KR920007742Y1 - Circuit for cutting charge of timer - Google Patents

Abstract

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Description

Charge cutoff circuit by timer

1 is a circuit diagram illustrating a charge interruption circuit using a conventional timer.

2 is a circuit diagram illustrating a charge interruption circuit according to the present invention.

3 is a detailed circuit diagram of the second voltage detector of FIG.

* Explanation of symbols for main parts of the drawings

1: power circuit 2: drive circuit

3, 7: geonap detector 4: ^- ∇V block circuit

5: Timer BA ₁ : Battery

R ₁ -R ₆ : Resistor Q ₁ -Q ₃ : Transistor

ZD ₁ : Zener Diode

The present invention relates to a battery charge blocking circuit by a timer, and more particularly, to a charge blocking circuit by a timer that can reliably cut off the charging power of a battery when the charging voltage of a nickel-cadmium (Ni-Cd) battery is full. .

The charge interruption circuit by the conventional timer is configured as shown in FIG. 1, and when the power source AC is applied and the battery BA ₁ is mounted, the predetermined charge voltage of the battery BA ₁ is detected. detecting in (3) ^- ▽ V so applied to the blocking circuit 4 that ^- ▽ V drives the shut-off circuit (4) is a high potential signal outputted from the timer 5, the reset Sikkim and at the same time, (2) a drive circuit As a result, the transistor Q1 is turned on to charge the battery BA ₁ . Driving the ▽ V shut-off circuit (4) it is applied by being output a low potential signal on its output side to the drive circuit (2) ^- The batteries when (BA _1), charging is terminated in the terminal voltage is detected by the voltage detector 3 Is stopped, and accordingly the transistor Q ₁ is turned off, so that charging of the battery BA ₁ is stopped.

By the way, ^- ▽ V shut-off circuit (4) If the failed state batteries (BA ₁₎ to (2) a drive circuit by the secondary device is a timer (5) Since no sikilsu stop the drive to the former may be driving a full charge (2) The drive will stop. That is, the timer 5 stops the driving of the drive circuit 2 after a predetermined time set by the time constant control circuit 6 after the reset is to stop the charging of the battery BA ₁ . As a result, it is necessary to short-circuit the switch SW ₁ to the one-hour terminal a or the two-hour terminal b according to the capacity of the battery BA ₁ to set the time constant of the time constant control circuit 6. This will be.

Accordingly, when the battery for 1 hour is connected according to the capacity of the battery BA ₁ , that is, the appearance of the battery for 1 hour and 2 hours is different, the switch SW ₁ is short-circuited to the terminal for 1 hour (a). If the time constant control circuit 6 has a time of about 1 hour 20 minutes, and the battery for 2 hours is connected, the switch SW ₁ is short-circuited to the terminal for 2 hours b and the time constant control circuit 6 The time of 2 hours 40 minutes is set.

However, in such a conventional apparatus, the time constant setting switch is selected by varying the structure of the part in which the battery is mounted according to the capacity of the battery. Therefore, the structure is complicated, the cost is increased, and the time constant control is performed. Since the time constant of the circuit is usually determined by R and C, there is a problem such that the setting time of the timer cannot be changed freely.

The present invention has been made to solve the above-mentioned drawbacks, it is possible to reliably stop the charging of the battery after a certain time when the charge voltage of the battery becomes full charge regardless of the capacity of the battery, When described in detail with reference to the drawings as follows.

2 is a block diagram of a charging circuit using a timer according to the present invention. As shown therein, a power supply of a power supply circuit 1 is controlled by a driving circuit 2 through a transistor Q ₁ and a diode D ₁ . is filled in (BA _1), the batteries (BA _1), voltage detector 3, and when the charge voltage is in the full charge state of the ^- stops the drive of the ▽ V block circuit by 4, the drive circuit (2) was connected to the reset terminal (RS) of the batteries (BA _1), timer (5) according to a charging shutoff circuit thereby stop the charging, the positive side of the batteries (BA ₁₎ via a voltage detector 7 for, and The output terminal of the timer 5 is connected to the driving circuit 2 so that the charging of the battery BA ₁ is stopped after a certain time from when the charging voltage of the battery BA ₁ becomes a full charge state. .

FIG. 3 is a detailed circuit diagram of the voltage detector 7 of FIG. 2 as shown in the drawing. The positive side of the battery BA ₁ is connected to the transistor Q through the zener diode ZD ₁ and the resistor R ₃ . ₂ ) by connecting the collector thereof to the base of the transistor Q ₃ through the resistor R ₅ and connecting the collector of this transistor Q ₃ to the reset terminal of the timer 5. If described in detail the effect of the present invention configured as follows.

When applying the power (AC), and mounting the batteries (BA _1), by detecting a predetermined charging voltage of the batteries (BA ₁₎ in a voltage detector ^(3), so is the ▽ V shut-off circuit (4) on its output side A high potential signal is output, and the high potential signal is charged in the battery BA ₁ by driving the driving circuit 2 to turn on the transistor Q ₁ .

At this time, when the batteries are charging is completed, the (BA ₁₎ a fully charged state is detected in the charging voltage is a voltage detector (3) ^- ▽ a V block circuit by applying to 4 is output a low potential signal on its output side driver circuit Is applied to (2).

As a result, the driving of the driving circuit 2 is stopped to turn off the transistor Q ₁ , so that charging of the battery BA ₁ is stopped.

By the way, when a fault occurs in the-V interrupt circuit 4, the driving of the driving circuit 2 cannot be stopped.

However, at this time, since the charging voltage of the battery BA ₁ is applied to the zener diode ZD _{1 of} the voltage detector 7, the driving of the driving circuit 2 is stopped by the voltage detector 7 and the timer 5. Will be.

That is, if the zener voltage of the zener diode ZD ₁ of the voltage detector 7 is set slightly lower than the full charge voltage of the battery BA ₁ , the zener diode ZD ₁ immediately before being fully charged to the battery BA _1. ) Is turned on, and transistor Q ₂ is turned on. Accordingly, transistor Q ₃ is turned on, and a high potential signal is output to its collector, and this high potential signal is applied to reset terminal RS of timer 5. Since the timer 5 is reset, the low potential signal is output from the timer 5 after a predetermined time set in the timer.

Since the low potential signal stops driving the driving circuit 2, the transistor Q ₁ is turned off to stop the charging of the battery BA ₁ .

As described in detail above, the present invention stops the charging of the battery after a certain time by a timer from immediately before the charging voltage of the battery becomes full, regardless of the capacity of the battery, thus overcharging the battery regardless of the capacity of the battery. It is possible to surely prevent, and the present invention is not only easy to use, but also has the advantage of simplifying the structure because it does not need to set the correcting time according to the capacity of the battery.

Claims (2)

When the power of the power supply circuit 1 is charged to the battery BA ₁ through the transistor Q ₁ and the diode D _{1 under} the control of the driving circuit 2, and is fully charged in the battery BA ₁ . in the voltage detector 3 and ∇V off circuit 4 to stop by the operation of (2), the drive circuit batteries (BA ₁₎ is filled off thereby stopping the charging of the circuit, the batteries (BA ₁₎ The positive side is connected to the reset terminal RS of the timer 5 via the voltage detector 7, and the output terminal of the timer 5 is connected to the drive circuit 2, so that the battery BA _{1 is} connected. The charging interruption circuit by the timer, characterized in that configured to stop the charging of the battery (BA ₁ ) after a certain time from when it is fully charged. The strong voltage detector 7 connects the positive axis of the battery BA ₁ to the base of the transistor Q ₂ through a zener diode ZD ₁ and a resistor R ₃ to resist the collector thereof. Charging by the timer, characterized in that it is connected to the base of the transistor Q ₃ via (R ₅ ) and connected to the reset terminal RS of the timer 5 of the transistor Q ₃ . Breaking circuit.