MWIR Camera Module + Continuous Zoom Lens

Neutrino® Ground ISR Series

Model: Neutrino LC - ISR 20-420

The Neutrino Ground ISR series provides turnkey solutions for integrators developing intelligence, surveillance, and reconnaissance (ISR) systems. The cameras combine Teledyne FLIR’s world-class mid-wavelength infrared (MWIR) camera modules and continuous zoom (CZ) lenses with market-leading image processing and control electronics from InVeo Designs LLC. Each camera offers high-performance imaging, a reliable long-life linear cooler, and a low switching cost to upgrade existing systems. The factory-integrated and optimized MWIR imaging systems from a single source provide market-leading performance while reducing development risk, cost, and time to market.

Overview

Product

Brochure

Neutrino Series Brochure

Datasheet

Neutrino Ground ISR Series Datasheet

Highlights

Turnkey Solution for Integrators

DRIVES HIGH SYSTEM-LEVEL PERFORMANCE

The right focal lengths, MWIR HD or SD cameras with long-life linear coolers and fully integrated CZ optics maximize DRI while providing best-in-class MTTF and warranty.

DESIGNED FOR INTEGRATORS

Industry-adopted AgileCore™ imaging electronics with integrated MWIR camera and CZ lens offer optimum performance and compatibility.

TELEDYNE FLIR QUALITY, VALUE, AND REPUTATION

The performance, reliability, and support expected from Teledyne FLIR and the industry’s most versatile HD MWIR camera portfolio.
Teal 2 sUAS Overview feat. Hadron 640R
Advances in MWIR Camera and CZ Lens Technology

Newly available off-the-shelf MWIR with CZ lens solutions can potentially reduce the schedule by up to 85 percent, saving integrators potentially two years or more of development time.

THE POWER OF NEUTRINO

Offering SWaP+C optimized VGA, SXGA, and QXGA resolution camera modules, with long-life/low-vibration linear coolers, common camera interfaces, and various CZ lens combinations, Teledyne FLIR’s ITAR-Free portfolio provides the best solution.

Prism

The end-to-end computational imaging ecosystem that supports various AI-powered object detection and tracking capabilities and advanced image processing.

Off-The-Shelf & Custom
Lens Solutions

Not seeing what you need, customize your camera module with a Teledyne FLIR lens.

Understanding Cryocooled Infrared System Reliability

Learn about the history and different types of cryocoolers, common misunderstandings about their reliability, and what we’re doing to improve cryocooler lifetimes.

Specifications

PARAMETERS DESCRIPTION
Spectral Band 3.4 – 5.1 µm

Hardware

Part Number 425-0403155-C643

Imaging & Optical

Aperture f/5.5
Boresight Drift Through Zoom <0.10 mm Radially from Co-Boresight Location
Color Palettes Monochrome (3 Palettes) False Color (11 Palettes) True Color (3 Palettes) for Splash Screen Normal or inverted display polarity
Cooler Teledyne FLIR FL-100 Linear Stirling
Cooler MTBF Up to 27,000 Hours
Detection Recognition and Identification (DRI) The detection, recognition, and identification (DRI) probabilities are modeled using the industry-standard NV-IPM passive sensor modeling tool. The NV-IPM model results are for the NFOV zoom position with a target dimension of 3.1 m and temperature of 4.0K. V50 is the range at which there is a 50% probability of achieving the task. Detection – 18.8 km
Recognition – 8.1 km
Identification – 6.3 km
Digital Zoom 1X/2X/4X Edge Preserving
Drifting Pixel Filter Excessive magnitude with respect to 8 nearest neighbors
Focal Length 20-420 mm, HFOV 27.50° to 1.30°
Focus Motorized, Focus to Specified Distance, Focus to Infinity, Commanded / Continuous Autofocus
Full Frame Rate 30 Hz
LAP/LACE Local Area Processed Dynamic Contrast Expansion with user adjustable background level and foreground boost
Lens Type 21x Continuous Zoom Maintain Focus Through Zoom
Min to Max Zoom Time <2 seconds
Non-Uniformity Correction (NUC) Factory Calibrations: Two point (gain/offset), One-point update (optimizes offset), Defective / noisy pixel detection, 8 Op Modes with 2 NUC tables each Operational (Run-Time) Calibrations: One-point refresh
Pixel Pitch 15 µm
Sensor Material HOT MWIR
Spectral Band 3×3 Median Filter, 3×3 Gaussian Noise Reduction Filter, 5×5 Gaussian Noise Reduction Filter
Sensor Material 3.4 – 5.1 µm
Thermal Imager 640 x 512 Pixels
Zoom and Focus Controls Motorized, Zoom and Focus

Connections & Communications

Communication RS-422 UART COM, up to 921,600 Baud
Dual Simultaneous Outputs Camera Link (Base) Output (14-bit NUC Corrected at Full Frame Format): 30 Hz Optional Gigabit Ethernet Display Output Options (10-bit (14 optional) fully processed video) (SelectOne): NTSC PAL

Electrical

Center of Gravity See Mechanical IDD
Input Power 12.5 VDC @ 0.7A nominal, 1.1A peak at cooldown
Thermal Extraction Method Heat sink, see IDD

Mechanical

Size (L x W x H) Length: 20.3 cm (8”) Lens Diameter: 8.9cm (3.5”)
Water Ingress Front element sealed to IP-66 No Housing (Open Frame)
Weight 1200 grams (2.65 lbs)

Environmental & Approvals

Operating Temperature Range -40 °C to +71 °C (-40 °F to 160 °F)
Storage Temperature Range -57 °C to +80 °C (-65 °F to 176 °F)

Export Designations

ECCN Code 6A003.b.4.a

Accessories

Media gallery

Simplify MWIR Camera Integration with Neutrino

SPIE DCS 2023 – Neutrino Series
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