Full Spectrum Inductively Coupled Plasma Optical Emission Spectrometer

The Perfect Combination of Qualitative and Quantitative Analysis... Everything You Desire, We Possess... 

The ICP3200, a full spectrum inductively coupled plasma optical emission spectrometer, is another new and innovative dual-view ICP-OES introduced by Skyray Instrument, following the success of the ICP3000. It incorporates the latest intelligent optical path switching technology and spectral depth processing technology, allowing for both quantitative and qualitative analysis based on dual-view observation. It is used to determine trace and ultra-trace element contents in different substances (dissolvable in hydrochloric acid, nitric acid, hydrofluoric acid, etc.). It offers high automation, ease of operation, and stability and reliability. It finds wide applications in various fields such as rare earths, geology, metallurgy, chemical industry, environmental protection, clinical medicine, petroleum products, semiconductors, food, biological samples, forensic science, agricultural research, and more.

Performance Advantages
Superfast Testing Speed
Utilizing scientifically intelligent optical calibration algorithms, the system automatically calculates optical system offsets upon startup. If the offset exceeds a threshold, it can be quickly calibrated through software. The hardware supports independent readout of spectral line arrays, with the readout time for a single spectral line not exceeding 2ms. A single exposure completes a full spectrum analysis, eliminating the need for multiple exposure optimizations, resulting in excellent detection limits and a linear dynamic range. All elements can be analyzed within 15 seconds of a single exposure.

Powerful Software Analysis Features
The software offers convenient and intuitive operation, with features such as automatic collimation, one-click ignition, and easy-to-use status monitoring. It provides qualitative, semi-quantitative, and quantitative analysis capabilities, as well as one-click observation direction switching. It includes instrument diagnostic and optimization functions, flexible full spectrum research capabilities, robust offline reprocessing features, and the ability to manage result sets for a variety of methods and samples. Additionally, it incorporates scientifically intelligent background correction and interference removal algorithms, making testing more professional and accurate.

Outstanding Scientific-Grade CID Detector Performance
Utilizing a scientific-grade detector with a million-level pixel count and the industry's largest active area, this technology is advanced, mature, and stable. The latest generation CID detection system boasts a perfect high dynamic range and overflow resistance. Combined with the unique Non-Destructive Readout (NDRO) functionality, it ensures that spectral lines of varying intensity can be analyzed within a single exposure. This improves the signal-to-noise ratio of weaker analytical lines and provides flexibility in selecting the ideal wavelength for method development.

Stable and Advanced Solid-State RF Power Supply
The instrument employs a solid-state RF power supply independently developed by Skyray Instrument, boasting advantages such as a small volume, high efficiency, stable output power, and various protection functions. It is further enhanced by the inclusion of fully automatic matching technology, which improves the instrument's stability and safety.

Innovative Combustion Chamber and Airflow Design
The combustion chamber features a new airflow design in combination with a patented torch, reducing the impact of heat accumulation in the combustion chamber on atomization efficiency and optical path. This design effectively enhances the long-term stability of the instrument.

Cutting-Edge Tail Flame Cutting Technology
Our innovative tail flame cutting technology incorporates a cold cone with argon backflushing to eliminate tail flames, reducing self-absorption of samples, lowering background interference, and enhancing axial performance. The specially treated cone design simplifies routine maintenance, ultimately decreasing maintenance costs.

Intelligent Bidirectional Observation Technology
By employing intelligent positioning and a vertical torch with bidirectional observation technology, combined with a mid-grating prism cross-dispersion optical structure, we meet the requirements of precise qualitative and quantitative measurements.

Patented Three-Dimensional Distributed Temperature Control System
Our system features a patented three-dimensional distributed temperature control system, boasting temperature control accuracy exceeding 0.1°C. This, coupled with a unique heating process, ensures the long-term stability of the optical chamber.

Field of Application
Feed and Food Industry
Accurate quantification of harmful heavy metals, additive elements, and essential nutrients in feed and food products is of paramount importance for ensuring the safety of both animal feed and human food.
Environmental Protection Industry
The precise and rapid analysis of heavy metal elements in environmental samples (such as water and soil) plays a vital role in safeguarding human daily life and the environment.
Petrochemical Industry
Accurate measurement of elemental content in petrochemical products (e.g., gasoline, diesel, lubricating oil), as well as elemental analysis of raw materials and finished products in the chemical industry, ensures compliance with quality control in the production process.
Metallurgical Industry
It provides essential guidance for material inputs and impurity control during the metal smelting process, enabling timely process optimization, product quality assurance, and cost reduction.
Toy Industry
Analysis of heavy metal elements in children's toys ensures that the levels of heavy metal elements in manufactured products fall within the established control limits, providing peace of mind for parents and safety for children.
Mining Industry
Accurate and rapid analysis of elemental content in mineral resources plays a crucial role in guiding early-stage mining, mid-term control, and later-stage reclamation efforts.
Precious Metals Industry
The content of impurity elements directly impacts the purity and performance of precious metals and, in turn, their intrinsic value. Accurately determining the content of low-level impurity elements is of utmost importance in the precious metals industry.
Rare Earth Elements Industry
Rare earth elements are increasingly valued for their unique properties and applications, with high-purity rare earth elements finding applications in a wide range of industries. Analyzing impurity elements is particularly important in this context, and the characteristics of accuracy and efficiency required in rare earth testing can be fully met.
Lithium Battery Industry
Effortlessly solving the analysis of major elements and impurity elements in the cathode and anode materials of lithium-ion batteries has significant implications for guiding lithium battery production and development, improving performance, and ensuring safety.
Construction Materials Industry
Precise and rapid analysis of impurities in construction materials such as cement, glass, and refractory materials helps with quality control, ensuring safe construction and contributing to the construction of better living environments.