Enterasys Networks C1H124-24, C1H124-48 manual Connecting Fiber-Optic Cables to LC Ports

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Connecting to the Network

3.Plug the other end of the cable into the appropriate port on the other device. Some cables may be terminated at the other end with two separate connectors, one for each fiber-optic strand. In this case, ensure that the transmit fiber-optic strand is connected to the receive port and the receive fiber-optic strand to the transmit port.

4. Verify that a link exists by checking that the port Link/Activity LED is on (blinking green or solid green). If the Link/Activity LED is off, perform the following steps until it is on:

a.Verify that the device at the other end of the segment is ON and connected to the segment.

b.If there are separate fiber-optic connections on the other device, check the crossover of the cables. Swap the cable connections if necessary.

c.Check that the fiber-optic connection meets the dB loss and cable specifications outlined in the Cabling Guide for multimode cabling. To obtain this document, refer to “Related Documents” in About This Guide.

If a link has not been established, refer to Chapter 4 for LED troubleshooting details. If a problem persists, refer to Section 1.12 for details on contacting Enterasys Networks for support.

5.Repeat steps 1 through 3, above, until all connections have been made.

3.5.3Connecting Fiber-Optic Cables to LC Ports

WARNING: Mini-GBICs use Class 1 lasers. Do not use optical instruments to view the laser output. The use of optical instruments to view laser output increases eye hazard. When viewing the output optical port, power must be removed from the network adapter.

This section describes how to connect

a 1000BASE-SX multimode fiber-optic segment from the network or other devices to an LC port connector of a Mini-GBIC (MGBIC-LC01) in front panel port 50 or 52, or

a 1000BASE-LX single-mode fiber-optic segment from the network or other devices to an LC port connector of a Mini-GBIC (MGBIC-LC09) in front panel port 50 or 52.

Each fiber-optic link consists of two fiber-optic strands within the cable:

Transmit (TX)

Receive (RX)

The transmit strand from a device port connects to the receive port of a fiber-optic Fast Ethernet device at the other end of the segment. The receive strand of the applicable LC port connects to the transmit port of the fiber-optic Fast Ethernet device.

3-14Hardware Installation

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Contents 9033831-04 Page Page Class a ITE Notice Safety Compliance Wichtige Sicherheitshinweise Germany Enterasys NETWORKS, INC Program License Agreement Page Page Declaration of Conformity Contents Troubleshooting Figures Tables About This Guide WHO should USE this GuideStructure of this Guide HOW to USE this Guide Related DocumentsDocument Conventions This guide uses the following conventionsIntroduction OverviewC1H124-48 À Ã C1G124-24Mini-Gigabit Interface Connectors Mini-GBICs C1H124-48 and C1G124-24HALF-DUPLEX/FULL-DUPLEX AUTO-NEGOTIATION Port Redirect Function Port TrunkingRemote Monitoring Rmon Flow ControlManagement Switching Options802.1p Port Priority Standards CompatibilityUPN Support Getting Help Page Network Requirements 10BASE-T TWISTED-PAIR Network100BASE-TX TWISTED-PAIR Network 1000BASE-FX SINGLE-MODE and Multimode FIBER-OPTIC Network1000BASE-T TWISTED-PAIR Network Hardware Installation Required ToolsInstalling Optional MINI-GBICs Unpacking the DeviceInstallation PreparationMini-GBIC with LC Connector C1H124-48 shown Removing the Mini-GBICInstalling the Device Clearance Required for Tabletop or Shelf InstallationRackmount Installation Guidelines for Rackmount InstallationRack Mounting the Device Connecting Power Fastening the Device to the RackConnecting to the Network Connecting to the NetworkConnecting UTP Cables Connecting a Twisted Pair Segment to the DeviceFour-Wire Crossover Cable RJ45 Pinouts for 10/100BASE-TX RX+ TX+ Connecting Fiber-Optic Cables to MT-RJ Ports CPU RPS Connecting Fiber-Optic Cables to LC Ports Connecting to the Network 13 Cable Connection to LC Multimode Fiber-Optic Connectors Connecting to Console Port for Local Management What Is NeededConnecting to an IBM or Compatible Device Connecting to a VT Series Terminal 14 Connecting an IBM PC or CompatibleConnecting to a Modem 15 Connecting a VT Series Terminal16 Connecting to a Modem Adapter Wiring and Signal Assignments Modem Port Adapter Wiring and Signal Diagram RJ45 DB25 Completing the Installation Initial Logon to Device ManagementPage Troubleshooting Using LanviewCPU No link Troubleshooting Checklist OFFConfiguration Guide for instructions to Using the Reset Button Reset ButtonSpecifications C1G124-24 and C1H124-48 Specifications Redundant Power Source Connector Gigabit Ethernet Specifications MGBIC-LC01 / MGBIC-MT01 Specifications 1000BASE-SXMGBIC-LC09 Specifications 1000BASE-LX Console Port Pinout Assignments

C1H124-24, C1H124-48 specifications

Enterasys Networks, a prominent player in the field of networking technology, has developed a range of innovative solutions tailored for modern enterprise demands. Among their offerings are the C1H124-48 and C1H124-24 switches, both designed to facilitate robust connectivity and superior network performance.

The Enterasys C1H124-48 is a 48-port Ethernet switch, designed to meet the needs of dense network environments. It supports a variety of Ethernet standards, making it versatile for different deployment scenarios. This model boasts advanced Layer 2 switching capabilities, ensuring that data packets are efficiently managed and routed within local networks. With support for Power over Ethernet (PoE), this switch can supply power to connected devices, such as IP phones and wireless access points, without the need for separate electrical wiring.

Conversely, the C1H124-24 is a 24-port variant that shares many features with its larger counterpart. It is ideal for smaller office environments or as part of a larger stack in complex installations. Both models support high throughput rates to handle heavy data traffic, ensuring seamless connectivity and minimal latency for end-users.

One of the key strengths of both switches is their integration of advanced security features. They support features such as VLAN tagging and Access Control Lists (ACLs), allowing network administrators to segment traffic and enforce strict security protocols. This is essential for protecting sensitive data and ensuring compliance with industry regulations.

In addition to security, the C1H124 models utilize cutting-edge technologies such as Quality of Service (QoS) to prioritize critical network applications, ensuring that bandwidth-intensive tasks like video conferencing and cloud applications receive the necessary resources. This capability is vital in modern enterprises where operational continuity depends on reliable network performance.

Additionally, Enterasys Networks emphasizes ease of management with both models. They come equipped with intuitive management interfaces and support for network management protocols, allowing for straightforward monitoring and configuration. This reduces the administrative burden on IT staff and enhances operational efficiency.

In summary, the Enterasys Networks C1H124-48 and C1H124-24 switches are well-engineered solutions that cater to a variety of networking needs. With their comprehensive feature set, including PoE support, advanced security, QoS, and user-friendly management, they are positioned to enhance network performance and security in diverse organizational settings. The decision to adopt these switches can lead to significant improvements in connectivity and overall network efficiency.