The performance of analog-to-digital converters can be greatly enhanced by preprocessing the analog signal using the photonic time-stretch technique. The analog bandwidth of a time-stretch preprocessor is limited by dispersion-induced frequency fading. In this paper, we propose and demonstrate a new implementation of the time-stretch analog-to-digital (A/D) conversion system that overcomes the bandwidth limitation. It is shown that the fading phenomenon can be mitigated by using phase diversity, and the maximum ratio combining algorithm is identified as a potential technique for maximizing the signal-to-noise-ratio
A scheme is proposed for increasing the sampling rate of analogue-to-digital conversion by more than...
In this paper we report on our recent progress in using photonic digital-analog converters for arbit...
The next generation digital information systems such as high performance computers, multigigabit/sec...
Time-stretched analog-to-digital converters (ADCs) have offered revolutionary enhancements in the pe...
Real-time wideband digitizers are the key building block in many systems including oscilloscopes, si...
We demonstrate the continuous-time operation of a time-stretch analog-to-digital converter array. A ...
Photonic time stretch is a well-established real-time optical technology. Using dispersion, the spec...
We demonstrate the continuous-time operation of a time-stretch analog-to-digital converter array. A ...
We experimentally demonstrate the performance of the recently proposed "OBP" algorithm based on opti...
All-electronic analog-to-digital conversion (ADC) technology is limited by the timing accuracy and i...
This study proposes an optical front-end for wideband transceivers based on photonic time compressio...
Driven by the increasing demand for speed and capacity in advanced signal-processing systems such as...
Photonic time stretch significantly extends the effective bandwidth of existing analog-to-digital co...
A photonic analog-to-digital converter exploiting a sample time-interleaving approach is presented, ...
Abstract: We analyzed the noise performance of time stretched analog to digital converter with both ...
A scheme is proposed for increasing the sampling rate of analogue-to-digital conversion by more than...
In this paper we report on our recent progress in using photonic digital-analog converters for arbit...
The next generation digital information systems such as high performance computers, multigigabit/sec...
Time-stretched analog-to-digital converters (ADCs) have offered revolutionary enhancements in the pe...
Real-time wideband digitizers are the key building block in many systems including oscilloscopes, si...
We demonstrate the continuous-time operation of a time-stretch analog-to-digital converter array. A ...
Photonic time stretch is a well-established real-time optical technology. Using dispersion, the spec...
We demonstrate the continuous-time operation of a time-stretch analog-to-digital converter array. A ...
We experimentally demonstrate the performance of the recently proposed "OBP" algorithm based on opti...
All-electronic analog-to-digital conversion (ADC) technology is limited by the timing accuracy and i...
This study proposes an optical front-end for wideband transceivers based on photonic time compressio...
Driven by the increasing demand for speed and capacity in advanced signal-processing systems such as...
Photonic time stretch significantly extends the effective bandwidth of existing analog-to-digital co...
A photonic analog-to-digital converter exploiting a sample time-interleaving approach is presented, ...
Abstract: We analyzed the noise performance of time stretched analog to digital converter with both ...
A scheme is proposed for increasing the sampling rate of analogue-to-digital conversion by more than...
In this paper we report on our recent progress in using photonic digital-analog converters for arbit...
The next generation digital information systems such as high performance computers, multigigabit/sec...