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Micro Raman spectrometer
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Product Code: ATP5020R
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ATP5020R Raman spectrometer as a new generation NIR response enhanced of TE-cooled high performance self-developed model base on 20 year experience.
ATP5020R Raman spectrometer's unique NIR response CCD especially enhance 785 nm Raman spectrometer performance up to 2 times higher than the competitors.
ATP5020R Raman spectrometer can customize to 532 . 785 , 633, 830 nm Raman series micro spectrometer.
ATP5020R Raman spectrometer design back-thinned TE-cooled CCD cooled down to -10 degree from Japanese Hamamatsu sensor company
ATP5020R Raman spectrometer designs the lowest noise at an excellent signal-to-noise ratio, say 2 times higher SNR
ATP5020R Raman spectrometer has an excellent reliability can improve the reliability without changing with the ambient temperature
ATP5020R Raman spectrometer unique designed lowest noise CCD sensor signal processing at a level less than counts. 
ATP5020R Raman spectrometer can receive via SMA905 or Free space via USB2.0 or UART port.
ATP5020R Raman spectrometer exclusively SDK package for OEM Raman spectrometer factory.

Detector
Detector type Hamamatsu s16011
Effective pixels 2048*64
Detector model TE-cooled back-illuminated CCD (cooling to -10C)
Sensitivity CCD node sensitivity: 6.5uV/e-
Dark noise CCD Readout Noise:6e-
Pixel size 14μm×14μm
Optical parameter
Focal distance 98 mm for incidence / 107 mm for output
Optical resolution 7-9 cm﹣¹
Dynamic range 10000:1
Working temperature -10℃ to +45℃
Working humidity <90%
Trigger YES/IN and OUT
Wavelength range 150﹣¹ to 4300 ﹣¹ cm-1
SNR >900:1
Optical Design Crossed C/T
Physical parameters
Size 217×110×52 mm
Weight 1.6kg
Sealing Anti-sweat
Electrical parameter
A/D conversion resolution 18 bit (Workable Output 16bit)
Integration time 1ms - 30 mins
Interface USB 2.0 or Free space
Supply voltage DC 5V±10%
Storage temperature -20°C to +70°C
  • Back-thinned CCD (cooled down to -10C)
  • Customized Raman shift 150 cm﹣¹ to 4300 cm ﹣¹
  • Optical resolution: 7-12 cm﹣¹ at slit 25μm (Customized resolution & slit)
  • SNR: 900:1
  • Dynamic Range: 10000: 1
  • Integration time: 1ms to 30 min
  • Free Raman spectrometer software
  • Configured Raman spectrometer, Raman probe and laser support self setup Raman system

    • Raman spectrometer 
    • Online Raman spectroscopy analysis
    • Material identification
    • Pharmaceuticals Analysis
    • Medical & Life Science
    • Energy, Oil & Gas
    • Sorting fruits, plastics, polymers

    Which are 4 best micro spectrometer applied to Raman spectrometer from Optosky store?

    ATP2000P CMOS Cooled 0 degree, the cheapest cost, good performance-to-price rate
    ATP5020 Cooled -5 degree, High performance cost less, super high resolution
    ATP5020R  cooled -10 degree,NIR response enhanced, integration time 6ms -30 mins
    ATP6500 Cooled -20 degree, Super high SNR & Dynamic range, Integration time 10ms-1.3 hrs


    Which detector used for the ATP5020P?

    ATP5020P uses Hamamatsu s11850 with uv response enhanced
    ATP5020R uses Hamamatsu s11850 with NIR response enhanced


    How to choose Optosky TE-cooled spectrometer series?

    ATP5100 Ultra-miniature, Cooled BT CCD, sized up to a coin.
    ATP5040 crossed C-T, TE-cooled 4096 pixels CMOS external cooling, high sensitivity
    ATP5020P crossed C-T, Hamamatsu CCD cooled, higher sensitivity, SNR & dynamic range is higher than Maya.
    ATP5030P M-shape C-T, higher resolution and low stray light, Hamamatsu CCD
    ATP5030 (2048pixels) & ATP5034 (4096pixels) CMOS+TE-cooler, M-shape C-T, high resolution
    ATP5330 (2048pixels) & ATP5334 (4096pixels) Thin, cooled CMOS+TE cooled, M-shape C-T, super high resolution


    How many types of topology structure of optical path for a spectrometer?

    There are commonly divided into 4 types of optical path, including crossed C-T, M-shape C-T, concave grating optical path, transmittance grating opitcal path.
    Crossed C-T: ATP2000P,ATP2002, ATP2400, ATP1010, ATP5020P, ATP5040, ATP6500
    M-shape C-T: ATP3030, ATP3034, ATP3330/4 ATP5030, ATP5034, ATP5330/4
    Concave grating: ATP4230, ATP4020, ATP4050, ATP4070

    let's see the M-shape optical path looks like a number "3", so our models uses the 3rd number "3" to indicate M-shape optical path models.
    In generally, topology structure can decide resolution, sensitivity, stray light, and size of a spectrometer.
    Crossed C-T topology structure employs better sensitivity and compact size.
    M-shape C-T employs higher resolution and better stray light.
    Concave grating optical path employs high stray light.


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