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| | Preview | Author(s) | Title | Type | Issue Date |
| 21 | | Hauser, Michael ; Hofbauer, Michael | FPGA-Based EO-PLL With Repetitive Control forHighly Linear Laser Frequency Tuning in FMCWLIDAR Applications | Artikel Article  | 2022 |
| 22 | | Goll, Bernhard ; Steindl, Bernhard ; Zimmermann, Horst | Cascoded Active Quencher for SPADs With Bipolar Differential Amplifier in 0.35 µm BiCMOS | Artikel Article | 2022 |
| 23 | | Hofbauer, Michael | Precise Distance Measurement with Thick SPADs | Präsentation Presentation | 2022 |
| 24 | | Poushi, S. S. Kohneh ; Mahmoudi, H. ; Hofbauer, M. ; Dervic, A. ; Zimmermann, H. | Photodetection characterization of SPADs fabricated in 0.35µm PIN photodiode and high voltage CMOS technologies | Konferenzbeitrag Inproceedings | 2022 |
| 25 | | Mahmoudi, Hiwa ; Zimmermann, Horst | Bit Error Performance of APD and SPAD Receivers in Optical Wireless Communication | Artikel Article | 2021 |
| 26 | | Mahmoudi, Hiwa ; Hofbauer, Michael ; Goll, Bernhard ; Zimmermann, Horst | Noise and Breakdown Characterization of SPAD Detectors with Time-Gated Photon-Counting Operation | Artikel Article | 2021 |
| 27 | | Kuttner, A. ; Hauser, M. ; Dervic, A. ; Zimmermann, H. ; Hofbauer, M. | SPAD Based Digital Photon Counting Optical Distance Sensor in 150 nm CMOS Using Indirect Multiphase Time-of-Flight | Konferenzbeitrag Inproceedings | 2021 |
| 28 | | Hauser, M. ; Dervic, A. ; Kuttner, A. ; Zimmermann, H. ; Hofbauer, M. | Time of Flight Analog Correlator for Distance Measurement with SPADs | Konferenzbeitrag Inproceedings | 2021 |
| 29 | | Dervic, Alija ; Poushi, Saman Kohneh ; Zimmermann, Horst | Fully-integrated SPAD active quenching/resetting circuit in high-voltage 0.35-μ m CMOS for reaching PDP saturation at 650 nm | Konferenzbeitrag Inproceedings | 2021 |
| 30 | | Mahmoudi, Hiwa ; Poushi, S. Saman Kohneh ; Steindl, Bernhard ; Hofbauer, Michael ; Zimmermann, Horst | Optical and Electrical Characterization and Modeling of Photon Detection Probability in CMOS Single-Photon Avalanche Diodes | Artikel Article | 2021 |
| 31 | | Dervic, Alija ; Hofbauer, Michael ; Goll, Bernhard ; Zimmermann, Horst | High Slew-Rate Quadruple-Voltage Mixed-Quenching Active-Resetting Circuitfor SPADs in 0.35-μm CMOS for Increasing PDP | Artikel Article | 2021 |
| 32 | | Hofbauer, Michael ; Schneider-Hornstein, Kerstin ; Zimmermann, Horst | Single-photon Detection for Data Communication and Quantum Systems | Buch Book | 2021 |
| 33 | | Dervic, Alija ; Hofbauer, Michael ; Goll, Bernhard ; Zimmermann, Horst | Integrated Fast-Sensing Triple-Voltage SPAD Quenching/Resetting Circuit for Increasing PDP | Artikel Article | 2021 |
| 34 | | Milovancev, D. ; Jukic, T. ; Vokic, N. ; Brandl, P. ; Steindl, B. ; Zimmermann, H. | VLC Using 800-μm Diameter APD Receiver Integrated in Standard 0.35-μm BiCMOS Technology | Artikel Article | 2021 |
| 35 | | Poushi, Seyed Saman Kohneh ; Mahmoudi, Hiwa ; Hofbauer, Michael ; Steindl, Bernhard ; Schneider-Hornstein, Kerstin ; Zimmermann, Horst | Experimental and simulation study of fill-factor enhancement using a virtual guard ring in n⁺∕p-well CMOS single-photon avalanche diodes | Artikel Article | 2021 |
| 36 | | Gasser, Christoph ; Zimmermann, Horst | Highly sensitive monolithic optoelectronic receiver with large-area avalanche photodiode for optical wireless communication at low data rates | Artikel Article | 2021 |
| 37 | | Kohneh Poushi, Seyed Saman ; Mahmoudi, Hiwa ; Hofbauer, Michael ; Steindl, Bernhard ; Zimmermann, Horst | Photon detection probability enhancement using an anti-reflection coating in CMOS-based SPADs | Artikel Article | 2021 |
| 38 | | Zimmermann, Horst | Thick SPADs and Readout Circuits for High Excess Bias | Präsentation Presentation | 2021 |
| 39 | | Vlaskovic, Marko ; Zimmermann, Horst ; Meinhardt, Gerald ; Kraft, Jochen | PIN photodiode-based active pixel for a near-infrared imaging application in 0.35-μm CMOS | Artikel Article | 1-Jul-2020 |
| 40 | | Tadić, Nikša ; Dervić, Alija ; Erceg, Milena ; Zimmermann, Horst | A 40 μW-30 mW generated power, 280 Ω-1.68 kΩ load resistance CMOS controllable constant-power source for thermally-based sensor applications | Artikel Article | 2020 |
