Inframet
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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 |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | CDT |
| Price Range | USD 42,000 – 70,000 |
| 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 | DCB |
| Temperature Range | 0 °C to +100 °C (ΔT = −25 °C to +75 °C at 25 °C ambient) |
| Emissivity | 0.95 ± 0.01 (MWIR), 0.96 ± 0.01 (LWIR) |
| Aperture (Blackbody & Source) | 35 × 35 mm |
| Emitter Size | 50 × 50 mm |
| Temperature Uniformity | < 0.01 °C or 4% of ΔT |
| Resolution & Setpoint Accuracy | 1 mK |
| Calibration Stability | ±3 mK @ ΔT = 10 °C |
| Heating Rate | 0.8 °C/s |
| Cooling Rate | 0.3 °C/s |
| Stabilization Time | < 30 s |
| Spectral Bands | 420–750 nm (SEM1), 830–850 nm (SEM2), 350–1700 nm (HAL), 300–1100 nm (XEN) |
| Luminance Range | 0.2–2000 cd/m² (SEM1/SEM2/XEN, daylight) |
| Control Interface | USB 2.0 |
| Power Supply | 115–230 VAC, 50/60 Hz |
| Operating Temp. | +5 °C to +45 °C (non-condensing) |
| Storage Temp. | −10 °C to +60 °C |
| Dimensions | ~50 × 31 × 34 cm |
| Weight | 9–14 kg (version-dependent) |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | DPM66 |
| Diopter Range | ±6 D |
| Interface | USB |
| Optical Principle | Collimated Image Detection with Adjustable Simulated Eye Refraction |
| Compliance | Designed for ISO 10940-compliant eyepiece verification workflows |
| 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 | EXIR |
| Temperature Range | −40 °C to +60 °C (ambient & background simulation) |
| Application | MRTD, MTF, NETD measurement under variable thermal conditions |
| Compliance | Designed for MIL-STD-810G environmental test alignment and ISO 18523-1:2021 optical performance validation |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | FCLIP |
| Type | Computerized Modular Collimation Test Platform for Clip-On Thermal/IR–NV Fusion Imagers |
| Compliance | Designed for ISO 10110-5, MIL-STD-3009 (Imaging Systems), and NATO STANAG 4347 (Night Vision Device Testing) |
| Measurement Principle | Dual-axis optical collimation metrology using calibrated off-axis reflective collimator (CRI760), high-resolution imaging sensor (IM50), and deterministic geometric alignment algorithms |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | FT Series (Configurable: FT-N / FT-I / FT-S) |
| Application | R&D and QA of IR focal plane arrays (cooled & uncooled) and thermal imaging cores (LWIR/MWIR) |
| Compliance | Designed for ISO/IEC 17025-compliant calibration workflows, supports traceable measurement protocols per ASTM E1213, E1543, and MIL-STD-810G thermal test environments |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | FUT |
| Type | Active Multispectral Reference Target |
| Dimensions (W×H×D) | 127×91×73 cm (FUT118) to 230×195×50 cm (FUT2216) |
| Weight | 30–145 kg |
| Power Supply | AC 110/230 V |
| Stabilization Time | 15–45 min |
| Surface Thermal Contrast | ~10 °C |
| Temperature Stability | <1 K |
| Spatial Temperature Uncertainty | 0.6–2.0 K |
| Visible/NIR Black Square Reflectance | <0.05 |
| Visible/NIR White Square Reflectance | >0.8 |
| LWIR/MWIR Black Square Emissivity | >0.9 |
| LWIR/MWIR White Square Emissivity | <0.1 |
| Pattern | Chessboard (100×100 mm squares, customizable) |
| Standard Sizes | FUT118 (1100×800 mm), FUT1511 (1500×1100 mm), FUT2020 (1900×1900 mm), FUT2216 (2200×1600 mm) |
| 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 | Inframet |
|---|---|
| Origin | Poland |
| Model | IBIG |
| Spectral Range | 240–1600 nm |
| Max. Photocathode Diameter | 40 mm |
| Measurable Parameters | 18 |
| Resolution Capability | up to 80 lp/mm |
| Measurement Uncertainty | ≤7% (typ.) |
| Calibration Interval | 2 years |
| Light Source | LS-UVIR (Halogen + 9-band LED) |
| Imaging Optics | RC15137 Reflective Macro Objective |
| 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 | IPAS-A / IPAS-B / IPAS-C |
| Application | Static & Dynamic Electrical Characterization and Photometric Performance Evaluation of Gen II Image Intensifier Tubes |
| Compliance | Designed for R&D, QA, and calibration labs supporting night vision device manufacturing and military optics certification protocols |
| 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 | Inframet |
|---|---|
| Origin | Poland |
| Model | IRAD |
| Spectral Range | 400–1200 nm |
| Maximum Photocathode Diameter | 40 mm |
| Wavelength Selection Points | 12 discrete wavelengths |
| Radiometric Sensitivity Measurement | photocathode spectral radiant sensitivity & radiant luminance gain |
| Photometric Parameters | luminance gain, radiometric gain, saturation, equivalent background input (EBI), photocathode luminous/radiant sensitivity |
| Temporal Parameters | rise time, delay time, decay (afterglow) time, stability |
| Detector Interface | BM-PT main module, LP1/LP2 photometers, RP radiometer, CP current meter, TP real-time probe |
| Software | IRAD control & analysis suite, ITIME temporal analysis module |
| Compliance | Designed for laboratory-based R&D per ISO/IEC 17025-aligned optical metrology practices |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | ITIP |
| Type | Computerized Multi-Parameter Test System for Image Intensifiers (Gen II, III, IV) |
| Supported Formats | 16 mm, 18 mm, 25 mm |
| Measurement Domains | Image Quality, Photometric, Electrical, and Temporal Parameters |
| Compliance | Designed to support ASTM F2147–23 (Standard Test Methods for Image Intensifier Tube Performance), ISO 14134:2021 (Night Vision Equipment — Performance Testing), and MIL-STD-3009B Annex A (Image Intensifier Tube Testing Requirements) |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | ITIR |
| Light Source | 2856 K LED (0.05–50 lx, PC-controlled, resolution ≥0.05 lx) & 2856 K Halogen Spot Source (50 mlm, fixed, 1 mm × 1 mm cathode illumination) |
| Test Capabilities | Burn-in, Standard Reliability, Aging Reliability, Bright-Point Protection |
| Compliance | MIL-standard-based test protocols |
| Sample Capacity | 9 image intensifiers (BM-R module), 1 for bright-point testing |
| Power Supply | DC 2.7 V |
| Interface | USB |
| Dimensions | 300 × 370 × 380 mm |
| Weight | 11 kg |
| Software | ITR Control Suite (customizable non-MIL test definition, audit-ready logging, UTS-R recalibration support) |
| Accessories | BM-R main module, DC cabling set, PS3 power supply, intensifier adapters (MX-10160/MX-10130 or user-defined), calibration kit (optional) |
| Application Scope | Packaged Gen II, III, and IV image intensifiers |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | JAT200 |
| Boresighting Accuracy | 50 µrad |
| Optical Collimator Aperture | 200 mm |
| Collimator Resolution | ≥150 lp/mrad |
| Projection Aperture (Thermal Imager) | ≥70 mm |
| Projection Aperture (CCD Camera) | ≥60 mm |
| Laser Receiver Aperture | ≥40 mm |
| IR Target Angular Size | 9 mrad |
| Visible Target Angular Size | 3 mrad |
| Target Contrast (Visible) | 30% |
| Operating Temperature | −25 °C to +55 °C |
| Storage Temperature | −20 °C to +71 °C |
| Relative Humidity | Up to 96% RH (non-condensing) |
| System Height Adjustment Range | 300–700 mm |
| Total System Dimensions (incl. TROL cart) | ≤1250 × 310 × 300 mm |
| Total System Weight | ≤16 kg |
| Cart Dimensions | ≤720 × 500 × 350 mm |
| Cart Weight | ≤13 kg |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | JIMS |
| Aperture Extension Capability | Up to 1000 mm (horizontal configuration) |
| Angular Accuracy | 0.2 mrad |
| Base Platform Compatibility | Horizontal optical benches for EO/IR systems |
| Core Configuration | CJT400 collimator + CEB beam-expanding module |
| Compliance | Designed for MIL-STD-3009, ISO 10110-5, and NATO AEP-70 alignment verification protocols |
| Software Platform | BOR v5.x with audit trail, calibration certificate generation, and GLP-compliant reporting |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | JT Series (JT150 to JT600, JT-EX) |
| Optical Tube Aperture | 150–600 mm |
| Effective Output Aperture | 46–125 mm |
| Central Obstruction (Dead Zone) | 27–96 mm |
| Dimensions (L×W×H) | 270×340×740 mm (JT150) to 750×820×2750 mm (JT600) |
| Configuration Options | X1–X3 (manual), Y1–Y5 (computer-controlled), +S (SWIR-capable), +Borex (precision mounting platform) |
| Compliance | Designed for MIL-STD-3009, ISO 12233, ASTM E1242, and GLP-aligned test workflows |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | L64 |
| Price Range | USD 105,000 – 132,000 (FOB Gdańsk) |
| Wavelength Range | 400–1700 nm (Visible to SWIR) |
| Operating Modes | Pulse Repetition Frequency (PRF) and Pulse Interval Modulation (PIM) |
| Adjustable Parameters | Peak Power (nW–W range), Pulse Width (1 ns–10 ms), Beam Divergence (0.1–10 mrad), Angular Spot Size (0.05°–5°), Temporal Modulation Depth (>95%) |
| Compliance | CE, RoHS, ISO/IEC 17025 traceable calibration support |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | LAFT |
| Application | Field & Laboratory MRTD/MDTD/MTF/NETD/Non-Uniformity/SiTF/Distortion/FOV/Target Recognition Testing |
| Target Compatibility | Unrestricted Aperture |
| Operating Distance | > Minimum Focus Distance of DUT |
| Environmental Rating | -20 °C to +55 °C (non-condensing) |
| Blackbody Stability | ±0.003 °C (ΔT < 10 °C), Temp Resolution: 0.001 °C |
| Target Panel Size | 300 × 300 mm |
| System Weight | 20 kg (blackbody + target + TCB-6D enclosure) |
| Power Option | 12 V DC (optional converter) |
| Key | Brand: Inframet |
|---|---|
| Origin | Poland |
| Model | LAM |
| Power Supply | AC 230/110 V |
| Pattern Dimensions | 11 × 8 squares (110 × 80 mm) |
| Single Square Size | 100 mm |
| Overall Dimensions | 1190 × 575 × 900 mm |
| Weight | 15 kg |
| Imaging Mode | Chessboard-type thermal-radiative target |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | LAR64 |
| Wavelength | 1064 nm ±5 nm |
| Spectral Bandwidth | ≤10 nm |
| Optical Aperture Compatibility | <54 mm |
| Collimator Type | Refractive |
| Collimator Aperture | 60 mm |
| Resolution | >60 lp/mrad |
| Output Uniformity | ≤10% (measured at 40 mm aperture) |
| Peak Irradiance Range | 100 nW/cm² to 40 mW/cm² |
| Dynamic Range | ≥400,000:1 |
| Pulse Width Range | 20–500 ns |
| Pulse Width Resolution | 1 ns |
| PRF Range (Internal Sync) | 1 Hz – 20 kHz |
| PRF Range (External Sync) | 0.1 Hz – 20 kHz |
| PRF Stability Error | ≤0.0001% (for integer-multiple frequencies), ≤0.00001% × f (Hz) (others) |
| Angular Target Size Range | 0.1–10 mrad |
| Angular Position Range (Azimuth/Elevation) | ±30° / ±6° |
| Angular Resolution | 0.05° |
| Angular Positioning Speed (Azimuth/Elevation) | 1.5°/s / 0.5°/s |
| Trigger Modes | Internal electrical (free-run), External electrical, External optical |
| Sync Output | TTL-compliant |
| Input Trigger Voltage | 2.4–4.1 V |
| Communication Interface | USB 2.0 |
| Power Supply | AC 230 V |
| Operating Temperature | +5°C to +35°C |
| Storage Temperature | −5°C to +55°C |
| Weight | <12 kg (excl. rotation stage) |
| Dimensions | ≤500 × 280 × 190 mm (excl. rotation stage) |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | LIP |
| Beam Imaging System | LBIS |
| Power Meter | LCOP |
| Spectral Range (LBIS) | 400–1000 nm |
| Spectral Range (LCOP) | 400–1060 nm |
| LBIS Aperture | 46 mm |
| LCOP Effective Aperture | 24 mm |
| Power Measurement Range | 0.001 mW – 3 W |
| Power Resolution | 0.001 mW |
| Nonlinearity | <1% |
| LBIS Dynamic Range | >10⁶ |
| LBIS Divergence Range | 0.25 mrad – 200 mrad |
| LBIS Camera Resolution | 1280 × 1024 |
| LBIS Field of View (Narrow) | 24 mrad |
| LBIS Field of View (Wide) | 240 mrad |
| Operating Temperature | +10 °C to +35 °C |
| Storage Temperature | −5 °C to +50 °C |
| LBIS Dimensions | 1129 × 345 × 245 mm |
| LBIS Weight | ~23 kg |
| LCOP Electronics Dimensions | 226 × 76 × 169 mm |
| Brand | Inframet |
|---|---|
| Origin | Poland |
| Model | LJT120 |
| Wavelength Compatibility | 905/910 nm, 1064 nm, 1540 nm, 1550 nm, 1570 nm (custom wavelengths available) |
| Max. Aperture for Tested LRF | 70 mm |
| Max. Inter-Channel Distance (e.g., LRF to thermal imager) | 80 mm |
| System Weight | 45 kg (main module + platform) + 3 kg (accessories) + PC |
| Dimensions (H × L × W) | 650 mm × 1600 mm × 300 mm |
| Application Scope | Single-pulse/multi-pulse, coaxial/bi-directional, internally or externally indicated laser rangefinders |
| 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 | 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) |