KR101282263B1 - Electronic Apparatus And Electronic Apparatus System - Google Patents

Abstract

The present invention relates to an electronic device and an electronic device system including the electronic device. An electronic device of the present invention includes: a connection portion to which an external device is connected; A power supply unit providing any one of a first reference voltage and a second reference voltage having a voltage magnitude greater than the first reference voltage to the external device connected to the connection unit; When the external device is connected to the connection unit and the operation of the external device is executed, the power supply unit is configured to provide the second reference voltage to the external device and to provide the first reference voltage when a predetermined time elapses. It characterized in that it comprises a control unit. As a result, a stable voltage level power source can be provided to the external device without adding unnecessary mechanical configurations of the electronic device and the external device.

Description

Electronic Apparatus And Electronic Apparatus System

1 is a control block diagram of a conventional electronic device system;

2 is a control block diagram of an electronic device system according to the present invention;

3 is a control flowchart of an electronic device system according to the present invention.

Explanation of symbols on the main parts of the drawings

10 ': External device 17: External connection

22: load switch 24: current limit switch

25: USB port 29: Connection cable

30 ': power supply unit 40: control unit

100 ': electronics

The present invention relates to an electronic device and an electronic device system, and more particularly, to an electronic device and an electronic device system capable of providing a stable voltage level power supply to an external device.

In general, an electronic device includes a DC / DC converter, which is a power supply that converts external power supplied from the outside into DC power having a voltage level required by each circuit in the device and provides the same to each circuit. In addition, in order to realize various functions in recent years, an additional external device is connected to the electronic device to further realize a function using the external device.

An electronic device system composed of such a conventional electronic device and an external device will be described with reference to FIG. 1.

As shown in FIG. 1, the electronic device 100 converts an external power source VDC supplied from the outside into a DC power source having a voltage level required by each circuit unit in the device, and provides the DC / DC converter to each circuit unit. 30), the USB port 25 to which the external ODM 10 is connected, the connection cable 29, and the leakage current prevention through the USB port 25 and the shutdown prevention due to the inrush current when the system is turned on. It includes a load switch 22 and a current limiting switch 24 which are protection circuits for preventing the load. The external ODM 10 includes an external connector 17 connected to the connection cable 29 to be connected to the USB port 25.

Accordingly, the external ODM 10 is additionally connected to the electronic device 100. In addition, in order for the external ODM 10 to operate, power of a voltage level 5V required for operation must be supplied from the DC / DC converter 30 of the electronic device 100. At this time, when the power of the stable voltage level (5V) is not supplied, for example, when the supplied power is 4.75V or less, the external ODM 10 stops driving for stable operation.

However, as can be seen in Figure 1, even if the DC / DC converter 30 outputs a voltage of 5V voltage level, the voltage level is passed through the load switch 22, the current limit switch 24 and the connecting cable 29 The voltage level of the power supply P1 that drops down and reaches the external connection portion 17 of the external ODM 10 may be 4.75 V or less. Thus, conventionally, as shown in FIG. 1, the electronic device 100 includes a separate VDC port 35 for outputting power, and the external ODM 10 is a power source for connecting to the VDC port 35. A port 19 and a separate external DC / DC converter 15 for converting the external power supply VDC provided through the power supply port 19 to the required voltage level 5V are provided.

As such, in the related art, in order to provide a stable voltage level power to the external ODM 10, a separate VDC port 35 is provided to the electronic device 100, and a separate power port 19 and external to the external ODM 10. Since the DC / DC converter 15 must be provided, there is a problem in that unnecessary layout is consumed mechanically, the possibility of defects is increased, and the cost is increased.

Accordingly, it is an object of the present invention to provide a device capable of providing a stable voltage level power supply to an external device without adding unnecessary mechanical configurations of the electronic device and the external device.

According to an aspect of the present invention, there is provided an electronic device comprising: a connection portion to which an external device is connected; A power supply unit providing any one of a first reference voltage and a second reference voltage having a voltage magnitude greater than the first reference voltage to the external device connected to the connection unit; When the external device is connected to the connection unit and the operation of the external device is executed, the power supply unit is controlled to provide the second reference voltage to the external device and to provide the first reference voltage when a predetermined time elapses. It is achieved by an electronic device comprising a control unit.

The controller may include at least one of a microcomputer and a BIOS for detecting whether the external device is connected to the connection unit, detecting whether the external device is executed, and controlling the power supply unit.

Here, the external device may include an external optical disk drive (ODD).

The connection unit may include a universal serial bus (USB) port.

According to another aspect of the present invention, there is provided an electronic device system, comprising: an electronic device according to any one of claims 1 to 4; And an external device connected to the connection part, and including an external device which operates using any one of the first reference voltage and the second reference voltage provided from the electronic device. It is also achieved by the system.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 2, an electronic device system including an electronic device 100 ′ and an external device 10 ′ connected to the electronic device 100 ′ according to the present invention will be described.

As shown in FIG. 2, the electronic device 100 ′ may include a USB port 25, which is a connection portion to which the external device 10 ′ is connected, and an external device 10 ′ connected to the USB port 25. An external device 10 is connected to a power supply unit 30 'providing one of a reference voltage and a second reference voltage having a voltage magnitude greater than the first reference voltage, and an external device 10' connected to the USB port 25. When the operation of ') is performed, the power supply unit 30' is controlled to provide the second reference voltage to the external device 10 'and to provide the first reference voltage when a predetermined time (for example, 30 seconds) elapses. The control unit 40 is included.

Of course, as can be seen in Figure 2, the electronic device 100 'is a connection cable for connecting the electronic device 100' and the external device 10 'mutually connected to the external port 10' to the USB port 25. And a load switch 22 and a current limit switch 24, which are protection circuits for preventing leakage current, preventing shutdown due to inrush current, and overload, through the USB port 25 when the system is driven on. do. The configuration of the connection cable 29, the load switch 22 and the current limit switch 24 can be said to be the same as in the prior art.

The power supply unit 30 'is configured to supply external power VDC supplied from the outside to each circuit unit of the electronic device 100' (external device 10 ', graphic card (not shown), sound card (not shown), etc.). It is preferable that the converter is a DC / DC converter which is converted into a DC power supply of a voltage level required by the circuit and provided to each circuit unit.

The power supply unit 30 ′ is configured to receive the divided voltages of R1 and R2 by the controller 32 ′ through the configuration as shown in FIG. 2, and based on the input divided voltage and the predetermined reference voltage. Pulse width modulation (PWM) control of the Q1 and Q2 by the 32 'enables a general configuration such that the voltage level of the power output from the power supply unit 30' is maintained at a constant magnitude (for example, 5V). . Accordingly, the power supply unit 30 'provides a first reference voltage (for example, 5V) to the external device 10' connected to the USB port 25 under the control of the control unit 40, or the first One of the second reference voltages (eg, 5.3V) having a voltage magnitude greater than the reference voltage (5V) is provided. Here, the magnitude of the second reference voltage is taken into consideration by the degree of drop in the voltage level while passing through the load switch 22, the current limit switch 24, and the connection cable 29, and the external connection portion of the external device 10 '( Any size can be used as long as the voltage level of the power supply P3 reached at 17) is a suitable voltage level so as to exceed 4.75V.

The controller 40 adjusts the reference voltage set in the controller 32 'of the power supply 30' so that the power supply 30 'outputs the second reference voltage 5.3V. When 30 seconds elapse, the controller 40 lowers the reference voltage of the controller 32 'and returns to the original state, thereby allowing the power supply 30' to output the first reference voltage 5V. Do. Of course, in addition to this method, any method may be adopted as long as it is a conventional method that can adjust the magnitude of the output voltage of the power supply unit 30 '.

The controller 40 detects whether the external device 10 'is connected to the USB port 25, and if connected, detects whether an operation of the external device 10' is executed. When the operation of the external device 10 'is executed, the control unit 40 controls the power supply unit 30' to provide the second reference voltage 5.3V to the external device 10 ', After 30 seconds), the power supply unit 30 'is controlled to provide the first reference voltage 5V.

The controller 40 detects whether the external device 10 'is connected to the USB port 25, detects whether an operation of the external device 10' is executed, and controls the power supply unit 30 '. It is preferable that the configuration including at least one of the microcomputer and the bios for.

The external device 10 'includes an external connection 17 for connection to the connection cable 29 and for connection to the USB port 25. The external device 10 'is preferably an external optical disk drive (ODD). That is, the external device 10 ′ is connected to the electronic device 100 ′ unlike the conventional art in which an external power port 19 and an external DC / DC converter 15 should be provided as shown in FIG. 1. Only the external connection portion 17 is provided.

Accordingly, in the electronic device system including the electronic device 100 'and the external device 10' according to the present invention, when the external device 10 'is connected to the USB port 25 and the operation is executed, By providing the reference voltage (5.3V) to the external device 10 ', the external device 10' even though the voltage level drops through the load switch 22, the current limit switch 24, and the connecting cable 29. The voltage level of the power supply P3 reaching the external connection 17 of may be stable. In addition, if the electronic device 100 'continuously provides the second reference voltage (5.3V), a problem of power efficiency may occur. Therefore, when the predetermined time (30 seconds) elapses, the first reference which is the normal reference voltage is again. The voltage 5V is provided to the external device 10 '. In this case, since a predetermined time has elapsed since the start of the external device 10 'is started, the load switch 22 and the current limit switch 24, which are protection circuits, may be used to prevent problems that may occur when the system is turned on. The voltage drop is moderated to some extent, so that the voltage level of the power supply P3 reaching the external connection portion 17 of the external device 10 'can be stable.

As such, according to the present invention, the electronic device 100 ′ does not include the conventional separate ADC port 35 as shown in FIG. 1, and the external device 10 ′ is conventional as shown in FIG. 1. Without a separate power port 19 and the external DC / DC converter 15, it is possible to provide a stable power supply to the external device (10 ').

Here, a control flow of the electronic device system having the above configuration will be described with reference to FIG. 3.

First, the controller 40 detects whether the external device 10 'is connected to the USB port 25 (S10). When the external device 10 ′ is connected to the SB port 25, the controller 40 detects whether the operation of the external device 10 ′ is executed when the external device 10 ′ is connected (S20). When the operation of the external device 10 ′ is executed, the controller 40 sets the time T _N of the timer (not shown) to “0” in order to check elapse of time (S30). In addition, the controller 40 controls the power supply unit 30 'to change the voltage level of the power provided to the external device 10' connected to the USB port 25 from _{VREF to} the first reference voltage 5V. _REF-HIGH to be adjusted upward to the second reference voltage (5.3V) (S40). Accordingly, the external device 10 ′ is provided with an upwardly adjusted second reference voltage 5.3V.

Then, the controller 40 determines whether the timer's time T _N is greater than the predetermined time T _SET , that is, whether the time T _N has passed the predetermined time T _SET (S50). If the time T _N is smaller than the predetermined time T _SET , the time T _N increases by one (S55). This is a common counting method.

When the time T _N has passed a predetermined time T _SET , the control unit 40 controls the power supply unit 30 'and provides the external device 10' connected to the USB port 25. The voltage level of the power supply is adjusted downward from the second reference voltage (5.3V) of V _REF-HIGH to the first reference voltage (5V) of V _REF to return to the original state (S60). Accordingly, the basic first reference voltage 5V is provided to the external device 10 '.

As such, according to the present invention, the electronic device 100 ′ does not include the conventional separate ADC port 35 as shown in FIG. 1, and the external device 10 ′ is conventional as shown in FIG. 1. Without providing a separate power port 19 and an external DC / DC converter 15, it is possible to provide a stable power to the external device (10 ').

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that the embodiments may be modified without departing from the spirit or spirit of the invention. .

As described above, according to the present invention, it is possible to provide an electronic device and an electronic device system capable of providing a stable voltage level power source to an external device without adding unnecessary mechanical configurations of the electronic device and the external device.

Claims (5)

In an electronic device, A connection portion to which an external device is connected; A power supply unit providing any one of a first reference voltage and a second reference voltage having a voltage magnitude greater than the first reference voltage to the external device connected to the connection unit; When the external device is connected to the connection unit and the operation of the external device is executed, the power supply unit is configured to provide the second reference voltage to the external device and to provide the first reference voltage when a predetermined time elapses. An electronic device comprising a control unit. The method of claim 1, The control unit, And at least one of a microcomputer and a bios for detecting whether the external device is connected to the connection unit, whether the external device is operated, and controlling the power supply unit. 3. The method of claim 2, The external device, An electronic device comprising an external optical disk drive (ODD). The method of claim 3, Wherein the connecting portion comprises: An electronic device comprising a USB (Universal Serial Bus) port. In an electronic device system, An electronic device according to any one of claims 1 to 4; And an external device connected to the connection part, and including an external device which operates using any one of the first reference voltage and the second reference voltage provided from the electronic device. system.

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