A 5-GHZ Low-Power Series-Coupled BiCMOS Quadrature VCO With Wide Tuning Range

This letter presents a novel quadrature voltage controlled oscillator (QVCO) implemented in a 47-GHz SiGe BiCMOS technology. The QVCO is a serially coupled LC VCO that utilizes SiGe heterojunction bipolar transistors for oscillation and metal oxide semiconductor field effect transistors for coupling. The SiGe BiCMOS QVCO prototype achieves about 14.6% tuning range from 4.3 to 5GHz. The phase noise of the QVCO is measured as -114.3 dBc/Hz at 2-MHz offset. The 5-GHz QVCO core consumes 6-mA current from a 3.3-V power supply and occupies 0.88mm² area     

Bottom-series coupled quadrature VCO using the inductive gate voltage boosting technique

This article presents a new low-voltage bottom-series coupled quadrature voltage-controlled oscillator (QVCO), which consists of two n-core cross-coupled VCOs with the bottom-series coupling transistors. The low-voltage operation is obtained via an inductive gate voltage boosting technique. The proposed CMOS QVCO has been implemented with the TSMC 0.18?µm CMOS technology and the die area is 0.897?×?0.767?mm². At the supply voltage of 0.7?V, the total power consumption is 1.5?mW. The free-running frequency of the QVCO is tuneable from 3.77 to 4.12?GHz as the tuning voltage is varied from 0.0 to 0.7?V. The measured phase noise at 1?MHz frequency offset is ?123.35?dBc/Hz at the oscillation frequency of 4.12?GHz and the figure of merit of the proposed QVCO is ?193.5?dBc/Hz.     

Low-power CMOS LC QVCO using zero-biased transistor coupling of MWCNT network-based VCO structure

This paper presents design, analysis and implementation of a 2.4 GHz QVCO (Quadrature Voltage Controlled Oscillator), for low-power, low-voltage applications. Cross coupled LC VCO (Inductor–Capacitor Voltage Controlled Oscillator) topology realized using integration of a micro-scaled capacitor and a MWCNT (Multi-Wall Carbon Nano-Tube) network based inductor together with the CMOS circuits is utilized together with MOS transistors as coupling elements to realize QVCO. With the passive coupling achieved from the MOS transistors, power consumption is minimized while maintaining a small chip area. The variable capacitors and the inductors are designed using ANSYS and imported through DAC components in ADS (Advanced Design software). Accurate simulation of the QVCO is performed in the software environments and the results are provided. The measurement results show that the QVCO provides quadrature signals at 2.4 GHz and achieves a phase noise of −130 dBc/Hz 1 MHz away from the carrier frequency. The VCO produces frequency tuning from 2.1 GHz to 2.60 GHz (20.83%) with a control voltage varying from 0 to 0.3 V. It achieves a peak to peak voltage of 0.59 V with an ultra low power consumption of 3.8 mW from a 0.6 V supply voltage. The output power level of the QVCO is −10 dBm, with an improved quality factor of 45. The phase error of the QVCO is measured as 3.1°.     

A symmetrical 6-GHz fully integrated cascode coupling CMOS LC quadrature VCO

A fully symmetrical integrated quadrature LC oscillator with a wide tuning range of 1.2GHz is presented. The quadrature voltage-controlled oscillator (QVCO) is implemented using a symmetrical coupling method which has been used to produce the large tuning range with a low control voltage and to achieve good phase noise performance in 0.18/spl mu/m complementary metal oxide semiconductor technology. The measured phase noise at 1MHz offset from the center frequency (5.5GHz) is -115 dBc/Hz. The QVCO draws 3.2mA from a 1.8V supply. The equivalent phase error between I and Q signal was at most 0.5/spl deg/.     

A Low Voltage and Low Power Bottom-Series Coupled Quadrature VCO

This letter presents a new low power quadrature voltage-controlled oscillator (QVCO), which consists of two complementary cross-coupled voltage-controlled oscillators (VCOs) with split-source tail inductors. The bottom-series coupling transistors are in parallel with the tail inductors and require no dc voltage headroom. The proposed CMOS QVCO has been implemented with the TSMC 0.18 $mu{rm m}$ CMOS technology and the die area is $0.512times 1.065 {rm mm}^{2}$. At the supply voltage of 1.1 V, the total power consumption is 2.545 mW. The free-running frequency of the QVCO is tunable from 4.38 to 4.71 GHz as the tuning voltage is varied from 0.0 V to 0.6 V. The measured phase noise at 1 MHz frequency offset is $-$120.8 dBc/Hz at the oscillation frequency of 4.4 GHz and the figure of merit (FOM) of the proposed QVCO is $-$ 189.61 dBc/Hz.      

CMOS Quadrature VCO Implemented With Two First-Harmonic Injection-Locked Oscillators

This letter presents a new quadrature voltage-controlled oscillator (QVCO). The LC-tank QVCO consists of two first-harmonic injection-locked oscillators (ILOs). The outputs of one ILO are injected to the gates of the tail transistors on the other ILO and vice versa so as to force the two ILOs operate in quadrature. The proposed CMOS QVCO has been implemented with the TSMC 0.18 mum CMOS technology and the die area is 0.582 times 0.972 mm². At the supply voltage of 1.0 V, the total power consumption is 8.0 mW. The free-running frequency of the QVCO is tunable from 5.31 GHz to 5.75 GHz as the tuning voltage is varied from 0.0 V to 1.0 V. The measured phase noise at 1 MHz offset is -120.01 dBc/Hz at the oscillation frequency of 5.31 GHz and the figure of merit (FOM) of the proposed QVCO is about -185.48 dBc/Hz.     

A Low Voltage Quadrature VCO Implemented With Series Frequency Doublers

Using the transformer coupling technique, this letter presents a new quadrature voltage-controlled oscillator (QVCO) with bottom series-coupled transistors. The proposed CMOS QVCO has been implemented with the TSMC $0.13~mu{rm m}$ 1P8M CMOS process, and the die area is $1.03 times 0.914~{rm mm}^{2}$. At the supply voltage of 1.0 V, the total power consumption is 3.56 mW. The free-running frequency of the QVCO is tunable from 5.43 GHz to 5.92 GHz as the tuning voltage is varied from 0.0 V to 1.0 V. The measured phase noise at 1 MHz frequency offset is $-117.98~{rm dBc/Hz}$ at the oscillation frequency of 5.5 GHz and the figure of merit (FOM) of the proposed QVCO is $-187.27~{rm dBc/Hz}$.      

A source degenerated LC quadrature VCO (SD-QVCO) using 0.18-μm SiGe BiCMOS

This letter presents a fully integrated BiCMOS quadrature voltage-controlled oscillator (QVCO). The QVCO consists of two nMOSFET cross-coupled oscillator stacked in series with source degenerated HBT transistors. SiGe HBT introduces low flicker noise compared to CMOS devices. To generate quadrature phase signals with strong coupling strength, the proposed design uses two MOS-coupled LC-tank cores instead of passive device-coupled cores. This source degeneration topology can improve the phase noise performance of the QVCO as compared to the sub-VCO. The proposed QVCO has been implemented with the TSMC 0.18 μm SiGe 3P6M BiCMOS process, can generate quadrature signals in the frequency range of 4.52–5.05 GHz with core power consumption of 5.76 mW at the dc bias of 1.8 V. At 4.53 GHz, phase noise at 1 MHz offset is ?124.52 dBc/Hz. The die area of the fabricated prototype is 0.453 × 0.898 mm².     

High performance QVCO design with series coupling in CMOS technology

A high performance quadrature voltage-controlled oscillator（QVCO） is presented.It has been fabricated in SMIC 0.18μm CMOS technology with top thick metal.The proposed QVCO employed cascade serial coupling for in phase and quadrature phase signal generation.Source degeneration capacitance is added to the NMOS differential pair to suppress their flicker noise from up-conversion to close in phase noise.A dedicated low noise and high power supply rejection low drop out regulator is used to supply this QVCO.The measured phase noise of the proposed QVCO achieves phase noise of-123.3 dBc/Hz at an offset frequency of 1 MHz from the carrier of 4.78 GHz,while the QVCO core circuit and LDO draw 6 mA from a 1.8 V supply.The QVCO can operate from 4.09 to 4.87 GHz（17.5%）.Measured tuning gain of the QVCO(K_vco) spans from 44.5 to 66.7 MHz/V.The chip area excluding the pads and ESD protection circuit is 0.41 mm².     

Floating active inductor based Class-C VCO with 8 digitally tuned sub-bands

A fully integrated floating active inductor based voltage-controlled oscillator (VCO) is presented. The active inductor employs voltage differencing transconductance amplifier (VDTA) as a building block. The designed VCO achieves frequency tuning by varying the bias current through the VDTA and utilizes a Class-C topology for improving the phase noise performance. The inductor-less VCO is designed and implemented in a 45-nm CMOS process and its performance is estimated using Virtuoso ADE of Cadence. Operating at a supply voltage of ±1 V, the proposed VCO consumes 0.44–1.1 mW corresponding to the oscillation frequency of 1.1–1.8 GHz thereby exhibiting a tuning range of 48.27%. The phase noise of the VCO lies in the range of −94.12 to −98.37 dBc/Hz at 1 MHz offset resulting in a FOM of −172.14 to −176.69 dBc/Hz.     

Analysis and Design of a Wide-Tuning-Range VCO With Quadrature Outputs

A quadrature voltage-controlled oscillator (QVCO) with a wide tuning range is proposed and implemented in the TSMC 0.18- $mu{rm m}$ CMOS process. The said QVCO uses a cross-coupled structure and a current-reuse technology to produce the quadrature signal and to save power consumption and area, respectively. Based on our measurement, the phase noise with 1-MHz offset from the carrier frequency of 3.6 GHz is $-$ 114 dBc/Hz and the proposed QVCO has a wide-band tuning range of 3.6–4.9 GHz. Also, the maximal phase error and power imbalance are less than 5$^{circ}$ and 1.5 dB, respectively, and the power consumption is 8 mW at 2-V power supply voltage.      

CMOS Colpitts Quadrature VCO Using the Body Injection-Locked Coupling Technique

This paper presents a new low phase noise quadrature voltage-controlled oscillator (QVCO), which consists of two differential complementary Colpitts voltage-controlled oscillators (VCOs) with a tail inductor. The output of the tail inductor in one differential VCO is injected to the bodies of the nMOSFETs in the other differential VCO and vice versa. The proposed CMOS QVCO has been implemented with the TSMC 0.18 mum CMOS technology and the die area is 0.725 times 0.839 mm². At the supply voltage of 1.1 V, the total power consumption is 9.9 mW. The free-running frequency of the QVCO is tunable from 5.26 GHz to 5.477 GHz as the tuning voltage is varied from 0.0 V to 1.1 V. The measured phase noise at 1 MHz frequency offset is -124.36 dBc/Hz at the oscillation frequency of 5.44 GHz and the figure of merit (FOM) of the proposed QVCO is -189.1 dBc/Hz.     

电流反馈型均一相位噪声正交振荡器

论文提出了一种电源反馈型的全集成正交压控振荡器。得益于反馈电流源的电流调节作用,提出的正交振荡器在整个频率调谐范围之内有着均一的相位噪声 。 此振荡器用65-nm CMOS工艺实现。测试结果表明,该振荡器工作电压为1.2V, 消耗的电流均值是3mA. 频偏1MHz的相位噪声小于 -110dBc/Hz。整个调谐范围内的相位噪声变化小于1dBc/Hz, 这充分证明了电流反馈技术的正确性。     

A 1-V 17-GHz 5-mW CMOS Quadrature VCO Based on Transformer Coupling

A 1-V 17-GHz 5-mW quadrature voltage-controlled oscillator (QVCO) based on transformer coupling is presented. Transformer coupling between two LC tank oscillators is proposed to achieve quadrature outputs with improved performance in terms of high frequency, wide tuning range, low phase noise, and low power as compared to existing active-coupling QVCOs. Implemented in a 0.18-mum CMOS process, the proposed QVCO measures a frequency tuning range of 16.5% at 17 GHz and phase noise of -110 dBc/Hz at 1 MHz offset while consuming 5 mA from a 1-V power supply and occupying a core area of 0.37 mm².     

A 6-GHz capacitively-coupled Colpitts CMOS quadrature voltage controlled oscillator

In this work a new low-noise low-power Colpitts quadrature voltage controlled oscillator (QVCO) made by coupling two identical current-switching differential Colpitts voltage controlled oscillators (VCO) is proposed; coupling of the VCOs is done using some capacitors in an “in-phase anti-phase” scheme. In this coupling configuration first harmonics (as well as higher harmonics) from each VCO are injected to the other VCO, as opposed to coupling schemes in which only even harmonics are injected. An analysis of the linearized circuit which confirms 90° phase difference between output signals of the proposed circuit is presented. Since no extra noise sources or power consumption are introduced to the core VCOs, the proposed QVCO achieves low phase noise performance and low power consumption. The proposed circuit is designed and simulated in a commercial 0.18 μm CMOS technology. The simulated phase noise of the proposed QVCO at 3 MHz offset frequency is ?138.3 dBc/Hz, at 6 GHz. The circuit dissipates 8.16 mW from a 1.8 V supply and its frequency can be tuned from 5.6 to 6.3 GHz.     

Design of a new low-phase-noise millimetre-wave quadrature voltage-controlled oscillator

This paper presents a new circuit topology of millimetre-wave quadrature voltage-controlled oscillator (QVCO) using an improved Colpitts oscillator without tail bias. By employing an extra capacitance between the drain and source terminations of the transistors and optimising circuit values, a low-power and low-phase-noise (PN) oscillator is designed. For generating the output signals with 90° phase difference, a self-injection coupling network between two identical cores is used. The proposed QVCO dissipates no extra dc power for coupling, since there is no dc-path to ground for the coupled transistors and no extra noise is added to circuit. The best figure-of-merit is ?188.5, the power consumption is 14.98–15.45 mW, in a standard 180-nm CMOS technology, for 58.2 GHz center frequency from 59.3 to 59.6 GHz. The PN is ?104.86 dBc/Hz at 1-MHz offset.     

Dual-band low-phase-noise LC-QVCO using series coupling and switched biasing techniques

An LC-tank quadrature voltage-controlled oscillator (QVCO) is proposed to achieve frequency-band reconfigurability and low phase noise. In this work, phase noise contributed by the 1/f noise of coupling transistors and tail transistors is noticeably reduced when series coupling and switched biasing techniques are simultaneously adopted. The proposed QVCO was implemented in 0.25-μm triple-well CMOS process for K-PCS and WCDMA bands. Measured results showed a phase noise of ?117 dBc/Hz at an offset of 1 MHz and a phase-noise figure-of-merit of ?172 dBc/Hz while consuming 8.13 mA from a 2-V power supply.     

CMOS second-harmonic quadrature voltage controlled oscillator using substrate for coupling

In this work, a new circuit configuration for second-harmonic quadrature voltage controlled oscillator (QVCO) with CMOS technology is proposed. The proposed QVCO is made by coupling two identical cross-connected VCOs. The coupling elements (two resistors and two capacitors) do not increase the power consumption of the core VCOs and do not disturb the resonant frequency of the tank circuit in the core VCOs and also, according to the simulations the coupling elements do not adversely affect the phase noise. The role of the substrate terminal of cross-connected MOSFETs of the core oscillators as common mode nodes is demonstrated. Using this node for coupling makes it possible to eliminate the tail transistors in the core oscillators and therefore the circuit can operate with supply voltages as low as 0.5 V. Using the same method to couple more than two core oscillators, results in a multiphase VCO.     

A 0.22 V Quadrature VCO in 90 nm CMOS Process

This letter presents an ultra-low voltage quadrature voltage-controlled oscillator (QVCO). The LC-tank QVCO consists of two low-voltage voltage-controlled oscillators (VCOs) with the body dc biased at the drain bias through a resistor. The superharmonic and back-gate coupling techniques are used to couple two differential VCOs to run in quadrature. The proposed CMOS QVCO has been implemented with the UMC 90 nm CMOS technology and the die area is 0.827 $, times ,$0.913 mm $^{2}$. At the supply voltage of 0.22 V, the total power consumption is 0.33 mW. The free-running frequency of the QVCO is tunable from 3.42 to 3.60 GHz as the tuning voltage is varied from 0.0 to 0.3 V. The measured phase noise at 1 MHz offset is ${-}112.97$ dBc/Hz at the oscillation frequency of 3.55 GHz and the figure of merit (FOM) of the proposed QVCO is about ${-}188.79$ dBc/Hz.      

A 4.6 GHz cascade switched biasing LC–QVCO using source-body resistor

This paper presents a 4.6 GHz LC quadrature voltage-controlled oscillator (QVCO) in which the phase noise performance is improved by two methods: cascade switched biasing (CSB) technique and source-body resistor. The CSB topology can reduce the resonator loss caused by MOSFET resistance. Meanwhile, it can maintain the benefits of conventional switched biasing technique. The source-body resistors are utilized to reduce the noise contribution of the substrate related to the cross coupled MOSFETs. The proposed QVCO has been implemented in standard 0.18 μm CMOS technology. With the two methods mentioned above, it consumes 4.9 mW under 1 V voltage supply and achieves a phase noise of ?120.3 dBc/Hz at 1 MHz frequency offset from the carrier of 4.56 GHz. The figure of merit is 186.5 dBc/Hz and the tuning range is from 4.2 G to 5 GHz (17.3 %). When the QVCO operates at 0.8 V voltage supply, the power consumption is 2.88 mW and the phase noise is ?115.7 dBc/Hz at 1 MHz frequency offset from the carrier of 4.58 GHz.