Product ID: MCMGBSCSM10
In stock: US: 144 | CA: 1
This fiber media converter converts and extends a Gigabit Ethernet (1000 Mbps) network up to 10 km over single-mode fiber on 1000BASE-LX networks.
The fiber media converter provides a cost-effective way to transparently convert copper to fiber, or fiber to copper, for connecting remote sub-networks to larger fiber-optic networks. Providing both SC fiber and RJ45 Ethernet ports, it integrates easily into a wide range of Gigabit Ethernet network infrastructures. The RJ45 port supports triple-speed (10/100/1000 BASE-T) auto-negotiation.
Supporting a maximum single-mode fiber cable distance of up to 10 km (6.2 mi.), the media converter delivers a simple and reliable solution for connecting Gigabit Ethernet networks to remote locations, while ensuring solid network performance. It provides optimum network scalability for connecting two or more Ethernet network nodes, for instance, connecting two buildings on the same campus or facility. The media converter also delivers high-speed bandwidth to meet the increasing demands of large-scale workgroups that require expansion of a Gigabit Ethernet network.
The MCMGBSCSM10 is backed by a StarTech.com 2-year warranty and free lifetime technical support.
|Warranty Information||Warranty||2 Years|
|Max Distance||10 km (6.2 mi)|
|Connector(s)||1 - Local Unit Connectors||RJ-45|
|1 - Remote Unit Connectors||Fiber Optic SC Duplex|
|Environmental||Operating Temperature||0°C to 50°C (32°F to 122°F)|
|Storage Temperature||-10°C to 70°C (14°F to 158°F)|
|Humidity||5 ~ 90% RH|
|Industry Standards||IEEE 802.3u 100BASE-LX|
|IEEE 802.3ab 1000BASE-T|
|IEEE 802.3z 1000BASE-LX|
|IEEE 802.3 10BASE-T|
|IEEE 802.3x full-duplex flow control|
|IEEE 802.1q VLAN pass through|
|Indicators||1 - LED Indicators||FX Link/Activity|
|1000 Link: ON - Valid Gigabit Link|
|Packaging Information||Shipping (Package) Weight||19.8 oz [560 g]|
|Package Length||11.2 in [28.5 cm]|
|Package Width||5.4 in [13.8 cm]|
|Package Height||2.6 in [66 mm]|
|Performance||Maximum Data Transfer Rate||1000 Mbps (1 Gbps)|
|Max Transfer Distance||10 km (6.2 mi)|
|Fiber Operating Mode||Full-Duplex|
|Jumbo Frame Support||9K max.|
|General Specifications||Supports a maximum distance of 10 km over SM duplex fiber optic cable (SC connection), and 100m over copper (RJ45 connection)
Data Transfer Rate Copper: 10/100/1000 Mbps
Data Transfer Rate Fiber: 1000 Mbps
ESD Surge Protection: 1KV. Contact discharge - 4KV. Air discharge - 8KV
|MTBF||> 50,000 hours at 25°C|
|Product Length||2.8 in [70 mm]|
|Product Width||4.1 in [10.5 cm]|
|Product Height||1.0 in [26 mm]|
|Weight of Product||6.9 oz [196 g]|
|Power||Power Source||AC Adapter Included|
|Input Voltage||100 - 240 AC|
|Input Current||0.4 A|
|Output Voltage||5 DC|
|Output Current||2 A|
|Center Tip Polarity||Positive|
|Power Consumption (In Watts)||10|
|What's in the Box||1 - Included in Package||media converter|
|universal power adapter (NA/JP, UK, EU, ANZ)|
When you troubleshoot issues with a fiber media converter, there are some quick tests that you can complete to rule out potential problems. To identify what the source of the issue is, observe the power LED, LAN LEDs, and fiber link LED on the units.
If the power LED is not illuminated for the transmitter or the receiver, complete the following:
Make sure that you are using the provided power adapter(s).
Make sure that the adapter is plugged into a compatible wall outlet.
Make sure that the adapter is plugged into both the transmitter and receiver.
If another LED is not operating as expected, make sure that the components in your setup are working correctly. To test your setup components, try the following:
Use the cables, fiber media converter, and network devices (including SFPs, if applicable) in another setup to see if the problem is with the components or the setup.
Use different cables, fiber media converter, and network devices (including SFPs, if applicable) in your setup to see if the problem persists. Ideally, you should test components that you know work in another setup.
When you test your cables, it is recommended that you do the following:
Test each cable individually.
Use short cables when you are testing.
Make sure that the DIP switches are set to the following:
DIP switches should be identical on both local and remote units. By default, DIP switches are set to Off (the switch is pointing up).
For more information about the advanced configuration options, refer to the manual for your product.
If you cannot establish a network connection between your local and remote units, you need to do the following to make sure that the issue is not related to the network configuration:
Use two computer systems directly connected to the fiber media converter LAN ports.
Open a command prompt on Computer 1 and ping Computer 2.
If the issue is not related to the network configuration, you should receive a response from Computer 2.
For more information on how to ping another network device, refer to the following FAQ: https://www.startech.com/support/faqs/technical-support?topic=networking#ping-test-windows-mac-os.
Different optical cables are needed for different applications. Before you select a cable to interconnect fiber devices, make sure that the following things match:
Mode: Single Mode or Multi Mode.
Wavelength: For example, 850 nm, 1310 nm, or 1550 nm.
Note: The above properties cannot be converted or changed by a cable.
When you select a cable, make sure that the cable ends (for example, LC, SC, ST, or MT) match the fiber media devices.
Simplex and duplex ends are available for most connector types. Simplex cables have the connectors separate, where duplex cables have the transmit (TX) and receive (RX) connectors joined together. StarTech.com fiber media devices are compatible with simplex and duplex connectors.
It does not matter which diameter or OM classification the cable uses, as long as it meets the mode requirement.
Fiber media converters can be used to convert a standard Ethernet connection to a standard fiber connection, or can be used to extend a copper Ethernet network. When you use fiber media converters to extend a copper Ethernet network, make sure that the same fiber standards are being used on either end of the fiber network.
Note: Terms like 1000BASE-LX, 100BASE, 1000BASE, and 10GBASE refer to how fast the data can transfer, with 100BASE being 100Mb/s, 1000BASE being 1000Mb/s or 1GB/s, and 10GBASE being 10Gb/s. FX, SX, LX, and SR refer to different fiber standards and use different wavelengths (among other things).
Fiber media converters come in different types for different applications. You need to consider the specifications for both network devices before you can select the correct fiber media converters.
A fiber media converter can be used to simply convert fiber to copper (for example, 100BASE-FX to 100BASE-TX), convert copper to fiber, or it can be used to extend a copper network over fiber optic cabling. If you use an application that uses fiber media converters, the copper and fiber industry standards must match.
The following is an example of a working fiber to copper setup:
If the copper device in the above setup is 10/100 (100BASE-T), no copper link would be detected.
Note: Some media converters do not auto-negotiate copper or fiber standards, which limits the device to 10/100 or gigabit operation. For more information, check the specifications of the media converter.
When you use the fiber media converter in a network extender setup, it works best if you use the same media converter on either end. As long as the fiber standards match, you can use different connectors and the fiber network will be created between the units.
The following are some examples of available fiber connector types:
The Open SFP units (referred to as Open on the Fiber Media Converter Drilldown) can use any mini-GBIC or SFP compatible fiber transceiver. The ET LC fiber media converters include LC SFPs, which makes the unit an open SFP, if required.
UPC and APC are fiber connector types. UPC (Ultra Physical Contact) connectors have a fiber connector end face that has been polished to a dome-shape. APC (Angled Physical Contact) connectors have a fiber connector end face that has been polished at an eight degree angle. When building fiber solutions, be sure to avoid mixing UPC and APC connectors. UPC and APC cannot mate with one another because causes the fiber cores don’t touch. This can cause a degraded connection or none at all.
StarTech.com fiber products use UPC connectors.