The problem of characterizing transfer functions of Analog to Digital Converters (ADC) for use in compensation of Time Interleaved Analog to Digital Converters (TIADC) is ubiquitous in the area of mismatch correction algorithms. Identifying, classifying, and quantifying the presence of errors in ADCs and TIADCs is fundamental in the pursuit of correcting these errors. This problem, characterization of error effects, is investigated through calculation of higher order cumulants on the error signals of each type of system. The concept of cumulant calculation and interpretation is presented and applied to varying error environments and input signals. © 2012 IEEE
The concept of a Time-Interleaved analog-to-digital converter (TI ADC) which comprises sub-ADCs (ch...
To significantly increase the sampling rate of an A/D converter (ADC), a time interleaved ADC system...
International audienceTime Interleaved ADCs (TIADCs) are a good solu-tion to implement high sampling...
Post analog-to-digital conversion correction is an active area of research in both academia and indu...
Abstract—This paper presents the impact that gain, offset and timing mismatch in time-interleaved an...
This paper presents the impact that gain, offset and timing mismatch in time-interleaved analog-to-...
Theoretically time interleaved analog-to-digital converters (TI-ADCs) offer a technologically feasib...
converter (ADC) achieves high sampling rates with the drawback of additional distortions caused by c...
Time interleaving can relax the speed-power trade-off of analog-to-digital converters but at the cos...
Practical implementations of post conversion correction of time interleaved analog to digital conver...
To significantly increase the sampling rate of an A/D converter (ADC), a time interleaved ADC system...
Time-Interleaved Analog-to-Digital Converter (TIADC) is a technique used to achieve a higher convers...
Time-interleaved technique is widely used to increase the sampling rate of analog-to-digital convert...
This paper presents a method for the on-chip measurement and correction of gain errors, offsets and ...
Time-interleaved technique is widely used to increase the sampling rate of analog-to-digital convert...
The concept of a Time-Interleaved analog-to-digital converter (TI ADC) which comprises sub-ADCs (ch...
To significantly increase the sampling rate of an A/D converter (ADC), a time interleaved ADC system...
International audienceTime Interleaved ADCs (TIADCs) are a good solu-tion to implement high sampling...
Post analog-to-digital conversion correction is an active area of research in both academia and indu...
Abstract—This paper presents the impact that gain, offset and timing mismatch in time-interleaved an...
This paper presents the impact that gain, offset and timing mismatch in time-interleaved analog-to-...
Theoretically time interleaved analog-to-digital converters (TI-ADCs) offer a technologically feasib...
converter (ADC) achieves high sampling rates with the drawback of additional distortions caused by c...
Time interleaving can relax the speed-power trade-off of analog-to-digital converters but at the cos...
Practical implementations of post conversion correction of time interleaved analog to digital conver...
To significantly increase the sampling rate of an A/D converter (ADC), a time interleaved ADC system...
Time-Interleaved Analog-to-Digital Converter (TIADC) is a technique used to achieve a higher convers...
Time-interleaved technique is widely used to increase the sampling rate of analog-to-digital convert...
This paper presents a method for the on-chip measurement and correction of gain errors, offsets and ...
Time-interleaved technique is widely used to increase the sampling rate of analog-to-digital convert...
The concept of a Time-Interleaved analog-to-digital converter (TI ADC) which comprises sub-ADCs (ch...
To significantly increase the sampling rate of an A/D converter (ADC), a time interleaved ADC system...
International audienceTime Interleaved ADCs (TIADCs) are a good solu-tion to implement high sampling...