Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC

Overview of Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC

Diode modules are assemblies consisting of multiple diodes that are packaged together to form a single, easy-to-install unit. They are widely used in power electronics for rectification (converting AC to DC), protecting circuits from overvoltage and reverse current, and many other applications. Diode modules typically contain different types of diodes, such as fast recovery diodes, Schottky diodes, etc., to suit specific application requirements.

Features of Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC

High reliability: By integrating multiple diodes, the risk of single component failure is reduced.

Simplified design: Using modules can reduce PCB space requirements and simplify circuit design.

High efficiency: Some diode modules use advanced materials and technologies to provide lower forward voltage drop and higher efficiency.

Good heat dissipation: Many modules are designed with efficient heat dissipation paths to ensure stable operation under high power conditions.

Easy to install and maintain: Standardized packaging makes installation and replacement easier and faster.

(Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC)

Specification of Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC

This crossbreed laser module combines 1310nm and 1550nm laser diodes. It utilizes Wavelength Division Multiplexing (WDM) or Twin Wavelength Combiner (DWC) technology. The component places both optical signals onto one fiber. This setup conserves space. It reduces system intricacy. It decreases total costs.

The 1310nm wavelength manages much shorter ranges effectively. The 1550nm wavelength takes a trip longer ranges with much less signal loss. Incorporating them supports varied network needs in one compact device. The component integrates accuracy optics. It consists of high-quality laser diodes. It features effective coupling modern technology. This ensures reliable efficiency. It ensures steady result power.

WDM or DWC innovation combines the two distinctive wavelengths. This avoids disturbance. It permits synchronised information transmission. The outcome is efficient data transfer usage. The module suits thick networks. It functions well where room is limited. It fits applications needing double wavelengths.

Secret specs include defined outcome power for each wavelength. Low insertion loss is conventional. High isolation in between networks is vital. The module operates reliably over a broad temperature level variety. It supplies typical electric user interfaces. These features streamline combination. They make certain compatibility with existing systems.

Applications include fiber optic interactions. It offers telecommunications networks. It operates in cable systems. It fits information center interconnects. It supports easy optical networks (PON). The component is perfect for updating existing web links. It aids include ability without new fiber. Its compact design is a major advantage.

(Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC)

Applications of Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC

This crossbreed component loads two laser diodes into one compact unit. It sends light at both 1310nm and 1550nm wavelengths. It utilizes WDM or DWC modern technology to integrate these signals. This allows you send 2 data streams down one fiber. It saves space and reduces prices in fiber optic systems.

Telecommunications networks count on this component. It helps construct thick networks needing numerous channels. You get secure performance for both wavelengths. This is important for sending out information over cross countries. It works well in fiber-to-the-home setups and foundation networks. It brings extra data without added fibers.

Fiber optic picking up systems also utilize this module. It gives two accurate source of lights. These detect modifications in temperature level or pressure along the fiber. Systems like DTS or DAS depend on it. Having both wavelengths in one box makes installations less complex. It minimizes the equipment needed.

Testing and dimension devices need this component as well. It checks exactly how well fiber components operate at various wavelengths. Technicians validate signal quality and loss. They evaluate multiplexers and demultiplexers. The twin wavelengths provide versatility. It replaces separate lasers during lab work.

This component fits applications requiring two specific infrared wavelengths. Its integrated design saves shelf room. It streamlines system layout. You obtain trustworthy light outcome for requiring jobs. The consolidated signal travels effectively over typical fiber. This makes it a practical option for engineers.

Company Profile

PDDN Photoelectron Technology Co., Ltd.(sales@pddn.com) is one of the leading enterprises in power electronics technology and power products, which is fully involved in developing solar inverters， transformers, voltage regulators, distribution cabinets, thyristors， modules， diodes， heaters, and other electronic devices or semiconductors. We will be committed to providing users with high-quality, efficient products and considerate service.

It accepts payment via Credit Card, T/T, West Union, and Paypal. PDDN will ship the goods to customers overseas through FedEx, DHL, by sea, or by air. If you want high-quality Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC, please send us inquiries; we will be here to help you.

Payment Methods

L/C, T/T, Western Union, Paypal, Credit Card etc.

Shipment

By sea, by air, by express, as customers request.

Storage Conditions

1) Store in a dry environment at room temperature.

2) Avoid damp and high temperature.

3) Use immediately after opening the inner packing bag.

5 FAQs of Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC

This hybrid module combines 1310nm and 1550nm laser diodes. It uses WDM or DWC technology. This creates a single output beam. The beam contains both wavelengths.

What is this hybrid module?
It’s a single device. It houses two laser diodes. One operates at 1310nm. The other operates at 1550nm. Special optics combine their light. WDM or DWC techniques achieve this. The result is one output fiber. Both wavelengths come out together.

Why combine 1310nm and 1550nm?
These wavelengths are critical in fiber optics. Many systems use both. Testing equipment often needs both. Combining them saves time. You test with one module. You don’t need two separate sources. It simplifies setups. It reduces equipment costs.

Where is this module used?
Its main use is testing. Installers test fiber links. Technicians troubleshoot networks. Engineers validate components. Researchers run experiments. It works in manufacturing checks. It’s useful anywhere dual wavelengths are needed. It avoids swapping laser sources.

What’s the difference between WDM and DWC?
Both methods combine the two wavelengths. WDM uses a filter. The filter merges the beams precisely. DWC uses a coupler. The coupler blends the light physically. WDM offers cleaner separation. DWC might be simpler. The choice depends on the application needs. We specify the method used.

What are the main benefits?
Cost savings are significant. You buy one module. You get two wavelengths. Space is saved. Rack space is limited. This module uses less space. Setup is faster. You connect one device. Testing efficiency improves. You avoid changing sources mid-test. It boosts productivity. Reliability increases. Fewer connections mean fewer failure points.

(Hybrid Module 1310nm /1550nm Laser Diode with WDM or DWC)