共查询到20条相似文献,搜索用时 15 毫秒
1.
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。 相似文献
2.
This paper proposes a novel phase-noise reduction technique for high performance voltage-controlled oscillator (VCO) using a cross-coupled series LC resonator, rather than parallel LC resonator. The proposed technique makes a time difference between the zero crossing point of the drain node voltages and that of the gate node voltages of the switching pair. By adding cross coupled PMOS loading, the drain voltages are made close to a rectangular shape, which makes an ideal on–off switching of the VCO. Since the current source contributes large portion of noise to the output, it is removed in the proposed VCO to further improve the noise performance. While the series connected inductor and capacitor enhances the fundamental frequency swing at the LC connection node, it gives a cleaner spectral purity output and suppresses the overall noise at the drain node of the cross-coupled switching cell. 相似文献
3.
This paper presents a new design for a three-stage voltage-controlled differential ring oscillator embedded with a delay cell for a wide tuning range from 59 MHz to 2.96 GHz by adjusting the current level in the delay cell. The ring oscillator consists of a voltage-to-current converter, coder circuit, three-stage ring with delay cells, and current monitoring circuit to extend the tuning range of the proposed voltage-controlled oscillator. Each functional block has been designed for a minimum power consumption using the TSMC 0.18 μm CMOS technology. We simulate the performances of the proposed voltage-controlled oscillator in terms of phase noise, power consumption, tuning range, and gain. Our simulation results show that the proposed oscillator has the linear frequency–voltage characteristics over a wide tuning range. At each tuning range (mode), the calculated phase noise of the proposed ring oscillator at each tuning range (mode) was −87, −85, −81, and −79 dBc/Hz at a 1 MHz offset from the center frequency. The DC power of the proposed voltage-controlled oscillator consumed 0.86–3 mW under a 1.8 V supply voltage. 相似文献
4.
《AEUE-International Journal of Electronics and Communications》2014,68(6):515-519
Full transistor voltage control oscillators by delay stages are studied in this paper. First we describe the general conditions of oscillators and after introducing some common inverters, calculating their delay times, we analyze the dependence of delay time to variation of power supply voltage. The analyzing results show that the delay of basic type inverter varies in the opposite direction as that of current starved inverter, therefore to achieve better frequency stability versus voltage power supply changing, some combined structures of inverters are presented. The results of simulation by 0.18 CMOS technology library of HSPICE approve the analysis results. 相似文献
5.
Zhi-Qiang Lu Jian-Guo Ma Feng-Chang Lai 《Analog Integrated Circuits and Signal Processing》2006,49(1):27-30
A 900-MHz two-stage CMOS voltage controlled ring oscillator (VCRO) with quadrature output is presented. The circuit is designed
in a 0.18-um CMOS technology and operated on a 1.8-V supply voltage. The VCRO have a tuning range of 730 MHz to 1.43 GHz and
good tuning linearity. Between 0 V and 1.1 V of control voltage, the gain of VCRO is around −620 MHz/V. At 900 MHz, the phase
noise of the VCRO is −106.1 dBc/Hz at 600-KHz frequency offset with power consumption of 65.5 mW. 相似文献
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实现了一种基于标准0.18µm CMOS工艺的应用于北斗导航射频接收机的1.2GHz频率综合器。在频率综合器中采用了一种基于分布式偏置技术实现的低噪声高线性LC压控振荡器和一种基于源极耦合逻辑的高速低开关噪声正交输出二分频器,集成了基于与非触发器结构的高速8/9双模预分频器、无死区效应的延迟可编程的鉴频鉴相器和电流可编程的电荷泵。该频率综合器的输出频率范围从1.05到1.30GHz。当输出频率为1.21GHz 时,在100-kHz和1-MHz的频偏处相位噪声分别为-98.53dBc/Hz和-121.92dBc/Hz。工作电压为1.8V时,不包括输出Buffer的核心电路功耗为9.8mW。北斗射频接收机整体芯片面积为2.41.6 mm2。 相似文献
8.
A 1.2 GHz frequency synthesizer integrated in a RF receiver for Beidou navigation is implemented in standard 0.18μm CMOS technology.A distributed biased varactor LC voltage-controlled oscillator is employed to achieve low tuning sensitivity and optimized phase noise performance.A high-speed and low-switching-noise divider-by-2 circuit based on a source-coupled logic structure is adopted to generate a quadrature(I/Q) local oscillating signal.A high-speed 8/9 dual-modulus prescaler(DMP),a programmable-delay phase frequency detector without dead-zone problem,and a programmable-current charge pump are also integrated into the frequency synthesizer. The frequency synthesizer demonstrates an output frequency from 1.05 to 1.30 GHz,and the phase noise is-98.53 dBc/Hz at 100-kHz offset and -121.92 dBc/Hz at 1-MHz offset from the carrier frequency of 1.21 GHz. The power dissipation of the core circuits without the output buffer is 9.8 mW from a 1.8 V power supply.The total area of the receiver is 2.4×1.6 mm~2. 相似文献
9.
B. C. Sarkar 《International Journal of Electronics》2013,100(2):123-136
A novel indirect frequency synthesizer (FS) circuit comprising a multiplexer (MUX) controlled ring oscillator (RO) and a Hogge phase detector has been proposed. The circuit will synthesize signals having better spectral purity and will consume less power compared to conventional indirect FS circuits. The MUX controlled RO will provide higher flexibility in frequency control and the voltage controlled oscillator (VCO) sensitivity can be varied easily to keep loop gain fixed for different values of synthesized signal frequencies. Hardware experimental results have been given to establish theoretical anticipations. 相似文献
10.
设计了一种全集成差分高速环形压控振荡器(VCO).采用三级延迟单元环路复用结构,通过正反馈技术以及改变负载电阻值的方法,有效优化延迟单元;采用双控制电压粗/细调谐方式,实现振荡器高频率、低功耗的要求.在SMIC 0.18μm CMOS RF工艺模型下,采用ADS软件对振荡电路进行仿真,在外接电源电压Vdd=1.8 V时... 相似文献
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In millimeter wave systems, performance degradation mainly occurs due to high phase noise of voltage-controlled oscillators (VCOs). This paper proposes a low power, low phase noise ring-VCO developed for ultra-wide band applications identified for possible 5G usage. For this purpose, a novel differential symmetrical load delay cell based 3-stage ring oscillator has been introduced to design the ring-VCO. The 28 nm CMOS Fully Depleted Silicon On Insulator (FDSOI) technology is adopted for designing this VCO circuit with 1 V power supply while a new voltage control through the transistor body bias is implemented. The simulated results show that the proposed oscillator works in the tuning range of 29–49 GHz and dissipates 3.75 mW of power. It exhibits a phase noise of −129.2 dBc/Hz at 1 MHz offset from 49 GHz oscillation frequency, and a remarkable Figure of Merit (FoM) of −217.26 dBc/Hz. With similar power supply, the phase noise rises to −93.16 dBc/Hz for a second oscillator involving more of active components exactly 9 delay cells. Further, the impact of the operation temperature variation on the VCO performance is investigated. Results show a drift in the oscillation frequency for a temperature step from 27 °C to 40 °C and a degradation of 3dBc in the phase noise performance. 相似文献
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Vincent Cheynet de Beaupré Wenceslas Rahajandraibe Lakhdar Zaid 《Analog Integrated Circuits and Signal Processing》2006,49(3):257-266
A 2.45 GHz Multi-Controlled Oscillator (MCO) has been designed using a CMOS 0.28 μm STMicroelectronics technology for use in frequency synthesizer and open loop FSK modulation circuit in multi-band IEEE 802.15 Wireless Personal Area Network (PAN) applications. Simple structure allowing multiple frequency control has been adopted so that the VCO maintains its center frequency and tuning range throughout ?40°C to 120°C by the way of a Proportional To Absolute Temperature (PTAT) biasing scheme. Simulations and measurements show the sensitivity of the VCO center frequency has been reduced from 1300 ppm/°C to 73 ppm/°C, while a phase noise of ?96 dBc/Hz @ 1 MHz offset with a power consumption of 18 mW have been achieved. 相似文献
15.
In this paper, a low phase noise and low power 5.15?GHz LC-tank VCO is presented and analysed. The phase noise achieved is??91,??116 and??126?dBc/Hz at 100?KHz, 1?MHz and 3?MHz offsets respectively from the carrier frequency of 5.15?GHz, with 1.8?V power supply voltage and giving a very low power consumption of about 2.5?mW by considering the proposed oscillator topology, which consumes less power than the classical oscillator using the traditional differential transconductor pair. A broad tuning range has been achieved by means of standard mode PMOS varactors. The tunability of the designed VCO covers 530?MHz, from 4.78?GHz up to 5.31?GHz. Predicted performance has been verified by analyses and simulations using ELDO-RF tool with 0.35?µm CMOS TSMC parameters. 相似文献
16.
A novel 10 GHz eight-phase voltage-controlled oscillator(VCO) architecture applied in clock and data recovery(CDR) circuit for 40 Gbit/s optical communications system is proposed.Compared with the traditional eight-phase oscillator,a new ring CL ladder filter structure with four inductors is proposed.The VCO is designed and fabricated in IBM 90nm complementary metal-oxide-semiconductor transistor(CMOS) technology.Measurement results show the tuning range is 9.2 GHz~11.0 GHz and the phase noise of-108.85 dBc/Hz at 1 MHz offset from the carrier frequency of 10 GHz.The chip area of VCO is 500 μm× 685 μm and the power dissipation is 17.4 mW with the 1.2 V supply voltage. 相似文献
17.
This paper describes a large tuning range low phase noise voltage-controlled ring oscillator(ring VCO)based on a different cascade voltage logic delay cell with current-source load to change the current of output node.The method for optimization is presented.Furthermore,the analysis of performance of the proposed ring VCO is confirmed by the measurement results.The three-stage proposed ring VCO was fabricated in the 180-nm CMOS process of SMIC.The measurement results show that the oscillator frequency of the ring VCO is from 0.770 to5.286 GHz and the phase noise is 97.93 dBc/Hz at an offset of 1 MHz from 5.268 GHz with a total power of15.1 mW from a 1.8 V supply while occupying only 0.00175 mm2of the core die area. 相似文献
18.
为了适应全彩LED驱动芯片的需要,采用CSMC 0.5μm标准工艺,设计了一种用于LED驱动芯片的新型CMOS环形振荡器.电路使用正负温度特性补偿、延时迟滞以及时钟同步技术.在电源电压为3~6 V、温度范围为-45℃~100℃,以及不同的工艺角下,利用Cadence平台下的Spectre进行验证,结果表明:在一定的电压、温度范围内,振荡器的输出频率为16 MHz,最大变化范围为±5%;在不同工艺角模型下,振荡器输出频率均在LED驱动芯片的解码允许误差范围之内.该振荡器已成功应用于一款LED驱动芯片. 相似文献
19.
In this paper, a new method for computing the amplitude and frequency of differential ring oscillators (ROs) is proposed. The analysis is performed in two separate parts. In the first of these, equations are derived with the assumption of a sinusoidal waveform of outputs, while in the other, the outputs are assumed to be exponential. It is shown that the derived equations for frequency and amplitude are sufficiently exact. In addition, conditions in which sinusoidal and exponential output occur are thoroughly discussed. In the instances in which the results did not satisfy the necessary conditions for sinusoidal output, the output is assumed to be exponential. Moreover, the related analytical equations are written, and the new expressions for frequency and amplitude of ROs are derived. Analytical results are confirmed by simulation results, using the Taiwan Semiconductor Manufacturing Company 0.18 µm technology model. The simulation results indicate the high level of accuracy of the proposed model. 相似文献