An experimental method for a single layer is extended to determine the elastic properties of nanostructured W/C u multilayers on a flexible substrate.The strain difference between the W/Cu-polyimide-W/Cu composite and...An experimental method for a single layer is extended to determine the elastic properties of nanostructured W/C u multilayers on a flexible substrate.The strain difference between the W/Cu-polyimide-W/Cu composite and the uncoated substrate,measured by dual digital image correlation,allows us to extract the effective Young's modulus of W/Cu multilayers(20 periods)equaling 216±13 GPa.Finite element method is then performed,which agrees well with the experiment and classical rule of mixture(ROM)theory demonstrating that the extension to multilayers is effective and reliable.The numerical analysis also interestingly shows that the strain difference is linearly related to the thickness ratio(W/Cu),periods and sublayer thickness,respectively.In contrast to ROM theory,this approach could potentially be used for the evaluation of properties and design of emerging/unknown functional multilayers,whether or not they are crystalline or amorphous.展开更多
Time to digital converter(TDC)is a key block for time-gated single photon avalanche diode(SPAD)arrays for Raman spectroscopy that applicable in the agricultural products and food analysis.In this paper a new dual slop...Time to digital converter(TDC)is a key block for time-gated single photon avalanche diode(SPAD)arrays for Raman spectroscopy that applicable in the agricultural products and food analysis.In this paper a new dual slope time to digital converter that employs the time to voltage conversion and integrating techniques for digitizing the time interval input signals is presented.The reference clock frequency of the TDC is 100 MHz and the input range is theoretically unlimited.The proposed converter features high accuracy,very small average error and high linear range.Also this converter has some advantages such as low circuit complexity,low power consumption and low sensitive to the temperature,power supply and process changes(PVT)compared with the time to digital converters that used preceding conversion techniques.The proposed converter uses an indirect time to digital conversion method.Therefore,our converter has the appropriate linearity without extra elements.In order to evaluate the proposed idea,an integrating time to digital converter is designed in 0.18 lm CMOS technology and was simulated by Hspice.Comparison of the theoretical and simulation results confirms the proposed TDC operation;therefore,the proposed converter is very convenient for applications which have average speed and low variations in the signal amplitude such as biomedical signals.展开更多
基金This research is financially supported by the National Natural Science Foundation of China(Grant 11802156)China Postdoctoral Science Foundation(Grant 2018M641331)French Government Program“Investissements d’Avenir”(Labex Interactifs,Grant ANR-11-LABX-0017-01).
文摘An experimental method for a single layer is extended to determine the elastic properties of nanostructured W/C u multilayers on a flexible substrate.The strain difference between the W/Cu-polyimide-W/Cu composite and the uncoated substrate,measured by dual digital image correlation,allows us to extract the effective Young's modulus of W/Cu multilayers(20 periods)equaling 216±13 GPa.Finite element method is then performed,which agrees well with the experiment and classical rule of mixture(ROM)theory demonstrating that the extension to multilayers is effective and reliable.The numerical analysis also interestingly shows that the strain difference is linearly related to the thickness ratio(W/Cu),periods and sublayer thickness,respectively.In contrast to ROM theory,this approach could potentially be used for the evaluation of properties and design of emerging/unknown functional multilayers,whether or not they are crystalline or amorphous.
文摘Time to digital converter(TDC)is a key block for time-gated single photon avalanche diode(SPAD)arrays for Raman spectroscopy that applicable in the agricultural products and food analysis.In this paper a new dual slope time to digital converter that employs the time to voltage conversion and integrating techniques for digitizing the time interval input signals is presented.The reference clock frequency of the TDC is 100 MHz and the input range is theoretically unlimited.The proposed converter features high accuracy,very small average error and high linear range.Also this converter has some advantages such as low circuit complexity,low power consumption and low sensitive to the temperature,power supply and process changes(PVT)compared with the time to digital converters that used preceding conversion techniques.The proposed converter uses an indirect time to digital conversion method.Therefore,our converter has the appropriate linearity without extra elements.In order to evaluate the proposed idea,an integrating time to digital converter is designed in 0.18 lm CMOS technology and was simulated by Hspice.Comparison of the theoretical and simulation results confirms the proposed TDC operation;therefore,the proposed converter is very convenient for applications which have average speed and low variations in the signal amplitude such as biomedical signals.
