中文摘要：

对磁悬浮轴承数字控制器的可靠性进行了研究，根据磁悬浮轴承数字控制器的特点与结构，将其分为DSP芯片以及信号输入通道、信号输出通道三个部分，分析了每个部分可能发生的故障类型，针对不同的故障类型研究了相应的故障诊断与处理方法，并以美国TI公司的浮点DSP芯片TMS320VC33为核心研制了高可靠磁悬浮轴承数字控制器。应用该数字控制器在五自由度磁悬浮轴承系统上进行了可靠性验证试验，试验中，当转子处于30000r／min的高转速下手动复位DSP芯片以模拟其发生故障，控制器能够在100μS内判断出故障并切换到备用DSP芯片，在整个故障处理过程中磁悬浮轴承系统保持稳定。同样，在转子处于30000r／min的高转速下任意切断单个或多个信号传输通道，控制器能在20uS内判断出故障通道并切换到备用通道，且整个切换过程对转子状态没有任何影响。

英文摘要：

The reliability of AMB digital controller was studied herein. According to the characteristics and structure of AMB digital controller, it was divided into three parts, named DSP chip, signal input channels and signal output channels respectively. The possible fault type of each part was analyzed. Aiming at each fault type, this paper developed a high--reliability AMB digital controller in which the TI＇s floating--point DSP chip TMS320VC33 severed as the core. Experiments that used to verify reliability of controller on the five degrees of freedom magnetic bearing system were done. In the experiments, when rotor is at the speed of 30 000r/min, the controller can diagnose the faults and switches to the reserve DSP in 100μs which is quick enough to guarantee the stabilization of the whole system after the main DSP chip is manually reset. Similarly, the rotor states stay the same after any of those input--output channels are cut off at the same high speed, the controller can quickly determine the failed channels and switch to the backup channels in 20μs.