Radiant energy – Invisible radiant energy responsive electric signalling – Infrared responsive
Reexamination Certificate
1999-04-23
2002-01-22
Epps, Georgia (Department: 2873)
Radiant energy
Invisible radiant energy responsive electric signalling
Infrared responsive
C250S341800
Reexamination Certificate
active
06340817
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to an inspection method and apparatus for detecting defects on unpopulated printed circuit boards.
BACKGROUND OF THE INVENTION
Printed circuit boards are made out of many different materials. Typically, the substrate of a board is made out of epoxy-fiberglass, Kapton (polyimide), Teflon, or polystyrene, but other materials are also used. Typically, the tracks (or the current carrying areas of the board) are made of copper, but can be made of other conducting materials. Traditional optical methods of viewing the unpopulated boards do not function well, particularly when the copper traces are oxidized, because of poor optical contrast between the traces and the substrate.
A typical unpopulated printed circuit board is depicted schematically in FIG.
1
. The substrate
10
A of board
10
has traces
11
which form circuit patterns thereon. Occasionally, due to processing abnormalities or other events, the traces
11
on the board
10
will have open circuits
13
where a trace is broken, or short circuits
12
where two traces have joined. As such, there is a need for a method of viewing and inspecting of unpopulated printed circuit boards that can overcome the lack of optical contrast between the traces and the substrate and can locate open
13
or short circuits
12
. Other defects are pinholes, notches, size variations, areas of partial etching and many others.
For purposes of the ensuing discussion and claims, the word “unpopulated” should be understood to refer to printed circuit boards which are substantially bare and have not been assembled with many components.
Several U.S. patents describe techniques use heat emissions to help inspect “populated” circuit boards (i.e. those that contain components). U.S. Pat. No. 5,208,528 discloses a method of inspecting the solder joints on a populated board by heating the board and then recording its thermographic image. U.S. Pat. No. 4,792,683 concerns a method of checking the electronic integrity of solder joints on a populated circuit board by pulse heating the board with radiant energy and then measuring the temperature oscillation of the solder joints by measuring their infrared emissions. U.S. Pat. No. 3,463,007 discloses a method of detecting the thermal radiation pattern of a populated, but faulty, circuit board and comparing it to a reference board to find malfunctioning component(s) on the board. U.S. Pat. No. 3,868,508 describes an inspection method similar to that of the '007 invention with a digital approach. U.S. Pat. No. 3,803,413 describes a similar procedure to the '007 and the '508 patents except that the reference emission pattern is preprogrammed. The '007, '508 and '413 patents do not teach that heat can be applied to the board. U.S. Pat. No. 4,481,418 discloses the use of a fiber optic system to sequentially apply heat and to measure the radiation profile from individual solder joints on a printed circuit board. All of the aforementioned patents involve the testing and inspection of populated circuit boards.
U.S. Pat. No. 4,668,982 discusses an improvement to the above systems by employing an optical method to compensate for distortion between a test printed circuit board and a reference. The optical method involves comparing fiducial marks on the corners of the test board and the reference.
U.S. Pat. No. 5,495,535 discloses an optical method for imaging a unpopulated printed circuit board and comparing it to a reference to improve the board's registration. U.S. Pat. No. 4,578,810 describes an optical method for inspecting unpopulated printed circuit boards using an array of CCD optical sensors. A drawback with the '810 process is poor optical contrast between the traces and the substrate, as mentioned above.
Japanese Patent Number JP07325120 discloses a method for detecting the integrity of contact holes on a printed circuit board. These holes are typically coated with a conductive surface that extends through the board. A contact hole is heated on one side of the board by irradiation with light and the differential heat emission profile is measured between the alternate sides of the board to search for defective contact holes having open circuits. Although the method discloses heating printed circuit boards and sensing the emissions for open circuits, the method is limited to contact holes and is based on the differential heat emission profile on the different sides of the board.
U.S. Pat. No. 4,965,451 discloses a technique where an electromagnetic exciting beam is divided and used to heat isolated cells on a solid “workpiece”. The resulting temperature profile (measured as the intensity of infrared radiation) is used to provide information about the surface and inner structure of the workpiece. The exciting beam is subdivided using a mask, which separates the beam into component beams, each component beam illuminating a single cell. The infrared heat radiation is measured during the heating and cooling of the workpiece and is compared to reference profiles for unflawed workpieces. The process does not use the measured infrared emission data directly to discriminate between two different materials in the workpiece, but rather it compares the data to a reference. As such, it is not well suited for measuring a workpiece with varied surface structure such as a printed circuit board with traces and substrate. The '451 process does not disclose a method of searching for breaks or short circuits on a printed circuit board, but simply for abnormalities on the surface and inner structure of a solid workpiece.
None of the above mentioned patents disclose a method or apparatus for inspecting the surface of an unpopulated printed circuit board by heating its surface in a first step and then subsequently measuring the resulting infrared emission profile to search for short or open circuits based on the different intensities of the emissions from the traces and the substrate.
Accordingly, there is a need for a process and apparatus that permits rapid inspection of unpopulated printed circuit boards for open and short circuits.
SUMMARY OF THE INVENTION
This invention provides a process and apparatus for the rapid inspection of unpopulated printed circuit boards for faults such as open and short circuits. In preferred embodiments of the invention, the method and apparatus apply heat to a circuit board surface and subsequently identify traces by differential infrared emissions between the traces and the substrate. Accordingly, one aspect of the invention provides a method of inspecting and detecting defects on an unpopulated printed circuit board having metallic conductors on an electrically insulating substrate. The method comprises several steps. The first step involves changing the surface temperature of a portion of the printed circuit board. After the temperature is changed, then the surface of the printed circuit board is scanned with a sensor. The infrared sensor is sensitive to wavelengths above 1 micron and detects an emission profile from the portion of the printed circuit board with the changed temperature. Finally, the method involves discriminating between the metallic conductors and the substrate on the portion of the printed circuit board based on differences in their emission profiles.
Advantageously, the temperature changing may be accomplished by heating or cooling. An extra step may be added wherein a short time delay is introduced between the changing of the temperature the scanning of the printed circuit board with the sensor. Preferably, the infrared sensor is a microbolometer array. The temperature changing step may be effected either by bringing a hot object into proximity with the printed circuit board or by directing a stream of hot air at the board. Such a heat source may also be scanned by having relative motion between the board and the heat source. The data extracted from the discriminating step may be used to locate defects either by comparison to data used for generating the board or by searching for desi
Creo S.R.L.
Hanig Richard
Oyen Wiggs Green & Mutala
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