KR200159809Y1 - Warming up circuit for power stabilizing circuit - Google Patents

Abstract

The present invention relates to a warm-up circuit for a power supply stabilization circuit, and in particular, a plurality of daughter boards (DAUGHTER BOARD) is connected to each other through a back plan (BACK PLAN) in the operation of the power supply potential due to the mounting of the daughter board in the electronic system A warm-up circuit for a power stabilization circuit that minimizes changes, wherein a negative terminal is described between the power supply device 3 that supplies power to the daughter board 54 and the power input terminal of the daughter board 54. A power supply input of the sub power supply 56 and the daughter board 54 which output a second diode D2 connected to the daughter board 54 and a voltage lower than the output voltage of the power supply device 3 by a predetermined width. The negative terminal between the terminals consists of a first diode D1 connected to the daughter board 54 side.

Description

Warm-up Circuit for Power Stabilization Circuit

1 is a structural diagram of a general electronic system for mounting a plurality of daughter boards,

2 is a graph showing the output of the power supply device 3 of FIG.

3 is a graph showing the input potential of the input power supply of the daughter board-1, 2 (4, 5) of FIG.

4 is a graph showing a potential change at the moment of mounting another daughter board,

5 is a block diagram of a warm-up circuit for a power supply stabilization circuit according to the present invention,

6 is a graph showing the potential change at the moment of mounting the warm-up circuit for the power stabilization circuit according to the present invention in the electronic system and then another daughter board.

* Explanation of symbols on the main parts of the drawings

1, 51: back plan 2: connector

3: power supply 4, 5, 6: daughter board-1,2,3

52: back plan connector 53: daughter board connector

54: daughter board 55: chip

56: DC / DC converter 57: power supply input terminal

The present invention relates to a warm-up circuit for a power supply stabilization circuit, and in particular, a plurality of daughter boards (DAUGHTER BOARD) is connected to each other through a back plan (BACK PLAN) in the operation of the power supply potential due to the mounting of the daughter board in the electronic system A warm-up circuit for a power stabilization circuit that minimizes changes.

In general, as shown in FIG. 1, the daughter boards 1, 2 (4, 5) performing respective electronic functions communicate with each other electronically using a connection board called a back plan (1). have.

Each of these daughter boards 1, 2 (4, 5) is usually supplied with power for operation from the power supply (3). Therefore, the output potential of the power supply device 3 (see FIG. 2) and the potential (see FIG. 3) input to the daughter boards 1, 2 (4, 5) are directly connected through the back plan 1. Therefore, the potential is the same.

In other words, as shown in FIG. 1, when the power supply unit 3 is connected to the back plan 1 and the daughter boards 1, 2 (4, 5) are connected, the output voltage from the power supply unit 3 is It is input to the daughter boards 1 and 2 (4 and 5) through the power input lines of the daughter boards 1 and 2 (4 and 5) via the power lines of the plan 1.

The conventional electronic system for mounting the daughter board as described above has the potential of the power supply unit 3 as shown in FIGS. 2 and 3 when the daughter board-1, 2 (4, 5) is operating. As shown in FIG. 4, when the input potential of the daughter boards 1, 2 (4, 5) is inserted into another daughter board-3 (6), a large change in potential occurs. Because of the capacitor component of the daughter board-3 (6) mounted at the moment of mounting another daughter board-3 (6), the power source that was originally operated will undergo a drastic reduction. This is because the original operating potential discharges instantaneously to charge the capacitor of the newly mounted daughter board-3 (6). Therefore, the daughter boards 1 and 2 (4 and 5), which were originally operated, may cause malfunctions.

The present invention improves the conventional problem as described above, power stabilization, characterized in that to minimize the change in the operating power supply potential due to the mounting of the daughter board in an electronic system in which a plurality of daughter boards are connected to each other through the back plan The purpose is to provide a warm-up circuit for the circuit.

The present invention has a second diode connected to the daughter board side of the power supply device for supplying power to the daughter board and the power input terminal of the daughter board to achieve the above object, and the output of the power supply device Warm-up for a power stabilization circuit comprising a first diode connected between the sub power supply for outputting a voltage lower than the voltage by a predetermined width and a negative terminal connected to the daughter board side as described above. Provide a circuit.

Hereinafter, a warm-up circuit for a power supply stabilization circuit according to the present invention will be described in detail with reference to the first embodiment.

First, the configuration of a warm-up circuit for a power supply stabilization circuit according to the present invention will be described.

5 is a block diagram of a warm-up circuit for a power supply stabilization circuit according to the present invention.

In the present invention, as shown in FIG. 5, first, a DC / DC converter 56 for outputting a voltage about 10% lower than the output voltage of the power supply device 3 is installed in the back plan 51.

Diode-2 (D2) between the power supply terminal (point A) of the daughter board 54 consisting of a plurality of chips 55 and the power supply input terminal 57 supplied with power from the power supply 3 of FIG. Connect it. At this time, the polarity of the diode-2 (D2) is set at the negative (-) unit price side to the power supply terminal (point A) side of the dotty board 54.

A daughter receiving the voltage of the DC / DC converter 56 that outputs about 10% lower than the power supply terminal (point A) of the daughter board 54 and the output voltage of the power supply device 3. Connect the diode-1 (D1) between the board connector (53). At this time, the polarity of the diode-1 (D1) is set at the negative terminal side to the power supply terminal (point A) side of the daughter board 54.

The warm-up circuit for the power supply stabilization circuit made as described above operates as follows.

First, the output potential of the DC / DC converter 56 is transferred to the daughter board 54 through the back plan connector 52 and the daughter board connector 53, and through the diode-1 (D1) to the daughter board 54. It is supplied to all the chips 55 in the daughter board 54 through the power line.

However, the chip 55 is not normally operated by a potential about 10% lower than the power source potential to be originally input. Thereafter, the daughter board 54 is completely mounted on the back plan 51 so that the output terminal of the power supply device 3 of FIG. 1 and the power supply input terminal 57 of the daughter board 54 are connected so that a normal potential is obtained by the diode. It flows into the daughter board 54 through -2 (D2). Then, the potential of the power supply terminal (point A) represents the potential obtained by subtracting the forward voltage drop component (approximately 0.7 V) of the diode-2 (D2) from the potential of the point B, which is the value of the diode-1 (D1). Stop the operation. After that, only the output voltage of the power supply device 3 is used as a power source of the daughter board 54 through the diode-2 (D2).

In addition, when the daughter board is mounted, the voltage is maintained to about 95% of the normal voltage through the back plan connector 52 and the daughter board connector 53 output from the DC / DC converter 56, so that the daughter board 54 is When the power supply voltage is inserted into the back plan 51, as shown in FIG. 6, only about 5% of the change is seen.

According to the present invention configured and operated as described above, the daughter board in which the width of the operating power supply potential is changed due to the mounting of the daughter board may operate in an electronic system in which a plurality of daughter boards are connected to each other through a back plan. It provides the effect of making the changes as small as possible.

Claims (1)

In an electronic system in which a plurality of daughter boards are connected to each other through a back plan, a negative terminal is connected between a power supply 3 for supplying power to the daughter board 54 and a power input terminal of the daughter board 54. The second diode D2 connected to the daughter board 54 and the sub power supply 56 and the daughter board 54 outputting a voltage lower than the output voltage of the power supply device 3 by a predetermined width. A warm-up circuit for a power stabilization circuit, characterized in that the (-) terminal between the power supply input terminal of the first diode (D1) connected to the daughter board (54) side.