Overcome Challenges in Embedded Optical Interconnects Design

2024-02-25 Smiths Interconnect library
Optical transceivers,transceiver,VPX blind mate connector,fiber optic cables Optical transceivers,transceiver,VPX blind mate connector,fiber optic cables Optical transceivers,transceiver,VPX blind mate connector,fiber optic cables Optical transceivers,transceiver,VPX blind mate connector,fiber optic cables

Introduction: Optical Technology in Embedded Design

The emergence of IoT in cloud computing and the demand for 4G and 5G networks worldwide are driving the increased use of Optical transceivers in a wide variety of applications: business, government, industrial, academic, and cloud servers in public and private networks. Both local area networks (LAN) and wide area networks (WAN) are demanding more bandwidth packed into smaller spaces, and traditional copper interconnects cannot satisfy the insatiable appetite of all the network servers and gateway devices. Furthermore, the next generation of networking devices will need to be even more compact and faster. According to market research firm Radiant Insight, the optical transceiver market will reach $9.9 billion by 2020, three times its 2013 level.


Optical transceivers are the key components that transform electrical signals to light over optical cables. At the receiving end, another optical transceiver will convert the light back to electrical signals as shown in Figure 1. Most transceivers operate with speeds of 10, 40, and 100 Gbps. When higher speed is needed, multiple lanes are used in parallel to deliver the required bandwidth.




Figure 1: Demonstration of conversion of digital data and fiber optic light signals.


What are the Advantages of Optical Networks?

Fiber optical networks or embedded communication systems have three key components: the optical transmitter, the fiber optical cable and the optical receiver. As described above, the transmitter converts electrical signals to light using either light-emitting diodes (LED) or laser diodes. At the receiving end, a photodetector is used to convert the light back to electrical signals. A transceiver combines the transmitter and receiver in one module.


The advantages of using fiber optics instead of copper include higher bandwidth, longer distance links, reduced weight, immunity to electromagnetic interference, and increased security.


Applications for Embedded Fiber Optics

Applications for embedded fiber optics are very broad and they often include projects that require very large bandwidth in confined areas, typically co-located with high-speed, high port count FPGAs or ASICs. Many of the civilian and military command and control monitoring systems (C4ISR), radar, FPGA interfaces, multiprocessor interconnects, CCD/CMOS imaging sensor arrays, high fidelity radar imagery, and systems requiring secure communications use fiber optics.


Figure 2: The block diagram of LightABLE™ LM SR4 module represents the typical functions of a transceiver


Challenges in Designing Embedded Systems with Optical Interconnects

There are three major challenges in designing embedded optical interconnects.


· Creating an embedded system to support maximum bandwidth with the smallest possible footprint.

· Designing or selecting the best optical interconnect able to perform in harsh environments with maximum MTBF.

· Future-proofing the embedded system to maximize the return on system investment.


Balancing performance, space, power, and cost is a constant tradeoff and challenge. The design will depend largely on the bandwidth requirements of the embedded system, which can be a single boardcomputer (SBC) or multiple boards that fit in a chassis. Some of these network systems need to support many Gbps, thus the system design will also depend on the size and throughput of the interconnect. Multiple components may be needed which can increase the size of the SBC or chassis, and power and cooling requirements can also impact the overall system footprint. Many commercial grade optical interconnects operate in a limited temperate range, and cannot handle the shock and vibration of harsh environments, and some systems may need to operate in humid conditions. All these environmental factors will directly or indirectly affect the operational performance and life span of the products. In other words, a high-performance system will typically consume more power and require better cooling resulting in larger size and costing more. Therefore, tradeoff in system design is always an important consideration.


In Search of the Best Fiber Optic Interconnect Solutions

There are many considerations in selecting the best fiber optics interconnect solution, and they often require tradeoffs. The main considerations include investment protection, product performance, form factors, reliability, and integration considerations. The following provides guidelines for selecting or designing optimal embedded fiber optic interconnect solutions.


Standard-based solutions protect purchase investments

System performance is impacted by many factors, and there are a few rules of thumb to bear in mind:


· The smallest form factor is desirable

· Always choose rugged and reliable solutions even if they cost more

· Guidelines for module integration and configuration should be observed


While there are many proprietary designs available, the best approach is to select VITA standard-based solutions because they are supported by a consortium along with a large ecosystem, so the design will be supported with upgrades over time. Additionally, the standard defines the technology and the connector specifications, which enables developers and integrators to select from multiple VITA-based vendors.


System performance is impacted by many factors

Fiber optics technology is capable of providing high-speed, low-latency, long-distance communication with no electrical noise interference. However, many factors will impact the true, sustained performance and potential distance of the communication links. These factors include communication error rate, link budget, and receiver sensitivity. Additionally, when doing system design, full-duplex must be part of the equation. Some new configurations can achieve up to 600 Gbps bandwidth, but there is overhead involved which may impact the actual throughput. For example, an unstable transceiver with a high error rate will cause the system to perform retransmission which will decrease the overall system performance. The measure of this phenomenon is referred to as bit error rate (BER).


For fiber interconnect devices or systems, the minimum BER should be 10-12. Higher performance can be achieved if BER is 10-15 or better. BER of 10-12 means that one error occurs every trillion transmissions. Additionally, a link budget greater than 13 dB with a receiver sensitivity of -12dBm is recommended



Figure 3: 600G LightCONEX plug-in module composed of two 24-lane transceiver side by side.


Smallest form factor is desirable

More and more embedded systems including single board computers (SBC) are using a smaller form factor. Therefore, it is important to select modules with the smallest footprint possible. Fiber optics transceiver modules can be as small as 1.3 cm × 1.3 cm (see Figure 4). Additionally, consider low profiles modules with a height of less than 5 mm. This will allow room for the SBC or systems to add additional functions on board.




Figure 4: 150G and 300G LightCONEX Optical Transceivers


Always choose rugged and reliable solutions even when they cost more

Many fiber optics systems are used in harsh environments. As a result, commercial grade products will often fail or, at the minimum, have a shortened service life. It is important to choose solutions that will survive the environments of the target applications. Typical operating temperature should be from -40℃ to 100℃ or better with storage temperature from -57℃ to 125℃. In addition, if the module consumes less power (100 mW per lane or better), it will create less heat and help achieve better MTBF. Other considerations should include shock and vibration resistance, passing MIL-STD-883 or better. The module should also be sealed to prevent corrosion due to exposure to moisture. As a rule of thumb, it is recommended that products pass the following tests to ensure the highest quality.


MIL-STD-883:

· Vibration tests, Method 2007.3

· Mechanical shock tests, Method 2002.4

· Thermal shock tests, Method 1011.9

· Thermal cycling tests, Method 1010.8


MIL-STD-202:

· Damp heat tests, Method 103B MIL-STD-810:

· Cold storage tests, Method 502.5


Rules for module integration and configuration should be observed


Figure 5: Illustration of a VPX blind mate connector comprising a 24 fiber MT ferrule and 10 RF coaxial connectors. The size of this connector meets VITA 66.4 standard.


A well-designed transceiver should take into account the connector choice and location, as well as ease of system integration and configuration. As shown in Figure 5, an active blind mate optical design will make connector mating much easier and reduce the chances of making connection mistakes.


Additionally, there are two other rules to follow when considering connector selection or design. First, follow the VITA 66.5 “Optical Interconnect on VPX, Spring Loaded Contact on Backplane” standard which defines the connector dimensions. Then place the board-edge, plug-in module connector, similar to ftlx8571d3bcvit1, near the edge of the board, integrating an active parallel optic transceiver, and a spring-loaded backplane connector developed for VPX systems (part of the VITA standard) as shown in Figure 6. This approach will limit any additional cabling needed to bring the signals to the edge of the SBC board.



Figure 6: LightCONEX Active Blind Mate VPX Optical Interconnect


The Embedded Interconnects Design Checklist

The following paragraph can serve as a checklist for ease of use.


· Select solutions based on the VITA standard including VITA Section 6. This applies to the overall systems as well as the connectors.

· For optimal system performance, select modules with a low bit error rate (BER) such as 10-15.

· Select small form factor modules in the range of 1.5 cm x 1.5 cm, with height profiles less than 5 mm. This will provide extra space for the circuit board.

· Select rugged and reliable solutions that pass a minimum set of tests including the following:


MIL-STD-883:

· Vibration tests, Method 2007.3

· Mechanical shock tests, Method 2002.4

· Thermal shock tests, Method 1011.9

· Thermal cycling tests, Method 1010.8


MIL-STD-202:

· Damp heat tests, Method 103B


MIL-STD-810:

· Cold storage tests, Method 502.5


Select designs/modules that are easy to integrate. These include blind-mate and broad-edge connectors.


Conclusions

The above article has outlined the advantages and challenges of using fiber optical interconnects. To use fiber optic cables, the electrical signals need to be converted to light signals using fiber optic transceivers. While there are many challenges to embedded fiber optics design, the benefits are substantial. The guidelines and design checklist provided will help developers select the best solutions for their needs.

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