针对流水线型逐次逼近模数转换器(Pipelined SAR ADC)中残差放大器的核心运放功耗过高,从而严重限制ADC能效上限的问题,本文提出了一种新型的基于CMOS开关的自偏置全差分环形放大器(CMOS Self-biased Fully Differential Ring Amplifier...针对流水线型逐次逼近模数转换器(Pipelined SAR ADC)中残差放大器的核心运放功耗过高,从而严重限制ADC能效上限的问题,本文提出了一种新型的基于CMOS开关的自偏置全差分环形放大器(CMOS Self-biased Fully Differential Ring Amplifier,CSFRA),来替代传统运放。CSFRA通过引入CMOS开关自偏置和全差分结构,同时在非放大时序中关断电路,降低了残差放大器功耗。基于所提CSFRA,配合可降低开关功耗的检测和跳过切换方案,设计了一款12 Bit 10 MS/s的Pipelined SAR ADC。该电路基于MXIC L18B 180 nm CMOS工艺实现,实验结果表明,在10 MS/s的采样率下,该电路的SFDR和SNDR分别为75.3 dB和61.3 dB,功耗仅为944μW,其中CSFRA功耗仅为368μW。展开更多
A low-power-consumption 9bit 10MS/s pipeline ADC,used in a CMOS image sensor,is proposed. In the design, the decrease of power consumption is achieved by applying low-power-consumption and large-output-swing amplifier...A low-power-consumption 9bit 10MS/s pipeline ADC,used in a CMOS image sensor,is proposed. In the design, the decrease of power consumption is achieved by applying low-power-consumption and large-output-swing amplifiers with gain boost structure, and biasing all the cells with the same voltage bias source, which requires careful layout design and large capacitors. In addition,capacitor array DAC is also applied to reduce power consumption,and low threshold voltage MOS transistors are used to achieve a large signal processing range. The ADC was implemented in a 0.18μm 4M-1 P CMOS process,and the experimental results indicate that it consumes only 7mW, which is much less than general pipeline ADCs. The ADC was used in a 300000 pixels CMOS image sensor.展开更多
Digital calibration techniques are widely developed to cancel the non-idealities of the pipelined Analog-to-Digital Converters (ADCs). This letter presents a fast foreground digital calibration technique based on the ...Digital calibration techniques are widely developed to cancel the non-idealities of the pipelined Analog-to-Digital Converters (ADCs). This letter presents a fast foreground digital calibration technique based on the analysis of error sources which influence the resolution of pipelined ADCs. This method estimates the gain error of the ADC prototype quickly and calibrates the ADC simultaneously in the operation time. Finally, a 10 bit, 100 Ms/s pipelined ADC is implemented and calibrated. The simulation results show that the digital calibration technique has its efficiency with fewer operation cycles.展开更多
This paper presents a 10-bit 20 MS/s pipelined Analog-to- Digital Converter(ADC) using op amp sharing approach and removing Sample and Hold Amplifier(SHA) or SHA-less technique to reach the goal of low-power const...This paper presents a 10-bit 20 MS/s pipelined Analog-to- Digital Converter(ADC) using op amp sharing approach and removing Sample and Hold Amplifier(SHA) or SHA-less technique to reach the goal of low-power constanpfion. This design was fabricated in TSMC 0.18 wn 1P6M technology. Measurement results show at supply voltage of 1.8 V, a SFDR of 42.46 dB, a SNDR of 39.45 dB, an ENOB of 6.26, and a THDof41.82 dB are at 1 MHz sinusoidal sig- nal input. In addition, the DNL and INL are 1.4 LSB and 3.23 LSB respectively. The power onstmaption is 28.8 mW. The core area is 0.595 mm2 and the chip area including pads is 1.468 mm2.展开更多
A domain extension algorithm to correct the comparator offsets of pipeline analog-to-digital converters (ADCs) is presented, in which the 1.5-bit/stage ADC quantify domain is extended from a three-domain to a five-dom...A domain extension algorithm to correct the comparator offsets of pipeline analog-to-digital converters (ADCs) is presented, in which the 1.5-bit/stage ADC quantify domain is extended from a three-domain to a five-domain. This algorithm is designed for high speed and low comparator accuracy application. The comparator offset correction ability is improved. This new approach also promises significant improvements to the spurious-free dynamic range (SFDR), the total harmonic distortion (THD), the signal-to-noise ratio (SNR) and the minor analog and digital circuit modifications. Behavioral simulation results are presented to demonstrate the effectiveness of the algorithm, in which all absolute values of comparator offsets are set to |3Vref/8|. SFDR, THD and SNR are improved, from 34.62-dB, 34.63-dB and 30.33-dB to 60.23-dB, 61.14-dB and 59.35-dB, respectively, for a 10-bit pipeline ADC.展开更多
This paper presents a 10bit 5MS/s pipelined analog-to-digital converter(ADC)for single carrier power line communication transceiver.It's a low-power method by using switched op amp technique,and proposes the switc...This paper presents a 10bit 5MS/s pipelined analog-to-digital converter(ADC)for single carrier power line communication transceiver.It's a low-power method by using switched op amp technique,and proposes the switch capacitor(SC)bias circuitry to solve the startup issue of the current bias.Two common-mode feedback networks are employed to solve the problem of common-mode stability.Removes the sample and hold circuitry(SHA)to further reduce power consumption.Simulation result shows that the proposed ADC achieves 9.6 ENOB,75.8dB SFDR.The power consumption is 0.6 mA for 1.8V supply voltage. Index Terms:Pipelined ADC;switched op amp;switch capacitor bias;展开更多
设计实现一种应用于CMOS图像传感器的10bit模数转换器(ADC),采用基于逐次逼近的新型流水线结构(Pipelined SAR ADC).提出了一种优化选取其中高精度倍增数模转换器(MDAC)和单位电容值的解析方法.通过采用第一级高精度、半增益MDAC和动态...设计实现一种应用于CMOS图像传感器的10bit模数转换器(ADC),采用基于逐次逼近的新型流水线结构(Pipelined SAR ADC).提出了一种优化选取其中高精度倍增数模转换器(MDAC)和单位电容值的解析方法.通过采用第一级高精度、半增益MDAC和动态比较器等技术提高了整体电路的线性度,并降低了系统功耗.通过对版图面积的优化设计,满足了CMOS图像传感器对芯片面积的要求.本设计基于180nm CMOS工艺,仿真结果显示电路实现了60.37dB的信噪失真比(SNDR)和76.37dB的无杂散动态范围(SFDR),有效精度(ENOB)达到了9.74bit.ADC的核心面积仅为140μmⅹ280μm,约为0.04mm2.在2.8V电压下,功耗为9.8mW.展开更多
A new technique which is named charge temporary storage technique (CTST) was presented to improve the linearity of a 1.5 bit/s pipelined analog-to-digital converter (ADC). The residual voltage was obtained from the sa...A new technique which is named charge temporary storage technique (CTST) was presented to improve the linearity of a 1.5 bit/s pipelined analog-to-digital converter (ADC). The residual voltage was obtained from the sampling capacitor, and the other capacitor was just a temporary storage of charge. Then, the linearity produced by the mismatch of these capacitors was eliminated without adding extra capacitor error-averaging amplifiers. The simulation results confirmed the high linearity and low dissipation of pipelined ADCs implemented in CTST, so CTST was a new method to implement high resolution, small size ADCs.展开更多
Power optimization for pipelined analog-to-digital converter(ADC) was studied. Operational principle of pipelined ADC was discussed and noise voltage caused by two important thermal noise sources, sampling switch and ...Power optimization for pipelined analog-to-digital converter(ADC) was studied. Operational principle of pipelined ADC was discussed and noise voltage caused by two important thermal noise sources, sampling switch and amplifier,was quantitatively analyzed. Method used to minimize power and the values under simple model were presented. Power can be saved by making the sampling and feedback capacitors scale down in the pipeline.And the size of capacitors was limited by thermal noise in high resolution ADC.The equivalent circuits of the two important thermal noise sources were established.Thermal noise was optimally distributed among the pipeline stages,and the relationship between scaling factor and closed loop gain was obtained for minimum power dissipation.Typical closed loop gain was 2 or 4 in pipeline ADC, and the corresponding scaling factor was (1.217) and 1.317.These results can serve as useful guidelines for designers to minimize the ADC′s power consumption.展开更多
文摘针对流水线型逐次逼近模数转换器(Pipelined SAR ADC)中残差放大器的核心运放功耗过高,从而严重限制ADC能效上限的问题,本文提出了一种新型的基于CMOS开关的自偏置全差分环形放大器(CMOS Self-biased Fully Differential Ring Amplifier,CSFRA),来替代传统运放。CSFRA通过引入CMOS开关自偏置和全差分结构,同时在非放大时序中关断电路,降低了残差放大器功耗。基于所提CSFRA,配合可降低开关功耗的检测和跳过切换方案,设计了一款12 Bit 10 MS/s的Pipelined SAR ADC。该电路基于MXIC L18B 180 nm CMOS工艺实现,实验结果表明,在10 MS/s的采样率下,该电路的SFDR和SNDR分别为75.3 dB和61.3 dB,功耗仅为944μW,其中CSFRA功耗仅为368μW。
文摘A low-power-consumption 9bit 10MS/s pipeline ADC,used in a CMOS image sensor,is proposed. In the design, the decrease of power consumption is achieved by applying low-power-consumption and large-output-swing amplifiers with gain boost structure, and biasing all the cells with the same voltage bias source, which requires careful layout design and large capacitors. In addition,capacitor array DAC is also applied to reduce power consumption,and low threshold voltage MOS transistors are used to achieve a large signal processing range. The ADC was implemented in a 0.18μm 4M-1 P CMOS process,and the experimental results indicate that it consumes only 7mW, which is much less than general pipeline ADCs. The ADC was used in a 300000 pixels CMOS image sensor.
文摘Digital calibration techniques are widely developed to cancel the non-idealities of the pipelined Analog-to-Digital Converters (ADCs). This letter presents a fast foreground digital calibration technique based on the analysis of error sources which influence the resolution of pipelined ADCs. This method estimates the gain error of the ADC prototype quickly and calibrates the ADC simultaneously in the operation time. Finally, a 10 bit, 100 Ms/s pipelined ADC is implemented and calibrated. The simulation results show that the digital calibration technique has its efficiency with fewer operation cycles.
基金provided by National Chip Implementation Center(CIC)
文摘This paper presents a 10-bit 20 MS/s pipelined Analog-to- Digital Converter(ADC) using op amp sharing approach and removing Sample and Hold Amplifier(SHA) or SHA-less technique to reach the goal of low-power constanpfion. This design was fabricated in TSMC 0.18 wn 1P6M technology. Measurement results show at supply voltage of 1.8 V, a SFDR of 42.46 dB, a SNDR of 39.45 dB, an ENOB of 6.26, and a THDof41.82 dB are at 1 MHz sinusoidal sig- nal input. In addition, the DNL and INL are 1.4 LSB and 3.23 LSB respectively. The power onstmaption is 28.8 mW. The core area is 0.595 mm2 and the chip area including pads is 1.468 mm2.
文摘A domain extension algorithm to correct the comparator offsets of pipeline analog-to-digital converters (ADCs) is presented, in which the 1.5-bit/stage ADC quantify domain is extended from a three-domain to a five-domain. This algorithm is designed for high speed and low comparator accuracy application. The comparator offset correction ability is improved. This new approach also promises significant improvements to the spurious-free dynamic range (SFDR), the total harmonic distortion (THD), the signal-to-noise ratio (SNR) and the minor analog and digital circuit modifications. Behavioral simulation results are presented to demonstrate the effectiveness of the algorithm, in which all absolute values of comparator offsets are set to |3Vref/8|. SFDR, THD and SNR are improved, from 34.62-dB, 34.63-dB and 30.33-dB to 60.23-dB, 61.14-dB and 59.35-dB, respectively, for a 10-bit pipeline ADC.
文摘This paper presents a 10bit 5MS/s pipelined analog-to-digital converter(ADC)for single carrier power line communication transceiver.It's a low-power method by using switched op amp technique,and proposes the switch capacitor(SC)bias circuitry to solve the startup issue of the current bias.Two common-mode feedback networks are employed to solve the problem of common-mode stability.Removes the sample and hold circuitry(SHA)to further reduce power consumption.Simulation result shows that the proposed ADC achieves 9.6 ENOB,75.8dB SFDR.The power consumption is 0.6 mA for 1.8V supply voltage. Index Terms:Pipelined ADC;switched op amp;switch capacitor bias;
文摘设计实现一种应用于CMOS图像传感器的10bit模数转换器(ADC),采用基于逐次逼近的新型流水线结构(Pipelined SAR ADC).提出了一种优化选取其中高精度倍增数模转换器(MDAC)和单位电容值的解析方法.通过采用第一级高精度、半增益MDAC和动态比较器等技术提高了整体电路的线性度,并降低了系统功耗.通过对版图面积的优化设计,满足了CMOS图像传感器对芯片面积的要求.本设计基于180nm CMOS工艺,仿真结果显示电路实现了60.37dB的信噪失真比(SNDR)和76.37dB的无杂散动态范围(SFDR),有效精度(ENOB)达到了9.74bit.ADC的核心面积仅为140μmⅹ280μm,约为0.04mm2.在2.8V电压下,功耗为9.8mW.
基金The National Science Fund for Creative Re-search Groups( Grant No 60521002 )Shanghai Natural Science Foundation (GrantNo 037062022)
文摘A new technique which is named charge temporary storage technique (CTST) was presented to improve the linearity of a 1.5 bit/s pipelined analog-to-digital converter (ADC). The residual voltage was obtained from the sampling capacitor, and the other capacitor was just a temporary storage of charge. Then, the linearity produced by the mismatch of these capacitors was eliminated without adding extra capacitor error-averaging amplifiers. The simulation results confirmed the high linearity and low dissipation of pipelined ADCs implemented in CTST, so CTST was a new method to implement high resolution, small size ADCs.
基金Supported by the Tackling Project of Tianjin Science and Technology Committee (No.033183911).
文摘Power optimization for pipelined analog-to-digital converter(ADC) was studied. Operational principle of pipelined ADC was discussed and noise voltage caused by two important thermal noise sources, sampling switch and amplifier,was quantitatively analyzed. Method used to minimize power and the values under simple model were presented. Power can be saved by making the sampling and feedback capacitors scale down in the pipeline.And the size of capacitors was limited by thermal noise in high resolution ADC.The equivalent circuits of the two important thermal noise sources were established.Thermal noise was optimally distributed among the pipeline stages,and the relationship between scaling factor and closed loop gain was obtained for minimum power dissipation.Typical closed loop gain was 2 or 4 in pipeline ADC, and the corresponding scaling factor was (1.217) and 1.317.These results can serve as useful guidelines for designers to minimize the ADC′s power consumption.
