Add to ORKGThe design and characterization of an imaging sensor based on single photon avalanche diodes is presented. The sensor was fully integrated in a 0.35µm CMOS technology. The core of the imager is an array of 4x112 pixels that independently and simultaneously detect the arrival time of photons with picosecond accuracy. A novel event-driven readout scheme allows parallel column-wise and non-sequential, on-demand row-wise operation. Both time-correlated and time-uncorrelated measurements are supported in the sensor. The readout scheme is scalable and requires only 11 transistors per pixel with a pitch of 25µm. A number of standard performance measurements for the imager are presented in the paper. An average dark count rate of 6Hz and 750Hz are ...
This paper describes the design of a 64x2-pixel array, fabricated in a conventional industrial high-...
This paper presents our work on a 65k pixel single-photon avalanche diode (SPAD) based imaging senso...
Aim of the paper is to discuss design, fabrication and performances of Single-Photon Avalanche Diode...
Time-resolved image sensors enabling picosecond resolutions over large formats are needed in many ad...
A single photon avalanche diode detector for the analysis of fluorescence phenomena is presented. T...
In this paper we report on a 32×32 optical imager based on single photon avalanche diodes integrated...
Image sensors with deep subnanosecond timing resolution in combi-nation with high sensitivity are re...
This contribute describes the design and preliminary characterization of a 16x16-pixel array based...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
Abstract — This contribute describes the design and preliminary characterization of a 16x16-pixel ar...
This paper describes the design and characterization of a 64-pixel array exploiting the high sensiti...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
Image sensors with deep subnanosecond timing resolution in combination with high sensitivity are req...
This paper describes the design of a 64x2-pixel array, fabricated in a conventional industrial high-...
This paper presents our work on a 65k pixel single-photon avalanche diode (SPAD) based imaging senso...
Aim of the paper is to discuss design, fabrication and performances of Single-Photon Avalanche Diode...
Time-resolved image sensors enabling picosecond resolutions over large formats are needed in many ad...
A single photon avalanche diode detector for the analysis of fluorescence phenomena is presented. T...
In this paper we report on a 32×32 optical imager based on single photon avalanche diodes integrated...
Image sensors with deep subnanosecond timing resolution in combi-nation with high sensitivity are re...
This contribute describes the design and preliminary characterization of a 16x16-pixel array based...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
Abstract — This contribute describes the design and preliminary characterization of a 16x16-pixel ar...
This paper describes the design and characterization of a 64-pixel array exploiting the high sensiti...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
We present a CMOS imager consisting of 32×32 smart pixels, each one able to detect single photons in...
Image sensors with deep subnanosecond timing resolution in combination with high sensitivity are req...
This paper describes the design of a 64x2-pixel array, fabricated in a conventional industrial high-...
This paper presents our work on a 65k pixel single-photon avalanche diode (SPAD) based imaging senso...
Aim of the paper is to discuss design, fabrication and performances of Single-Photon Avalanche Diode...