为调谐器设计的带自动幅度控制1.1GHz差分压控振荡器

为集成调谐器接收机芯片系统设计了一个带自动幅度控制回路的差分结构电容电感压控振荡器.通过采用pMOS管作为有源负阻使振荡器谐振回路可以直接接地电平,减小了寄生效应,扩大了频率调谐的线性及其范围.采用的自动幅度控制AAC回路具有元件少,噪声低,控制灵敏,调节容易,结构简单及设计方便的优点,并保证振荡器电路的性能最小地依赖于环境和制造工艺参数的变化.所设计的压控振荡器采用新加坡特许50GHz 0.35μm SiGe BiCMOS工艺流片,经测试在1MHz频率偏移处达到了-127.27dBc/Hz的相位噪声性能,具有宽的(990～1140MHz)和线性(调谐增益32.4MHz/V)的频率调谐曲线.整个振荡器电路在5V的供电电压下仅消耗6.6mA的电流,可以满足调谐器的应用需要.     

射频卫星电视天线电路中LC压控振荡器设计

本文设计了一款应用于卫星电视天线电路中低功耗、低相噪的宽带单片集成压控振荡器。该振荡器利用PMOS尾电流源和MIM电容阵列结构。在保证调谐范围的前提下,有效的降低了相位噪声。使得该压控振荡器实现了3.384GHz~4.022GHz频段的覆盖,在中心频率为3.7GHz时,100Hz和1MHz频偏处的相位噪声分别为-90.4dBc/Hz和-119.1dBc/Hz,工作电压下为1.8V,功耗仅为2.5mW。     

Design of a 4.6 GHz high-performance quadrature CMOS VCO using transformer couple

A CMOS quadrature LC-tank voltage-controlled oscillator topology which uses a planar spiral trans-former as coupling elements has been implemented in mixed-signal and RF 1P6M 0.18μm CMOS technology of SMIC. The measured phase noise is -125.7 dBc/Hz at an offset frequency of 1 MHz from the carrier of 4.6 GHz while the VCO core circuit draws only of 10 mW from a 1.8 V supply. The measured phase error is approximately 1.5° based on the time domain outputs and the output power is about -2 dBm. The VCO can cover the frequency range of 4.36-4.68 GHz. The tuning range is 320 MHz (7.0%) and the FOM is -189 dB.     

1.9～5.7 GHz宽带低噪声BiCMOS LC VCO

设计了一种宽带、低相位噪声差分LC压控振荡器(VCO)。所设计的电路采用开关电容阵列和开关电感,实现了多波段振荡输出。对负阻环节跨导进行了优化设计,将热噪声控制在最小范围内,同时采用高品质因数片上螺旋电感,以减小电路的噪声干扰。采用台积电(TSMC)0.35μmSiGe BiCMOS工艺制作了流片,并进行了仿真和硬件电路实验。实测结果表明,当调谐电压为0～3.3 V时,可设定VCO工作在6个波段(1.9～2.1 GHz,2.1～2.4 GHz,2.4～3.0 GHz,3.0～3.4 GHz,3.4～4.2 GHz,4.2～5.7 GHz),此6波段连续可调,构成了1.9～5.7 GHz宽带VCO;VCO的中心频率为2.4 GHz、偏离中心频率为1 MHz时实测相位噪声为-111.64 dBc/Hz;在3.3 V电源电压下实测核静态电流约为1.8 mA,从而验证了宽带、低噪声BiCMOS LC VCO设计方案之正确性。     

LC voltage controlled oscillator in 0.18-μm RF CMOS

An integrated low-phase-noise voltage-controlled oscillator(VCO) has been designed and fabricated in SMIC 0.18μm RF CMOS technology.The circuit employs an optimally designed LC resonator and a differential cross-coupling amplifier acts as a negative resistor to compensate the energy loss of the resonator.To extend the frequency tuning range,a three-bit binary-weighted switched capacitor array is used in the circuit.The testing result indicates that the VCO achieves a tuning range of 60%from 1.92 to 3.35 GHz.The phase noise of the VCO is -117.8 dBc/Hz at 1 MHz offset from the carrier frequency of 2.4 GHz.It draws 5.6 mA current from a 1.8 V supply.The VCO integrated circuit occupies a die area of 600×900μm~2.It can be used in the IEEE802.11 b based wireless local network receiver.     

A Differentially-Tuned Voltage ControlledOscillator Using Symmetric Transformer

This letter proposes a new voltage controlled oscillator (VCO) topology that cancels common-mode noise by adoption of differential tuning varactor. To suppress common mode noise effectively, a symmetric three-coil transformer is proposed as a differential tuning resonator. The measured phase noise shows -128.7 dBc/Hz at 1 MHz offset frequency from the 1.2 GHz oscillation frequency. Over the whole frequency range, common-mode noise rejection is larger than 36 dB. Measured tuning range of the proposed VCO is about 204 MHz from the 1.18 GHz to 1.38 GHz while dissipating 1.2 mA at 1.8 V power supply.     

应用于IMT-A和UWB系统的0.13μm CMOS宽带压控振荡器设计

基于TSMC 0.13μm CMOS工艺设计并实现了应用于IMT-Advanced和UWB系统的双频段宽带频率合成器中的电感电容压控振荡器(LC-VCO)。此压控振荡器的设计采用了开关电流源、开关交叉耦合对和噪声滤波等技术,以优化电路的相位噪声,功耗,振荡幅度,调谐范围等性能。为达到宽的调谐范围,核心电路采用了4比特可重构的开关电容调谐阵列。整个芯片包括焊盘面积为1.11′0.98 mm₂。测试结果表明,在1.2V电源电压下,两个频段压控振荡器所消耗的电流分别为3mA和4.5mA,压控振荡器的调谐范围为3.86~5.28GHz和3.14~3.88GHz。在振荡频率3.5GHz和4.2GHz上,1MHz频偏处,压控振荡器的相位噪声分别为-123dBc/Hz与-119dBc/Hz。     

基于90nmCMOS工艺的低功耗宽带压控振荡器设计

A low power VCO with a wide tuning range and low phase noise has been designed and realized in a standard 90 nm CMOS technology. A newly proposed current-reuse cross-connected pair is utilized as a negative conductance generator to compensate the energy loss of the resonator. The supply current is reduced by half compared to that of the conventional LC-VCO. An improved inversion-mode MOSFET(IMOS) varactor is introduced to extend the capacitance tuning range from 32.8% to 66%. A detailed analysis of the proposed varactor is provided. The VCO achieves a tuning range of 27–32.5 GHz, exhibiting a frequency tuning range(FTR) of 18.4%and a phase noise of –101.38 d Bc/Hz at 1 MHz offset from a 30 GHz carrier, and shows an excellent FOM of –185d Bc/Hz. With the voltage supply of 1.5 V, the core circuit of VCO draws only 2.1 m A DC current.     

Wide tuning-range CMOS VCO based on a tunable active inductor

In this paper, a wide tuning-range CMOS voltage-controlled oscillator (VCO) with high output power using an active inductor circuit is presented. In this VCO design, the coarse frequency is achieved by tuning the integrated active inductor. The circuit has been simulated using a 0.18-µm CMOS fabrication process and presents output frequency range from 100 MHz to 2.5 GHz, resulting in a tuning range of 96%. The phase noise is –85 dBc/Hz at a 1 MHz frequency offset. The output power is from –3 dBm at 2.55 GHz to +14 dBm at 167 MHz. The active inductor power dissipation is 6.5 mW and the total power consumption is 16.27 mW when operating on a 1.8 V supply voltage. By comparing this active inductor architecture VCO with general VCO topology, the result shows that this topology, which employs the proposed active inductor, produces a better performance.     

宽带低相噪双核压控振荡器

基于同相耦合拓扑结构,分析并设计了一款双核压控振荡器(VCO)。该电路通过将两个相同VCO 核 的输出同相相连,实现了在不降低谐振腔Q 值和输出信号幅度的前提下,将谐振腔的有效电感值减小一半,从而降 低了输出信号的相位噪声。该芯片采用 TPS 65 nm RFSOI CMOS 工艺制造,包括焊盘在内的芯片面积为1. 04 mm2。 测试结果表明,该VCO 可以在8. 600~12. 148 GHz (34. 2%) 的宽频带范围内连续工作,并在8. 841 GHz 处测试 的相位噪声为-108. 63 dBc/ Hz@ 1 MHz。当电源电压为1. 2 V 且不考虑测试缓冲器时,该双核VCO 消耗电流为 9. 2~11. 1 mA,对应含调谐范围的优值(FOMT)为-183. 39 ~ -187. 13 dBc/ Hz。     

A 1-V 9.7-mW CMOS Frequency Synthesizer for IEEE 802.11a Transceivers

A 1-V CMOS frequency synthesizer is proposed for wireless local area network 802.11a transceivers using a novel transformer-feedback voltage-controlled oscillator (VCO) for low voltage and a stacked frequency divider for low power. Implemented in a 0.18-mum CMOS process and operated at 1-V supply, the VCO measures a phase noise of -140.5 dBc at an offset of 20 MHz with a center frequency of 4.26 GHz and a power consumption of 5.17 mW. Its tuning range is as wide as 920 MHz (23%). By integrating the VCO into a frequency synthesizer, a phase noise of -140.1 dBc/Hz at an offset of 20 MHz is measured at a center frequency of 4.26 GHz. Its output frequency can be changed from 4.112 to 4.352 GHz by switching the 3-bit modulus of the programmable divider. The synthesizer consumes only 9.7 mW and occupies a chip area of 1.28 mm².     

宽频率范围的单子带压控振荡器设计

基于TSMC 180 nm CMOS工艺,提出了一种振荡频率为2～3 GHz的宽频率范围、低相位噪声的单子带压控振荡器(VCO).采用双平衡吉尔伯特混频结构,将单子带5～6 GHz压控振荡器与固定频率3 GHz压控振荡器进行下混频,可得到振荡频率为2～3 GHz的单子带压控振荡器,实现相对带宽从18.18％到40％的展...     

A fully integrated 5.8 GHz U-NII band 0.18-/spl mu/m CMOS VCO

A fully integrated 5.8 GHz CMOS L-C tank voltage-controlled oscillator (VCO) using a 0.18-/spl mu/m 1P6M standard CMOS process for 5 GHz U-NII band WLAN application is presented. The VCO core circuit uses only PMOS to pursue a better phase noise performance since it has less 1/f noise than NMOS. The measurement is performed by using a FR-4 PCB test fixture. The output frequency of the VCO is from 5860 to 6026 MHz with a 166 MHz tuning range and the phase noise is -96.9 dBc/Hz at 300 kHz (or -110 dBc/Hz at 1 MHz) with V ctrl = 0 V. The power consumption of the VCO excluding buffer amplifiers is 8.1 mW at V/sub DD/ = 1.8 V and the output power is -4 dBm.     

A low-noise, low-power VCO with automatic amplitude control forwireless applications

Voltage controlled oscillators (VCOs) used in portable wireless communications applications, such as cellular telephony, are required to achieve low phase-noise levels while consuming minimal power. This paper presents the design challenges of a VCO with automatic amplitude control, which operates in the 300 MHz to 1.2 GHz frequency range using different external resonators. The VCO phase noise level is -106 dBc/Hz at 100-KHz offset from an 800-MHz carrier, and it consumes 1.6 mA from a 2.7-V power supply. An extensive phase-noise analysis is employed for this VCO design in order to identify the most important noise sources in the circuit and to find the optimum tradeoff between noise performance and power consumption     

3GHz低功耗低相位噪声的带自偏置电流源的LC压控振荡器

利用0.18μm CMOS工艺实现了一个全集成的工作于3GHz的低功耗、低相位噪声的压控振荡器,且带有自偏置电流源.通过对改进的电流源进行优化,在噪声与功耗之间达到了折中.该压控振荡器可工作于2.83至3.25GHz频段内,调谐范围达到13.8%.当工作于3.22GHz时,测得的相位噪声在1MHz频偏处为-111dBc/Hz.在1.8V电源电压下,核心模块消耗电流小于2mA.表明该电路适合5GHz的无线局域网接收机以及3.4至3.6GHz的全球微波互联接入(WiMAX)应用.     

一种应用于低噪声PLL的RF-VCO设计

在PLL电路设计中,压控振荡器设计是电路的关键模块,按类型又主要分为LC震荡器和环形振荡器两种,其性能直接决定了相位噪声、频率稳定度及覆盖范围。文章介绍了一款1.8 GHz的基于交叉耦合对LC结构的低噪声CMOS压控振荡器的设计,并对调谐范围、相位噪声以及电路起振条件等做了分析讨论。该设计采用0.18μm 6层金属CMOS工艺制造,模块面积为0.3 mm2,电路经过Cadence SpectreRF仿真,VCO的输出范围为1 594~2 023 MHz,中心频率1.8 GHz输出时相位噪声为-118 dBc/Hz@600 kHz,1.9 GHz输出时相位噪声为-121 dBc/Hz@600 kHz。结果表明该VCO设计达到了较宽的频率覆盖范围和较低的相位噪声,可以满足低噪声PLL的设计要求。     

Design and analysis of an ultra-low-power LC quadrature VCO

This paper presents the design of an ultra-low-power LC quadrature VCO (QVCO). It is designed in a single-poly seven-metal 65-nm CMOS process. Several aspects of state-of-the-art QVCO design are addressed, for example tank design and circuit topologies in nano-meter CMOS technology. To minimize power dissipation, an inductor with a high LQ product of 188 nH at 2.4 GHz, and a self-resonant frequency (f _SR ) of 3.8 GHz, was designed. According to post-layout simulations, the power dissipation is below 300 μW at a 0.6 V supply. At this supply, the simulated tuning range and phase noise at 1 MHz offset are 10.3% (2.26–2.5 GHz) and −109.6 dBc/Hz respectively. The phase noise figure of merit (FoM) is better than 182.5 dB at all supply voltages of interest, which is competitive to other state-of-the-art QVCOs.     

4.2GHz 1.8V CMOS LC压控振荡器

基于Hajimiri提出的VCO相位噪声模型,分析了差分LC VCO电路参数对于相位噪声的影响。根据前面的分析,详细介绍了LC VCO电路的设计方法:包括高Q值片上电感的设计、变容MOS管的设计以及尾电流的选取。采用SMIC 0.18μm 1P6 M、n阱、混合信号CMOS工艺设计了一款4.2GHz 1.8V LC VCO。测试结果表明:当输出频率为4.239GHz时,频偏1MHz处的相位噪声为-101dBc/Hz,频率调节范围为240MHz。     

一个新结构低功耗2.5 GHz CMOS LC压控振荡器的设计

压控振荡器是锁相环电路的关键的组成部分之一,采用新的电流复用结构,可以明显降低该电路的功耗,而且由于没有尾电流,新结构还能有效改善电路的相位噪声.在TSMC 0.18 CMOS 1P6M工艺下的仿真结果表明:在1.25 V供电电压下振荡器的调节范围是2.26 GHz到2.76 GHz,在频偏1 MHz处的相位噪声为--130 dBc/Hz,平均功耗不超过1.2 mW.     

A Low Supply Voltage VCO Implemented by a Single Common-Source 90 nm CMOS Transistor

A novel voltage controlled oscillation (VCO) topology using 90-m CMOS technology is demonstrated. The common-source PMOS single transistor integrated with an inductor leads to negative resistance for the VCO that minimizes the transistor size and decreases the flicker noise sources. To our knowledge, the topology of the core VCO is the most compact configuration ever reported. The fabricated VCO consumes 6.26mW with a supply voltage of 1 V and has a 1.68times1.41 mm² chip area, including the ESD protection circuit. At 1.77 GHz, PMOS VCO features an output power in the range of -5.2 dBm, and exhibits a phase noise of -94 dBc/Hz at the offset frequency of 300 kHz and -107 dBc/Hz at 1MHz