SM200/SM400 OEM CCD Spectrometer
The Prime Choice for Integration with OEM Products
- Best performance to cost ratio in the industry
- Designed from the ground up for OEM integration
- Small impact resistant optical bench
- Flexible light input direct to slit or via fiber
- Fully customizable
- SONY ILX511 CCD for SM200 or TOSHIBA TCD1304 CCD for SM400 allows up to a 900nm measurement window between 200 - 1050nm (800nm measurement window size possible for some applications)
- USB 1.1 / 2.0 interface with 16-bit dynamic range available
- Support up to 8 multi-channel configuration
- UV enhancing coating
The SM200/SM400 is a miniature spectrometer designed for custom OEM applications. It offers a high performance to cost ratio for new systems designs. It can accept light directly through its built-in slit or via optical fiber. A removable fiber coupler faceplate allows use of standard SMA 905, FC and custom fiber connectors. This faceplate also allows direct attachment to dedicated systems and a number of SMX Accessories. A durable aluminum housing encloses the SM200/SM400 optical bench; through careful design this housing provides stable device operation over a wide range of temperatures. The spectrometer sensor array and array driver electronics are mounted inside the SM200/SM400 housing, from there a flex cable connects to exterior support electronics. The standard sensor array used is the Sony ILX511 for SM200 and the Toshiba TCD1304 for SM400. The driver electronics have been designed for highly sensitive yet stable operation. The design of the SM200/SM400 also allows the use of custom arrays for special applications, including photodiode assemblies and alternative CCD arrays, as well as the use of customer's own data acquisition electronics instead of using SP's. Standard interfaces to the SM200/SM400 include a USB 2.0 interface with 16-bit extended dynamic range and a PCI card interface with 16-bit dynamic range sampling. Our USB board can support multichannel configuration up to 8. With this multichannel configuration, a high resolution for wide range or a dual spectrometer system (one for measurement and the other for reference) is possible. Spectral Products applies a UV enhancing coating on the CCD to increase the UV sensitivity below 450nm comparing with the conventional UV coating that is widely used in CCD spectrometers. By the help of this new UV coating, the signal sensitivity below 500nm can get improved ~20-50% more in general.
Software support includes custom DLLs for dedicated applications development and our SM32Pro windows based spectral acquisition and analysis software. Both standard and legacy interface designs provide support for advanced acquisition programming and external triggering.
Model
SM200
SM400
Detector
SONY ILX
Pixels: 2048
Sensing Pixel Size: 14um x 200um
Sensitivity: 200V (lx s) under 3200K uniform illuminationToshiba TCD 1304
Pixels: 3648
Sensing Pixel Size: 8um x 200um
Sensitivity: 160V (lx s) under daylight fluorescent illuminationSpectral Resolution
0.15 to 10nm depending on the slit and grating choices
Spectral Range
200 - 1050nm
Spectrograph f#
2.7
Fiber Coupler
SMA 905 or FC standard
Stray Light
< 0.05% @632nm (< 0.1% overall)
Slit Options
5, 10, 25, 50, 100, 200, 400um
Orders Sorting Filter
Longpass filter or linear variable filter installed per wavelength coverage
Temperature Induced Shift
±2 pixels per ±10°C
Low Thermal Expansion Option is available on request up to ±1 pixels per ±20°C at max±3 pixels per ±10°C
Low Thermal Expansion Option is available on request up to ±1 pixels per ±15°C at maxComputer Interface
USB 1.1 / 2.0 16-bit
Software
Windows 98/Me/2000/XP/VISTA/Win7/Win8.1/Win10 (both 32/64bit)
SM32Pro & SM32Pro MX (free with spectrometer)
Includes DLL libraries and SDKs for easy custom application developmentDimensions
3.83 x 2.00 x 0.94 inches
Weight
0.5lbs
min. Integration Time
1ms
0.01ms
Dark Noise RMS
< 50 RMS counts in 16bit @ 35msec integration time
Signal to Noise ratio
250 : 1
Trigger mode
Free Run Mode
External Trigger Mode
商品属性 [波长范围] 200 - 1050nm [光学分辨率] 0.15 to 10nm