MEXAcube
Compact Emissions Measurement System
MEXAcube utilizes our proprietary technology, IRLAM™, to continuously support the development of internal combustion engines (ICEs) and meet new regulatory requirements for diversified fuels. It can measure CO, CO2, NO, NO2, N2O, NH3, HCHO, CH4, and THC with precision. By achieving approximately 80% lower power consumption compared to previous laboratory analyzers, it provides a sustainable and energy-efficient way to meet stringent regulations. Additionally, it supports exhaust gases from carbon-neutral fuels, such as hydrogen and ammonia, which contain high concentrations of moisture, contributing to the development of next-generation mobility.
Why Choose MEXAcube
- For users facing the challenge of balancing precise emissions measurements with sustainability goals, MEXAcube offers an ideal solution.
- MEXAcube utilizes our proprietary technology, IRLAM™, to continuously support the development of internal combustion engines (ICEs) and meet new regulatory requirements for diversified fuels.
Key Advantages of MEXAcube
Dual Environment Capability
Ensures reliable testing in both laboratory and real‑world conditions.
Carbon Neutrality Support
Advances carbon neutrality initiatives while accommodating a range of fuel types.
Compact Portability
Delivers enhanced portability and intuitive operation for field and bench setups.
Modular Design
Enables customization through add‑on sensors and configurations to meet diverse testing requirements.
Applications of MEXAcube
Euro 7 Compliance Testing
Validates vehicle emissions against the upcoming Euro 7 standards in both laboratory and field environments.
Hydrogen ICE Testing
Measures exhaust components of hydrogen internal combustion engines to support alternative‑fuel development.
RDE with PEMS
Captures real‑driving emissions using a portable measurement system under dynamic, on‑road conditions.
Chassis & Engine Testing
Performs tailpipe emissions analysis on light‑duty vehicle chassis and heavy‑duty engines via dynamometer setups.
Technical Specifications of MEXAcube
| Measurement principle | Quantum Cascade Laser Infrared Spectroscopy (QCL-IR) THC: Flame Ionization Detector (FID) | |||
| Laser class | Class 1 (based on IEC:60825-1:2014) | |||
| Measurement components and range | CO | 0 - 8000 ppm, 0 - 12 vol% | NH3 | 0 - 1500 ppm |
| CO2 | 0 - 20 vol% | HCHO | 0 – 50 ppm | |
| NO | 0 - 2000 ppm | CH4 | 0 - 2000 ppmC, 0 - 10000 ppmC | |
| NO2 | 0 - 800 ppm | THC | 0 - 10000 ppmC | |
| N2O | 0 - 1000 ppm | |||
| Sample line temperature | 190℃ | |||
| Sample gas flow rate | Approx. 3 L/min(20℃, 1 atm) | |||
| Usage environment | Temperature: -10 ℃ to 45 ℃, Humidity: 80 % or less, Altitude: 0 ~ 3000 m above sea level | |||
| Rise time t10-90 | 2.5 seconds or less | |||
| Drift (4 hours at room temperature 20℃)※ | NO, NO2, NH3: [Zero] ±1.0 ppm [Span] ±1.0% RS HCHO: [Zero] ±0.5 ppm [Span] ±1.0% RS | |||
| Zero noise (3σ at room temperature 20℃)※ | NO: 1.0 ppm or less, NO2, NH3, HCHO: 0.5 ppm or less | |||
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