The BTR115 series OEM Raman development platform consists of an integrated Raman core engine with a stabilized laser, cooled CCD-based spectrometer and sampling optics. It is designed to assist OEM developers in application development and for direct OEM custom system integration.
The development platform is lightweight with a small foot print, making it easy for handling. Its compact size is ideal for integration into a custom setup for lab and field applications. The BTR115-785 has a wide spectral range, covering application needs for material identification and characterization of materials in many use scenarios such as forensics, materials science, pharmaceuticals, biology, food science, semiconductors, and geology. The free space development unit supports sample measurements in vials enabling fast application development such as those that involve SERS.
*This system is for OEM development purpose and users are assuming responsibilities of being compliant to regulations such as the CDRH in the final resulted products.
Why Raman?
Providing molecular vibrational fingerprint info
Nondestructive
No sample preparation required
Able to measure through glass, quartz, plastic (non-contact)
Samples can be solid, liquid, transparent or opaque
Small sample size
Wide spectral coverage for a variety of applications
Spectra have high selectivity and specificity, and can be used for identification and quantitative analysis
Features
Fiber-coupled probe (BTR115-785-FP) or free space sampling device (BTR115-785-FS) (supports 15 mm vial)
Integrated Raman core engine with laser, spectrometer and sampling optics
Compact, lightweight form factor
Ideal for application development and direct OEM integration use
Specifications
Raman spectroscopy core engine
Raman shift range:150-3150cm-1 (Option for 65cm-1 for fiber probe version)
Spectral resolution: around 10cm-1 FWHM @912nm
Wavenumber accuracy better than 3cm-1
TE-cooled 2048 pixel linear array CCD detector
Cleanlaze® patented stabilized laser
Laser excitation wavelength 785nm, linewidth better than 0.2nm
420mW Max at laser port (free space), and typically 340mW at the exit of the probe shaft (fiber coupled); adjustable from 0-100% through software
Integration time from 5 to 65535 ms
Free space sampling holder supports 15mm vial (vials not included)
Rayleigh scatter rejection efficiency >OD6
Typical power input 12V [email protected], input voltage range 10V~25V
Digital IOs for laser key switch, laser interlock, scan trigger, and digital output for CDRH compliancy use
RS232 communication protocol and command set supports both Windows and Linux
SDKs for Windows and Linux available with sample code in numerous programming languages
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