Radiant energy – Photocells; circuits and apparatus – Photocell controlled circuit
Reexamination Certificate
1999-09-23
2003-02-25
Le, Que T. (Department: 2878)
Radiant energy
Photocells; circuits and apparatus
Photocell controlled circuit
C250S234000, C250S204000, C250S216000
Reexamination Certificate
active
06525303
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of Invention
This invention relates to systems and methods to generate diffuse illumination. In particular, this invention is directed to synchronizing a diffuse light source with an electronic or digital camera for a machine vision system.
2. Description of Related Art
Uniform, diffuse illumination of a sample part is often necessary in commercial vision systems to accentuate an edge of the sample part within a designated field of view. Since most sample parts are not transparent, diffuse illumination of the sample part is also necessary so that light which is reflected from the sample part can be collected by an imaging system. Furthermore, an adjustable diffuse illumination source accommodates sample parts having a wide variety of shapes.
Typically, the intensity of light emitted by a light source is adjustable when the magnification of the imaging system is also adjustable. The adjustable illumination provides the ability to illuminate sample parts having different characteristics, such as, for example, shape, composition, and surface finish.
Also, conventional light sources project light onto the sample part at an angle from a plane which is normal to the imaging plane. This angle is referred to as the angle of incidence. Light projected at an angle of incidence which is between 0 and 90 degrees may improve the surface contrast of the image and also more clearly illuminate textured surfaces. Typically, such light sources have a prescribed range for the angle of incidence. Conventionally, the angle of incidence varies between 10° and 70° relative to the plane that is normal to the optical axis of the imaging system. Such a range is relatively broad and, therefore, provides adequate contrast in an image of a sample part.
Furthermore, conventional vision systems can also adjust the circumferential position of the source of diffuse lighting about an optical axis. Typically, the position of the diffuse lighting source is adjustable in, for example, addressable sectors or quadrants. As such, any combination of sectors and quadrants of such a circular light pattern can be illuminated. Additionally, the intensity level of the light source can be coordinated with the circumferential position of the light source to optimize the illumination of a sample part edge.
For example, some conventional vision systems include an annular light source that emits rectangular or toroidal patterns. The light source is an annulus which is divided into four quadrants. Also, other conventional vision systems include a ring light having an annulus which is subdivided into eight sectors. Additionally, some conventional vision systems have hemispherically-shaped light sources to direct light from a multitude of positions relative to an optical axis. The center of the hemisphere serves as a focal point for the light sources. Furthermore, any combination of sectors and quadrants can simultaneously be illuminated with varying illumination levels.
SUMMARY OF THE INVENTION
Recently, manufacturers of conventional vision systems have started offering a solid-state replacement for the traditional tungsten filament lamp, e.g., a halogen lamp, that has been used in conventional diffuse light sources. These manufacturers now offer light emitting diodes (LEDs) that offer higher reliability, a longer service life, greater brightness, lower cost, good modulation capabilities and a wide variety of frequency ranges.
Some manufacturers of such conventional vision systems provide opto-electro-mechanical designs that partially achieve the characteristics of the conventional diffuse light sources discussed above. However, these opto-electro-mechanical devices are complicated, costly, lack versatility, and do not enhance a video inspection process. For example, these light sources require overly intricate mechanical motion which results in a lower vision system throughput and an increase in cost. Other conventional solid-state light sources require a large number of discrete light sources in a two-dimensional array and an elaborate electronic cross-bar to energize them. Furthermore, other conventional solid-state light sources must accommodate at least fifty discrete light sources in a three-dimensional array housed in a large carriage.
Accordingly, conventional diffuse light sources are incapable of providing a full-featured, reliable, inexpensive system and method to diffusely illuminate a sample part. Moreover, conventional diffuse light sources only marginally provide the capability to control the intensity, angle of incidence and circumferential position. Such conventional diffuse light sources do not optimally illuminate sample parts for dimensional measurements when varying construction (e.g., shape), material (e.g., absorptivity, scattering, etc.), and surface properties (e.g., color or texture) are involved.
This invention provides control systems and methods that achieve the diffuse lighting effects that are currently offered on the market.
This invention separately provides control systems and methods that achieve all these features using a single solid-state source or small number of solid-state sources, such as LEDs or laser diodes.
This invention separately provides control systems and methods that synchronize the illumination of a part with the frame capture timing of an electronic or digital camera.
This invention separately provides control systems and methods that allow a part to be illuminated from a desired phase angle and over a desired arc length that is synchronized with the frame capture timing of an electronic or digital camera.
This invention separately provides control systems and methods that allow intermittent illumination of a part to by synchronized with the frame capture timing of an electronic or digital camera.
This invention separately provides control systems and methods that create conventional as well as more versatile diffuse illumination using a simpler, more robust device.
This invention separately provides control systems and methods that allow the selection of illumination color.
This invention separately provides control systems and methods that preserve the high resolution necessary for dimensional metrology measurements without the unnecessary expense of electronic or digital color camera technology.
The control systems and methods of this invention provide an economically viable way to obtain color images by assembling RGB images from a monochrome electronic or digital camera. A monochrome electronic or digital camera provides the high spatial resolution that is necessary for dimensional measurements without using expensive electronic or digital color camera technology.
The control systems and methods of this invention synchronize the light source with the frame integration of the electronic or digital camera so that each pixel of the electronic imaging elements senses the same number of illumination strobes and/or sweeps. The control systems and methods of this invention synchronize the light source so that each pixel in the electronic or digital camera receives the same input intensity. The control systems and methods of this invention also synchronize the electronic or digital camera with the light beam.
Using the control systems and methods of this invention, the illumination color may be controlled based on the sample part properties (e.g., pigmentation) in order to improve image contrast. Also, illumination color selection is used to produce a high resolution color image using a monochrome electronic image detector. Thus, the systems and methods of this invention preserve the high resolution necessary for dimensional metrology measurements without the unnecessary expense of electronic or digital color camera technology.
Exemplary embodiments of the control systems and methods of this invention include a light pattern controller that includes a beam deflector that is mounted on a motor shaft. The beam deflector has a mirror. The beam deflector tilts in proportion to the centrifugal force exerted on the beam deflector when the motor sh
Le Que T.
Luu Thanh X.
Mitutoyo Corporation
LandOfFree
Control systems and methods for synchronizing diffuse... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Control systems and methods for synchronizing diffuse..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Control systems and methods for synchronizing diffuse... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3170223