<<<—ICP-6500Introduction to Inductively Coupled Plasma Emission Spectrometer——

——Safe and reliable solid-state RF power supply

The RF power supply used in the instrument has small size, high output efficiency, stable output power, and various safety protection functions such as water, gas, and overload, greatly improving the safety of the instrument and reducing its failure rate.
——High degree of instrument automation
The automation level of the instrument is extremely high, and all operations except for the power switch are completed by software. Intelligent software that can provide real-time feedback and information prompts for various operations.
——Fully automatic ignition and matching technology
The software can automatically ignite with one click, and all parameter settings changes are automatically completed. Combined with advanced automatic matching technology, the ignition success rate is high and the operation is simple.
——Intelligent flame monitoring function
The instrument is equipped with a highly sensitive fiber optic sensor, which can monitor the working condition of the flame in real time while the instrument is in operation. In case of abnormal flameout, the instrument can be automatically turned off.
——High precision airflow control system
High precision mass flow controllers are used for plasma gas, auxiliary gas, and carrier gas in instrument operation（MFC is used for control, with continuously adjustable flow rate and high accuracy in outputting airflow, ensuring the accuracy of test data.
——Peristaltic pump injection device
The instrument is equipped with a high-precision peristaltic pump with four channels and twelve rollers, which can simultaneously ensure the accuracy of sample injection and prevent liquid accumulation. The rotational speed of the peristaltic pump is continuously adjustable to meet various testing requirements of customers.
——Ultra high resolution optical path system
The instrument is equipped with ultra-high resolutionThe imported grating with 4320 engraved lines, combined with unique patented optical path adjustment technology, reduces the resolution of ordinary instruments from about 0.008nm to within 0.005nm. The ultra-high resolution ensures that there is no mutual interference between test elements.
——High precision constant temperature system
The overall optical path of the instrument is protected by a precision constant temperature system, and the temperature control can be set in real time according to the actual environmental temperature of the customer's laboratory, without the need for long-term continuous adjustment. The temperature control accuracy is high≤± 0.1 ℃, the precise constant temperature system ensures the stability of the optical path, and the test data is more stable.
——Highly sensitive detector
The instrument is equipped with highly sensitive imported photomultiplier tubes（PMT, as a detector, can automatically set the optimal test parameters for different test elements to achieve the ideal detection state and provide accurate test results. No need for refrigeration, no need for blowing, long service life.
——Ultra low usage cost
When the instrument is not in operation, the power supply, cooling water tank, and gas are all turned off without any cost. The instrument can be used immediately without the need for prolonged preheating of the optical path. The purity of argon gas used is99.99% is sufficient, without the need for 99.999% high-purity argon, saving at least one-third of the cost.
——Automatic adjustment of observation position
The instrument adopts a two-dimensional mobile platform design, which can adjust the position of the torch tube in real time through software. The optimized observation position can be found through feedback signal values to obtain strong sensitivity and accurate testing results.

<<<—ICP-6500typeICPspectrometerTechnical parameters——

1Independently developed all solid state RF power supply, output power800-1600W, Continuously adjustable, power efficiency greater than 65%, operating frequency 27.12MHz, frequency stability<0.05%, power output stability<0.05%.
2. Fully automatic one key ignition, automatic matching, stable and convenient ignition.
3. Adopting a concentric circle atomizer combined with a swirl chamber, with a 1ppm Mn intensity greater than 1000000 CPS
4. Adopting Czerny Turner type optical path with a focal length of 1000mm
5. Ion etched holographic grating with a engraved area of (80 × 110) mm
6. Resolution (Mn257.610nm): ≤ 0.005nm (4320 line grating); ≤ 0.008nm (3600 line grating); ≤ 0.015nm (2400 line grating)
7. Wavelength range: 190-460nm (4320 line grating); 190-500nm (3600 line grating); 190-800nm (2400 line grating)
8. Input power supply: voltage AC 220V, current 20A.

<<<—ICP-6500typeICPspectrometerApplication Fields——

Provide customers with comprehensive pre-sales, in sales, and after-sales service solutions
1. Environmental Protection Industry
Accurately and quickly analyze the elemental composition of environmental samples (water quality, soil, atmosphere) to safeguard human daily life.
2. Geological and mining industry
Accurate and rapid analysis of mineral content has strict guiding significance for early mining, mid-term control, and later restoration of mines.
3. Metallurgical industry
The analysis of product ingredients can provide real-time control over the production process and technology, ensuring the ingredient content of the final product and meeting the quality requirements of the final product.
4. Toy and consumer goods industry
Analyze heavy metal elements in children's toys and consumer goods to ensure that the content of heavy metal elements in the produced products is within the controlled range, allowing parents and children to feel more at ease.
5. Precious metal industry
The content of impurity elements in precious metals directly affects the purity and performance of precious metals, and determines the value of precious metals themselves. Accurately determining the content of low impurity elements is extremely important for the precious metal industry.
6. Rare earth industry
The value and use of rare earth elements are increasingly favored, and the application range of high-purity rare earth elements is also becoming wider. The analysis of impurity elements is particularly important, and the accuracy and efficiency required for rare earth testing can be fully met.
7. Other industries
Industries with requirements for element detection in other teams