In this paper, we present a novel low-power image sensor architecture based on a clock-less serial read-out scheme. We show the operating principles of the architecture, and discuss the details of the implementation of the pixel, which is able to perform the conversion from the analog to the time domain of the light value individually. The implemented proof-of-concept device consists of 6 × 12 pixels and is intended to validate and characterize the new read-out scheme designed for low power applications. The pixel and the read-out scheme are particularly suitable for embedding energy harvesting circuits, even though this part is not included into the design. Thanks to the clock-less serial read-out with embedded PWM interface, the sensor delivers still images at a variable frame rate, up to a maximum of more than 60 Kfps at the highest illumination, showing a dynamic range of at least 72 dB. A typical value of power consumption of the entire array is estimated about 35 nW at 1.6 V of power supply, with a figure of merit of 0.32 pW/(pixel · frame).
A Low-Power Clock-Less Pulse Width Modulator Architecture for Smart Imaging
Gottardi, Massimo;Massari, Nicola
;
2018-01-01
Abstract
In this paper, we present a novel low-power image sensor architecture based on a clock-less serial read-out scheme. We show the operating principles of the architecture, and discuss the details of the implementation of the pixel, which is able to perform the conversion from the analog to the time domain of the light value individually. The implemented proof-of-concept device consists of 6 × 12 pixels and is intended to validate and characterize the new read-out scheme designed for low power applications. The pixel and the read-out scheme are particularly suitable for embedding energy harvesting circuits, even though this part is not included into the design. Thanks to the clock-less serial read-out with embedded PWM interface, the sensor delivers still images at a variable frame rate, up to a maximum of more than 60 Kfps at the highest illumination, showing a dynamic range of at least 72 dB. A typical value of power consumption of the entire array is estimated about 35 nW at 1.6 V of power supply, with a figure of merit of 0.32 pW/(pixel · frame).File | Dimensione | Formato | |
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