This work describes voltage-mode (VM), current-mode (CM) PID controllers and an electrically controllable floating inductance (FI) simulator circuit. Only a single current-controlled current backward transconductance amplifier (CC-CBTA) and a grounded capacitor are used in the proposed FI simulator circuit. One CBTA, one CC-CBTA, two capacitors and one resistor are used in the proposed PID controllers. All of the proposed circuits have appropriate input and output impedance values, allowing them to be utilized in cascade connections without requiring a buffer circuit. There is also no matching constraint between the active and passive values of the proposed circuit. The SPICE software environment and experimental results were used to validate theoretical derivations and associated outcomes. The layout of the CC-CBTA has been built, and the post-layout simulations are carried out using the netlist extracted from the layout. Comparisons were made with similar circuits found in the professional literature.

这项工作描述了电压模式 (VM)、电流模式 (CM) PID 控制器和电控浮动电感 (FI) 模拟器电路。所提出的 FI 模拟器电路中仅使用单个电流控制电流反向跨导放大器 (CC-CBTA) 和接地电容器。所提出的 PID 控制器中使用了 1 个 CBTA、1 个 CC-CBTA、2 个电容器和 1 个电阻器。所有提出的电路都具有适当的输入和输出阻抗值，允许它们在级联连接中使用，而不需要缓冲电路。所提出的电路的有源值和无源值之间也不存在匹配约束。 SPICE 软件环境和实验结果用于验证理论推导和相关结果。 CC-CBTA的布局已经建立，并且使用从布局中提取的网表进行布局后仿真。与专业文献中找到的类似电路进行了比较。