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128-Channel High-Linearity Resolution-Adjustable Time-to-Digital Converters for LiDAR Applications: Software Predictions and Hardware Implementations.

, , , и . IEEE Trans. Ind. Electron., 69 (4): 4264-4274 (2022)

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Chen Chen

Chen Chen

Shih Chen Chen

Yi-Chen Chen

Chen-Loung Chen

 

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Assessing Novel Lidar Modalities for Maximizing Coverage of a Spaceborne System through the Use of Diode Lasers., , , , , , , и . Remote. Sens., 14 (10): 2426 (2022)Efficient Time-to-Digital Converters in 20 nm FPGAs With Wave Union Methods., , и . IEEE Trans. Ind. Electron., 69 (1): 1021-1031 (2022)Multichannel Time-to-Digital Converters With Automatic Calibration in Xilinx Zynq-7000 FPGA Devices., , , и . IEEE Trans. Ind. Electron., 69 (9): 9634-9643 (2022)A Low Nonlinearity, Missing-Code Free Time-to-Digital Converter Based on 28-nm FPGAs With Embedded Bin-Width Calibrations., , и . IEEE Trans. Instrumentation and Measurement, 66 (7): 1912-1921 (2017)Multichannel, Low Nonlinearity Time-to-Digital Converters Based on 20 and 28 nm FPGAs., и . IEEE Trans. Ind. Electron., 66 (4): 3265-3274 (2019)Multi-channel high-linearity time-to-digital converters in 20 nm and 28 nm FPGAs for LiDAR applications., , , и . EBCCSP, стр. 1-4. IEEE, (2020)Low-Hardware Consumption, Resolution-Configurable Gray Code Oscillator Time-to-Digital Converters Implemented in 16 nm, 20 nm, and 28 nm FPGAs., , , и . IEEE Trans. Ind. Electron., 70 (4): 4256-4266 (2023)Low hardware consumption, resolution-configurable Gray code oscillator time-to-digital converters implemented in 16nm, 20nm and 28nm FPGAs., , , и . CoRR, (2022)A 192×128 Time Correlated Single Photon Counting Imager in 40nm CMOS Technology., , , , , , , , и . ESSCIRC, стр. 54-57. IEEE, (2018)128-Channel High-Linearity Resolution-Adjustable Time-to-Digital Converters for LiDAR Applications: Software Predictions and Hardware Implementations., , , и . IEEE Trans. Ind. Electron., 69 (4): 4264-4274 (2022)