Abstract—We introduce a behavioral MATLAB simulation of a time-interleaved ADC. The simulation includes the main error sources of a time-interleaved ADC and works with continuous-time input sig-nals and continuous-time input filters. We clarify how to implement the signal generation and how to connect the continuous-time and the discrete-time part of the time-interleaved ADC with high calcu-lation precision. By using the simulation results, we treat the problem of channel mismatches, demonstrate the problems of bandwidth mis-matches, and show the impact of nonlinearities. I
The concept of a Time-Interleaved analog-to-digital converter (TI ADC) which comprises sub-ADCs (ch...
Abstract—This paper introduces an adaptive calibration struc-ture for the blind calibration of frequ...
Abstract—In this paper we review the progress in the design of low-complexity digital correction str...
We introduce a behavioral MATLAB simulation of a time-interleaved ADC. The simulation includes the m...
Abstract—Novel techniques based on signal-conditioning are presented to mitigate timing errors in ti...
Post analog-to-digital conversion correction is an active area of research in both academia and indu...
Time-interleaved analog-to-digital converters (ADCs) exhibit offset, gain, and time-skew errors due ...
To significantly increase the sampling rate of an A/D converter (ADC), a time interleaved ADC system...
The time-interleaved architecture permits implementing high frequency analog-to-digital converters (...
Time interleaving can relax the speed-power trade-off of analog-to-digital converters but at the cos...
This book describes techniques for time-interleaving a number of analog-to-digital data converters t...
Time-interleaved analog-to-digital converter (ADC) architecture is crucial to increase the maximum s...
Abstract — Time interleaving can be used to significantly in-crease the sampling rate of an ADC syst...
converter (ADC) achieves high sampling rates with the drawback of additional distortions caused by c...
Abstract — A time-interleaved ADC (TIADC) increases the overall sampling rate by combining multiple ...
The concept of a Time-Interleaved analog-to-digital converter (TI ADC) which comprises sub-ADCs (ch...
Abstract—This paper introduces an adaptive calibration struc-ture for the blind calibration of frequ...
Abstract—In this paper we review the progress in the design of low-complexity digital correction str...
We introduce a behavioral MATLAB simulation of a time-interleaved ADC. The simulation includes the m...
Abstract—Novel techniques based on signal-conditioning are presented to mitigate timing errors in ti...
Post analog-to-digital conversion correction is an active area of research in both academia and indu...
Time-interleaved analog-to-digital converters (ADCs) exhibit offset, gain, and time-skew errors due ...
To significantly increase the sampling rate of an A/D converter (ADC), a time interleaved ADC system...
The time-interleaved architecture permits implementing high frequency analog-to-digital converters (...
Time interleaving can relax the speed-power trade-off of analog-to-digital converters but at the cos...
This book describes techniques for time-interleaving a number of analog-to-digital data converters t...
Time-interleaved analog-to-digital converter (ADC) architecture is crucial to increase the maximum s...
Abstract — Time interleaving can be used to significantly in-crease the sampling rate of an ADC syst...
converter (ADC) achieves high sampling rates with the drawback of additional distortions caused by c...
Abstract — A time-interleaved ADC (TIADC) increases the overall sampling rate by combining multiple ...
The concept of a Time-Interleaved analog-to-digital converter (TI ADC) which comprises sub-ADCs (ch...
Abstract—This paper introduces an adaptive calibration struc-ture for the blind calibration of frequ...
Abstract—In this paper we review the progress in the design of low-complexity digital correction str...