lNCS Optical Emission Spectrometer, a Single Champion Product in the manufacturing industry.

lLong-term commitment to spectral analysis technology and instrument manufacturing.

lDrafter of the national standard GB/T 4336-2016 Carbon Steels and Low-Alloy Steels — Determination of Multi-Element Contents — Spark Discharge Atomic Emission Spectrometric Method (Routine Method).

lExcellent analytical performance in terms of accuracy, precision and detection limits.

lFeatures outstanding stability, low detection limits, fast analysis, easy maintenance and strong anti-interference capability.

lThe Labspark 1000 spark optical emission spectrometer is widely used for production process control, on-site furnace analysis and finished product inspection in central laboratories in metallurgy, foundry, machinery, metal processing and other fields.

lCapable of analyzing Fe and its alloy samples, from routine elemental analysis to new material R&D, providing customers with optimized solutions.

1.Paschen-Runge mounting with a grating focal length of 750 mm

2.High-luminance holographic grating with 2400 grooves/mm

3.Spectral range: 120–800 nm

4.Resolution: better than 0.01 nm

5.Number of configurable detection channels: 48

6.240 optional spectral lines

7.Newly designed optical chamber structure with a newly developed detection device, enabling easy detection of long-wavelength elements (such as Li, Na, K), some extremely short-wavelength elements, and elements with severe interference (such as N, P, S, B, Sb)

8.Power supply: 220 V ±10%, single-phase, 10 A, 2.5 kVA

9.Dimensions (W×D×H): 139 cm × 80 cm × 117 cm

10.Weight: 400 kg

lHigh-resolution vertical direct-illumination optical system built in a Class 10,000 ultra-clean environment, which shortens the light transmission path, enhances element signal intensity, and lowers the instrument’s detection limit. Equipped with a holographic grating with a 750 mm focal length, it enables easy detection of long-wavelength elements such as Li and Na, as well as extremely short-wavelength elements or elements with severe interference, such as N, P, S, B, and Sb.

lInnovative time-delay integration technology, with hardware-adjustable delay integration time for each element, reduces background noise and interference, thereby minimizing the detection limit to the greatest extent.

lAdopts the core key technology of NCS original metal in-situ analyzer—Single Discharge Analysis (SDA) technology, which can statistically analyze abnormal signals from inclusions and effectively improve analytical precision.

lInnovatively designed fatigue background lamp effectively reduces the impact of photomultiplier tube dark current on signal collection, improves the signal-to-noise ratio, and extends the service life of the photomultiplier tube.

lPatented all-digital high-stability excitation light source with a frequency up to 1000 Hz, which can match different light source parameters for various materials to achieve excellent analytical results.

lFully automatic multi-channel synchronous tracking system, fast and precise, greatly improving the instrument’s analytical efficiency and reducing operational difficulty, with both automatic and manual tracking switching functions available.

lNewly designed coaxial spark stand with optimized internal gas path, which significantly reduces argon consumption, minimizes residual metal dust inside the spark stand, and enhances the stability of the instrument’s analytical data.

lEnsures long-term stable operation with a hardware monitoring system and easy maintainability. The ARM9-based real-time instrument status monitoring system tracks critical parameters such as high voltage for each element channel, optical chamber temperature, spark stand temperature, and vacuum level in real time.

lPowerful software system with a concise and intuitive interface, easy to operate, delivering a convenient and smooth user experience.