KR0114756Y1 - Voltage control apparatus - Google Patents

Abstract

The present invention relates to a voltage control device for an electronic device for automatically selecting and supplying a corresponding voltage among the first and second use voltages in a system using the first and second voltages.

The present invention for this purpose, in the voltage control device of the electronic device for automatically supplying the corresponding voltage of the first and second voltages used in the circuit terminal of the system, detecting the corresponding voltage to be used in the circuit terminal of the system, A voltage detector providing a logic signal according to a detection result; By including a switching unit for selectively supplying the corresponding voltage of the first and second voltages supplied to the system circuit terminal in accordance with the logic signal provided from the voltage detection unit, it is possible to automatically supply the corresponding voltage without a separate manual operation process It works.

Description

Voltage control device of electronic equipment

1 is a voltage control device of a conventional electronic device.

2 is a voltage control device of an electronic device according to the present invention.

* Explanation of symbols for main parts of the drawings

10: voltage detector 11: regulator

12: switching terminal 13: circuit terminal

20: switching unit

The present invention relates to a voltage control device for an electronic device, and in particular, in a system using the first and second voltages, a voltage control device for an electronic device for automatically selecting and supplying a corresponding voltage among the first and second use voltages. It is about.

In general, a power supply such as an electronic device such as a home appliance or a computer divides a commercial AC power (220 V / 110 V) applied from the outside into a predetermined voltage and supplies it to each circuit terminal of the system to perform normal operation. do.

In addition, the circuit terminal (or IC) of the system using two voltages is configured to use both voltages. When one of the two voltages is used, the user must manually adjust the voltage.

1 is a voltage control device diagram of a conventional electronic device, and includes a regulator 11 for dividing a first voltage, for example, 5V, and a first voltage, 5V, to a predetermined second voltage, for example, 3.3V. A switching operation of switching between the first voltage 5V and the second voltage 3.3V divided by the regulator 11 according to a manual operation, and a switching operation of the switching terminal 12. It is composed of a circuit stage (or circuit stage IC) 13 that is supplied with a predetermined voltage selected by and performs the overall operation of the system.

In the conventional voltage control device configured as described above, when the voltage to be used in the circuit stage 13 of the system is to be converted from the first voltage to the second voltage, or to be used from the second voltage to the first voltage. Inconvenient, the user has to switch the switching terminal 12 including a jumper or a connector to a corresponding voltage supply terminal.

The present invention has been made to solve the above problems, and automatically switches from the circuit terminal of the system using the first and the second voltage to the corresponding use voltage supply terminal among the first and second use voltage supply terminals. It is an object of the present invention to provide a voltage control device for an electronic device for supplying to a circuit stage.

The present invention for achieving the above object, in the voltage control device of the electronic device for automatically supplying the corresponding voltage among the first and second voltages used in the circuit terminal of the system, A voltage detector which detects a voltage and provides a logic signal according to the detection result; And a switching unit for selectively supplying a corresponding voltage among the first and second voltages supplied to the system circuit terminal according to a logic signal provided from the voltage detection unit.

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

2 is a block diagram showing the configuration of a voltage control device for an electronic device according to the present invention.

In the figure, the voltage detector 10 detects a voltage to be used for the circuit stage 13 and provides a logic signal according to the detection result. When the detected voltage is the second voltage, for example, 3.3V, A level 20 logic signal is applied to the switching element FET of the switching unit 20 which will be described later. On the contrary, if the detected voltage is the first voltage, for example, 5V, the switching unit 20 which will describe the high level logic signal will be described later. It is configured to apply to the switching element (FET) of.

At this time, the voltage detector 10 is composed of a sensor for sensing a voltage to be used in the circuit stage 13, such a sensor is a specific pin representing the voltage state information configured in the circuit stage 13, that is, the circuit stage The operating voltage of the circuit stage 13 is detected by the voltage state information indicating the voltage to be used at (13).

That is, when the voltage state information of the specific pin is 1, the sensor detecting the voltage used in the circuit terminal 13 determines that the voltage to be used by the circuit terminal 13 is 5V, and the voltage state information of the specific pin is 0. It is determined that the voltage to be used in the circuit stage 13 is 3.3V.

Here, it can be easily understood by a person skilled in the art that voltage state information of a specific pin can be set differently in system design.

Meanwhile, the switching unit 20 selectively supplies a corresponding voltage among the first and second voltages supplied to the circuit terminal 13 according to a logic signal provided from the voltage detector 10. That is, when the low voltage logic signal is provided from the voltage detector 10, the switching unit 20 turns off the switching element, that is, the field effect transistor (FET), and thus the first voltage, 5V, The voltage is divided by the regulator 11 and applied to the circuit stage 13 at a second voltage, that is, 3.3V.

In addition, when the switching unit 20 is provided with a high level logic signal from the voltage detector 10, the switching element FET is turned on and at the same time, the first voltage, that is, 5V is not transmitted to the regulator 11. Via the switching element (FET) is applied to the circuit stage 13 in a first voltage, that is, 5V state.

Detailed operation description of the present invention configured as described above is as follows.

The voltage detector 10 detects and reads the voltage state information of the circuit terminal 13 required by the current circuit terminal 13 from a specific pin indicating the voltage state information of the circuit terminal 13, and then according to the read result. The signal is provided to the switching unit 20.

That is, when the current voltage state information of the circuit stage 13 is the first voltage, that is, 5V, the voltage detector 10 may transmit a logic signal having a high level to the gate of the switching element FET of the switching unit 20. To the terminal.

When a high level logic signal is provided from the voltage detector 10 to the gate terminal of the switching device FET, the switching device FET is turned on so that the first voltage, that is, 5V, is the switching device FET of the switching device 20. ) Is supplied to the circuit terminal 13 in a first voltage state via a source terminal at a drain terminal of the ().

On the other hand, if the current voltage state information of the circuit stage 10 is a second voltage, that is 3.3.V, the voltage detector 10 transmits a low-level logic signal to the gate terminal of the switching element FET of the switching unit 20. To provide.

That is, when a low level logic signal is provided from the voltage detector 10, the switching element FET of the switching unit 20 is off-door, and the first voltage, that is, 5 V is the switching element FET. The regulator 11 is supplied to the regulator 11 in a first voltage state without passing through the drain and source terminals.

Accordingly, the regulator 11 composed of a voltage divider, a variable resistor, and the like divides the first voltage, that is, 5 V, into a second voltage, that is, 3.3 V, and supplies it to the circuit stage 13, whereby the circuit stage performs a normal operation. Do it.

On the other hand, it is not limited to the above-described embodiment of the present invention can be modified within the scope without departing from the technical gist of the present application.

As described above, the voltage control device for an electronic device according to the present invention has an effect of automatically supplying a corresponding voltage required for a circuit terminal of a system without a manual operation.

Claims (3)

A voltage control device of an electronic device for automatically supplying a corresponding voltage among first and second voltages used in a circuit terminal of a system, comprising: detecting a corresponding voltage to be used in a circuit terminal of the system and according to the detection result A voltage detector providing a signal; And a switching unit for selectively supplying a corresponding voltage among the first and second voltages supplied to the system circuit terminal according to a logic signal provided from the voltage detection unit. The apparatus of claim 1, wherein the sensor is a sensor for sensing a corresponding voltage to be used in a circuit terminal of the system. The apparatus of claim 1, wherein the switching unit comprises a field effect transistor.