KR20120013514A - Potable power supply with plural output terminal - Google Patents

Abstract

PURPOSE: A hand-held direct current power supply having a plurality of output terminals is provided to easily react according to the requirement of a client by changing an input terminal and an output terminal into various forms and interface. CONSTITUTION: An input terminal(110) is inputted a direct current power supply from outside. A voltage conversion part outputs direct current voltage inputted through an over-current prevention part into voltage which is necessary according to a PWM control signal. An USB(Universal Serial Bus) output terminal(160) is formed in one side of housing and outputs predetermined direct current voltage. A direct current output terminal(170) outputs the direct current voltage which is inputted through the input terminal to outside. A feedback detection part detects output voltage outputted through the voltage conversion part.

Description

Portable power supply with multiple output stages {POTABLE POWER SUPPLY WITH PLURAL OUTPUT TERMINAL}

The present invention relates to a portable DC power supply device having a plurality of output stages for converting an input DC power source into a plurality of different DC voltages and outputting the same.

In general, a portable device such as a laptop or a mobile terminal uses a DC power source as an operating power source and typically supplies a battery power to the operating power source. The battery is relatively expensive, and a heavy economic burden is placed on the user when only the battery is used. Therefore, when a portable device is used while moving, the battery is supplied with operating power, and in a fixed place such as a home or office, a separate direct current (AC) is converted into a direct current (DC). DC power is supplied through a converter, that is, an AC adapter.

As described above, an AC adapter refers to a power supply device that receives commercial AC power and converts it into a predetermined DC power in order to supply DC power to a portable device.

As shown in FIG. 1, the AC adapter 10 includes a plug 11 connected to an outlet on one side and a connector 15 connected to a power input terminal of a predetermined portable device through a cable. .

On the other hand, in the case of a computer, direct current operation to a portable device such as a mobile phone using a 5V voltage and a 500mA current provided to drive a computer peripheral device through its own AC / DC conversion means and DC / DC conversion means. Supplying power.

In this case, the portable device is supplied with power from a USB (Universal Serial Bus) terminal of the computer through the connection cable 20 as shown in FIG. 2 to charge or operate the internal battery. The connection interface 20 has a connector 21 inserted into a communication terminal of a portable device on one side and a USB connector 25 inserted into a USB terminal of a computer on the other side.

In addition, the conventional USB charger for a mobile terminal is configured in the form of a USB independent output provided with a USB connector on one side of the AC adapter via a cable.

Therefore, a portable device such as a notebook using the AC adapter 10 as shown in FIG. 1 is provided with a USB auxiliary terminal. The USB interface is provided through the connection interface 20 as shown in FIG. If you want to charge the mobile terminal, you need to turn on a portable device such as a notebook unnecessarily, which leads to energy waste and inconvenience.

That is, in order to charge and operate a battery of a mobile terminal such as a mobile phone through a USB auxiliary terminal of a portable device or a computer, there is a problem that the portable device must be turned on.

The present invention provides a portable DC power supply device having a plurality of output stages for converting an input DC power source into a plurality of different DC voltages and outputting the same.

The present invention is to provide a portable DC power supply that can use the USB auxiliary power provided in the portable power supply even if only the AC adapter and the portable power supply are connected to each other.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular embodiments that are described. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, There will be.

Portable DC power supply of the present invention for achieving the above object, the circuit is built-in housing; An input terminal formed at one side of the housing and connected to an external DC connector; A USB output terminal formed on one surface of the housing and outputting a predetermined DC voltage; And a DC output terminal formed at an end extending through the cable from the other side of the housing and outputting a DC voltage input through the input terminal to the outside.

Specifically, an AC adapter or a DC power source may be connected to the input terminal.

In addition, the voltage output through the DC output terminal is the same as the DC voltage supplied to the input terminal, characterized in that higher or lower than the voltage output through the USB output terminal.

As described above, the present invention provides a USB output terminal of a portable power supply device with or without the main power supply without affecting the main power supply such as a portable terminal when supplying operating power to a portable terminal such as a notebook computer through an AC adapter and a portable power supply device. There is an advantage that can use the auxiliary power through.

In addition, since the input terminal and the output terminal of the portable power supply unit can be modified in various forms and interfaces, there is an advantage that can be easily responded to the requirements of the customer.

1 is a schematic diagram showing a typical AC adapter.
Figure 2 is a schematic diagram showing a general USB adapter adapter.
3 is a functional block diagram showing a portable power supply apparatus according to an embodiment of the present invention.
4 is a conceptual diagram illustrating a connection configuration of a portable power supply apparatus according to an embodiment of the present invention.
5 is a conceptual diagram illustrating a connection configuration of a portable power supply device according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. Like elements in the figures are denoted by the same reference numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

3 is a functional block diagram showing a portable power supply device 100 according to an embodiment of the present invention, the portable power supply device 100 is the input terminal 110, the overcurrent protection unit 120, the voltage converter 130, feedback The detector 140 includes a pulse width modulation (PWM) controller 150, a USB output terminal 160, and a DC output terminal 170.

The input terminal 110 is connected to a predetermined DC power connector to receive DC power from the outside. The input terminal 110 is a DC terminal configured to include at least a positive terminal (+) and a negative terminal (−).

The overcurrent protection unit 120 is configured to prevent the overcurrent from being applied to a circuit at a later stage by temporarily blocking the output when the power input through the input terminal 110 exceeds the set reference current or reference voltage.

The voltage converter 130 steps down or boosts the DC voltage input through the overcurrent protection unit 120 to a required voltage according to a predetermined PWM control signal. Here, the voltage converter 130 is a DC / DC converter that makes the DC power source DC power, but it is also possible to convert a low input voltage to a high output voltage. The voltage converting unit 130 converts the DC power into a pulse signal, and boosts or steps down the pulse signal using a coil, a capacitor, a transformer, etc., if necessary, and rectifies it again into a DC power.

The voltage converter 130 may include a buck converter for converting a large input voltage to a small output voltage, a boost converter for converting a small input voltage to a large output voltage, and an input voltage according to switching control. It can be configured as either a buck / boost converter capable of varying small output voltages or large output voltages.

The feedback detector 140 detects an output voltage output through the voltage converter 130 and compares the detected voltage with a preset reference voltage to calculate the difference voltage.

The PWM controller 150 outputs the PWM control signal to the voltage converter 130 based on the difference voltage input from the feedback detector 140 to output the desired stable DC voltage from the voltage converter 130.

The USB (Universal Serial Bus) output terminal 160 is connected to an external USB connector and outputs a DC 5V voltage output from the voltage converter 130.

The DC output terminal 170 is connected to an external DC connector to output the DC power provided through the input terminal 110 to the outside. Here, the voltage output through the DC output terminal 170 is the same as the DC voltage supplied to the input terminal 110, but will be higher or lower than the voltage output through the USB output terminal 160.

In the portable power supply device 100 configured as described above, the voltage conversion unit 130 converts the DC voltage input through the input terminal 110 into a predetermined DC voltage in the range of approximately DC 5V to 24V according to the PWM control signal and outputs the converted DC voltage. do.

In this case, the feedback detector 140 detects the output voltage of the voltage converter 130, compares the detected voltage with a preset reference voltage, obtains the difference voltage, and outputs the difference voltage to the PWM controller 150. The controller 150 outputs the PWM control signal to the voltage converter 130 based on the difference voltage from the feedback detector 140.

Here, the DC input through the input terminal 110 may be a high voltage (DC 12V ~ 15V and DC 15V ~ 20V) and a low voltage (DC 3V to 5V) according to the situation, the PWM control unit 150 at this time PWM control of the voltage converter 130 to be a suitable USB output (DC 5V, 1Amax) through the converter 130. Accordingly, the voltage converter 130 step-down or step-up the input voltage according to the PWM control signal to output to the USB output terminal 160.

Through the above operation, the voltage converter 130 outputs a preset DC voltage to the outside through the USB output terminal 160.

The portable power supply device 100 composed of such circuit blocks may be configured as shown in FIG. 4 and connected to various external peripheral devices.

Here, the portable power supply device 100 includes a housing 101 having a circuit built therein, an input terminal 110 formed at one side of the housing 101 and connected to an external DC connector, and the housing 101. USB output terminal 160 is formed on one side and outputs a predetermined DC voltage, and is formed at the end extending through the cable 175 from one side of the housing 101 and is input through the input terminal 110 It comprises a DC output terminal 170 for outputting the DC voltage to the outside.

Here, the input terminal 110, the USB output terminal 160 and the DC output terminal 170 is installed on different surfaces of the housing 101, the input terminal 110 and the DC output terminal 170 is a polyhedral housing 101 It is preferable to be installed on the surface facing each other.

As shown in FIG. 4, the device connected to the input terminal 110 may be an AC adapter 10, and the device connected to the USB output terminal 160 may be a mobile terminal 200 such as a mobile phone. The device connected to the output terminal 170 may be a portable computer 300 such as a laptop.

As described above, according to the present invention, as the USB output terminal 160 is configured in the portable power supply device 100, the USB auxiliary power source is provided through the USB output terminal 160 regardless of whether the notebook 300 is connected or used (power on / off). Can be used.

FIG. 5 is a conceptual diagram illustrating a connection configuration of a portable power supply device according to another embodiment of the present invention. An input terminal 110 of the portable power supply device 100 is connected to a vehicle cigar jack and outputs a DC power supply for a vehicle. Is connected. In the case of the connection interface 30, a plug 31 connected to the cigar jack is provided at one side, and a DC connector 35 is installed at the other side of the plug 31 via a cable.

By configuring the portable power supply device 100 as a DC power supply in this way, it is possible to be compatible with the DC output of a DC power source such as a car cigar jack, and by configuring the USB output terminal 160 in the portable power supply device 100 The USB auxiliary power source may charge and operate a mobile terminal 200 such as an MP3 player or a mobile phone.

As described above, in the present invention, when supplying operating power to a portable device such as a notebook computer through the AC adapter 10 and the portable power supply device 100, the portable power supply device is used regardless of whether the main power is used without affecting the main power supply of the portable device. Auxiliary power can be used through the USB output terminal 160 of 100. Of course, even if only the AC adapter 10 or the DC power source connection interface 30 and the portable power supply device 100 are connected to each other, the USB auxiliary power can be used through the USB output terminal 160 provided in the portable power supply device 100. have.

In addition, since the input terminal 110 and the output terminals 160 and 170 of the portable power supply device 100 can be modified in various forms and interfaces, it is possible to easily respond to customer requirements.

The present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the equivalent range will be construed as being included in the present invention.

10: AC adapter 20, 30: connection interface
100: portable power supply 101: housing
110: input terminal 120: overcurrent protection unit
130: voltage converter 140: feedback detector
150: PWM control unit 160: USB output terminal
170: DC output terminal 200: mobile terminal (mobile phone, etc.)
300: portable device (laptop, etc.)

Claims (6)

A housing incorporating a circuit;
An input terminal formed at one side of the housing and connected to an external DC connector;
A USB output terminal formed on one surface of the housing and outputting a predetermined DC voltage; And
And a DC output terminal formed at an end extending through a cable from the other side of the housing and outputting a DC voltage input through the input terminal to the outside.
The method according to claim 1,
The input terminal has a portable DC power supply having a plurality of output terminals to which an AC adapter or a DC power source is connected.
The method according to claim 1,
Portable DC power supply having a plurality of output stage is configured such that the voltage output through the DC output terminal is the same as the DC voltage supplied to the input terminal.
The method according to claim 1,
And a voltage output through the DC output terminal is higher or lower than a voltage output through the USB output terminal.
The method according to claim 1,
The internal circuit of the housing,
An overcurrent prevention unit for temporarily shutting off the output when the power input through the input terminal exceeds a predetermined reference current or reference voltage;
A voltage converter configured to step down or boost the DC voltage inputted through the overcurrent protection unit to a required voltage according to a predetermined PWM control signal and output the voltage to the USB output terminal;
A feedback detector for detecting an output voltage output through the voltage converter and comparing the detected voltage with a preset reference voltage to calculate a difference voltage; And
And a PWM controller configured to output a PWM control signal to the voltage converter based on the difference voltage input from the feedback detector, to output a stable DC voltage from the voltage converter. 2.
The method according to claim 5,
The voltage converter is a portable DC power supply having a plurality of output stages, characterized in that any one of a boost converter, a buck converter, and a buck / boost converter.

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