Xenics has developed a family of stitched SWIR long linear arrays that operate up to 400 KHz of line rate. These arrays
serve medical and industrial applications that require high line rates as well as space applications that require long linear
arrays. The arrays are based on a modular ROIC design concept: modules of 512 pixels are stitched during fabrication to
achieve 512, 1024 and 2048 pixel arrays. Each 512-pixel module has its own on-chip digital sequencer, analog readout
chain and 4 output buffers. This modular concept enables a long array to run at a high line rates irrespective of the array
length, which limits the line rate in a traditional linear array. The ROIC is flip-chipped with InGaAs detector arrays.
The FPA has a pixel pitch of 12.5μm and has two pixel flavors: square (12.5μm) and rectangular (250μm). The frontend
circuit is based on Capacitive Trans-impedance Amplifier (CTIA) to attain stable detector bias, and good linearity
and signal integrity, especially at high speeds. The CTIA has an input auto-zero mechanism that allows to have low
detector bias (<20mV). An on-chip Correlated Double Sample (CDS) facilitates removal of CTIA KTC and 1/f noise,
and other offsets, achieving low noise performance. There are five gain modes in the FPA giving the full well range
from 85Ke- to 40Me-. The measured input referred noise is 35e-rms in the highest gain mode. The FPA operates in
Integrate While Read mode and, at a master clock rate of 60MHz and a minimum integration time of 1.4μs, achieves the
highest line rate of 400 KHz.
In this paper, design details and measurements results are presented in order to demonstrate the array performance.