EMGA-Expert

Oxygen/Nitrogen/Hydrogen Analyzer
(Flagship High-Accuracy Model)

Experience unparalleled speed and precision - our cutting-edge solution offers high-throughput, reliable results for your analytical needs

The EMGA-Expert Oxygen/Nitrogen/Hydrogen Analyzer significantly reduces analysis time and costs while enhancing analysis accuracy and functionality. The EMGA series has been a best-selling model for over 40 years since its release in 1980, maintaining industry-leading analysis accuracy that strongly supports material research and development and quality control.

We have achieved a reduction of approximately 40% in analysis time and running costs compared to our previous model, through comprehensive efficiency improvements. It is also equipped with an automation mechanism to improve operator safety, and reduce operator working hours.

Typical Applications:
- Energy: Materials for lithium-ion battery, fuel cell, electrolyzer
- Electric parts
- Ceramics
- Semiconductor: Silicon, poly-silicon, GaN
- Steel and non-ferrous alloy (metallurgy): Iron, copper, nickel, aluminum, zinc, tungsten carbide
- Mineral: Cokes, lime stone, coal, silicone, rare-metal
- Others: Catalyst, rubber, carbon black, silica, cement

* For more entry-class applications,  we also offer the EMGA-Pro (Entry Model).

Segment: Scientific
Výrobní společnost: HORIBA, Ltd.

The Overview of the EMGA Series

Video

 


 

Overwhelming Speed - Achieved a 40% Reduction in Typical Analysis Time

"I need to reduce the time I have to spent on measurements. I do not want to make the post-process wait for my result."

HORIBA’ s proprietary sequence algorithm reduces the analysis cycle time compared to our conventional models, by optimizing the gas flow.*       *patent applied

 


 

Highly Accurate Analyses from ppm to % across a Wide Range of Measurements

"I require my samples to be analyzed with precision, consistency, and reliability."

Proven NDIR Gas Detection Technology

The EMGA Series has NDIR gas detectors developed, designed, and manufactured by HORIBA. Based on detailed design and sophisticated production technology, these detectors are manufactured with close attention to all processes, from the polishing and assembly of components to adjustment and confirmation of stable operation. Our thorough quality control provides stable and highly reliable measurement for an extended period with the EMGA Series. In addition, we have also developed the TCD detector in-house so that these analyzers can demonstrate the best performance.
 

Please also refer the Measurement Principle page for the details.

 


 

Significantly Reduced Both Labor and Consumable Costs

"Less downtime, less running cost!"

Easy Replacement of Lower Electrodes*    * Patent applied

With the new design for replacing the chip all you have to do is remove the lower electrode cap to replace the chip, without any special tool. This mechanism reduces the amount of time it takes to approximately 1/10.


New Dust Filter*      * Patent applied

With the new mechanism for replacing the dust filter you only need to replace the thin filter inside the filter holder. This has also reduced the filter replacement frequency to 1/10 (replacement required after about 500 measurement cycles).

 

Significantly Reduced the Carrier Gas Consumption*      * Patent applied

The number of measurements that can be performed with one gas cylinder has significantly increased from about 1,400 times to 2,300 times when a 47-liter cylinder is used.

 

Automation Options

We provide three optional automation units for streamlining your operation for the EMGA Series:
- Crucible Loader: Precise capture and positioning of crucibles by rotary mechanism. Maximum stock: 100 pcs.
- Auto Sampler: Samples and fluxes are automatically loaded (Up to 22).
- Auto Cleaner: Two rotating brushes clean the upper and lower electrodes after each measurement.
 
Please refer the Automation Options for the EMIA/EMGA Series Elemental Analyzers for the details.
 

 


 

More Intuitive Software for Easy Operation

Advanced Operation Software

The EMGA Series has its original operation software which prioritized ease of use, specifically in optimizing the layout, operating menus, and functions. Additionally, self-diagnostic monitoring was implemented to assess the connected device's status, an alarm function was integrated, and three navigators were expanded to improve daily operation.

 

 

Enhanced Operator Assistance

Additionally, the software includes a self-diagnostic monitoring feature to assess the status of connected devices, an alarm function, and three navigators to recommend the most suitable conditions for samples, troubleshoot errors, and alert users to perform maintenance. These features improve daily operation and ensure efficient analysis.

Watch the EMIA Series maintenance video
*The user interface and functionalities of the software for this system are the same with those of EMIA-Pro.

Selectable option

ModelAuto CleanerCrucible LoaderAuto Sampler C-550 (Gas conversion) ONH 3componentsCustomization / Special Acceptance 

EMGA-Pro

   
EMGA-Expert

See Automation Options for more information.

 

Specifications

 

Dimensions

Measurement of Oxygen Deficiency in Lithium Manganate
Measurement of Oxygen Deficiency in Lithium Manganate
Spinel-type lithium manganate (LiMn2O4-σ) is said to change its discharge characteristics due to slight differences in composition caused by oxygen deficiency. The differences in the discharge characteristics of lithium manganate batteries are also observed in the particle size and crystal structure, but attention is also paid to the difference in the oxygen bonding ratio, as samples with less oxygen bonding have poorer discharge characteristics.
Oxygen, Nitrogen, and Carbon Analysis in Nuclear Fuels
Oxygen, Nitrogen, and Carbon Analysis in Nuclear Fuels
From the perspective of ensuring energy security and reducing CO2 emissions, the use of nuclear energy is attracting worldwide attention. A joint declaration was also released by 25 countries setting forth a cooperation policy toward the ambitious goal of tripling the world's nuclear power generation capacity by 2050 compared to 2020 levels. The safety of nuclear fuel as well as the improvement of fuel performance is extremely important, and the content of oxygen, nitrogen, and carbon must be strictly controlled in nuclear material performance.
Purity Analysis in Precious Metal Recycling
Purity Analysis in Precious Metal Recycling
While precious metals such as Au, Ag, Pt, and Pd are finite materials, they are essential for electronic components and functional materials. Therefore, it is important to separate and extract the necessary precious metals from the final products and recycle them as high-purity precious metals in order to secure resources and reduce costs. Impurities, which must be controlled, include light elements such as carbon, sulfur, oxygen, and nitrogen. For example, Au (gold) used in electronic devices must be at least 99.999% pure.
Analysis of Oxygen (O) and Nitrogen (N) in Metal 3D Printer Materials
Analysis of Oxygen (O) and Nitrogen (N) in Metal 3D Printer Materials
Stainless steel, Ti, Al, and Cu are commonly used as metal 3D printing materials, and customers have expressed a desire to be able to quickly manage the amounts of oxygen (O) and nitrogen (N) in those materials. For example, if the Ti material contains a large amount of oxygen (O), oxides will be produced, which can lead to defects in the printed part.
Quantitative Analysis of Oxygen in Silicon Wafers
Quantitative Analysis of Oxygen in Silicon Wafers
The concentration of oxygen in silicon wafers has a significant impact on their electrical resistance. Therefore, it is crucial to control the concentration of oxygen, even in extremely small amounts, in silicon wafers. However, a challenge arises when analyzing highly doped single crystals. Due to their unique properties and high doping levels, the analysis of oxygen in these samples becomes more difficult. The presence of impurities and dopants can interfere with the accurate measurement of oxygen concentration using FT-IR spectroscopy.
Oxygen and Nitrogen determination in Boron Nitride
Oxygen and Nitrogen determination in Boron Nitride
This application note will show the relevance of the EMGA-920 to measure high levels of nitrogen while simultaneously determininig low levels of Oxygen with good precision.
Oxygen and Nitrogen determination in Aluminium Nitride
Oxygen and Nitrogen determination in Aluminium Nitride
This application note will show the relevance of the EMGA-920 to measure high level of Nitrogen while maintaining the needed precision for Oxygen determination in AIN.
The Hydrogen Analysis of Solid Samples
The Hydrogen Analysis of Solid Samples
Each year the marketplace sees increasing demands for the analysis of hydrogen contained in various sample materials.
Hydrogen Analysis in steel and metals: Solid Extraction or Fusion
Hydrogen Analysis in steel and metals: Solid Extraction or Fusion
EMGA has been designed for accurate measurements of hydrogen content in different sample types such as ferrous metals, non-ferrous metals, semiconductors or electronic materials. The hydrogen content is extracted by fusion of the sample in inert gas and analyzed by a high sensitivity thermal conductivity detector. It is also possible to avoid fusion and extract hydrogen content in the sample by heating below the melting point. The purpose of this note is to explain when to use fusion or solid extraction, the benefits, the applications and samples.
Sample Preparation and Sampling Methods for the Gas Analysis of Steel
Sample Preparation and Sampling Methods for the Gas Analysis of Steel
Quality Assurance for the Analysis of Steel by Gas Component Analysis
Quality Assurance for the Analysis of Steel by Gas Component Analysis

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