Scale to Succeed Optimize to Lead: The Tech Edge for the Next LiPF₆ Capacity Cycle
RS2600PAT Online Raman Multi-Gas Analyzer For Industrial Application
Winning the Efficiency Race in the Era of Gigafactories
As the global battery industry scales to terawatt-hour levels, LiPF₆ producers are engaged in a massive capacity build-out. In this new cycle, competition will not be won by scale alone but by who can operate their scale most efficiently. The low-hanging fruit of volume is gone; the next frontier is operational excellence and technological sophistication.
Integrating the JINSP RS2600PAT Online Raman Analyzer into new mega-scale plant designs is a decisive strategic investment. It embeds a native intelligence layer into the very heart of the production process. While competitors with legacy "black-box" processes struggle with the inefficiencies of large-scale, multi-reactor coordination, your operation will have a granular, data-rich view of every synthesis line.
The Smart Factory Enabler: This technology enables a leap from scale competition to quality and efficiency competition. It provides the foundational data for advanced process control (APC) and digital twin applications. You can optimize not just one batch, but the entire production schedule, energy flow, and feedstock usage across a vast facility. The marginal gains in yield, reduction in utility cost, and increase in asset utilization compound across hundreds of thousands of tons of production, creating an unassailable cost advantage. The RS2600PAT is the tool that lets you run bigger, smarter, and more profitably, securing leadership in the coming industry shakeout.
Technical Highlights:
- Multi-component: simultaneous online analysis of multiple gases
- Universal: >500 types of gases are detectable except noble gases
- No need for pressure control: Quantification is not affected by changes in sample gas pressure
- Rapid response: Complete a single detection within seconds
- Wide quantitative range: detection limit is as low as ppm level, and the measurement range can be as high as 100%
Technical Specifications:
| Components | N2, H2, O2, CO, CO2, H2S, CmHn, etc. |
| Analysis time | 2 seconds |
| Measurement uncertainty | ≤0.2% |
| Laser excitation wavelength | 532 ± 0.5 nm |
| Spectral coverage | 200 ~ 4200 cm-1 |
| Spectral resolution | ≤8 cm-1 at full spectral range |
| Air circuit interface | 6 mm standard tube fitting (3 mm, 1/8’’, and 1/4’’ are optional) |
| Explosion-proof | ExdbebibmbpxbIICT4Gb / ExtbibmbIIICT135ºCDb |
| Input voltage | 100~240 VAC,50~60 Hz |
| Sample gas temperature | -20 ºC ~ 55 ºC |
| Sample gas pressure | <1.0 MPa |
| Unit dimensions | 750 mm (Width) × 900 mm (Height) × 1400 mm (Depth) |
| Weight | 250 kg |
Main Features:
- Quantitative model of multiple standard curves, combined with the chemometric method, establishes the relationship between the spectral signal (peak intensity or peak area) and the content of multi-component substances.
- Changes in sample gas pressure and test conditions do not affect the accuracy of quantitative results.
- No need to establish a separate quantitative model for each component.
Field of Applications:
- Petrochemical field: Quantitative analysis of different Elements in Petrochemical Natural Gas
- As a mixture of hydrocarbon components, the accuracy of qualitative and quantitative analysis of natural gas components directly affects the quality index of natural gas - calorific value.
- Fluorine chemical industry: Detection of components in reaction and emitted gases of fluorine materials ; Monitoring of F2 , N2 , HF and other components in the fluorination process.
- Metallurgical field;
- Isotope gases.
- Detection of Impurity Gases in Electronic Special Gases.
Usage/implementation:
Through valve control, it can achieve the following functions:
- Monitoring the content of each component in the raw gas.
- Alarm notification for impurity gases in the raw gas.
- Monitoring the content of each component in the synthesis reactor tail gas.
- Alarm notification for the excessive emission of hazardous gases in the synthesis reactor tail gas.
Company Introduction:
JINSP – Your Trusted Spectral Technology Partner
With 17 years of expertise, JINSP Company Limited delivers high-precision spectral detection solutions (Raman, FT-IR, LIBS) for global industries. Our ISO 9001:2015, 14001:2015, and 45001:2018 certifications underscore our commitment to quality, safety, and sustainability. Based in Beijing with a Jiangsu manufacturing hub, we hold 200+ patents and provide certified compliance (CE, ECAC, Public Security Ministry, IP Level, and more). Trust JINSP for globally accredited, high-performance detection systems.
FAQ:
Q1: This is the first time I use it, is it easy to operate?
A1:We will send you a manual and guide video in English, it can teach you how to operate the spectrometer. Also, our technicians will offer professional technical operation meetings.
Q2: Can you offer an operation training?
A2: Your technicians can come to our factory for training. Jinsp engineers can go to your place for local support ( installation, training, debugging, maintenance ).
Q3: How to receive the best price in the shortest time?
A3: When you send us an inquiry, please kindly offer details with wavelength, detector, effective pixels, focal length, and so on. We will send you a quotation with details soon to your email.
Q4: What about quality assurance?
A5:We have a quality inspection team. All goods will go through quality inspection before shipment. We can send you pictures for inspection.
Get in Touch
Have questions about our products or want to discuss a custom order? Our team is ready to help you.