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ATP3030 Ultra High Resolution spectrometer
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Product Code: ATP3030
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This product has a minimum quantity of 1000
application
  • ATP3030 is UV-enhanced designED with extra high resolution in the region of UV. ATP 3030 designed M-shape optical bench with super resolution and stray light with a resolution of 2048 pixels.
  • ATP3030 is a ultra-high resolution micro spectrometer developed by Optosky. The highest resolution can reach 0.1nm, which is suitable for all kinds of high-resolution applications. At the same time, it has the characteristics of high reliability, ultra-high speed, low cost, high cost performance and so on. It can be used in various environmental applications such as online testing.
  • ATP3030 is perfect for fast detection attribute to its high A/D converter frequency and the high speed data transmission. In ATP3030 memory chip, some algorithms to improve the performance are programed solidly, such as wavelength calibration coefficients, linearity coefficients. ATP3030 operates with a single +5V DC supply supplied from USB or UART. 
  • ATP3030 has free SDK for customers self-developed, Optosky support C++, C#, Labview and Linux system SDK, which is very convenient for OEM customers to design solutions.
Detector
Detector type Linear CMOS
Effective pixels 2048pixels
Pixels dimension 14X200 µm
Detector model Hamamatsu S11639
Sensitivity 1300(lx.s)
Optical parameter
Optical resolution 0.1-2 nm(decide on slit and spectral range)
Incident Interface SMA905 connector or free space
Dynamic range 8.5×10^7(system); 2000:1 for a single acquisition
confocal distance 75mm
Numberical aperture 0.06
Working humidity < 90%NC
Trigger YES/IN and OUT
Cooling temperature uncooled
Full Well NA
Scanning rate < 1 kfps
Wavelength range 200-1000nm, 200-400nm, 180-280nm
Physical parameters
Dimensions 124×90×37mm^3
Weight 0.553kg
Sealing Anti-sweat
Optical configuration
Optical design M-type (like Avantes or RGB Photonics)
Incident slit 5,10,25,50,100,150,200 μm (optional), available in custom width)
Raman spectrometer Detector
Detector Power Supply DC 5V±10%
Electrical parameter
Integration time 1 ms - 80 s
Operating current <350 mA(uncooled), <3.0A(cooled)
Storage temperature -30°c to + 70 °c
Operating temperature -10°c to + 50°c
field spectroradiometer
SNR >1000:1
  • High resolution, low stray light
  • Max range: 180-1100nm
  • Resolution: 0.1-2nm
  • Light path: M-shape
  • Detector: 2048 pixel CMOS
  • Integration time: 0.1ms - 60s
  • Power: DC 5V±10% or USB power
  • ADC: 16 bit
  • Sample rate: 2 MHz
  • Output: USB 2.0 or UART
  • USB connector: USB Type-C;
  • Plasma luminescence detection;
  • LIBS
  • Raman spectrum detection;
  • Wavelength monitoring, laser, led, etc
  • Water quality analyzer
  • Ultraviolet flue gas analyzer
  • Led sorter and color detection;
  • Micro and fast spectrophotometer;
  • Spectrum analysis, radiation spectrophotometry and spectrophotometry

How to select High resolution & uncooled spectrometer from Optosky?

Optosky ATP3XXX series are high resolution and uncooled spectrometer.

ATP3000 (2048pixels) & ATP3040 (4096pixels) both uses crossed C-T, higher sensitivity, they are usually used to replace HR2000 and HR4000

ATP3030 (2048pixels) & ATP3034 (4096pixels) both uses M-shape C-T, higher resolution, low stray light, uv enhanced application is highly recommended.

ATP3330  (2048pixels) & ATP3334  (2048pixels) ) both uses M-shape C-T, higher resolution, low stray light, NIR range can also applicable to high resolution.


How many 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-shapatical 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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