JPH047476B2 - - Google Patents

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to an inspection jig circuit board used for inspecting printed wiring boards, and particularly to an inspection jig circuit board that is free from inspection errors and has excellent durability. .

[Prior art]

Conventionally, as a device for inspecting the presence or absence of pattern disconnections or conductive short circuits between patterns on printed wiring boards, the tip of a contact probe for inspection is fixed to upper and lower insulating plates, as shown in Figure 1. There was a device that applied electricity to the pattern end (hereinafter also referred to as the detection end) of a printed wiring board C.

However, in this testing device, since the tip of the contact probe A is pressed against the surface of the detection end of the printed wiring board C and comes into direct contact with it, a portion of the surface of the test end is easily scratched by the tip of the contact probe A.
In addition, since the contact probe usually has a diameter of about 1.5 mm to 2.0 mm, it has the disadvantage that it cannot be used for inspecting printed wiring boards having minute pads such as fine patterns for disconnections or short circuits.

Therefore, an inspection device disclosed in Japanese Unexamined Patent Publication No. 57-45473 has been proposed. This testing device presses a testing jig circuit board (insulating board) with a pressure-sensitive anisotropic conductive rubber sheet interposed on top of the printed wiring board to be tested.

The inspection jig circuit board has a conductive member on its surface that matches the pattern of the printed wiring board. Further, the conductive member has a circuit for testing on its surface, and a lead wire is drawn out from the circuit.

In addition, the present inventors previously developed an inspection jig circuit board for clamping with the pressure-sensitive anisotropic conductive rubber sheet interposed therebetween, and provided a detection end and a connector pad on the surface thereof. , and an external extraction pattern that connects the two (see Figure 2).
(Japanese Patent Application 1982-82178, Japanese Unexamined Patent Publication 1983-1999)
206776).

As shown in FIG. 2 and FIG. 3, which will be described later, when inspecting the printed wiring board 5 using the above-mentioned inspection jig circuit board, the printed wiring board 5 is inspected from its upper and lower surfaces. It is held between pressure-anisotropic conductive rubber sheet-like materials 2, and further held and pressed between the testing jig circuit board 30 and the insulating plate 8 from above and below.

Then, in the pressure-sensitive anisotropic conductive rubber sheet material 2, the portion sandwiched between the wiring end 50 of the printed wiring board 5 and the detection end 1 of the test jig circuit board is pressed, and only this pressed portion is pressed. It becomes possible to energize.

Therefore, the connector pad 4 is connected to the connector 6.
When supplying current through the test jig circuit board 3
A current flows through the connector pad 4 of 0, the external extraction pattern 3, and the detection end 1, and further a current flows from the pressure-sensitive anisotropic conductive rubber sheet material 2 to the wiring end 50 of the printed wiring board. flows.

Therefore, the presence or absence of disconnection in the pattern of the printed wiring board 5 can be inspected.

[Problem to be solved]

However, the above conventional test jig circuit board has the following problems.

That is, since the inspection jig circuit board 30 has the detection end 1, external extraction pattern 3, and connector pad 4 exposed on its surface, the detection end 1
and the external extraction pattern 3 are in direct contact with the pressure-sensitive anisotropic conductive rubber sheet material 2.

Therefore, when the pressure-sensitive anisotropic conductive rubber sheet 2 is pressed and energized, there is a risk of electrical leakage from the pressure-sensitive anisotropic conductive rubber sheet 2 to the pattern 3 for external extraction. If such a leak occurs, accurate inspection cannot be performed, and
This results in inspection errors.

Further, as can be seen from FIG. 2, the external extraction pattern 3 is a thin pattern, and there is a risk that it may be damaged and disconnected when the test jig circuit board is handled.

Furthermore, during long-term use of the test jig circuit board 30, rust may occur on the external extraction pattern 3. Such rust may cause a shoot between the closely packed external extraction pattern, detection end, and connector pad, leading to an inspection error.

Further, the inspection jig circuit board needs to be replaced depending on the type of pattern of the printed wiring board to be inspected. Furthermore, since printed wiring boards are manufactured in small quantities and in a wide variety of products, the same type of boards are often inspected irregularly from time to time. Therefore, the test jig circuit board is stored for a long period of time, and is occasionally taken out and reused. Therefore, there is no damage or rust to the above pattern.
Something with good durability is required.

In view of these conventional problems, the present invention aims to provide an inspection jig circuit board that is free from inspection errors and has excellent durability.

[Means for solving problems]

The present invention provides an inspection jig circuit board for pressing a printed wiring board, which is an object to be inspected, with a pressure-sensitive anisotropic conductive rubber sheet interposed therebetween.
The test jig circuit board has a detection end, a connector pad, and an external extraction pattern connecting the two formed on its surface, and the test jig circuit board has a detection end and a connector pad formed thereon. This circuit board is a jig for inspecting a printed wiring board, characterized in that the surface portion other than the connector pad is coated with an insulating and anticorrosive synthetic resin film such as epoxy resin or polyester resin.

The most noteworthy feature of the present invention is that the synthetic resin coating is formed on the surface of the test jig circuit board other than the detection end and connector pad.

The detection end is not coated with a synthetic resin film because it is brought into electrical contact with the pressure-sensitive anisotropic conductive rubber sheet, and the connector pad is brought into contact with a power supply connector.

Therefore, the synthetic resin film covers the surface of the external extraction pattern as well. Further, as such a synthetic resin coating, a resin having excellent corrosion resistance and insulation properties, such as an epoxy resin or a polyester resin, is used.

[Action and effect]

In the test jig circuit board of the present invention, the surface of the test jig circuit board is coated with the synthetic resin film except for the detection end and the connector pad.

Therefore, the external extraction pattern is electrically insulated by the synthetic resin coating. Therefore,
There is no possibility of inspection errors due to electrical leakage from the pressure-sensitive anisotropic conductive rubber sheet to the pattern for external extraction.

Further, although the external extraction pattern is a thin pattern, since it is covered with a synthetic resin film, there is no risk of damage such as wire breakage even during long-term storage and use. In addition, the synthetic resin coating prevents rust from occurring on the external extraction pattern, the detection end, and the external extraction pattern.
There is no need to shoot between the connector pads and cause inspection errors.

Moreover, it can withstand long-term storage and use and has excellent durability.

Therefore, according to the present invention, it is possible to provide an inspection jig circuit board that is free from inspection errors and has excellent durability.

〔Example〕

A printed wiring board inspection jig circuit board according to an embodiment of the present invention will be described with reference to FIGS. 2 and 3.

The testing jig circuit board 30 of this example is for pressing a printed wiring board 5, which is an object to be tested, with a pressure-sensitive anisotropic conductive rubber sheet-like material 2 interposed therebetween.

The inspection jig circuit board 30 has on its surface a detection end 1, a connector pad 4, and an external extraction pattern 3 connecting the two. Then, the detection end 1 in the inspection jig circuit board 30
The surface portion other than the connector pad 4 is coated with an insulating and anticorrosive synthetic resin coating (not shown). The shaded area in Figure 2 is
This is the part where the pressure-sensitive anisotropic conductive rubber sheet material 2 is placed (described later).

FIG. 2 is a plan view of the printed wiring board inspection jig circuit board of the present invention. In this drawing, reference numeral 1 denotes a conductive circuit pattern as a detection end, which is usually a copper foil formed on the surface of a printed wiring board with good dimensional stability such as a glass epoxy board or a ceramic board, or a metal on the surface of the copper foil. It is a plated conductor circuit. In other words, this conductive circuit portion corresponds to the pattern end of the printed wiring board that is the object to be inspected. Then, a pressure-sensitive anisotropically conductive rubber sheet-like material 2 is attached to this conductive circuit pattern portion, if necessary, via an adhesive or temporarily fixed with cellophane tape. When this pressure-sensitive anisotropically conductive rubber sheet material is pressed, conductivity is developed through conductive substances scattered in different directions in the sheet material, and the printed wiring board that is the object to be inspected becomes electrically conductive. The detecting end and the detecting end of the test jig circuit board are clamped in a sandwich-like manner, and have the property of being energized while the part is elastic. That is, the present invention makes use of the characteristics of this pressure-sensitive anisotropic conductive rubber sheet, and replaces the conventional contact probe with a test jig circuit board and, if necessary, as a detection end of this circuit board. By attaching it to the surface of the pattern edge using an adhesive or the like, the pattern edge of the printed wiring board that is the object to be inspected and the pattern edge of the test jig circuit board can be pressed together as described above. The main principle is that it does not damage the surface of the edge of the pattern, and also makes soft contact with fine pads and lands like fine patterns, and conducts electricity in the pressed state. It is.

Next, 3 is a pattern for external extraction, and is a part electrically connected to the detection end through a conductor circuit.

A large number of connector pads 4 are provided at both ends of this external extraction pattern 3, especially at both ends of the board, and these are the parts to which various connectors such as flat cable connectors, card edge connectors, and terminal lugs are connected. be. Therefore, this part is made of various metals, and the connector is usually soldered to it, and the electrically connected pad is usually soldered.
There are a large number of them, about 25 to 50, arranged in parallel.

As described above, the printed wiring board inspection jig circuit board of the present invention has the conductive circuit pattern 1 as a detection end on the surface of the board, and the external extraction pattern 2 is formed from the detection end, and the external extraction pattern 2 is formed from the detection end. A large number of connector pads 4 are arranged in rows at both ends of the detection end and connector pads, and the surface of the pattern other than the detection end and connector pads is coated with a corrosion-proofing and insulating resin film, such as various thermosetting resins such as epoxy resin or polyester resin. A plastic film is molded on it. However, the above-mentioned anticorrosive and insulating resin coating is not shown in the drawings.

Next, FIG. 3 shows an apparatus (hereinafter abbreviated as printed wiring board) that uses the printed wiring board inspection jig circuit board of the present invention to inspect the presence or absence of disconnections or short circuits in various printed wiring boards to be inspected. FIG.

In this drawing, 5 is a printed circuit board inspection jig circuit board, which has a detection end 1 on the surface of the board as shown in the plan view of FIG. There are connector pads 4 at both ends of the external extraction pattern, and an anticorrosive and insulating resin film is formed on the surface of the pattern other than the detection end and connector pads. 2 is a pressure-sensitive anisotropically conductive rubber sheet-like material, which is interposed on the surface of at least the pattern end 1 serving as the detection end of the printed wiring board inspection jig circuit board of the present invention. is necessary. Therefore, it is preferable that the detection end be attached in advance to the surface of the detection end via an adhesive.

However, it is also possible to clamp a set placed on both sides of a printed wiring board with the circuit board of the testing jig of the present invention, and an adhesive tape may be attached to the surface of the detection end portion of the testing jig of the present invention. It is also possible to temporarily attach the sensor via an adhesive and make it removable, so it is not necessarily necessary to attach it to the detection end surface via an adhesive.

Next, 6 is a connector, and various connectors such as a flat cable connector, a card edge connector, and a terminal lug are fixed to the connector pad 4 portion by soldering. This connector is connected to the power supply by wiring, and is electrically controlled by a sequencer and computer as necessary, so that the presence or absence of disconnections or short circuits in the printed wiring board, which is the object to be inspected, can be automatically and quickly detected. Detected. 7 is a smooth plate of the pressurizing device.

When conductive circuits are formed on both sides of the inspection jig circuit board of the present invention, the smooth plate is always laminated with an insulating plate, an insulating layer is placed on the surface of the metal smooth plate, or an insulating layer is placed on the surface of the metal smooth plate. It is necessary to apply paint to the surface of the smooth metal plate. However, if a conductor circuit is formed on only one side of the circuit board of the inspection jig of the present invention, the back side is a smooth surface with insulation properties such as an epoxy resin or ceramic substrate. The smooth plate of the device may be a conductor such as a metal smooth plate.

In addition, the inspection jig circuit board of the present invention is made of a board with extremely excellent dimensional stability such as an epoxy resin or ceramic board, so it has high precision and reliability, and is a fine pattern printed wiring board. Furthermore, it can be used to inspect flexible circuit boards, multi-layer boards, and various printed wiring boards with complex patterns on both sides with many through holes, making it a versatile device.

The printed wiring board inspection jig circuit board of the present invention having the above-mentioned features can be assembled into 1 to 3 circuit boards with the above-mentioned configuration.
By applying a pressure of about ² kg/cm to the entire body and applying electricity through the connector, the detection end of the circuit board of the test jig, the pressure-sensitive conductive rubber sheet, and the object to be inspected can be connected to each other. Through the detection end of the printed wiring board, it is possible to quickly and easily check whether there is a disconnection or short circuit on the printed wiring board.
Moreover, highly reliable inspection can be performed automatically without causing any damage to the surface of the object to be inspected.

Further, as is known from the above, in the test jig circuit board of this example, the surface portion other than the detection end and the connector pad is covered with a synthetic resin film.

Therefore, there is no occurrence of inspection errors due to electrical leakage from the pressure-sensitive anisotropic conductive rubber sheet to the pattern for external extraction.

Further, although the pattern for external extraction is a thin pattern, since it is covered with a synthetic resin film, there is no risk of damage such as wire breakage even during long-term storage and use, and there is no risk of rusting.

[Brief explanation of drawings]

Fig. 1 is a sectional view of a conventional inspection device, Fig. 2 is a plan view of a printed wiring board inspection jig circuit board of the present invention, and Fig. 3 is an inspection using the inspection jig circuit board of the present invention. FIG. In the above drawings, 1...detection end, 2...pressure-sensitive anisotropically conductive rubber sheet-like material, 3...pattern for external extraction, 4...pad for connector.

Claims (1)

[Scope of Claims] 1. An inspection jig circuit board for pressing a printed wiring board, which is an object to be inspected, with a pressure-sensitive anisotropic conductive rubber sheet interposed therebetween, comprising: The jig circuit board has a detection end on its surface,
A connector pad and an external extraction pattern connecting the two are formed, and the surface of the test jig circuit board other than the detection end and the connector pad is coated with epoxy resin, polyester resin, etc. A printed wiring board inspection jig circuit board characterized by being coated with an insulating and anticorrosive synthetic resin film.