Installed in a high density MCR1900 Media Converter Chassis, Perle C-10GT Media Converter Modules transparently connect 10GBase-T Ethernet links over multimode or single mode fiber. Each 10GbE Media Converter comes with one RJ45 10GBase-T port and an empty slot for one SFP+ or XFP module.
Copper to Fiber conversion is achieved by inserting XFP or SFP+ fiber transceivers that support multimode and single-mode fiber, including CWDM/DWDM wavelengths. Copper to copper is achieved by inserting SFP+ Direct Attach Cable (DAC), also known as twinax, or XFP 10Gbase-CX4 transceivers.
The empty transceiver ports on the C-10GT Media Converter Modules allow for flexible network configurations to meet any requirement using a variety of 10G transceivers supplied by Perle, Cisco or other manufacturers of MSA compliant SFP+ and XFPs. You can use these products to convert:
Perle 10 Gigabit Ethernet to Fiber Converters provide an economical path to extend the distance of an existing 10GbE link. Network Administrators can “see-everything” with Perle’s advanced features such as Smart Link Pass-Through, Fiber Fault Alert, a built-in Link Test capability and Loopback. These cost and time saving features, along with a lifetime warranty and free worldwide technical support, make C-10GT Media Converter Modules the smart choice for IT professionals.
|Smart Link Pass-Through||When Smart Link Pass-Through is enabled (default), each port will reflect the state of its port peer. In this mode, if a link loss is detected on one port, the transmit signal on the other port is disabled “passing through” the state of the failed link. This enables managed switches and other devices to report link failures to their network NMS.
When Smart Link Pass-Through is disabled, if a link loss is detected on one port the transmit signal remains enabled on the other port.
|Fiber Fault Alert||With Fiber Fault Alert the state of the 10 Gigabit Ethernet receiver is passed to the transmitter. This provides fault notification to the partner device attached to the 10G Ethernet interface of the media converter.|
|Green Ethernet||Utilizes Green Ethernet energy saving technology based on industry standards such as:
|Built-in Link Test||When enabled, the built-in packet generator transmits Ethernet test frames to its 10 Gigabit Ethernet peer. The remote media converter will auto-detect the test frames and loopback the test frames. Any frames received in error, will cause the Power, LK1 and LK2 LEDs to illuminate in a specific combination to identify the error. During the test different bit test patterns will be utilized every 5 seconds ensuring a thorough link test.|
|Test Mode Auto-detect||When enabled through the management interface, the remote media converter will enter test mode automatically when requested by its central site peer. This virtually eliminates unnecessary truck rolls to a remote site when diagnosing a link failure.|
|EDC Mode Control||Electronic Dispersion Compensation (EDC) is an algorithmic method used to compensate for optical dispersion that occurs on high speed 10 Gigabit links. EDC mode settings are automatically configured by the media converter based on the information retrieved from the SFP+ module. This will enable proper operation for extended multimode 10GBase-LRM as well as active or passive copper cabling.|
|Module Temperature Protection||Protects your DOM/DMI capable SFP+ or XFP module by monitoring its internal temperature and will automatically shut down the XFP or SFP if the module is operating above its maximum temperature threshold.|
|High Power Level 4 XFPs||High powered Level 4 XFPs are supported.|
|Gigabit SFP support||The 10 Gigabit media converter model with the SFP+ slot can also support Gigabit (1000Base-X) SFPs. This allows users to use Gigabit SFPs today and migrate to 10G SFP+ in the future.|
|Jumbo Packets||Transparent to jumbo packets.|
|VLAN||Transparent to VLAN tagged packets.|
|Remote Loopback||Capable of performing a loopback on the 10 Gigabit interface. In this mode, all frames received on the port in loopback mode will be transmitted back. This provides users with the capability of utilizing their own in-house test generators for testing the link.|
|Power||10GT to SFP||10GT to XFP|
|Maximum Power Consumption (watts)||10*||15*|
|Power / TST||
|Link Mode||When the Link Mode is enabled (default), each port will reflect the state of its port peer using Smart Link Pass-Through. In this mode, if a link loss is detected on one port, the transmit signal on the other port is disabled “passing through” the state of the failed link. This enables managed switches and other devices to report link failures to their network NMS.
When the switch is in the down position, Smart Link Pass-Through is disabled. If a link loss is detected on one port, the transmit signal remains enabled on the other port.
|Fiber Fault Alert||Enabled (Default - Up)
With Fiber Fault Alert the state of the 10 Gigabit ethernet receiver is passed to the transmitter. This provides fault notification to the partner device attached to the 10G ethernet interface of the media converter
|Test Mode||Through the use of three dip switches the unit, and its peer, can be placed into a link test mode which will verify the integrity of the link through the use of its built-in link test generator. The unit can also be placed into a simple line loopback.|
|EEE Green Ethernet||When enabled (default), the media converter will operate as an IEEE 802.3az Energy Efficient Ethernet (EEE) compliant device.|
|Loopback||Capable of performing a loopback on the 10 Gigabit interface. In this mode, all frames received on the port in loopback mode will be transmitted back. This provides users with the capability of utilizing their own in-house test generators for testing the link.|
|Connectors||10GT to SFP||10GT to XFP|
|10GBase-T (RJ45)||IEEE 802.3an
100 meters on CAT6A or better
100 meters on CAT6A or better
|Pluggable 10G Fiber Transceiver slot ( Hot insertion and removable)||10 Gigabit SFP+ Slot
||10 Gigabit XFP Slot
|Voltages supplied to XFP slots||-||1.8V, 3.3V, 5V and -5.2V|
|Supported 10 Gigabit Fiber pluggable transceivers||IEEE 802.3ae compliant:
||IEEE 802.3ae compliant:
|Supported 10 Gigabit Copper pluggable transceivers||SFP+ Direct Attach Cable (DAC). Also known as:
||IEEE 802.3ak compliant:
|Supported Gigabit Fiber SFPs||1000Base-SX
Note: the RJ45 interface will auto-negotiate to 1000Base-T ( Gigabit )
|Chassis Slot profile||Two slots||Two slots|
|Environmental Specifications||10GT to SFP||10GT to XFP|
|Operating Temperature||0° C to 50° C (32° F to 122° F)|
|Storage Temperature||minimum range of -25° C to 70° C (-13° F to 158° F)|
|Operating Humidity||5% to 90% non-condensing|
|Storage Humidity||5% to 95% non-condensing|
|Operating Altitude||Up to 3,048 meters (10,000 feet)|
( BTU/HR )
|Shipping Weight||0.25 kg, 0.55 lbs|
|Shipping Dimensions||170 x 260 x 70 mm, 6.7 x 10.2 x 2.8 inches|
|Emissions||FCC Part 15 Class A, EN55022 Class A|
|CISPR 22 Class A|
|Electrical Safety||UL 60950-1|
|Environmental||Reach, RoHS and WEEE Compliant|
|HTSUS Number: 8517.62.0050|
|Perle Limited Lifetime Warranty|
*Maximum rating for both media converter and modules inserted. Actual rating is dependent on the power consumption of the SFP+/XFP modules inserted.
**Calculation model based on MIL-HDBK-217-FN2 @ 30 °C
|10 Gigabit Copper to Fiber Media Conversion|
Convert one 10G Ethernet media to another
Convert your 10GBaseT copper link to multimode or single mode fiber. Ideal for large data centers and Co-Location applications where the distance required to connect top of rack switches exceeds the 100 meter limitation of 10G copper.
|10 Gigabit Datacenter Upgrade|
Add New 10GBase-T Servers to 10G Fiber Switch (SFP+)
Install new 10GBase-T Servers to existing top of rack switches. Connect your 10GBase-T server to SFP+ Switch with Direct Attach DAC copper cable. 10G Media Converters can also connect CX4 servers to SFP+ Switch.
|CWDM Data Center|
Connect XFP to SFP+ and SFP+ to SFP+ Media Converters to Fiber Mux
Convert copper to CWDM wavelengths for CX4 XFP copper to CWDM SFP+ conversion, Direct Attached Copper (DAC) or 10GBase-T to CWDM SFP+ conversion.