192 GHz push-push VCO in 0.13 /spl mu/m CMOS

A 192 GHz cross-coupled push-push voltage controlled oscillator (VCO) is fabricated using the UMC 0.13 /spl mu/m CMOS logic process. The VCO can be tuned from 191.4 to 192.7 GHz. The VCO provides output power of /spl sim/-20 dBm and phase noise of /spl sim/-100 dBc/Hz at 10 MHz offset, while consuming 11 mA from a 1.5 V supply.     

A 5-GHz fully integrated full PMOS low-phase-noise LC VCO

A 5-GHz fully integrated, full PMOS, low-phase-noise and low-power differential voltage-controlled oscillator (VCO) is presented. This circuit is implemented in a 0.35-/spl mu/m four-metal BiCMOS SiGe process. At 2.7-V power supply voltage and a total power dissipation of only 13.5 mW, the proposed VCO features a worst case phase noise of -97 dBc/Hz and -117 dBc/Hz at 100 kHz and 1 MHz frequency offset, respectively. The oscillator is tuned from 5.13 to 5.68 GHz with a tuning voltage varying from 0 to 2.7 V.     

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。     

A 15/30-GHz Dual-Band Multiphase Voltage-Controlled Oscillator in 0.18- μm CMOS

A multiphase oscillator suitable for 15/30-GHz dual-band applications is presented. In the circuit implementation, the 15-GHz half-quadrature voltage-controlled oscillator (VCO) is realized by a rotary traveling-wave oscillator, while frequency doublers are adopted to generate the quadrature output signals at the 30-GHz frequency band. The proposed circuit is fabricated in a standard 0.18-mum CMOS process with a chip area of 1.1times1.0 mm². Operated at a 2-V supply voltage, the VCO core consumes a dc power of 52 mW. With a frequency tuning range of 250 MHz, the 15-GHz half-quadrature VCO exhibits an output power of -8 dBm and a phase noise of -112 dBc/Hz at 1-MHz offset frequency. The measured power level and phase noise of the 30-GHz quadrature outputs are -16 dBm and -104 dBc/Hz, respectively     

用于434/868MHz FSK/OOK CMOS发射机的锁相环设计

一种可输出434/868MHz信号的Σ-Δ分数分频锁相环在0.35μmCMOS工艺中集成。该发射机系统采用直接调制锁相环分频比的方式实现FSK调制,OOK的调制则通过功率预放大器的开-关实现。为了降低芯片的成本和功耗,发射机采用了电流数字可控的压控振荡器(VCO),以及片上双端-单端转换电路,并对分频器的功耗设计进行研究。经测试表明,锁相环在868MHz载波频偏为10kHz、100kHz和3MHz处的相位噪声分别为-75dBc/Hz、-104dBc/Hz和-131dBc/Hz,其中的VCO在100kHz频偏处的相位噪声为-108dBc/Hz。在发送模式时,100kHz相邻信道上的功率与载波功率之比小于-50dB。在直流电压2.5V的工作条件下,锁相环的电流为12.5mA,包括功率预放大器和锁相环在内的发送机总面积为2mm2。     

A 5.6 GHz Low Power Balanced VCO in 0.18 $mu$m CMOS

A 5.6 GHz balanced voltage-controlled oscillator (VCO) is designed and implemented in a 0.18 mum CMOS 1P6M process. It consists of two single-ended complementary Colpitts LC-tank VCOs coupled by two pairs of varactors. At the supply voltage of 1.2 V, the output phase noise of the VCO is -119.13 dBc/Hz at 1MHz offset frequency from the carrier frequency of 5.6 GHz, and the figure of merit is -190.29 dBc/Hz. Total VCO core power consumption is 2.4 mW. Tuning range is about 600 MHz, from 5.36 to 5.96 GHz, while the control voltage was tuned from 0 to 1.2 V.     

A Low‐Spur CMOS PLL Using Differential Compensation Scheme

This paper proposes LC voltage‐controlled oscillator (VCO) phase‐locked loop (PLL) and ring‐VCO PLL topologies with low‐phase noise. Differential control loops are used for the PLL locking through a symmetrical transformer‐resonator or bilaterally controlled varactor pair. A differential compensation mechanism suppresses out‐band spurious tones. The prototypes of the proposed PLL are implemented in a CMOS 65‐nm or 45‐nm process. The measured results of the LC‐VCO PLL show operation frequencies of 3.5 GHz to 5.6 GHz, a phase noise of –118 dBc/Hz at a 1 MHz offset, and a spur rejection of 66 dBc, while dissipating 3.2 mA at a 1 V supply. The ring‐VCO PLL shows a phase noise of –95 dBc/Hz at a 1 MHz offset, operation frequencies of 1.2 GHz to 2.04 GHz, and a spur rejection of 59 dBc, while dissipating 5.4 mA at a 1.1 V supply.     

一个8GHz高功率AlGaN/GaN HEMT VCO

基于中科院微电子所的AlGaN/GaN HEMT工艺研制了一个X波段高功率混合集成压控振荡器（VCO）。电路采用源端调谐的负阻型结构,主谐振腔由开路微带和短路微带并联构成,实现高Q值设计。在偏置条件为VD=20V, VG=-1.9V, ID=150mA时,VCO在中心频率8.15 GHz处输出功率达到28 dBm,效率21%,相位噪声-85 dBc/Hz@100 KHz,-128 dBc/Hz@1 MHz。调谐电压0~5V时,调谐范围50 MHz。分析了器件闪烁噪声对GaN HEMT基振荡器相位噪声性能的主导作用。测试结果显示了AlGaN/GaN HEMT工艺在高功率低噪声微波频率源中的应用前景。     

Low power 10 GHz ring VCO using source capacitively coupled current amplifier in 0.12 /spl mu/m CMOS technology

A 10 GHz ring voltage controlled oscillator (VCO) has been designed and implemented in 0.12 /spl mu/m CMOS technology. A source capacitively coupled current amplifier (SC3A) is adopted to realise this VCO. It can operate from 8.4 GHz up to 10.6 GHz with a phase noise of about -85 dBc/Hz at 1 MHz frequency offset. With the 1.5 V supply voltage, the current consumption is about 35 mA.     

Current Reusing VCO and Divide-by-Two Frequency Divider for Quadrature LO Generation

For low-power and accurate quadrature local oscillator (LO) signal generation, an LC-tank voltage controlled oscillator (VCO) operating at double the required LO-frequency reuses the bias current of divide-by-two frequency divider. The current reusing VCO and divide-by-two frequency divider are targeted to generate the LO signals for a 1.57 GHz global positioning system receiver. Implemented in a 0.18 mum CMOS technology, the current reusing VCO and divide-by-two frequency divider consumes 1.7mA from a 1.8 V supply. The measured phase noise is -120dBc/Hz at 1 MHz offset when the carrier frequency is 1.57GHz.     

A CMOS VCO Architecture Suitable for Sub-1 Volt High-Frequency (8.7–10 GHz) RF Applications

This paper proposes an LC-based oscillator structure which enables operation from a supply voltage as low as 0.85 V, while being suitable for high-frequency RF applications. Two VCO prototypes were fabricated in a standard 0.18 m CMOS process. The 8.7 GHz VCO operates from a supply voltage of 0.85 V, consumes 6 mW, and exhibits –100 dBc/Hz phase noise at 600 kHz offset. The 10 GHz prototype operates from a supply voltage of 1 V, consumes 9 mW, and has –98 dBc/Hz phase noise at 600 kHz offset. A tuning range of 400–450 MHz is achieved without using varactors.     

A low-noise, 900-MHz VCO in 0.6-μm CMOS

This paper describes a low-noise, 900-MHz, voltage-controlled oscillator (VCO) fabricated in a 0.6-μm CMOS technology. The VCO consists of four-stage fully differential delay cells performing full switching. It utilizes dual-delay path techniques to achieve high oscillation frequency and obtain a wide tuning range. The VCO operates at 750 MHz to 1.2 GHz, and the tuning range is as large as 50%. The measured results of the phase noise are -101 dBc/Hz at 100-kHz offset and -117 dBc/Hz at 600-kHz offset from the carrier frequency. This value is comparable to that of LC-based integrated oscillators. The oscillator consumes 10 mA from a 3.0-V power supply. A prototype frequency synthesizer with the VCO is also implemented in the same technology, and the measured phase noise of the synthesizer is -113 dSc/Hz at 100-kHz offset     

A 580-μW 1.8–6 GHz Multiband Switched-Resonator SiGe VCO With 0.3-V Supply Voltage

This letter presents a fully integrated low-power low-voltage multiband switched-resonator differential cross-coupled voltage controlled oscillator (VCO) implemented in 0.18 SiGe-BiCMOS technology. The VCO operates with a supply voltage as low as 0.29 V, owing to the low knee-voltage provided by the technology, and consumes a total power of 580 muW. Utilizing a switched-resonator, the VCO covers a wide switched frequency range of 1.83-2.97 GHz and 4.36-6.17 GHz with measured phase noise of around 112.2 dBc/Hz with 0.29 V supply and 119.7 dBc/Hz with 1 V supply at 1 MHz offset. Since high-frequency bands experience higher phase noise than the low frequency bands, high- short microstrip line inductors have been used for the high-frequency bands. To the best of the authors' knowledge, the reported VCO achieves the widest switched frequency tuning range with lowest core supply voltage.     

An 8 GHz high power AlGaN/GaN HEMT VCO

A high power X-band hybrid microwave integrated voltage controlled oscillator(VCO) based on Al-GaN /GaN HEMT is presented.The oscillator design utilizes a common-gate negative resistance structure with open and short-circuit stub microstrip lines as the main resonator for a high Q factor.The VCO operating at 20 V drain bias and-1.9 V gate bias exhibits an output power of 28 dBm at the center frequency of 8.15 GHz with an efficiency of 21%.Phase noise is estimated to be -85 dBc/Hz at 100 kHz offset and -1...     

A 1.0 V differential VCO in 0.13 μm CMOS technology

A differential complementary LC voltage controlled oscillator(VCO) with high Q on-chip inductor is presented.The parallel resonator of the VCO consists of inversion-mode MOS(I-MOS) capacitors and an on-chip inductor.The resonator Q factor is mainly limited by the on-chip inductor.It is optimized by designing a single turn inductor that has a simulated Q factor of about 35 at 6 GHz.The proposed VCO is implemented in the SMIC 0.13μm 1P8M MMRF CMOS process,and the chip area is 1.0×0.8 mm~2.The free-running frequency is from 5.73 to 6.35 GHz.When oscillating at 6.35 GHz,the current consumption is 2.55 mA from a supply voltage of 1.0 V and the measured phase noise at 1 MHz offset is -120.14 dBc/Hz.The figure of merit of the proposed VCO is -192.13 dBc/Hz.     

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.     

基于0.35μm SiGe BiCMOS的2.5GHz低相位噪声LC压控振荡器的设计

介绍了一个基于0.35μm SiGe BiCMOS工艺的2.5GHz低相位噪声LC压控振荡器.文章重新定义了压控振荡器工作区域.分析表明谐振回路的电感值和偏置电流对振荡器的相噪优化有重要的影响.本文同时分析了CMOS和BJT压控振荡器设计思路的不同.本设计中,采用键合线来实现谐振回路中的电感来进一步提高相噪性能.该VCO和其他模块集成在一起实现了一个环路带宽为30kHz的频率综合器.测试结果表明,当中心频率为2.5GHz时,在100kHz和1MHz的频偏处相噪分别为-95dBc/Hz和-116dBc/Hz.工作电压为3V时,VCO核心电路的电流消耗为8mA.据我们所知,这是国内第一个采用SiGe BiCMOS工艺的差分压控振荡器.     

A /spl Sigma/-/spl Delta/ fractional-N frequency synthesizer using a wide-band integrated VCO and a fast AFC technique for GSM/GPRS/WCDMA applications

A fractional-N frequency synthesizer (FNFS) in a 0.5-/spl mu/m SiGe BiCMOS technology is implemented. In order to operate in a wide-band frequency range, a switched-capacitors bank LC tank voltage-controlled oscillator (VCO) and an adaptive frequency calibration (AFC) technique are used. The measured VCO tuning range is as wide as 600 MHz (40%) from 1.15 to 1.75 GHz with a tuning sensitivity from 5.2 to 17.5 MHz/V. A 3-bit fourth-order /spl Sigma/-/spl Delta/ modulator is used to reduce out-of-band phase noise and to meet a frequency resolution of less than 3 Hz as well as agile switching time. The experimental results show -80 dBc/Hz in-band phase noise within the loop bandwidth of 25 kHz and -129 dBc/Hz out-of-band phase noise at 400-kHz offset frequency. The fractional spurious is less than -70 dBc/Hz at 300-kHz offset frequency and the reference spur is -75 dBc/Hz. The lock time is less than 150 /spl mu/s. The proposed synthesizer consumes 19.5 mA from a single 2.8-V supply voltage and meets the requirements of GSM/GPRS/WCDMA applications.     

一种LC全集成、具有对称噪声滤波及宽调节范围的4.8GHz CMOS平衡振荡器

将对称噪声滤波技术应用到4.8GHz LC全集成VCO设计中.该VCO具有很低的相位噪声以及716MHz的调节范围,在SMIC 0.25μm单层多晶、五层金属、n阱 RF CMOS工艺上实现,在2.5V电源电压下工作电流仅为6mA,与常规VCO比较,在相同条件下,噪声性能改善了6dBc/Hz.芯片测试结果表明,在偏离4.8GHz载波1MHz的地方相位噪声为-123.66dBc/Hz,该设计在锁相环及其他消费类电子产品中有广泛应用.     

A 2 V 1.8 GHz fully integrated CMOS dual-loop frequency synthesizer

A 2 V 1.8 GHz fully integrated CMOS dual-loop frequency synthesizer is designed in a standard 0.5 /spl mu/m digital CMOS process for wireless communication. The voltage-controlled oscillator (VCO) required for the low-frequency loop is designed using a ring-type VCO and achieves a tuning range of 89% from 356 to 931 MHz and a phase noise of -109.2 dBc/Hz at 600 kHz offset from 856 MHz. With an active chip area of 2000/spl times/1000 /spl mu/m/sup 2/ and at a 2 V supply voltage, the whole synthesizer achieves a tuning range from 1.8492 to 1.8698 GHz in 200 kHz steps with a measured phase noise of -112 dBc/Hz at 600 kHz offset from 1.86 GHz. The measured settling time is 128 /spl mu/s and the total power consumption is 95 mW.