Array of single-photon avalanche diode (SPAD) microcells and operating the same

Publikationen: PatentPatentschrift

Standard

Array of single-photon avalanche diode (SPAD) microcells and operating the same. / Hennecke, Marcus (Erfinder); Kirillov, Boris (Erfinder); Thurner, Thomas (Erfinder).
Patent Nr.: US11340109B2. Mai 06, 2022.

Publikationen: PatentPatentschrift

Harvard

Hennecke, M, Kirillov, B & Thurner, T Mai. 06 2022, Array of single-photon avalanche diode (SPAD) microcells and operating the same, Patent Nr. US11340109B2.

APA

Hennecke, M., Kirillov, B., & Thurner, T. (2022). Array of single-photon avalanche diode (SPAD) microcells and operating the same. (Patent Nr. US11340109B2).

Vancouver

Hennecke M, Kirillov B, Thurner T, Erfinder/-innen. Array of single-photon avalanche diode (SPAD) microcells and operating the same. US11340109B2. 2022 Mai 6.

Author

Hennecke, Marcus (Erfinder) ; Kirillov, Boris (Erfinder) ; Thurner, Thomas (Erfinder). / Array of single-photon avalanche diode (SPAD) microcells and operating the same. Patent Nr.: US11340109B2. Mai 06, 2022.

Bibtex - Download

@misc{467872c9e60c453fa621927cac379507,
title = "Array of single-photon avalanche diode (SPAD) microcells and operating the same",
abstract = "A digital light detector includes a clock signal generator configured to generate a clock signal comprised of clock pulses generated at a predetermined frequency; a single-photon avalanche diode (SPAD) configured to turn on and generate an avalanche current in response to receiving a photon, the SPAD including an internal capacitor coupled internally between an anode terminal and an cathode terminal; and an active quenching-recharging circuit that is triggered by the clock signal. The active quenching-recharging circuit is configured to be activated and deactivated based on the clock signal, where the active quenching-recharging circuit is configured to recharge the internal capacitor on a condition the active quenching-recharging circuit is activated, and where the active quenching-recharging circuit is configured to discharge the internal capacitor on a condition the active quenching-recharging circuit is deactivated.",
author = "Marcus Hennecke and Boris Kirillov and Thomas Thurner",
year = "2022",
month = may,
day = "6",
language = "English",
type = "Patent",
note = "US11340109B2; G01",

}

RIS (suitable for import to EndNote) - Download

TY - PAT

T1 - Array of single-photon avalanche diode (SPAD) microcells and operating the same

AU - Hennecke, Marcus

AU - Kirillov, Boris

AU - Thurner, Thomas

PY - 2022/5/6

Y1 - 2022/5/6

N2 - A digital light detector includes a clock signal generator configured to generate a clock signal comprised of clock pulses generated at a predetermined frequency; a single-photon avalanche diode (SPAD) configured to turn on and generate an avalanche current in response to receiving a photon, the SPAD including an internal capacitor coupled internally between an anode terminal and an cathode terminal; and an active quenching-recharging circuit that is triggered by the clock signal. The active quenching-recharging circuit is configured to be activated and deactivated based on the clock signal, where the active quenching-recharging circuit is configured to recharge the internal capacitor on a condition the active quenching-recharging circuit is activated, and where the active quenching-recharging circuit is configured to discharge the internal capacitor on a condition the active quenching-recharging circuit is deactivated.

AB - A digital light detector includes a clock signal generator configured to generate a clock signal comprised of clock pulses generated at a predetermined frequency; a single-photon avalanche diode (SPAD) configured to turn on and generate an avalanche current in response to receiving a photon, the SPAD including an internal capacitor coupled internally between an anode terminal and an cathode terminal; and an active quenching-recharging circuit that is triggered by the clock signal. The active quenching-recharging circuit is configured to be activated and deactivated based on the clock signal, where the active quenching-recharging circuit is configured to recharge the internal capacitor on a condition the active quenching-recharging circuit is activated, and where the active quenching-recharging circuit is configured to discharge the internal capacitor on a condition the active quenching-recharging circuit is deactivated.

M3 - Patent

M1 - US11340109B2

Y2 - 2020/06/05

ER -

Beziehungsdiagramm anzeigen

360 Link

Zeitschriften in BUGL

Vom selben Autor

Mehr zeigen