Scientific Reports (Jul 2023)

A 64k pixel CMOS-DEPFET module for the soft X-rays DSSC imager operating at MHz-frame rates

  • Stefano Maffessanti,
  • Karsten Hansen,
  • Stefan Aschauer,
  • Andrea Castoldi,
  • Florian Erdinger,
  • Carlo Fiorini,
  • Peter Fischer,
  • Pradeep Kalavakuru,
  • Helmut Klär,
  • Massimo Manghisoni,
  • Christian Reckleben,
  • Lothar Strüder,
  • Matteo Porro

DOI
https://doi.org/10.1038/s41598-023-38508-9
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 12

Abstract

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Abstract The 64k pixel DEPFET module is the key sensitive component of the DEPFET Sensor with Signal Compression (DSSC), a large area 2D hybrid detector for capturing and measuring soft X-rays at the European XFEL. The final 1-megapixel camera has to detect photons with energies between $$250\,\text{eV}$$ 250 eV and $$6\,\text{keV}$$ 6 keV , and must provide a peak frame rate of $$4.5\,\text{MHz}$$ 4.5 MHz to cope with the unique bunch structure of the European XFEL. This work summarizes the functionalities and properties of the first modules assembled with full-format CMOS-DEPFET arrays, featuring $$512\,\times \,128$$ 512 × 128 hexagonally-shaped pixels with a side length of 136 μm. The pixel sensors utilize the DEPFET technology to realize an extremely low input capacitance for excellent energy resolution and, at the same time, an intrinsic capability of signal compression without any gain switching. Each pixel of the readout ASIC includes a DEPFET-bias current cancellation circuitry, a trapezoidal-shaping filter, a 9-bit ADC and a 800-word long digital memory. The trimming, calibration and final characterization were performed in a laboratory test-bench at DESY. All detector features are assessed at $$18\,^{\circ }\text{C}$$ 18 ∘ C . An outstanding equivalent noise charge of $$9.8$$ 9.8 e−rms is achieved at 1.1-MHz frame rate and gain of 26.8 Analog-to-Digital Unit per keV ( $$\,\text {ADU}/\text{keV}$$ ADU / keV ). At $$4.5\,\text{MHz}$$ 4.5 MHz and $$3.1\,\,\text {ADU}/\text{keV}$$ 3.1 ADU / keV , a noise of $$25.5$$ 25.5 e−rms and a dynamic range of $$26\,\text{k}\text {e}^{-}$$ 26 ke - are obtained. The highest dynamic range of $$1.345\,\text{M}\text {e}^{-}$$ 1.345 Me - is reached at $$2.25\,\text{MHz}$$ 2.25 MHz and $$1.6\,\text {ADU}/\text{keV}$$ 1.6 ADU / keV . These values can fulfill the specification of the DSSC project.