KR20070060373A - Elctronic device - Google Patents

Abstract

An electronic device is provided to reduce expense and time required for a battery checking process by including a circuit for checking a presence of a battery mounted to the outside of a main board. A user input part(30) selects a check function for checking the presence of the battery(20). A battery checker(40) outputs an output signal indicating the presence of the battery. A controller(50) applies an application signal to the battery checker and determines the presence of the battery according to the output signal of the battery checker if the check function is selected through the user input part. The battery checker includes a check circuit outputting a different signal according to the presence of the battery if the application signal is received. A display part(60) displays the presence of the battery according to the output signal of the battery checker.

Description

Electronic device {Elctronic Device}

1 is a control block diagram of an electronic device according to the present invention,

2 is an exemplary view showing a battery test circuit according to an embodiment of the present invention,

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

Explanation of symbols on the main parts of the drawings

10: memory 20: battery

30: user input unit 40: battery inspection unit

50: control unit 60: display unit

70: power supply unit Q1 to Q6: transistor

R1 ~ R12: resistance

The present invention relates to an electronic device, and more particularly, to an electronic device having a battery for supplying backup power to a memory.

In general, electronic devices include a memory for storing information. The memory is implemented as SDRAM (Synchronous Dynamic Random Access Memory) and stores operation information, commands, and real time clock (RTC) of electronic devices. Here, since the SDRAM is a volatile memory whose information is lost when there is no power supply, power is supplied through the memory backup battery when power is not supplied from the electronic device.

Meanwhile, the conventional electronic device is implemented by mounting a battery for supplying a memory backup power to the main board as an on-board type, but this is separated from Article 5 of the Waste Electrical and Electronic Equipment (WEEE) standard being implemented by the EU. Since it is in violation of the collection provision, the battery is used with an external battery backup power supply.

However, in the case of a memory backup power battery externally mounted on a main board in a conventional electronic device, it is inconvenient that it is impossible to check whether the battery is installed in the device when assembling the finished product, and also it may not check whether the battery is bad.

Accordingly, it is an object of the present invention to provide an electronic device having a battery test circuit capable of inspecting whether a memory backup power supply battery is defective or not.

According to the present invention, in the electronic device, a battery mounted to the outside of the main board to supply a backup power to the memory, and a user input unit for selecting a test function for checking the presence of the battery; A battery inspection unit which outputs an output signal indicating the presence or absence of the battery; And a controller configured to apply a predetermined application signal to the battery inspection unit when the inspection function is selected through the user input unit, and determine whether the battery is present according to the output signal of the battery inspection unit. Is achieved.

Here, the battery test unit may include a test circuit for outputting a different signal depending on the presence or absence of the battery when the application signal is received.

The display apparatus may further include a display unit, and the controller may control the display unit to display the presence or absence of the battery according to the output signal of the battery test unit.

The battery inspecting unit includes a transistor, and the controller determines that the battery exists when the transistor outputs a low signal according to the application signal, and determines that the battery does not exist when the transistor outputs a high signal. can do.

The low signal and the high signal may be voltage signals according to the applied signal.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

In the following, the electronic device according to the present invention is an example of a fax multifunction device.

As shown in FIG. 1, the electronic device according to the present invention includes a memory 10, a battery 20, a user input unit 30, a battery inspection unit 40, and a control unit 50 for controlling them.

The memory 10 stores information of an electronic device and is implemented as a random access memory (RAM). According to an embodiment of the present invention, the memory 10 may be implemented as SDRAM. Here, the memory 10 may store the fax data and the RTC.

The battery 20 allows the power supply unit 70 to operate by supplying power to the memory 10 when the power supply unit 70 cuts power supply to the memory 10. In this case, the battery 20 is not embedded in the power supply circuit in the onboard type, but is mounted outside the main board to supply power to the memory 10 power supply circuit. According to an embodiment of the present invention, the battery 20 is charged by receiving 5V, which is the battery charging power when the power is applied.

The user input unit 30 may input a confirmation signal for checking whether the battery 20 is defective and may be implemented through a button or the like provided in the FAX machine. Here, according to an embodiment of the present invention, the user inputs a system list output signal or a battery test signal through a UI (User Interface) displayed on a LCD (Liquid Crystal Display) window of a fax multifunction device to determine whether the battery 20 is present. You can check it.

The battery inspecting unit 40 checks the presence or absence of the battery 20 according to the input signal of the user input unit 30. According to an embodiment of the present invention, the battery test unit 40 may be implemented as a battery test circuit including at least one transistor and a resistor. The battery tester 40 receives a predetermined application signal and outputs a test result accordingly.

The controller 50 may be implemented as a microprocessor unit (CPU) or a central processing unit (CPU). When the test signal for checking the presence of the battery 20 is received through the user input unit 30, the battery tester 40 may be used. A predetermined power is applied to the battery and the presence or absence of the battery 20 is determined based on the test result of the battery tester 40.

Here, the controller 50 may determine that the battery 20 exists when the transistor output value of the battery inspector 40 is the first signal, and determine that there is no battery 20 when the transistor output value is the second signal. According to an embodiment of the present invention, the first signal may be 0V as a low signal and the second signal may be 3.3V which is an applied voltage as a high signal.

The electronic device according to the present invention may further include a display unit 60. The display unit 60 may be implemented as a printer provided in the fax multifunction apparatus, and the controller 50 may determine whether the battery 20 is present according to the output value of the battery inspector 40 and output the result through the printer.

The operation of the electronic apparatus having such a configuration will be described in detail with reference to the drawings.

2 is a diagram illustrating a battery test circuit for memory backup of an electronic device according to an embodiment of the present invention.

As shown in FIG. 2, when power is applied through the power supply unit 70, 5 V of the battery charging power 62 and the 3.3 V of the memory backup power 61 are applied to Vb for supplying the RAM. At this time, the 3.3V of the memory backup power supply 61 is applied to Vb while the transistor Q6 is turned on. In addition, 5V of the battery charging power 62 passes the Q4 to charge the battery 20.

Thus, when no power is supplied, Q6 is off and Q4 is also off. Accordingly, power is applied from the battery 20 to the Vb through the resistor R9 and the diode D1.

In this case, the battery test circuit of the battery test unit 40 may be implemented to include three TR and six resistors as shown in the figure.

Here, when a battery test signal for checking the presence of the battery 20 is applied, the controller 50 applies the application signal to the battery test unit 40. According to an embodiment of the present invention, the controller 50 applies 3.3V to the battery inspecting unit 40, and when power is applied, the applied voltage flows to the ground at Q5 and Q1. Therefore, since the power applied to Q4 becomes 0V, Q4 is turned off. Here, when there is a voltage supplied from the battery 20, Q2 is turned on so that power flows to the ground. Therefore, the collector voltage of Q2, which has received 3.3V, is output at a low level voltage.

On the other hand, when the battery 20 is absent, not charged or defective, since there is no power supplied from the battery 20, Q2 is turned off and the collector voltage of Q2 is output at a high level.

Therefore, the controller 50 may determine whether the battery 20 is defective or not in the state of the voltage value output from the battery tester 40. That is, the controller 50 determines that the battery 20 exists when the measured voltage is at the low level, and determines that the battery 20 does not exist when the measured voltage is at the high level. Accordingly, when the battery is absent or not charged or in a bad state, the controller 50 determines that the battery 20 does not exist.

3 is a control flowchart illustrating an operation of an electronic device according to an embodiment of the present invention.

First, a battery test signal for checking the presence or absence of the battery 20 is input through the user input unit 30 (S1). According to an embodiment of the present invention, when the battery test signal is input through the user input unit 30, the controller 50 applies 3.3V to the battery test unit 40 (S3). At this time, the control unit 50 is applied only to the input port for the battery test, and stops supplying the battery charging power 5V (S5).

The transistor of the test circuit is turned on or off depending on the presence of the battery 20 (S7). At this time, when the battery 20 is present, Q5 is turned on and a low voltage of 0V is output as Vco, which is the collector output voltage of Q5, is turned on (S9). Here, the output unit 60 outputs information that "the battery is present" when the system list is output (S11).

On the other hand, when the battery 20 is bad or does not exist, Q2 is turned off, and the collector output voltage Vco of Q2 is outputted with a high level voltage of 3.3 V applied as Q5 is shorted (S13). Here, the output unit 60 outputs information that "the battery does not exist" when the system list is output (S15).

Here, the battery test circuit is implemented as a digital circuit so that the battery test unit 40 can output a low level value of 0 or a high level value of 1.

Through such a battery inspection circuit, 3.3V is applied to the battery inspection unit 40 when the system list is output in the process of the electronic device, and the state of the battery 20 is output on the system list according to the inspection result, so that a separate battery ( 20) The inspection process can be omitted. Accordingly, it is possible to obtain the effect of reducing the additional cost and time according to the battery 20 inspection process.

In the above-described embodiment, the electronic device according to the present invention is an example of a fax multifunction device, but the present invention is not limited thereto, and the electronic device may be applied to any electronic device in which the SDRAM backup power supply battery 20 is mounted on the outside of the main board instead of the onboard type. Do.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

As described above, according to the present invention, by implementing a circuit for detecting the presence of a battery mounted on the outside of the main board is provided an electronic device that can reduce the cost and time according to a separate battery inspection process.

Claims (5)

In an electronic device having a battery mounted outside the main board to supply backup power to the memory, A user input unit capable of selecting a test function for checking the battery; A battery inspection unit which outputs an output signal indicating the presence or absence of the battery; And a controller configured to apply a predetermined application signal to the battery test unit and determine whether the battery is present according to the output signal of the battery test unit when the test function is selected through the user input unit. The method of claim 1, The battery inspecting unit includes a test circuit for outputting a different signal according to the presence or absence of the battery when receiving the application signal. The method of claim 1, Further including a display unit, And the control unit controls the display unit to display the presence or absence of the battery according to the output signal of the battery inspecting unit. The method of claim 2, The battery test unit includes a transistor, The controller determines that the battery exists when the transistor outputs a low signal according to the application signal, and determines that the battery does not exist when the transistor outputs a high signal. The method of claim 4, wherein And the low signal and the high signal are voltage signals according to the applied signal.

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