mount adapter to  
the front side of the chassis using the included black PAN head Philips screws in  
the positions shown in Figure 13. The entire chassis can then be mounted to a  
standard 19” rack. An additional two rack mount adapters are included to  
optionally secure the rear of the chassis in high-vibration or seismically active  
locations.  
Figure 11: RS2000 Family 19” Rack Mount Adapters  
Figure 12: Rack mount adapter mounting location  
Note:  
Since heat within the RSG2288 is channeled to the enclosure, it is recommended  
that 1 rack-unit of space (1.75”) be kept unpopulated and free of equipment  
above each RS2000 series product to allow for a small amount of convectional  
airflow. Although forced airflow is not necessary, any increase in airflow will result  
in a reduction of ambient temperature that will improve long-term reliability of all  
equipment mounted within the rack space.  
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Installation  
2.2 Panel and DIN Rail Mounting  
RS2000 series products can be ordered as a Panel/DIN mount chassis. Both  
options involve the use of the panel/DIN adapters to be mounted on each side of  
the chassis enclosure. The adapter allows for the chassis to be mounted on the  
standard 1” DIN rail using the grooves in the adapter, secured using the included  
Philips screw. See Figure 13 for a PANEL/DIN mount diagram.  
Figure 13: RSG2200 PANEL/DIN RAIL mounting diagram  
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Installation  
2.3 Power Supply Wiring and Grounding  
RS2000 series products support dual redundant power supplies – “Power Supply  
1 (PS1)” and “Power Supply 2 (PS2)”. The connections for PS1, PS2 and the fail-  
safe relay are located on the terminal block as shown in Figure 14 and Figure 15.  
RSG2200 series products can be equipped with either a Philips Screw Terminal  
Block or a Phoenix Plug Terminal Block. The Philips Screw Terminal Block has  
Philips screws with a compression plate allowing either bare wire connections or  
crimped, terminal lugs. We recommend the use of #6 size ring lugs to ensure  
secure, reliable connections under severe shock or vibration. Both terminal  
blocks have a safety cover which must be removed via two Phillips screws before  
connecting any wires. The safety cover must be re-attached after wiring to  
ensure personnel safety. Refer to Table 5 below for a description of each  
terminal as well as sections 2.3.1 through 2.3.3 for wiring examples.  
Figure 14: RS2000 Series Philips Screw Terminal Block  
Philips Screw Terminal with Cover  
Philips Screw Terminal without Cover  
Safety Cover  
Terminal  
Chassis Ground  
Connection  
Surge / Chassis  
Ground Jumper  
Safety Cover  
Screws  
Phoenix Plug Terminal with Cover  
Phoenix Plug Terminal without Cover  
Safety Cover  
Screws  
Surge / Chassis  
Ground Jumper  
Safety Cover  
Terminal  
Chassis Ground  
Connection  
Figure 15: RS2000 Series Phoenix Plug Terminal Block  
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Installation  
The RS2000 Family chassis ground connection, shown in Figure 16, uses a #6-  
32 screw. It is recommended to terminate the ground connection in a #6 ring lug,  
and to use a torque setting not exceeding 15 in.lbs (1.7 Nm).  
#6-32 screw  
with ext.  
washer.  
#6 ring lug  
stainless steel standoff  
Figure 16: Chassis Ground Connection  
Terminal  
Number  
Description  
PS1 Live / +  
Usage  
PS1 Live / + is connected to the positive (+) terminal if the  
power source is DC or to the (Live) terminal if the power  
source is AC.  
1
PS1 Surge Ground is connected to the Chassis Ground  
via a jumper on the terminal block. Surge Ground is used  
as the ground conductor for all surge and transient  
suppression circuitry. NOTE: Surge Ground must be  
disconnected from Chassis Ground during HIPOT  
(dielectric strength) testing.  
2
PS1 Surge Ground  
PS1 Neutral / - is connected to the negative (-) terminal if  
the power source is DC or to the (Neutral) terminal if the  
power source is AC.  
Chassis Ground is connected to the Safety Ground  
terminal for AC inputs or the equipment ground bus for DC  
inputs. Chassis ground connects to both power supply  
surge grounds via a removable jumper.  
PS2 Live / + is connected to the positive (+) terminal if the  
power source is DC or to the (Live) terminal if the power  
source is AC.  
3
4
5
PS1 Neutral / -  
Chassis Ground  
PS2 Live / +  
PS2 Surge Ground is connected to the Chassis Ground  
via a jumper on the terminal block. Surge Ground is used  
as the ground conductor for all surge and transient  
suppression circuitry. NOTE: Surge Ground must be  
disconnected from Chassis Ground during HIPOT  
(dielectric strength) testing.  
PS2 Neutral / - is connected to the negative (-) terminal if  
the power source is DC or to the (Neutral) terminal if the  
power source is AC.  
6
7
PS2 Surge Ground  
PS2 Neutral / -  
8
9
Relay NO Contact  
Relay Common  
Normally open, failsafe relay contact.  
Failsafe relay common contact.  
10  
Relay NC Contact  
Normally closed, failsafe relay contact.  
Table 5: RS2000 Series Power terminal block connection description  
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Installation  
2.3.1 AC Power Supply Wiring Examples (RSG2288)  
Figure 17: AC Single Power Supply Wiring Figure 18: AC Dual Redundant Power Supply  
Example  
Wiring Example  
Notes:  
100-240VAC rated equipment: A 250VAC appropriately rated circuit breaker  
must be installed.  
Equipment must be installed according to the applicable country wiring  
codes.  
When equipped with two HI voltage power supplies, independent AC sources  
can be used to power the product for greater redundancy.  
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Installation  
2.3.2 DC Power Supply Wiring Examples  
Figure 19: DC Power Supply Wiring Examples  
Notes:  
125/250VDC rated equipment: A 300VDC appropriately rated circuit breaker  
must be installed.  
A circuit breaker is not required for 12, 24 or 48 VDC rated power supplies.  
For dual DC power supplies, Separate circuit breakers must be installed and  
separately identified.  
Equipment must be installed according to the applicable country wiring  
codes.  
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2.3.3 Dual Power Supplies – DC and AC Inputs  
Figure 20: DC and AC Power Supply Wiring Examples  
Notes:  
125/250VDC rated equipment: A 300VDC appropriately rated circuit breaker  
must be installed.  
100-240VAC rated equipment: A 250VAC appropriately rated circuit breaker  
must be installed.  
A circuit breaker is not required for 12, 24 or 48 VDC rated power supplies.  
Separate circuit breakers must be installed and separately identified.  
Equipment must be installed according to the applicable country wiring  
codes.  
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Installation  
2.4 Dielectric Strength (HIPOT) Testing  
For dielectric strength (HIPOT) testing in the field, users must remove the metal  
jumper located on terminal 2, 4, and 6 of the power supply terminal block. This  
metal jumper connects transient suppression circuitry to chassis ground and  
must be removed in order to avoid damage to transient suppression circuitry  
during HIPOT testing. Figure 21 shows the proper HIPOT test connections and  
should be followed to avoid damage to the device.  
Figure 21: Dielectric Strength (HIPOT) Testing  
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Installation  
2.5 Failsafe Alarm Relay Wiring and Specifications  
The “Failsafe” output relay is provided to signal critical error conditions that may  
occur on RS2000 series products. The contacts are energized upon power-up of  
the unit and remain energized unless a critical error occurs. The proper relay  
connections are shown in Figure 22. Control of the output is user-selectable and  
can be programmed via the Rugged Operating System (ROS®). One common  
application for this output is to signal an alarm if a power failure or removal of  
control power occurs.  
Figure 22: Failsafe Alarm Relay Wiring  
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Installation  
2.6 Console Port Wiring  
A RS232 console port for configuration and management of the device is located  
on the LED display module shown in Figure 23. This port is intended to be a  
temporary connection during initial configuration or troubleshooting and allows for  
direct serial access to the management console. The connection is made using  
the DB9-Female to RJ45 console cable included in the device packaging shown  
in Figure 24. Console connection settings are: 57600 baud, no parity bits, 8 data  
bits, and 1 stop bit.  
Figure 23: Console port on display board  
Figure 24 : RS2000 Series Console  
cable  
For user reference, the console cable pin-out is show in Table 6.  
RuggedCom RS232 over RJ45 pin-out specification  
Signal Name (PC is DTE)  
DCD – Carrier detect  
RxD – Receive data (to DTE)  
TxD – Transmit data (from DTE)  
DTR – Data terminal ready  
GND – Signal GND  
DSR – Data set ready  
RTS – Ready to send  
CTS – Clear to send  
DB9- Female  
RJ45 Male  
1
2
3
4
5
6
7
8
9
2
5
6
3
4
1*  
8
7
RI – Ring Indicator  
1*  
Table 6: RS232 over RJ45 console cable pin-out  
After initial configuration, the RSG2288 can be configured via a number of new  
mechanisms such as Telnet SSH, and the built-in web server. Consult the  
ROS™ User Guide for further details.  
Note:  
This port is not intended to be a permanent connection.  
Serial cable must not exceed 2m (6.5 ft) in length.  
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Installation  
2.7 Ethernet Ports  
2.7.1 RJ45 Twisted-Pair Data Ports  
RSG2288 Ethernet switches are equipped with up to nine 10/100/1000BaseTX  
ports that allow connection to standard CAT-5 UTP cable with RJ45 male  
connectors. All RS2000 series RJ45 RuggedSwitch products feature auto-  
negotiation, auto-polarity, and auto-crossover functions. The RJ45 receptacles  
can also accept and take advantage of screened (commonly known as  
“shielded”) cabling. Figure 25 shows the RJ45 port pins configuration.  
Pin 8  
Pin 1  
Figure 25 : RJ45 port pin configuration.  
10/100BaseTx Pin-out  
Pin  
Description  
RX +  
1
2
3
RX -  
TX +  
6
TX -  
NC  
4, 5, 7, 9  
Table 7: RJ45 Ethernet pin assignment  
2.7.2 Gigabit Ethernet 1000Base-TX Cabling Recommendations  
The IEEE 802.3ab Gigabit Ethernet standard defines 1000 Mbit/s Ethernet  
communications over distances of up to 100 meters using 4 pairs of category 5  
(or higher) balanced, unshielded twisted-pair cabling. For wiring guidelines,  
system designers and integrators should refer to the Telecommunications  
Industry Association (TIA) TIA/EIA-568-A wiring standard that characterizes  
minimum cabling performance specifications required for proper Gigabit Ethernet  
operation. To ensure reliable, error-free data communications, new and pre-  
existing communication paths should be verified for TIA/EIA-568-A compliance.  
Table 8 summarizes the relevant cabling standards.  
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Installation  
Cabling  
Category  
1000BaseTx  
Compliant  
No  
Required action  
New wire infrastructure required  
< 5  
5
Yes  
Verify TIA/EIA-568-A compliance  
No action required. New installations should be designed  
with Category 5e components or higher  
No action required  
5e  
Yes  
6
> 6  
Yes  
Yes  
Connector and cabling standards to be determined.  
Table 8: Cabling categories and 1000BaseTx compliance defined.  
Follow these recommendations for copper data cabling in high electrical noise  
environments:  
Data cable lengths should be as short as possible - ideally limited to 3m (10ft)  
in length. Copper data cables should not be used for inter-building  
communications.  
Power and data cables should not be run in parallel for long distances, and  
ideally should be installed in separate conduits. Power and data cables  
should intersect at 90angles when necessary to reduce inductive coupling.  
Shielded/screened cabling can optionally be used. The cable shield should  
be grounded at one single point to avoid the generation of ground loops.  
2.7.3 Transient Suppression  
RuggedCom does not recommend the use of copper cabling of any length for  
critical, real-time, substation automation applications. However, transient  
suppression circuitry is present on all copper ports to protect against damage  
from electrical transients and to ensure IEC 61850-3 and IEEE 1613 Class 1  
conformance. This means that during the transient event, communications errors  
or interruptions may occur but recovery is automatic. RuggedCom also does not  
recommend using these ports to interface to field devices across distances which  
could produce high levels of ground potential rise, (i.e. greater than 2500V)  
during line-to-ground fault conditions.  
2.8 Pluggable optics – Installation, removal, and  
precautions  
The RSG2200 series of products can be ordered with pluggable optic form  
factors: SFP (Small Form-factor Pluggable) or GBIC (Gigabit Interface  
Converter). SFP and GBIC modules can be safely inserted and removed while  
the chassis is powered and operating – this feature is also known as “hot-  
swappable”. When inserting or removing optics, there are several precautions  
that should be taken. They include:  
Ensuring that dust caps are mounted on SFP cages at all times unless a user  
is in the process of inserting or removing an SFP module. The dust caps will  
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prevent the accumulation of residue or particles that may inhibit proper  
operation.  
Ensuring that the user has properly discharged any possible electrostatic  
build-up in order to prevent electrostatic discharges (ESD). This can be  
accomplished by proper user ‘grounding’ via an ESD wrist strap, or by  
touching earth or chassis ground before performing installation or removal of  
optics. ESD can damage or shorten the life of optical modules when not  
plugged into a chassis.  
Ensuring that SFP and GBIC optical modules are always stored in an ESD-  
safe bag or other suitable ESD-safe environment, free from moisture and  
stored at the proper temperature (–40 to +85C).  
Disconnecting all cables from the SFP or GBIC module prior to insertion or  
removal of the module.  
Using only optics certified by RuggedCom Inc. with RuggedCom products.  
Damage can occur to optics and product if compatibility and reliability have  
not been properly assessed.  
2.8.1 Module Insertion – GBICs and SFPs  
Special attention must be paid to the orientation of SFP and GBIC modules upon  
installation in the RuggedSwitch® chassis. For example, Figure 26 shows the  
proper orientation of SFP modules installed to both upper and lower slots.  
Modules on the upper row must be inserted top-side up, and modules on the  
lower row must be inserted top-side down. SFP modules should be inserted with  
the bail-latch in the locked position.  
Figure 26: SFP Orientation for top row and bottom row ports  
Both SFP and GBIC modules should gently slide into their ports and should lock  
in place when fully inserted. Dust covers should be in place when installing the  
modules, and should always be in place when cables are not connected.  
Diagrams of both SFP and GBIC modules are provided in Table 1 as a guide to  
the orientation of each type.  
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2.8.2 GBIC Module Removal  
GBIC Modules have two locking latches, one on either side of the module, as  
shown in Figure 27. To remove a GBIC module, disconnect any cables and  
replace the dust cover to protect the optics. Depress both latches simultaneously  
and gently pull the module from the chassis. The module should be immediately  
stored in an ESD-safe environment.  
Figure 27: Locking latch location on GBIC optical modules  
2.8.3 SFP Module Removal  
SFP Modules are removed using the metal bail latch located on the top of the  
module as shown in Figure 28. To remove the SFP module, disconnect any  
cables and replace the dust cover to protect the optics. Grasp the bail latch and  
gently pull outwards to unlock and remove the module. Removal of an SFP  
module is shown further in Figure 29. The module should be immediately stored  
in an ESD-safe environment.  
Figure 28: SFP Bail Latch location  
Figure 29: SFP Removal  
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2.9 Precision Time Protocol (PTP) Card and IEEE1588 v2  
The Precision Time Protocol (PTP) card option for the RSG2288 adds the ability  
to provide time synchronization via IRIG-B, and to synchronize to an external  
IRIG-B source or to the GPS network. The time synchronization capabilities of  
the RSG2288, both with and without the PTP card option, are summarized  
below:  
Without PTP  
Card  
With PTP  
Card  
Synchronization Source  
NTP  
IEEE 1588 v2  
IRIG-B PWM  
GPS  
Table 9: RSG2888 Time Synchronization Sources  
Without PTP  
Synchronization Service  
Card  
With PTP  
Card  
NTP  
IEEE 1588 v2  
IRIG-B AM  
IRIG-B PWM  
Table 10: RSG2288 Time Synchronization Services  
NTP (Network Time Protocol) is the standard for synchronizing the clocks of  
computer systems throughout the Internet and is suitable for systems that require  
accuracies in the order of 1 ms.  
IRIG-B (Inter Range Instrumentation Group, mod B) time synchronization is an  
even older, established, inter-device time synchronization mechanism providing  
accuracy on the order of 1ms to 1µs.  
The Global Positioning System (GPS), as a source of accurate time, requires an  
external GPS antenna input to provide accurate time signals on the order of  
500ns. The RSG2288 can use the GPS receiver on the PTP card to provide the  
time base for the system.  
IEEE 1588 is designed to fill a niche not well served by either of the two older,  
dominant protocols, NTP and IRIG-B. IEEE 1588 is designed for local systems  
requiring accuracies on the order of 100 nanoseconds. IEEE 1588 is also  
designed for applications that cannot bear the cost of a GPS receiver at each  
node or for which GPS signals are inaccessible. Every Ethernet port on the  
RSG2288 supports IEEE1588.  
The PTP card option is an ideal product for use in existing installations already  
well served by NTP, IRIG-B or GPS. It also provides a migration path for the use  
of the new IEEE 1588 v2 standard. As more end devices enter the market with  
IEEE 1588 compatibility this card provides an easy transition to this new time  
synchronization standard.  
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2.9.1 PTP Card Panel Description  
Figure 30: PTP Card Panel Description  
The four BNC connectors on front panel of the PTP card are defined in Table 11,  
below:  
Connector  
Function  
IRIG-B123 AM signal output, software  
enabled  
AM OUT  
IRIG-B003 PWM or 1 PPS signal output,  
software selectable  
TTL OUT  
TTL IN  
TTL-level IRIG-B PWM signal input  
GPS antenna connector – please refer to  
section 2.9.2 for detail.  
GPS IN  
Table 11: PTP Card Connectors  
Note that only one input is active at a time. The IRIG-B PWM input or the GPS  
input is selected in software. The color of the LED on the front panel of the PTP  
card indicates the status of the incoming timing signal, depending on the input  
selected:  
Color  
GPS Input  
IRIG-B PWM Input  
Valid signal  
Green  
Red  
Lock  
Holdover mode (GPS lock has Problems with IRIG-B signal  
been achieved but the receiver  
no longer sees the minimum  
number of required satellites.)  
Off  
No signal detected  
No signal detected  
Table 12: PTP Card LED Functions  
2.9.2 GPS Antenna Installation  
The signals received from the GPS satellite network are at a frequency of  
1575.42 MHz with a minimum power of -162 dBW. The GPS antenna must have  
a clear view of the sky in order to receive the low power signals and track the  
maximum number of satellites. Rooftops or other structures clear of obstructions  
and with a clear view of the horizon are ideal.  
Elements of a typical GPS antenna system:  
Active GPS Antenna (required)  
Coaxial cable to connect the elements (required)  
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Lightning arrestor (optional)  
Line Amplifier or Filter (optional)  
To ensure correct GPS signal reception, the overall system of antenna, cabling,  
lightning arrestor, line amplifier and filters requires a relative gain which should  
be greater than 5 dBi but less than 18 dBi (to avoid signal saturation at the  
receiver input).  
2.9.2.1 GPS Antenna  
There are two major types of GPS antenna: passive and active. A passive  
antenna requires no power and is an option when signal strength is not a  
concern. An active antenna has a built in Low Noise Amplifier (LNA) to increase  
the strength of the signal, and to compensate for the signal loss in a long cable  
connection. Active antennas are used when the antenna input is connected to  
the receiver through a coaxial cable (usually longer than 3 m) or any high loss  
transmission path.  
The PTP Card requires an active antenna with the following specifications:  
Characteristic  
Polarization  
Active Antenna  
Right-Hand Circular Polarized  
1.57542 GHz ± 1.023 MHz  
5 VDC  
Receive Frequency  
Power Supply  
DC Current  
< 10 mA at 3 VDC  
Select antenna gain based on system  
configuration  
Antenna Gain  
Total Gain at PTP GPS Input (includes  
antenna gain, cable loss, lightning  
arrestor loss, line amplifier gain and filter  
loss)  
Total Gain 18 dBi  
Axial Ratio  
< 3 dB  
< 2.5  
Output VSWR  
Table 13: GPS Antenna Specifications  
Notes:  
The PTP card’s GPS input provides 5 VDC at up to 10 mA to power the  
antenna.  
Best results can be achieved with a total gain of 16 dB (includes antenna  
gain, cable loss, lightning arrestor loss, line amplifier gain and filter loss) at  
the antenna input.  
2.9.2.2 Antenna Cabling  
Cable Impedance:  
RuggedCom recommends low loss 50 coaxial cabling.  
Cable Delay  
Using any length of coaxial cable will add some time delay to the GPS signal  
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which degrades the accuracy of the calculated time and position. The time delay  
is dependent on the type of dielectric material in the cable and ranges from 1 to 2  
ns/ft. RuggedCom provides a method to account for this delay through the web  
management interface by entering the time delay into the cable compensation  
box under PTP General Configuration The table below gives some examples of  
the delay that can be expected based on the dielectric type.  
Propagation  
Time Delay  
Dielectric Type  
Velocity  
(% of c)  
(ns/ft)  
Solid Polyethylene (PE)  
Foam Polyethylene (FE)  
Foam Polystyrene (FS)  
Air Space Polyethylene (ASP)  
Solid Teflon (ST)  
1.54  
1.27  
65.9  
80.0  
1.12  
91.0  
1.15-1.21  
1.46  
84-88  
69.4  
Air Space Teflon (AST)  
1.13-1.20  
85-90  
Table 14: Coaxial Cable Delay  
2.9.2.3 Lightning Considerations  
Although it is not possible to protect the antenna from a direct lighting strike, the  
antenna and connected components can be protected from secondary effects  
through installation location and protection devices.  
Install the antenna at least 15 meters away from and lower than any structures  
that attract lightning. GPS antenna damage is usually not the result of a direct  
lightning strike, but due to high currents induced by the effects of a lightning  
strike on a nearby structure. RuggedCom also recommends installing lightning  
arrestors in the antenna line to protect the receiver and connected devices. If a  
lightning arrestor is installed, it is important to ensure that it has a low impedance  
path to the ground.  
2.9.2.4 Line Amplification and Filtering  
Although an active antenna has gain, depending on the length of the coaxial  
cable used it may not be enough in which case a line amplifier will be required as  
well.  
Most active antennas include filters; however, if there is a high potential for  
electromagnetic interference, such as from the near field of a radio transmitter,  
though the antenna system, additional antenna line filtering may be necessary.  
2.9.3 IRIG-B Outputs  
The PTP card provides IRIG-B outputs in both AM (Amplitude Modulated) and  
PWM (Pulse Width Modulated) formats. The IRIG-B123 signal format is  
supported on the AM OUT port, and the IRIG-B003 signal format is supported on  
the TTL OUT port. Enabling and disabling the outputs, and selecting between  
PWM and PPS on the TTL OUT port, is done through software.  
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The number of IRIG-B devices that can be connected to the AM or PWM sources  
is dependent on the cabling type and length as well as the input impedances of  
the devices. Figure 31 shows a simplified circuit diagram of the interface between  
an IRIG-B source and connected devices.  
Source  
Cabling  
Rc  
Device  
Rs  
Vs  
RL/N  
Figure 31: IRIG-B Simplified Schematic  
The maximum number of devices (N) that can be connected to the source is  
determined by checking if the source current (IS) required to drive the connected  
devices is less than the maximum drive current the source can provide, and  
verifying that the load voltage (VL) the connected devices see is greater than the  
minimum required voltage. Please refer to section 3.6.1 for specifications of the  
IRIG-B output port.  
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Technical Specifications  
3 Technical Specifications  
3.1 Power Supply Specifications  
Input Range  
Internal  
Fuse  
Max. Power  
Power Supply Type  
Consumption3  
Min  
Max  
Rating  
12 – 24 VDC  
48 VDC  
HI (125/250 VDC) 1  
HI (110/230 VAC) 1  
10 VDC  
36 VDC  
36 VDC  
59 VDC  
6.3A(F) 2  
3.15A(T) 2  
28W  
88 VDC  
85 VAC  
300 VDC  
264 VAC  
2A(T) 1,2  
Notes:  
1. The “HI” power supply is the same power supply for both AC and DC.  
2. (F) Denotes fast-acting fuse, (T) denotes time-delay fuse.  
3. Power consumption varies based on configuration. 10/100Base-TX ports  
consume roughly 1W less than fiber optic ports.  
3.2 Failsafe Relay Specifications  
Parameter  
Value (Resistive Load)  
250VAC, 125VDC  
Max Switching Voltage  
Rated Switching Current  
2A @ 250VAC  
0.15A @ 125VDC, 2A @ 30VDC  
Max Switching Capacity  
150W, 500VA  
3.3 Networking Standards Supported  
Standard  
Description  
IEEE 802.3  
10BaseT  
100BaseTX / 100BaseFX  
1000BaseSX/LX  
IEEE 802.3u  
IEEE 802.3z  
IEEE 802.3ab  
IEEE 802.3x  
IEEE 802.1D  
IEEE 802.1Q  
IEEE 802.1p  
IEEE 1588 v2  
1000BaseTx  
Full Duplex Operation, Flow Control  
MAC Bridges  
VLAN (Virtual LAN) Tagging  
Class of Service  
Precision Time Protocol  
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3.4 Copper Ethernet Port Specifications  
The RSG2288 can be ordered with two-port 10/100/1000Tx modules in slots 1, 2,  
3, and 4, and a one-port 10/100/1000Tx module in 5. All copper ports have the  
following specifications:  
Parameter  
Speed  
Specification  
Notes  
10/100/1000 Mbps  
FDX / HDX  
> Category 5  
TIA/EIA T568A/B  
100m  
Auto-negotiating  
Auto-negotiating  
Duplex  
Cable-Type  
Wiring Standard  
Max Distance  
Connector  
Isolation  
Shielded/Unshielded  
Auto-Crossover, Auto-Polarity  
RJ45  
1.5kV  
RMS 1-minute  
3.5 Fiber Ethernet Optic Specifications  
The following sections detail fiber optical specifications on ports that can be  
ordered with a RSG2200 series Ethernet switch. The user determines the type of  
optics at time of ordering, and can determine the modules installed on a  
particular unit by reading the factory data file via the ROS® user interface.  
Sections 3.5.1 and 3.5.2 list the specifications of the optical transceivers used in  
the fiber Ethernet modules available for the RSG2288. The specifications are  
organized by signaling speed and then by order code. Module order codes are  
contained within each product when assembled and configured at the factory.  
Consult the RuggedCom ROS User Guide for help in obtaining the factory  
configuration data.  
3.5.1 Fast Ethernet (100Mbps) Optical Specifications  
Rx  
Rx  
Distance  
(typ.)  
(km)  
Power  
Budget  
(dB)  
Order  
Code  
Connector  
Type  
Cable Type  
(um)  
Tx λ (typ.)  
(nm)  
Tx min Tx max  
Mode  
Sensitivity Saturation  
(dBm)  
(dBm)  
(dBm)  
(dBm)  
62.5/125  
50/125  
62.5/125  
50/125  
9/125  
-19  
-22.5  
-19  
12  
8.5  
12  
8.5  
13  
12  
8.5  
17  
16  
19  
29  
30  
FXA01 MM  
ST  
1300  
1300  
-14  
-31  
-14  
2
2
FXA02 MM  
FXA11 MM  
SC  
LC  
-14  
-31  
-14  
-22.5  
-19  
1300  
1300  
-14  
-14  
-32  
-31  
-14  
-14  
2
2
62.5/125  
50/125  
9/125  
-19  
FXA03 MM MTRJ  
-22.5  
-15  
FXA04 SM  
FXA05 SM  
FXA06 SM  
FXA07 SM  
FXA08 SM  
ST  
SC  
LC  
SC  
LC  
1310  
1310  
1310  
1310  
1310  
-8  
-8  
-8  
0
-32  
-31  
-34  
-34  
-35  
-3  
-7  
-7  
-3  
-3  
20  
20  
20  
50  
50  
9/125  
-15  
9/125  
-15  
9/125  
-5  
9/125  
-5  
0
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FXA09 SM  
FXA10 SM  
SC  
LC  
9/125  
9/125  
1310  
1310  
0
0
5
5
-37  
-37  
0
0
90  
90  
37  
37  
3.5.2 Gigabit Ethernet (1000Mbps) Optical Specifications  
Fixed Gigabit Transceivers  
Rx  
Rx  
Distance  
(typ.)  
(km)  
Power  
Budget  
(dB)  
Order  
Code  
Connector  
Type  
Cable Type  
(um)  
Tx λ (typ.)  
(nm)  
Tx min Tx max  
Mode  
Sensitivity Saturation  
(dBm)  
(dBm)  
(dBm)  
(dBm)  
50/125  
62.5/125  
9/125  
FG01 MM  
LC  
850  
-9  
-2.5  
-20  
0
0.5  
11  
FG02 SM  
FG03 SM  
FG04 SM  
FG05 SM  
SC  
LC  
SC  
LC  
1310  
1310  
1310  
1310  
-10  
-9.5  
-5  
-3  
-3  
0
-20  
-21  
-20  
-24  
-3  
-3  
-3  
-3  
10  
10  
25  
25  
10  
11.5  
15  
9/125  
9/125  
9/125  
-7  
-3  
17  
SFP Gigabit Transceivers  
Rx  
Rx  
Distance  
(typ.)  
(km)  
Power  
Budget  
(dB)  
Order  
Code  
Connector  
Type  
Cable Type  
(um)  
Tx λ (typ.)  
(nm)  
Tx min Tx max  
Mode  
Sensitivity Saturation  
(dBm)  
(dBm)  
(dBm)  
(dBm)  
50/125  
62.5/125  
9/125  
9/125  
9/125  
0.5  
0.3  
10  
25  
70  
FG51 MM  
LC  
850  
-9  
-2.5  
-20  
0
11  
FG52 SM  
FG53 SM  
FG543 SM  
LC  
LC  
LC  
1310  
1310  
1550  
-9.5  
-7  
0
-3  
-3  
5
-19  
-23  
-23  
-3  
-3  
-3  
9.5  
16  
23  
GBIC Gigabit transceivers  
Rx  
Rx  
Distance  
(typ.)  
(km)  
Power  
Budget  
(dB)  
Order  
Code  
Connector  
Type  
Cable Type  
(um)  
Tx λ (typ.)  
(nm)  
Tx min Tx max  
Mode  
Sensitivity Saturation  
(dBm)  
(dBm)  
(dBm)  
(dBm)  
FG71 SM  
FG72 SM  
FG733 SM  
SC  
SC  
SC  
9/125  
9/125  
9/125  
1310  
1310  
1550  
-9.5  
-7  
-3  
-3  
5
-21  
-3  
10  
25  
70  
11.5  
17  
-24  
-23  
-3  
-3  
0
23  
Notes:  
1. Maximum segment length is greatly dependent on factors such as fiber  
quality, and number of patches and splices. Please consult RuggedCom  
sales associates when determining maximum segment distances.  
2. Distance ratings are typical but will depend on type of cabling, number of  
connectors and splices.  
3. 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.  
4. All optical power figures are listed as dBm averages.  
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Technical Specifications  
3.6 PTP Card Specifications  
IRIG-B PWM Input  
Parameter  
Input Voltage  
Typical Value  
TTL-Compatible  
Input Impedance  
> 200 kΩ  
3.6.1 IRIG-B Outputs  
IRIG-B003 PWM Output  
Parameter  
Typical Value  
100 mA  
5 Vp-p  
Output Current (IS)  
Output Voltage (VS)  
Output Impedance (RS)  
50 Ω  
Table 15: IRIG-B PWM Output Specifications  
IRIG-B123 AM Output  
Parameter  
Typical Value  
1 kHz  
Carrier Frequency  
Modulation Depth  
Output Current (IS)  
Output Impedance (RS)  
Output Voltage (VS)  
3:1 ±10%  
24 mA  
10 Ω  
6 Vp-p  
Table 16: IRIG-B AM Output Specifications  
3.7 Operating Environment  
Parameter  
Range  
Comments  
Ambient Temperature as  
measured from a 30cm radius  
surrounding the center of the  
enclosure.  
Ambient Operating  
Temperature  
-40 to 85C  
Ambient Relative  
Humidity  
5% to 95%  
Non-condensing  
Ambient Storage  
Temperature  
-40 to 85C  
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3.8 Mechanical Specifications  
Parameter  
Dimensions  
Value  
Comments  
(Length x Width x Height)  
with mounting brackets  
installed  
18.29 x 12.14 x 1.75 inches  
(464,57) x (308,356) x (44,45)  
mm  
Weight  
10 lb (4.5 Kg)  
Enclosure  
18AWG galvanized steel  
Figure 32: RSG2288 Mechanical Dimensions  
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Type Tests  
4 Type Tests  
4.1 IEC 61850-3 Type Tests  
Severity  
Levels  
Test  
Description  
Enclosure Contact  
Test Levels  
+/- 8kV  
+/- 15kV  
4
4
x
x
4
4
4
IEC 61000-4-2  
IEC 61000-4-3  
ESD  
Enclosure Air  
Enclosure ports  
Signal ports  
Radiated RFI  
20 V/m  
+/- 4kV @ 2.5kHz  
+/- 4kV  
D.C. Power ports  
A.C. Power ports  
Earth ground ports  
Burst (Fast  
Transient)  
IEC 61000-4-4  
IEC 61000-4-5  
IEC 61000-4-6  
+/- 4kV  
+/- 4kV  
+/- 4kV line-to-earth, +/- 2kV line-to-  
Signal ports  
4
3
4
line  
+/- 2kV line-to-earth, +/- 1kV line-to-  
Surge  
D.C. Power ports  
A.C. Power ports  
line  
+/- 4kV line-to-earth, +/- 2kV line-to-  
line  
Signal ports  
10V  
10V  
10V  
10V  
3
3
3
3
Induced  
(Conducted)  
RFI  
D.C Power ports  
A.C. Power ports  
Earth ground ports  
Magnetic  
Field  
IEC 61000-4-8  
IEC 61000-4-29  
IEC 61000-4-11  
Enclosure ports  
D.C. Power ports  
40 A/m continuous, 1000 A/m for 1 s  
N/A  
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  
N/A  
N/A  
N/A  
Voltage Dips  
& Interrupts  
A.C. Power ports  
2.5kV common, 1kV differential mode  
@ 1MHz  
2.5kV common, 1kV differential mode  
@ 1MHz  
Signal ports  
3
3
Damped  
Oscillatory  
IEC 61000-4-12  
D.C. Power ports  
2.5kV common, 1kV differential mode  
@ 1MHz  
A.C. Power ports  
Signal ports  
3
4
4
Mains  
Frequency  
Voltage  
Ripple on  
D.C. Power  
Supply  
30V Continuous, 300V for 1s  
IEC 61000-4-16  
IEC 61000-4-17  
IEC 60255-5  
D.C. Power ports  
30V Continuous, 300V for 1s  
D.C. Power ports  
10%  
3
Signal ports  
D.C. Power ports  
A.C. Power ports  
Signal ports  
D.C. Power ports  
A.C. Power ports  
2kV AC (Fail-Safe Relay output)  
N/A  
N/A  
N/A  
N/A  
N/A  
N/A  
Dielectric  
Strength  
1.5kVDC  
2kVAC  
5kV (Fail-Safe Relay output)  
IEC 60255-5  
H.V. Impulse  
5kV  
5kV  
Table 17 - IEC 61850-3 Type Tests  
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Type Tests  
4.2 IEEE 1613 Type Tests  
IEEE  
IEEE Test  
1613  
Description  
Test Levels  
Clause  
Enclosure Contact  
+/- 8kV  
C37.90.3  
C37.90.2  
9
8
ESD  
Enclosure Air  
Enclosure ports  
Signal ports  
+/- 15kV  
Radiated RFI  
35 V/m  
+/- 4kV @ 2.5kHz  
D.C. Power ports  
A.C. Power ports  
Earth ground ports  
Signal ports  
+/- 4kV  
C37.90.1  
7
Fast Transient  
+/- 4kV  
+/- 4kV  
2.5kV common mode @ 1MHz  
C37.90.1  
C37.90  
C37.90  
7
6
6
Oscillatory  
D.C. Power ports  
A.C. Power ports  
Signal ports  
D.C. Power ports  
A.C. Power ports  
Signal ports  
2.5kV common & differential mode @ 1MHz  
2.5kV common & differential mode @ 1MHz  
5 kV (Failsafe Relay)  
H.V. Impulse  
5 kV  
5 kV  
2kVAC  
1.5kVDC  
Dielectric  
Strength  
D.C. Power ports  
A.C. Power ports  
2kVAC  
Table 18 - IEEE 1613 Type Tests  
Notes:  
If the unit contains copper ports, the IEEE 1613 conformance is Class 1 (During  
disturbance errors may occur but recovery is automatic).  
If the unit contains all fiber ports, the IEEE 1613 conformance is Class 2 (During  
disturbance no errors will occur).  
4.3 IEC Environmental Type Tests  
Severity  
Levels  
Test  
Description  
Cold  
Test Levels  
IEC 60068-2-1  
IEC 60068-2-2  
IEC 60068-2-30  
IEC 60255-21-1  
IEC 60255-21-2  
Test Ad  
Test Bd  
Test Db  
-40 deg. C, 16 Hours  
+85 deg. C, 16 Hours  
N/A  
N/A  
Temperature  
Dry Heat  
Humidity (Damp  
Heat, Cyclic)  
95% (non-condensing), 55°C, 6  
cycles  
N/A  
Vibration  
Shock  
2g @ (10-150) Hz  
30g @ 11 ms  
Class 2  
Class 2  
Table 19 - Environmental Type Tests  
Note:  
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).”  
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Agency Approvals  
5 Agency Approvals  
Agency  
Standards  
Comments  
CSA  
CSA C22.2 No. 60950, UL 60950  
Passed  
CE Compliance is  
claimed via Declaration  
of Self Conformity  
Route  
CE  
EN 60950, EN 61000-6-2  
FCC  
CISPR  
FCC Part 15, Class A  
EN55022, Class A  
Passed  
Passed  
Passed  
FDA/CDRH  
21 CFR Chapter 1, Subchapter J  
EN60825-1:1994 + A11:1996 +  
A2:2001  
IEC/EN  
Passed  
6 Warranty  
RuggedCom warrants this product for a period of five (5) years from date of  
purchase. This product contains no user-serviceable parts. Attempted service by  
unauthorized personnel shall render all warranties null and void. For warranty  
details, visit http://www.ruggedcom.com/ or contact your customer service  
representative.  
Should this product require warranty or service, contact the factory at:  
RuggedCom Inc.  
300 Applewood Crescent  
Concord, Ontario  
Canada L4K 5C7  
Phone:+1 905 856 5288  
Fax: +1 905 856 1995  
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