A 12-Bit, 100 MS/s SAR ADC Based on a Bridge Capacitor Array with Redundancy and Non-Linearity Calibration in 28 nm CMOS

Zheng, Yan; Ye, Fan; Ren, Junyan

doi:10.3390/electronics11050705

Cited by 4 publications

(5 citation statements)

References 38 publications

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“…Another approach to eliminate CDAC nonlinearities is the use of calibration schemes [8][9][10][11][12][13][14][15][16]. The main drawbacks in calibrating CDAC are the barely higher circuit complexity and most important, the testing cost and time [10].…”

Section: Introductionmentioning

confidence: 99%

A High ENOB 14-Bit ADC without Calibration

Laoudias,

Souliotis,

Plessas

2024

Electronics

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This paper presents an implementation of a 14-bit 2.5 MS/s differential Successive-Approximation-Register (SAR) analog-to-digital converter (ADC) to be used for sensing multiple analog input signals. A differential binary-weighted with split capacitance charge-redistribution capacitive digital-to-analog converter (CDAC) utilizing the conventional switching technique is designed, without using any calibration mechanism for fast power-on operation. The CDAC capacitor unit has been optimized for improved linearity without calibration technique. The SAR ADC has a differential input range 3.6 Vpp, with a SNDR of 80.45 dB, ENOB of 13.07, SFDR of 87.16 dB and dissipates an average power of 0.8 mW, while operating at 2.5 V/1 V for analog/digital power supply. The INL and DNL is +0.22/−0.34 LSB and +0.42/−0.3 LSB, respectively. A prototype ADC has been fabricated in a conventional CMOS 65 nm technology process.

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Section: Introductionmentioning

confidence: 99%

A High ENOB 14-Bit ADC without Calibration

Laoudias,

Souliotis,

Plessas

2024

Electronics

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“…To address these challenges, various calibration methods have been proposed for split‐CDAC SAR ADCs. For example, foreground calibration techniques such as finding optimal digital bit weights [3], correct dummy capacitance value [4], or digital correction codes [5] have been presented. However, foreground calibrations suffer from a drawback that the ADC needs to stop working while being calibrated.…”

Section: Introductionmentioning

confidence: 99%

“…Achieving signal-tonoise-and-distortion ratio (SNDR) beyond 60 dB, however, typically requires a high-precision capacitor digital-to-analog converter (CDAC) that occupies large silicon area. One approach is to utilize a split CDAC topology [3][4][5][6] where a bridge capacitor attenuates effective capacitance seen from the comparator, thereby aiming to achieve both high resolution and area efficiency. The challenge here is that it is impractical to achieve the desired accuracy for the bridge capacitor due to the process uncertainty.…”

Section: Introductionmentioning

confidence: 99%

“…However, foreground calibrations suffer from a drawback that the ADC needs to stop working while being calibrated. The background analog calibration methods presented in [4] adjust extra dummy capacitance to linearize the CDAC in analog domain. The challenge here is that designing analog correction circuitries such as a programmable linear capacitor with fine resolutions incurs substantial analog design complexity.…”

Section: Introductionmentioning

confidence: 99%

“…In this Letter, we present a new digital background calibration method to correct linearity errors arising from both the bridge capacitor inaccuracy and the unit capacitor mismatches. Unlike [4] and [5], our method neither requires extra analog correction circuits nor injects analog dither signal. Compared to [6], our method converges faster because the metastability window in [6] tends to be much narrower than the offset window used in this work.…”

Section: Introductionmentioning

confidence: 99%

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A dither‐less bit weight digital background calibration for bridge capacitor digital‐to‐analog converter successive approximation register analog‐to‐digital converters

Lee

Kim

2022

Electronics Letters

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The authors present a dither-less background digital bit weights calibration method for split-capacitor digital-to-analog converter (CDAC) successive approximation register (SAR) analog-to-digital converters (ADCs) to improve non-linearities caused by capacitor mismatch and bridge-capacitor inaccuracy errors in a split-CDAC. By using a digital pseudo-random number (PN) generator and paired comparators with opposite offsets, a dither-less background calibration quickly reaches the target signal-to-noise-and-distortion ratio (SNDR) within 5 × 10 4 samples for various process uncertainties. The simulated performance using a behavioural 6-bit + 6-bit ADC with 1-bit redundancy for various random offset and capacitor mismatches shows that the SNDR increases from 45.7 to 65.7 dB after the calibration.

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