A 2.28mW 100 MS/s 10-bit ping-pong configuration SAR-assisted pipeline ADC
This paper presents a new successive approximation register (SAR)-assisted pipeline analog-to-digital converter (ADC). The coarse stage digital-to-analog converter (DAC) of the proposed ADC is divided into three separate capacitor arrays (a small-DAC and two big-DACs) to increase the sampling rate w...
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| Veröffentlicht in: | Analog integrated circuits and signal processing 2024, Vol.118 (1), p.37-48 |
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| creator | Mosalmani, A. Zahedi Qomi, M. Shoaei, O. |
| description | This paper presents a new successive approximation register (SAR)-assisted pipeline analog-to-digital converter (ADC). The coarse stage digital-to-analog converter (DAC) of the proposed ADC is divided into three separate capacitor arrays (a small-DAC and two big-DACs) to increase the sampling rate while simultaneously reducing the power consumption. The small-DAC performs the low-power coarse conversion, and the two big-DACs generate low-noise residue voltage in a ping-pong configuration, reducing the power consumption of the residue amplification. The big-DACs are not involved in the coarse conversion. So, any mismatch between them does not significantly degrade the overall linearity. The unit capacitors of the CDACs are determined according to a comprehensive analysis, including the overall input-referred noise, the bandwidth mismatch, and the static nonlinearity associated with the ping-pong configuration. The proposed ADC is designed and simulated in a 65 nm CMOS technology over process variations. At 1.2 V supply, the ADC achieves a signal-to-noise and distortion ratio (SNDR) of 56.1 dB and a spurious-free dynamic range (SFDR) of 67.3 dB for a Nyquist frequency input sampled at 100 MS/s. The total power consumption is 2.28 mW, resulting in a Walden figure of merit (FoM) of 43 fJ/conversion-step. |
| doi_str_mv | 10.1007/s10470-023-02182-8 |
| format | Article |
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The coarse stage digital-to-analog converter (DAC) of the proposed ADC is divided into three separate capacitor arrays (a small-DAC and two big-DACs) to increase the sampling rate while simultaneously reducing the power consumption. The small-DAC performs the low-power coarse conversion, and the two big-DACs generate low-noise residue voltage in a ping-pong configuration, reducing the power consumption of the residue amplification. The big-DACs are not involved in the coarse conversion. So, any mismatch between them does not significantly degrade the overall linearity. The unit capacitors of the CDACs are determined according to a comprehensive analysis, including the overall input-referred noise, the bandwidth mismatch, and the static nonlinearity associated with the ping-pong configuration. The proposed ADC is designed and simulated in a 65 nm CMOS technology over process variations. At 1.2 V supply, the ADC achieves a signal-to-noise and distortion ratio (SNDR) of 56.1 dB and a spurious-free dynamic range (SFDR) of 67.3 dB for a Nyquist frequency input sampled at 100 MS/s. 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At 1.2 V supply, the ADC achieves a signal-to-noise and distortion ratio (SNDR) of 56.1 dB and a spurious-free dynamic range (SFDR) of 67.3 dB for a Nyquist frequency input sampled at 100 MS/s. The total power consumption is 2.28 mW, resulting in a Walden figure of merit (FoM) of 43 fJ/conversion-step.</description><subject>Analog to digital converters</subject><subject>Capacitors</subject><subject>Circuits and Systems</subject><subject>Configurations</subject><subject>Digital to analog converters</subject><subject>Electrical Engineering</subject><subject>Engineering</subject><subject>Figure of merit</subject><subject>Noise generation</subject><subject>Nyquist frequencies</subject><subject>Power consumption</subject><subject>Power management</subject><subject>Residues</subject><subject>Signal,Image and Speech Processing</subject><subject>Table tennis</subject><issn>0925-1030</issn><issn>1573-1979</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><recordid>eNp9kD1PwzAQhi0EEqXwB5giMbs9n-PYGaPyrSIkCmK0XNeJUrVOsNOBf48hSGwMp7vhed-THkIuGcwYgJxHBrkECsjTMIVUHZEJE5JTVsrymEygREEZcDglZzFuAQBlDhPyWGU4Q7V_z1JP9rSax3TQdTtkfesb2ne-yWzn67Y5BDO0nc9W1Qs1MbZxcJsE9W7XepdV14tzclKbXXQXv3tK3m5vXhf3dPl897ColtSihIEaC-BYLtEUhTBrFAyk48blrnamXCuVg8MNQ1tbDnkBtpCFQFTcmJI5VfIpuRp7-9B9HFwc9LY7BJ9eaiyZEkVKiUThSNnQxRhcrfvQ7k341Az0tzM9OtPJmf5xplUK8TEUE-wbF_6q_0l9AVt2aq8</recordid><startdate>2024</startdate><enddate>2024</enddate><creator>Mosalmani, A.</creator><creator>Zahedi Qomi, M.</creator><creator>Shoaei, O.</creator><general>Springer US</general><general>Springer Nature B.V</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7SP</scope><scope>7TG</scope><scope>8FD</scope><scope>KL.</scope><scope>L7M</scope></search><sort><creationdate>2024</creationdate><title>A 2.28mW 100 MS/s 10-bit ping-pong configuration SAR-assisted pipeline ADC</title><author>Mosalmani, A. ; Zahedi Qomi, M. ; Shoaei, O.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c270t-ac00e1472a665ab25107e3ae4efea9b8840e2d12cfc30460c67652283aa91e893</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Analog to digital converters</topic><topic>Capacitors</topic><topic>Circuits and Systems</topic><topic>Configurations</topic><topic>Digital to analog converters</topic><topic>Electrical Engineering</topic><topic>Engineering</topic><topic>Figure of merit</topic><topic>Noise generation</topic><topic>Nyquist frequencies</topic><topic>Power consumption</topic><topic>Power management</topic><topic>Residues</topic><topic>Signal,Image and Speech Processing</topic><topic>Table tennis</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Mosalmani, A.</creatorcontrib><creatorcontrib>Zahedi Qomi, M.</creatorcontrib><creatorcontrib>Shoaei, O.</creatorcontrib><collection>CrossRef</collection><collection>Electronics & Communications Abstracts</collection><collection>Meteorological & Geoastrophysical Abstracts</collection><collection>Technology Research Database</collection><collection>Meteorological & Geoastrophysical Abstracts - Academic</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Analog integrated circuits and signal processing</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Mosalmani, A.</au><au>Zahedi Qomi, M.</au><au>Shoaei, O.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>A 2.28mW 100 MS/s 10-bit ping-pong configuration SAR-assisted pipeline ADC</atitle><jtitle>Analog integrated circuits and signal processing</jtitle><stitle>Analog Integr Circ Sig Process</stitle><date>2024</date><risdate>2024</risdate><volume>118</volume><issue>1</issue><spage>37</spage><epage>48</epage><pages>37-48</pages><issn>0925-1030</issn><eissn>1573-1979</eissn><abstract>This paper presents a new successive approximation register (SAR)-assisted pipeline analog-to-digital converter (ADC). The coarse stage digital-to-analog converter (DAC) of the proposed ADC is divided into three separate capacitor arrays (a small-DAC and two big-DACs) to increase the sampling rate while simultaneously reducing the power consumption. The small-DAC performs the low-power coarse conversion, and the two big-DACs generate low-noise residue voltage in a ping-pong configuration, reducing the power consumption of the residue amplification. The big-DACs are not involved in the coarse conversion. So, any mismatch between them does not significantly degrade the overall linearity. The unit capacitors of the CDACs are determined according to a comprehensive analysis, including the overall input-referred noise, the bandwidth mismatch, and the static nonlinearity associated with the ping-pong configuration. The proposed ADC is designed and simulated in a 65 nm CMOS technology over process variations. At 1.2 V supply, the ADC achieves a signal-to-noise and distortion ratio (SNDR) of 56.1 dB and a spurious-free dynamic range (SFDR) of 67.3 dB for a Nyquist frequency input sampled at 100 MS/s. The total power consumption is 2.28 mW, resulting in a Walden figure of merit (FoM) of 43 fJ/conversion-step.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s10470-023-02182-8</doi><tpages>12</tpages></addata></record> |
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| subjects | Analog to digital converters Capacitors Circuits and Systems Configurations Digital to analog converters Electrical Engineering Engineering Figure of merit Noise generation Nyquist frequencies Power consumption Power management Residues Signal,Image and Speech Processing Table tennis |
| title | A 2.28mW 100 MS/s 10-bit ping-pong configuration SAR-assisted pipeline ADC |
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