CX-9600 (L) Vertical Vacuum Optical Emission Spectrometer Analyzer
Metal Analysis Instrument
Description:
Full-spectrum technology, analysis range
The CX-9600(L) floor-standing full-spectrum vacuum direct reading
spectrometer can determine trace elements such as carbon (C),
phosphorus (P), and sulfur (S), and is suitable for various metal
matrices, such as iron-based, aluminum-based, copper-based, and
zinc-based. Channel elements can be selected according to customer
needs.
2. Long-term stability, accurate results
The CX-9600 direct reading spectrometer, with its high performance
and reliable design, as well as an innovative optical system and an
extended wavelength range, ensures precise identification of
important elements, long-term stability, accurate analysis results,
and good reproducibility.
3. Optical System
The optical system design of the CX-9600 direct reading
spectrometer combines detector technology with optimized pixel
resolution and grating spectroscopy technology. The vacuum
spectroscopic system has up to 2400x8 pixels. Each element is
analyzed using multiple spectral lines and the results are
comprehensively output. It has a large dynamic range and accurate
results. The detector placed can receive all spectral lines within
the analysis band, enabling simultaneous determination of multiple
spectral lines of the same element and automatic output.
4. Analysis Speed
The CX-9600 floor-standing full-spectrum spectrometer features fast
analysis speed, completing the elemental composition measurement of
all channels within 30 seconds. By setting pre-ignition time and
calibration lines for different analysis materials, the instrument
achieves optimal analysis results in the shortest time and improves
detection limits, ensuring accurate measurement outcomes.
5. Analysis Light Chamber
The floor-standing full-spectrum spectrometer adopts a vacuum
constant-temperature light chamber. The arc flame generated during
excitation is directly introduced into the vacuum light chamber by
a lens, achieving a direct optical path and eliminating optical
path loss. A solid-state adsorption trap is used to prevent oil and
gas from contaminating the light chamber. The special design of the
light chamber structure makes the vacuum chamber volume smaller,
and the vacuum pumping speed is less than half that of ordinary
spectrometers.
6. Heat Dissipation
The base of the copper spark stand for the full-spectrum direct
reading spectrometer improves heat dissipation and sturdiness.
7. Customized Accessories (Optional)
The small sample holder design, the open electrode frame design,
and the adjustable sample holder facilitate the analysis of samples
of various shapes and sizes.
8. Others
The full-spectrum technology automatically traces and adjusts the
optical path. When exciting the sample, the instrument
automatically recognizes the specific spectral lines on each
detector and compares them with the originally stored lines to
determine the drift position and find the current pixel position of
the analysis line for measurement. It eliminates spectral drift
caused by changes in temperature, pressure, vibration, etc. In
contrast, traditional spectrometers using photomultiplier tube
technology require manual fine adjustment, which has high technical
requirements. The full-spectrum technology automatically and
quickly addresses the issue, avoiding the cumbersome and laborious
manual operation and human errors.
Applications
The CX-9600 full-spectrum direct reading spectrometer adopts
photoelectric direct reading spectrometry technology and is applied
in the production process control, pre-furnace analysis and central
laboratory finished product inspection in fields such as
metallurgy, casting, machinery, automotive manufacturing,
aerospace, weaponry, and metal processing.
The CX-9600 full-spectrum direct reading spectrometer is compact,
stable, has a low detection limit, fast analysis speed, low
operating cost, and is easy to operate and maintain. It is an ideal
choice for controlling product quality.
Technical Parameter
| Feature Category | Parameter / Description | Details / Notes |
| Model | CX-9600 (L) | |
| Instrument Type | Full Spectrum Direct Reading Spectrometer | Optical Emission Spectrometry (OES) |
| Optical Chamber | Vacuum | |
| Spectrum Type | Photoelectric Emission Direct Reading | |
| Optical Structure | Paschen-Runge mounting | |
| Gas | Argon | |
| Argon Flow Rate | During Spark: 3-5 L/min | |
| Electrode | Tungsten | Material |
| Purge | Self-purging function (click to activate) | |
| Compensation | Thermal deformation self-compensation design | |
| Source Type | HEPS Digital Solid-State Source | |
| Frequency | 100-1000 Hz | |
| Special Technology | Discharge parameter optimization design | |
| Pre-burn | High Energy Pre-burn technology | |
| Processor | High-speed synchronous data acquisition & processing | |
| Interface | Ethernet data transmission (based on DM9000A) | |
| Input Power | 220 VAC, 50 Hz | |
| Analysis Power | 700 W (during analysis) | |
| Standby Power | 40 W | |
| Operating Temp. | 10-30 °C (±5 °C/h max. change rate) | |
| Operating Humidity | 20-80% RH | |
