An all-digital on-chip clock skew measurement system via subsampling is presented. The clock nodes are sub-sampled with a near-frequency asynchronous sampling clock to result in beat signals which are themselves skewed in the same proportion but on a larger time scale. The beat signals are then suitably masked to extract only the skews of the rising edges of the clock signals. We propose a histogram of the arithmetic difference of the beat signals which decouples the relationship of clock jitter to the minimum measurable skew, and allows skews arbitrarily close to zero to be measured with a precision limited largely by measurement time, unlike the conventional XOR based histogram approach. We also analytically show that the proposed approac...
Clock timing jitters refer to random perturbations in the sampling time in analog-to-digital convert...
Abstract—This paper presents a background timing-skew cali-bration technique for time-interleaved an...
Clocks on wireless sensor nodes experience a natural drift. This clock skew is unique for each node ...
An all-digital on-chip clock skew measurement system via subsampling is presented. The clock nodes a...
Abstract—An all-digital on-chip clock skew measurement system via subsampling is presented. The cloc...
We present a technique for an all-digital on-chip delay measurement system to measure the skews in a...
Clock-skew errors in time-interleaved ADCs importantly degrade the linearity of such converters. The...
In this paper we present an on-chip clock jitter digital measurement scheme for high performance mic...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We present a low-cost on-line system for clock skew management in integrated circuits. Our Built-In ...
In this paper we present a low cost, on-chip clock jitter digital measurement scheme for high perfor...
要 約- This paper proposes a technique to reduce sampling clock jitter effects in high speed ADCs. Fir...
International audienceThis paper describes an on-chip instrument for the estimation of absolute and ...
In this paper, we present a low-cost, on-chip clock jitter digital measurement scheme for high perfo...
[[abstract]]In this paper, a jitter measurement circuit with its calibration scheme for measuring pe...
Clock timing jitters refer to random perturbations in the sampling time in analog-to-digital convert...
Abstract—This paper presents a background timing-skew cali-bration technique for time-interleaved an...
Clocks on wireless sensor nodes experience a natural drift. This clock skew is unique for each node ...
An all-digital on-chip clock skew measurement system via subsampling is presented. The clock nodes a...
Abstract—An all-digital on-chip clock skew measurement system via subsampling is presented. The cloc...
We present a technique for an all-digital on-chip delay measurement system to measure the skews in a...
Clock-skew errors in time-interleaved ADCs importantly degrade the linearity of such converters. The...
In this paper we present an on-chip clock jitter digital measurement scheme for high performance mic...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We present a low-cost on-line system for clock skew management in integrated circuits. Our Built-In ...
In this paper we present a low cost, on-chip clock jitter digital measurement scheme for high perfor...
要 約- This paper proposes a technique to reduce sampling clock jitter effects in high speed ADCs. Fir...
International audienceThis paper describes an on-chip instrument for the estimation of absolute and ...
In this paper, we present a low-cost, on-chip clock jitter digital measurement scheme for high perfo...
[[abstract]]In this paper, a jitter measurement circuit with its calibration scheme for measuring pe...
Clock timing jitters refer to random perturbations in the sampling time in analog-to-digital convert...
Abstract—This paper presents a background timing-skew cali-bration technique for time-interleaved an...
Clocks on wireless sensor nodes experience a natural drift. This clock skew is unique for each node ...