粗调和细调相结合的标准CMOS低噪声环形压控振荡器

本文提出了一种基于65nm CMOS标准工艺、采用粗调和细调相结合的低噪声环形压控振荡器。论文分析了环形振荡器中的直接频率调制机理,并采用开关电容阵列来减小环形压控振荡器的增益从而抑制直接频率调制效应。开关电容采用电容密度较高的二维叠层MOM电容使该压控振荡器与标准的CMOS工艺兼容。所设计压控振荡器的频率范围为480MHz～1100MHz,调谐范围为78%,测试得到输出频率为495MHz时的相位噪声为-120dBc/Hz@1MHz。该压控振荡器在1.2V的偏压下的功耗为3.84mW,相应的优值(FOM)为-169dBc/Hz。     

A wideband frequency synthesizer for a receiver application at multiple frequencies

An integer-N frequency synthesizer for a receiver application at multiple frequencies was implemented in 0.18 μm IP6M CMOS technology. The synthesizer generates 2.57 GHz, 2.52 GHz, 2.4 GHz and 2.25 GHz local signals for the receiver. A wide-range voltage-controlled oscillator (VCO) based on a reconfigurable LC tank with a binary-weighted switched capacitor array and a switched inductor array is employed to cover the desired frequencies with a sufficient margin. The measured tuning range of the VCO is from 1.76 to 2.59 GHz. From the carriers of 2.57 GHz,2.52 GHz, 2.4 GHz and 2.25 GHz, the measured phase noises are -122.13 dBc/Hz, -122.19 dBc/Hz, -121.8 dBc/Hz and -121.05 dBc/Hz, at 1 MHz offset, respectively. Their in-band phase noises are -80.09 dBc/Hz, -80.29 dBe/Hz,-83.05 dBc/Hz and -86.38 dBc/Hz, respectively. The frequency synthesizer including buffers consumes a total power of 70 Mw from a 2 V power supply. The chip size is 1.5 × 1 mm~2.     

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 900-MHz 1.5-V CMOS voltage-controlled oscillator using switched resonators with a wide tuning range

A 900-MHz fully integrated VCO was fabricated in a 0.18-/spl mu/m foundry CMOS process. Under 1.5 V power supply, this VCO can be tuned from 667 MHz to 1156 MHz which corresponds to a 53.6% tuning range. The VCO has nearly constant phase noise over the whole tuning frequency, credit to the switched resonators used in this VCO. The phase noise at a 600 kHz offset is -123.1 dBc/Hz at 1125 MHz center frequency and -124.2 dBc/Hz at 667 MHz center frequency.     

一种UHF频段小数分频频率综合器设计与实现

基于130 nm CMOS工艺设计了一款特高频(UHF)频段的锁相环型小数分频频率综合器.电感电容式压控振荡器(LC VCO)片外调谐电感总值为2 nH时,其输出频率范围为1.06～1.24 GHz,调节调谐电感拓宽了频率输出范围,并利用开关电容阵列减小了压控振荡器的增益.使用电荷泵补偿电流优化了频率综合器的线性度与带内相位噪声.此外对电荷泵进行适当改进,确保了环路的稳定.测试结果表明,通过调节电荷泵补偿电流,频率综合器的带内相位噪声可优化3 dB以上,中心频率为1.12 GHz时,在1 kHz频偏处的带内相位噪声和1 MHz频偏处的带外相位噪声分别为-92.3和-120.9 dBc/Hz.最小频率分辨率为3 Hz,功耗为19.2 mW.     

使用三位三阶Δ∑调制器的集成1GHz小数频率合成器

本文实现了一个采用三位三阶Δ∑调制器的高频谱纯度集成小数频率合成器.该频率合成器采用了模拟调谐和数字调谐组合技术来提高相位噪声性能,优化的电源组合可以避免各个模块之间的相互干扰,并且提高鉴频鉴相器的线性度和提高振荡器的调谐范围.通过采用尾电流源滤波技术和减小振荡器的调谐系数,在片压控振荡器具有很低的相位噪声,而通过采用开关电容阵列,该压控振荡器达到了大约100MHz的调谐范围,该开关电容阵列由在片数字调谐系统进行控制.该频率合成器已经采用0.18μm CMOS工艺实现,仿真结果表明,该频率频率合成器的环路带宽约为14kHz,最大带内相位噪声约为-106dBc/Hz;在偏离载波频率100kHz处的相位噪声小于-120dBc/Hz,具有很高的频谱纯度.该频率合成器还具有很快的反应速度,其锁定时间约为160μs.     

5-GHz CMOS LC VCOs with wide tuning ranges

A 4.8-GHz LC voltage-controlled oscillator (VCO) optimized for maximum tuning range was designed and fabricated using 0.25-/spl mu/m 1P5M CMOS process. The optimized design used an inverse proportionality between the two parasitic capacitances of the inductor and the MOS transistors for minimizing the parasitic capacitance at the oscillation node. The fabricated LC VCO has a wide tuning range of 20.3% from 4.32 GHz to 5.3 GHz with a power dissipation of 7.3 mW. This tuning range performance is comparable to, or better than, those of the reported CMOS LC VCOs in 5-GHz band. The measured phase noise is -82 dBc/Hz and -114.6 dBc/Hz at 100 KHz and 1-MHz offset, respectively.     

A low-power voltage-controlled oscillator with current-switched technique

A low-power voltage-controlled oscillator (VCO) with current-switched technique is presented. The circuit is implemented in 0.18-μm CMOS technology. In the design, a large inductor is used for low-power and low-phase-noise application, whereas a switched capacitor bank and two pairs of MOS varactors are adopted for coarse tuning and fine tuning respectively. The proposed VCO is biased at the boundary of the current and voltage limited region for a good trade-off between power consumption and phase noise. The phase noise of the proposed VCO is reduced in each sub-band by a current-switched technique, and a phase noise improvement of as much as 2.75 dB has been achieved. The proposed VCO has a measured tuning range of 15.2 % from 4.34 to 5.05 GHz and dissipates an average power of 3.78 mW at 1.2 V supply voltage, whereas its measured phase noise and figure of merit FOM_T are ?113.0 dBc/Hz and ?183.7 at 1 MHz offset from the frequency of 4.36 GHz respectively.     

U波段小数分频锁相环型频率综合器

使用0.18μm1.8VCMOS工艺实现了U波段小数分频锁相环型频率综合器,除压控振荡器(VCO)的调谐电感和锁相环路的无源滤波器外,其他模块都集成在片内。锁相环采用了带有开关电容阵列(SCA)的LC-VCO实现了宽频范围,使用3阶MASHΔ-Σ调制技术进行噪声整形降低了带内噪声。测试结果表明,频率综合器频率范围达到650～920MHz;波段内偏离中心频率100kHz处的相位噪声为-82dBc/Hz,1MHz处的相位噪声为-121dBc/Hz;最小频率分辨率为15Hz;在1.8V工作电压下,功耗为22mW。     

频率覆盖3.2～6.1 GHz的CMOS LC VCO

通过提高MIM电容的调整范围,实现了一个覆盖3.2～6.1 GHz的CMOS LC VCO.该VCO使用0.18μm射频CMOS工艺制作,芯片面积约为1260μm×670μm.当输出5.5GHz时,VCO内核消耗功率为17.5mW;在100kHz频偏处的相位噪声是～101.67dBc/Hz.     

A fractional-N PLL with small ΔK vco wideband LC-VCO and current-matching CP for M-DTV systems

An Σ-Δ fractional-N frequency synthesiser with small K _vco-variation wideband LC voltage controlled oscillator (LC–VCO) and current-matching charge pump (CP) for Mobile Digital television Systems is presented. To achieve small VCO-gain (K _vco) variation, a parallel switched varactor array is proposed to the conventional wideband LC-VCO with switched capacitor array, the value of the switched varactor is pre-set and both arrays are controlled by the same switching code. Perfect current matching and good stability are obtained by the improved CP with an added bias branch circuit for low reference spur. The chip was fabricated in a Taiwan Semiconductor Manufacturing Company (TSMC) 0.25?µm complementary metal-oxide-semiconductor process and draws 12?mA from a 2.5?V supply voltage. The synthesiser covers a wide tuning range from 0.82 to 1.85?GHz with two integrated LC-VCOs, and each VCO achieves a K _vco variation of less than 16% with a tuning range of more than 46%. The current mismatch of CP is as low as 1.2%. The measured close-in and out-of-band phase noise are ?83.5?dBc/Hz@10?kHz and ?127?dBc/Hz@1?MHz, respectively, the reference spur is ?76.3?dBc.     

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。     

Design formula for band-switching capacitor array in wide tuning range low-phase-noise LC-VCO

A low phase noise with wide tuning range complementary LC cross-coupled voltage control oscillator (LC-VCO) using 0.18 μm CMOS technology is presented. This paper proposes a design formula for the choice of the value of varactor (ΔC_var) and band switch capacitor (C_s) for the binary-weighted band-switching LC tank which is convenient to determine the proper tuning constant for wideband, low-phase-noise operations. This general formula considers the ratio of frequency overlap (ov) and all the parasitic effects from band-switching capacitor array and transistors. The designed VCO using a 4-bit band-switching capacitor array demonstrates the operating frequencies from 4.166 to 5.537 GHz with an equivalent tuning bandwidth of 28.26%. The measured tuning range of all sub-bands is well agreed with that of the post-layout simulation results. The measured phase noise is −123.1 dBc/Hz at 1 MHz offset in the 5.2 GHz band. The calculated figure-of-merit (FoM) of this VCO was as high as −187 dB. When considering the tuning bandwidth the designed VCO obtains a FoM-bandwidth product of 52.83, which is much better than previously published works.     

一个自调谐,自适应的1.9GHz分数/整数频率综合器

本文提出了一个具有自调谐,自适应功能的1.9GHz的分数/整数锁相环频率综合器.该频率综合器采用模拟调谐和数字调谐相结合的技术来提高相位噪声性能.自适应环路被用来实现带宽自动调整,可以缩短环路的建立时间.通过打开或者关断 ΣΔ 调制器的输出来实现分数和整数分频两种工作模式,仅用一个可编程计数器实现吞脉冲分频器的功能.采用偏置滤波技术以及差分电感,在片压控振荡器具有很低的相位噪声;通过采用开关电容阵列,该压控振荡器可以工作在1.7GHz~2.1GHz的调谐范围.该频率综合器采用0.18 μ m,1.8V SMIC CMOS工艺实现.SpectreVerilog仿真表明:该频率综合器的环路带宽约为100kHz,在600kHz处的相位噪声优于-123dBc/Hz,具有小于15 μ s的锁定时间.     

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.     

Design of wide-band CMOS VCO for multiband wireless LAN applications

In this paper, a general design methodology of low-voltage wide-band voltage-controlled oscillator (VCO) suitable for wireless LAN (WLAN) application is described. The applications of high-quality passives for the resonator are introduced: 1) a single-loop horseshoe inductor with Q > 20 between 2 and 5 GHz for good phase noise performance; and 2) accumulation MOS (AMOS) varactors with C/sub max//C/sub min/ ratio of 6 to provide wide-band tuning capability at low-voltage supply. The adverse effect of AMOS varactors due to high sensitivity is examined. Amendment using bandswitching topology is suggested, and a phase noise improvement of 7 dB is measured to prove the concept. The measured VCO operates on a 1-V supply with a wide tuning range of 58.7% between 3.0 and 5.6 GHz when tuned between /spl plusmn/0.7 V. The phase noise is -120 dBc/Hz at 3.0 GHz, and -114.5 dBc/Hz at 5.6 GHz, with the nominal power dissipation between 2 and 3 mW across the whole tuning range. The best phase noise at 1-MHz offset is -124 dBc/Hz at the frequency of 3 GHz, a supply voltage of 1.4 V, and power dissipation of 8.4 mW. When the supply is reduced to 0.83 V, the VCO dissipates less than 1 mW at 5.6 GHz. Using this design methodology, the feasibility of generating two local oscillator frequencies (2.4-GHz ISM and 5-GHz U-NII) for WLAN transceiver using a single VCO with only one monolithic inductor is demonstrated. The VCO is fabricated in a 0.13-/spl mu/m partially depleted silicon-on-insulator CMOS process.     

IOGHz 0.25μm CMOS LC压控振荡器

采用标准0.25μm CMOS工艺实现了10GHz LC压控振荡器.为了适应高频工作,并实现低相位噪声,该压控振荡器采用了手动优化的带中心抽头的对称电感,将A-MOS变容二极管与无源金属-绝缘层-金属电容串联,并采用了带LC滤波器的尾电流源.测试结果显示,当振荡频率为10.2GHz时,在1MHz频偏处相位噪声为-103.2dBc/Hz,调谐范围为11.5%.供电电压为3.3V时,核心电路功耗为9.0mW.芯片面积为0.67mm×0.58mm.     

5-GHz Low Phase-Noise CMOS VCO Integrated With a Micromachined Switchable Differential Inductor

A 5-GHz CMOS voltage-controlled oscillator (VCO) integrated with a micromachined switchable differential inductor is reported in a 0.18 mum radio frequency-CMOS-based microelectromechanical system technology. The power consumption of the core is about 8 mW at the supply voltage of 1.8 V. A total tuning range of 470 MHz (from 5.13 GHz to 5.60 GHz) is achieved as the tuning voltage ranging from 0 V to 1.8 V. In the practical tuning range, the measured phase noise performances at 1 MHz offset are less than -125 dBc/Hz and -126 dBc/Hz when the inductor switch is turned on and off, respectively. The figure-of-merit is better than -190 dB. When compared with a contrast VCO circuit that utilizes a standard switchable differential inductor, this oscillator reaches a phase noise improvement of around 3 dB as the switch is turned on. Around 1-dB on-off phase noise difference can be achievable.     

Design of Wide Tuning-Range CMOS VCOs Using Switched Coupled-Inductors

Two designs of voltage-controlled oscillators (VCOs) with mutually coupled and switched inductors are presented in this paper to demonstrate that the tuning range of an LC VCO can be improved with only a small increase in phase noise and die area in a standard digital CMOS process. Particular attention is given to the layout of the inductors to maintain Q across the tuning range. In addition, different capacitive coarse-tuning methods are compared based on simulated and measured data obtained from test structures. Implemented in a 90 nm digital CMOS process, a VCO with two extra coupled inductors achieves a 61.9% tuning range with an 11.75 GHz center frequency while dissipating 7.7 mW from a 1.2 V supply. This VCO has a measured phase noise of -106 dBc/Hz at 1 MHz offset from the center frequency resulting in a higher figure-of-merit than other recently published VCOs with similar operating frequencies. In addition, the area overhead is only 30% compared to a conventional LC VCO with a single inductor.     

A low-phase-noise LC-VCO with an enhanced-Q varactor for use in a high-sensitivity GNSS receiver

An LC-VCO with an enhanced quality factor(Q) varactor for use in a high-sensitivity GNSS receiver is presented.An enhanced A-MOS varactor is composed of two accumulation-mode MOS(A-MOS) varactors and two bias voltages,which show the improved Q and linearization capacitance-voltage(C-V) curve.The VCO gain(K_(vco)) is compensated by a digital switched varactors array(DSVA) over entire sub-bands.Based on the characteristics of an A-MOS,the varactor in a DSVA is a high Q fixed capacitor as it is switched off,and a moderate Q tuning varactor when it is switched on,which keeps the maximal Q for the LC-tank.The proposed circuit is fabricated in a 0.18μm 1P6M CMOS process.The measured phase noise is better than -122 dBc/Hz at a 1 MHz offset while the measured tuning range is 58.2%and the variation of K_(VCO) is close to±21%over the whole of the sub-bands and the effective range of the control voltage.The proposed VCO dissipates less than 5.4 mW over the whole operating range from a 1.8 V supply.