KR840000475Y1 - Out put power source control circuit for change and discharge battery - Google Patents

Abstract

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Description

Output power control circuit using charge and discharge battery

1 is a schematic schematic diagram of the present invention.

2 is a specific circuit diagram of the present invention.

3 is a diagram illustrating a coupling relationship with a peripheral circuit used in the present invention.

4 is a time chart for explaining the operation of the present invention.

The present invention is a power supply circuit of a home appliance or an electronic device using a microcomputer or a logic circuit, the operation of the circuit by back-up of the battery in case of power failure so that they operate correctly within a prescribed voltage range And it relates to a power supply control circuit for preventing the abnormality to ensure safety.

In general, in a device using such a microcomputer and logic circuit, the battery is charged in preparation for power failure. Most of them use discharges, but most of them use charge / discharge of microcomputers (especially NMOS with high operating voltage), but these are prescribed by logic circuits such as microcomputers (especially NMOS and PMOS with high operating voltage). When the voltage of the battery falls below the voltage range, the circuit does not operate normally. When the power failure returns, the circuit also malfunctions and the circuit is likely to malfunction.

The reason is that the logic level of the above logic circuit is set so that more than a few volts is high and low is low, and signals are stored in memory circuits and registers. In this case, when the battery is discharged for a certain period of time and falls below the prescribed voltage required by this circuit, their logic states become arbitrary, and malfunctions and abnormalities occur when the power failure is later restored and the circuit is operated.

Therefore, only the charge / discharge capacitors for supplying power to circuits such as microcomputers during power failure could not provide the stability of the circuits themselves.

The present invention has been devised in view of the above, and the circuit which cuts off the battery output when the output power of the battery falls below the specified voltage and prevents malfunction or other abnormality during power failure or power return. To provide, it will be described in detail as follows.

A constant voltage circuit part 1 composed of transistors T ₁ , T ₂ , zener diode Z ₁ , and the like is placed in front of the normal charge and discharge circuit part 2 to stabilize the voltage input from the rectifier circuit, At the rear end of 2), a voltage comparator 3 composed of resistors R ₆ , R ₇ and R ₈ and transistor T ₃ is connected, and an inverter composed of transistors T ₄ and resistor R _{9 at} its output terminal. The circuit portion 4 is connected, and the drive circuit 5 composed of the transistor T ₅ and the zener diode Z ₂ is connected thereto.

Reference numerals D ₁ and D ₃ are diodes for reverse flow prevention, D ₂ are diodes for increasing the operating speed of the transistor T ₃ , C ₁ and C ₂ are coupling capacitors for noise reduction, and C ₃ is a transistor ( T ₄ ) is a capacitor for speeding up the signal applied to the base of C ₄ , and C ₄ is a capacitor for balancing the ON and OFF level of transistor T ₅ .

The present invention of such a configuration limits the current to the transistor T ₁ of the constant voltage circuit unit 1 when the input voltage Vi is normally applied, which is divided by the resistor R ₃ and R ₄ . transistor for a voltage to the detection of the supply voltage comparison (T ₂₎ the emitter the Zener diode controls the base current of the transistor (T ₁₎ as compared with the reference voltage of (Z ₁₎ via the collector of the transistor (T ₂₎ connected to the it so, when take ideal voltage input (Vi) only a transistor (T ₂₎ is in a conductive state the input power source exceeds the Zener voltage when conducting a Zener diode (Z ₁₎ the transistor (T ₁₎ is blocked This will detect the ideal overvoltage from the input.

Therefore, when the pressure power supply is lower than the zener conduction voltage of the zener diode Z ₁ , that is, the transistor T ₂ conducts only in a normal input power state and starts to charge the storage battery BT through the resistance of the charge / discharge circuit unit 2. do.

In this operation, when the power is supplied, charging of the storage battery BT starts. When the voltage to be charged does not reach the lower limit of the rated voltage, the operating voltage (upper and lower limit) of the transistor T ₃ is set by the output (R). ₆ ) (R ₇ ), the transistor T ₃ is turned off, and the transistor T ₄ is turned on to turn off the transistor T ₅ .

Therefore, the output (Vo) end is in a blocked state (t ₀ to t ₁ ), and then the voltage charged in the battery (BT) is the rated voltage lower limit or the operating voltage at which the transistor (T ₃ ) can be operated at time t. the early, and the transistor (T ₃₎ oN, the transistor (T ₄₎ is OFF, so the battery (BT) power is supplied to the base of the transistor (T ₅₎ transistors (T ₅₎ is turned into oN state.

Then, the power supply current passing through the constant voltage circuit 1 outputs through the resistor R ₅ to maintain the stable output voltage with the zener diode Z ₂ .

If the battery BT is fully charged to the upper limit of the specified voltage and then a power failure occurs at a time t ₂ , the battery BT starts discharging only, and the voltage gradually decreases due to the discharge and the resistance (at time t ₃ ) R ₆₎ (R falls to _7), the voltage is below the operating voltage of the transistor (T ₃₎ divided by the transistor (T ₃₎ is OFF current is so applied to the base of the transistor (T ₄₎ transistor (T ₄₎ Is turned on so that the output terminal transistor T ₅ is turned off so that the battery BT power that is reduced below the specified operating voltage due to discharge is completely blocked at the output Vo.

That is, this operation is to control the output Vo by the operation of the operating range setting resistor (R ₆ ) (R ₇ ) and the transistor (T ₃ ), the storage battery divided by the resistor (R ₆ ) (R ₇ ) Since the BT outputs only the output Vo above the specified operating voltage of the transistor T ₃ and cuts off the output when the voltage falls below the specified operating voltage, the present invention is designed to provide a microcomputer or similar logic circuit. When used in a device driven by an electric power source, when the battery power is supplied due to a power failure, the voltage of the battery drops below the prescribed logic level of the logic element due to the discharge, which may cause malfunction of the circuit. Since the power supply is supplied quickly with the charged charging voltage even when the power is returned to the future, it may be caused by abnormal operation that may occur at the instant of time until the specified voltage is reached. It can be protected with a feature.

Claims (1)

The constant voltage circuit section 1 is placed in front of the normal charging / discharging circuit section 2, and a voltage comparing section 3, which operates only within a specified voltage range at the time of power failure or power return, is connected to the rear end thereof. And an inverter circuit section 4 for inverting the output voltage of the output circuit, and connecting the drive circuit section 5 to the inverter circuit section 4.