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The Cisco IE 3010 switch provides a rugged and secure switching infrastructure for harsh environments. It is suitable for industrial Ethernet applications, including process manufacturing, intelligent transportation systems (ITSs), rail transportation, and other similar deployments.
In industrial environments, you can connect the switch to any Ethernet-enabled industrial communication devices, including programmable logic controllers (PLCs), human-machine interfaces (HMIs), drives, sensors, and input and output (IO) devices.
This section provides overviews of the following topics:
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24 10/100 FastEthernet ports, 2 dual-purpose ports (2 10/100/1000BASE-T copper ports and 2 SFP1 module slots), and 2 AC and DC power-supply module slots. |
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16 100BASE-FX SFP-module slots; 8 10/100 FastEthernet PoE2 ports, 2 dual-purpose ports (2 10/100/1000BASE-T copper ports and 2 SFP module slots), and 2 AC and DC power-supply module slots. |
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The 10/100 Fast Ethernet downlink ports in Figure 1 are grouped in pairs. The first member of the pair (port 1) is above the second member (port 2) on the left. Port 3 is above port 4, and so on. The dual-purpose ports are numbered 1 and 2.
Figure 1 Cisco IE-3010-24TC Cable-Side View
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SD3 flash memory card slot |
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The100BASE-FX SFP ports and the 10/100 PoE ports are grouped in pairs. The first member of the pair (port 1) is above the second member (port 2) on the left. Port 3 is above port 4, and so on. The dual-purpose ports are numbered 1 and 2.
Figure 2 Cisco IE-3010-16S-8PC Cable-Side View
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You can set the 10/100 ports on the switch to operate in any combination of half duplex, full duplex, or 10 or 100 Mb/s. You can set the ports for speed and duplex autonegotiation. The default setting is autonegotiate.
When set for autonegotiation, the switch determines the speed and duplex settings of the attached device and advertises its own capabilities. If the connected device also supports autonegotiation, the switch negotiates the best connection (the fastest line speed that both devices support and full-duplex transmission if the attached device supports it) and configures itself accordingly. In all cases, the attached device must be within 328 feet (100 meters).
The IEEE 802.3 1000BASE-T SFP module slots provide full-duplex 1000BASE-T connectivity over copper wire. These ports use a copper SFP transceiver module that accepts an RJ-45 connector. See SFP Module Cables for cable type and length. See SFP Modules for model information.
Warning: Voltages that present a shock hazard may exist on Power over Ethernet (PoE) circuits if interconnections are made using uninsulated exposed metal contacts, conductors, or terminals. Avoid using such interconnection methods, unless the exposed metal parts are located within a restricted access location and users and service people who are authorized within the restricted access location are made aware of the hazard. A restricted access area can be accessed only through the use of a special tool, lock and key or other means of security. Statement 1072
The 10/100 PoE ports on the Cisco IE-3010-16S-8PC switches provide PoE support for devices that are compliant with IEEE 802.3af. The Cisco prestandard PoE is also supported for Cisco IP Phones and Cisco Aironet Access Points. The PoE ports on the switch deliver up to 15.4 W of PoE. Any four of the eight ports are designated as high priority PoE ports, while the other four ports are designated as low priority PoE ports. When both the power-supply modules are installed, the system has enough power to support all eight ports as PoE ports. In case one of the power-supply modules fails, the power to the low priority PoE ports is dropped, while power to the high priority PoE ports remains uninterrupted.
On a per-port basis, you control whether or not a port automatically provides power when an IP phone or an access point is connected.
The 10/100 PoE ports use RJ-45 connectors with Ethernet pinouts. The maximum cable length is 328 feet (100 meters). The 100BASE-TX and 1000BASE-T traffic requires CA5, CAT5e, or CAT6 unshielded twisted pair (UTP) cable. The 10BASE-T traffic can use CAT3 or CAT4 UTP cable.
For information about configuring and monitoring PoE ports, see the switch software configuration guide on Cisco.com.
For information about port connections and port specifications, see Connecting Devices to the Ethernet Ports and Connector and Cable Specifications.
Note: The output of the PoE circuit has been evaluated as a Limited Power Source (LPS) per IEC 60950-1.
You can configure the dual-purpose ports on the switch as either 10/100/1000 ports or as SFP-module ports. You can set the 10/100/1000 ports to autonegotiate, or you can configure them as fixed 10, 100, or 1000 Mb/s (Gigabit) Ethernet ports.
By default, the switch selects the medium for each dual-purpose port (10/100/1000BASE-T or SFP). When a link is achieved on one media type, the switch disables the other media type until the active link goes down. If links are active on both media, the SFP-module port has priority, but you can use the media-type interface configuration command to manually designate the port as an RJ-45 port or an SFP port.
You can configure the speed and duplex settings consistent with the selected media type. For information on configuring interfaces, see the switch software configuration guide.
The switch Ethernet SFP modules provide connections to other devices. These field-replaceable transceiver modules provide the uplink interfaces. SFP modules have local connectors (LCs) for fiber-optic connections or RJ-45 connectors for copper connections. You can use any combination of the supported SFP modules listed in Table 2.
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■GLC-BX40-D-I with digital optical monitoring (DOM) support ■GLC-BX40-DA-I with DOM support ■GLC-BX80-D-I with DOM support |
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For minimum software requirements, refer to the Release Notes for your platform.
For the most up-to-date list of supported SFP models for Cisco Industrial Ethernet switches, see http://www.cisco.com/en/US/docs/interfaces_modules/transceiver_modules/compatibility/matrix/OL_6981.html#wp138176
For information about SFP modules, see your SFP module documentation and the Installing and Removing SFP Modules. For cable specifications, see the SFP Module Cables.
The switch uses an SFP-module patch cable, a 0.5-meter, copper, passive cable with SFP module connectors at each end (see Figure 3). The patch cable connects two switches in a cascaded configuration.
Figure 3 SFP-Module Patch Cable
See the Inserting and Removing the SFP Module Patch Cable for information about using the SFP module patch cable.
The power-input terminal provides screw terminals for the AC and DC power connections. The switch can operate with one or two power supplies. If one of the power sources fail, the other continues to power the switch. See Power Supply Installation for information.
The switch has four alarm inputs and one alarm output. The alarm setting is open or closed.
■Open means that the normal condition has current flowing through the contact (referred to as a normally closed contact). The alarm is generated when the current stops.
■Closed means that no current flows through the contact (referred to as a normally open contact). The alarm is generated when the current flows.
The alarm input is a dry-contact alarm port. You can connect up to four alarm inputs from devices, such as a door, a temperature gauge, or a fire alarm, to the alarm port. You can use the CLI to set the alarm severity to minor, major, or critical. An alarm generates a system message and turns on an LED. See the Alarm LEDs for the LED descriptions.
The alarm output can be configured as a minor or major alarm. Output alarms often control an external alarm, such as a bell or a light. To connect an external alarm device to the relay, you connect two relay contact wires to complete the electrical circuit. See for information on the alarm pinouts. see the Alarm Port.
You can connect the switch to a PC running Microsoft Windows or to a terminal server through either the RJ-45 console port or the USB console port.
■RJ-45 console port. The RJ-45 connection uses an RJ-45-to-DB-9 female cable.
■USB mini-Type B console port (5-pin connector). The USB connection uses a USB Type A-to-5-pin mini-Type B cable.
The USB console interface speeds are the same as the RJ-45 console interface speeds.
To use the USB console port, you must install the Cisco Windows USB device driver on the device that is connected to the USB console port (device running with Microsoft Windows).
Note: For information about downloading the Cisco USB device driver, see the Installing the Cisco Microsoft Windows USB Device Drivers.
With the Cisco Windows USB device driver, connecting and disconnecting the USB cable from the console port does not affect Windows HyperTerminal operations. Mac OS X or Linux require no special drivers.
Note: The 5-pin mini-Type B connectors resemble the 4-pin mini-Type B connectors. They are not compatible. Use only the 5-pin mini-Type B. See Figure 5.
The configurable inactivity timeout reactivates the RJ-45 console port if the USB console port is activated, but no input activity occurs on it for a specified time period. When the USB console port deactivates due to a timeout, you can restore its operation by disconnecting and reconnecting the USB cable. For information on using the CLI to configure the USB console interface, see the switch software guide.
You can use the switch system and port LEDs to monitor switch activity and performance.
Figure 6 Switch LEDs (Cable Side)
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PoE4 |
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POST5 is in progress. |
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The switch power-supply module LEDs are labeled PSU1 and PSU2 (on the switch) and PSU OK (on the power-supply module). They show whether power-supply modules 1 and 2 are receiving power. See Figure 6 and Figure 9.
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Valid input is present, and the output is within the operating range. |
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Valid input is present, and the output is outside the operating range or is not present. |
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The console LEDs show which console port is in use. See Figure 6 and Figure 9 for the LED locations.
If you connect a cable to a console port, the switch automatically uses that port for console communication. If you connect two console cables, the USB console port has priority.
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RJ-45 ports and SFP-module slots have port LEDs. Port LEDs, as a group or individually, provide information about the switch and about the individual ports.
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The dual-purpose port LEDs identify the connection as either a copper-based connector or an SFP module. The ports can autonegotiate, or you can manually configure each dual-purpose port as either 10/100/1000 with copper connectors or as an SFP-module port, but not as both types at the same time. See Table 8 for LED descriptions.
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SD flash memory card is not present (slow blinking). Unsupported SD flash memory card is detected (fast blinking). |
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The switch ships with the Secure Digital (SD) flash memory card installed. See Figure 1 and Figure 2. The switch stores the Cisco IOS software images and the switch configuration on the card. You should not remove the card unless you want to use it in a replacement switch. You then do not have to reconfigure the new switch. See the Replacing the SD Flash Memory Card for information.
The power-supply side has the LED panel and two power-supply slots for the removable power supplies. See Figure 7 and Figure 8.
Figure 7 Switch with One Power-Supply Module
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Figure 8 Switch with Both Power-Supply Modules
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For a description of the PSU OK LED, see Table 4.
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PoE6 |
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The switch has two slots for power-supply modules:
■PWR-RGD-LOW-DC/IA: low-voltage DC (for voltage information, see Table 18)
■PWR-RGD-AC-DC/IA: high-voltage AC or DC (for voltage information, see Table 17)
The switch supports these power-supply module combinations:
■One high-voltage AC or DC and one low-voltage DC
For information on installing the power-supply modules, see Power Supply Installation
See Table 4 for information on the power supply LEDs.
You can configure and monitor the switch from the CLI. Connect your management station to the switch console port or use Telnet from a remote management station. See the switch command reference on Cisco.com for information.
You can manage switches from a Simple Network Management Protocol (SNMP)-compatible management station that is running platforms such as HP OpenView or SunNet Manager. The switch supports a comprehensive set of Management Information Base (MIB) extensions and four Remote Monitoring (RMON) groups. See the switch software configuration guide on Cisco.com and the documentation that came with your SNMP application for information.
See the switch software configuration guide on Cisco.com for an explanation of network configuration concepts. The software configuration guide also provides network configuration examples for creating dedicated network segments that are interconnected through Ethernet connections.