KR910006689Y1 - Display circuit of supply state of source of electric power - Google Patents

Abstract

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Description

Supply status display circuit

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

LED ₁ , LED ₂ : Light emitting diodes Q ₁ -Q ₃ : Transistor

D ₁ -D ₃ : Diode D ₂ : Zener Diode

R ₁ -R ₄ : Resistor C ₁ , C ₂ : Capacitor

IC ₁ : Voltage regulator BATT: Backup battery

The present invention relates to a circuit for displaying a power supply state, and more particularly, to a circuit for displaying a state of a power supply of electronic equipment having a built-in battery back-up circuit.

In electronic equipment with a built-in battery backup circuit, a conventional technique for displaying an abnormality in power supply is to draw a single line out of a power line and adjust an electric current through a resistor to attach an indicator such as a light emitting diode or a buzzer. This technique allows the user of electronic equipment to have a poor or good supply of power (e.g. underrated, over rated) because the indicator only indicates that power is being supplied when the power is on. Not only did we know the license, but we also did not know if there was a problem with the battery backup.

For example, if the power supply of the computer is poor, continuous use of the computer may cause abnormal operation. Also, even if the computer has a built-in battery for data backup, the user may not lose the valuable data without knowing the battery power status. There was a tendency.

Accordingly, an object of the present invention is to provide a power supply state display circuit that can easily identify the presence or absence of supply power voltage and the life of the backup battery, which will be described in detail with reference to the accompanying drawings as follows. .

The present invention draws a lead wire of the power supplied to the computer as shown in FIG. 1, and means for indicating whether there is an abnormality of the main power, driving means for displaying the state of the backup battery (BATT), and driving the above means. It consists of a driving means for.

The main power indicator means consists of a resistor (R ₁ ), a zener diode (D _Z ) and a light emitting diode (LED ₁ ) to determine whether the main power source is good, which is the base of the transistor (Q ₁ ). It is connected to the terminal to turn on / off transistor Q ₁ .

The backup battery display means is drawn from the backup power source to detect the normal state of the backup battery (BATT) built in the computer, and the resistors (R ₂ ), diodes (D ₁ -D ₃ ), transistors (Q ₂ ) and light emission It is composed of a diode LED ₂ to detect the presence or absence of a backup power supply by the operating bias of the transistor Q ₂ . Here, the display device such as the light emitting diode (LED ₂ ) may be composed of a buzzer (not shown), and the display device may be composed of a light emitting diode (LED ₂ ) and a buzzer.

When the main power supply and the backup power supply at the same time, the abnormal state to be easily identified such a state drive means for driving the main power display means and a backup battery display means includes a transistor _{(Q 1) (Q 3)} , the resistance (R ₃₎ (R ₄ ) and a condenser (C ₁ ) (C ₂ ), the driving means comprising a light emitting diode (I) by each time constant (τ ₁ = C ₁ R ₃ ) (τ ₂ = C ₂ R ₄ ). It is desirable to configure the LED ₁ ) (LED ₂ ) to visually blink repeatedly. In addition, when a buzzer is installed instead of the light emitting diode (LED ₂ ), the light emitting diode (LED ₁ ) and the buzzer may be operated when the driving means is operated. That is, the light emitting diode (LED ₂ ) and the buzzer can be repeatedly turned on and alarmed by the time constant (τ ₁ ) (τ ₂ ), and when the light emitting diode (LED ₂ ) and the buzzer are installed in parallel, the light emitting diode ( LED ₁₎ (LED ₂₎ and buzzer bar that may repeat lighting and alarm at the same time, the accompanying drawings, reference numeral ₁ of the IC is a voltage regulator.

Looking at the operation of the design of this structure, when the state of the main power supply and the backup battery (BATT) is in a normal state, the main power is supplied to the voltage regulator (IC ₁ ) through the diode (D ₄ ) and at the same time the resistance (R ₁ ) Is applied to the base of transistor Q ₁ through zener diode D ₂ . At this time, the transistor Q ₁ is turned off because a reverse bias is applied to the base terminal. On the other hand, the transistor Q ₃ is turned on as the power source passing through the voltage regulator IC ₁ turns on the light emitting diode LED ₁ . However, the power of the backup battery (BATT) is re-meter the diode (D _5), a resistance (R ₂₎ and a diode (D ₁ -D ₃₎ through the there is applied to the base of the transistor (Q ₂₎ transistors (Q ₂₎ Since the high signal is applied to the terminal, the light emitting diode LED ₂ is not turned on.

The main power is abnormally supplied or a predetermined voltage lower than the prescribed rated voltage (in this design, 9V is assumed as the reference voltage) (where the predetermined voltage is a voltage for turning off the Zener diode D _Z and at the same time, the transistor ( The transistor Q ₁ is turned on as the zener diode D ₂ is turned off when the voltage drops below Q ₁ ) or when the backup battery BAT is in a normal state. This is because the transistor Q ₂ is kept on due to the power of the backup battery BATT so that the current drawn from the emitter terminal of the transistor Q ₂ is input to the emitter terminal of the transistor Q ₁ .

However, the light emitting diode LED ₁ is turned on by the voltage passing through the voltage regulator IC ₁ . In addition, the transistor (Q ₁₎ and (Q ₃₎ is because the operation by the multivibrator configuration resistance (R ₃₎ and the capacitor a time constant due to the (C ₁₎ (τ ₁₎ and a resistor (R ₄₎ and a capacitor (C ₂ By the time constant τ ₁ by), the light emitting diode LED ₁ is repeatedly turned on and off.

On the other hand, since the high signal is applied to the light emitting diode LED _{2 thereof} , the light emitting diode LED ₂ remains unlit. In the case where the main power supply and the backup battery batt state are abnormal at the same time The abnormal state of the power supply is as described above, and only the case where the backup battery batt state is abnormal will be described.

When the back-up battery (BATT) voltage is lower than the reference voltage is not the nominal voltage to the base terminal of the transistor (Q ₂₎ is a transistor (Q ₂₎ is turned off. Therefore, since the low signal is applied to the emitter terminal of the transistor Q ₂ , the current flows through the light emitting diode LED ₁ (LED ₂ ) so that the transistor Q ₁ (Q ₃ ) operates. Therefore, the transistors Q ₁ and Q ₃ operate as a multivibrator, and the light emitting diodes LED ₁ and LED ₂ are repeatedly blinked by the time constants τ ₁ and τ ₂ as described above. .

The above results are summarized in Table 1 below.

TABLE 1

The present invention operates as described above, when the main power is not supplied or when the voltage drops below the rated voltage, the light emitting diode (LED ₁ ) is repeatedly blinked, and when the backup battery (BATT) is abnormal, the light emitting diode is generated. The user of the computer can change the power status at any time by visually, audibly and visibly by (LED ₂ ) flashing repeatedly, the buzzer repeating the alarm sound, or the light emitting diode (LED ₂ ) and the buzzer flashing and alarming at the same time. In addition, it can be identified on a regular basis to prevent data loss due to unexpected power supply drop.

Although the present invention has been described in terms of a computer, the present invention is not limited to this, but the present invention is not limited to a wide range of electronic devices used in poor power conditions, electronic devices with battery backup circuits, and electronic devices requiring extremely accurate voltage ratings. May be applied.

Claims (8)

And a first display means for displaying whether there is an abnormality of the main power supply, and a drive means for driving the display means. 2. The power supply state display circuit according to claim 1, further comprising second display means for displaying whether a battery is abnormal. The power supply state display circuit according to claim 1, wherein the first display means comprises a resistor (R ₁ ), a zener diode (D _Z ) and a light emitting diode (LED ₁ ). The power supply state according to claim 1, wherein the driving means comprises a transistor (Q ₁ ) (Q ₃ ), a resistor (R ₃ ) (R ₄ ), and a capacitor (C ₁ ) (C ₂ ). Display circuit. _{3. The} power supply state display circuit according to claim 2, wherein the second display means comprises a display element, a transistor (Q ₂ ), a resistor (R ₂ ) and a diode (D ₁ -D ₃ ). 6. The power supply state display circuit according to claim 5, wherein the display element comprises a light emitting diode (LED ₂ ). 6. The power supply state display circuit according to claim 5, wherein the display device comprises a buzzer. The power supply state display circuit according to claim 5, wherein the display device comprises a light emitting diode and a buzzer.