TY-9610 Optical Emission Spectrometer
Combine with High-Quality, High-Performance, High-Stability for Metal
· Highly integrated metal analyzer.
· Excellent stability and reliability.
· 1000 mm focal length
· Photomultiplier tubes (Photomultipliers or PMTs) detector
· Effective wavelength range:120nm-850nm.
· Full digital control.
· High-Quality, High-Performance, High-Stability.
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  • TY-9610 is a vacuum spectrometer with up to 60 channels whose focal length can be 1000 mm, it can measure all the elements to be tested in fast and high accurately. The wide wavelength range can from short-wavelength P178nm to long-wavelength K766nm.

    TY-9610 not only has new breakthroughs in vacuum ultraviolet lines (such as C, P, S, B, Sn, etc.) and trace elements in nitrogen and non-ferrous metals in steel. It has excellent stability and reliability, and no need to do standardization for a long time under continuous analysis. It is simple to use and maintain, and with low professional requirements for personnel. It is the best choice for users who are pursuing high performance testing.

  • High-end Laboratories: Defence, Railways, pure research, etc.

    Pure metal applications: 99.995%+ purity Pb, Zn, Cu etc.(E.g. OFC, batteries, galvanizing etc.)

    Regulatory compliance: Very low LODs to control Pb, Cd, As etc. (e.g. ship-making)

    Integrated Steel Plants: <5 PPM C, S, P, B, N, Ti;

    It is widely used in casting, metallurgy, various types of machinery manufacturing, shipbuilding, automotive, chemical, electronics and other industries and it is a good equipment for rapid quantitative analysis near the metallurgical furnaces, inspection of incoming materials, and metal material quality monitoring laboratory and product material analysis.


    Detection Matrices:

    Iron(Fe) and It’s Alloys (Steel, Cast iron, Fe-Low alloy, Fe-Cr steel, Fe-Cast iron, Fe-Cr-cast, Fe-Mn steel, Fe-Tool steel etc.)
    Aluminium(Al) and It’s Alloys (Al-Si alloy, Al-Zn alloy, Al-Cu alloy, Al-Mg alloy, Pure-Al alloy etc)
    Copper(Cu) and It’s Alloys (Brass, Copper-Nickel-Zn, Aluminum Bronze, Tin-lead Bronze, Red Copper, Be-Bronze, Si-Bronze etc)
    Nickel(Ni) and It’s Alloys (Pure Ni, Monel metal, Hadtelloy Alloy, Incoloy, Inconel, Nimonic etc)
    Cobalt(Co) and It’s Alloys (Co-orientation, Low Co alloy, Stellitte 6, 25, 31, Stellitte 8, WI 52, Stellitte 188, F)
    Magnesium(Mg) and It’s Alloys (Pure Mg, Mg/Al/Mn/Zn-alloys)
    Titanium(Ti) and It’s Alloys

    Zinc(Zn) and It’s Alloys

    Lead(Pb) and It’s Alloys

    Tin(Sn) and It’s Alloys

    Argentum(Ag) and It’s Alloys

    Small sample, special size sample and wire detection


  • Performance Advantage

    High Accuracy

    TY-9610 adopts a 1 meter focal length Paschen-Runge mounting device, compared with small focal length instruments on the markets, it has high resolution and ensures high accuracy of analysis. For example, the carbon content in 45# steel (1045 in ASTM, S45C in JIS) is 0.45%, and the test error of TY-9610 is within 0.006%. The chrome content of 316 stainless steel is 17.0%, and the test error of TY-9610 is within 0.10%.

    High Precision

    The analytical instruments are high precision equipment, TY-9610 uses a large number of precision control, such as temperature 38±0.1℃ precision control system, high-pressure change rate <0.01% load high-voltage control system, etc., these ensure that the performance of TY-9610 is superior to similar products.

    High Stability

    Long-term stability is one of the most important indicators of the instrument, the long-term stability technology of TY-9610 is far ahead in China, and the standardized time interval is about 3 months. Most of the similar instruments require one time standardization in one week or even less.

    Long MTBM (Mean Time Between Maintenance)

    in order to reduce the maintenance of the instrument and improve the reliability of the instrument, all key components of TY-9610 are from the world's top manufacturers, all electronic components are imported from abroad.


    Technical Specifications

    Constant temperature, seismic and vacuum separation room

    ·It is cast by a special process, has a low coefficient of thermal expansion, and is subjected to stress relief treatment.

    ·Constant temperature, control accuracy of 38 ± 0.1℃, which greatly improves the stability of the wavelength, for a long analysis of the operating cycle, there is no need to recalibrate.

    ·It has an anti-shock device

    · The vacuum pump is placed in the main engine and equipped with anti-return oil solenoid valve. It adopts a special vacuum optical chamber design to ensure that the optical chamber has no oil vapor for 10 years, and the service life of the instrument is guaranteed for more than 10 years.

    · The detector is most easily discharged at a pressure of 100-1000 Pa. Therefore, the vacuum is detected in real time, and the negative high-voltage power supply state is controlled to prevent the detector from damaging the photomultiplier tube due to the discharge of the tube seat, thereby greatly prolonging the service life of the detector.

    · It can be assembled with up to 48 channels using photomultiplier tubes of different diameters.

    ·The computer monitors the instrument at a constant temperature and vacuum state to ensure that the instrument can work under normal conditions.



    ·AES package, configuration work curve calibration module

    ·Friendly interface based on Windows system

    ·Visual hardware self-diagnosis and maintenance reminder system

    ·Equipped with a pre-ignition curve to automatically optimize pre-combustion conditions

    ·The system can store traced spectra and calculate the center of the spectrum

    ·The analysis results also show the average content, standard deviation and relative standard deviation values.

    ·Automatic correction of interference between element lines

    ·The system automatically stores the analysis results and retrieves the data


    Spark System

    ·High repeating unidirectional spark source

    ·Light source parameters can be reasonably selected according to different matrix requirements

    ·Pre-ignition, spark with variable exposure frequency 200-500Hz

    · The internal volume of the spark is further reduced, and the argon flow direction is optimized to make the argon consumption lower, at the same time, the residual dust is effectively removed, and the exhaust gas is discharged through the two-stage filtration system, and the spark table has low work and maintenance.

    ·With controlled argon system, argon dynamic flow rate 4L/Min, static flow rate 0.5L/Min, the most economical argon system under physical excitation conditions

    ·It has a special structural design without disassembling the lens, And the lens can be cleaned directly by special tools, which is easy to maintain and has a short waiting time when used again.

    ·The sample plunger can be moved up, down, left and right for quick sample change and is suitable for irregular samples. Simultaneously provide small sample excitation fixture

    · An electromagnetic shutter is used in the excitation program to prevent the detector from detecting glare and avoid detecting the strong light signal during pre-combustion.


    Measuring System

    ·Photomultiplier tube direct readout system, high voltage loop using RG-59B/U coaxial cable, signal output line using RG-174/U coaxial cable, ensuring high voltage safety and reducing signal loss

    ·48-channel data synchronous acquisition system based on FPGA, 16Bit analog-to-digital converter for all channels, sampling rate 200KSPS, high integration, high precision voltage measurement and control system for all channels

    ·Parallel monitoring automation system based on FPGA and parallel operation diagnosis function

    ·The negative high voltage module output -1000V, voltage regulation rate 10ppm, temperature drift 25ppm/℃,the module can program multiple base compatible functions.

  • Item


    Detect matrix(multi-matrix)

    Fe, Cu, Al, Ni, Co, Mg, Ti, Zn, Pb, Sn, Ag etc.

    Optical structure

    Paschen-Runge mounting device

    Focal length



    170-780nm(vacuum), 190-780nm(non-vacuum)

    Incident slit


    Exit slit



    Ф28mm, Ф13mm, Ф10-level photomultiplier tube



    Concave grating

    Optional gratings according to user analysis requirements

    2160gr/mm, Dispersion rate: 0.47nm/mm(1 level).

    1667gr/mm, Dispersion rate: 0.6nm/mm(1 level),

    0.3nm/mm(2 level).

    1080gr/mm, Dispersion rate: 0.93nm/mm(1 level),

    0.47nm/mm(2 level).



    Relative humidity

    20-80%, anhydrous condensation


    220V, single-phase 50Hz, three-line 15A


    99.996%, Oxygen content≦5ppm, option with argon purifier


    1800 * 1050 * 1245mm (Length * Width * Height)