What chip is used in remote control aircraft?

What chip is used in remote control aircraft?

With the rapid development of drone and remote control aircraft technology, chips, as one of the core components, determine the performance, stability and functionality of the aircraft. This article will combine the hot topics and hot content on the Internet in the past 10 days, analyze the types of chips commonly used in remote control aircraft and their characteristics, and display relevant information through structured data.

1. Commonly used chip types for remote control aircraft

The chips of remote control aircraft mainly include main control chips, communication chips, sensor chips and power management chips. The following are recent popular chips and their application scenarios:

2. Recent hot chip technology trends

According to the analysis of hot topics in the past 10 days, remote control aircraft chip technology shows the following trends:

1.High performance main control chip: The STM32H7 series has gradually become the first choice for high-end drones due to its stronger computing power and low power consumption.

2.5G communication chip: Some manufacturers have begun testing the application of 5G modules in remote-controlled aircraft to achieve longer-distance and lower-latency control.

3.AI chip integration: For example, Huawei's Ascend chip is being used for drone vision processing to achieve intelligent obstacle avoidance and target recognition.

3. The impact of chip selection on the performance of remote control aircraft

4. Price comparison of mainstream remote control aircraft chips

The following is the recent price reference of popular chips on e-commerce platforms (data statistics period: last 10 days):

5. How to choose the appropriate chip for remote control aircraft

1.Clarify needs: Determine the chip performance level according to the purpose of the aircraft (entertainment, aerial photography, racing, etc.).

2.Compatibility check: Ensure that the communication protocols of the main control chip and peripheral devices match.

3.Power consumption assessment: For small drones, low-power chips can significantly improve battery life.

4.development support: Choose a chip model with complete documentation and an active community, such as the STM32 series.

Among the "open source flight control" projects that have been hotly discussed on the Internet recently, PX4 and Betaflight systems have the most complete support for STM32 series chips, which is one of the important reasons why they have become mainstream in the market.

6. Future Outlook

According to recent interviews with industry experts, remote control aircraft chips will develop in three directions: lower power consumption (using processes below 22nm), stronger AI computing power (integrated NPU units), and higher integration (SoC solutions). It is estimated that by 2025, single-chip solutions may account for more than 50% of the mid-range market.

This article shows the latest market dynamics and technology trends of remote control aircraft chips through structured data, hoping to provide valuable reference for model aircraft enthusiasts and industry practitioners. When actually purchasing, it is recommended to conduct a comprehensive evaluation based on specific project needs and budget.