KR20000065479A - Apparatus and method for sequential power supplying - Google Patents

Abstract

PURPOSE: A sequential power supplying device and a method are provided to sequentially supply power by blocks, thereby preventing the life of parts from being decreased because of overcurrent and stabilizing the state of interfaces under overcurrent state. CONSTITUTION: A sequential power supplying device comprises a power switch(100), plural power suppliers(200,300,400) and detectors(250,350). The power switch(100) electrically connects or separates an input power supply and a system. The plural power suppliers(200,300,400) array power supplies in the order of priority and parallel connected to the input power supply to output respective output power. The detectors(250,350) receives the output voltage of the first one of the power suppliers(200,300,400) to enable a current power supplier if normal output voltage.

Description

Apparatus and method for sequential power supplying

The present invention relates to a device and a method for sequential power supply in order to prevent damage caused by the transient current when the power supply in the board, in particular to prevent damage to the components that may be generated due to the transient current when the initial power supply. In addition, the present invention relates to a sequential power supply device and method for giving priority to the interface unit in the order of power supply to prevent an interface error in a transient state.

1 is a block diagram of a conventional power supply circuit. Referring to this, a conventional circuit includes a power on switch 10 that receives input power according to a switch on / off, and the power on switch 10 to supply power received from the power on switch 10 into a board. And a first power supply 20, a second power supply 30, and a third power supply 40 connected in parallel with each other.

In the prior art configured as described above, the input power is supplied to the entire board through the respective power supplies 20, 30 and 40 at the same time the power of the power on switch 10 is turned on. Here, the power supplied into the board through each power supply 20, 30, 40 may be different voltages, such as 5V, 6V, 3.3V, the same voltage of 5V, but the power is separated by noise measures, etc. It may be the case.

As described above, in the conventional power supply, the power supplied in the board is supplied to the entire board at the same time as the power is turned on, and the amount of transient current drawn therein is very large compared to the load current in the steady state. Therefore, such a transient current shortens the life of the related components, and there is a problem that it is difficult to stably guarantee the state of the interface unit in the transient state.

The present invention has been made to solve the problems of the prior art operating as described above, and an object thereof is to provide a sequential power supply apparatus and method for sequentially supplying block-by-block power supply.

1 is a configuration diagram of a conventional power supply.

2 is a block diagram of a sequential power supply according to the present invention.

3 is an overall flow chart according to the sequential power supply according to the present invention.

<Explanation of symbols for main parts of drawing>

10, 100: power on switch 20, 200: first power supply

30, 300: second power supply 40, 400: third power supply

250: first detector 350: second detector

The embodiment of the sequential power supply device according to the present invention, which was created to achieve the above object, electrically supplies the input power supply and the system electrically in order to prevent the rapid increase in the initial current by sequentially supplying the power supply block by block. Power switch 100 for connecting or disconnecting, arranged in order to prioritize the power supply, a plurality of power supply (200, 300, 400) connected in parallel with the input power to output each output power, And detectors 250 and 350 for receiving the output voltage of the power supply located in front of the power supply and enabling the current power supply when it is confirmed as a normal output voltage.

In this case, the power supply 200, 300, 400 may use a DC / DC converter, a regulator, or the like, and the output voltage of the power supply may have different voltage values or the same voltage to prevent power supply noise. It may take a separate form.

The detectors 250 and 350 also include means for blocking backflow such that the power of the power supply at the rear end does not affect the power supply at the front end.

In the apparatus according to the present invention, it is preferable to use the interface portion as the portion where the power supply is given priority.

Next, an embodiment of the sequential power supply method according to the present invention, in a method for preventing a sudden increase in the initial current according to the power supply, supplying power to the power supply of the highest priority in a system consisting of a plurality of power supplies Step (s1, s2), and receiving the output power of the power supply located in the front end of the power supply to check whether the normal output power (s4, s7), and as a result of the check, the output power of the front end is normal If it is output to, and the step of enabling the power supply located in the rear stage and outputting the output power of the rear stage (s5, s6, s8, s9).

The power supplies are preferably arranged in the order in which the power supplies are to be prioritized.

Hereinafter, described in detail with reference to the accompanying drawings, preferred embodiments of the present invention.

2 is a block diagram of a sequential power supply according to the present invention. Referring to this, the circuit includes a power on switch 100 for turning on / off power, and when the power on switch 100 is 'on', the power on switch 100 receives power and supplies the power to the board. First, second, and third power supplies 200, 300, and 400 connected in parallel to the first and second power supplies 300, which detects the output of the first power supply 200, and supplies the second power supply 300, which is a subsequent power supply. A first detector 250 that enables the second power supply 300 and a second detector 350 that detects the output of the second power supply 300 and enables the third power supply 400 that is a subsequent power supply. do.

Here, the power supplies 200, 300, 400 may be used a DC / DC converter (regulator), a regulator (regulator), etc., the voltage may be different, such as 3.3V, 5V, 6V, As a countermeasure against noise, you may have disconnected the power supply with the same voltage. In addition, the detectors have a function of blocking backflow such that the power of the rear end does not reach the front end.

3 is a flowchart illustrating a sequential power supply process according to the present invention. Referring to this, in the present invention, power is not supplied to the entire board at the same time as the power is turned on. That is, power is sequentially supplied to each power block.

First, when the power-on switch 100 is 'on' to supply power (s1), the output power of the first power supply 200 is preferentially supplied by the operation of the switch 100 (s2), and each detector The power of the 250 and 350 is also operated by the first power supply 200 (s3).

Next, when the output power of the first power supply 200 is detected by the first detector 250 (s4), the second power supply 300, which is a subsequent power supply, is enabled (s5), and the second power supply As the supply 300 is enabled, the output power of the second power supply 300 is output (s6).

Then, the second detector 350 detects the output power of the outputted second power supply 300 (s7), likewise enables the third power supply 400, which is a subsequent power supply (s8), and the second As the power supply 400 is enabled, the output power of the third power supply 400 is output (s9). As a result, a sudden increase in the initial current can be prevented and the influence on the external interface circuit can be minimized.

Each of the first, second, and third power supplies 200, 300, 400 uses a DC / DC converter or a regulator, and the output power at this time is, for example, 5V, 6V, 3.3V. Different values may be output, or even if the same value is output at 5V, this may be the case when the power supply is disconnected due to power supply noise countermeasures.

As described in detail above, the present invention can sequentially turn on the power in the board to reduce the instantaneous large current draw phenomenon when the system power is on / off or when the board is unmounted / mounted in the power-on state. It is possible to prevent the shortening of the related parts due to the life and to stably guarantee the state of the interface part in the transient state.

Claims (7)

In order to prevent the sudden increase of the initial current by supplying the power supply sequentially by block, A power switch for electrically connecting or disconnecting the input power and the system; A plurality of power supplies arranged in an order of preferentially supplying power and connected in parallel with the input power to output respective output powers; And And a detector for enabling the current power supply when the output voltage of the power supply located in the front end of the power supply is input to determine the normal output voltage. The sequential power supply apparatus according to claim 1, wherein the power supply uses a DC / DC converter, a regulator, or the like. The sequential power supply of claim 1, wherein output voltages of the power supply have different voltage values. 4. The sequential power supply according to any one of claims 1 to 3, wherein the detector comprises means for blocking back flow such that the power supply of the power supply located at the rear end does not affect the power supply located at the front end. Device. 5. The sequential power supply apparatus according to claim 4, wherein the interface portion is a portion that makes power supply a priority. In the method for preventing a sudden increase in the initial current according to the power supply, Supplying power to a power supply of highest priority in a system consisting of a plurality of power supplies; Checking whether the output power is normal by receiving an output power of a power supply located at a front end of the power supplies; And And if the output power of the front end is normally output, enabling the power supply located at the rear end to output the output power of the rear end. 7. The method of claim 6, wherein the power supply further comprises the step of arranging the power supplies in a desired order.