JPH10224915A - Power supply structure of electronic apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power supply structure which has a low impedance and shows little leakage current. SOLUTION: An electronic apparatus unit 4 and a DC power supply unit 2 are housed in a rack 1 to compose the power supply structure of an electronic apparatus, and a power is supplied to the electronic apparatus unit 4 from the DC power supply unit 2. In the structure, the DC power supply unit 2 is housed in the central part of the rack 1, a power supply route from the power supply output part 3 of the DC power supply unit 2 to the power supply input part 5 of the electronic apparatus unit 4 consists of a power supply bar 6. The power supply bar 6 is connected to the power supply output part 3, and the power supply bar 6 is connected to the power supply input part 5 with connectors whose contacts are energized by elastic forces.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply structure for an electronic device, and more particularly to a power supply structure for an electronic device in which an electronic device unit and a DC power supply unit are housed in a rack and the DC power supply unit supplies power to the electronic device unit. is there.

[0002]

2. Description of the Related Art Some electronic equipment devices are constructed by accommodating a plurality of electronic equipment units in a rack. Some of the electronic device units of such electronic device devices are not provided with a power supply device and are supplied with power from a DC power supply unit separately housed in a rack. FIG. 3 is a perspective view of the rack viewed from the back, showing a conventional example of a power supply structure of an electronic device. As shown in the figure, a DC power supply unit 2 is housed at the bottom of the rack 1, and an electronic device unit 4 is housed at the top of the rack 1. Here, for simplification of description, a state in which only one electronic device unit 4 is stored in the rack 1 will be described.

A power supply bar 11 that is long in the vertical direction is provided inside the side surface of the rack 1. The power output unit 3 provided in the DC power supply unit 2 is connected to a power input unit 13 provided below the power supply bar 11 via a power supply cable 12a with a connector. In addition, the power supply bar 11
The power supply output unit 14 provided on the upper part of the electronic device unit 4 is connected to the power supply input unit 5 provided in the electronic device unit 4 via a power supply cable 12b with a connector. Thus, the power supply structure can supply power from the DC power supply unit 2 to the electronic device unit 4.

FIG. 4 is a perspective view showing another conventional power supply structure. In this case, the power output unit 3 of the DC power supply unit 2
Is connected to the power input unit 5 of the electronic device unit 4 via the power supply cable 12c with connector.

[0005]

However, in the power supply structure having the above-described structure, a power supply cable with a connector is used for the power supply path, which results in an increase in the impedance of the power supply path. The increase in the impedance of the power supply path causes a DC voltage drop to increase, and the ground becomes unstable, causing AC-like fluctuations.
In addition, there is leakage current from the connector between the power supply cable with connector and each power supply input / output unit and the cable with connector itself.
This leakage current becomes a noise of the radiation system and adversely affects the electronic device unit. An object of the present invention is to provide a power supply structure with a low impedance and a small leakage current for solving the above problems.

[0006]

In order to solve the above problems, the present invention has the following structure. That is, in a power supply structure of an electronic device in which an electronic device unit and a DC power supply unit are housed in a rack and power is supplied from the DC power supply unit to the electronic device unit, the DC power supply unit is housed in a central portion of the rack, A power supply path from a power output unit of the power supply unit to a power input unit of the electronic device unit is formed by a power supply bar, and the power supply bar, the power supply output unit, and the power supply bar are connected by a connector whose contacts are urged by elastic force. The power supply input unit is connected.

[0007]

Embodiments of the present invention will be described with reference to the drawings. The same components as those in the conventional example are denoted by the same reference numerals, and the present invention will be described. FIG. 1 is a perspective view of the rack viewed from the rear, showing an embodiment of the power supply structure of the electronic device.

[0008] The power supply structure of the present invention is configured as follows. First, the DC power supply unit 2 is located at the center of the rack 1.
The power output unit 3 is provided on the back of the DC power supply unit 2. The electronic device unit 4 is housed at the top of the rack 1, and a power input unit 5 is provided on the back of the electronic device unit 4. Here, for simplification of description, a state in which only one electronic device unit 4 is stored in the rack 1 will be described.
A power supply bar 6 is provided on the rear side of the rack 1. Since the power supply bar 6 is configured to supply power with a thick copper bar, the impedance is low. The shape of the power supply bar 6 is set such that a portion of the DC power supply unit 2 facing the power output unit 3 and a portion of the electronic device unit 4 facing the power input unit 5 are integrated. The power supply bar 6 is fixed to the back of the DC power supply unit 2 and the electronic device unit 4 by means not shown.

The power supply bar 6 and the power supply output unit 3 and the power supply bar 6 and the power supply input unit 5 are connected to the power supply connector 7 shown in FIG.
Connected by The power supply connector 7 is inserted into a fitting hole 6a provided in the power supply bar 6, and is urged rightward in the figure by an elastic force of a spring 8 or the like provided inside the fitting hole 6a. Therefore, the power supply bar 6 and the power supply output unit 3 are connected to each other, and the power supply bar 6 and the power supply input unit 5 are connected to each other with the contacts being urged by the spring 8 or the like.

In the power supply structure of the present invention, the power supply path from the power output unit 3 of the DC power supply unit 2 to the power input unit 5 of the electronic equipment unit 4 is formed by the power supply bar 6 as described above. In addition, the DC power supply unit 2 is arranged at the center of the rack 1 and the power supply path to the electronic device unit 3 is shortened. Thereby, the impedance of the power supply path can be reduced. For this reason, the DC voltage drop can be reduced, and the ground is stabilized, so that AC fluctuations can be minimized.

Since the power supply bar 6 is connected to the power supply output section 3 and the power supply bar 6 is connected to the power supply input section 5 with the contacts being urged by the spring 8 or the like, the contact resistance of the connection section is reduced. can do. In addition, as described above, the power supply output unit 3 of the DC power supply unit 2
The power supply path to the power supply input section 5 is formed by the power supply bar 6. As a result, the leakage current can be minimized, and the noise of the radiation system can be reduced.

In the above embodiment, the case where only one electronic equipment unit 4 is stored in the rack 1 has been described. Should be set.
For example, when the electronic device unit 4 is also stored in the lower part of the rack 1, the following is performed. That is, the power supply bar 6 is extended to a position facing the power input unit 5 of the electronic device unit 4 housed in the lower stage, and
To connect. Also in this case, it is possible to reduce the impedance and reduce the leakage current.

Further, in the above embodiment, the case where the power supply connector 7 is provided on the power supply bar 6 side has been described, but the present invention is not limited to this. That is, the power supply connector 7 may be provided on the power output unit 3 or the power input unit 5 side. In this case, a fitting hole is provided in the power output unit 3 and the power input unit 5, and the power supply connector 7 is urged by an elastic force of a spring or the like provided inside the fitting hole. 6 can be connected.

[0014]

As described above, according to the present invention, in the power supply structure of an electronic device, the DC power supply unit is housed in the center of the rack, and the power supply of the electronic device unit is supplied from the power output unit of the DC power supply unit. The power supply path to the unit is formed by a power supply bar, and the power supply bar and the power output unit and the power supply bar and the power input unit are connected by a connector whose contacts are urged by elastic force. This allows
The impedance of the power supply path can be reduced. Therefore, a DC voltage drop can be reduced. Since the ground is stabilized, AC fluctuation can be suppressed to a minimum. Further, with the above configuration, the leakage current can be minimized, and the noise of the radiation system can be reduced.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a power supply structure of the present invention.

FIG. 2 is a perspective view showing a power supply connector used in the power supply structure of the present invention.

FIG. 3 is a perspective view showing a conventional power supply structure.

FIG. 4 is a perspective view showing another conventional power supply structure.

[Explanation of symbols]

Reference Signs List 1 rack 2 DC power supply unit 3 power supply output unit 4 electronic equipment unit 5 power supply input unit 6 power supply bar 7 power supply connector

Claims (1)

[Claims] 1. A power supply structure for an electronic device in which an electronic device unit and a DC power supply unit are housed in a rack and power is supplied from the DC power supply unit to the electronic device unit, wherein the DC power supply unit is housed in a central portion of the rack. A power supply path from a power output unit of the DC power supply unit to a power input unit of the electronic device unit is formed by a power supply bar, and the power supply bar, the power supply output unit, and the power supply unit are connected by a connector whose contacts are biased by elastic force. A power supply structure for an electronic device, wherein a power supply bar is connected to the power input unit.