Aviation Safety Lights Circuit 航空安全灯电路

An aviation safety light system can be created using transistors to create an astable multi-vibrator circuit that is able to control the output of various safety lights that are located at various locations on a plane. These safety light projects explore how electrical theory can be applied to solve a number of real world problems. These circuit designs only give you what you need to get started on your project but additional research will still be needed. It is important to understand how and why the circuits work, and additional research into the colour and placement of the various safety lights will still be needed before you can use these circuits in a model aircraft. Throughout this project you will learn about electronics, the social aspects of electrical engineering, and about public safety.

航空安全灯系统可以使用晶体管创建一个多谐振荡器,能够控制位于飞机上不同位置的各种安全灯的输出。这些安全灯项目探索了如何将电子理论应用于解决许多现实问题。这些电路设计只提供了项目所需的基础设备,还需要进行更多的研究。了解电路的工作方式和原因很重要,在模型飞机中使用这些电路之前,还需要对各种安全灯的颜色和位置进行探讨。整个项目将学习电子工程及其社会公共安全方面等。

Aviation Safety Light Circuit 航空安全灯电路

The aviation safety light circuit works by creating an astable multi-vibrator using 2 transistors to create a stable pulse that can be used to control the flashing of both the anti-collision lights and beacon lights, while also providing a stable output to keep the navigation lights on.
航空安全灯电路的工作原理是使用2个晶体管创建一个多谐振荡器,以产生稳定的脉冲,该脉冲可用于控制防撞灯和信标灯的闪烁,同时还提供稳定的输出以保持导航灯亮起。

If you want to take your aviation projects even further, you can also attempt the auto distress beacon, which is perfect addition to a plane or rocket. Auto distress beacons make it easier to track or find your project if it crashes outside of your targeted landing area.

如果想进一步完善此项目,可以尝试添加自动遇险信标,飞机或火箭往往都具备,如果在目标着陆区以外坠毁,自动遇险信标可以更容易地跟踪或找到失事体。

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The Sea Otter project uses these circuits to create a plane with a fully functional safety light system.

海獭项目利用这些电路制造出一架具有全功能安全灯系统的飞机。