Environmental Monitoring Instruments
Filter
Showing 3871–3900 of 9112 results
| Brand | Huiron |
|---|---|
| Model | HRH-BAA01 |
| Origin | Beijing, China |
| Detection Principle | Laser-Induced Intrinsic Fluorescence (LII-F) |
| Detection Targets | Bacterial & Fungal Bioaerosols |
| Response Time | ≤30 s |
| Sensitivity | ≤50 ACPLA/L (Airborne Count of Pathogenic-Like Agents per Liter) |
| Particle Size Range | 0.3–10 µm (with ≤±30% FS error at 0.3 µm and 0.5 µm channels) |
| Sampling Flow Rate | >2 L/min |
| Interference Rejection | Confirmed immunity to wood smoke, cigarette smoke, moxa smoke, automotive exhaust, and fluorescent dyes |
| Data Storage Capacity | ≥500,000 records (each including multi-channel total particle counts and fluorescence-positive particle counts) |
| Display | 7-inch capacitive touchscreen LCD |
| Operating Temperature | −20 °C to +50 °C |
| Storage Temperature | −40 °C to +60 °C |
| Relative Humidity | 0–95% RH (non-condensing) during operation |
| Dimensions | 228 × 220 × 225 mm (L × W × H) |
| Weight | 6.7 kg (main unit) |
| Compliance | Designed for ISO 14644-1 Class 5–8 environments |
| Brand | Huiron |
|---|---|
| Model | HRH-BAG1 |
| Type | Impactor-based liquid aerosol generator |
| Aerosol Mass Median Aerodynamic Diameter (MMAD) | 1–3 µm |
| Geometric Standard Deviation (GSD) | 1.5–3 |
| Liquid feed tubing | Silicone tube, 2 mm ID × 4 mm OD |
| Compressed air inlet | PU tubing, 6.5 mm ID × 10 mm OD |
| Aerosol outlet port | 16 mm ID × 20 mm OD |
| Compliance | OECD TG 403, 412, 413, 436 |
| Brand | Huiron |
|---|---|
| Model | HRH-BSA350 |
| Principle | Wetted-Wall Cyclonic Collection |
| Flow Rate | ≥300 L/min |
| Sampling Efficiency | >70% (0.5–10 µm) |
| Sample Volume | 1–5 mL liquid medium |
| Reservoir Capacity | 500 mL |
| Dimensions | 245 × 40 × 13 mm |
| Weight | 7.3 kg |
| Battery Life | >8 h |
| Compliance | GB/T 39990–2021 |
| Brand | Huiron |
|---|---|
| Model | HRH-DAG768 |
| Principle | Rotating brush dispersion with controlled shear airflow |
| Particle Size Range | 0–100 µm (sample-dependent) |
| Feed Material | Non-cohesive dry powders and dusts |
| Powder Capacity | 300 mL |
| Mass Flow Rate | 10–65,000 mg/min |
| Volumetric Flow Rate | 2–100 L/min |
| Brush Speed | 200–3,000 rpm |
| Feed Speed | 0.003–5 mm/min |
| Air Supply Pressure | 1–5 bar |
| Power Supply | 220 V / 50 Hz |
| Dimensions (L×W×H) | 455 × 230 × 740 mm |
| Weight | 45 kg |
| Compliance | OECD TG 403, 412, 413, 436 |
| Brand | Huiron |
|---|---|
| Model | HRH-DSA350 |
| Sampling Principle | Electrostatic Filter Capture |
| Flow Rate | 100–300 L/min (adjustable) |
| Collection Efficiency | ≥70% for particles ≤0.5 µm, ≥75% for 0.5–1 µm, ≥95% for ≥2 µm |
| Sample Form | Liquid eluate (≤5 mL, generated in ≤1 min on-site) |
| Elution Efficiency | ≥75% (average) |
| Operating Temperature | −40 to +70 °C |
| Battery Life | >30 h continuous operation at ≥300 L/min (fully charged) |
| Weight | <3 kg (including battery) |
| Enclosure | IP65-rated aluminum alloy housing, EMI-shielded |
| Noise Level | ≤60 dB(A) |
| Pump Lifetime | 40,000 h |
| Control Interface | DB-9 serial + Bluetooth/Wi-Fi |
| Compliance | GB/T 39990–2021 |
| Brand | Huiron |
|---|---|
| Model | HRH-WSA300 |
| Principle | Cyclonic Liquid Impingement Sampling |
| Flow Rate | 300 L/min (±5% regulation) |
| Sample Volume | ≤15 mL in 200 mL collection bottle |
| Dimensions | 176 × 250 × 356 mm |
| Weight | 5.3 kg (empty) |
| Sampling Duration | 1–100 min, programmable delay |
| Collection Efficiency | >70% for sub-micron bioaerosols (e.g., viruses, bacteria) |
| Power | Internal battery (~90 min runtime) |
| Compliance | ISO 14698-1, GB/T 39990–2021 |
| Sample Compatibility | PCR, immunoassay, ATP bioluminescence, flow cytometry, culture-independent analysis |
| Brand | Huironhe |
|---|---|
| Origin | Beijing, China |
| Manufacturer Type | Authorized Distributor |
| Country of Origin | China |
| Model | HRH-AG07M |
| Price | Upon Request |
| Particle Material | Non-cohesive dry powders |
| Particle Size Range | 0–60 µm |
| Powder Load Capacity | 500 mg–2 g (referenced to silica powder density of 2.33 g/cm³) |
| Mass Flow Rate | 0.8–20 µg/min (adjustable) |
| Volumetric Flow Rate | 0–25 L/min (adjustable) |
| Supply Air Pressure | <10 psi |
| Dimensions | 420 × 250 × 635 mm |
| Weight | ≤12 kg |
| Brand | Huironhe |
|---|---|
| Model | HRH-BSA320 |
| Sampling Principle | Wet-Wall Cyclonic Liquid-Film Collection |
| Max Flow Rate | ≥320 L/min |
| Sample Volume per Run | ≤5 mL |
| Sampling Duration | 1 min – 5 h (adjustable) |
| Liquid Reservoir Capacity | ≥500 mL |
| Wet-Wall Cyclone Chamber Liquid Film Thickness | 0.1–1 mm |
| Gas–Liquid Contact Area | ≥200 cm² |
| Cyclone Fan Speed | ≥10,000 rpm |
| Droplet Separation Rotor Speed | ≥100 rpm |
| Operating Temperature | 0–46 °C |
| Battery Runtime | ≥5 h |
| Unit Weight | ≤8 kg |
| Dimensions (L×W×H) | ≤250×240×420 mm |
| Cleaning & Maintenance | Automated inter-sample rinse and scheduled maintenance cycles |
| Sterilization Compatibility | Hydrogen Peroxide vapor (HPV), 5% Sodium Hypochlorite |
| Control Modes | Manual, Remote IR, Scheduled Auto-Run, Cloud-Connected Remote Management |
| Brand | Huironhe |
|---|---|
| Model | HRH-TIP586 |
| Type | Peristaltic Liquid Delivery Instrument |
| Flow Range | 0.02–10 mL/min |
| Tubing Dimensions | 2 × 1 mm (ID × OD) |
| Speed Range | 0.1–80 rpm |
| Speed Resolution | 0.1 rpm |
| Delivery Accuracy | <0.5% |
| Power Supply | DC 24 V / 2 A |
| Communication Interface | RS485, Modbus RTU protocol |
| Operating Environment | 0–40 °C, RH <80% |
| Ingress Protection | IP31 |
| Dimensions (L×W×H) | 110 × 60 × 150 mm |
| Weight | 0.85 kg |
| Brand | Huironhe |
|---|---|
| Model | HRH-WAG |
| Origin | Beijing, China |
| Construction Materials | 316L stainless steel, PTFE, borosilicate glass |
| Aerosol Output Interface | 16 mm × 20 mm |
| Compressed Air Inlet | PU tubing, OD 6.5 mm × 10 mm |
| Liquid Feed Interface | Silicone tubing, ID 2 mm × OD 4 mm |
| Mass Median Aerodynamic Diameter (MMAD) | 1–3 µm |
| Geometric Standard Deviation (GSD) | 1.5–3 |
| Compliance | OECD TG 403, 412, 413, 436 |
| Brand | Huiyan |
|---|---|
| Origin | Jiangsu, China |
| Model | ML-91 |
| Instrument Type | RF Power Density Meter (Radiation Dosimetry) |
| Frequency Range | 0.9–12.4 GHz |
| Measurement Range | 0.2 µW/cm² to 20 mW/cm² |
| Resolution | 0.2 µW/cm² |
| Display | Digital LCD with Auto-ranging (3 ranges: 200 µW/cm², 2 mW/cm², 20 mW/cm²) |
| Alarm Threshold | Factory-set at 5 mW/cm² (adjustable only by manufacturer) |
| Operating Modes | CW and Pulsed RF |
| Sensor Burnout Limit | 100 mW/cm² (CW), 3 W/cm² peak (pulsed) |
| Calibration Uncertainty | ±0.75 dB |
| Indicating Device Accuracy | ≤ ±1.5% of full scale |
| Dimensions (Indicator Unit) | 82 × 40 × 172 mm |
| Weight (Indicator Unit) | ~0.8 kg |
| Environmental Operating Range | –10 °C to +40 °C, RH 51–81%, Atmospheric Pressure 720–780 mmHg |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | DR15-A1 |
| ISO 9060 Classification | Class B (formerly "First Class") |
| Calibration Uncertainty | < 1.2 % (k = 2) |
| Heating Power | 1 W @ 12 VDC |
| Response Time (95 %) | 4 s |
| Field of View (Full Angle) | 5° |
| Slope Error | ≤ 1° |
| Zero Offset | < ±1 W/m² |
| Spectral Range | 200–4000 nm |
| Operating Temperature | −40 to +80 °C |
| Temperature Response | < ±1 % (−10 to +40 °C) |
| Output | Analog mV signal |
| Measurement Range | 0–4000 W/m² |
| Traceability | World Radiometric Reference (WRR) |
| Cable Length | 5 m |
| Calibration Certificate | Individual unit certificate including sensitivity and temperature response test data |
| Window Heater | Integrated quartz window heater (low-power, anti-condensation/anti-frost) |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | DR20-A1 |
| Calibration Uncertainty | < 1.2 % (k = 2) |
| Heating Power | 1 W @ 12 VDC |
| Response Time (95 %) | 4 s |
| Field of View (Full Angle) | 5° |
| Slope Error | ≤ 1° |
| Zero Offset | < ±1 W/m² |
| Spectral Range | 200–4000 nm |
| Operating Temperature | −40 to +80 °C |
| Temperature Response | < ±0.5 % (−10 to +40 °C) |
| Output | Analog mV signal |
| Measurement Range | 0–4000 W/m² |
| Traceability | World Radiometric Reference (WRR) |
| Cable Length | 5 m |
| Heating Function | Integrated quartz window heater |
| ISO 9060 Classification | Class A (formerly “First Class”) |
| Compliance | ISO 9060:2018, IEC 61724-1, ASTM E816, WMO Guide to Meteorological Instruments and Methods of Observation |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | DR30-D1 |
| Compliance | ISO 9060:2018 Class A (First Class), WMO Guide to Instruments and Methods of Observation |
| Calibration Uncertainty | < 1.2 % (k = 2) |
| Spectral Range | 200–4000 nm |
| Measurement Range | 0–4000 W/m² |
| Field of View (FOV) | 5° full cone |
| Response Time (95 %) | 4 s |
| Zero Offset | < ±1 W/m² |
| Operating Temperature | −40 °C to +80 °C |
| Temperature Response | < ±0.4 % (−30 °C to +50 °C) |
| Power Consumption | 2 W (standard mode), 0.1 W (low-power mode) |
| Supply Voltage | 7–30 VDC |
| Output | Modbus RTU over 2-wire RS-485 |
| Onboard Sensors | Tilt (±1° uncertainty, 0–180° range), Relative Humidity, Heater Current (mA), Internal Temperature (°C) |
| Quartz Window | Precision-ground and polished |
| Thermopile Detector | Black-coated, precision-calibrated |
| Traceability | WRR (World Radiometric Reference) |
| Cable Length | 5 m (optional: 10 m or 20 m with connector) |
| Brand | Hukseflux (Netherlands) |
|---|---|
| Origin | Netherlands |
| Model | IR02 |
| Spectral Range | 4.5–42 µm |
| Field of View | 150° |
| Response Time | 18 s |
| Sensitivity | 15 µV/(W/m²) |
| Operating Temperature | −40 to +80 °C |
| Temperature Dependence | < ±3 % (−10 to +40 °C) |
| Heater Power | 1.5 W @ 12 VDC |
| Standard Cable Length | 5 m |
| Weight | 0.5 kg |
| IP Rating | IP67 |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | IR02-TR |
| Spectral Range | 4.5–40 µm |
| Field of View | 150° |
| Output | 4–20 mA (2-wire loop) |
| Measurement Range | −300 to +100 W/m² |
| Response Time | 18 s |
| Operating Temperature | −40 to +80 °C |
| Temperature Sensitivity | < ±3 % (−10 to +40 °C) |
| Calibration Traceability | WISG or optional ITS-90 blackbody |
| Built-in Heater Power | 1.5 W @ 12 VDC |
| Cable Length | 5 m (extendable in 5-m increments) |
| Housing Material | Anodized Aluminum |
| Window | Flat Silicon with Solar-Blind UV-Blocking Filter |
| Sensor Type | Black-Coated Thermopile |
| Temperature Sensor | Pt100 |
| IP Rating | IP67 |
| Mass | 0.5 kg |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | IR20 |
| Spectral Range | 4.5–42 µm |
| Field of View | 180° |
| Response Time | 3 s |
| Sensitivity | 17 µV/(W/m²) |
| Operating Temperature | −40 to +80 °C |
| Temperature Dependence | < ±0.4 % (−30 to +50 °C) |
| Calibration Traceability | WISG or optional ITS-90 blackbody |
| Thermistor | 10 kΩ |
| Heater Power | 1.5 W @ 12 VDC |
| Cable Length | 5 m (standard, extendable in 5-m increments) |
| Weight | 0.5 kg (sensor only) |
| Ingress Protection | IP67 |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | IR20WS |
| Spectral Range | 1.0–50 µm |
| Field of View | 180° |
| Response Time | 3 s |
| Sensitivity | 17 µV/(W/m²) |
| Operating Temperature | −40 to +80 °C |
| Temperature Dependence | < ±0.4 % (−30 to +50 °C) |
| Heating Power | 1.5 W @ 12 VDC |
| Cable Length | 5 m (standard) |
| Weight | 0.5 kg (sensor only), 1.0 kg (with cable) |
| IP Rating | IP67 |
| Calibration Traceability | WISG or optional ITS-90 blackbody |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR05-A1 |
| Output Type | Analog (mV) |
| ISO 9060 Classification | Secondary Standard |
| Calibration Uncertainty | < 1.8 % (k = 2) |
| Traceability | World Radiometric Reference (WRR) |
| Measurement Range | 0–2000 W/m² |
| Spectral Range | 285–3000 nm |
| Operating Temperature | −40 to +80 °C |
| Cable Length | 3 m (standard), optional 10 m or 20 m |
| Sensitivity | 10 µV/(W/m²) |
| Leveling | Integrated spherical level, optional ball-and-socket mount with/without tube clamp (for Ø25–40 mm) |
| Ingress Protection | IP67 |
| Weight | 0.5 kg |
| Power Supply | Passive (no external power required) |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR05-D1A3 |
| Calibration Traceability | World Radiometric Reference (WRR) |
| ISO 9060 Classification | Secondary Standard |
| Spectral Range | 285–3000 nm |
| Measurement Range | 0–2000 W/m² |
| Calibration Uncertainty | < 1.8 % (k = 2) |
| Operating Temperature | −40 to +80 °C |
| Output Options | RS-485 Modbus RTU + 0–1 V analog |
| Supply Voltage | 5–30 VDC |
| Cable Length | 3 m (extendable) |
| Leveling | Integrated spherical level |
| Field of View | 180° hemispherical |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR05-D1A3-PV |
| Spectral Range | 285–3000 nm |
| Measurement Range | 0–2000 W/m² |
| Calibration Uncertainty | <1.8% (k=2) |
| ISO 9060 | 2018 Classification: Secondary Standard |
| IEC 61724-1 Compliance | Class C |
| Operating Temperature | −40 to +80 °C |
| Output Interface | RS-485 Modbus RTU (with 0–1 V analog backup) |
| Supply Voltage | 5–30 VDC |
| Cable Length | 3 m (extendable) |
| Field of View | 180° hemispherical |
| Mounting | Ball-leveling base, optional tube or planar array fixtures |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR05-D2A2 |
| Calibration Uncertainty | < 1.8 % (k = 2) |
| Traceability | World Radiometric Reference (WRR) |
| Measurement Range | 0–2000 W/m² |
| Spectral Range | 285–3000 nm |
| Operating Temperature | −40 to +80 °C |
| Field of View | 180° hemispherical |
| Output | RS-485 TTL + 4–20 mA analog current loop |
| Supply Voltage | 5–30 VDC |
| Cable Length | 3 m (extendable) |
| Leveling | Integrated spherical level |
| Compliance | ISO 9060:2018 Class II (Secondary Standard) |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR15-A1 |
| Spectral Range | 285–3000 nm |
| ISO 9060 | 2018 Classification: Spectrally Flat Class B |
| Calibration Uncertainty | < 1.8 % (k = 2) |
| Measurement Range | 0–3000 W/m² |
| Response Time | < 10 s |
| Zero Offset (unventilated) | 5 W/m² |
| Operating Temperature | −40 to +80 °C |
| Temperature Response | < ±2 % (−40 to +80 °C) |
| Heater Power Consumption | 1.5 W @ 12 VDC |
| Supply Voltage | 5–30 VDC |
| Analog Output | mV per W/m² |
| Cable Length | 5 m |
| Heating Function | Integrated heater for dew/frost mitigation |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR15-D1 |
| Spectral Class | ISO 9060:2018 Spectrally Flat Class B |
| Calibration Uncertainty | < 1.8 % (k = 2) |
| Measurement Range | 0–3000 W/m² |
| Spectral Range | 285–3000 nm |
| Response Time | < 10 s |
| Zero Offset (unventilated) | 5 W/m² |
| Operating Temperature | −40 to +80 °C |
| Temperature Response | < ±2 % (−40 to +80 °C) |
| Heater Power | 1.5 W @ 12 VDC |
| Supply Voltage | 5–30 VDC |
| Output | RS-485 Modbus RTU (2-wire) |
| Cable Length | 5 m |
| Field of View | 180° hemispherical |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR15-D2A2 |
| Spectral Range | 285–3000 nm |
| ISO 9060 | 2018 Classification: Spectrally Flat Class B |
| Calibration Uncertainty | < 1.8 % (k = 2) |
| Measurement Range | 0–3000 W/m² |
| Response Time | < 10 s |
| Zero Offset (unventilated) | 5 W/m² |
| Operating Temperature | −40 to +80 °C |
| Temperature Response | ±2 % (−40 to +80 °C) |
| Power Supply | 5–30 VDC |
| Digital Output | TTL Modbus RTU |
| Analog Output | 4–20 mA |
| Cable Length | 5 m |
| Compliance | ISO 9847, ASTM E2848, IEC 61724-1, WMO No. 8 |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR20 |
| Calibration Traceability | World Radiometric Reference (WRR) |
| ISO 9060 | 2018 Classification: Secondary Standard |
| Measurement Range | 0–4000 W/m² |
| Spectral Range | 285–3000 nm |
| Sensitivity | 15 × 10⁻⁶ V/(W/m²) |
| Calibration Uncertainty | < 1.2 % (k = 2) |
| Zero Offset (a) | < 5 W/m² (unventilated), 2.5 W/m² (with VU01 ventilation unit) |
| Operating Temperature | −40 to +80 °C |
| Temperature Response | < ±1 % (−10 to +40 °C) |
| Directional Response Report | Included |
| Temperature Dependence Characterization | Individual quadratic polynomial provided per unit |
| Heating Power | 1.5 W @ 12 VDC |
| Output Signal | Analog voltage (mV) |
| Supply Voltage | 8–30 VDC |
| Integrated Temperature Sensor | Pt100 or 10 kΩ thermistor |
| Cable Length | 5 m (extendable in 5-m increments) |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR20-D2 |
| ISO 9060 Classification | Secondary Standard |
| Calibration Uncertainty | < 1.2 % (k = 2) |
| Zero Offset a | < 5 W/m² (unventilated), 2.5 W/m² (ventilated) |
| Traceability | World Radiometric Reference (WRR) |
| Measurement Range | 0–4000 W/m² |
| Spectral Range | 285–3000 nm |
| Field of View | 180° (hemispherical) |
| Operating Temperature | −40 to +80 °C |
| Temperature Response | < ±0.4 % (−30 to +50 °C, corrected in data processing) |
| Digital Output | RS-485 Modbus RTU |
| Analog Output | 4–20 mA (0–1600 W/m² range) |
| Supply Voltage | 5–30 VDC |
| Power Consumption | < 75 mW @ 12 VDC (digital), < 40 mW @ 12 VDC (analog, with 100 Ω shunt) |
| Cable Length | 5 m (standard) |
| Compliance | ISO 9060:2018, IEC 61724-1:2021 (PV monitoring), WMO Guide to Instruments and Methods of Observation |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR22 |
| ISO 9060 Classification | Secondary Standard |
| Spectral Range | 190–4000 nm |
| Calibration Uncertainty | < 1.7 % (k = 2) |
| Zero Offset (unventilated) | < 5 W/m² |
| Zero Offset (ventilated) | < 2.5 W/m² |
| Measurement Range | 0–4000 W/m² |
| Sensitivity | 15 × 10⁻⁶ V/(W/m²) |
| Operating Temperature | −40 to +80 °C |
| Temperature Response | < ±1 % (−10 to +40 °C) |
| Directional Response Report | Included |
| Temperature Dependence Characterization | Supplied as二次 polynomial per unit |
| Output Signal | Analog voltage |
| Supply Voltage | 8–30 VDC |
| Heater Power | 1.5 W @ 12 VDC |
| Cable Length | 5 m (extendable in 5 m increments) |
| Weight | 1 kg |
| Ingress Protection | IP67 |
| Integrated Temperature Sensor | Pt100 or 10 kΩ thermistor |
| Traceability | WRR (World Radiometric Reference) |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR25 |
| Spectral Range | 285–4000 nm |
| Measurement Range | 0–4000 W/m² |
| Sensitivity | 15 × 10⁻⁶ V/(W/m²) |
| Zero Offset (a) | ≤1 W/m² (unventilated) |
| Temperature Response | < ±1 % (−10 to +40 °C), < ±0.4 % (−30 to +50 °C, with correction) |
| Operating Temperature | −40 to +80 °C |
| Heating Power | 1.5 W @ 12 VDC |
| Cable Length | 5 m |
| Weight | 1 kg |
| IP Rating | IP67 |
| Calibration Traceability | World Radiometric Reference (WRR) |
| ISO Classification | Secondary Standard |
| Field of View | 180° hemispherical |
| Output | Analog mV signal |
| Thermal Offset | Ultra-low, engineered for diffuse radiation measurement |
| Brand | Hukseflux |
|---|---|
| Origin | Netherlands |
| Model | SR30-M2-D1 |
| Spectral Range | 285–3000 nm |
| Calibration Uncertainty | <1.2 % (k=2) |
| Measurement Range | –400 to +4000 W/m² |
| Zero Offset | <2 W/m² |
| Response Time (95%) | 4 s |
| Operating Temperature | –40 to +80 °C |
| Temperature Response | <±0.4 % (–30 to +50 °C) |
| Tilt Sensor Accuracy | ±1° (0–90°, –30 to +50 °C) |
| Power Consumption | <3 W @ 12 VDC (heated/ventilated mode) |
| Output | Modbus RTU over 2-wire RS-485 |
| Cable Length | 5 m (standard) |
| Compliance | ISO 9060:2018 Spectrally Flat Class A, IEC 61724-1:2017 Class A & B, WMO Performance Level I |