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导波光学 Photonic Analog-to-Digital Conversion 班级: B1203491 学号: 1120349012 姓名:钱阿权
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Content Limits in Electronic ADCs How to solve in photonic approach ? Principles of Photonic ADC Advantages of the A/D scheme Discussion
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Limits in Electronic ADCs A/D conversion sample-and-hold quantization The ENOB describe the possible maximum resolution that can be achieved for a physical ADC with the meaningful number.
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Limits in Electronic ADCs Three mechanisms Thermal noise Timing jitter Comparator ambiguity
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Limits in Electronic ADCs Three mechanisms (thermal noise, timing jitter, and comparator ambiguity) limiting the performance of an ADC.
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Limits in Electronic ADCs The conventional sample-interleaved analog-to-digital converter architecture.
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Limits in Electronic ADCs Conceptual block diagram for a time-stretched analog-to-digital converter.
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Limits in Electronic ADCs Conceptual block diagram of time-stretched analog to digital converter array
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How to solve in photonic approach ? Timing jitter Sample the RF signal optically with ultra-stable pulse trains available from MLL Comparator ambiguity Separate the fast RF signal into multiple slower channels
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How to solve in photonic approach ? Some recent photonic ADC RFENOB 733MHz9.8 35GHz2.5 4GHz7.2 10GHz6.65 6.5GHz6.65 10GHz6.15 40GHz6.0 41GHz7.0 What makes these developments especially exciting is that with the recent progress made in silicon photonic and electronic-photonic integration technologies
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Principles of Photonic ADC Layout of the photonic ADC
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Principles of Photonic ADC It is a photonic sampling and electronic quantizing ADC, with electronics performing the critical function of digitizing the modulated pulses, which electronics can do best at high resolutions. At the post-processing stage, the samples captured in different wavelength channels are interleaved and distortion-compensated to obtain the final digital representation of the RF signal.
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Principles of Photonic ADC With this approach to sampling, the aperture jitter is determined by the timing jitter of the mode-locked lasers, which can be extremely low, thus eliminating the problem of aperture jitter. The scheme with N channels reduces the required analog bandwidth of photo detectors and electronic ADCs in proportion to N, which means that the comparator ambiguity becomes a non-issue.
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Advantages of the A/D scheme The latest developments in silicon photonics and electronic-photonic integration technology make it possible to integrate the whole A/D system on a silicon chip. a vision for the photonic ADC implemented as a single electronic-photonic silicon chip
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Advantages of the A/D scheme banks of micro ring resonator filters wavelength multiplexers and demultiplexers carrier-depletion Mach- Zehnder silicon modulators electrooptic modulators all-silicon defect-based photo detectors photodetectors
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Discussion The photonic sampling is capable of strongly reducing the role of the two fundamental limitations in ADCs: aperture jitter and comparator ambiguity. If the currently observed low levels of timing jitter in mode-locked lasers can be translated into effective bits, one will be able to digitize signals of up to THz bandwidth with more than 10 ENOB.
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Discussion Together with silicon photonics as the integration platform finally a practical, cheap, integrated solution for photonic ADCs has arrived, that might surpass its completely electronic counterpart by potentially more than three orders of magnitude in achievable resolution-bandwidth product.
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