US20010005140A1 - Waveform observing jig and waveform observing device - Google Patents
Waveform observing jig and waveform observing device Download PDFInfo
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- US20010005140A1 US20010005140A1 US09/725,159 US72515900A US2001005140A1 US 20010005140 A1 US20010005140 A1 US 20010005140A1 US 72515900 A US72515900 A US 72515900A US 2001005140 A1 US2001005140 A1 US 2001005140A1
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- contact
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/28—Testing of electronic circuits, e.g. by signal tracer
- G01R31/2851—Testing of integrated circuits [IC]
- G01R31/2886—Features relating to contacting the IC under test, e.g. probe heads; chucks
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R13/00—Arrangements for displaying electric variables or waveforms
Definitions
- the present invention relates to a waveform observing jig and a waveform observing device, which are used for observing a waveform of a signal by an IC tester or the like.
- a waveform of a signal is tested by an IC tester or the like.
- a waveform observation or the like, for a timing calibration of a waveform signal is carried out.
- a board to be observed is used.
- a waveform observing jig 100 shown in FIG. 3 is used for observing a signal outputted from the board to be observed.
- the waveform observing jig 100 shown in FIG. 3 comprises a contact 10 for a signal, a contact 20 for a ground (GND), a conductive block 40 , an insulator 50 and a voltage probe 30 .
- An oscilloscope 60 observes a waveform of a signal outputted from a board 1 to be observed through the waveform observing jig 100 .
- One contact 10 for a signal and one contact 20 for a GND are attached to the waveform observing jig 100 in order to observe a signal outputted from the board 1 to be observed.
- An end portion 10 a of the contact 10 for a signal is in contact with a gold-plated pad 3 for a signal, to be measured, which is mounted on the board 1 to be observed.
- An end portion 20 a of the contact 20 for a GND is in contact with a GND pattern 2 of the board 1 to be observed.
- the contact 10 for a signal is held by the insulator 50 provided in the conductive block 40 .
- the contact 10 is insulated from the conductive block 40 by the insulator 50 .
- the contact 10 for a signal is biased toward a lower direction in the figure by a spring or the like, which is not shown.
- the end portion 10 a of the contact 10 for a signal is in contact with the gold-plated pad 3 for a signal
- the other end portion 10 b of the contact 10 for a signal is in contact with an end portion 30 a of the voltage probe 30 .
- the contact 20 for a GND is arranged on the conductive block 40 at a predetermined interval from the contact 10 for a signal so as to be in contact with the GND pattern 2 even when the contact 10 for a signal is in contact with any gold-plated pad 3 .
- a plurality of gold-plated pads 3 - 1 , 3 - 2 , . . . , 3 -n for a signal are arranged on the board 1 to be observed, so as to fetch a signal outputted from each electrode of an IC to be measured, where n is a natural number and a plurality of gold-plated pads are inclusively represented by gold-plated pads 3 for a signal.
- the arrangement of the gold-plated pads 3 for a signal is determined on the basis of an arrangement of lead pitches of an IC to be measured. That is, because each gold-plated pad 3 for a signal is arranged according to the lead pitches of an IC to be measured, each signal outputted from the lead pitches of an IC is outputted to the corresponding gold-plated pads 3 for a signal.
- each gold-plated pad 3 for a signal to the GND pattern 2 differs according to the position of a gold-plated pad 3 . Therefore, on the waveform observing jig 100 , the contact 10 for a signal and the contact 20 for a GND are arranged so as to adjust their positions to a distance between the GND pattern 2 and the gold-plated pad 3 which is disposed the most apart from the GND pattern 2 .
- FIG. 4A shows a state in which the contact 10 for a signal is in contact with the gold-plated pad 3 - 1 for a signal.
- the contact 20 for a GND is in contact with a point 2 - 1 on the GND pattern 2 .
- the point 2 - 1 is a reference point of the GND.
- FIG. 4B shows a state in which the contact 10 for a signal is in contact with the gold-plated pad 3 - 4 for a signal.
- the contact 20 for a GND is in contact with a point 2 - 4 on the GND pattern 2 .
- the point 2 - 4 is a reference point of the GND.
- the contact 10 for a signal when the contact 10 for a signal is in contact with every gold-plated pad 3 during the waveform observation, the contact 20 for a GND, which is disposed apart from the contact 10 for a signal at a constant distance, is in contact with the GND pattern 2 in order to set the reference point of the GND. Therefore, the inductance of the GND depends on the position of the gold-plated pad 3 for a signal, to be measured. As a result, there is some possibility that the inductance of the GND becomes large. The waveform of the observed signal is deteriorated. The timing error of the observed signal is caused.
- the contact 10 for a signal and the contact 20 for a GND, of the waveform observing jig 100 should be arranged so as to adjust their positions to a distance between the GND pattern 2 and the gold-plated pad 3 which is disposed the most apart from the GND pattern 2 . That is, it is necessary that the waveform observing jig 100 should be prepared according to the type of an IC to be measured.
- an object of the present invention is to provide a waveform observing jig and a waveform observing device which can minimize the inductance of the GND in the board to be observed during the waveform observation, and can be adapted to various types of boards to be measured.
- a waveform observing jig for example, waveform observing jig 200 , as shown in FIG. 1 for observing a waveform of a signal outputted from a predetermined signal terminal, comprises:
- a contact for a signal for example, contact 10 for a signal, as shown in FIG. 1
- a signal terminal for example, gold-plated pad 3 for a signal, as shown in FIG. 1
- a board to be observed for example, board 1 to be observed, as shown in FIG. 1
- a plurality of contacts for a ground for example, contacts 20 for a GND, as shown in FIG. 1
- a ground pattern for example, GND pattern 2 , as shown in FIG. 1
- At least one contact for a ground is in contact with the ground pattern of the board to be observed when the contact for a signal is in contact with a predetermined signal terminal of the board to be observed.
- the waveform observing jig comprises a plurality of contacts for a ground
- the contact for a signal is in contact with the predetermined signal terminal of the board to be observed
- it is possible to observe a signal from the predetermined signal terminal by using a contact for a ground as a reference, which is the nearest to the contact for a signal in the contacts for a ground, connecting with the ground pattern of the board to be observed, that is, by using a contact for a ground as a reference, by which the inductance of the ground is minimized.
- One waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed.
- the plurality of contacts for a ground may be attached to one conductive object (for example, conductive block 40 , as shown in FIG. 1).
- the plurality of contacts for a ground necessarily have the same electric potential because the contacts for a ground are attached to one conductive object. Because the waveform observing jig has the above structure, the contact for a ground, by which the inductance of the ground is minimized, necessarily becomes the reference of the ground.
- the contact for a signal and the plurality of contacts for a ground may be arranged in a straight line.
- one waveform observing jig can be easily adapted to the boards to be observed, which have various sizes.
- a waveform observing jig for observing a waveform of a signal outputted from a predetermined signal terminal comprises:
- a contact for a signal for example, contact 10 for a signal, as shown in FIG. 1
- a signal terminal for example, gold-plated pad 3 for a signal, as shown in FIG. 1
- a board to be observed for example, board 1 to be observed, as shown in FIG. 1
- a contact for a ground for example, contact 20 for a GND, as shown in FIG. 1
- a ground pattern for example, GND pattern 2 , as shown in FIG. 1
- a plurality of attachment portions for attaching the contact for a ground detachably in a position in which the contact for a ground is in contact with the ground pattern.
- the waveform observing jig comprises a plurality of attachment portions for attaching the contact for a ground
- the contact for a ground can be attached to the attachment portion so as to minimize the inductance of the ground in all the attachment portions when the contact for a signal is in contact with the predetermined signal terminal of the board to be observed.
- a signal from the predetermined signal terminal can be observed by using the attached contact for a ground as a reference.
- One waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed.
- the contact for a ground is attached to the attachment portion so as to minimize the inductance of the ground. Because the contact for a ground can be attached to every attachment portion, the waveform observation is satisfied with one contact for a ground. Further, because the contact for a ground is detachably attached to the attachment portion, the repair of the contact for a ground, the replacement thereof or the like can be easily carried out when the contact for a ground is damaged or the like.
- a waveform observing device comprises:
- a waveform observing jig comprising a contact for a signal, for contacting with a signal terminal of a board to be observed, and a plurality of contacts for a ground, for contacting with a ground pattern of the board to be observed, wherein at least one contact for a ground is in contact with the ground pattern of the board to be observed when the contact for a signal is in contact with a predetermined signal terminal of the board to be observed,
- the waveform observing jig comprises a plurality of contacts for a ground, it is possible to minimize the inductance of the ground in the board to be observed. Further, one waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed. Therefore, the waveform observing device can observe the waveform which is hardly deteriorated and is hardly time-delayed. Even when the waveform observation is carried out by using a different type of board to be observed, it is possible to carry out the waveform observation by using one waveform observing jig.
- the plurality of contacts for a ground may be attached to one conductive object.
- the contact for a signal and the plurality of contacts for a ground may be arranged in a straight line.
- a waveform observing device comprises:
- a waveform observing jig comprising a contact for a signal, for contacting with a signal terminal of a board to be observed, a plurality of contacts for a ground, for contacting with a ground pattern of the board to be observed, and a plurality of attachment portions for attaching the contacts for a ground detachably in a position in which the contact for a ground is in contact with the ground pattern,
- FIG. 1 is a view showing an example of the structure of the waveform observing jig having a plurality of contacts for a GND;
- FIG. 2 is a view showing a state in which the contact for a signal is in contact with the gold-plated pad for a signal;
- FIG. 3 is a view showing the structure of the waveform observing jig according to an earlier development.
- FIGS. 4A and 4B are views showing each state in which the contact for a signal is in contact with the gold-plated pad for a signal.
- FIG. 1 is a view showing an example of the structure of the waveform observing jig 200 according to the embodiment of the present invention.
- the same elements as the waveform observing jig 100 of FIG. 3 according to an earlier development are denoted by the same reference numerals. The explanations thereof are omitted.
- the difference between the waveform observing jig 200 according to the present embodiment and the waveform observing jig 100 according to an earlier development is that a plurality of contacts 20 for a GND are provided on the conductive block 40 .
- the contact 20 for a GND in the waveform observing jig 200 is the same as the contact 20 for a GND in the waveform observing jig 100 .
- the contact 10 for a signal and six contacts 20 - 1 , 20 - 2 , . . . , 20 - 6 for a GND are arranged in a straight line on the conductive block 40 of the waveform observing jig 200 .
- the contact 10 for a signal and the contacts 20 for a GND are arranged in a straight line in this embodiment, the arrangement thereof is not limited to this. Another arrangement thereof may be adapted to the waveform observing jig.
- the contacts 20 for a GND are provided on the conductive block 40 at predetermined intervals so that at least one or more contacts 20 for a GND are in contact with the GND pattern 2 when the contact 10 for a signal is in contact with any gold-plated pad 3 for a signal. All contacts 20 for a GND necessarily have the same electric potential because all contacts 20 for a GND are attached to one conductive block 40 .
- the contact 20 for a GND which is the nearest to the contact 10 for a signal in the contacts 20 contacting with the GND pattern 2 , that is, the contact 20 for a GND, by which the inductance of the GND is minimized, becomes the reference of the GND.
- FIG. 2 shows a state in which the contact 10 for a signal is in contact with the gold-plated pad 3 - 2 for a signal.
- the contact 20 - 5 for a GND is in contact with the gold-plated pad 3 - 4 for a signal, not to be measured.
- the contact 20 - 4 for a GND is in contact with an insulation portion separating the gold-plated pads 3 for a signal from the GND pattern 2 .
- the other contacts 20 - 1 , 20 - 2 , 20 - 3 and 20 - 6 for a GND are in contact with the points 2 - 1 , 2 - 2 , 2 - 3 and 2 - 6 on the GND pattern 2 , respectively.
- a signal is not outputted to the contact 20 - 5 for a GND. Because the contact 20 - 4 for a GND is in contact with the insulation portion, a signal is not outputted to the contact 20 - 4 for a GND. That is, a signal is not inputted into the contacts 20 - 4 and 20 - 5 for a GND, which are not in contact with the GND pattern 2 .
- the contact 20 - 3 for a GND which is the nearest to the contact 10 for a signal in the contacts 20 - 1 , 20 - 2 , 20 - 3 and 20 - 6 contacting with the GND pattern 2 , becomes the reference of the GND, reasonably. Then, a signal outputted from the gold-plated pad 3 - 2 for a signal is observed. That is, when a signal outputted from the gold-plated pads 3 is observed, the contact 20 for a GND, which minimizes the inductance of the GND, becomes the reference of the GND in order to observe a signal outputted from the gold-plated pad 3 for a signal.
- one waveform observing jig 200 can be also used for a board to be observed, which has a different positional relationship between the gold-plated pads 3 for a signal and the GND pattern 2 , that is, a different type of board to be observed.
- the waveform observing jig having six contacts 20 for a GND is explained in the embodiment, the number of the contacts for a GND is not limited to six.
- the conductive block 40 may comprise a plurality of attachment portions for attaching the contact 20 for a GND detachably and the contact 20 for a GND may be attached to the attachment portion in the most suitable position for a contact between the contact 10 for a signal and the gold-plated pad 3 for a signal.
- One waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed.
- One waveform observing jig can be easily adapted to the boards to be observed, which have various sizes.
- One waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed.
- the contact for a ground is attached to the attachment portion so as to minimize the inductance of the ground. Because the contact for a ground can be attached to every attachment portion, the waveform observation is satisfied with one contact for a ground. Further, because the contact for a ground is detachably attached to the attachment portion, the repair of the contact for a ground, the replacement thereof or the like can be easily carried out when the contact for a ground is damaged or the like.
- the waveform observing jig comprises a plurality of contacts for a ground, it is possible to minimize the inductance of the ground in the board to be observed. Further, one waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed. Therefore, the waveform observing device can observe the waveform which is hardly deteriorated and is hardly time-delayed. Even when the waveform observation is carried out by using a different type of board to be observed, it is possible to carry out the waveform observation by using one waveform observing jig.
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Abstract
Description
- 1. Field of the Invention
- The present invention relates to a waveform observing jig and a waveform observing device, which are used for observing a waveform of a signal by an IC tester or the like.
- 2. Description of the Related Art
- A waveform of a signal is tested by an IC tester or the like. A waveform observation or the like, for a timing calibration of a waveform signal is carried out. When such a waveform observation or the like is carried out, a board to be observed is used. A
waveform observing jig 100 shown in FIG. 3 is used for observing a signal outputted from the board to be observed. - The
waveform observing jig 100 shown in FIG. 3 comprises acontact 10 for a signal, acontact 20 for a ground (GND), aconductive block 40, aninsulator 50 and avoltage probe 30. Anoscilloscope 60 observes a waveform of a signal outputted from aboard 1 to be observed through thewaveform observing jig 100. - One
contact 10 for a signal and onecontact 20 for a GND are attached to thewaveform observing jig 100 in order to observe a signal outputted from theboard 1 to be observed. Anend portion 10 a of thecontact 10 for a signal is in contact with a gold-platedpad 3 for a signal, to be measured, which is mounted on theboard 1 to be observed. Anend portion 20 a of thecontact 20 for a GND is in contact with aGND pattern 2 of theboard 1 to be observed. By fetching a signal, the waveform observation is carried out by theoscilloscope 60. - The
contact 10 for a signal is held by theinsulator 50 provided in theconductive block 40. Thecontact 10 is insulated from theconductive block 40 by theinsulator 50. Thecontact 10 for a signal is biased toward a lower direction in the figure by a spring or the like, which is not shown. When theend portion 10 a of thecontact 10 for a signal is in contact with the gold-platedpad 3 for a signal, theother end portion 10 b of thecontact 10 for a signal is in contact with anend portion 30 a of thevoltage probe 30. - The
contact 20 for a GND is arranged on theconductive block 40 at a predetermined interval from thecontact 10 for a signal so as to be in contact with theGND pattern 2 even when thecontact 10 for a signal is in contact with any gold-platedpad 3. - A plurality of gold-plated pads3-1, 3-2, . . . , 3-n for a signal are arranged on the
board 1 to be observed, so as to fetch a signal outputted from each electrode of an IC to be measured, where n is a natural number and a plurality of gold-plated pads are inclusively represented by gold-platedpads 3 for a signal. The arrangement of the gold-platedpads 3 for a signal is determined on the basis of an arrangement of lead pitches of an IC to be measured. That is, because each gold-platedpad 3 for a signal is arranged according to the lead pitches of an IC to be measured, each signal outputted from the lead pitches of an IC is outputted to the corresponding gold-platedpads 3 for a signal. - The distance from each gold-plated
pad 3 for a signal to theGND pattern 2 differs according to the position of a gold-platedpad 3. Therefore, on thewaveform observing jig 100, thecontact 10 for a signal and thecontact 20 for a GND are arranged so as to adjust their positions to a distance between theGND pattern 2 and the gold-platedpad 3 which is disposed the most apart from theGND pattern 2. - FIG. 4A shows a state in which the
contact 10 for a signal is in contact with the gold-plated pad 3-1 for a signal. In FIG. 4A, when thecontact 10 for a signal is in contact with the gold-plated pad 3-1 for a signal, to be measured, thecontact 20 for a GND is in contact with a point 2-1 on theGND pattern 2. The point 2-1 is a reference point of the GND. Then, a signal outputted from the gold-plated pad 3-1 for a signal, that is, a signal outputted from a lead pitch of an IC, which corresponds to the gold-plated pad 3-1 for a signal, is measured. - FIG. 4B shows a state in which the
contact 10 for a signal is in contact with the gold-plated pad 3-4 for a signal. In FIG. 4B, when thecontact 10 for a signal is in contact with the gold-plated pad 3-4 for a signal, to be measured, thecontact 20 for a GND is in contact with a point 2-4 on theGND pattern 2. The point 2-4 is a reference point of the GND. Then, a signal outputted from the gold-plated pad 3-4 for a signal, that is, a signal outputted from a lead pitch of an IC, which corresponds to the gold-plated pad 3-4 for a signal, is measured. - However, in the
waveform observing jig 100 according to an earlier development, as shown in FIGS. 4A and 4B, when thecontact 10 for a signal is in contact with every gold-platedpad 3 during the waveform observation, thecontact 20 for a GND, which is disposed apart from thecontact 10 for a signal at a constant distance, is in contact with theGND pattern 2 in order to set the reference point of the GND. Therefore, the inductance of the GND depends on the position of the gold-platedpad 3 for a signal, to be measured. As a result, there is some possibility that the inductance of the GND becomes large. The waveform of the observed signal is deteriorated. The timing error of the observed signal is caused. - Because the arrangement of the lead pitches differs according to the type of an IC to be measured, it is necessary that a
board 1 to be observed, which has a different arrangement of the gold-platedpads 3 for a signal, should be prepared for every type of an IC. - Further, because it is necessary that the
contact 10 for a signal and thecontact 20 for a GND, of thewaveform observing jig 100 should be arranged so as to adjust their positions to a distance between theGND pattern 2 and the gold-platedpad 3 which is disposed the most apart from theGND pattern 2, thewaveform observing jig 100 which is suitable for theboard 1 to be observed must be used. That is, it is necessary that thewaveform observing jig 100 should be prepared according to the type of an IC to be measured. - In order to solve the above-described problems, an object of the present invention is to provide a waveform observing jig and a waveform observing device which can minimize the inductance of the GND in the board to be observed during the waveform observation, and can be adapted to various types of boards to be measured.
- That is, in accordance with one aspect of the present invention, a waveform observing jig (for example,
waveform observing jig 200, as shown in FIG. 1) for observing a waveform of a signal outputted from a predetermined signal terminal, comprises: - a contact for a signal (for example, contact10 for a signal, as shown in FIG. 1), for contacting with a signal terminal (for example, gold-plated
pad 3 for a signal, as shown in FIG. 1) of a board to be observed (for example,board 1 to be observed, as shown in FIG. 1), and - a plurality of contacts for a ground (for example,
contacts 20 for a GND, as shown in FIG. 1), for contacting with a ground pattern (for example,GND pattern 2, as shown in FIG. 1) of the board to be observed, - wherein at least one contact for a ground is in contact with the ground pattern of the board to be observed when the contact for a signal is in contact with a predetermined signal terminal of the board to be observed.
- According to the present invention, because the waveform observing jig comprises a plurality of contacts for a ground, when the contact for a signal is in contact with the predetermined signal terminal of the board to be observed, it is possible to observe a signal from the predetermined signal terminal by using a contact for a ground as a reference, which is the nearest to the contact for a signal in the contacts for a ground, connecting with the ground pattern of the board to be observed, that is, by using a contact for a ground as a reference, by which the inductance of the ground is minimized.
- Therefore, it is possible to prevent the deterioration of the waveform of the observed signal and the time delay of the signal waveform. One waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed.
- The plurality of contacts for a ground may be attached to one conductive object (for example,
conductive block 40, as shown in FIG. 1). - According to the present invention, the plurality of contacts for a ground necessarily have the same electric potential because the contacts for a ground are attached to one conductive object. Because the waveform observing jig has the above structure, the contact for a ground, by which the inductance of the ground is minimized, necessarily becomes the reference of the ground.
- The contact for a signal and the plurality of contacts for a ground may be arranged in a straight line.
- According to the present invention, one waveform observing jig can be easily adapted to the boards to be observed, which have various sizes.
- In accordance with another aspect of the present invention, a waveform observing jig for observing a waveform of a signal outputted from a predetermined signal terminal, comprises:
- a contact for a signal (for example, contact10 for a signal, as shown in FIG. 1), for contacting with a signal terminal (for example, gold-plated
pad 3 for a signal, as shown in FIG. 1) of a board to be observed (for example,board 1 to be observed, as shown in FIG. 1), - a contact for a ground (for example,
contact 20 for a GND, as shown in FIG. 1) , for contacting with a ground pattern (for example,GND pattern 2, as shown in FIG. 1) of the board to be observed, and - a plurality of attachment portions for attaching the contact for a ground detachably in a position in which the contact for a ground is in contact with the ground pattern.
- According to the present invention, because the waveform observing jig comprises a plurality of attachment portions for attaching the contact for a ground, the contact for a ground can be attached to the attachment portion so as to minimize the inductance of the ground in all the attachment portions when the contact for a signal is in contact with the predetermined signal terminal of the board to be observed. As a result, a signal from the predetermined signal terminal can be observed by using the attached contact for a ground as a reference.
- That is, it is possible to minimize the inductance of the ground in the board to be observed, and to prevent the deterioration of the waveform of the observed signal and the time delay of the signal waveform. One waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed.
- When the contact for a signal is in contact with the signal terminal, the contact for a ground is attached to the attachment portion so as to minimize the inductance of the ground. Because the contact for a ground can be attached to every attachment portion, the waveform observation is satisfied with one contact for a ground. Further, because the contact for a ground is detachably attached to the attachment portion, the repair of the contact for a ground, the replacement thereof or the like can be easily carried out when the contact for a ground is damaged or the like.
- In accordance with another aspect of the present invention, a waveform observing device comprises:
- a waveform observing jig comprising a contact for a signal, for contacting with a signal terminal of a board to be observed, and a plurality of contacts for a ground, for contacting with a ground pattern of the board to be observed, wherein at least one contact for a ground is in contact with the ground pattern of the board to be observed when the contact for a signal is in contact with a predetermined signal terminal of the board to be observed,
- wherein a waveform of a signal outputted from the signal terminal of the board to be observed, through the waveform observing jig is observed.
- According to the present invention, because the waveform observing jig comprises a plurality of contacts for a ground, it is possible to minimize the inductance of the ground in the board to be observed. Further, one waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed. Therefore, the waveform observing device can observe the waveform which is hardly deteriorated and is hardly time-delayed. Even when the waveform observation is carried out by using a different type of board to be observed, it is possible to carry out the waveform observation by using one waveform observing jig.
- The plurality of contacts for a ground may be attached to one conductive object. The contact for a signal and the plurality of contacts for a ground may be arranged in a straight line.
- In accordance with another aspect of the present invention, a waveform observing device comprises:
- a waveform observing jig comprising a contact for a signal, for contacting with a signal terminal of a board to be observed, a plurality of contacts for a ground, for contacting with a ground pattern of the board to be observed, and a plurality of attachment portions for attaching the contacts for a ground detachably in a position in which the contact for a ground is in contact with the ground pattern,
- wherein a waveform of a signal outputted from the signal terminal of the board to be observed, through the waveform observing jig is observed.
- The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus are not intended as a definition of the limits of the present invention, and wherein;
- FIG. 1 is a view showing an example of the structure of the waveform observing jig having a plurality of contacts for a GND;
- FIG. 2 is a view showing a state in which the contact for a signal is in contact with the gold-plated pad for a signal;
- FIG. 3 is a view showing the structure of the waveform observing jig according to an earlier development; and
- FIGS. 4A and 4B are views showing each state in which the contact for a signal is in contact with the gold-plated pad for a signal.
- Hereinafter, an embodiment of the present invention will be explained in detail with reference to FIGS. 1 and 2.
- FIG. 1 is a view showing an example of the structure of the
waveform observing jig 200 according to the embodiment of the present invention. In FIG. 1, the same elements as thewaveform observing jig 100 of FIG. 3 according to an earlier development are denoted by the same reference numerals. The explanations thereof are omitted. - The difference between the
waveform observing jig 200 according to the present embodiment and thewaveform observing jig 100 according to an earlier development is that a plurality ofcontacts 20 for a GND are provided on theconductive block 40. Thecontact 20 for a GND in thewaveform observing jig 200 is the same as thecontact 20 for a GND in thewaveform observing jig 100. Thecontact 10 for a signal and six contacts 20-1, 20-2, . . . , 20-6 for a GND (the six contacts being inclusively represented bycontacts 20 for a GND) are arranged in a straight line on theconductive block 40 of thewaveform observing jig 200. - Although the
contact 10 for a signal and thecontacts 20 for a GND are arranged in a straight line in this embodiment, the arrangement thereof is not limited to this. Another arrangement thereof may be adapted to the waveform observing jig. - The
contacts 20 for a GND are provided on theconductive block 40 at predetermined intervals so that at least one ormore contacts 20 for a GND are in contact with theGND pattern 2 when thecontact 10 for a signal is in contact with any gold-platedpad 3 for a signal. Allcontacts 20 for a GND necessarily have the same electric potential because allcontacts 20 for a GND are attached to oneconductive block 40. Because allcontacts 20 for a GND have the same electric potential, when thecontact 10 for a signal is in contact with the gold-platedpad 3 to be measured, thecontact 20 for a GND, which is the nearest to thecontact 10 for a signal in thecontacts 20 contacting with theGND pattern 2, that is, thecontact 20 for a GND, by which the inductance of the GND is minimized, becomes the reference of the GND. - When the
contact 10 for a signal is in contact with the gold-platedpad 3 for a signal, to be measured, there is some possibility that some of thecontacts 20 for a GND are in contact with the gold-platedpads 3 for a signal, not to be measured. However, because a signal is not outputted from the gold-platedpads 3 for a signal, not to be measured, the problems relating to the waveform observation are not caused even in case that there are somecontacts 20 for a GND, which are in contact with the gold-platedpads 3 for a signal, not to be measured. - Next, with reference to FIG. 2, the operations of the waveform observing jig according to the present embodiment will be explained. FIG. 2 shows a state in which the
contact 10 for a signal is in contact with the gold-plated pad 3-2 for a signal. - In FIG. 2, when the
contact 10 for a signal is in contact with the gold-plated pad 3-2 for a signal, to be measured, the contact 20-5 for a GND is in contact with the gold-plated pad 3-4 for a signal, not to be measured. The contact 20-4 for a GND is in contact with an insulation portion separating the gold-platedpads 3 for a signal from theGND pattern 2. The other contacts 20-1, 20-2, 20-3 and 20-6 for a GND are in contact with the points 2-1, 2-2, 2-3 and 2-6 on theGND pattern 2, respectively. At this time, because a signal is not outputted from the gold-platedpads 3 for a signal except the gold-plated pad 3-2 for a signal, to be measured, a signal is not outputted to the contact 20-5 for a GND. Because the contact 20-4 for a GND is in contact with the insulation portion, a signal is not outputted to the contact 20-4 for a GND. That is, a signal is not inputted into the contacts 20-4 and 20-5 for a GND, which are not in contact with theGND pattern 2. - Because all contacts for a GND, which are provided on one conductive block have the same electric potential, the contact20-3 for a GND, which is the nearest to the
contact 10 for a signal in the contacts 20-1, 20-2, 20-3 and 20-6 contacting with theGND pattern 2, becomes the reference of the GND, reasonably. Then, a signal outputted from the gold-plated pad 3-2 for a signal is observed. That is, when a signal outputted from the gold-platedpads 3 is observed, thecontact 20 for a GND, which minimizes the inductance of the GND, becomes the reference of the GND in order to observe a signal outputted from the gold-platedpad 3 for a signal. - As described above, because it is possible to observe a signal from the gold-plated
pads 3 for a signal by preparing a plurality ofcontacts 20 for a GND, of thewaveform observing jig 200 and by using thecontact 20 for a GND as a reference, by which the inductance of the GND is minimized, it is possible to prevent the deterioration of the waveform of the observed signal and the time delay of the signal waveform. - Because a plurality of
contacts 20 for a GND are prepared, onewaveform observing jig 200 can be also used for a board to be observed, which has a different positional relationship between the gold-platedpads 3 for a signal and theGND pattern 2, that is, a different type of board to be observed. - Although the waveform observing jig having six
contacts 20 for a GND is explained in the embodiment, the number of the contacts for a GND is not limited to six. - Although it is explained that the
contacts 20 for a GND are provided on theconductive block 40 of thewaveform observing jig 200, theconductive block 40 may comprise a plurality of attachment portions for attaching thecontact 20 for a GND detachably and thecontact 20 for a GND may be attached to the attachment portion in the most suitable position for a contact between thecontact 10 for a signal and the gold-platedpad 3 for a signal. - According to the present invention, it is possible to minimize the inductance of the ground in the board to be observed and to prevent the deterioration of the waveform of the observed signal and the time delay of the signal waveform. One waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed.
- Further, because a plurality of contacts for a ground have the same electric potential, the contact for a ground, by which the inductance of the ground is minimized, becomes the reference of the ground.
- One waveform observing jig can be easily adapted to the boards to be observed, which have various sizes.
- According to the present invention, it is possible to minimize the inductance of the ground in the board to be observed, and to prevent the deterioration of the waveform of the observed signal and the time delay of the signal waveform. One waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed.
- When the contact for a signal is in contact with the signal terminal, the contact for a ground is attached to the attachment portion so as to minimize the inductance of the ground. Because the contact for a ground can be attached to every attachment portion, the waveform observation is satisfied with one contact for a ground. Further, because the contact for a ground is detachably attached to the attachment portion, the repair of the contact for a ground, the replacement thereof or the like can be easily carried out when the contact for a ground is damaged or the like.
- According to the present invention, because the waveform observing jig comprises a plurality of contacts for a ground, it is possible to minimize the inductance of the ground in the board to be observed. Further, one waveform observing jig can be also used for a board to be observed, which has a different positional relationship between the signal terminal and the ground pattern, that is, a different type of board to be observed. Therefore, the waveform observing device can observe the waveform which is hardly deteriorated and is hardly time-delayed. Even when the waveform observation is carried out by using a different type of board to be observed, it is possible to carry out the waveform observation by using one waveform observing jig.
- The entire disclosure of Japanese Patent Application No. Tokugan-Hei 11-338538 filed on Nov. 29, 1999 including specification, claims drawings and summary are incorporated herein by reference in its entirety.
Claims (8)
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP33853899A JP2001153921A (en) | 1999-11-29 | 1999-11-29 | Jig and apparatus for observing waveform |
JP11-338538 | 1999-11-29 |
Publications (2)
Publication Number | Publication Date |
---|---|
US20010005140A1 true US20010005140A1 (en) | 2001-06-28 |
US6441621B2 US6441621B2 (en) | 2002-08-27 |
Family
ID=18319121
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Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US09/725,159 Expired - Fee Related US6441621B2 (en) | 1999-11-29 | 2000-11-29 | Waveform observing jig and waveform observing device |
Country Status (2)
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US (1) | US6441621B2 (en) |
JP (1) | JP2001153921A (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6525552B2 (en) * | 2001-05-11 | 2003-02-25 | Kulicke And Soffa Investments, Inc. | Modular probe apparatus |
US6937039B2 (en) * | 2003-05-28 | 2005-08-30 | Hewlett-Packard Development Company, L.P. | Tip and tip assembly for a signal probe |
US8536875B2 (en) * | 2009-10-28 | 2013-09-17 | Infinitum Solutions, Inc. | Testing flex and APFA assemblies for hard disk drives |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE3038665C2 (en) * | 1980-10-13 | 1990-03-29 | Riba-Prüftechnik GmbH, 7801 Schallstadt | Testing device for testing printed circuit boards provided with conductor tracks |
US4565966A (en) * | 1983-03-07 | 1986-01-21 | Kollmorgen Technologies Corporation | Method and apparatus for testing of electrical interconnection networks |
US5006808A (en) * | 1989-03-21 | 1991-04-09 | Bath Scientific Limited | Testing electrical circuits |
US5023545A (en) * | 1990-06-04 | 1991-06-11 | The United States Of America | Circuit probing system |
US5625292A (en) * | 1990-12-20 | 1997-04-29 | Hewlett-Packard Company | System for measuring the integrity of an electrical contact |
US5198756A (en) * | 1991-07-29 | 1993-03-30 | Atg-Electronics Inc. | Test fixture wiring integrity verification device |
US5187430A (en) * | 1991-08-30 | 1993-02-16 | Compaq Computer Corporation | Method and apparatus for determining nets among nodes in a circuit board |
US5266901A (en) * | 1992-05-29 | 1993-11-30 | International Business Machines Corp. | Apparatus and method for resistive detection and waveform analysis of interconenction networks |
JP3080595B2 (en) * | 1997-02-28 | 2000-08-28 | 日本電産リード株式会社 | Substrate inspection device and substrate inspection method |
-
1999
- 1999-11-29 JP JP33853899A patent/JP2001153921A/en not_active Withdrawn
-
2000
- 2000-11-29 US US09/725,159 patent/US6441621B2/en not_active Expired - Fee Related
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US6441621B2 (en) | 2002-08-27 |
JP2001153921A (en) | 2001-06-08 |
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