An 8 bit 1 MS/s SAR ADC with 7.72-ENOB

This paper presents a low power 8-bit 1 MS/s SAR ADC with 7.72-bit ENOB. Without an op-amp, an improved segmented capacitor DAC is proposed to reduce the capacitance and the chip area. A dynamic latch comparator with output offset voltage storage technology is used to improve the precision. Adding an extra positive feedback in the latch is to increase the speed. What is more, two pairs of CMOS switches are utilized to eliminate the kickback noise introduced by the latch. The proposed SAR ADC was fabricated in SMIC 0.18 μm CMOS technology. The measured results show that this design achieves an SFDR of 61.8 dB and an ENOB of 7.72 bits, and it consumes 67.5 μ W with the FOM of 312 fJ/conversion-step at 1 MS/s sample under 1.8 V power supply.     

Dual-Voltage Single-Rail Dynamic DPA-Resistant Logic Based on Charge Sharing Mechanism

Differential power analysis (DPA) has become a major system security concern.To achieve high levels of security with low power and die area costs,a novel Dual-voltage single-rail dynamic logic (DSDL) design is proposed.The proposed scheme can reduce power dissipation and obtain extremely well-balanced power consumption.The charge sharing mechanism is used for voltage transfer in the internal nodes during the evaluation of the design.Dual power supply voltages are used with positive feedback to speed up the evaluation process.A 4-bit micro Substitution box (SBOX) of the Advanced encryption standard (AES) algorithm has been implemented to verify the security of the proposed logic design.The experimental results proved the security and the efficiency of the proposed DSDL,which can reduce power dissipation by up to 20％ and occupies at most 83％ of the silicon area when compared with previous state-of-the-art countermeasures.     

Design and implementation of quadrature bandpass sigma-delta modulator used in low-IF RF receiver

This paper presents the design and implementation of quadrature bandpass sigma-delta modulator.A pole movement method for transforming real sigma-delta modulator to a quadrature one is proposed by detailed study of the relationship of noise-shaping center frequency and integrator pole position in sigma-delta modulator.The proposed modulator uses sampling capacitor sharing switched capacitor integrator,and achieves a very small feedback coefficient by a series capacitor network,and those two techniques can dramatically reduce capacitor area.Quantizer output-dependent dummy capacitor load for reference voltage buffer can compensate signal-dependent noise that is caused by load variation.This paper designs a quadrature bandpass Sigma-Delta modulator for 2.4 GHz low IF receivers that achieve 69 dB SNDR at 1 MHz BW and-1 MHz IF with 48 MHz clock.The chip is fabricated with SMIC 0.18 μm CMOS technology,it achieves a total power current of 2.1 mA,and the chip area is 0.48 mm2.     

A 10 bit 50 MS/s SAR ADC with partial split capacitor switching scheme in 0.18 μm CMOS

This paper presents a 10 bit successive approximation register (SAR) analog-to-digital converter (ADC) in 0.18 μ m 1P6M CMOS technology with a 1.8 V supply voltage. To improve the conversion speed, a partial split capacitor switching scheme is proposed. By reducing the time constant of the bit cycles, the proposed technique shortens the settling time of a capacitive digital-to-analog converter (DAC). In addition, a new SAR control logic is proposed to reduce loop delay to further enhance the conversion speed. At 1.8 V supply voltage and 50 MS/s the SAR ADC achieves a signal-to-noise and distortion ratio (SNDR) of 57.5 dB and spurious-free dynamic range (SFDR) of 69.3 dB. The power consumption is 2.26 mW and the core die area is 0.096 mm².     

An area-efficient 55 nm 10-bit 1-MS/s SAR ADC for battery voltage measurement

An area-efficient CMOS 1-MS/s 10-bit charge-redistribution SAR ADC for battery voltage measurement in a SoC chip is proposed. A new DAC architecture presents the benefits of a low power approach without applying the common mode voltage. The threshold inverter quantizer(TIQ)-based CMOS Inverter is used as a comparator in the ADC to avoid static power consumption which is attractive in battery-supply application. Sixteen level-up shifters aim at converting the ultra low core voltage control signals to the higher voltage level analog circuit in a 55 nm CMOS process. The whole ADC power consumption is 2.5 mW with a maximum input capacitance of 12 pF in the sampling mode. The active area of the proposed ADC is 0.0462 mm2 and it achieves the SFDR and ENOB of 65.6917 dB and 9.8726 bits respectively with an input frequency of 200 kHz at 1 MS/s sampling rate.     

一款应用于生物传感器的1.2V-600nW 12bit 2kS/s的增量型模数转换器

This paper presents an ultra-low power incremental ADC for biosensor interface circuits.The ADC consists of a resettable second-order delta–sigma(°/ modulator core and a resettable decimation filter.Several techniques are adopted to minimize its power consumption.A feedforward path is introduced to the modulator core to relax the signal swing and linearity requirement of the integrators.A correlated-double-sampling(CDS)technique is applied to reject the offset and 1/f noise,thereby removing the integrator leakage and relaxing the gain requirement of the OTA.A simple double-tailed inverter-based fully differential OTA using a thick-oxide CMOS is proposed to operate in the subthreshold region to fulfill both an ultra-low power and a large output swing at 1.2 V supply.The signal addition before the comparator in the feedforward architecture is performed in the current domain instead of the voltage domain to minimize the capacitive load to the integrators.The capacitors used in this design are of customized metal–oxide–metal(MOM) type to reach the minimum capacitance set by the k T =C noise limit.Fabricated with a 1P6 M 0.18 m CMOS technology,the presented incremental ADC consumes600 n W at 2 k S/s from a 1.2 V supply,and achieves 68.3 d B signal to noise and distortion ratio(SNDR) at the Nyquist frequency and an FOM of 0.14 p J/conversion step.The core area is 100120 m2.     

A full on-chip CMOS low-dropout voltage regulator with VCCS compensation

A full on-chip CMOS low-dropout(LDO) voltage regulator with high PSR is presented.Instead of relying on the zero generated by the load capacitor and its equivalent series resistance,the proposed LDO generates a zero by voltage-controlled current sources for stability.The compensating capacitor for the proposed scheme is only 0.18 pF,which is much smaller than the capacitor of the conventional compensation scheme.The full on-chip LDO was fabricated in commercial 0.35μm CMOS technology.The active chip area...     

A 1 V 186-μW 50-MS/s 10-bit subrange SAR ADC in 130-nm CMOS process

This paper presents a 10-bit 50-MS/s subrange successive-approximation register (SAR) analog-to-digital converter (ADC) composed of a 4-bit SAR coarse ADC and a 6-bit SAR fine ADC. In the coarse ADC, multi-comparator SAR architecture is used to reduce the digital logic propagation delay, and a traditional asynchronous SAR ADC with monotonic switching method is used as the fine ADC. With that combination, power dissipation also can be much reduced. Meanwhile, a modified SAR control logic is adopted in the fine ADC to speed up the conversion and other techniques, such as splitting capacitors array, are borrowed to reduce the power consumption. Fabricated with 1P8M 130-nm CMOS technology, the proposed SAR ADC achieves 51.6-dB signal to noise and distortion ratio (SNDR) and consumes 186 μ W at 50 MS/s with a 1-V supply, resulting in a figure of merit (FOM) of 12 fJ/conversion-step. The core area is only 0.045 mm².     

8位12MS/s带片上参考电压的异步逐次逼近模数转换器

This paper proposes an 8 bit asynchronous successive approximation register ADC for wireless transceivers.A split capacitor DAC is used to reduce power and area consumption and the value of the split capacitor is calculated theoretically to ensure linearity.Asynchronous control logic is proposed to eliminate the high internal clocks and significantly speeds up the successive approximation algorithm.An on-chip reference with a fully integrated buffer and decoupling capacitor is adopted for avoiding an extra pin for the off-chip reference. The prototype,fabricated in UMC 0.18μm CMOS technology,achieves an effective number of bits of 7.64 bits at a sampling frequency of 12 MS/s.The total power consumption is 0.918 mW for a 1.8 V supply,while the onchip reference consumes 53%of the total power.It achieves a figure of merit of 180 fJ/conv-step,excluding the reference’s power consumption.     

一个适用于多通道时间交织模数转换器采样时间误差校准算法的数模转换器

A sampling switch with an embedded digital-to-skew converter(DSC) is presented.The proposed switch eliminates time-interleaved ADCs’ skews by adjusting the boosted voltage.A similar bridged capacitors’ charge sharing structure is used to minimize the area.The circuit is fabricated in a 0.18μm CMOS process and achieves sub-1 ps resolution and 200 ps timing range at a rate of 100 MS/s.The power consumption is 430μW at maximum.The measurement result also includes a 2-channel 14-bit 100 MS/s time-interleaved ADCs(TI-ADCs) with the proposed DSC switch’s demonstration.This scheme is widely applicable for the clock skew and aperture error calibration demanded in TI-ADCs and SHA-less ADCs.     

用于TFT-LCD驱动芯片的省面积高效率内置电荷泵

An area-saving and high power efficiency charge pump is proposed, and methods for optimizing the operation frequency and improving the power efficiency are discussed. Through sharing coupling capacitors the proposed charge pump realizes two DC-DC functions in one circuit, which can generate both positive and negative high voltages. Due to sharing of the coupling capacitors, as compared with a previous charge pump designed by us for a TFT-LCD driver IC, the die area and the amounts of necessary external capacitors are reduced by 40% and 33%, respectively. Furthermore, the charge pump＇s power efficiency is improved by 8% as a result of employing the new topology. The designed circuit has been successfully applied in a one-chip TFT-LCD driver IC implemented in a 0.18 μm low/mid/high mixed-voltage CMOS process.     

一种采用差分时域比较器的12位200KS/s低功耗逐次逼近型模数转换器

A low power 12-bit 200-kS/s SAR ADC is proposed.This features a differential time domain comparator whose offset is cancelled by using a charge pump and a phase frequency detector instead of the preamplifiers usually needed in a high resolution comparator.The proposed ADC is manufactured in 0.18-μm CMOS technology and the measured SNR and SNDR are 62.5 dB and 59.3 dB,respectively,with a power consumption of 72μW at a 200-kS/s sampling rate.The device operates with a 1.8-V power supply and achieves a FOM ...     

A 10-bit 50-MS/s subsampling pipelined ADC based on SMDAC and opamp sharing

This paper describes a 10-bit,50-MS/s pipelined A/D converter(ADC) with proposed area- and power-efficient architecture.The conventional dedicated sample-hold-amplifier(SHA) is eliminated and the matching requirement between the first multiplying digital-to-analog converter(MDAC) and sub-ADC is also avoided by using the SHA merged with the first MDAC(SMDAC) architecture,which features low power and stabilization.Further reduction of power and area is achieved by sharing an opamp between two successive pi...     

A 455 nW 220 fJ/conversion-step 12 bits 2 kS/s SAR ADC for portable biopotential acquisition systems

An ultra-low power 12 bits 2 kS/s successive approximation register analog-to-digital converter(ADC) is presented.For power optimization,the voltage supply of the digital part is lowered,and the offset voltage of the latch is self-calibrated.Targeted for better linearity and lower noise,an improved digital-to-analog converter capacitor array layout strategy is presented,and a low kick-back noise latch is proposed.The chip was fabricated by using 0.18μm 1P6M CMOS technology.The ADC achieves 61.8 dB SNDR and dissipates 455 nW only,resulting in a figure of merit of 220 fJ/conversion-step.The ADC core occupies an active area of only 674×639μm~2.     

A low power 12-bit 200-kS/s SAR ADC with a differential time domain comparator

A low power 12-bit 200-kS/s SAR ADC is proposed.This features a differential time domain comparator whose offset is cancelled by using a charge pump and a phase frequency detector instead of the preamplifiers usually needed in a high resolution comparator.The proposed ADC is manufactured in 0.18-μm CMOS technology and the measured SNR and SNDR are 62.5 dB and 59.3 dB,respectively,with a power consumption of 72μW at a 200-kS/s sampling rate.The device operates with a 1.8-V power supply and achieves a FOM of 477 fJ/conversion-step.     

一种用于短距离器件的433/868 MHz的带I/Q校准的低中频接收机

A receiver for SRDs implemented by the 0.35μm CMOS process is presented. The receiver, together with the ADC, power amplifier （PA）, frequency synthesizer and digital baseband has been integrated into a single chip solution. Low cost and low power requirements are met by optimizing the receiver architecture and circuit topology. A simple mixed-signal mode I/Q imbalance calibration circuit is proposed to enhance the IRR （image rejection ratio） so as to raise the BER. From a single 3 V power supply, the receiver consumes 5.9 mA. The measurement result shows that the receiver achieves reference sensitivity of-60 dBm and a control gain of 60 dB. The S11 reaches -20 dB at 433 MHz and -10 dB at 868 MHz without off-chip impedance match network. The die area is only 2 mm^2 including the bias circuit.     

应用于碲锌镉探测器逐次逼近模数转换器基准电压的研究

An on-chip reference voltage has been designed in capacitor-resister hybrid SAR ADC for CZT detector with the TSMC 0.35 μ m 2P4M CMOS process. The voltage reference has a dynamic load since using variable capacitors and resistances, which need a large driving ability to deal with the current related to the time and sampling rate. Most of the previous articles about the reference for ADC present only the bandgap part for a low temperature coefficient and high PSRR. However, it is not enough and overall, it needs to consider the output driving ability. The proposed voltage reference is realized by the band-gap reference, voltage generator and output buffer. Apart from a low temperature coefficient and high PSRR, it has the features of a large driving ability and low power consumption. What is more, for CZT detectors application in space, a radiation-hardened design has been considered. The measurement results show that the output reference voltage of the buffer is 4.096 V. When the temperature varied from 0 to 80℃, the temperature coefficient is 12.2 ppm/℃. The PSRR was-70 dB@100 kHz. The drive current of the reference can reach up to 10 mA. The area of the voltage reference in the SAR ADC chip is only 449×614 μm². The total power consumption is only 1.092 mW.     

A 130 nm CMOS low-power SAR ADC for wide-band communication systems

This paper presents a low power 9-bit 80 MS/s SAR ADC with comparator-sharing technique in 130 nm CMOS process. Compared to the conventional SAR ADC, the sampling phase is removed to reach the full efficiency of the comparator. Thus the conversion rate increases by about 20% and its sampling time is relaxed. The design does not use any static components to achieve a widely scalable conversion rate with a constant FOM. The floorplan of the capacitor network is custom-designed to suppress the gain mismatch between the two DACs. The ＇set-and- down＇ switching procedure and a novel binary-search error compensation scheme are utilized to further speed up the SA bit-cycling operation. A very fast logic controller is proposed with a delay time of only 90 ps. At 1.2 V supply and 80 MS/s the ADC achieves an SNDR of 51.4 dB and consumes 1.86 mW, resulting in an FOM of 76.6 fJ/conversion-step. The ADC core occupies an active area of only 0.089 mm2.     

一种高可靠性、低功耗单节锂电池保护电路

A single lithium-ion battery protection circuit with high reliability and low power consumption is proposed.The protection circuit has high reliability because the voltage and current of the battery are controlled in a safe range.The protection circuit can immediately activate a protective function when the voltage and current of the battery are beyond the safe range.In order to reduce the circuit’s power consumption,a sleep state control circuit is developed.Additionally,the output frequency of the ring oscillation can be adjusted continuously and precisely by the charging capacitors and the constant-current source.The proposed protection circuit is fabricated in a 0.5 m mixed-signal CMOS process.The measured reference voltage is 1.19 V,the overvoltage is 4.2 V and the undervoltage is 2.2 V.The total power is about 9 W.     

一种采用PVT不敏感电荷传输电路的27mW 10位125MSPS 电荷域流水线模数转换器

A low power 10-bit 125-MSPS charge-domain(CD) pipelined analog-to-digital converter(ADC) based on MOS bucket-brigade devices(BBDs) is presented.A PVT insensitive boosted charge transfer(BCT) that is able to reject the charge error induced by PVT variations is proposed.With the proposed BCT,the common mode charge control circuit can be eliminated in the CD pipelined ADC and the system complexity is reduced remarkably.The prototype ADC based on the proposed BCT is realized in a 0.18μm CMOS process,with power consumption of only 27 mW at 1.8-V supply and active die area of 1.04 mm~2.The prototype ADC achieves a spurious free dynamic range(SFDR) of 67.7 dB,a signal-to-noise ratio(SNDR) of 57.3 dB,and an effective number of bits(ENOB) of 9.0 for a 3.79 MHz input at full sampling rate.The measured differential nonlinearity(DNL) and integral nonlinearity (INL) are +0.5/-0.3 LSB and +0.7/-0.55 LSB,respectively.