DS-SFP-FC-2G-SW

DS-SFP-FC-2G-SW Cisco Compatible 10G 10KM SMF SFP+ module

# Key Highlights
  • Type: SFP+
  • Compatibility: Cisco compatible
  • Tx/Rx Wavelength: 1310 nm. / 1310 nm.
  • Media Type: Single-Mode Fiber (SMF)
  • Optical Budget: 6 dB
  • Max. Distance: 10 km
  • Data Rate: 2.125-10.52 Gbps
  • Temperature:Standard 0°-70°C
# Pricing & Ordering
SKU: 10GFC-SFP-10-CI

12.85

Standard recommended retail price without VAT.

Lead Time: Below 1 Week in EU Countries
# Quality Assurance

Because of our comprehensive Testing Program, we are confident on quality of our products. Such approach empower us to cover all our products with:

# Key Technical Data
Media Type:

Single-Mode Fiber (SMF)

TX Wavelength:

1310 nm

RX Wavelength:

1310 nm.

Minimum Optical Budget:

6 dB

Maximum Distance:

10km

Supported Data Rate:

4.25-10.52 Gbps

Supported Applications:

10G Fiber Channel (10.52 Gbps), 8G Fiber Channel (8.5 Gbps), 4G Fiber Channel (4.25 Gbps)

DDM/DOM:

Support

Temperature Range:

Standard 0°-70°C

Connectors:

Double LC

Tx Wavelength Bandwidth:

100 nm (1260-1360 nm)

Rx Wavelength Bandwidth:

100 nm (1260-1360 nm)

Minimum Transmitting Power:

-8 dB

Maximum Transmitting Power:

-0.5 dB

Receiver Sensitivity:

-14 dBm

Receiver Overload:

0.5 dBm

Dispersion:

70-100 ps/nm

Transmitter Type:

DFB Laser

Receiver Type:

PIN photodiode

Power:

+3.3V single power supply

Chipset:

MAXIM, MINDSPEED, SEMTECH

Compliance:

CE, Class 1 FDA and IEC60825-1 Laser Safety Compliant, RoHS, SFF-8431, SFF-8472, SFP MSA

# Product Documentation
Multi-Vendor MSA Compatible 10GFC-SFP-10 SFP+ Datasheet

Cisco Compatible DS-SFP-FC-2G-SW SFP+ Module is based on our product 10GFC-SFP-10. When You will order it will be encoded to be compatible with Cisco equipment and it will be labeled with part number: 10GFC-SFP-10-CI, where CI means Cisco Compatible. Above You can download datasheet of our 10GFC-SFP-10 product.

# Product Description

   The DS-SFP-FC-2G-SW is a Cisco compatible SFP+ (Small Form Factor Pluggable) Transceiver that operates over Double Fiber Single-Mode Fiber (SMF) optical cable. It has a minimum guaranteed optical budget of 6 dB, which is usually enough to reach a distance of roughly 2 kilometers. Distance, on the other hand, is merely an indicator metric determined for ease of identification. Finally, we calculate distance using a minimum optical budget and industry average attenuation of optical cabling. Cisco compatible DS-SFP-FC-2G-SW uses a high-quality DFB Laser transmitter with a nominal wavelength of 1310 nm and a PIN Photodiode receiver with a 1310 nm nominal wavelength. It supports DDM/DOM optical diagnostics and provides diagnostic data on current operating conditions. The Cisco compatible DS-SFP-FC-2G-SW features a Double LC interface and functions in the standard 0°-70°C temperature range. Cisco compatible DS-SFP-FC-2G-SW supports 2G Fiber Channel (2.125 Gbps) application. SFP+ Double Fiber optical transceiver is a multi-purpose module utilized in a variety of networking applications today. Storage Area Networking SAN Applications in Data Centers, Data Center Fiber Channel Interconnections over Backbone, Enterprise Networks SAN Interconnections, and other optical links are the most common applications.

    Cisco compatible DS-SFP-FC-2G-SW is CE/RoHS certified and meets product safety requirements. We run compatibility tests on the Cisco compatible DS-SFP-FC-2G-SW SFP+ Transceiver using the newest Cisco networking platforms, allowing us to encode the transceiver’s EEPROM memory to be compatible and work seamlessly with Cisco systems. Our optical transceivers, on the other hand, comply with the SFP+ Multi Source Agreement and the SFF-8472 industry standard. Because our priority is to provide excellent service, we do thorough quality inspections on all of our products before to delivery. As a result, we perform optical parameter measurements, connector cleanness testing, and EEPROM memory data validation tests on SFP+ transceivers. Please contact us so that we can learn more about your requirements.