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| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | BLIQ |
| Temperature Range | –40 °C to +170 °C (standard), optional –30 °C to +100 °C or –30 °C to +170 °C |
| Temperature Resolution | 1 mK |
| Emissivity | 0.97 ± 0.01 |
| Temperature Uniformity | < 0.002(T–25) + 0.02 °C (over 90% of emitter area) |
| Temperature Stability | ±2 mK @ ΔT = 10 °C (BLIQ-4D), ±3 mK @ ΔT = 10 °C (BLIQ-12D) |
| Heating/Cooling Rate | 0.4 °C/s at 25 °C (heating), 0.2 °C/s at 25 °C (cooling) |
| Stabilization Time | < 50 s (BLIQ-4D), < 120 s (BLIQ-12D) |
| Interface | RS-232 or USB 2.0 (optional) |
| Power Supply | 110–230 VAC, 50/60 Hz |
| Max. Power Consumption | 1400 W |
| Operating Ambient | 5–40 °C |
| Storage Ambient | –10–60 °C |
| Relative Humidity | ≤95% RH (non-condensing) |
| Weight | blackbody unit only — specified per configuration (BLIQ-4D / BLIQ-12D) |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | OPO |
| Key Parameters | Resolution (0–2.5×M lp/mrad), MTF (on-axis & off-axis), Magnification, Distortion (<20%), FOV (up to 30°), Vignetting (relative uncertainty ≤3%), Exit Pupil Distance (0–10 mrad, ±0.1 mrad), Exit Pupil Diameter, Diopter Range (±X mrad), Parallax Measurement Capability |
| Compliance | Designed for ISO 10110-5, MIL-STD-1472G, and NATO AEP-97 optical test protocols |
| Software | TOPO v3.x with GLP-compliant audit trail, FDA 21 CFR Part 11–ready configuration options |
| Imaging | Dual-camera architecture (IM-PO & IM-TR) synchronized with TG-OP target generator and CPO-series collimators |
| Mechanical | MP-A/MP-B/MP-C precision motorized platforms with sub-arcminute repeatability |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | TAIM |
| Application | Optical performance evaluation of thermal weapon sights and thermal imager clamps |
| Core Modules | DT120 test platform (image projection & analysis), Picatinny rail fixture, dual HEC high-resolution infrared cameras, AHEC adapter ring, YNAS10 angular adjustment stage, DPM diopter meter, AT720 optical bench |
| Max Tested Device Aperture | ≤120 mm |
| Measurement Capabilities | MRTD (Minimum Resolvable Temperature Difference), diopter adjustment range & scale accuracy, eyepiece diopter calibration, focus-induced image shift (optional) |
| Compliance | Designed for ISO 12233-based spatial resolution protocols and ASTM E1213-22 for thermal imaging system characterization |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | LOF |
| Light Source | DAL Series |
| Projection System | CLO3075 |
| Target Set | Five-Contrast USAF 1951, Knife-Edge, Distortion/FOV Targets |
| Light Spectrum | 400–1100 nm (calibrated to DUT spectral response) |
| Luminance Range | 30 µcd/m² – 3 kcd/m² |
| Illuminance Simulation Range | 100 µlx – 10,000 lx |
| Color Temperature Modes | 2856 K (halogen), 5000 K (white LED) |
| Uniform Aperture Diameter | 250 mm |
| Total System Mass | 22 kg |
| Dimensions (W×D×H) | 350 × 350 × 1100 mm |
| Operating Temperature | 5–40 °C |
| Storage Temperature | 5–55 °C |
| Relative Humidity | Up to 95% RH (non-condensing) |
| Power Supply | AC 230 V / 110 V (DC 12 V optional) |
| Video Input Interfaces | PAL, NTSC, FireWire, USB 2.0 |
| Control Interface | RS-232 / USB 2.0 |
| Software | TAS-V Test Automation Suite, DAL Light Source Control Software |
| Test Capabilities (LOF-A) | Resolution, Minimum Resolvable Contrast (MRC) |
| (LOF-B) | Adds MTF, Sensitivity, Noise Equivalent Irradiance (NEI), Fixed Pattern Noise (FPN), Non-Uniformity, SNR, Geometric Distortion, Field of View (FOV) |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | LTE |
| Wavelength Support | 910 nm, 1060 nm, 1540 nm, 1550 nm, 1570 nm |
| Target Angular Size Adjustment Steps | 0.25, 0.5, 0.75, 1.0, 1.5, 2.0, 4.0 mrad |
| Optical Aperture | Two 70 mm incomplete circular channels |
| Detector Type | Calibrated ultrafast InGaAs photodiode |
| Interface | USB 2.0 |
| Operating Temperature | +5 °C to +35 °C |
| Storage Temperature | −5 °C to +50 °C |
| Relative Humidity | Up to 95% (non-condensing) |
| Dimensions (H × L × W) | 350 mm × 1500 mm × 445 mm (main module + platform) |
| Weight | ~59 kg (main module + platform + 10 kg auxiliary modules + PC) |
| Brand | Optec |
|---|---|
| Origin | Beijing, China |
| Manufacturer Type | Authorized Distributor |
| Country of Origin | China |
| Model | FN-T50 |
| Price Range | USD 70,000 – 112,000 |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | TRAL |
| Spectral Range | 400 nm – 14,000 nm (UV–VIS–NIR–SWIR–MWIR–LWIR) |
| Radiation Sources | HB Halogen Lamp (VIS–SWIR), BB1200 Micro Blackbody (MWIR–LWIR) |
| Monochromator | MGM250 Multi-Grating |
| Modulation | OM25 Optical Chopper |
| Filter Wheel | RW-EF (Edge Filters), RW-AT (Attenuators) |
| Reference Detectors | Spectrally Matched Set |
| Software-Controlled Automation | Full PC Integration with DICO Digital Oscilloscope & Custom Test Suite |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | TM-1000 |
| Thermocouple Types | Type N (Metal-Sheathed), Type S (Ceramic-Sheathed) |
| Temperature Range (Type N) | 100 °C to 1010 °C (short-term up to 1050 °C) |
| Temperature Range (Type S) | 600 °C to 1510 °C (short-term up to 1550 °C) |
| Resolution | 0.01 °C (10 mK) |
| Measurement Uncertainty | ±0.6 °C (≤250 °C, Type N), ±1.2 °C (≤750 °C, Type N), ±1.5 °C (≤1000 °C, Type N) |
| Temperature Units | °C, K, °F |
| Power Supply | 5 V DC via USB |
| Max. Power Consumption | 1 W |
| Connector | USB-B |
| Interface Standard | USB 2.0 |
| Communication Protocol | SCPI-compliant |
| Operating Environment | 10 °C to 40 °C (non-condensing), Storage: −10 °C to 60 °C |
| Controller Dimensions | 110 × 55 × 38 mm |
| Probe Dimensions (N) | Ø3 mm × 400 mm |
| (S) | Ø6 mm × 400 mm |
| Cable Length | 1.5 m |
| Weight | 400 g per set |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | IMAG |
| Configuration Options | IMAG-A, IMAG-A+, IMAG-B |
| Key Measured Parameters | SNR (10–35 @ 0.108 mlx, ±8%), Resolution (4–120 lp/mm, ±3%), MTF (0–60 lp/mm, resolution-dependent uncertainty), Halo (0.2–1.5 mm, ±10%), Effective Cathode Diameter (10–25 mm, ±2%), Bright/Dead Spot Detection (75–500 µm, ±8–12%), Gain (1,000–100,000, ±8%), EBI (0.02–2 lx, ±10%), Max Output Brightness (0.3–20 cd/m², ±4%), Tube Current Consumption (1–100 mA, ±1% or ±0.3 mA), Photocathode Spectral Sensitivity (200–2000 µA/lm, ±7%), Radiant Sensitivity (10–100 mA/W, ±7%) |
| Light Sources | Dual-mode — calibrated 2856 K halogen lamp (photometric measurements) and monochromatic LED (imaging parameter evaluation) |
| Throughput | IMAG-A: 12 tubes/hour (full 17-parameter test in ≤25 min/tube) |
| IMAG-B | 8 tubes/hour (bare + packaged) |
| IMAG-A+ | manual bare-tube photocathode testing (~45 min/tube) |
| Compliance | ISO/IEC 17025-compatible reporting |
| Safety & Integration | Integrated HV power supply (HVP142C for IMAG-B), custom adapter support for non-standard bare-tube geometries and pinouts |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | SIMTERM |
| Price Range | USD 27,000 – 41,000 (based on EUR/USD exchange and typical import markup) |
| Application Domain | Infrared System Simulation, Thermographic Training & IR Sensor Design Support |
| Compliance Context | Supports ISO 18434-1 (condition monitoring), ASTM E1934 (infrared inspection standards), and GLP-aligned training documentation workflows |
| Brand | TRIOPTICS |
|---|---|
| Origin | Germany |
| Model | OptiCentric® |
| Compliance | ISO 10110-5, ISO 10110-12 |
| Measurement Principle | Dual-beam autocollimation and image centroid analysis |
| Optical Configuration | Collimated dual-path interferometric alignment |
| Typical Repeatability | < 0.5 arcsec (standard configuration) |
| Software Platform | OptiCentric Control v6.x |
| Data Export Formats | CSV, XML, PDF, SPC-compatible |
| Regulatory Conformance | CE, RoHS, FDA 21 CFR Part 11–ready audit trail (optional), GLP/GMP-compliant reporting modules |
| Key | Brand: Inframet |
|---|---|
| Origin | Poland |
| Model | IR Target Standard |
| Target Dimensional Tolerance | ±0.012 mm (for features ≥ 0.125 mm) |
| Compliance | ISO 12233, ASTM E1212, MIL-STD-461G (EMI compatibility per system integration) |
| Brand | TRIOPTICS |
|---|---|
| Origin | Germany |
| Model | ImageMaster® HR |
| Configuration | Vertical Benchtop System |
| Measurement Principle | Monochromatic Laser-Based Imaging & Fourier Analysis of Point/Line Spread Functions |
| Compliance | Traceable to ISO 10110-5, ISO 9013, DIN EN ISO/IEC 17025 |
| Software Platform | OptiCentric® Suite v8.x with FDA 21 CFR Part 11–Ready Audit Trail & Electronic Signature Support |
| Automation Level | Fully Motorized (6-Axis Precision Stages), Integrated LED/Laser Target Generator |
| Sample Handling | Manual Loading for Lenses ≤ φ50 mm |
| Reporting | Exportable PDF/CSV Reports with MTF Curves, PSF/LSF Maps, EFL/FFL/Distortion Grids, and PTF Phase Residuals |
| Brand | Optoprecise |
|---|---|
| Model | GW-T100 |
| Detector Type | Uncooled VOx Microbolometer (LWIR) |
| Resolution (IR) | 640 × 512 |
| Pixel Pitch | 17 µm |
| Spectral Range | 7.5–13.5 µm |
| NETD | < 50 mK @ f/1.0 |
| IR Lens | 20–100 mm Continuous Zoom (FOV: 30.4°×24.5° to 6.2°×5.0°) |
| Visible Camera | 2.1 MP Progressive Scan 1/2.8" CMOS |
| Resolution (Vis) | 1920×1280 @ 25 fps |
| Low-Light Sensitivity | 0.001 Lux (Color), 0.0001 Lux (B/W) |
| Optical Zoom | 6–210 mm (35×) |
| Pan/Tilt Range | Continuous 360° Pan, ±90° Tilt |
| Max Slew Speed | 100°/s (Pan), 60°/s (Tilt) |
| Stabilization | Dual-Axis Gyroscopic |
| Stabilization Accuracy | ≤ 0.1° |
| Environmental Rating | IP66 |
| Operating Temp | −30°C to +60°C |
| Power | 24 VDC, ≤ 100 W |
| Video Output | 1× SDI, Dual Network Streams |
| Control Interface | RS-422 or RJ45 Ethernet |
| Optional Features | Eye-Safe 1.54 µm Er:Glass Laser Rangefinder (≥4 km, ±2 m), Target Tracking (5-pixel accuracy, manual/auto lock) |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | SPOT |
| Price Range | USD 68,000 – 109,000 (based on exchange rate and configuration) |
| Sensor Type | Cooled MWIR FPAs |
| Spectral Range | 1.0–5.5 µm |
| Spot Power | ≥4 mW |
| Spot Diameter (FWHM) | <6 µm |
| Pixel Size Compatibility | ≥8 µm (optional down to <8 µm) |
| FPA Format Support | SXGA (1280 × 1024) |
| Responsivity | >0.1 A/W |
| XY Scan Range | ≥10 × 10 mm |
| Coarse Scan Resolution | 2.5 µm |
| Fine Scan Resolution | 0.5 µm |
| Focus Travel | 18 mm |
| Focus Resolution | 0.5 µm |
| Environmental Operating Temp | +5 °C to +35 °C |
| Storage Temp | −5 °C to +55 °C |
| Max Operating Humidity | 85% RH (non-condensing) |
| Interface | USB 2.0/3.0, PC-controlled |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | SIT |
| Spectral Range | 400–2200 nm |
| Temperature Operating Range | +5 °C to +35 °C |
| Storage Temperature Range | −5 °C to +55 °C |
| Relative Humidity | ≤90% RH (non-condensing) |
| Weight | 58 kg |
| Dimensions | 173 × 43 × 28 cm |
| Core Modules | SITO Tunable Calibration Source + IPS Image Processing System |
| Measured Parameters | Relative Spectral Responsivity, Radiometric Responsivity, Noise-Equivalent Irradiance (NEI), Specific Detectivity (D*), Spatial Noise |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | COS |
| Price Range | USD 42,000 – 70,000 |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | LM-1 |
| Brightness Range | 30 mcd/m² to 500 kcd/m² |
| Photodetector | Silicon photodiode with CIE V(λ)-matched correction filter |
| Spectral Match Accuracy | Within 10% of CIE photopic luminosity function V(λ) |
| Aperture Diameter | 7 mm |
| Field of View | 10° |
| Dark Current Error | < 0.1% at readings < 4 |
| Resolution | 1 digit / 1999 counts full scale |
| Measurement Uncertainty | ±2% (with included calibrated probe) |
| Power Supply | 12 V DC / 300 mA (AC adapter: 100–240 V AC → 12 V DC / 3 A) |
| Operating Temperature | +5°C to +35°C (optional: −5°C to +45°C) |
| Dimensions (H×W×D) | 220 × 140 × 80 mm |
| Weight | 0.5 kg |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | NIGHTMET |
| Application Domain | Image Intensifier Resolution & MTF Characterization Training & Validation |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | DT |
| Configuration Options | DT100 (short-range), DT150 (mid-range), DT400 (long-range) |
| Application Scope | Laboratory & Armory-Based IR Camera Characterization, VIS-NIR Camera Testing, Multi-Sensor Boresighting |
| Compliance Framework | ASTM E1213, ISO 18434-1, MIL-STD-3009 (applicable modules), FDA 21 CFR Part 11–ready software architecture (TAS v5.2+) |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | DTR |
| Spectral Range | LWIR 8–14 µm |
| Image Acquisition Options | Analog (PAL/NTSC), Camera Link (CL), GigE Vision, LVDS, HD-SDI, HDMI, SPI, UART |
| Measured Parameters | MRTD, MTF, SiTF, NETD, FPN, Non-Uniformity (NU), FOV, RCOL, SRF, ATF, SNR, MDTD, Auto-MRTD, PVF, 3D Dead Pixel Map, Response Function |
| Blackbody Temp. Range | 0 °C to ambient +20 °C (ΔT = –20 °C to +20 °C), Emissivity: 0.98 ± 0.005 (blackbody), 0.97 ± 0.01 (target wheel) |
| Temp. Uncertainty | 0.001 × |
| Target Wheel | Ø54 mm, configurable targets (slit, knife-edge, crosshair) |
| Optical Path | RCOL430L (Ø40 mm, >93% transmission, 8–14 µm) or RCOL210L/M (Ø20 mm, 8–14 µm or 3–5 µm) |
| Spatial Resolution | >3 lp/mrad (RCOL430L, >93% transmittance) |
| Control Interface | USB 2.0 |
| Software Support | TCB (Thermal Camera Bench), TAS (Thermal Analysis Suite), SUB-T module |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | HTB-25D-1200 |
| Aperture | 25 mm (35 mm optional) |
| Emissivity | >0.995 |
| Temperature Range | 100–1200 °C |
| Temperature Resolution | 0.1 °C ≤1000 °C |
| Temperature Uncertainty | ±0.25 °C or ±1 °C (whichever greater) |
| Short-term Stability | ±1 °C |
| Long-term Stability | ±1.5 °C |
| Uniformity at 800 °C | ±1.5 °C (25 mm aperture), ±2.5 °C (35 mm aperture) |
| Warm-up Time | <80 min |
| Power Supply | 230 V AC (110 V optional) |
| Dimensions | 403 × 712 × 292 mm |
| Weight | 23 kg |
| Brand | Optoprobe |
|---|---|
| Model | GW-IR |
| Detector Type | Uncooled Vanadium Oxide (VOx) Microbolometer |
| Spectral Band | 7.5–13.5 µm |
| NETD | <50 mK |
| IR Resolution | 640 × 512 |
| Visible Camera | 3840 × 2160 (4K), FOV 55.6° × 40.3° |
| IR Frame Rate | 30 Hz full-frame |
| IR Lens Options | 13 mm (33.0° × 26.0°), 19 mm (22.0° × 18.0°), 55 mm (8.0° × 6.4°) |
| Temperature Range | −20 °C to +150 °C / −20 °C to +550 °C (dual-range, high-gain/low-gain auto-switching) |
| Accuracy | ±2 °C or ±2% of reading (whichever is greater) @ ambient −20 °C to +60 °C |
| Image Output | 14-bit RAW or TIFF thermal sequences with embedded temperature metadata |
| Video Output | HDMI (1080p), NTSC/PAL analog AV |
| Storage | Dual TF card slots (IR + visible sync recording |
| Power | 9–14 VDC, ≤10 W average |
| Operating Temp | −20 °C to +50 °C |
| Mounting | 1/4″-20 UNC tripod interface or DJI X-Port compatible gimbal integration |
| Compliance | Designed for industrial UAV deployment per IEC 60068 environmental testing profiles |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | LS-LAM-40M |
| Spectral Range | 350–2200 nm |
| Aperture | 40 mm (expandable to 100 mm with C100 collimator tube) |
| Color Temperature | 2856 K ± 100 K (measured over 400–1000 nm) |
| Luminance Range | 1 mcd/m² to 800 cd/m² |
| Luminance Resolution | 0.1 mcd/m² (low-range) |
| Stability | < 1% (over 30 min, ambient-controlled) |
| Filter Options | 3-position manual spectral filter wheel (VIS-only / NIR+SWIR / SWIR-only) |
| Dimensions | 370 × 490 × 290 mm |
| Weight | 12 kg |
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