active gyrators are widely used in modern filter designs to reduce component count.
有源回旋器广泛应用于现代滤波器设计中,以减少元件数量。
passive gyrators can simulate inductance without magnetic cores.
无源回旋器可以在没有磁芯的情况下模拟电感。
the gyrator circuit converts capacitive reactance into inductive behavior.
回旋器电路将容性电抗转换为感性行为。
gyrator filters offer excellent performance in low-frequency applications.
回旋器滤波器在低频应用中提供出色的性能。
impedance gyrators help engineers create compact filter topologies.
阻抗回旋器帮助工程师创建紧凑的滤波器拓扑结构。
synthetic gyrators are essential components in audio equalizer designs.
合成回旋器是音频均衡器设计中的重要组件。
the gyrator implementation requires careful attention to noise performance.
回旋器的实现需要仔细注意噪声性能。
using gyrators, designers can achieve high-q filtering characteristics.
使用回旋器,设计人员可以实现高q值滤波特性。
gyrator design has evolved significantly with cmos technology.
回旋器设计随着cmos技术发生了重大演变。
gyrator-based filters are popular in biomedical instrumentation.
基于回旋器的滤波器在生物医学仪器中很受欢迎。
the gyrator network provides flexible impedance transformation.
回旋器网络提供灵活的阻抗变换。
cascaded gyrators enable complex filter responses with minimal parts.
级联回旋器可以用最少的元件实现复杂的滤波器响应。
precision gyrators maintain accuracy across temperature variations.
精密回旋器在整个温度变化范围内保持准确性。
the gyrator model predicts circuit behavior under different loading conditions.
回旋器模型预测不同负载条件下的电路行为。
active gyrators are widely used in modern filter designs to reduce component count.
有源回旋器广泛应用于现代滤波器设计中,以减少元件数量。
passive gyrators can simulate inductance without magnetic cores.
无源回旋器可以在没有磁芯的情况下模拟电感。
the gyrator circuit converts capacitive reactance into inductive behavior.
回旋器电路将容性电抗转换为感性行为。
gyrator filters offer excellent performance in low-frequency applications.
回旋器滤波器在低频应用中提供出色的性能。
impedance gyrators help engineers create compact filter topologies.
阻抗回旋器帮助工程师创建紧凑的滤波器拓扑结构。
synthetic gyrators are essential components in audio equalizer designs.
合成回旋器是音频均衡器设计中的重要组件。
the gyrator implementation requires careful attention to noise performance.
回旋器的实现需要仔细注意噪声性能。
using gyrators, designers can achieve high-q filtering characteristics.
使用回旋器,设计人员可以实现高q值滤波特性。
gyrator design has evolved significantly with cmos technology.
回旋器设计随着cmos技术发生了重大演变。
gyrator-based filters are popular in biomedical instrumentation.
基于回旋器的滤波器在生物医学仪器中很受欢迎。
the gyrator network provides flexible impedance transformation.
回旋器网络提供灵活的阻抗变换。
cascaded gyrators enable complex filter responses with minimal parts.
级联回旋器可以用最少的元件实现复杂的滤波器响应。
precision gyrators maintain accuracy across temperature variations.
精密回旋器在整个温度变化范围内保持准确性。
the gyrator model predicts circuit behavior under different loading conditions.
回旋器模型预测不同负载条件下的电路行为。
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