Sensor for measuring alcohol content of alcohol/gasoline fuel mixtures
First Claim
1. A sensing device for determining the alcohol content of an alcohol/gasoline mixture comprising:
- a light source emitting a light beam containing at least a first and a second wavelengths within the near-infrared spectrum, said light beam being transmitted through the alcohol/gasoline fuel mixture;
means for switching the current through said light source between at least two fixed values, so as to correspondingly switch the light intensity at said first and second wavelengths which is emitted by said light source;
first and second detectors which are disposed so as to receive said emitted light beam after its transmission through the alcohol/gasoline fuel mixture, said first detector determines a first amount of absorption by the alcohol/gasoline fuel mixture at said first wavelength for each of said fixed values of current, and said second detector determines a second amount of absorption by the alcohol/gasoline fuel mixture at said second wavelength for each of said fixed values of current;
means for separately measuring the output voltage from said first and second detectors for each of said power settings; and
computational means for determining, from said output voltages, the ratio of said first and second absorbances by the alcohol/gasoline fuel mixture at said first and said second wavelengths for each of said fixed values of current such that said ratio of absorbances provide an output indicative of the alcohol content within the alcohol/gasoline mixture.
2 Assignments
0 Petitions
Accused Products
Abstract
An alcohol sensing device is provided for determination of the alcohol content within an alcohol/gasoline fuel mixture which is being provided for the operation of an internal combustion engine. The sensing device uses infrared spectrometry measuring techniques. The infrared sensing device determines the ratio of light absorption by the alcohol/gasoline mixture at two discrete wavelengths within the near-infrared spectrum. The two particular wavelengths of interest are preferably chosen so that at one of the infrared wavelengths, alcohol is strongly absorbing while the gasoline exhibits very little absorption, and at the second wavelength both the alcohol and the gasoline exhibit are essentially non-absorbing. An alternating current is used to switch the light beam between two power settings so as to vary the intensity of transmitted light at both wavelengths. The light beam is transmitted through the alcohol/gasoline fuel mixture so that the two discrete wavelengths traverse the same optical path. Two detectors are adjacently disposed so as to receive the emitted light from each wavelength after their transmission through the alcohol/gasoline fuel mixture. Once the signals corresponding to the two wavelengths are obtained, the ratio of the absorbances by the fuel mixture at both wavelengths is computed. From this ratio, and the temperature of the fuel mixture, the concentration of alcohol in the fuel is determined.
83 Citations
18 Claims
-
1. A sensing device for determining the alcohol content of an alcohol/gasoline mixture comprising:
-
a light source emitting a light beam containing at least a first and a second wavelengths within the near-infrared spectrum, said light beam being transmitted through the alcohol/gasoline fuel mixture; means for switching the current through said light source between at least two fixed values, so as to correspondingly switch the light intensity at said first and second wavelengths which is emitted by said light source; first and second detectors which are disposed so as to receive said emitted light beam after its transmission through the alcohol/gasoline fuel mixture, said first detector determines a first amount of absorption by the alcohol/gasoline fuel mixture at said first wavelength for each of said fixed values of current, and said second detector determines a second amount of absorption by the alcohol/gasoline fuel mixture at said second wavelength for each of said fixed values of current; means for separately measuring the output voltage from said first and second detectors for each of said power settings; and computational means for determining, from said output voltages, the ratio of said first and second absorbances by the alcohol/gasoline fuel mixture at said first and said second wavelengths for each of said fixed values of current such that said ratio of absorbances provide an output indicative of the alcohol content within the alcohol/gasoline mixture. - View Dependent Claims (2, 3)
-
-
4. A sensing device for determining the alcohol content of an alcohol/gasoline mixture which is provided via a fuel carrying line to an internal combustion engine for operation of that engine, comprising:
-
means for measuring the temperature of the alcohol/gasoline mixture.. a current-controlled light source emitting a light beam containing at least a first and a second wavelengths within the near-infrared spectrum, said light beam being transmitted through the alcohol/gasoline mixture within the fuel carrying line; means for switching the current through said light source between two fixed values, so as to correspondingly switch the light intensity at said first and said second wavelengths which is emitted by said light source; first and second thermopile-type detectors disposed so as to receive said emitted light beam after its transmission through the alcohol/gasoline mixture within the fuel carrying line, said first detector being optically filtered to receive a band of wavelengths centered about said first wavelength so as to determine a first amount of absorbance by the alcohol/gasoline mixture at said first wavelength for each of said fixed current values, and said second detector being optically filtered to receive a band of wavelengths centered about said second wavelength which does not overlap said band centered about said first wavelength so as to determine a second amount of absorbance by the alcohol/gasoline mixture at said second wavelength for each of said fixed current values; means for separately measuring the output voltage from each of said first and second thermopile-type detectors for each of said fixed current values; and computational means for determining, from said output voltages, the ratio of said first and second absorbances by the alcohol/gasoline fuel mixture at said first and said second wavelengths for each of said fixed current values, wherein said ratio (R) is equal to (V1A -V1B)/(V2A -V2B), with V1A and V1B being said voltage outputs by said first detector sensing at said first wavelength corresponding to each of said fixed current values respectively, and V2A and V2B being said voltage outputs by said second detector sensing at said second wavelength corresponding to each of said fixed current values respectively; such that said ratio of absorbances when considered with said temperature of the mixture is indicative of said alcohol content within the alcohol/gasoline mixture. - View Dependent Claims (5, 6, 7, 8)
-
-
9. A sensing device for determining the alcohol content of an alcohol/gasoline mixture containing up to about 85% by volume of alcohol, which is provided via a fuel carrying line to an internal combustion engine for operation of that engine, comprising:
-
means for measuring the temperature of the alcohol/gasoline mixture; a current-controlled light source emitting a light beam containing at least a first and a second wavelengths within the near-infrared spectrum, wherein at said first wavelength, the alcohol is significantly more absorbing than the gasoline component of the mixture and at said second wavelength, the alcohol and gasoline components are both essentially non-absorbing, said light beam being transmitted through the alcohol/gasoline mixture over a single optical path of predetermined length through the fuel carrying line; means for switching the current through said light source between two fixed values, so as to correspondingly switch the light intensity at said first and said second wavelengths which is emitted by said light source; first and second thermopile-type detectors disposed so as to receive said emitted light beam after its transmission through the alcohol/gasoline mixture within the fuel carrying line, said first detector being optically filtered to receive a spectral band of wavelengths centered about said first wavelength so as to determine a first amount of absorbance by the alcohol/gasoline mixture at said first wavelength for each of said fixed current values, and said second detector being optically filtered to receive a spectral band of wavelengths centered about said second wavelength which does not overlap said band centered around said first wavelength so as to determine a second amount of absorbance by the alcohol/gasoline mixture at said second wavelength for each of said fixed current values; means for separately measuring the output voltage from each of said first and second thermopile-type detectors for each of said fixed current values; and computational means for determining, from said output voltages, the ratio of said first and second absorbances by the alcohol/gasoline fuel mixture at said first and said second wavelengths for each of said fixed current values, wherein said ratio (R) is equal to (V1A -V1B)/(V2A -V2B), with V1A and V1B being said voltage outputs by said first detector sensing at said first wavelength corresponding to each of said fixed current values respectively, and V2A and V2B being said voltage outputs by said second detector sensing at said second wavelength corresponding to each of said fixed current values respectively; such that said ratio of absorbances when considered with said temperature of the mixture is indicative of said alcohol content within the alcohol/gasoline mixture. - View Dependent Claims (10, 11, 12, 13)
-
-
14. A method for determining the alcohol content of an alcohol/gasoline mixture containing up to about 85% by volume of alcohol, which is provided via a fuel carrying line to an internal combustion engine for operation of that engine, comprising the following steps:
-
measuring the temperature of the alcohol/gasoline mixture; emitting a light beam from a current-controlled light source, said light beam containing at least a first and a second wavelengths within the near-infrared spectrum, wherein at said first wavelength, the alcohol is significantly more absorbing than the gasoline component of the mixture and at said second wavelength, the alcohol and gasoline components are both essentially non-absorbing, said light beam being transmitted through the alcohol/gasoline mixture over a single optical path of predetermined length through the fuel carrying line; switching the current through said light source between two fixed values, so as to correspondingly switch the light intensity at said first and said second wavelengths which is emitted by said light source; detecting at a first and second detector said emitted light beam after transmission through the alcohol/gasoline mixture within the fuel carrying line, said first detector being optically filtered to receive a spectral band of wavelengths centered about said first wavelength so as to determine a first amount of absorbance by the alcohol/gasoline mixture at said first wavelength for each of said fixed current values, and said second detector being optically filtered to receive a spectral band of wavelengths centered about said second wavelength which does not overlap said band centered around said first wavelength so as to determine a second amount of absorbance by the alcohol/gasoline mixture at said second wavelength for each of said fixed current values, said first and second detectors each generating an output voltage proportional to the incident light it receives at each of said wavelengths for each of said fixed current values; separately measuring the output voltage from each of said first and second detectors for each of said fixed current values; and computing from said output voltages, the ratio of said first and second absorbances by the alcohol/gasoline fuel mixture at said first and said second wavelengths for each of said fixed current values, wherein said ratio (R) is equal to (V1A -V1B)/(V2A -V2B), with V1A and V1B being said voltage outputs by said first detector sensing at said first wavelength corresponding to each of said fixed current values respectively, and V2A and V2B being said voltage outputs by said second detector sensing at said second wavelength corresponding to each of said fixed current values respectively; such that said ratio of absorbances when considered with said temperature of the mixture is indicative of said alcohol content within the alcohol/gasoline mixture. - View Dependent Claims (15, 16, 17, 18)
-
Specification