Sel SEL-2243 User manual
Schweitzer Engineering Laboratories, Inc. SEL-2243 Data Sheet
Every SEL Axion®node requires at least one SEL-2243 Power Coupler module. The SEL-2243 serves two purposes in
an Axion system:
1. It is the power supply for all modules installed in the node, and;
2. It provides two dedicated EtherCAT®ports so that multiple Axion nodes can operate together.
Front Panel
Figure 1 SEL-2243 Front Panel With RJ45 Connectors
Power Supply Operation
One SEL-2243 has sufficient power capacity to accom-
modate an entire Axion node. The terminal strip at the
bottom of the unit, as seen in Figure 1, is the connection
point for incoming power. All Axion modules have a
55-position IEC C-style connector that provides a com-
munications and power interface to the backplane. The
SEL-2243 provides power to the node via the backplane
connector.
The power coupler module uses the same power supply
design that you would find in SEL protective relays. The
Axion provides test-proven superior performance and
availability, while also allowing for redundant power
couplers in a node for applications that need these. If you
install two power couplers in a node, both modules
actively share load and provide the necessary power for
node functions. If one SEL-2243 becomes unavailable,
there is zero switching delay or power loss to the node.
EtherCAT Operation
Each SEL-2243 provides two dedicated ports for Ether-
CAT networks. The ports will either be standard
10/100BASE-T or optional 100BASE-FX Ethernet ports.
EtherCAT is a real-time fieldbus protocol (see
Appendix E in the ACSELERATOR RTAC SEL-5033
Instruction Manual) that we can use to connect an RTAC
to I/O modules in an Axion system. If the installation has
only one node, then the backplane transmits EtherCAT
messages. Alternatively, if you use an SEL-3530 RTAC,
or if you need more I/O than will fit in a node, then the
ports on a power coupler module provide a mechanism
for extending the EtherCAT network through the use of
dedicated Ethernet wiring. Refer to EtherCAT in
Section 2: Communications in the ACSELERATOR RTAC
SEL-5033 Instruction Manual to learn more about con-
figuring a network.
If an Axion node contains two SEL-2243 modules, then
the EtherCAT ports in both power couplers will operate
normally even if one power supply becomes unavailable.
The remaining power supply will serve as the source for
all I/O modules and communications needs.
SEL-2243 Power Coupler
SEL-2243 Data Sheet Schweitzer Engineering Laboratories, Inc.
2
Mechanical Installation
Each SEL-2242 chassis/backplane has ten slots, labeled
Athrough J. Only slots A, B, and Csupport the SEL-2243
Power Coupler module.
To install the power coupler, tip the top of the module
away from the chassis, align the notch on the bottom of
the module with the slot you have selected in the chassis,
and place the module on the bottom lip of the chassis
(Figure 2). The module is aligned properly when it rests
entirely on the lip of the chassis.
Figure 2 Proper Module Placement
Next, carefully rotate the module into the chassis, mak-
ing sure that the alignment pin fits into the corresponding
slot at the top of the chassis (refer to Figure 3). Finally,
press the module firmly into the chassis and tighten the
chassis retaining screw.
Figure 3 Final Module Alignment
Connections
General
Terminals are not intended for use with bare conductors.
Solid or stranded wire can be used with ferrule or spade
terminals. The customer is responsible for verifying that
wire insulation and temperature ratings are sufficient for
their application.
Power
DANGER
Contact with this circuitry may cause electrical shock that can result in
injury or death.
CAUTION
Capacitors should be safely discharged during decommissioning.
The power terminals on the high-voltage power coupler
(1 (+/H) and 2 (–/N)) must connect to 120/240 Vac with
the proper polarity or to 125/250 Vdc. The power
terminals on the low-voltage power coupler (1 (+/H) and 2
(–/N)) must connect to 24/48 Vdc. The power terminals
are isolated from the chassis ground. Use 14 AWG
(2.1 mm2) with an external 15 A branch circuit
protection device or 12 AWG (3.3 mm2) wire with an
external 20 A branch circuit protection device.
Grounding (Earthing)
Connect the ground terminal labeled GND (3) on the
power coupler to a rack frame or switchgear ground for
proper safety and performance. Use 14 AWG (2.5 mm2)
wire of sufficient current capacity and insulation voltage
ratings that is less than 2 m (6.6 ft) in length for the
ground connection.
EtherCAT Ports
CAUTION
Always ensure that power couplers are not connected to any Ethernet
switches or other Ethernet devices, including RJ45-to-fiber-optic
converters. The power coupler EtherCAT ports are only for direct
connections between power couplers of the same type or to an RTAC
EtherCAT port. Connecting a power coupler to any other Ethernet device
can cause the EtherCAT network to stop communicating completely or
have unpredictable behavior.
The SEL-2243 includes two 10/100BASE-T or
100BASE-FX Ethernet ports dedicated for EtherCAT
protocol. Use a standard RJ45 connector for a copper
port and an LC connector for a fiber-optic port to connect
PORT 1 or PORT 2 of the module. Make each connection by
using a direct cable to the next device. Use SEL cable
SEL-C627 with copper ports. Copper cables for EtherCAT
connections should be less than 3 m (10 ft) in length.
Buttons and LEDs
Each power coupler includes a LAMP TEST button useful
for system testing. When depressed, all module LEDs on
the terminal side and front panel (rack mount only) will
illuminate.
The green LED labeled POWER on the SEL-2243 will illu-
minate if incoming power is present and the power sup-
ply is operating normally. The LEDs labeled ENABLED
and ALARM are related to EtherCAT network operation.
The green ENABLED LED will illuminate when the mod-
ule is operating normally on the network. The ALARM
LED will illuminate during network initialization or
when there is a problem with the network.
Schweitzer Engineering Laboratories, Inc. SEL-2243 Data Sheet
3
Specifications
Compliance
Designed and manufactured under an ISO 9001 certified quality
management system
UL Listed to U.S. and Canadian safety standards (File E220228;
NRAQ, NRAQ7)
CE Mark
Product Standards
IEC 60255-26:2013 - Relays and Protection Equipment: EMC
IEC 60255-27:2014 - Relays and Protection Equipment: Safety
IEC 60825-2:2004 +A1:2007 +A2:2010 for fiber-optic communications
IEC 61850-3:2013 - Comm Systems for Power Utility Automation
General
Operating and Storage Temperature Range
–40° to +85°C (–40° to +185°F)
Units should be stored and transported in their original packaging.
Note:Operating temperature evaluated for UL ambient 0° to 40°C.
Operating Environment
Pollution Degree: 2
Overvoltage Category: II
Insulation Class: 1
Relative Humidity: 5%–95%, noncondensing
Maximum Altitude: 2000 m
Vibration, Earth Tremors: Class 1
EtherCAT Ports
Ports: 2
Data Rate: Automatic
Connector: RJ45 Female or LC Fiber
Protocols: Dedicated EtherCAT
RJ45 Ports
Cable Length: <3 m
Fiber-Optic Ports (Class 1 LASER/LED)
Wavelength: 1300 nm
Optical Connector Type: LC
Multimode Option
Link Budget: 11 dB
Min. TX Power: –20 dBm
Min. RX Sensitivity: –31 dBm
Fiber Size: 50–200 µm
Approximate Range: 2 km
Data Rate: 100 Mbps
Typical Fiber Attenuation: –2 dB/km
Single-Mode Option
Link Budget: 10 dB
Min. TX Power: –15 dBm
Min. RX Sensitivity: –25 dBm
Fiber Size: 9 µm
Approximate Range: 15 km
Data Rate: 100 Mbps
Typical Fiber Attenuation: –0.4 dB/km
Power Supply
AC Input Voltage (High-Voltage Model)
Note: Single phase.
Nominal Supply Voltage: 120–240 Vac, 50–60 Hz
Operational Voltage Range: 85–264 Vac, 40–70 Hz
DC Input Voltage (High-Voltage Model)
Nominal Supply Voltage: 125–250 Vdc
Operational Voltage Range: 85–300 Vdc
DC Input Voltage (Low-Voltage Model)
Nominal Supply Voltage: 24–48 Vdc
Operational Voltage Range: 19.1–57.6 Vdc polarity dependent
Note: UL operational voltage range is equal to the nominal voltage
range ±10 percent.
Fuse Rating
High-Voltage Model, F1: 3.15 A, high breaking capacity, time lag T,
250 V (5x20 mm, T3.15AH 250 V)
High-Voltage Model,
F2 (Non-Serviceable):
8 A, high breaking capacity, time lag T,
60 Vdc (2.7x6.1 mm, T8A 60 Vdc)
Low-Voltage Model: 6.30 A, high breaking capacity, time lag T,
250 V (5x20 mm, T6.3AH 250 V)
Power Consumption (See SEL-2240 Instruction Manual for Power
Per Module)
Maximum AC Burden: 160 VA
Maximum DC Burden: 75 W
Interruptions
30 ms @ 24 Vdc
130 ms @ 48 Vdc
50 ms @ 125 Vac/Vdc
100 ms @ 250 Vac/Vdc
Max Inrush
17 A
Isolation
3100 Vdc
Redundant Installation
Each node may have one or two SEL-2243 modules installed. When
two are used, they operate in load sharing mode.
Recommended External Overcurrent Protection
Breaker Type: Standard
Breaker Rating: 15 A or 20 A at 250 Vdc
Current Breaking Capacity: 10 kA
Grounded Neutral
System:
Device in series with the HOT or energized
conductor
DC and Isolated Systems: Device in series with both conductors
Type Tests
Environmental Tests
Enclosure Protection: IEC 60529:2001 + CRGD:2003
IP3X excluding the terminal blocks
4
© 2011—2022 by Schweitzer Engineering Laboratories, Inc. All rights reserved.
All brand or product names appearing in this document are the trademark or registered
trademark of their respective holders. No SEL trademarks may be used without written
permission. SEL products appearing in this document may be covered by U.S. and Foreign
patents.
Schweitzer Engineering Laboratories, Inc. reserves all rights and benefits afforded under
federal and international copyright and patent laws in its products, including without lim-
itation software, firmware, and documentation.
The information in this document is provided for informational use only and is subject to
change without notice. Schweitzer Engineering Laboratories, Inc. has approved only the
English language document.
This product is covered by the standard SEL 10-year warranty. For warranty details, visit
selinc.com or contact your customer service representative.
EtherCAT®is registered trademark and patented technology, licensed by Beckhoff
Automation GmbH, Germany.
*PDS2243-01*
2350 NE Hopkins Court • Pullman, WA 99163-5603 U.S.A.
Tel: +1.509.332.1890 • Fax: +1.509.332.7990
SEL-2243 Data Sheet Date Code 20220225
Vibration Resistance: IEC 60255-21-1:1988
Vibration Endurance, Severity: Class 2
Vibration Response, Severity: Class 2
Shock Resistance: IEC 60255-21-2:1988
Bump Withstand, Severity: Class 1
Shock Withstand, Severity: Class 1
Shock Response, Severity: Class 2
Seismic: IEC 60255-21-3:1993
Quake Response, Severity: Class 2
Cold, Operational and
Cold, Storage:
IEC 60068-2-1:2007
–40°C, 16 hours
Dry Heat, Operational
and Dry Heat, Storage:
IEC 60068-2-2:2007
+85°C, 16 hours
Damp Heat, Cyclic: IEC 60068-2-30:2005
25° to 55°C, 6 cycles, 95% relative humidity
Damp Heat, Steady State: IEC 60068-2-78:2012
93% RH and 55° C for 10 days
Change of Temperature: IEC 60068-2-14:2009
1 deg. per min, –40° and +85°C, 5 cycles
Dielectric Strength and Impulse Tests
Impulse: IEC 60255-5:2000
Severity Level: 0.5 J, 5 kV power supply;
0.5 J, 1.5 kV EtherCAT ports
IEEE C37.90-2005
Severity Level: 0.5 J, 5 kV power supply;
0.5 J, 1.5 kV EtherCAT ports
Dielectric (HiPot): IEC 60255-5:2000
Severity Level: 3.1 kVdc on power supply
for 1 min; 2 kVdc on EtherCAT ports
for 1 min
IEEE C37.90-2005
Severity Level: 3.1 kVdc on power supply
for 1 min; 2 kVdc on EtherCAT ports
for 1 min
Insulation: IEC 60255-5:2000
Severity Level: 500 V for greater than
1min
RFI and Interference Tests
EMC Immunity
EtherCAT Port 1 and Port 2 meet EMC standards if they are fiber optic
or their copper cables are <3 meters.
Slow Damped Oscillatory
Waves:
IEC 61000-4-18:2006 + A1:2010
Severity Level: 2.5 kV common mode
1 kV differential mode
Electrostatic Discharge
Immunity:
IEEE C37.90.3-2001
IEC 60255-22-2:2008
IEC 61000-4-2:2008
Severity Level: 4
8 kV contact discharge,15 kV air discharge
Radiated RF Immunity: IEEE C37.90.2-2004
Severity Level: 35 V/m
IEC 61000-4-3:2010
Severity Level: 10 V/m
IEC 60255-22-3:2007
Severity Level: 10 V/m
Digital Radio Telephone
RF Immunity:
ENV 50204:1995 Severity Level: 10 V/m
at 900 MHz and 1.89 GHz
Conducted RF Immunity: IEC 60255-22-6:2001
Severity Level: 10 Vrms
IEC 61000-4-6:2008
Severity Level: 10 Vrms
Surge Immunity: IEC 60255-22-5:2008
Severity Level: 1 kV Line to Line,
2 kV Line-to-Earth
IEC 61000-4-5:2005
Severity Level: 1 kV Line to Line,
2 kV Line-to-Earth
Fast Transient, Burst
Immunity:
IEC 60255-22-4:2008
Severity Level: Class A: 4 kV, 5 kHz;
2 kV, 5 kHz on communications ports
IEC 61000-4-4:2011
Severity Level: 4 kV, 5 kHz
Power Supply Immunity: IEC 61000-4-11:2004
IEC 61000-4-29:2000
IEC 60255-11:2008
Magnetic Field
Immunity:
IEC 61000-4-8:2009
Severity Level: 1000 A/m for 3 s,
100 A/m for 1 min
IEC 61000-4-10:2001
Severity Level: 100 A/m
Surge Withstand
Capability Immunity:
IEEE C37.90.1-2002
2.5 kV oscillatory, 4 kV fast transient
Oscillatory Waves
Immunity:
IEC 61000-4-12:2006
Ring Wave: 2 kV common,
1.0 kV differential
Oscillatory: 2.5 kV common,
1.0 kV differential
Conducted Common
Mode Disturbance
Immunity:
IEC 61000-4-16:2016
Frequency: 0 to 150 kHz
Severity: 30 Vrms for 60 seconds,
300 Vrms for 1 second
Emissions
Radiated and Conducted
Emissions:
IEC 60255-25:2000
Canada ICES-001 (A) / NMB-001 (A)
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