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高效率太阳能电池充电器的设计
工程师们在设计太阳能电池充电器时有很多选择。除了基本的电路设计技术外,越来越多的集成设备提供了专门为建造高效率、太阳能电池充电器系统而设计的解决方案。设计师可以找到合适的芯片和相关评估套件从线性技术、国家半导体、NXP、意法半导体、德克萨斯文书。
面板渗漏
由于其大的连接区域,太阳能电池板具有泄漏设备的特点。如果没有适当的预防措施,面板泄漏会导致电池在低照度或无照明期间显著放电。传统上,太阳能电池板的设计考虑到面板泄漏,其中包括二极管与面板串联,这种方法通过漏电大大降低了电池的放电量,但由于二极管正向压降中的能量损失,导致整体效率较低。集成电路等技术对传统的线性ltc4412系列二极管提供了一个简单的选择。这些集成电路被设计用来控制一个外部P沟道MOSFET,提供近乎理想的二极管功能。
Beyond reducing battery discharge through panel leakage, engineers need to design their solar chargers with battery protecTIon capabiliTIes to ensure both battery life and safety. ICs such as Linear‘s LTC4071 provide basic overcharging protecTIon by shunTIng current away from the battery as battery voltage reaches the float voltage. Along with a current-limiting resistor for higher current solar panels, designers can build a basic solar power battery charger using only the LTC4071, an additional shunt resistor, capacitor, and leakage-protection diode (Figure 1)。 Along with its overcharge protection, the LTC4071 protects the battery from over discharge by disconnecting the load from the battery when the battery discharges to the point where VCC falls below the low battery disconnect voltage (VLBD)。
