LATTICE Camera:<br/>3.2MP MONO<br/>41° Lens - F950 Filter<br/>LATT-M3M-L41-F950

The LATT-M3M-L41-F950 captures one precise spectral band centered at 950nm (934–966nm, 32nm FWHM) on a 3.2MP monochrome global shutter sensor — a single, dedicated spectral channel with no Bayer color filter array, in a 29×29×64mm, 93-gram, IP67-rated package. A single Ethernet cable delivers power, data, and camera control via GigE Vision v2.0 and Power over Ethernet (POE), making deployment as simple as running one cable. No external power supply, no proprietary drivers. LATTICE cameras are designed to work with Chloros, MAPIR's multispectral processing software, which handles everything from capture and calibration to reflectance index output. The GigE Vision standard also means the raw image stream is accessible to third-party tools like HALCON, LabVIEW, or MATLAB for custom integration workflows. One Band, Pure Signal The F950 narrowband filter passes a single, precise wavelength range (934–966nm) to the monochrome Sony IMX265 CMOS sensor. Because the sensor has no Bayer color filter array, every pixel captures that band directly — delivering full sensor resolution and maximum light sensitivity at your chosen wavelength, with no demosaicing and no cross-channel contamination. The result is the cleanest possible measurement of how a surface reflects light at 950nm. A single, well-defined band is the building block of multispectral imaging. Measuring how a surface reflects one specific wavelength — and comparing it against others — reveals information invisible to conventional cameras. The most widely used application is vegetation indexing: indices like NDVI combine a Red band with a Near-Infrared band to quantify plant health, vigor, and stress over time. Because each M3M carries the exact filter you select, you choose the precise wavelengths your work demands and combine modules into the spectral set that fits your application — from environmental and greenhouse monitoring to water quality assessment, forestry, land use classification, and industrial inspection. Built to Last The sealed IP67 housing withstands rain, dust, UV exposure, and temperature swings from −20°C to 55°C. Shock and vibration ratings meet DIN EN 60068 standards, and industrial EMC immunity is rated to 8kV ESD. At 3.1 watts, the camera runs comfortably from any standard PoE source, including solar and battery-powered field nodes. The global shutter freezes motion across the entire frame simultaneously — critical for drone-mounted imaging, moving platforms, and any scenario where even slight rolling-shutter distortion would compromise pixel-level band registration across modules. Calibrated Reflectance, Not Just Pretty Pictures LATTICE cameras are designed to produce quantitative reflectance data, not just images. Pair the camera with a MAPIR DAQ light sensor and Chloros automatically computes percent reflectance from every capture — no reflectance calibration target required in your scene. No manual calibration math, no external software workflow. The DAQ measures incoming illumination in real time, and Chloros incorporates that measurement into the reflectance calibration on every frame. This keeps your reflectance data accurate as lighting conditions shift throughout the day and across seasons — essential for continuous monitoring and any long-term environmental dataset. Scales Into Multi-Band Arrays A single LATT-M3M gives you one spectral band. When your application demands more, multiple LATTICE modules — each carrying the filter you choose — combine into synchronized arrays using LATTICE frames, heatsinks and sunshades. Build exactly the multispectral set your work requires — Red plus NIR for NDVI, add Red Edge for NDRE, or any combination across the available bands. Modules connect via LATTICE sync cables and capture simultaneously with less than 100μs offset between sensors. The global shutter ensures pixel-accurate band registration across all modules, even on moving platforms. The result is a scalable, high-resolution multispectral sensor — start with a single band and expand as your spectral requirements grow. Processing with Chloros Every LATTICE camera ships ready to work with Chloros, MAPIR's multispectral processing platform. Chloros handles the entire pipeline from raw sensor data to calibrated, publication-ready output — and it's designed so the hardware and software work as a single integrated system. Add a MAPIR DAQ ambient light sensor to your deployment and Chloros computes per-channel percent reflectance directly from its continuous illumination measurement — no reflectance calibration target required in your scene. Outdoors, this corrects for changing sun angle, cloud cover, and seasonal variation in real time. In controlled-environment settings — greenhouses, growth chambers, indoor farms, laboratory benches — the DAQ serves a different but equally important role: it gives you a precise, continuous measurement of your artificial lighting, so you can tune intensity and spectrum to match the exposure and spectral requirements of your LATTICE cameras. Whether you're working under sunlight or LEDs, the DAQ ensures your reflectance data is grounded in a known illumination reference. The result is absolute reflectance data you can compare across sessions, facilities, and seasons — not relative intensity values locked to a single capture. From there, Chloros computes 24+ vegetation and environmental indices — NDVI, NDRE, GNDVI, EVI, SAVI, and more — with auto exposure balancing, vignette correction, and flexible output to 16-bit or 32-bit float TIFF for GIS and photogrammetry workflows. The free Chloros desktop application supports up to 4 LATTICE modules on Windows with a full graphical interface. A Chloros+ subscription unlocks multi-threaded and GPU-accelerated processing, support for higher camera counts, custom index formulas, and cross-platform CLI and Python SDK access on both Windows and Linux — including native support for NVIDIA Jetson edge devices for field, laboratory, and airborne processing. Whether you're running a single monitoring station, instrumenting a growth chamber, or scripting overnight batch processing across hundreds of datasets, Chloros scales with your deployment. LATT-M3M-L41-F950 Specifications: Sensor Model Sony IMX265 CMOS (Monochrome) Shutter Type Global Sensor Size 8.9 mm (Type 1/1.8″) Resolution 2048 x 1536 px, 3.2 MP Pixel Size 3.45 µm (H) x 3.45 µm (V) Framerate 35 FPS @ 3.2 MP (Crop to ROI = Faster) Image Buffer 128 MB Pixel Format Mono8, Mono10, Mono12, Mono16, QOI_Mono8 Image Modes Horizontal and vertical binning, decimation, ROI, horizontal and vertical flip Image Formats TIFF (8/16-bit lossless), PNG (8-bit lossless), JPEG (8-bit) ADC 12 bit Gain Range 0 dB to 48 dB analog and digital Exposure Time / Shutter Speed 30.25 μs (1/33,000 s) to 10 s Auto Exposure? Yes Lens Focal Length 9.6 mm 35mm Equivalent Focal Length 46.08 mm Aperture (f-stop) 3.0 Field of View (Diagonal) 51° Field of View (Horizontal) 41° Field of View (Vertical) 31° Distortion < -2% Lens Structure All Glass Dimensions 29 x 29 x 64 mm Weight 93 g Ingress Protection IP67 Digital Interface 1000BASE-T GigE (8 Pin M12 X-Coded), PoE Trigger Interface GPIO Hardware Trigger (Module to Module, Master -> Slaves) Sync Interface 8 Pin M8 (See LATTICE Sync Cables) Module Sync < 100us Power Requirement PoE (IEEE 802.3af) Power Consumption 3.1W via PoE Communication Standard GigE Vision v2.0 Compliance CE, KC, FCC, RoHS, REACH, WEEE Storage Temperature -30 to 60°C Operating Temperature -20 to 55°C ambient Humidity Operating: 20% ~ 80%, relative, non-condensing Shock & Vibration DIN EN 60068-2-27, DIN EN 60068-2-64, DIN EN 60068-2-6 Industrial EMC Immunity DIN EN 61000-6-2 ESD 8kV Warranty 3 year (parts and labor) Dynamic Range 71.78 dB SNR (Max) 40.22 dB Saturation Capacity 10521 e- Absolute Sensitivity Threshold (Measured at 527.5nm unfiltered) 3.93 γ Temporal Dark Noise 2.07 e- Gain 0.37 DN / e- Dark Current 2.96 e- / s Dark Signal Non-Uniformity 0.58 e- Photo Response Non-Uniformity 0.61 % Linearity Error Max/Min 0.22/-0.48 % Camera Core Manufacturer LUCID Vision Labs Inc. Camera Core Country of Origin Canada Country of Final Assembly United States of America (USA) NDAA Compliant? Yes F950 Filter Specifications: Center Wavelength 950 nm Bandwidth (FWHM) 32 nm Transmission Range (FWHM) 934–966 nm Transmission Data DOWNLOAD HERE Available M3M Filter Bands: [[spectral-m3m-chart]] Each LATT-M3M module ships with a single narrowband filter. Select the band that matches your application — and combine multiple modules to build a custom multi-band set. M3M FWHM (min) FWHM (max) FWHM (width) F350 342 358 16 F385 369 393 24 F405 400 415 15 F450 429 459 30 F485 473 497 24 F520 504 535 31 F550 535 565 30 F590 574 606 32 F615 603 624 21 F632 625 655 30 F650 641 672 31 F685 674 698 24 F715 706 724 18 F725 712 735 23 F750 736 767 31 F780 762 796 34 F808 801 815 14 F832 822 846 24 F850 835 865 30 F880 867 893 26 F905 892 920 28 F940 905 965 60 F950 934 966 32 F995 975 1015 40