DOAJ Open Access 2022

Cascoded Active Quencher for SPADs With Bipolar Differential Amplifier in 0.35 μm BiCMOS

Bernhard Goll Bernhard Steindl Horst Zimmermann

Abstrak

Fast active quenching of single-photon avalanche diodes (SPADs) is important to reduce the afterpulsing probability (APP). An option to reduce the reaction time of electronics to a SPAD's avalanche is to design a quencher exploiting bipolar transistors. A quencher in a 0.35 μm CMOS technology with a nominal supply voltage of 3.3 V, which operated with excess bias voltages up to 6.6 V, was re-designed accordingly. In the new 0.35 μm pure-silicon BiCMOS quencher, the comparator takes advantage of a bipolar differential amplifier, which additionally gives the head room to increase the width of some CMOS transistors as well. The proposed BiCMOS quencher is able to drive the load of a wire-bonded 184 μm-diameter SPAD, while the CMOS design fails. A comparison, where both chips are measured with a wire-bonded, 34 μm-diameter SPAD, shows that the BiCMOS quencher has a reaction time, which is 330 ps to 1.1 ns faster than that of the CMOS quencher.

Topik & Kata Kunci

Applied optics. Photonics Optics. Light

Penulis (3)

Bernhard Goll

Bernhard Steindl

Horst Zimmermann

Format Sitasi

APA MLA BibTeX

Goll, B., Steindl, B., Zimmermann, H. (2022). Cascoded Active Quencher for SPADs With Bipolar Differential Amplifier in 0.35 μm BiCMOS. https://doi.org/10.1109/JPHOT.2022.3149719

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