This paper reports an approach to designing compact high-efficiency millimeter-wave fundamental oscillators operating above the fmax/2 of the active device. The approach takes full consideration of the nonlinearity of the active device and the finite quality factor of the passive devices to provide an accurate and optimal oscillator design in terms of the output power and efficiency. The 213-GHz single-ended and differential fundamental oscillators in 65-nm CMOS technology are presented to demonstrate the effectiveness of the proposed method. Using a compact capacitive transformer design, the single-ended oscillator achieves 0.79-mW output power per transistor (16μm ) at 1-V supply and a peak dc-to-RF efficiency of 8.02% (VDD=0.80 V) within...
A novel circuit topology for 60GHz Voltage-Controlled Oscillator is developed in this project. It co...
CMOS millimeter-wave integrated circuits are more attractive due to its potential in higher integrat...
Applications at frequencies ranging from sub-millimeter wave to THz (100GHz to 1THz) are gaining a l...
This paper presents a compact 213 GHz fundamental oscillator with an optimal embedding network that ...
Abstract—This paper describes the design of CMOS millimeter-wave voltage controlled oscillators. Var...
Abstract—A systematic approach to designing high frequency and high power oscillators using activity...
High-power, high-efficiency millimetre-wave oscillators were implemented in IBM 45 nm silicon-on-ins...
Abstract This paper presents the design of two high efficiency fundamental voltage controlled oscill...
International audienceThis study presents a push-push oscillator architecture based on differential ...
Wireless on-chip processing at millimeter waves still lacks key functions: quadrature generation ena...
textBroadband voltage-controlled oscillators are critical to the design of millimeter wave frequency...
IEEE MTT-S International Microwave Symposium (IMS), Phoenix, Arizona, USA, 17 - 22 May 2015In this p...
Abstract—Fundamental oscillators prove the existence of gain at high frequencies, revealing the spee...
The increasing demand for higher data rates in wireless communication such as IEEE 802.15.3c wireles...
A high-efficiency high-power millimeter-wave oscillator was implemented in IBM 45 nm silicon-on-insu...
A novel circuit topology for 60GHz Voltage-Controlled Oscillator is developed in this project. It co...
CMOS millimeter-wave integrated circuits are more attractive due to its potential in higher integrat...
Applications at frequencies ranging from sub-millimeter wave to THz (100GHz to 1THz) are gaining a l...
This paper presents a compact 213 GHz fundamental oscillator with an optimal embedding network that ...
Abstract—This paper describes the design of CMOS millimeter-wave voltage controlled oscillators. Var...
Abstract—A systematic approach to designing high frequency and high power oscillators using activity...
High-power, high-efficiency millimetre-wave oscillators were implemented in IBM 45 nm silicon-on-ins...
Abstract This paper presents the design of two high efficiency fundamental voltage controlled oscill...
International audienceThis study presents a push-push oscillator architecture based on differential ...
Wireless on-chip processing at millimeter waves still lacks key functions: quadrature generation ena...
textBroadband voltage-controlled oscillators are critical to the design of millimeter wave frequency...
IEEE MTT-S International Microwave Symposium (IMS), Phoenix, Arizona, USA, 17 - 22 May 2015In this p...
Abstract—Fundamental oscillators prove the existence of gain at high frequencies, revealing the spee...
The increasing demand for higher data rates in wireless communication such as IEEE 802.15.3c wireles...
A high-efficiency high-power millimeter-wave oscillator was implemented in IBM 45 nm silicon-on-insu...
A novel circuit topology for 60GHz Voltage-Controlled Oscillator is developed in this project. It co...
CMOS millimeter-wave integrated circuits are more attractive due to its potential in higher integrat...
Applications at frequencies ranging from sub-millimeter wave to THz (100GHz to 1THz) are gaining a l...