相关组织已为激光发射器设计出一些优化节能系统,但同时兼顾高节能水平和高可靠性的激光发生器优化节能系统仍较为欠缺,为此,设计基于嵌入式的激光发生器优化节能系统。所设计的系统将激光发生器的能耗来源分为跳变能耗、短路能耗和漏电能耗,三者分别占据了约70%、10%和20%的总能耗。对跳变能耗构建动态能耗模型,对短路能耗和漏电能耗构建静态能耗模型,并将两个模型嵌入到MC34063芯片中。MC34063芯片以减少激光发射任务处理时间和元件电能供应量为节能目标,完成激光发生器设计的优化节能。经实验分析可知,所设计的发生器拥有较高的节能水平和可靠性,可较好地实现设计初衷。 Related organizations have designed some energy-saving systems for laser transmitters. However, optimizing energy-saving systems for laser generators, which take into account the high energy-saving level and high reliability, is still lacking. Therefore, an energy-saving system based on embedded laser generators is designed. The designed system divides the sources of energy consumption of laser generator into energy consumption of jump, energy consumption of short circuit and energy leakage of leakage, respectively, which account for about 70%, 10% and 20% of total energy consumption respectively. Build a dynamic energy consumption model for hopping energy consumption, construct a static energy model for short-circuit energy consumption and leakage energy consumption, and embed the two models into the MC34063 chip. MC34063 chip to reduce the laser launch task processing time and energy supply components for the energy-saving goals, to complete the optimal energy-saving laser generator design. The experimental analysis shows that the design of the generator has a high level of energy-saving and reliability, can better achieve the original design.