KR900004632Y1 - Exchanging circuit of electronic parts out of order - Google Patents

Abstract

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Description

Damaged part replacement circuit

1 is a conventional LED driving and sensing circuit.

2 is a circuit diagram of the present invention.

3 is a waveform diagram of each part of the circuit of the present invention.

* Explanation of symbols for main parts of the drawings

1-3: charge and discharge circuit 4: light emitting diode driving and sensing circuit

SW ₁ : Switch FF ₁ : Flip-Flop

LD ₁ , LD ₂ : Light emitting diode NOT ₁ : Inverter

R ₁ -R ₈ : Resistor Q ₁ : Transistor

C ₁ -C ₃ : Capacitor D ₁ , D ₂ : Diode

The present invention relates to a damaged part replacement circuit that can be replaced with another light emitting diode immediately when a light emitting diode used in a video tape recorder is damaged, thereby extending the life of the set and reducing the failure rate.

In general, the driving and sensing circuit of a deck cassette light emitting diode used in a video tape recorder is a transistor Q ₁ biased by resistors R ₁ -R ₃ in accordance with the driving of the light emitting diodes (LED) as shown in FIG. 1. ) Is configured to be "on" and "off" so that the Syscon microcomputer connected to the collector of transistor Q ₁ controls the operation of the set. When the light emitting diode LED is normally driven, the transistor Q ₁ is " A turn level is applied to the ciscon micom to provide a low level ("L") so that the set operates normally. If the light emitting diode (LED) is damaged, the transistor (Q ₁ ) is "turned off" and high in the ciscon micom. Since the level ("H") is applied, the Sisemicon microcomputer determines that the emergency (EMEMRGENCY) is to stop the operation of the set.

Even if one simple light emitting diode is broken, the set does not operate, and there is a significant difficulty in replacing the light emitting diode.

In other words, if the deck cassette light emitting diode is destroyed due to overcurrent, external shock and lifespan caused by a certain factor in the video tape recorder, Syscon Micom detects this and stops the whole operation of the set. There is also a disadvantage of not easy to work.

In view of the above, the present invention, when a light emitting diode is broken by a specific factor, checks whether the light emitting diode is damaged by a voltage appearing at the rear end of the light emitting diode and uses it as a drive input to immediately connect another LED to a circuit. In this configuration, even if the light emitting diode is destroyed during the operation of the set or during the non-operation, the circuit is immediately connected so that the set can perform normal operation.

This will be described in detail with reference to the accompanying drawings.

FIG. 2 is a circuit diagram of the present invention, in which the light emitting diode driving and sensing circuit 4 is configured such that the transistor Q ₁ is connected to the light emitting diode LD ₁ through the resistors R ₂ -R ₄ . (LD ₁₎ and connected to a light-emitting diode (LD ₂₎ in parallel and light emitting diodes (LD _1), the cathode of the (LD ₂₎ connected to each other through a switch (SW ₁₎ and a light emitting diode cathode, the flip-flop of the (LD ₁₎ The clock terminal CLK of (FF ₁ ) and the charge / discharge circuit 2 are connected to each other.

And the resistance (R ₇₎ and a capacitor (C ₂₎ charging and discharging the output of the circuit (2) is the charge and discharge circuit 3 is configured to after the inverter (NOT ₁₎ resistance (R ₈₎ and a capacitor (C ₃₎ consisting of And the output terminal Q of the flip-flop FF ₁ configured to be applied to the control terminal of the switch SW ₁ through the diode D ₂ and to which the high level (“H”) signal is applied to the input terminal D. It is configured to be applied to the control terminal of the switch SW ₁ through the diode (D ₁ ) through the charge and discharge circuit (1) consisting of a resistor (R ₆ ) and a capacitor (C ₁ ).

In addition, the power supply Vcc ₁ is applied to the anode side of the light emitting diodes LD ₁ and LD ₂ , and at the same time, through the resistor R ₁ and the zener diode ZD ₁ , the flip-flop FF ₁ and the inverter NOT _1. ) Is applied to the power supply Vcc ₂ and applied to the collector of the transistor Q ₁ through the resistor R ₅ .

The effects of the present invention configured as described above will be described by dividing the light emitting diode into a case in which it is destroyed during the operation of the set and a case in which the set is not operated.

Looking at the case where the light emitting diode D ₁ is destroyed when power is applied to the first set and operating, the cathode voltage of the light emitting diode LD ₁ , that is, the V _A voltage is changed from "H" to "L" ( ) Is changed as in the flip-flop (clock terminal (CLK) is applied, because the flip-flop (the output terminal (Q) in the charging and discharging circuit (1) to "H" voltage on the input terminal (D) of the FF ₁₎ to the FF ₁₎ Will be applied to.

Then, the charging voltage of the charging / discharging circuit 1 applies the control terminal "H" voltage of the switch SW ₁ through the reverse support diode D ₁ so that the switch SW ₁ is "on" and the light emitting diode LD ₂ ) is activated.

That is, the donor operates the light-emitting diode (LD ₂₎ connected to this parallel in place of the broken light emitting diodes (LD ₁₎ to control the switch (SW ₁₎ doemeurosseo light emitting diode (LD ₂₎ the role of the light-emitting diodes (LD ₁₎ Will replace.

At this time, the switch SW ₁ is easily configured as a three state buffer, a switching IC, an electronic relay, and the like.

The voltage going from the collector of transistor Q ₁ to the ciscon micom is maintained at "H" momentarily when the light emitting diode LD ₁ is damaged, but becomes "L", but the ciscon micom does not malfunction or stop the set. Will not.

This is because, in the video tape recorder's Syscon Micom, the sensor input is judged to be abnormal when the sensor input is not longer than a few seconds.

Therefore, even if the light emitting diode LD ₁ is damaged during the operation of the set, the switch SW ₁ is controlled by the flip-flop FF ₁ to immediately operate the light emitting diode LD ₂ to maintain a normal operating state in the ciscom micom. .

Second, when power is applied after the light emitting diode LD ₁ is destroyed and the set starts to operate according to FIGS. 2 and 3, when the power is initially supplied, the light emitting diode LD ₁ is damaged. As a result, the cathode potential of the light emitting diode, that is, the potential of V _A becomes "L" as shown in (a) of FIG. 3 and is inverted to "H" in the inverter NOT ₁ after passing through the charge / discharge circuit 2.

The " H " output voltage of the inverter NOT ₁ gradually increases as shown in (c) of FIG. 3 by the time constant by the resistor R ₈ and the capacitor C ₃ of the charge / discharge circuit 3. When a voltage is applied to the voltage to be recognized as "H" from the control end of the switch (SW ₁₎ switch (SW ₁₎ it is "on", so as to replace the yeokhwak of the light-emitting diode (LD ₂₎ is a light emitting diode (LD ₁₎ The V _A potential becomes "H" as in (a) of FIG.

When the voltage value of V _A becomes "H", the time constant by the resistor R ₇ and the capacitor C ₂ of the charge / discharge circuit 2 gradually increases as shown in (b) of FIG. 3. reached, the voltage to the input of the inverter (NOT ₁₎ to "H" output of the inverter (NOT ₁₎ is because the "L" in this case the charging voltage (V _C) of the charge-discharge circuit 3 to start a discharge do.

When the charging voltage V _C of the charge / discharge circuit 3 is discharged and falls below the voltage value recognized by the control terminal of the switch SW ₁ as “H” as shown in (c) of FIG. 3, the switch SW ₁ . Is " off " so that the potential of V _A becomes " L " as in (a) of FIG.

At this time, when the value of V _A becomes "L", the clock terminal CLK of the flip-flop FF ₁ ( ), The output of the flip-flop (FF ₁ ) is "H".

That is, when the value of V _A falls from "H" to "L", "H" is output from the output terminal Q of the flip-flop FF ₁ .

And V _B voltage of V _A minute charge-discharge circuit 2, the value is changed from "H" to "L" in is discharged as in the third degree (b) the voltage V _B of the inverter (NOT ₁₎ If it is less than the "H" input, V _C of the charge / discharge circuit 3 starts to charge again as in (c) of FIG.

Therefore, the voltage "H" output from the output terminal Q of the flip-flop FF ₁ gradually increases to become the "H" input voltage value of the switch control terminal as shown in (d) of FIG. 3 and the switch SW ₁ . Is " ON " and V _A becomes " H " voltage as in (a) of FIG. 3, and this value is maintained, resulting in the complete replacement of light emitting diode LD ₂ by light emitting diode LD ₁ .

At this time, if V _B value is kept at “H”, V _B starts to charge again. If V _B is at “H”, V _C is discharged again.

As shown in (a) of FIG. 3, the voltage V _A should be short enough for Δt, and the power supply V _CC2 of the flip-flop FF ₁ , the inverter NOT ₁ , and the transistor Q ₁ is input power ( It is different from V _CC1 ) because their maximum input voltage value is (V _CC1 -V _LD1 ), and it is suitable to match the input and power supply voltage. V _CC2 = (V _CC1 -V _LD1 ) is suitable.

On the other hand, when looking at the normal operating state in which the light emitting diode LD ₁ is not destroyed, since V _A is "H" from the initial state, the waveforms of V _B and V _C are changed as shown in FIG. 3 (b ') (c').

I.e. voltage is V _A is "H" V _B is input to the inverter (NOT ₁₎ for charging with a time constant of the resistor (R ₇₎ and a capacitor (C ₂₎ and the charge V _B is recognized as an "L" The output of the inverter NOT ₁ becomes "H".

This "H" output is to be charged, and V _B is faster than the charge voltage V _C reaches the "H" recognition voltage of the inverter (NOT ₁₎ via a resistor (R ₈₎ and a capacitor (C _3).

The point to notice is the voltage V _B not prevent the voltage "on" the switch (SW ₁₎ by V _C has to be quickly charged than the voltage V _C.

That is, the time constant by the resistor R ₇ and the capacitor C ₂ should be smaller than the time constant by the resistor R ₈ and the capacitor C ₃ .

As described above, the present invention connects another light emitting diode in parallel with an easy-to-destructive light emitting diode to switch the selection, and determines the abnormal state as the cathode voltage of the light emitting diode through the flip-flop and the charge / discharge circuit. It is a control input of a switch through a diode. When one light emitting diode is destroyed, it is recognized so that another light emitting diode is immediately connected.

This lowers the failure rate of the system, improves reliability, reduces the cost of troubleshooting and doubles the life of fragile components.

Claims (1)

The light emitting diodes LD ₁ and LD ₂ are connected in parallel to be selected by the switch SW ₁ , and the flip-flop FF ₁ connected to the charging / discharging circuit 1 is connected to the casing side of the light emitting diode LD ₁ . At the same time, the charge / discharge circuit 3 and the inverter NOT ₁ are connected to each other to configure the charge / discharge circuit 3, and the output of the charge / discharge circuit 1 and 3 is connected to the diode D ₁ and D ₂ . After the switch SW ₁ is controlled, the flip-flop FF ₁ , the inverter NOT ₁ , and the transistor Q _{1 are} supplied with the same power level as the input level through the resistor R ₁ and the zener diode ZD ₁ . Damaged part replacement circuit configured to apply (V _CC2 ).