Optical Instruments
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| Brand | Labsphere |
|---|---|
| Origin | USA |
| Model | ILT2400 UVGI-NB |
| Calibration | NIST-traceable, ISO/IEC 17025:2017 accredited at 254 nm |
| Spectral Response | Optimized for 254 nm narrowband UVC sources (e.g., low-pressure mercury lamps) |
| Irradiance Range | 4.0 × 10⁻⁷ W/cm² (0.4 µW/cm²) to 4 W/cm² |
| Dose Range | 4.0 × 10⁻⁷ J/cm² (0.4 µJ/cm²) to >10⁶ J/cm² |
| Detector Type | SiC photodiode with integrated XSD14T254 flat-profile sensor (15 mm H × 42 mm Ø) |
| Electrical Range | 50 pA to 1 mA photocurrent |
| Dynamic Range | 8 decades |
| Display | 4.3″ VGA capacitive color touchscreen |
| Bias Voltage | 5 V reverse bias |
| Data Storage | 4 GB internal |
| Interface | USB Micro (data download), USB Mini (charging & remote logging via DataLight III) |
| Operating Temperature | 0–40 °C |
| Dimensions (meter) | 41 mm H × 76 mm W × 152 mm L |
| Sensor Cable Length | 2.13 m (7 ft) |
| Compliance | CE-marked for EMC (no RF emission interference), RoHS compliant |
| Software | DataLight III (Windows/macOS compatible), supports audit trail, CSV export, real-time graphing, and GLP-compliant session logging |
| Brand | Labsphere |
|---|---|
| Origin | USA |
| Model | ILT2400-UVC |
| Detector Type | SED270C/W SiC Photodiode |
| Spectral Range | 230–280 nm |
| Peak Sensitivity | 265 nm |
| Irradiance Range | 100 nW/cm² to 1 W/cm² |
| Dose Range | 100 nJ/cm² to >1 MJ/cm² |
| Calibration | ISO/IEC 17025 Accredited, NIST-Traceable |
| Display | Integrated Touchscreen Interface |
| Connectivity | USB Mini & Micro (Data Transfer + Charging) |
| Software | Datalight III (macOS & Windows Compatible) |
| Enclosure | Rugged Carry Case with Integrated Stand |
| Detector Cable Length | 2.1 m (7 ft) |
| Optical Element | Fused Silica Diffuser |
| Filter | Built-in UVC Bandpass Filter |
| Origin | USA |
|---|---|
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | Image-Pro |
| Price Range | USD 25,000 – 62,500 (based on configuration and modules) |
| 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 |
| Key | Origin: USA |
|---|---|
| Manufacturer Type | Authorized Distributor |
| Product Origin | Imported |
| Models | HASO4 Broadband, HASO4 Visible, HASO4 FIRST, HASO3-32, HASO3-128 GE2, HASO HP-16, HASO3 FAST |
| Calibration Wavelength Range | 350–1100 nm (model-dependent) |
| Aperture Size | 1.7×1.7 mm² to 14.6×14.6 mm² |
| Lenslet Count | 14×14 to 128×128 |
| Max Frame Rate | 905 Hz |
| Wavefront Accuracy (rms) | λ/100 to λ/200 (absolute mode) |
| Tilt Dynamic Range | > ±3° |
| Focus Dynamic Range | ±0.018 m to ∞ |
| Spatial Resolution | ~105–290 µm |
| Interface | USB 3.0 / GigE / FireWire / Camera Link |
| Power | 2.7–6 W |
| Operating Temp | 15–30 °C |
| Software | WaveView or HASOv3 with SDK (C/C++, LabVIEW, MATLAB) |
| Brand | Oxford Instruments |
|---|---|
| Origin | United Kingdom |
| Manufacturer Type | Authorized Distributor |
| Origin Category | Imported |
| Model | Imaris |
| Price | Contact for Quote |
| Brand | Imperx |
|---|---|
| Origin | USA |
| Model | Cheetah |
| Interface Options | Camera Link / USB3 Vision / GigE Vision |
| Resolution Range | 2.8 MP to 25 MP |
| Frame Rate Range | up to 129 fps (8-bit, full resolution) |
| Shutter Modes | Global & Rolling |
| Dynamic Range | Wide Dynamic Range (WDR) with 3 adjustable knee points |
| Sensor Type | Monochrome or Color CMOS |
| NIR Sensitivity | Enhanced |
| Trigger Modes | Software, Hardware, Encoder |
| ROI Support | Yes |
| Dark Current | Low |
| Smear & Dark Sun Suppression | Yes |
| Dual-Frame (A/B) Configuration | Yes |
| Compliance | RoHS, CE, FCC, FDA 21 CFR Part 11 (software-controlled audit trail optional) |
| Brand | IMPERX |
|---|---|
| Origin | USA |
| Model | Tiger T8810 / T8820 |
| Sensor | ON Semiconductor KAI-47051 CCD |
| Resolution | 8856 × 5280 (47 MP) |
| Frame Rate | T8810 — 3.5 fps, T8820 — 7 fps |
| Bit Depth | 12-bit internal processing |
| Interface | Camera Link (Base/Medium/Full configuration support) |
| Operating Temperature | −40 °C to +85 °C |
| Compliance | MIL-STD-810F certified |
| Housing | Industrial-grade sealed aluminum chassis |
| Brand | Impetux |
|---|---|
| Origin | Spain |
| Model | SENSOCELL |
| Laser Wavelength | 1064 nm (single-frequency) |
| Maximum Laser Power | 3 W |
| Number of Independent Optical Traps | 1–256 |
| Force Measurement Principle | Light Momentum Method (EP 2,442,316) |
| Force Resolution | <0.05 pN |
| Positional Accuracy | 1 nm |
| Displacement Precision | 0.1 nm |
| Trap Stiffness | 3 pN/mW·μm (for 1 μm polystyrene sphere) |
| Field of View | 70 μm × 70 μm (with 60× objective) |
| Trap Actuation Bandwidth | up to 25 kHz |
| Compatible Microscopy Modes | Brightfield, EPI, TIRF, Confocal, Super-resolution |
| Fluorescence Range | 405–670 nm |
| Sample Compatibility | Glass slides, petri dishes, microfluidic chips, live-cell incubation systems (e.g., OKOLAB) |
| Brand | IMRA |
|---|---|
| Origin | USA |
| Model | FCPA μJewel |
| Type | Ytterbium-Doped Femtosecond Fiber Laser System |
| Central Wavelength | 1041–1045 nm ±5 nm |
| Average Power | 1–20 W |
| Pulse Width | <350–500 fs |
| Repetition Rate | 100 kHz–1 MHz (up to 5 MHz customizable) |
| Pulse Energy | >10–50 µJ |
| Beam Quality | M² < 1.3 |
| Polarization | Linear, Horizontal or Vertical (relative to baseplate) |
| Stability | <1% RMS |
| Cooling | Air-cooled laser head |
| Compliance | MIL-STD-810F, IEC 60601-1 |
| Brand | IMRA |
|---|---|
| Origin | USA |
| Model | Femtolite F/G/H |
| Output Wavelengths | 805–810 nm (F-series), 1062 nm (G/H-series) |
| Average Power | >100 mW to >200 mW |
| Pulse Width | <100–140 fs |
| Repetition Rate | 75 ± 10 MHz |
| Polarization | Vertical or Horizontal (model-dependent) |
| Power Stability | ≤1% RMS |
| Dimensions | 142 × 98 × 76 mm³ (F-series), 3230 × 193 × 76 mm³ (G/H-series) |
| Compliance | MIL-STD-810F, IEC 60601-1 |
| Brand | IMRA |
|---|---|
| Origin | USA |
| Manufacturer Type | Authorized Distributor |
| Product Category | Imported |
| Model | Femtolite Ultra |
| Key Components | All-Fiber Femtosecond Oscillator System |
| Center Wavelengths | 780 ± 5 nm, 1560 ± 5 nm, 810 ± 5 nm |
| Average Output Power | >10 mW to >60 mW |
| Pulse Width | <100–110 fs |
| Repetition Rate | 50 MHz |
| Power Stability | ≤1% RMS |
| Polarization | Vertical (relative to baseplate) |
| Compliance | IEC 60068-2-27 & IEC 60068-2-6 (Shock & Vibration) |
| Brand | In-situ Marine |
|---|---|
| Origin | Australia |
| Model | IMO-NTU |
| Product Type | Portable Submersible Turbidimeter |
| Measurement Range | 0–400 NTU (factory-customizable) |
| Resolution | 0.05 NTU |
| Operating Temperature | 0–40 °C |
| Accuracy | ±0.05 NTU |
| Scattering Angle | 120° |
| Detector | Silicon Photodiode |
| Light Source | 890 nm LED |
| Calibration Standard | Formazin (NTU) |
| ADC Resolution | 16-bit |
| Max Sampling Rate | 10 Hz |
| Ambient Light Rejection | Yes |
| Communication Protocol | RS-232 @ 19200 bps |
| NMEA-Style Output | Yes |
| Supply Voltage | 7–24 VDC |
| Current Draw | 15 mA (sampling), 150 mA (cleaning) |
| Analog Output | 0–5 VDC |
| Connector | MCBH6M |
| Length | 148 mm (plus 36 mm connector protrusion) |
| Diameter | 67 mm |
| Weight (air) | 650 g |
| Weight (water) | 150 g |
| Housing Material | Acetal |
| Brush & Panel Material | Copper |
| Maximum Depth Rating | 300 m |
| Brand | In-situ Marine |
|---|---|
| Origin | Australia |
| Model | IMO-NTU-LPT |
| Type | Portable Submersible Turbidimeter |
| Measurement Range | 0–400 NTU (factory-customizable) |
| Resolution | 0.05 NTU |
| Scattering Angle | 120° |
| Light Source | 890 nm LED |
| Detector | Silicon Photodiode |
| ADC | 16-bit |
| Max Sampling Rate | 10 Hz |
| Environmental Light Rejection | Yes |
| Communication | RS-232 (configurable baud rate) |
| Power Input | 7–24 VDC |
| Operating Current | 40 mA (sampling), 250 mA (cleaning), 60 µA (sleep) |
| Internal Battery | 11.1 V, 5.2 Ah Li-ion (rechargeable) |
| Housing Material | Acetal |
| Depth Rating | 300 m |
| Operating Temperature | −10 to +40 °C |
| Dimensions | 285 mm (L, including 36 mm connector), 67 mm (diameter) |
| Weight | 1.4 kg (air), 0.3 kg (water) |
| Data Storage | 16 GB microSD card |
| Built-in Sensors | Pressure, Temperature, Real-time Clock, Tilt Sensor |
| Self-cleaning Mechanism | Integrated copper-brush wiper |
| Brand | Incoatec |
|---|---|
| Origin | Germany |
| Model | SCATEX |
| Component Type | X-ray Optical Element |
| Material | High-Purity Germanium (Ge) |
| Diameter Options | 300 µm, 500 µm |
| Compliance | Designed for SAXS/WAXS beamlines and laboratory-scale X-ray scattering systems |
| Application Domain | Synchrotron & Lab-Based Small-Angle X-ray Scattering (SAXS), Wide-Angle X-ray Scattering (WAXS), X-ray Beam Conditioning |
| Brand | Incoatec |
|---|---|
| Origin | Germany |
| Model | Standard Types |
| Crystal Types | LiF(200), LiF(220), LiF(420), PET |
| Component Category | Optical Element |
| Compliance | ISO/IEC 17025-aligned calibration support, compatible with ASTM E1361 & ISO 22085 XRF spectrometer configurations |
| Brand | Incoatec |
|---|---|
| Origin | Germany |
| Product Type | Optical Component |
| Model | Synchrotron Optics |
| Substrate Material | Si (uncoated & coated) |
| Coating Materials | C, Ru/C, W/Si, Mo/B₄C, and custom multilayer systems |
| Coating Thickness Control Accuracy | ±1% |
| Maximum Mirror Length | 150 cm |
| Carbon Mirror Thickness | 35 nm (C), 44.2 nm (C) |
| Multilayer Period | 1.4 nm (Mo/B₄C), 2.0 nm (Ru/C), 1.5 nm (W/Si) |
| Energy Range Coverage | 50 eV – 45 keV |
| Reflectivity (C mirror, 50–250 eV) | >95% |
| Thickness Uniformity (across 150 cm) | <2% PV, <0.1% RMS gradient control |
| Compliance | Designed for ISO/IEC 17025-aligned calibration environments, compatible with GLP/GMP beamline operation frameworks |
| Brand | Incoatec |
|---|---|
| Origin | Germany |
| Product Type | X-ray Diffraction Analyzing Crystal |
| Model | XRF Analyzer Special Crystals |
| Component Category | Optical Instrument Component |
| Crystal Types | LiF(420), Ge, ADP, TlAP, InSb, XS-N (d = 11.0 nm), XS-C (d = 12.0 nm), XS-B (d = 19.0 nm) |
| Primary Applications | Wavelength-Dispersive X-ray Fluorescence (WDXRF) Spectrometry for Light Element Analysis (B, C, N, F, Na, Mg, Si, P, S, Cl) |
| Brand | Ekspla |
|---|---|
| Type | DPSS Q-Switched Solid-State Laser |
| Wavelength | 1064 nm |
| Pulse Duration | Nanosecond Range |
| Repetition Rate | Up to 100 kHz |
| Average Output Power | Up to 15 W |
| Pump Source | Semiconductor Diode |
| Gain Medium | Nd:YVO₄ Crystal |
| Cooling | Water-Cooled (Standard) |
| Beam Quality (M²) | Typically <1.3 |
| Polarization | Linear, >100:1 Extinction Ratio |
| Origin | Canada |
|---|---|
| Manufacturer Type | Authorized Distributor |
| Import Status | Imported |
| Model | InfinityCCD & DT2000 |
| Pricing | Available Upon Request |
| Brand | Labsphere |
|---|---|
| Origin | USA |
| Model | INFRAGOLD® |
| Laser Damage Threshold | ≥19.3 J/cm² @ 10.6 µm (CO₂, 10 ns pulse) |
| Substrate Compatibility | Aluminum, Nickel, Iron, Copper, Tungsten |
| Application Range | 250 nm – 25 µm (peak performance: 1000 nm – 12 µm) |
| 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 |