1. 作业原理/Working principle
★ 当U2为正半周并且数值大于电容两头电压Uc时,二极管D1和D3管导通,D2和D4管截止,电流一路流经负载电阻RL,另一路对电容C充电。当Uc>U2,导致D1和D3管反向偏置而截止,电容经过负载电阻RL放电,Uc按指数规则缓慢下降。
★ ThediodeD1&D3 work, D2&D4 cut off, the current flows through the load resistance RL in a loop and charge thecapacitorC up when U2 in the positive halfcircuitand its value exceeding the voltage Uc which is parallel connected in the twoterminalsof capacitor. When Uc exceeds U2, and causes the diode D1&D3 cut off, the capacitor discharge through the load resistance RL and Uc decline slowly according to the principle of index function.
★ 当U2为负半周幅值改变到刚好大于Uc时,D2和D4因加正向电压变为导通状况,U2再次对C充电,Uc上升到U2的峰值后又开端下降;下降到必定数值时D2和D4变为截止,C对RL放电,Uc按指数规则下降;放电到必定数值时D1和D3变为导通,重复上述进程。
★ As the same reason , when U2 in the negative half circuit and the amplitude is even changed to exceed Uc ,the diode D2&D4 work due to the positive voltage and U2 charge capacitor C up again. Uc start to decline when it’s voltage rise to the peak value of U2 and to a certain value , the diode D2&D4 cut off , the capacitor C discharge to RL, Uc decline according to the principle of index function again. When the discharge to a certain value, the diode D1&D3 work again and the cycle repeats.
2.测验办法/TestMethod
2.1 测验温升核算电容寿数/Life time of capacitor at testing temperature condition
核算寿数公式/ Formula for calculating lifetime :
适用公司/ Corporation suited:Fcon 、KSC、TL、TEAPO、CapXon
2.2 测验纹波电流核算电容寿数/Life time of capacitor at testing ripple current condition
核算寿数公式/ Formula for calculating lifetime:
2.2.1 直接丈量电容纹波电流/Direct measure of E-cap ripple current
开关电路中电容纹波电流剖析
C1为buck电容,其充电时刻遭到低频沟通输入影响,而放电时刻则是遭到开关管Q1的高频影响。即A点遭到低频沟通输入影响,频率为沟通频率的2倍,100Hz左右,故A点场所测验出电流为电容C1的低频纹波电流(IL);B点遭到高频开关Q1的影响,频率一般为100KHz,故B点所测验出的电流为电容C1的高频纹波电流(IH)。
C1 is the buck capacitor, its charge time lies on the low frequency Vac input, and the discharge time influenced by the high frequency of switchingMOSFETQ1. The frequency of position A, lying on the Vac input, is doubled, about 100Hz. And the current flowed through just is the low frequency current of C1; similarly, the frequency of position B, lying on the Q1, is about 100 KHz, and the current is high frequency.
现在对电容纹波核算办法界说为/ The test method defined in our company at present is:
2.2.2 使用低通和高通滤波电路丈量纹波电流/Measurement via low pass or high pass filter
关于输入大容量的%&&&&&%,有低频(100HZ)和高频(开关频率,如100KHZ)两种电流流过,电流的丈量有必要串一个电流检测电阻去取得,并且低频纹波电流和高频纹波电流应别离丈量。
For bulk capacitor, both low frequency (100HZ) and high frequency (switching frequency, say 100 KHz) current are flowing. The current shall be measured with a current sense resistor. As the low and high frequency ripple shall be measured separately.
低通滤波电路
高通滤波电路
低通滤波电路的带宽为0~wc(wc=1/RC),高频滤波电路带宽则为>wc。
The bandwidth of low pass filter is 0~wc(wc=1/RC), and >wc in high pass filter.
★ 在检测电阻上并接一个RC(1k5、0.1uF)电路,(如下图所示)用有用值表丈量0.1uF两头的有用电压,即可得低频纹波电流值,此刻高频成分已被滤除。
Add an RC (1K5, 0.1uF) across the sense resistor, measure rms voltage across 0.1uF; this will filter out the high frequency, leaving the 100Hz ripple current.
低频纹波电流测验图
★ 在检测电阻上并接一个RC(0.1uF、1K5)电路,(如下图所示),用有用值表测1K5电阻两头的有用值电压,依据I=U/R即可取得高频纹波电流值,此刻低频成分已被滤除。
Add a CR (0.1uF, 1K5) across the sense resistor, measure rms voltage across 1K5; this will filter out the low frequency, leaving the switching frequency ripple current. Calculate with I =U/R. (Note: R is 0.1 ohm, not 1K5)
高频纹波电流测验图