Optical Emission Spectrometer
Constant Monitoring of the Discharge Status
A Real-time Energy Monitoring* function monitors the discharge energy consumed between the counter electrode and the sample. The discharge energy is accurately set and controlled, and discharge defects due to the surface condition of the sample can be instantly detected from the discharge energy. The accuracy is improved by eliminating samples with defects from the measurement.
Supporting Diverse Metal Materials
Many metal materials can be analyzed over a wide range of optimal discharge conditions, such as high-energy discharge for metals like steel with a high melting point, or low-energy discharge for metals like lead and zinc alloys with a low melting point, through the use of a newly-developed discharge energy stabilizing excitation unit.
Ultra Trace Analysis of High Purity Materials
Current Regulative Spark* (CRS), capable of stabilizing the current for every pulse, improves analysis sensitivity of trace amounts.
Energy Efficient Design
This energy-efficient spectrometer has a power consumption of 510 W (43 % reduction from our previous Optical Emission Spectrometer).*1 The argon gas consumption has also been reduced by about 45 % as compared to our previous model.*2
*1 For analyzing 15 samples/hour
*2 The consumption for analyzing 150 samples/8 hours in 1 day