The geometric design of microbolometer elements for uncooled focal plane arrays

Ruß, M.; Bauer, J.; Vogt, H.

doi:10.1117/12.719224

Cited by 9 publications

(1 citation statement)

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“…On top of the membrane an antireflection layer with a sheet resistance of 377 /sq is deposited. The bottom structure consists of a nearly perfect reflecting metal layer (Ruß et al, 2007). To increase the thermal resistance the membrane is fixed by two small legs (Fig.…”

Section: Bolometermentioning

confidence: 99%

Noise of short-time integrators for readout of uncooled infrared bolometer arrays

et al. 2010

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As state-of-the-art readout circuits short-time integrators in Far Infrared (FIR) uncooled bolometer arrays are commonly used. This paper compares the transfer functions of an ideal continuous-time integrator with that of a real integrator with focus an OTA parameters and noise analysis. Beside the noise sources at the non-inverting input of the OTA special care has to be taken to account for capacitances at the inverting input. The Noise Equivalent Temperature Difference (NETD) as the key parameter for bolometer applications for a real short-time integrator will be derived. As the result it will be shown, that the NETD is 1/f-noise limited

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Section: Bolometermentioning

confidence: 99%

Noise of short-time integrators for readout of uncooled infrared bolometer arrays

et al. 2010

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Performance Characterization of Infrared Detectors Based on Polymorphous Silicon‐Germanium (pm‐Si_xGe_1−x:H) Thin Films Deposited at Low Temperature

Jiménez

Moreno

Torres

et al. 2018

Physica Status Solidi (a)

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In this work, the fabrication of infrared detectors (uncooled microbolometers) using surface micromachining techniques is presented. The thermo-sensing film used in the devices is polymorphous silicon-germanium (pm-Si x Ge 1Àx :H) produced by low frequency plasma-enhanced chemical vapor deposition (PECVD) at low temperature (200 C). Polymorphous semiconductors basically are amorphous semiconductors with embedded nanocrystals (of diameter of about 2-5 nm), which are formed during the film deposition. The presence of nanocrystals impacts on the properties of the material by reducing the density of states (defects) and improving the stability of the films. For infrared detectors those materials present important properties such as high temperature coefficient of resistance (TCR ¼ À4.7% K À1 ), long-term stability, low deposition temperature, and silicon CMOS compatibility. Test structures with size of 50 Â 50 μm 2 and different thermal isolation designs are characterized under IR radiation (0.7-20 μm) in a frequency range of 5-100 Hz. From voltage responsivity and noise measurements, the specific detectivity is calculated achieving values of 1 Â 10 8 cm Hz 1/2 W À1 and thermal response time of 8-9 ms under 150 nA bias current. The above characteristics make those devices very suitable for the development of infrared focal plane arrays (IRFPAs).

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A Far Infrared VGA Detector Based on Uncooled Microbolometers for Automotive Applications

Weiler

Ruß

Würfel

et al. 2011

Advanced Microsystems for Automotive Applications 2011

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The geometric design of microbolometer elements for uncooled focal plane arrays

Cited by 9 publications

References 9 publications

Noise of short-time integrators for readout of uncooled infrared bolometer arrays

Noise of short-time integrators for readout of uncooled infrared bolometer arrays

Performance Characterization of Infrared Detectors Based on Polymorphous Silicon‐Germanium (pm‐Si_xGe_1−x:H) Thin Films Deposited at Low Temperature

A Far Infrared VGA Detector Based on Uncooled Microbolometers for Automotive Applications

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The geometric design of microbolometer elements for uncooled focal plane arrays

Cited by 9 publications

References 9 publications

Noise of short-time integrators for readout of uncooled infrared bolometer arrays

Noise of short-time integrators for readout of uncooled infrared bolometer arrays

Performance Characterization of Infrared Detectors Based on Polymorphous Silicon‐Germanium (pm‐SixGe1−x:H) Thin Films Deposited at Low Temperature

A Far Infrared VGA Detector Based on Uncooled Microbolometers for Automotive Applications

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Product

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Performance Characterization of Infrared Detectors Based on Polymorphous Silicon‐Germanium (pm‐Si_xGe_1−x:H) Thin Films Deposited at Low Temperature