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Multitype ICP Emission Spectrometers ICPE-9800 Series – SHIMADZU CORPORATION
Elemental analysis, Optical Instruments, Test Instruments, Testing Instrument & EquipmentMultitype ICP Emission Spectrometers ICPE-9800 Series – SHIMADZU CORPORATION
Best for all laboratories
Due to their high detection sensitivity down to ppb levels, ability to analyze a broad 5 to 6-digit range of concentrations, and ability to measure multiple elements simultaneously, ICP emission spectrometers are used in a broad range of fields, such as environmental testing, pharmaceuticals, foods, chemicals, and metals. ICPE-9800 Series of simultaneous ICP atomic emission spectrometers are next-generation systems that offer the superior accuracy necessary to simultaneously and quickly analyze multiple elements regardless of their concentration levels. They also feature user-friendly software that makes analysis easy. Furthermore, the systems reduce analysis costs while providing the highest performance levels in the industry. ICPE-9800 Series systems represent the ultimate in ICP atomic emission spectrometry for environmental, pharmaceutical, food, chemical, metal, and other fields.
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When selecting Test Instruments for your company’s needs, there are several important points to consider during the comparison and evaluation process.
1. Accuracy and Precision:
Evaluate the accuracy and precision of Test Instruments. Consider how well the instruments can provide reliable and consistent measurements under various conditions.
2. Cost and Value:
Compare the costs associated with different Test Instruments. Consider not only the initial purchase price but also ongoing operational costs and the overall value the instruments provide for your specific testing needs.
3. Technology Used:
Determine the technology employed in the test instruments. Whether it’s based on electronic, optical, or other methods, choose the technology that best suits your testing requirements.
4. Measurement Range:
Specify the required measurement range for the test instruments. Ensure that the chosen instruments can cover the full range of values relevant to your testing applications.
5. Response Time:
Assess the response time of the instruments. Depending on your testing needs, a fast response time might be crucial for real-time monitoring and control.
6. Calibration and Maintenance:
Examine the ease of calibration and maintenance. Regular calibration is essential for accurate results, and instruments with straightforward maintenance procedures often have longer lifespans.
7. Safety Features:
Check for safety features incorporated into the instruments, especially if they will be used in potentially hazardous conditions. Safety features could include automatic shutoffs or alarms for abnormal conditions.
8. Data Handling and Connectivity:
Evaluate the data handling capabilities and connectivity options of the instruments. The ability to log and transmit data can be crucial for analysis and integration with other systems.