JP4543699B2 - Circuit board mounting structure - Google Patents

Description

  The present invention relates to a circuit board mounting structure having a differential transmission line, and more particularly to a circuit board mounting structure that suppresses deterioration of frequency characteristics and is suitable for high-density mounting and to which high-frequency wiring is connected.

  Along with the recent improvement in performance of information equipment, circuits are also highly integrated and high-density wiring is further advanced, and IC packages are becoming smaller and more terminals. On the other hand, the signal frequency has become high frequency and high frequency, and signal reliability has been strictly asked.

  For this reason, the package structure has evolved from a pin insertion type or a surface mount type (Quad Flat Package or the like) to a BGA (Ball Grid Array) structure. In particular, a BGA package using solder balls or the like as connection terminals of the package can easily reduce the connection distance, narrow pitch, and increase the number of terminals.

  Furthermore, with the increase in signal processing speed and transfer speed, data transfer has become difficult on single-ended transmission lines. Therefore, recently, a low-amplitude differential transmission method has been used. The differential transmission system is a system in which signals having opposite phases are sent through two signal lines and transmitted using electromagnetic coupling between the lines. In order to withstand noise, it is required to make the space between lines as narrow as possible.

Known documents are described below.
JP 2002-299379 A

  In general, the distance between connection terminals compared to the space of the wiring pattern in the board, in order to prevent short-circuiting during mounting or the connection terminal shape in connection between circuit boards or between a semiconductor device and a circuit board. Is widely taken. Therefore, in the differential transmission path, the differential impedance mismatch occurs because the line spacing is widened at the connection terminal portion, causing a transmission error.

  The present invention has been made to solve the above-described problems, and reduces reflection that occurs when a high-frequency signal is differentially transmitted between a semiconductor device and a circuit board or between circuit boards. It is an object to provide a circuit board mounting structure with high signal reliability without impairing ease.

In order to solve the above problem, the circuit board mounting structure according to the first aspect of the present invention is such that the differential transmission path wired to the first circuit board and the second circuit board is at least of the first board. A circuit board mounting structure in which a pad provided on one surface, a pad provided on a surface of a second circuit board opposite to the pad, and a conductor bump inserted between the pads are connected. The ground plane of the first circuit board at the position facing the signal pad of the circuit board is excluded, and the excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is the signal pad. The circuit board is characterized by having a similar shape to the pad shape in the range from the wiring lead-out direction of the signal pad to the center direction of the signal pad adjacent to the signal pad. It is a structure.
According to a second aspect of the present invention, the excluded contour of the ground plane adjacent to the signal pad of the differential transmission path has the center of the signal pad as a vertex, and the signal from the wiring drawing direction of the signal pad. The pad shape similar shape is in a range up to the center direction of the signal pad adjacent to the pad, and the range is a shape in which the magnification of the similar shape of the pad is selected. A circuit board mounting structure.
According to a third aspect of the present invention, the excluded contour of the ground plane adjacent to the signal pad of the differential transmission path has the center of the signal pad as the apex, and the signal from the wiring drawing direction of the signal pad. 2. The circuit board mounting structure according to claim 1, wherein the pad shape is similar to the center of a signal pad adjacent to the pad and is smaller than the radius of the pad in the range. is there.
According to a fourth aspect of the present invention, there is provided a differential transmission path wired between the first circuit board and the second circuit board, a pad provided on at least one surface of the first board, and a first opposed to the pad. 2 is a mounting structure of a circuit board connected by pads provided on the surface of the circuit board and conductor bumps inserted between the pads, at a position facing the signal pad of the first circuit board. The ground plane of the first circuit board is excluded, and the excluded outline of the ground plane adjacent to the signal pad of the differential transmission path has the center of the signal pad as the apex, and from the wiring drawing direction of the signal pad. A circuit board mounting structure characterized in that the pad shape is similar to the center direction of adjacent ground pads.
According to a fifth aspect of the present invention, the excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is adjacent to the signal pad wiring drawing direction with the center of the signal pad as the apex. 5. The circuit board mounting according to claim 4, wherein the pad shape is similar in shape to the center direction of the ground pad, and in the range, the shape is selected by selecting a magnification of the similar shape of the pad. Structure.
In the invention of claim 6, the excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is adjacent to the signal pad wiring drawing direction with the center of the signal pad as the apex. 5. The circuit board mounting structure according to claim 4, wherein the pad shape is similar in shape to the center direction of the ground pad, and is smaller than the radius of the pad in the range.
According to a seventh aspect of the present invention, there is provided a differential transmission path wired to the first circuit board and the second circuit board, a pad provided on at least one surface of the first board, and a first facing the pad. 2 is a mounting structure of a circuit board connected by pads provided on the surface of the circuit board and conductor bumps inserted between the pads, at a position facing the signal pad of the first circuit board. The ground plane of the first circuit board is excluded, and the excluded contour of the ground plane adjacent to the signal pad of the differential transmission path has the center of the signal pad as the apex, and one of the adjacent ground pads The ground plane is similar to the pad shape in the range from the center direction to the center direction of the other adjacent ground pad and the side of the signal pad having the wiring lead-out direction. In has been removed, with no side range wiring drawing direction of the signal pad, the ground plane is a circuit board packaging structure, characterized by being deleted.

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In the configuration of claim 1, the ground plane at the position facing the signal pad is eliminated to prevent the capacitance from increasing, and a part of the outline of the ground plane adjacent to the signal pad corresponds to the corresponding pad. Since the shape is similar, by selecting the magnification of the similar shape, the capacitance between the conductor bump and the ground plane can be changed to match the characteristic impedance and the differential impedance in the conductor bump. In addition to simply removing the ground plane facing the pad, a pseudo slot line is formed so that a feedback current flows through the edge of the ground plane in the pad portion, thereby returning a feedback path for common mode noise and the like. The electrical characteristics can be improved.

In the configuration of the second aspect, the pseudo slot line is formed symmetrically from the paired differential transmission path to the direction of the adjacent ground pad, and the electrical characteristics are improved by making the transmission path continuous in a balanced manner. It is possible.

Since the present invention has the configuration and operation as described above, the capacitance between the conductor bump and the ground plane is changed by selecting the magnification of the similar shape, and the characteristic impedance and the differential impedance in the conductor bump are matched. Can be. As a result, reflection is suppressed and high-frequency signal transmission is possible. Furthermore, by forming a pseudo slot line , a feedback current flows through the edge of the ground plane in the pad portion, so that a feedback path such as common mode noise is fixed, and electrical characteristics can be improved. As a result, it is possible to reduce reflection that occurs when differential transmission of high-frequency signals between semiconductor devices and circuit boards, or between circuit boards, and to mount circuit boards with high signal reliability without compromising the ease of high-density connections. It can be a structure.

Embodiments of the present invention will be described below with reference to FIGS.
FIG. 1 is a partial sectional view showing an example of an embodiment of a circuit board mounting structure according to the present invention.
In the figure, a circuit board 1 is a four-layer flexible BGA substrate, and the first layer forms a differential line connected to a land 130 on the ground plane 400 and the second layer. Each line is connected to the PCB circuit board 2 via the land 130, the via 90, the pad 300, and the bump 6. The pad diameter 7 of the circuit board 1 and the circuit board 2 is 600 μm, and the pad pitch is 1 mm. The bumps are Sn—Pb eutectic solder and have a height of about 370 μm and a lateral diameter of about 500 μm. In the circuit board 2, the signal of the differential line of the circuit board 1 is connected from the pad 3 to the land 13 through the via 9. The land 13 of the circuit board 2 is connected to the differential transmission line 5 (FIG. 2). Further, a microstrip line is formed by the ground plane 4 and the differential transmission path 5. The conductor thickness is 8 μm and the line width is 31 μm. The insulating layer has a dielectric constant of 3.3 and a thickness of 21 μm. The ground plane 4 of the circuit board 2 at the position facing the signal pad 3 of the circuit board 2 is excluded.

FIG. 2 is a partially transparent plan view of a circuit board showing an example of an embodiment of the circuit board mounting structure of the present invention. It is the top view seen through through the direction of the cross sections 10-11 of FIG. A part of the cross section of the straight line 12 in FIG. 2 is shown in FIG. In FIG. 2, the portion of the ground plane 4 of the circuit board 2 surrounded by the contours 8 and 8a is excluded. With reference to the center of the signal pad 3b, a contour 8a is provided in the ground plane exclusion portion between the direction of drawing out the differential transmission path and the direction of the ground pad 3a, and this and the pad 3b form a pseudo slot line . . The radius of curvature of the ground plane outline 8a is 440 μm. The radius of curvature can be changed by selecting the magnification of the similar shape of the ground plane outline, and the capacitance between the conductor bump and the ground plane can be changed accordingly. Therefore, the characteristic impedance and differential impedance of the conductor bump can be matched with the transmission line. The ground plane outline 8 has a circular shape of 700 μm from the center. In order to enhance the effect of the present invention, the ground plane was also removed from the circuit board 1 in the same shape. Further, since the pads 3a and 3c adjacent to the signal pad 3b of the present embodiment are ground pads, they are connected to the ground plane.

  FIG. 3 shows the result of obtaining the differential S-Parameter with respect to the frequency using the three-dimensional electromagnetic field analysis for the circuit board and the connection structure shown above. In the figure, the horizontal axis represents the frequency, and the vertical axis represents the reflection coefficient S11. In order to show the superiority of the connection structure, the ground plane was not removed, and the differential S-Parameters in the case of the same substrate as the above circuit board were also shown together. As can be seen from the figure, according to the present invention, the capacitance can be reduced, impedance matching can be performed, and only the shortest distance can be selected as the return current path.

In this example, the slot plane is formed by opening the ground plane. However, in the present invention, as shown in FIG. 4, it is not necessary to surround the entire periphery of the pad at the end of the ground plane, and the slot line can be formed. . In this case, with reference to the center of the signal pad 3b, a contour 8a is provided in the ground plane exclusion portion between the direction of the ground pad 3c and the direction of the ground pad 3a, and this and the pad 3b form a pseudo slot line . is doing. The ground plane on the side without the differential signal line 5 divided by the pads 3a, 3b, 3c, etc. is deleted. FIG. 4 is the same as FIG. 3 except for the configuration of the ground plane. Even in such a configuration, the capacitance can be reduced, impedance matching can be performed, and only the shortest distance can be selected as the return current path, so that the electrical characteristics are improved.

  As an application example of such a circuit board mounting structure, in a computer device, when a high-speed device package such as a chipset, graphics, memory, ASIC or the like is mounted on a motherboard in a plane, or in these high-speed device packages, a semiconductor is used as an interposer The chip can be used for general planar mounting applications such as flip chip mounting.

It is a fragmentary sectional view which shows the example of embodiment about the mounting structure of the circuit board of this invention. It is a partial see-through plan view from the circuit board upper part which shows the example of embodiment about the mounting structure of the circuit board of this invention. It is a figure which shows the differential S-Parameter of the example of embodiment about the mounting structure of the circuit board of this invention. It is a partial perspective plan view from the circuit board upper part which shows the other example of embodiment about the mounting structure of the circuit board of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Circuit board 2 ... Circuit board 3, 30 ... Pad 3a ... Ground pad 3b ... Signal pad 4, 40 ... Ground plane 5 ... Differential transmission path 6: Bump 7: Pad diameter 8: Ground plane contour 8a: Ground plane contour 9, 90: Via 10: FIG. 2 partial perspective plan view plane position 11: FIG. 2 partial perspective plan view perspective direction 12: FIG. 130: Land

Claims (7)

The differential transmission line wired to the first circuit board and the second circuit board is
A pad provided on at least one surface of the first substrate;
A pad provided on the surface of the second circuit board facing the second circuit board;
A circuit board mounting structure connected by conductor bumps inserted between the pads,
The ground plane of the first circuit board at the position facing the pad for signals of the first circuit board is eliminated,
The excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is
The center of the signal pad is the vertex,
A circuit board mounting structure characterized by having a similar shape to the pad shape in a range from a wiring drawing direction of the signal pad to a center direction of a signal pad adjacent to the signal pad.   The excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is
The center of the signal pad is the vertex,
It is similar to the pad shape in the range from the wiring lead-out direction of the signal pad to the center direction of the signal pad adjacent to the signal pad,
In this range, it should be a shape that selects the magnification of the similar shape of the pad.
The circuit board mounting structure according to claim 1.   The excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is
The center of the signal pad is the vertex,
It is similar to the pad shape in the range from the wiring lead-out direction of the signal pad to the center direction of the signal pad adjacent to the signal pad,
In the range, it should be smaller than the radius of the pad
The circuit board mounting structure according to claim 1.   A first circuit board and
A differential transmission line wired to the second circuit board is
A pad provided on at least one surface of the first substrate;
A pad provided on the surface of the second circuit board facing the second circuit board;
A circuit board mounting structure connected by conductor bumps inserted between the pads,
The ground plane of the first circuit board at the position facing the pad for signals of the first circuit board is eliminated,
The excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is
The center of the signal pad is the vertex,
Similar to the pad shape in the range from the signal lead-out direction of the signal pad to the center direction of the adjacent ground pad
Circuit board mounting structure characterized by   The excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is
The center of the signal pad is the vertex,
It is similar to the pad shape in the range from the wiring drawing direction of the signal pad to the center direction of the adjacent ground pad,
In this range, it should be a shape that selects the magnification of the similar shape of the pad.
The circuit board mounting structure according to claim 4.   The excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is
The center of the signal pad is the vertex,
It is similar to the pad shape in the range from the wiring drawing direction of the signal pad to the center direction of the adjacent ground pad,
In this range, it should be smaller than the radius of the pad
The circuit board mounting structure according to claim 4.   A first circuit board and
A differential transmission line wired to the second circuit board is
A pad provided on at least one surface of the first substrate;
A pad provided on the surface of the second circuit board facing the second circuit board;
A circuit board mounting structure connected by conductor bumps inserted between the pads,
The ground plane of the first circuit board at the position facing the pad for signals of the first circuit board is eliminated,
The excluded contour of the ground plane adjacent to the signal pad of the differential transmission path is
The center of the signal pad is the vertex,
The contour is divided from the center direction of one adjacent ground pad to the center direction of the other adjacent ground pad,
In the range on the side having the wiring lead-out direction of the signal pad, the ground plane is deleted in a similar shape of the pad shape,
The circuit board mounting structure, wherein the ground plane is deleted in a range of the signal pad on the side without the wiring drawing direction.

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