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引用次数: 7
摘要
本文提出了一种基于SPICE的虚拟抗扰度测试方法。这种方法有利于emc兼容的电子设计。以BCI测试方法虚拟化为例。它也可以应用于例如带状线方法。测量装置组件所需的SPICE模型只生成一次。它们是基于散射参数的测量。这些测量是用BCI测试装置的真实射频组件进行的。在一个原理图中,SPICE模型和测试电路根据实际测试设置连接。首先,在交流分析中,通过将BCI钳位建模为具有1伏特恒定刺激的交流源来模拟所有电压和电流。在实际测量中,控制计算机设置与频率相关的发生器幅度。对于这个过程,标准DIN ISO 11452:4规定了两种测试条件:“开环”和“闭环”。在虚拟抗扰度测试中,使用计算机控制的频率相关射频测试功率,将1伏刺激引起的所有模拟电压和电流进行线性缩放,以匹配真实条件。这种虚拟测试方法使开发过程更快,成本更低。
This paper presents a virtual immunity test method using SPICE. This method facilitates EMC-compliant eletronic design. As an example, it is used to virtualize the BCI test method. It can also be applied to e.g. the stripline method. The required SPICE models of the components of the measurement setup are generated just once. They are based on scattering parameter measurements. These measurements are made with real RF components of the BCI test setup. In a schematic the SPICE models and the test circuit are connected according to the real test setup. At first in an AC analysis all voltages and currents are simulated by modelling the BCI clamp as an AC source with a constant stimulus of one volt. During real measurements a control computer sets the frequency-dependent amplitude of the generator. For this process, the standard DIN ISO 11452:4 specifies two test conditions: “open loop” and “closed loop”. In the virtual immunity test, all simulated voltages and currents due to the one volt stimulus are linearly scaled in order to match the real conditions using a computer-controlled frequency-dependent RF test power. This virtual test method makes the development process faster and cheaper.
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