TY - JOUR
T1 - Blumino
T2 - The First Fully Integrated Analog SiPM with On-Chip Time Conversion
AU - Muntean, Andrada
AU - Venialgo, Esteban
AU - Ardelean, Andrei
AU - Sachdeva, Ashish
AU - Ripiccini, Emanuele
AU - Palubiak, Darek
AU - Jackson, Carl
AU - Charbon, Edoardo
PY - 2021
Y1 - 2021
N2 - Blumino is the first analog silicon photomultiplier with integrated amplifier, comparator and time-To-digital converter (TDC). The combination of a photodetector together with on-chip readout circuitry enables system-level advantages, such as internal parasitic reduction, compactness and simplicity. The analog silicon photomultiplier has a third output, called fast terminal (FT), in addition to the anode and cathode, which is used for timing measurements. The analog silicon photomultiplier presents excellent photon detection efficiency greater than 40% at 420 nm, making it suitable for positron-emission tomography. Measurement results of the TDC indicate a resolution of 128 ps least significant bit (LSB) with a differential nonlinearity and integral nonlinearity of-1/+5 LSB and-2.4/+0.9 LSB, respectively. The discriminator comprises two preamplifier stages followed by a complementary self-biased differential amplifier stage which is coupled to the analog silicon photomultiplier's FT through a decoupling capacitor. The sensor is also fully backward-compatible through the standard output which can be coupled to dedicated ASICs and standard readout integrated circuits. In addition to the electrical, radiation, and optical performance, the integration of a custom CMOS analog silicon photomultiplier process with standard CMOS process was investigated.
AB - Blumino is the first analog silicon photomultiplier with integrated amplifier, comparator and time-To-digital converter (TDC). The combination of a photodetector together with on-chip readout circuitry enables system-level advantages, such as internal parasitic reduction, compactness and simplicity. The analog silicon photomultiplier has a third output, called fast terminal (FT), in addition to the anode and cathode, which is used for timing measurements. The analog silicon photomultiplier presents excellent photon detection efficiency greater than 40% at 420 nm, making it suitable for positron-emission tomography. Measurement results of the TDC indicate a resolution of 128 ps least significant bit (LSB) with a differential nonlinearity and integral nonlinearity of-1/+5 LSB and-2.4/+0.9 LSB, respectively. The discriminator comprises two preamplifier stages followed by a complementary self-biased differential amplifier stage which is coupled to the analog silicon photomultiplier's FT through a decoupling capacitor. The sensor is also fully backward-compatible through the standard output which can be coupled to dedicated ASICs and standard readout integrated circuits. In addition to the electrical, radiation, and optical performance, the integration of a custom CMOS analog silicon photomultiplier process with standard CMOS process was investigated.
KW - Analog silicon photomultiplier
KW - comparator
KW - complementary self-biased differential amplifier (CSDA)
KW - fast terminal (FT)
KW - fully integrated
KW - time-To-digital converter (TDC)
UR - http://www.scopus.com/inward/record.url?scp=85114585178&partnerID=8YFLogxK
U2 - 10.1109/TRPMS.2020.3045081
DO - 10.1109/TRPMS.2020.3045081
M3 - Article
AN - SCOPUS:85114585178
SN - 2469-7311
VL - 5
SP - 671
EP - 678
JO - IEEE Transactions on Radiation and Plasma Medical Sciences
JF - IEEE Transactions on Radiation and Plasma Medical Sciences
IS - 5
M1 - 9295406
ER -