Mustard Tree Instruments, LLC Patent applications |
Patent application number | Title | Published |
20140118733 | Multiple-Vial, Rotating Sample Container Assembly for Raman Spectroscopy - A multiple-vial, rotating, sample container assembly for Raman spectroscopy comprises a container with two or more receptacles formed therein, which are suitable for positioning two or more vials inside the sample measurement area of a spectrometer. The openings are located such that when the container is rotated, the vials inside the holder are alternately positioned in the laser beam path, and the Raman scattering from each sample material is co-collected during the same measurement period. The rotation of the container (RPM) is sufficiently fast so that the material in each vial is measured many times during a sampling period, thereby ensuring a high degree of reproducibility in measuring the combination of vials. For a quantitative or peak comparison method, one vial contains a reference material. This material may be pure (100% of a compound), a dilution of the material in a solvent (such as water), or a combination of materials. Another vial contains the sample, or material to be evaluated. | 05-01-2014 |
20140118732 | Analytical Instrumentation in Hazardous Environments via Static Pressurization - An analytical instrument suitable for a use in a variety of industrial environments features a housing having a sealed primary chamber filled with a dry, inert gas at a first static pressure. An instrumentation system is disposed within the primary chamber, where fire hazard is eliminated by the inert gas. The housing additionally includes a reference chamber holding a gas a second pressure lower than the first pressure. One or more pressure switches, in pressure-sensing relationship with both chambers, is operative to interrupt the application of power to the instrumentation system if the differential between first and second pressures falls below a predetermined value. In this manner, the instrumentation system is rendered safe whenever the primary chamber is breached or otherwise loses inert gas pressure. | 05-01-2014 |
20140118731 | Adaptive Front Lens for Raman Spectroscopy Free Space Optics - A Raman spectroscopy system features free space optics, wherein an excitation laser beam is directed to a sample, and Raman scattered photons are collected from a desired point of the excitation beam's impact on the sample, through the air, without the use of fiber optics. The excitation laser is directed to a sample, such as fluid flowing in a pipe, through a sight glass in the pipe. A front lens assembly, having a fixed focal point at a predetermined z-axis distance in front of the front-most lens, collects Raman scattered photons, which pass through an optical system to a detector. The Collection Point (CP), or the point along the excitation beam (and within the sample) at which Raman scattered photons are collected—which coincides with the focal point of the front lens assembly—is controlled by physically translating the front lens assembly along the optical axis. | 05-01-2014 |
20130311136 | Rule-Based Sample Verification and Chemical Monitoring Methodology - A rule-based verification testing methodology automates the process and allows for field deployment of verification testing instrumentation. A rule-based chemical monitoring methodology automates the verification of a chemical being monitored, as well as the instrument and a sample path, increasing the confidence in the verification process. In both methods, at least Raman spectra of a sample are captured, and compared to a model that is based on reference data. Predetermined, flexible, parameterized rules control the comparison. Additional physical properties, such as color and size, may also be compared (also controlled by predetermined rules). | 11-21-2013 |