Abstract. In this paper, we propose a new method for the bias-dependent parameter extraction of a MOSFET, which covers DC to over 100GHz.
In this paper, we propose a new method for the bias-dependent parameter extraction of a MOSFET, which covers DC to over 100GHz. The DC MOSFET model provided ...
In this paper, we propose a new method for the bias-dependent parameter extraction of a MOSFET, which covers DC to over 100 GHz. The DC MOSFET model ...
Bias-Voltage-Dependent Subcircuit Model for Millimeter-Wave CMOS Circuit // IEICE Transactions on Electronics. 2012. Vol. E95.C. No. 6. pp. 1077-1085.
Bias-Voltage-Dependent Subcircuit Model for Millimeter-Wave CMOS Circuit · K. KatayamaM. MotoyoshiK. TakanoR. FujimotoM. Fujishima. Engineering, Physics. IEICE ...
Bias-Voltage-Dependent Subcircuit Model for Millimeter-Wave CMOS Circuit. [ 全著者名 ] K. Katayama, M. Motoyoshi, K. Takano, R. Fujimoto, and M. Fujishima.
Bias-Voltage-Dependent Subcircuit Model for Millimeter-Wave CMOS Circuit ... In millimeter wave bands, precise circuit models and digital calibration ...
Abstract—We have developed a 27- and 40-GHz tuned ampli- fier and a 52.5-GHz voltage-controlled oscillator using 0.18- m. CMOS.
Missing: Subcircuit | Show results with:Subcircuit
Abstract—This paper describes the design of CMOS millimeter- wave voltage controlled oscillators. Varactor, transistor, and in-.
Missing: Dependent | Show results with:Dependent
Oct 22, 2024 · We have developed a 27- and 40-GHz tuned amplifier and a 52.5-GHz voltage-controlled oscillator using 0.18-mum CMOS.
Missing: Subcircuit | Show results with:Subcircuit