KR910002297Y1 - Protective circuit at discharge condenser for telephone card - Google Patents

Abstract

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Description

Lead-acid battery over-discharge prevention circuit for card type public telephone

1 is a block diagram showing the overall configuration of the present invention.

2 is a circuit diagram showing an overall configuration example of the main part of the present invention.

* Explanation of symbols for main parts of the drawings

A1, A2: OP Amp BAT: Battery

C _T , C1, C2: Condenser D1, D2, D3, D5: Diode

F: Filter R1-R11, R12 ': Resistance

RD: Relay Drive RECT: Rectifier

T: Transformer TD: Delay Circuit

VC: Voltage Comparator ZD1: Zener Diode

The present invention relates to an over-discharge prevention circuit of lead-acid battery used for power supply in case of power failure in a card type public telephone.

In the past, when power supplied to a card-type public telephone was cut off due to a power failure, continuous power supply was made by a lead-acid battery. When a power failure time is long or the lead-acid battery is over discharged due to user's carelessness, In this case, the power supply is stopped and the charging voltage is supplied. However, the charging is frequently not performed due to insufficient charging. In this case, the lead-acid battery has to be replaced with a new one, thereby causing a significant economic loss.

In addition, the card type public telephone reads the fare data contained in the card and stores it in the memory when the card is inserted, while the fare data is cleared on the card. The data must be subtracted from the data and stored on the card before being discharged.

Therefore, if the card is inserted at the time of temporary power supply after the lead-acid battery is over discharged for a long time, the lead-acid battery does not have enough charge and cannot operate the public telephone. Therefore, the card is inserted with the rate data cleared. In this case, the user cannot recover the card, and even if the card is forcibly recovered, the fee data is clear, and thus the user cannot use the card.

The present invention detects the voltage change of the lead-acid battery by a voltage comparator to solve the problems as described above, thereby detecting the over-discharge state, and after the predetermined time elapses to stop further discharge of the lead-acid battery Prevents over-discharge and cuts off the discharge when the lead-acid battery is at a relatively high voltage. When the power supply is cut off in the above-mentioned cases, the card is operated for a suitable time even if the card is inserted. The recording and discharging function is to be exhibited as described in detail according to the accompanying drawings as follows.

The charging current is supplied to the lead-acid battery (BAT) by the transformer (T), rectifier (RECT) and the filter (F), and during the power failure, the current of the lead-acid battery (BAT) is regulated by the regulator (REG1), (REG2) and DC / In a field-type public telephone which is supplied to a DC converter (CONV.) Or the like, the diodes D1 and D2 are connected to one side of the lead acid battery BAT, but between the diode D2 and one side of the lead acid battery BAT. The relay contact Ry is connected to the drive circuit and driven by the relay drive circuit RD including the transistor Q1, the relay coil Ry, the capacitor C _T , and one side of the diode D2. Op amp A1, A2 and resistors R1-R11, and a voltage comparator VC composed of capacitor C1, zener diode ZD1, diode D3, etc., and the output of the capacitor C2. And the output of the voltage comparator VC is delayed by the set time by connecting to the delay circuit TD of the resistor R12 or the like. (D5) and resistors (R14), (R15), etc., to be connected to the CPU of the card type public telephone.Unmarked SW is a switch of a battery BAT, P is an AC power supply, D4 is a diode, R3 is a variable resistor for adjusting the operating point.

Referring to the effect of the present invention as described in detail as follows.

When the remote battery BAT is switched on and the AC power P is applied, the voltage induced from the transformer T to the secondary winding is rectified by the rectifier RECT, and then passes through the filter P to the regulator REC1. It is positively pressurized to output DC constant voltage. On the other hand, it is stepped down through DC / DC converter (CONV) and output at low voltage, which is also output to negative voltage through regulator (REG2). It will be able to perform the normal operation by supplying the power necessary for the operation of parts such as parts and motors.

At the same time, since the voltage passing through the filter F passes through the capacitor C _T while charging the lead-acid battery BAT through the diode D1, a trigger signal is applied to the base of the transistor Q1, and therefore, the transistor Q1. This conduction causes a current to flow to the relay coil Ry, and the contact Ry 'is “ON”, so that the voltage of the power supply passes through the contact Ry' and is applied to both inputs of the OP amplifier A1. .

At this time, the applied voltage is a high voltage applied directly after the power supply voltage of the state passing through the filter F is increased by about 0.6V from the diode D1. Therefore, the Zener diode ZD1 conducts and the OP amplifier A1 is applied. The low voltage is applied to the inverting terminal of) and the voltage of the relatively high state through the resistor R1 is applied to the non-inverting terminal.

Therefore, a high voltage is generated at the output of the OP amplifier A1, which is applied to the non-inverting terminal of the OP amplifier A2 while charging the capacitor C2 through the diode D3 and the resistor R7.

Since this voltage is higher than the voltage applied to the inverting terminal, the output of the OP amplifier A2 is applied to the base of the transistor Q1 via the diode D4 to keep the transistor Q1 in conduction state, and thus the contact Ry ') Is maintained in the switched state, and the current power is being supplied by applying a high voltage to the CPU embedded in the card-type public telephone via the diode D5, resistors R14 and R15. It is a state awareness.

In the present invention, the charging function of the lead-acid battery and the power supply function of each part can be performed by this process. When the supply of AC power is cut off due to a power failure, the voltage of the lead-acid battery (BAT) is immediately increased. It is supplied to the regulator REG1, REG2 and the DC / DC converter CONV through the contact point and the diode D2 to maintain a normal operating state.

Therefore, even if there is a power failure, normal use is possible, but if left unattended, the lead-acid battery (BAT) is over-discharged and cannot be used again. Therefore, the present invention monitors the voltage of the lead-acid battery (BAT) for about 60% of the current capacity. Power supply by the lead-acid battery (BAT) is cut off at the voltage when the battery is discharged, but before the CPU can be notified that the power supply will be cut off, the CPU sends an alarm to the user and the remaining charge subtracted to the card. After recording the data, it is possible to perform various operations to eject the card.

That is, when about 60% of the current capacity is discharged due to continuous discharge of the lead-acid battery BAT, the voltage also drops to enable the zener diode ZD1 to conduct, and thus the inverting terminal supplied through the resistors R5 and R11. Since the voltage of the voltage increases, the voltage supplied to the non-inverting terminal becomes relatively low, and the output voltage of the OP amplifier A1 decreases.

Therefore, the voltage charged in the capacitor C2 starts discharging through the resistor R12. During that time, the voltage supplied to the non-inverting terminal of the OP amplifier A2 remains high, so the output of the OP amplifier A2 At the same time, the output of the OP amplifier A1 is lowered and at the same time, the voltage supplied to the CPU through the diode D5 is lost, so that the supply of the lead-acid battery BAT will be cut off. It recognizes and sends an alarm sound to the user by the program embedded in its memory to perform various necessary actions such as recording the subtracted data on the card and ejecting the card. After sufficient time has elapsed, such an operation is performed. When the discharge of the voltage charged in the capacitor (C2) is completed, a low voltage is applied to the non-inverting terminal of the OP amplifier (A2), the voltage is supplied by the resistor (R8) It is much lower, because the output voltage of the OP amplifier (A2) will reduce which can no longer be conductive the transistor (Q1). Therefore, when the current flowing in the relay contact Ry is cut off, the contact Ry 'is turned off so that the voltage of the lead-acid battery BAT can no longer flow, thereby preventing over-discharge of the lead-acid battery BAT. The overall operation of the public telephone is stopped to wait for the supply of AC power (P).

Therefore, the user can recover the card containing the reduced fare data and reuse it.

In such a power failure state, the AC power P may be temporarily supplied and then blackout again.

If the card is inserted when the power is temporarily supplied, the public telephone allows the card to be inserted, reads the fare data, stores it in the memory, and then clears the fare data of the card. At this point, the supply of AC power P Even if blocked, the present invention maintains a state in which a public telephone can be normally operated in any case in the case of the lead-acid battery (BAT), so that the card charge data is not lost or the card cannot be discharged.

That is, in the present invention, since the discharge is cut off before the lead-acid battery (BAT) is over-discharged, the state in which the public telephone can be operated is maintained. Thus, a power failure occurs after the card is inserted, and the voltage of the lead-acid battery (BAT) is low. Even when the output of the OP amplifier A1 of the voltage comparator VC becomes low, the power supply by the lead-acid battery BAT is cut off after a certain time by the delay circuit TD, and during this time, the CPU is required as described above. By discharging the card by performing the function of the user will be able to retrieve and reuse the card.

In this way, the present invention is to prevent the over-discharge of lead-acid battery, so that it can maintain a long life and do not need to be replaced frequently, so it is possible to reduce the facility maintenance cost of the card-type public telephone. Edo is a useful design that can be used safely and conveniently at all times because the remaining charge data of the card is not impossible or the card cannot be ejected.

Claims (1)

In the lead-acid battery overdischarge prevention circuit for a card type public telephone in which charge currents from the transformer (T), rectifier (RECT), and filter (F) are applied to the lead-acid battery (BAT), the transistor (Q1) and the relay coil (Ry) And a relay driving circuit RD having a first capacitor C _T , first and second diodes D ₁ and D ₂ connected to one of the lead-acid batteries, and driven by the relay driving circuit. , the relay contact (Ry '), is connected to the diode (D ₂₎ of the second, first and OP amplifier in the second (a _1, a ₂₎ connected to one of a diode (D ₂₎ of the second A voltage comparator (VC) having a first resistor (R ₁ -R ₁₁ ), a first capacitor (C ₁ ) having a zener diode (ZD ₁ ) and a third diode (D ₃ ); A delay circuit (TD) connected to the non-inverting input terminal of the second OP amplifier (A ₂ ) of the voltage comparator, the third capacitor (C ₃ ) and the second resistor (R ₁₂ ); The output of the voltage comparator AC is connected to the fourth diode D. ₅ ) is connected to the CPU of the card-type public telephone, and when the current capacity of the lead-acid battery stops discharging, when the CPU reaches a limit, an alarm sounds when the CPU is busy and the card is discharged after a certain time. Lead-acid battery over-discharge prevention circuit for cutting a call.