在设计有源器件时,有时会出现线性稳压器或开关稳压器是否更适合设计的问题。了解两者之间的差异可以帮助您为您的应用程序做出正确的选择。线性稳压器开关稳压器设计灵活性巴克降压(显示),升压,降压 - 升压效率低到中(当Vin和Vout之间的差异很小时)高Complexibility易于设计设计复杂波纹&噪声无纹波,低噪音,更好的噪音抑制中到高,取决于开关频率如您所见,开关稳压器的主要优势在于其能效,而线性稳压器的主要优势在于其简单,低噪声的操作。有关更多详细信息,请参阅我们的TechZone文章,了解线性稳压器的优缺点。以上来自于谷歌翻译以下为原文When designing a powered device, the question sometimes arises of whether a Linear Voltage Regulator or a Switching Regulator is more suitable for the design. Understanding the differences between the two can help you make the right choice for your application.Linear Voltage RegulatorSwitching RegulatorDesign FlexibilityBuckBuck(shown),Boost, Buck-BoostEfficiencyLow to Medium (when small difference between Vin and Vout)HighComplexibilityEasy to designComplex in designRipple & NoiseNo ripple, low noise, better noise rejectionMedium to high, depends on switching frequencyAs you can see, the primary advantage of switching regulators is their energy efficiency, while the primary advantage of linear regulators is their simple, low-noise operation.For more details, please refer to our TechZone article, Understanding the Advantages and Disadvantages of Linear Regulators.
2018-10-24 09:45
2Pro AC器件是如何提高设备可靠性的? 又是什么原因致使驱动芯片损坏的呢?
2021-04-06 08:03
如题
2016-08-10 15:52
。PTC温度系数具有很强的非线性,当温度超过一定阈值时电阻会变得很大,相当于断路,从而可以起到短路和过流保护的作用。同时还有负温度系数电阻,即NTC就不详细介绍了。压敏电阻上图出自Varistor
2019-08-07 07:08
什么是压敏电阻?压敏电阻与气体放电管、TVS管的区别在哪儿?压敏电阻在防雷电路中的作用是什么?
2021-06-08 07:21
由于全球经济与科技的发展,电子产品已迅速深入世界的各个角落。然而,许多偏远地区基础建设不佳,或是气候极端的地方,电子产品遭受雷击的机率与能量提高,所造成电气过载(Electrical Overstress, EOS)的反修率也随之提升。因此,如中国内地自家电下乡计划之后,不断的提高电子产品雷击耐受度(IEC 61000-4-5)的规格,从原有的1kV,渐渐提升到4kV,甚至已有产品要求6kV的规格。
2019-07-24 08:08
我正在开发一个PIC32毫米微控制器的应用程序。在MCU,我在RB11启用了外部中断,在RA4管脚启用了Change On Notification中断(因为RA4管脚没有外部中断)。我们发现,有时RA4引脚会锁定到高电平或低电平,并且永远不会再次触发中断,除非我们关掉电源并再次打开电源。外部中断引脚不存在这个问题。当我们进行中级EFT测试(1kV)时,我们也可以模拟这个问题。然后我在这个引脚上添加了一个T.V.S,当我们再次进行EFT测试(测试多次)时,问题就消失了。我们感到惊讶的是,我们认为微芯片具有良好的EMC性能。我想问的是,通知模块的变化是否更加脆弱?需要采取什么预防措施? 以上来自于百度翻译 以下为原文 I am developing an application with the PIC32MM MCU. At the MCU I have both enabled the external interrupt at RB11 and Change On Notification interrupt at RA4 pin (because the RA4 pin does not have external interrupt). We found that sometimes the RA4 pin will lock to high or low level and never trigger the interrupt again, except we switch off the power and switch on the power again. The external interrupt pin does not have this problem. Also we can simulate this issue when we do a mid-level EFT test (1kV). Then I added a T.V.S at this pin, and the issue gone when we do the EFT again (tested several times). We are surprised as we thought Microchip is good at EMC performance.I want to ask is the Change On Notification module is more fragile? What precaution need to take?
2019-05-20 14:27
你知道Proteus元件的库元件都有哪些吗?
2021-11-04 06:00
我会写两个的程序,但是用4*4矩阵键盘输入0——9999任意数字显示在12864上怎么写呢?又如何实现设置、确定、清除等功能呢?
2012-11-07 19:39
如何下载Proteus软件?怎么安装?如何操作?
2021-10-12 08:33
