ROICs - 2-Dimensional ROICs

All Products (10) Grid view List View

FLIR ISC9705

Mid-format readout integrated circuit (ROIC) optimized for Indium Antimonide (InSb), Type-II strained-layer superlattice (T2SLS) and Quantum Well (QWIP) infrared detectors.

The ISC9705 was the first off-the-shelf, standard multiplexer introduced to the market. Since its introduction in October 1997, detector manufacturers across the globe have purchased the ISC9705 for building infrared focal plane arrays. This high-performance, 320 × 256 pixel, 30-micron pitch readout integrated circuit is built using a submicron complementary metal-oxide-silicon (CMOS) process, delivered in 6-inch wafer form. Devices are tested and delivered to customers in wafer form with an extensive set of user documentation.

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FLIR ISC9809

Mid-format readout integrated circuit (ROIC) optimized for Indium Gallium Arsenide (InGaAs) infrared detectors

The ISC9809 is a 320 × 256 format, 30-micron pitch ROIC, specifically designed for low background applications. A CTIA front end circuit is used and the readout noise in the high gain mode is less than 70 electrons. This mid-format ROIC supports the same advanced features as the other standard ROICs, snapshot mode, adjustable integration time and gain, skimming, power and current adjustments, and additionally supports selectable integration capacitors (0.17M or 3.5M electrons).

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FLIR ISC0403

Large format readout integrated circuit (ROIC) optimized for Indium Antimonide (InSb) and Type-II strained-layer superlattice (T2SLS) infrared detectors

The ISC0403 is a 640 × 512 format ROIC with a 15-micron pixel pitch. Used with P-on-N detectors, this ROIC offers the same advanced features as our other standard designs including windowing, adjustable gain, snapshot integration integrate-then-read and integrate-while-read modes, power adjustment, and multiple output channels allowing data rates of up to 120 frames/sec for full frame operation and 2054 frames/sec for small window sizes. The charge capacity is >6.5M electrons and the bias adjustment is 600mV.

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FLIR ISC1202

Large format readout integrated circuit (ROIC) optimized for Indium Gallium Arsenide (InGaAs) infrared detectors

The ISC1202 is a 640 × 512 format, 15-micron pitch ROIC optimized for low background applications. A CTIA front end circuit is used and the readout noise in the high gain mode is less than 35 electrons. Compatible with P-on-N detectors such as InGaAs, SLS and MCT, this large format ROIC supports the same advanced features as the other standard ROICs, snapshot mode, adjustable integration time and gain, power and current adjustments, and additionally supports 3 selectable integration capacitors (41K, 118K or 1.38M electrons).

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FLIR ISC0309

Large format readout integrated circuit (ROIC) optimized for Indium Antimonide (InSb) and Quantum Well (QWIP) infrared detectors

The ISC0309 is the replacement device for the ISC9803 and is form, fit and function the same large format ROIC. Compatible with P-on-N detectors such as InSb, QWIP, InGaAs, and MCT, this 640 × 512 format, 25-micron pitch is the big brother to our ISC9705 device. It offers the same set of advanced features such as windowing, adjustable gain, snapshot integration, interlaced/non-interlaced readout, power adjustment, as well as multiple output channels allowing date rates of up to 107 frames/sec for full frame operation and 14,160 frames/sec for small window sizes.

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FLIR ISC0404

Mega-pixel format readout integrated circuit (ROIC) optimized for Indium Antimonide (InSb), Type-II strained-layer superlattice (T2SLS) and Quantum Well (QWIP) infrared detectors

The ISC0404 is a 1024 × 1024 format ROIC with 18-micron pixel pitch. Designed for use with P-on-N detectors such as InSb, InGaAs, and T2SLS detectors, this array offers the same advanced feature set as all of our standard designs, including multiple output channels allowing data rates of up to 120 frames/sec for full frame operation and 2054 frames/sec for small window sizes. The charge capacity is >10M electrons and the bias adjustment is 600mV.

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FLIR ISC0802

HD format readout integrated circuit (ROIC) optimized for Indium Antimonide (InSb) infrared detectors

The ISC0802 is a 1344 × 784 format, 14-micron pixel device designed for use with low reverse bias detectors such as InSb or MCT. This HD format ROIC can operate in 4, 8 or 16 output mode, achieving a 120 Hz frame rate in 16-output mode. The ISC0802 supports windowing, adjustable integration time, integrate-while-read or integrate-then-read modes as well as adjustable bias and power settings.

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FLIR ISC1308

Dual Polarity 2-Color, HD 1280 × 1024, 12 micron pitch

The ISC 1308 is a dual polarity, dual band 1280 × 1024 format, 12-micron pitch ROIC. This ROIC can be operated as a dual or single-color device. The ROIC has been specifically designed to allow for both polarities of detectors to be placed back-to-back and to connect to the ROIC through the one input pad to obtain a two-color image. The ISC1308 supports multiple output mode, windowing, adjustable integration time and mode, two integration capacitors and adjustable bias settings.

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FLIR ISC1901

Mega-pixel 2K × 1.5K readout integrated circuit (ROIC) optimized for Indium Antimonide (InSb), Type-II strained-layer superlattice (T2SLS) and Quantum Well (QWIP) infrared detectors

The ISC1901 is a 2048 × 1536 format, 10-micron pitch device designed for P-on-N detectors with a direct injection input circuit. The ISC1901 supports single sample or sub-frame averaging for effective well fill of 3 to 19M electrons, respectively. The selectable settings allow user control of modes such as 2 × 2 binning, 8 or 16 output channels and additional reverse bias for QWIP detectors. Teledyne FLIR’s familiar user interface makes system integration straightforward.

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FLIR ISC1902

Mega-pixel 2K × 2K readout integrated circuit (ROIC) optimized for Indium Antimonide (InSb), Type-II strained-layer superlattice (T2SLS) and Quantum Well (QWIP) infrared detectors

The ISC1902 is a 2048 × 2048 format, 10-micron pitch device designed for P-on-N detectors with a direct injection input circuit. The ISC1902 is the big brother to the ISC1901 and supports all the same features with higher resolution. This includes single sample or sub-frame averaging for effective well fill of 3 to 19M electrons, respectively. The selectable settings allow user control of modes such as 2 × 2 binning, 8 or 16 output channels and additional reverse bias for QWIP detectors. Teledyne FLIR’s familiar user interface makes system integration straightforward.

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