Color sensor

What is claimed is: 1. A color sensor array, comprising a plurality of sensors, wherein: each of the plurality of sensors has a width dimension and a length dimension that is elongated with respect to the width of dimension, the length dimensions of the sensors being substantially equal to another and parallel to an illumination plane; each of the plurality of sensors includes a face defined by opposing first and second elongated sides and opposing first and second non-elongated sides, the first non-elongated sides of the plurality of sensors being aligned with one another along an axis that is substantially perpendicular to the illumination plane; and wherein the color sensor array is positioned such that a spot of light from the illumination plane is focused to a width that is less than the length dimension of each of the plurality of sensors. 2. The sensor array of claim 1 , wherein a first of the plurality of sensors is filtered for a first wavelength range and a second of the plurality of sensors is filtered for the second wavelength range, the first if the plurality of sensors having a width dimension that is greater than a width dimension of the second of the plurality of sensors. 3. A color sensor, comprising an illumination source, first optics, second optics, and a sensor array, wherein: the sensor array includes a plurality of sensors, each sensor having a width dimension and a length dimension that is elongated with respect to the width dimension, the length dimensions of the sensors being substantially equal to one another and parallel to a plane defined by a first axis and a second axis; the illumination source is configured to produce a light beam; the first optics is configured to project the light beam along the first axis onto a sample; the second optics is configured to collect, along the second axis, light reflected from the sample, and focus the collected light onto the plurality of sensors in a spot of light with a diameter less than the length dimensions of each sensor. 4. The color sensor of claim 3 , wherein each sensor includes a face defined by opposing first and second elongated sides and first and second non-elongated sides, the first non-elongated sides of the plurality of sensors being aligned with one another along a third axis that is substantially perpendicular to the second axis. 5. The color sensor of claim 4 , wherein: the illumination source is configured to project light that includes a first component and a second component, the first component being of a first wavelength range and a first intensity, the second component being of a second wavelength range and a second intensity that is greater than the first intensity; and a first of the plurality of sensors is filtered for the first wavelength range and a second of the plurality of sensors is filtered for the second wavelength range, the first of the plurality of sensors having a width dimension that is greater than a width dimension of the second of the plurality of sensors. 6. A color sensing method, comprising: providing a sensor array having a plurality of sensors, each sensor having a width dimension and a length dimension that is elongated with respect to the width dimension, the length dimensions of the sensors being substantially equal to one another and parallel to a plane defined by a first axis and a second axis; projecting a light beam along the first axis directing the light beam onto a sample formed on a print medium; collecting light reflected along the second axis from the sample at the sensor array; and focusing the collected light onto the plurality of sensors in a spot of light with a diameter less than the length dimensions of each sensor. 7. The method of claim 6 , wherein providing comprises providing a sensor array having a plurality of sensors, wherein each sensor includes a face defined by opposing first and second elongated sides and first and second non-elongated sides, the first non-elongated sides of the plurality of sensors being aligned with one another along a third axis that is substantially perpendicular to the second axis. 8. The method of claim 7 , wherein: projecting a light beam light comprises projecting a light beam that includes a first component and a second component, the first component being of a first wavelength range and a first intensity, the second component being of a second wavelength range and a second intensity that is greater than the first intensity; and providing comprises providing a sensor array having a plurality of sensors, wherein a first of the plurality of sensors is filtered for the first wavelength range and a second of the plurality of sensors is filtered for the second wavelength range, the first of the plurality of sensors having a width dimension that is greater than a width dimension of the second of the plurality of sensors. 9. The method of claim 6 , wherein collecting comprises: collecting, at the sensor array, light reflected from a first sample formed on a first print medium of a first type; and collecting, at the sensor array, light reflected from a second sample formed on a second print medium of a second type different than the first type; wherein the first and second samples are of substantially the same color, the light reflected from the first sample has a first scattering profile and the light reflected from the second sample has a second scattering profile different than the first scattering profile. 10. The method of claim 9 , further comprising: analyzing a first output of the sensor array corresponding to the light reflected from the first sample to identify a first color; and analyzing a second output of the sensor array corresponding to the light reflected from the second sample to identify a second color, the identified second color being substantially identical to the identified first color. 11. The method of claim 6 , wherein collecting comprises: collecting, at the sensor array, light reflected from a first sample formed on a first print medium, the sample being positioned, along the second axis, a first distance from the sensor array; and collecting, at the sensor array, light reflected from a second sample formed on a second print medium, the second sample being positioned, along the second axis, a second distance from the sensor array; wherein the second distance is less than the first distance and the first and second samples are of substantially the same color. 12. The method of claim 11 , further comprising: analyzing a first output of the sensor array corresponding to the light reflected from the first sample to identify a first color; and analyzing a second output of the sensor array corresponding to the light reflected from the second sample to identify a second color, the identified second color being substantially identical to the identified first color.