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In this paper, topology of gyrator-C active inductors are briefly reviewed. A novel structure of multi-band RF active inductor using transistors is presented. Issues of the active inductor related to stability, Q-enhancement principle, and noise are considered. The design of the multi-band Q-enhancement RF filter with 0.18um CMOS process is achieved based on the active inductors. Simulated results...
This work presents the design, implementation and measurement results of a novel, gyrator-based active inductor circuit in a 1.2 V 65 nm CMOS technology. By solely employing stacked nMOS-pMOS transistor combinations, the proposed differential gyrator achieves a maximal self-resonance frequency of approximately 18 GHz and features high linearity with a current consumption of only 6 mA, therefore representing...
A novel approach to very low frequency filters design in CMOS technology has been described in the paper. This approach is based on the application of a new universal analog cell, which can be configured as second order filter, gyrator etc. The circuit is designed in 0.35 mum n-well technology and consumes only 3 nW of power for nominal biasing current. The supply voltage is equal to 1 V with additional...
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