JPH0668980B2 - Connector connection structure - Google Patents

Description

The present invention relates to a connector connection structure, and more particularly to a connector connection structure suitable for signal transmission in a digital device operating at high speed.

[Conventional technology]

FIG. 2 is a diagram showing a conventional connector connection structure. First
The printed board 1 is vertically arranged on the second printed board 2, and the first printed board 1 is provided with a connector 3. Further, the pin 4 is connected to the signal pattern, the ground, and the power supply pattern of the first printed board 1. On the other hand, the pin 5 provided on the second printed board 2
Are similarly connected to the signal pattern, the ground, and the power supply pattern of the second printed board 2.

By inserting the connector 3 into the pin 5, the first and the second
The signal patterns, the ground, and the power supply pattern of the printed boards 1 and 2 are electrically connected to each other to enable signal transmission between the first and second printed boards 1 and 2.

[Problems to be Solved by the Invention]

As described above, in the conventional connector connection structure, the signals, the ground, and the power supply pattern between the first and second printed boards 1 and 2 are connected via the pins 4 and 5. This is represented by an electric circuit as shown in FIG. FIG. 3 shows a logic gate 6
7 to 7 and the logic gates 8 to 9 are shown. The connector is equivalently represented by the inductance L.

Since the pins 4 and 5 are generally long, the inductance of the pins 4 and 5 also has a large value. If this inductance L becomes large, signal transmission between the first and second printed boards 1 and 2 becomes inconvenient. That is, the output of the logic gate 6 is now LOW
It is assumed that the (low) level is changed to the HIGH (high) level, while the logic gate 8 remains stationary. Then, a current i flows through the GND (ground) pin 10 of the connector section.
This current i causes GND noise of V between the grounds of the first and second printed boards 1 and 2. Where V is It is represented by.

Noise also appears in the output of the logic gate 8 which has been stationary due to this GND noise V, and the state becomes equivalent to that when a signal equivalent to V is sent to the logic gate 9. Further, as the inductance L increases, the GND noise V also increases, and the logic gate 9 may receive an erroneous signal.

In this way, by connecting the ground using the pins 4 and 5 having the conventional structure, the inductance L increases,
As a result, the GND noise V also becomes large, which may cause the logic gate 9 to receive an erroneous signal.

The object of the present invention was made in view of the above-mentioned drawbacks,
It is to provide a connector connection structure capable of reducing GND noise.

[Means for Solving the Problems]

According to the present invention, a first printed board and a second printed board are provided, the first printed board is arranged vertically on the second printed board, and the first and second printed boards are electrically connected. In the structure for electrically connecting the first printed circuit board facing the second printed board
Exposed on the surface of the second printed board facing the first conductor and the first conductor provided on the side end surface of the printed board and connected to the ground or the power supply pattern of the first printed board. A connector provided with a second conductor connected to the ground or the power supply pattern of the second printed board, the first conductor and the second conductor being electrically connected, and provided on the surface of the first printed board. And a connector provided on the surface of the second printed board to connect the signal patterns of the first and second printed boards.

[Action]

As described above, according to the present invention, since the ground layers of the first and second printed boards are connected to each other through the conductor or the like, the connection can be made shorter than the conventional one, and the conductor can be made thin. Since the width can be formed wider than that of the pin, the inductance L in this portion can be made extremely small. This allows the GND noise to be very small.

〔Example〕

The present invention will be described in detail below with reference to the embodiments shown in the drawings.

FIG. 1 is a vertical sectional view showing an embodiment of a structure adopting a connector connecting structure according to the present invention. First printed board
111 is vertically arranged on the second printed board 12.
Ground layers 13 and 14 are provided at the central portions in the thickness direction of the first and second printed boards 11 and 12, respectively. Also,
Through holes 15 and 16 are formed through the first and second printed boards 11 and 12 in the thickness direction, respectively.
A signal pattern is formed on the surfaces of the first and second printed boards 11 and 12.
17 and 18 are provided. Furthermore, the first printed board 11
The conductor 19 provided on the lower end face of the is connected to the ground layer 13 through the through hole 15 and the connection pattern 20. A connector 21 is mounted on the surface of the first printed board 11, and a pair of pins 22 from the connector 21
The reference numeral 23 is bent at a right angle and is pierced and held by the first printed board 11. The one pin 22 is electrically connected to the signal pattern 17.

On the other hand, the conductor 24 provided on the surface of the second printed board 12
Has a spring property and is connected to the ground layer 14 through the through hole 16 and the connection pattern 25. The second printed board 12 also has signal connector pins 26, 27.
Are pierced and held, and one connector pin 26 is electrically connected to the signal pattern 18.

In the above structure, the signal connector pin 26,
By inserting 27 into connector 21, the first and second printed boards
At the same time that the signal patterns 17 and 18 of 11 and 12 are connected, the conductors 19 and 24 are also connected, and eventually the ground layers 13 and 14 of the first and second printed boards 11 and 12 are also connected.

〔The invention's effect〕

As described above, according to the connector connection structure of the present invention, the ground layers of the first and second printed boards are connected to each other via a conductor or the like. The conductor length for connecting the ground layers of the first and second printed boards can be made shorter than the method of connecting via the pin. Moreover, since the conductor can be formed wider than the conventional thin pin, the inductance L in this portion can be made extremely small. Therefore, as described above Therefore, it has an effect that the GND noise V can be made extremely small. Further, since the signal pins are not used for the ground layer connection, all the signal pins can be used for the signal connection, which is very advantageous in logic design.

[Brief description of drawings]

FIG. 1 is a longitudinal sectional view showing an embodiment of a mounting structure adopting a connector connecting structure according to the present invention, FIG. 2 is an exploded perspective view of a mounting structure adopting a conventional connector connecting structure, and FIG. 3 is a GND. It is a figure for explaining generation of noise. 11 …… First printed board, 12 …… Second printed board, 13,14 …… Ground layer, 15,16 …… Through hole, 17,18 …… Signal pattern, 19,24 …… Conductor, 21 ……connector.

Claims (1)

[Claims] 1. A first printed board and a second printed board, wherein the first printed board is vertically disposed on the second printed board, and the first and second printed boards are provided. In a structure for electrically connecting, a first conductor provided on a side end surface of the first printed board facing the second printed board and connected to a ground or a power supply pattern of the first printed board; A second printed board which is exposed on the surface of the second printed board facing the first conductor and is connected to the ground or the power supply pattern of the second printed board;
And a first conductor and a second conductor are electrically connected to each other, and
2. A connector connection structure characterized in that the signal pattern of the first and second printed boards is connected by the connector provided on the surface of the printed board and the connector provided on the surface of the second printed board.