Analyzers and methods for making and using analyzers are described such as a method in which multiple absorption readings of a liquid assay are obtained by a photodetector using multiple light sources having at least three separate and independent wavelength ranges and with each of the absorption readings taken at a separate instant of time. Using at least one processor and calibration information of the liquid assay, an amount of at least two analytes within the liquid assay using the multiple absorption readings is determined.

Analyzers, methods and systems for providing a digital fingerprint or signature for assessing process information and improving process operations using such information. In particular, such analyzers, methods and systems use a unique analysis procedure for identifying, for example, one or more constituents of an intermediate and/or a product-based process stream and providing process operating parameters specific to such one or more constituents. The analyzers, methods and systems may additionally provide dilutions or concentrations of such constituents to improve the understanding of the process operation and how such process operation should be adjusted in response.

A detection device has a collector having an inlet to allow collection of a sample, an electrolysis chamber having at least two electrodes, the electrolysis chamber connected to the inlet to receive the sample, a spectrometry chamber connected to the electrolysis chamber by one or more channels, one or more emitters in the spectrometry chamber, one or more receivers in the spectrometry chamber, each receiver corresponding to an emitter of the one or more emitters, a controller to receive at least one signal from the one or more receivers and to provide a measurement, a display in communication with the controller to display the measurement, and a power supply electrically connected to at least the electrodes, the emitters, the receivers, the controller and the display. A method of detection of a compound in a sample includes drawing a sample into an electrolysis chamber, performing electrolysis on the sample, transferring the sample to a spectrometry chamber, illuminating the sample with light of a predetermined wavelength using an emitter, detecting light at a receiver corresponding to the emitter after the light passes through the sample, determining a concentration of a compound corresponding to the predetermined wavelength, and displaying the concentration of the one or more compounds on a display.

A gas sensor (2) distinguishes between a target gas and a contaminant and includes a light source (8), a measurement volume (4), a detector (22), and an adaptable filter system (20) with a first optical filter and a second optical filter. The filter system switches between a first composite state, with both filters in a reference state, a second composite state, with the first filter in a first reference state and the second filter in a second measurement state, a third composite state with the first filter in a first measurement state and the second filter in a second reference state, and a fourth composite state, with both filters in a measurement state. The gas sensor detects a target gas and makes a determination as to a presence of the contaminant by comparing the respective detector signals, generated during at least three of the composite states, with each other.

An absorption spectroscopy process uses a single radiation beam with two or more pulsed beams (including at least a signal beam and a reference beam) that are passed into a liquid sample to a variable effective depth and then reflected out of the liquid sample where it is detected and processed to obtain a value over a preselected time. As values are determined for multiple effective depths, a sampling dataset is obtained which is used to calculate a concentration level of a targeted particle in the liquid sample by use of calibration dataset obtained from use of known samples.

An endoscope system includes an endoscope with an image pickup that generates image data by capturing an image of tissue illuminated with light containing wavelength regions spaced from and not overlapping with each other. The image pickup has an RGB filter, the wavelength regions include first and second regions corresponding to a B region and to a G region of the filter. A processor calculates an index representing a molar concentration ratio of first and second biological substances contained in the tissue based on the image data including information on the first and second regions. In the first region, image data B of the tissue varies depending on the molar concentration ratio, the second region contains isosbestic points of the tissue, and, in the second region, image data G has a constant value. The processor calculates the index based on the data B and G.

Systems and methods herein provide low power non-dispersive infrared (NDIR) gas sensors. The gas sensors comprise a thin film plasmonic light source that produces a time modulated parallel light beam at multiple selected wavelengths. The parallel light beam from the light source passes through a gas chamber without using focusing or collimating optical components. The gas sensors are continuously self-calibrated against environmental changes, such as temperatures and relative humidity, and aging. The gas sensors are suitable for use in hazardous environments because their low power and small thermal mass reduces the risk of explosion. The gas sensors can be integrated into conventional mobile device platforms.

A measuring device includes: an irradiator that irradiates electromagnetic waves to an inspection object; a light collector having a reflecting surface that guides, to a light-collecting surface, electromagnetic waves whose incident angle with respect to an incident end facing the inspection object is within a predetermined angle, among the electromagnetic waves that have been transmitted through the inspection object; and a detector that detects the electromagnetic waves guided to the light-collecting surface. The measuring device measures a characteristic of the inspection object based on the detected electromagnetic waves.

The concentration of a targeted molecule (such as glucose) in a liquid medium having at least one interfering molecule coexisting with the targeted molecule is detected by use of NDIR and a sampling technique in which an imposed location of a pulse beam from a signal source, an interference source and a reference source is varied over a plurality of sites of a sampling area.

A method of performing spectroscopic measurements provides an optical frequency comb, and directs the comb through or at a sample. The optical frequency comb is generated by gain switching a laser diode constructed from Gallium Nitride and related materials. Various techniques are described for manipulating the comb source to achieve desired benefits for spectroscopy.