This paper presents an all-digital background calibration method for gain, time skew, and bandwidth mismatch in M-channel under-sampling time-interleaved analog-to-digital converters (TI-ADCs) systems. Firstly, the characteristics of offset, gain, time skew, and bandwidth mismatch on the TI-ADCs system are analyzed. Secondly, a parameter vector is constructed to correct gain, time skew, and bandwidth mismatch. Then, the constructed parameter vector is calculated with the bandpass fractional delay filter and least squares (LS) algorithm. Based on the bandpass fractional delay filter, the proposed technique can work for ultra-high frequency signals. Additionally, the constructed parameter vector has a smaller number of filter taps than the de...
National audience<p>Abstract—Sample-time mismatches between the channels of Time-Interleaved Analog-...
To significantly increase the sampling rate of an ADC, time-interleaved ADC (TIADC) is an efficient ...
This paper presents a fully digital background calibration technique of the gain and timing mismatch...
A low complexity all-digital background calibration technique based on statistics is proposed. The b...
The concept of a Time-Interleaved analog-to-digital converter (TI ADC) which comprises sub-ADCs (ch...
This letter presents a fully integrated on-chip digital mismatch compensation system for time-based ...
A technique for the digital background calibration of subsampling time-interleaved analog-to-digital...
International audience<p>Abstract—This paper proposes a fully digital calibration oftiming mismatch ...
Abstract This work suggests a novel procedure of calibrating timing mismatch of time-interleaved An...
In this paper, a digital time skew calibration technique for time-interleaved (TI) ADCs is presente...
Time-interleaving Analog-to-Digital Converters allows for increased sampling rates at the cost of a...
A novel technique for the digital background calibration of time-interleaved analog-to-digital conve...
This paper presents a method for the on-chip measurement and correction of gain errors, offsets and ...
We propose an algorithm for the digital background calibration of time-interleaved analog-to-digital...
In this paper, a digital time skew calibration technique for time-interleaved (TI) ADCs is presented...
National audience<p>Abstract—Sample-time mismatches between the channels of Time-Interleaved Analog-...
To significantly increase the sampling rate of an ADC, time-interleaved ADC (TIADC) is an efficient ...
This paper presents a fully digital background calibration technique of the gain and timing mismatch...
A low complexity all-digital background calibration technique based on statistics is proposed. The b...
The concept of a Time-Interleaved analog-to-digital converter (TI ADC) which comprises sub-ADCs (ch...
This letter presents a fully integrated on-chip digital mismatch compensation system for time-based ...
A technique for the digital background calibration of subsampling time-interleaved analog-to-digital...
International audience<p>Abstract—This paper proposes a fully digital calibration oftiming mismatch ...
Abstract This work suggests a novel procedure of calibrating timing mismatch of time-interleaved An...
In this paper, a digital time skew calibration technique for time-interleaved (TI) ADCs is presente...
Time-interleaving Analog-to-Digital Converters allows for increased sampling rates at the cost of a...
A novel technique for the digital background calibration of time-interleaved analog-to-digital conve...
This paper presents a method for the on-chip measurement and correction of gain errors, offsets and ...
We propose an algorithm for the digital background calibration of time-interleaved analog-to-digital...
In this paper, a digital time skew calibration technique for time-interleaved (TI) ADCs is presented...
National audience<p>Abstract—Sample-time mismatches between the channels of Time-Interleaved Analog-...
To significantly increase the sampling rate of an ADC, time-interleaved ADC (TIADC) is an efficient ...
This paper presents a fully digital background calibration technique of the gain and timing mismatch...