LTARS: analog readout front-end ASIC for versatile TPC-applications

We designed a versatile analog front-end chip, called LTARS, for TPC-applications, primarily targeted at dual-phase liquid Ar-TPCs for neutrino experiments and negative-ion μ-TPCs for directional dark matter searches. Low-noise performance and wide dynamic range are two requirements for reading out...

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Published in:Journal of instrumentation 2020-09, Vol.15 (9), p.T09009-T09009
Main Authors: Kishishita, T., Sumomozawa, S., Kosaka, T., Igarashi, T., Sakashita, K., Shoji, M., Tanaka, M.M., Hasegawa, T., Negishi, K., Narita, S., Nakamura, T., Miuchi, K.
Format: Article
Language:English
Subjects:
Analog circuits
Channels
Circuit design
CMOS
Dark matter
Dynamic range
Electronics
Low temperature
Neutrinos
Noise
Noise levels
Performance tests
Room temperature
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container_end_page T09009
container_issue 9
container_start_page T09009
container_title Journal of instrumentation
container_volume 15
creator Kishishita, T.
Sumomozawa, S.
Kosaka, T.
Igarashi, T.
Sakashita, K.
Shoji, M.
Tanaka, M.M.
Hasegawa, T.
Negishi, K.
Narita, S.
Nakamura, T.
Miuchi, K.
description We designed a versatile analog front-end chip, called LTARS, for TPC-applications, primarily targeted at dual-phase liquid Ar-TPCs for neutrino experiments and negative-ion μ-TPCs for directional dark matter searches. Low-noise performance and wide dynamic range are two requirements for reading out the signals induced on the TPC readout channels. One of the development objectives is to establish the analog processing circuits under low temperature operation, which are designed on function block basis as reusable IPs (Intellectual Properties). The newly developed ASIC was implemented in the Silterra 180 nm CMOS technology and has 16 readout channels. We carried out the performance test at room temperature and the results showed an equivalent noise charge of 2695±71 e− (rms) with a detector capacitance of 300 pF. The dynamic range was measured to be 20–100 fC in the low-gain mode and 200–1600 fC in the high-gain mode within 10% integral nonlinearity at room temperature. We also tested the performance at the liquid-Ar temperature and found a deterioration of the noise level with a longer shaper time. Based on these results, we also discuss a unique simulation methodology for future cold-electronics development. This method can be applicable to design the electronics used at low temperature.
doi_str_mv 10.1088/1748-0221/15/09/T09009
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source Institute of Physics
subjects Analog circuits
Channels
Circuit design
CMOS
Dark matter
Dynamic range
Electronics
Low temperature
Neutrinos
Noise
Noise levels
Performance tests
Room temperature
title LTARS: analog readout front-end ASIC for versatile TPC-applications
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