FTLX1475D3BTL Fibre Optic Transmitters, Receivers, Transceivers by Finisar – High-Speed Optical Communication

The Fibre Optic Transmitters, Receivers, Transceivers FTLX1475D3BTL by Finisar are designed for superior performance in high-speed data communication networks. As a part of the Optoelectronics and Fibre Optics family, these devices provide reliable and efficient optical signal transmission across long distances, making them ideal for enterprise, telecom, and data center applications.

In this article, we’ll explore the specifications, features, and benefits of the FTLX1475D3BTL Fibre Optic Transmitters, Receivers, Transceivers by Finisar, and why professionals across USA, India, Australia, Europe, and other countries choose Xon Electronics for genuine Finisar optical components.

Technical Specifications of FTLX1475D3BTL

• Manufacturer: Finisar

• Part Number: FTLX1475D3BTL

• Category: Optoelectronics, Fibre Optics

• Type: Fibre Optic Transmitters, Receivers, Transceivers by Finisar

• Form Factor: SFP+ (Small Form-factor Pluggable Plus)

• Data Rate: 10.3 Gbps

• Wavelength: 1310 nm

• Transmission Distance: Up to 10 km

• Connector Type: LC Duplex

• Operating Temperature: 0°C to +70°C

• Power Supply Voltage: 3.3V

• Compliance: IEEE 802.3ae 10GBASE-LR, RoHS Compliant

Key Features of FTLX1475D3BTL

• High-speed Fibre Optic Transmitters, Receivers, Transceivers by Finisar for long-range data communication

• Low power consumption and compact SFP+ form factor

• Digital diagnostics monitoring (DDM) for real-time performance feedback

• Excellent signal integrity and transmission stability

• Reliable optical design ideal for Optoelectronics and Fibre Optics systems

The FTLX1475D3BTL Fibre Optic Transmitters, Receivers, Transceivers by Finisar ensure seamless, high-bandwidth communication across modern data infrastructures.

Applications of FTLX1475D3BTL

These Fibre Optic Transmitters, Receivers, Transceivers by Finisar are widely used in:

• Data Centers and Cloud Networking

• Enterprise and Telecom Infrastructure

• 10G Ethernet and Fibre Channel Systems

• Optical Networking and Storage Applications

• Long-haul and Metropolitan Area Networks

As part of the Optoelectronics family, they provide fast, secure, and high-capacity connectivity across multiple platforms.

Design and Integration Overview

• Form Factor: Hot-pluggable SFP+ for easy network integration

• Performance: Stable operation at 10.3 Gbps for up to 10 km

• Monitoring: Built-in digital diagnostics for proactive network management

The Fibre Optic Transmitters, Receivers, Transceivers by Finisar offer a cost-effective and high-performance solution for expanding optical networks.

Use Case Scenario: Data Center Interconnect

Scenario: A cloud service provider needed high-speed optical modules for 10G links between server racks and network switches.
Solution: The FTLX1475D3BTL Fibre Optic Transmitters, Receivers, Transceivers by Finisar provided reliable long-distance communication with minimal latency.
Result: Enhanced data throughput, reduced downtime, and optimized network performance.

Download Datasheet for FTLX1475D3BTL

For detailed optical and electrical characteristics:

Download the FTLX1475D3BTL Fibre Optic Transmitters, Receivers, Transceivers by Finisar Datasheet from Xon Electronics.

Why Buy from Xon Electronics?

At Xon Electronics, we supply 100% genuine Finisar products, including the FTLX1475D3BTL Fibre Optic Transmitters, Receivers, Transceivers by Finisar, with:

• Authentic Finisar Optical Devices
• Global Shipping – USA, India, Australia, Europe & other countries
• OEM and Distributor Pricing Options
• Expert Technical Guidance
• Secure Online Ordering

Order today at www.xonelec.com for premium Optoelectronics, Fibre Optics, and Fibre Optic Transmitters, Receivers, Transceivers by Finisar trusted worldwide.

Conclusion

The FTLX1475D3BTL Fibre Optic Transmitters, Receivers, Transceivers by Finisar deliver high-speed, low-latency, and energy-efficient performance for optical communication systems. As part of the Optoelectronics family, these transceivers ensure reliable data transfer across global networks. Available now at Xon Electronics with international delivery.

FAQs – FTLX1475D3BTL Fibre Optic Transceivers

Q1. What data rate does FTLX1475D3BTL support?
10.3 Gbps.

Q2. What is the transmission distance?
Up to 10 km using single-mode fiber.

Q3. What type of connector is used?
LC Duplex.

Q4. What is the operating wavelength?
1310 nm.

Q5. Where can I buy it globally?
At www.xonelec.com, shipping to USA, India, Australia, Europe, and other countries.

An Injection Laser Diode (ILD) or a Laser Diode (LD) or a Diode Laser is a semiconductor that is much similar to that of an LED (Light Emitting Diode) where a diode siphoned legitimately with electrical current can lead to a lasing condition at the junction of a diode. Laser diodes can convert electrical energy directly into light. Initiated by a potential difference, the doped P-N transition offers joining of the electron with a hole (positive space). As the electron gets dropped to a low energy level from a high energy level, radiations are emitted in the form of photons. This is an example of spontaneous emission. Whenever the procedure is continued, stimulated emission can be generated.

The type of material used as semiconductors helps in determining the emitted beam's wavelength. Laser diodes that we use today range from ultraviolet to infrared spectrum. Laser diodes are the most well-known type of lasers created, with a wide scope of utilization that incorporates barcode readers, CD / DVD / Blu-ray disc recording/reading, optic communications, laser pointers, laser printing, light beam illumination, and laser scanning. Laser diodes can be utilized for general illumination with the help of phosphor (found in white LEDs).

Theory of Operation

A laser diode is electrically referred to as a PIN diode. The laser diode comes with the active region in the intrinsic (I) region, and the holes, as well as the electrons, are pushed into that region from the P and the N regions respectively. One of the very first studies on diode laser was carried out on simple P-N diodes. Today all lasers utilize the Double Hetero Structure implementation. Here the photons and the carriers are restricted so as to expand their odds for recombination and generation of light. In contrast to the regular diode, the main aim of a laser diode is to join up all the carriers in the intrinsic region and generate light. Therefore, laser diodes are created utilizing Direct Band Gap semiconductors. The epitaxial structure of a laser diode is formed by utilizing the technique of crystal growth, generally initiating from the N-doped layer and building up the intrinsic doped active layer, succeeded by the P-doped cladding, and a contact layer. Most often, the active layer comes with quantum wells that offer higher efficiency and lower threshold current.

Applications

• Medical uses – In the field of medical science, especially that of dentistry have discovered several uses of diode lasers. It's small size and cheap cost along with user-friendliness make it very much alluring to clinicians for minor delicate tissue strategies.

• Telecommunications, Spectrometry, and scanning – Laser diodes are used much widely in telecommunication as easily coupled and modulated light sources for carrying out fiber optics communication. It has also found its use in barcode readers. Visible lasers (generally red and green) are also very much popular as laser pointers.

This was all we have regarding laser diodes. Hope you enjoyed going through it. Brands that manufacture them are Finisar, OSRAM and TT Electronics. Make sure to follow them using the links as provided.

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