Automated position locator for a height sensor in a dispensing system

What is claimed is: 1. A method of determining a position of a height sensor in a dispensing system, the method comprising: moving the height sensor relative to a calibration device located in a platform of the dispensing system in order to align electromagnetic radiation emitted by the height sensor with the calibration device; generating an alignment signal with the calibration device in response to receipt of the electromagnetic radiation; and determining, based on the alignment signal, a first position of the height sensor relative to the platform when the height sensor is aligned with the calibration device. 2. The method of claim 1 , wherein the electromagnetic radiation is a light beam, the calibration device includes an optical sensor, and generating the alignment signal comprises: detecting the light beam with the optical sensor to generate the alignment signal. 3. The method of claim 2 , wherein the height sensor comprises an assembly including a camera and a dispensing valve in which the camera has a fixed spatial position relative to the height sensor, and generating the alignment signal with the calibration device in response to receipt of the light beam comprises: moving the assembly relative to the platform to locate the assembly at the first position in which the light beam emitted from the height sensor is aligned with the optical sensor. 4. The method of claim 3 , further comprising: moving the assembly relative to the platform to locate the assembly at a second position in which the optical sensor is aligned with a predefined location in a field of view of the camera. 5. The method of claim 3 , wherein the optical sensor is adjacent to a fiducial mark on a surface facing toward the height sensor, the method further comprising: moving the assembly relative to the platform to locate the assembly at a second position in which the fiducial mark is aligned with a predefined location in a field of view of the camera. 6. The method of claim 3 , wherein the optical sensor is aligned with an opening in a surface facing toward the height sensor, the method further comprising: moving the assembly relative to the platform to locate the assembly at a second position in which the opening in the surface is aligned with a predefined location in a field of view of the camera. 7. The method of claim 2 , wherein the calibration device includes a surface and a fiducial feature on the surface, the fiducial feature defining a step height change, and generating the alignment signal comprises: transmitting a light beam from the height sensor; and detecting a change in a reflected portion of the light beam originating from the fiducial feature. 8. The method of claim 7 , wherein the fiducial feature includes an edge defining a step height change perceivable by the height sensor, and detecting the reflected portion of the light beam comprises: moving the height sensor to scan the light beam across the edge; and as the light beam is scanned across the edge, detecting the change in the reflected portion of the light beam with the height sensor to generate the alignment signal. 9. The method of claim 1 , wherein the height sensor comprises an assembly including a camera and a dispensing valve in which the camera has a fixed special position relative to the height sensor. 10. The method of claim 9 , further comprising: moving the assembly relative to the platform to locate the assembly at the first position; while the assembly is located at the first position, receiving a first set of coordinates for the assembly; moving the assembly relative to the platform to locate the assembly at a second position in which the calibration device is aligned with a predefined location in a field of view of the camera; and while the assembly is located at the second position, receiving a second set of coordinates for the assembly; and computing a first offset vector for the height sensor relative to the camera from the first and second sets of coordinates. 11. The method of claim 10 , further comprising: moving the assembly relative to the platform to locate the assembly at a third position; while the assembly is located at the third position, dispensing an amount of a material from the dispensing valve on a dispensing area adjacent to the calibration device; and moving the assembly relative to the platform to locate the assembly at a fourth position in which the amount of the material is at the predefined location in the field of view of the camera. 12. The method of claim 11 , further comprising: while the assembly is located at the third position, receiving a third set of coordinates for the assembly; while the assembly is located at the fourth position, receiving a fourth set of coordinates for the assembly; computing a second offset vector for the dispensing valve relative to the camera from the third and fourth sets of coordinates; and computing a third offset vector for the height sensor relative to the dispensing valve from the first and second offset vectors. 13. The method of claim 1 , wherein a top surface of the platform is orthogonal to the direction of emission of the electromagnetic radiation.