pin module 10Gbp/s LC TOSA 1310nm DFB laser diode transmission with InGaAsP monitor photodiode with FPCB

Introduction to Thyristor Diode Modules

Thyristor diode modules, often simply referred to as thyristors, are a type of semiconductor device used primarily for controlling and switching electrical power in various applications. They act as controlled switches, allowing current to flow when triggered by a small gate signal. Once turned on, they remain conducting until the current through them falls below a certain threshold or the direction of the current is reversed.

A thyristor module typically consists of multiple thyristors packaged together to handle higher currents or voltages than a single component could manage. These modules can be found in a variety of configurations, including SCR (Silicon Controlled Rectifier), TRIAC, and GTO (Gate Turn-Off) thyristors, each designed for specific types of power control tasks.

Features and Advantages of Thyristor Diode Modules

1. High Power Handling Capacity:
   Thyristor modules are capable of handling high levels of power, making them suitable for industrial applications that require robust and reliable power management solutions.

2. Efficient Power Control:
   Thyristors offer precise control over the power delivered to a load. By controlling the timing of the gate pulse, it’s possible to adjust the amount of power being transferred, which is particularly useful in AC power control applications such as dimming lights or speed control of motors.

3. Low Conduction Losses:
   When fully on, thyristors have low forward voltage drops, resulting in minimal power losses during conduction. This efficiency contributes to lower operating temperatures and improved energy efficiency.

4. Rugged Construction:
   Designed for harsh environments, thyristor modules feature durable packaging that can withstand mechanical stress, temperature fluctuations, and other environmental factors typical in industrial settings.

5. Compact Design:
   Despite their ability to handle significant power, modern thyristor modules are compact, enabling space-saving designs in equipment where size and weight are critical considerations.

6. Cost-Effective Solution:
   Thyristor modules provide an economical way to implement powerful switching and control functions compared to alternative technologies that might not be as efficient or may cost more per unit of power handled.

7. Simple Triggering Mechanism:
   Thyristors require only a small gate current to turn on, which simplifies the design of control circuits. The triggering mechanism can be easily integrated into existing systems with minimal additional components.

8. Wide Range of Applications:
   From motor control and power supplies to welding machines and traction systems, thyristor modules find application across a broad spectrum of industries due to their versatile characteristics.

9. Overcurrent Protection:
   Many thyristor modules come equipped with built-in protection features against overcurrent conditions, safeguarding both the device itself and connected loads from potential damage.

10. Fast Switching Speeds:
    Advanced thyristor modules can switch states rapidly, which is beneficial in applications requiring quick response times or frequent switching cycles without compromising performance.

(pin module 10Gbp/s LC TOSA 1310nm DFB laser diode transmission with InGaAsP monitor photodiode with FPCB)

Specification of pin module 10Gbp/s LC TOSA 1310nm DFB laser diode transmission with InGaAsP monitor photodiode with FPCB

The pin component 10Gbp/s LC TOSA features a high-performance 1310nm DFB laser diode created for effective optical transmission. It supports information rates approximately 10 gigabits per second, excellent for high-speed interaction systems. The gadget integrates an InGaAsP display photodiode to guarantee real-time monitoring of laser result power. This configuration enhances stability and prevents signal degradation throughout operation. The component makes use of an adaptable published motherboard (FPCB) for portable style and trustworthy electrical connections.

The DFB laser diode operates at a wavelength of 1310nm, optimized for single-mode fiber applications. It delivers low sound and high linearity, crucial for maintaining signal honesty over cross countries. The InGaAsP photodiode provides exact feedback by converting optical power into electric signals. This enables automated power control (APC) circuits to adjust laser drive currents dynamically. The FPCB makes certain marginal signal loss and robust mechanical versatility, suitable for tight spaces in modern optical assemblies.

Key requirements consist of an operating temperature level series of -40 ° C to +85 ° C, ensuring integrity in severe atmospheres. The optical result power ranges from 0.5 mW to 2mW, flexible based upon system demands. The module adheres to market standards for eye safety and security and electromagnetic compatibility (EMC). Its LC port user interface assurances compatibility with standard fiber optics patch cables.

The TOSA style emphasizes low power usage, lowering warmth generation and lengthening component life-span. The FPCB’s lightweight structure decreases stress on solder joints, improving longevity. Electrical user interfaces support both analog and digital modulation systems, supplying adaptability for diverse network configurations.

Applications include fiber-optic transceivers, telecommunications facilities, and information facility interconnects. The module’s compact type element fits high-density installations, such as backbone networks and business systems. It is RoHS-compliant, meeting global ecological regulations.

Evaluating procedures make certain regular efficiency under varying conditions, including moisture and resonance. Each system undergoes rigorous quality checks for parameters like spectral size and termination ratio. The layout focuses on ease of combination, with solder pads aligned for simple PCB placing.

Packaging alternatives consist of tape-and-reel for automated setting up processes. Custom configurations are readily available for certain power or wavelength needs. Technical support covers design-in support and failure evaluation to optimize system compatibility. The component is backward-compatible with heritage 8Gbp/s and 5Gbp/s systems, guaranteeing smooth upgrades.

Reliability metrics include a minimum mean time between failures (MTBF) of 100,000 hours. Material choice focuses on thermal security and resistance to oxidation. The product datasheet supplies in-depth mechanical illustrations, electric features, and application standards.

(pin module 10Gbp/s LC TOSA 1310nm DFB laser diode transmission with InGaAsP monitor photodiode with FPCB)

Applications of pin module 10Gbp/s LC TOSA 1310nm DFB laser diode transmission with InGaAsP monitor photodiode with FPCB

The pin module with a 10Gbps LC TOSA 1310nm DFB laser diode and InGaAsP screen photodiode on FPCB is created for high-speed optical interaction systems. It supports data transmission in telecommunications networks, information centers, and business environments. The DFB laser diode makes certain secure single-mode output at 1310nm, ideal for long-distance signal distribution with marginal dispersion. The integrated InGaAsP photodiode keeps an eye on real-time laser performance, making it possible for exact power control and system integrity.

This module suits fiber-optic transceivers in 10G Ethernet, SONET, and Fiber Network applications. Its small LC user interface permits very easy integration into high-density network devices. The FPCB (versatile published circuit card) simplifies assembly, decreases mechanical stress, and sustains efficient warm dissipation. These attributes make it compatible with SFP+, XFP, and QSFP+ kind aspects for functional deployment.

In telecom networks, the module makes it possible for high-speed backbone links and metro ring networks. It takes care of data, voice, and video clip traffic over single-mode fiber, maintaining reduced bit error prices. Information facilities utilize it for server-to-switch links and storage space area networks. The low power intake and high thermal stability make certain consistent procedure in temperature-varied settings.

Industrial applications include factory automation and harsh-environment communication. The robust layout resists resonance, dirt, and humidity. The monitor photodiode supplies fail-safe feedback, stopping system downtime. Business networks take advantage of its plug-and-play compatibility with existing facilities, lowering upgrade expenses.

The 1310nm wavelength lessens attenuation in standard single-mode fiber, expanding reach without signal boosters. The DFB laser’s narrow spectral size reduces colorful dispersion, supporting longer transmission ranges. The FPCB’s adaptability permits personalized transmitting in space-constrained gadgets, boosting style adaptability.

This module fulfills market requirements for efficiency and safety and security. It is tested for EMI/EMC compliance, ensuring interference-free operation. Automated production procedures ensure regular high quality throughout sets. The mix of high-speed transmission, checking accuracy, and mechanical longevity makes it a core component in contemporary optical networks.

Company Profile

Luoyang Datang Energy Tech 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 pin module 10Gbp/s LC TOSA 1310nm DFB laser diode transmission with InGaAsP monitor photodiode with FPCB, 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 pin module 10Gbp/s LC TOSA 1310nm DFB laser diode transmission with InGaAsP monitor photodiode with FPCB

The pin module combines a 10Gbps LC TOSA 1310nm DFB laser diode and InGaAsP monitor photodiode on FPCB. It supports high-speed data transmission in optical networks. Below are common questions about its features and use.

What applications suit this module? It works in 10G Ethernet, fiber optic telecom systems, and data center links. The 1310nm wavelength fits single-mode fiber for long-distance communication.

Why choose a DFB laser diode? DFB lasers offer stable output and narrow spectral width. This reduces signal distortion over fiber. The design ensures reliable performance in high-speed networks.

What does the monitor photodiode do? The InGaAsP photodiode tracks laser output power. It sends feedback to control circuits. This maintains consistent transmission levels and prevents damage from power spikes.

How does FPCB improve the module? The flexible printed circuit board saves space. It allows compact designs in transceivers. FPCB handles high-frequency signals better than rigid boards. It also resists vibration and heat stress.

Does temperature affect performance? The DFB laser includes a built-in thermoelectric cooler. This stabilizes temperature. The module operates between -40°C and +85°C. It meets industry standards for thermal reliability.

The module’s LC connector ensures easy insertion with low loss. It complies with SFF-8472 and IEEE 802.3ae specifications. The design supports plug-and-play use in compatible devices.

The laser diode uses direct modulation for efficient data encoding. The monitor photodiode has a responsivity of 0.9A/W. This ensures accurate power monitoring.

FPCB routing minimizes signal interference. Gold-plated contacts reduce resistance. The module’s MTBF exceeds 100,000 hours. It suits high-availability networks requiring minimal downtime.

Testing includes optical power calibration and eye diagram analysis. Each unit undergoes quality checks for output stability and signal integrity.

(pin module 10Gbp/s LC TOSA 1310nm DFB laser diode transmission with InGaAsP monitor photodiode with FPCB)