Previously unobserved effects of delay on current-mode control

30th Annual IEEE Power Electronics Specialists Conference. Record. (Cat. No.99CH36321) Pub Date : 1999-06-27 DOI:10.1109/PESC.1999.788974

E. Mayer, R. King

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引用次数: 8

Abstract

A new sampled-data model for the current-mode controlled buck converter includes for the first time the effects of delay in the current loop. Modified z-transforms are used in this new model for constant frequency trailing-edge modulation. Realistic amounts of delay are found to be particularly significant when the buck converter is operating in the continuous conduction mode near the discontinuous conduction mode boundary. The new model is used to predict the loop gain measurements obtained with the digital modulator and with conventional measurement techniques. It is shown that conventional loop gain measurement techniques are insufficient to measure the loop gain in this region of operation. It is also shown that the digital modulator can add a significant amount of delay, thereby altering the loop gain of the circuit being measured. However, if care is taken to minimize this delay, a good loop gain measurement can be achieved. The new model accurately predicts the boundary condition for subharmonic instability. In addition, it reduces to Ridley's current-mode control model for the case of zero delay.

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先前未观察到的延迟对电流模式控制的影响

一种新的电流模式控制降压变换器的采样数据模型首次考虑了电流环路中延时的影响。该模型采用改进的z变换进行恒频后缘调制。当降压变换器工作在连续导通模式附近的断续导通模式边界时，实际的延时量尤为重要。利用新模型对数字调制器和传统测量技术测得的环路增益进行了预测。结果表明，传统的环路增益测量技术不足以测量该工作区域的环路增益。还表明，数字调制器可以增加大量的延迟，从而改变被测电路的环路增益。然而，如果注意最小化这种延迟，就可以获得良好的环路增益测量。新模型准确地预测了次谐波不稳定的边界条件。在零延时情况下，简化为Ridley的电流型控制模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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30th Annual IEEE Power Electronics Specialists Conference. Record. (Cat. No.99CH36321)

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