New Energy and Internet of Vehicles - Application Areas

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New Energy and Internet of Vehicles

A leading new energy vehicle company is deploying a charging pile network and vehicle-to-everything (V2X) platform, covering over 5,000 charging pile clusters and 200+ intelligent roadside units nationwide. This requires supporting real-time monitoring of charging pile status, vehicle-road cooperative data interaction, and remote diagnostics of new energy vehicles. With the increasing density of charging piles and a 70% annual increase in V2X data volume, the existing gigabit optical module transmission bottleneck has become apparent. There is an urgent need for a 10G optical module adapted for outdoor short-range interconnection scenarios. The core requirements focus on high reliability, resistance to harsh environments, and low power consumption, while simultaneously meeting the high-density direct connection needs between charging piles and gateways, and between roadside units and servers.

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Customer pain points

Insufficient bandwidth and interaction efficiency: Gigabit modules cannot handle concurrent data uploads from charging pile clusters and low-latency transmissions in vehicle-road collaboration, resulting in delayed charging status updates and lagging vehicle network command responses.

Poor environmental adaptability: Outdoor conditions such as high temperatures, rain, snow, and electromagnetic interference are complex, and the traditional module has a stable operation rate of only 99.2%, with frequent communication interruptions affecting the operation and maintenance of charging piles and driving safety.

Deployment and power consumption challenges: Charging piles and roadside units are scattered, and the modules need to be compatible with gateway devices from multiple manufacturers, with customized adaptation costs exceeding 300,000 yuan; traditional modules consume 6W of power, putting great pressure on outdoor power supply.

High-density interconnection is limited: Charging pile clusters and roadside units need to be deployed in short distances and at high density. The original module interfaces have poor compatibility and cannot meet the requirements of compact layout.

Adopt TBCOM 10G optical module

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Short-distance high-density adaptation

Designed specifically for outdoor short-distance scenarios with a range of ≤50m, it perfectly adapts to direct connection between charging piles and gateways, and roadside units and servers, breaking through bandwidth bottlenecks and supporting concurrent data transmission of multiple devices;

High reliability and resistance to harsh environments

It adopts an industrial-grade protective design (IP65 dustproof and waterproof rating), can withstand a wide temperature range of -40℃ to 85℃, and is equipped with anti-electromagnetic interference shielding technology to ensure 99.999% stable operation;

Low power consumption and interference immunity

The power consumption of a single module is reduced to 3.5W, which is 41.7% lower than similar products, reducing the pressure on outdoor power supply; it is compatible with mainstream gateway and server protocols, allowing for plug-and-play operation and improving deployment efficiency by 90%;

High yield rate to control costs

The entire process of quality control achieves a 100% factory yield rate, with a return rate of only 0.03%, significantly reducing outdoor operation and maintenance and after-sales costs.

Effect presentation

After the module went live, it experienced zero failures for 10 consecutive months, with a stable operating rate of 99.9996%. The data center's PUE dropped to 1.27, saving over 3 million yuan in electricity costs annually and reducing overall costs by 42%. The 18-microsecond low latency supports short-distance, high-density data interaction, improving the training efficiency of large models by 80% and completely solving the matching problem between GPU computing power and bandwidth transmission.

99.999%

Stable operating rate

35%↓

Operation and maintenance costs

60%↑

Command response speed

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