High Performance and Volume Manufacturability with the Design Simplicity of Infinera's TROSA

In today's digital age, businesses require high-performance and cost-effective optical networks to meet the ever-increasing demand for bandwidth. Infinera's TROSA, or the "Transceiver Rotary-Servo Assembly," provides a simple yet powerful solution to this challenge.

The TROSA design combines high-performance with ease of manufacturing, making it an ideal choice for businesses seeking to increase their network capacity while minimising costs.

What is TROSA?

TROSA, or Transceiver Rotary-Servo Assembly, is a new type of photonic integrated circuit (PIC) that enables high-performance optical networks with a simple and cost-effective design.

The TROSA integrates several critical components required in optical networks, including lasers, detectors, modulators, and multiplexers, onto a single chip. This integration provides several benefits, including improved performance, reduced power consumption, and lower costs.

High-Performance and Volume Manufacturability

One of the primary advantages of TROSA is its high-performance and volume manufacturability. The TROSA's compact design allows for easy integration into optical modules, reducing the size and complexity of optical networks. Additionally, TROSA's design enables a high level of control over critical optical parameters, including wavelength, modulation, and polarisation.

This level of control results in a high level of performance, enabling businesses to deliver the bandwidth needed for today's digital applications. Furthermore, the TROSA's volume manufacturability enables high-volume production of optical modules at a lower cost.

The TROSA design simplifies the manufacturing process, reducing the number of components required to build optical modules. This simplification also reduces the potential for errors, resulting in a higher yield and lower production costs.

Design Simplicity

Another key advantage of TROSA is its design simplicity. The TROSA integrates several critical optical components onto a single chip, reducing the number of components required to build optical modules.

This reduction in the number of components also simplifies the manufacturing process, reducing the potential for errors and improving the yield. Furthermore, the TROSA's design simplicity enables faster product development and testing, reducing the time to market for new optical modules.

Applications of TROSA

TROSA has a wide range of applications in the optical networking industry. One of the primary applications of TROSA is in optical transceivers, which are used to convert electrical signals into optical signals and vice versa.

The TROSA's compact design enables the integration of multiple optical components onto a single chip, reducing the size and complexity of optical transceivers.

This reduction in size also enables the deployment of optical transceivers in a wider range of applications, including mobile backhaul, data centre interconnects, and metro networks.

Another application of TROSA is in optical amplifiers, which are used to amplify optical signals over long distances. The TROSA's design enables the integration of multiple optical components, including lasers and detectors, onto a single chip, improving the performance of optical amplifiers. This integration also simplifies the manufacturing process, reducing the cost of optical amplifiers.

Conclusion

Infinera's TROSA provides a simple yet powerful solution for high-performance and volume manufacturability in optical networks. The TROSA's design enables the integration of critical optical components onto a single chip, reducing the size and complexity of optical modules. Additionally, the TROSA's design simplicity enables faster product development and testing, reducing the time to market for new optical modules.

The TROSA's applications in optical transceivers and optical amplifiers make it an ideal choice for businesses seeking to increase their network capacity while minimising costs