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Not in archiveU.S. Navy

Ultra low power solid state spectral radiometer

US20150083890A1

Drawing from US20150083890A1

Description (excerpt)

FIELD OF THE INVENTION The present invention is generally related to measuring incoming light, data acquisition and power control. In particular the present invention includes a data storage device for recording measured data, and a sensor system yielding very high sensitivity to incoming light, where an increase of linearity of detector response to incoming light is achieved by several orders of magnitude over conventional sensor systems. The present invention provides ultra low power consumption and minimum size. The sensor system can be used in remote solar radiation monitoring applications like mobile solar power units as well as in long-term environmental monitoring systems. BACKGROUND OF THE INVENTION Mobile solar power units are recognized as promising means of decreasing the dependence of the military on fossil fuel generated power. To date, a multitude of mobile solar powered systems are under development that range from human portable, highly flexible, photovoltaic blankets, solar powered aircraft, trailer based hybrid power units, and underwater sensor applications. Spectral radiometers are widely used to measure the spectrum of emitted, transmitted or reflected light of a given material in numerous fields of the modern economy. Applications of spectral radiometers include environmental monitoring (Sun, water, soil, flora, etc), production control (liquids, solids, solutions, etc), medicine (tissue, blood, drugs, solutions, etc), opto-electronics (light emitters), trade (food, and other perishable goods) as well as monitoring in the fields of military and security operations (such as, object identification and sensing). Current spectral radiometers generally require either sophisticated optical components for beam forming and diffraction, refined electronic components for the signal readout or moving parts which often lead to high production costs. Furthermore, conventional spectral radiometry systems are shock-sensitive; they require long measurement times, and they consume considerable amounts of electrical power, making their use in remote environments disadvantageous. In contrast, the instant invention discloses a spectral radiometer having a novel minimum size, having ultra-low power, having integrated data storage functionality and a battery lifetime of up to several years, including a range of from less than about 2 years or less up to at least about 5 years or more, such that 10 or 15 years or more can be achieved. In addition, the system can be produced at the expense of less than twenty dollars ($20) and features very high sensitivity and linearity. Because of the modularity of the system, adjustment to different wavelength-bands, as well as operational capabilities involving different light intensities are easily possible, providing a tailored solution to the customers' needs. There are no alternative devices having comparably small dimensions. SUMMARY OF THE INVENTION Exemplary embodiments describe a novel spectral radiometer system, which measures incoming light intensity and spectral distribution in different wavelength-bands. An additional data storage device allows recording of the measured data. The inclusive sensor section yields very high sensitivity to incoming light. Furthermore, outstanding linearity of the detector response over several orders of magnitude of incoming light is achieved. Additional benefits are ultra low power consumption and minimal size. The sensor system can be used in remote solar radiation monitoring applications, such as mobile solar power units, as well as in long-term environmental monitoring systems, where high precision and ultra low power consumption are required. Exemplary embodiments have wide applications in military and civilian tactical solar power radiation assessments, such as with solar power plant planning, and solar radiation monitoring. In addition, exemplary embodiments have wide application in radiation assessments related to agriculture, architecture, construction, power plant operations, environmental protection, ergonomics and the practice of medicine. Also, the measurement of the energy in different wavelength-bands of short-duration light pulses (burst measurements) can be carried out. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 illustrates a schematic diagram of a diode 102 based spectral radiometer 100 , having three diodes 102 . FIG. 2A illustrates a schematic of the three-<figure-callout id="201" label="diode sensor section" filenames="US20150083890A1-20150326-D00002.png,US20150083890A1-20150326-D00003.png" state

Filing details

Inventors
Raymond Hoheisel
Assignee
US Gov't Repersented by the Secretary of the Navy Chief of Naval Research ONR/ …
Filed
Jul 2, 2014
Granted
Application pending

Bibliographic data and excerpted text sourced from Google Patents (public record) as part of IP TechMatch's current-filings monitor. This filing is not part of the 2019 historical archive. For the authoritative full text, drawings, and legal status, see the source links above or consult USPTO records directly.