Current
Location:
+86 17853698681
WhatsApp
Product Details
Product Introduction
The HM-ICP2 is a full-spectrum direct-reading ICP-OES spectrometer that employs a charge-coupled device (CCD) solid-state detector for simultaneous multi-element analysis. Unlike sequential scanning instruments, the HM-ICP2 captures the entire spectral range from 165 to 900nm in a single exposure, enabling all detectable elements to be measured simultaneously with one sample introduction.
The optical system is based on an echelle grating paired with a prism in a cross-dispersion configuration, providing a focal length of 440mm and a spectral resolution of ≤0.007nm at 200nm. All optical components are housed in a constant-temperature chamber maintained at 36°C ±0.1°C with argon purging, ensuring long-term wavelength stability without moving parts. The CCD detector features million-pixel coverage and three-stage thermoelectric cooling to -45°C, with anti-saturation spill-over protection on each pixel.
A 500–1600W fully digital RF generator with 1W step adjustment and ≤0.01% power stability drives the plasma. The split-chamber injection system isolates the spray chamber from the torch compartment, reducing thermal interference and allowing real-time observation of the sample introduction process. An intelligent auto-attenuation function handles concentration gradients up to 100x, enabling high and low content elements to be quantified in a single measurement without manual dilution.
Applications / Testing Items
Environmental monitoring: heavy metals in water, soil, and atmospheric particulates
Food safety: mineral nutrients and contaminant screening in food and beverages
Geological and mineral exploration: ore grade determination and rare earth element analysis
Metallurgy: alloy composition verification and impurity profiling
Chemical industry: reagent purity and process stream monitoring
Pharmaceuticals: elemental impurity screening per ICH guidelines
Petrochemical: trace element analysis in petroleum products
Semiconductor: high-purity material contamination detection
Agricultural research: soil nutrient and fertilizer composition analysis
Features
Research-grade CCD detector — million-pixel coverage of 165–900nm; one-exposure simultaneous multi-element detection
Three-stage TEC cooling to -45°C — startup in under 3 minutes; anti-saturation spill-over protection per pixel
Full spectrum at 20-second cycle — one minute for nearly 70 elements per sample; ≥50 elements per minute throughput
Echelle-prism cross-dispersion optics — ≤0.007nm resolution at 200nm; no moving optical parts for long-term stability
Constant-temperature optical chamber — all optics sealed at 36°C ±0.1°C with argon purge
Full-auto wavelength calibration — automatic calibration using C, N, Ar emission lines at each startup; no calibration solution required
Split-chamber injection design — separate spray chamber and torch compartments reduce thermal cross-effects; enables direct observation of sample introduction
Real-time color plasma monitoring — full-color camera system in the software for live plasma observation and torch condition assessment
Intelligent auto-attenuation — handles up to 100x concentration differences; eliminates manual dilution for wide-range samples
Digital RF generator 500–1600W — 1W step adjustment, ≤0.01% power stability, automatic impedance matching
5-channel 16-roller peristaltic pump — supports simultaneous sample uptake, waste removal, internal standard addition, and reagent introduction
Multi-mode gas path control — precision MFC with 0.01L/min accuracy; auto-shutdown on gas supply failure with audible alarm
Main Parameters
| Parameter | Specification |
|---|---|
| Technique | Full-Spectrum Simultaneous ICP-OES with CCD Detection |
| Wavelength Range | 165–900nm (full coverage) |
| Detectable Elements | 70+ |
| Detection Limits | 0.1 μg/L (typical elements) |
| Resolution | ≤0.007nm (at 200nm) |
| Analysis Speed | ≥50 elements/min; 20s per full measurement |
| Linear Dynamic Range | ≥10⁶ |
| Precision (RSD) | ≤0.5% (10 repetitions) |
| Stability (RSD) | <1.0% (long-term) |
| Sample Consumption | <2mL for 70+ elements |
| RF Power | 500–1600W, 1W step |
| Viewing Mode | Radial (vertical torch) |
Technical Parameters
| Parameter | Specification |
|---|---|
| Model | HM-ICP2 |
| Plasma Viewing | Vertical torch (radial viewing) |
| RF Power Range | 500–1600W, continuous 1W adjustable |
| Power Stability | ≤0.01% |
| RF Generator | Self-excited solid-state; fast matching, auto tuning, water cooled |
| Auto Attenuation | Up to 100x concentration range |
| Frequency | >27.12 MHz |
| Frequency Stability | ≤0.01% |
| Optical System | Echelle grating + prism cross-dispersion; no moving parts |
| Focal Length | 440mm |
| Optical Chamber | Constant temperature 36°C ±0.1°C; argon purge; isolated from main unit |
| Wavelength Range | 165–900nm |
| Resolution | ≤0.007nm (at 200nm) |
| Stray Light | ≤2.0mg/L (10000mg/L Ca at As 188.980nm) |
| Wavelength Calibration | Auto calibration using C, N, Ar lines at each startup |
| Detector Type | CCD solid-state, million+ pixels |
| Detector Cooling | Three-stage TEC to -45°C; startup <3 min |
| Anti-Saturation | Back-drain spill-over protection per pixel |
| Peristaltic Pump | 5-channel, 16-roller, auto; speed continuously adjustable |
| Gas Path Control | MFC precision 0.01L/min; auto-shutdown on gas loss |
| Spectral Line Library | 75,000+ lines; 30 pixels per line selectable |
| Analysis Speed | ≥50 elements/min; each line ≥10s integration |
| Sample Consumption | <2mL for 70+ elements |
| Linear Dynamic Range | ≥10⁶ |
| Precision | RSD ≤0.5% (1ppm/10ppm multi-element, 10x) |
| Stability | RSD <1.0% (1ppm/10ppm multi-element, long-term) |
| Detection Limit | Typical elements down to 0.1 μg/L |
Related Products
