KR890008920Y1 - Electrode and supporter for laser radiation - Google Patents

Abstract

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Description

Power cutoff circuit during overload using triac

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10, 60: comparator 20: monostable multivibrator

30: JK flip-flop 40: non-inverted layer aeration

50: overvoltage protection circuit 1: input terminal

2: Load circuit R ₁ -R ₁₅ : Resistance

C ₁ -C ₄ : Capacitor OP ₁ -OP3: OP Amp

D ₁ : Diode LED ₁ : Light Emitting Diode

IC ₁ : Integrated Device TR ₁ : Triac

T ₁ : Transformer I ₁ : Inverter

S ₁ : Power switch + Vcc, -Vcc: Power

The present invention relates to a power cut-off circuit when overload using a triac to cut off the power by using a triac when the power circuit is overloaded.

When an overvoltage is applied to the load circuit of the rear stage in a power supply circuit such as a television or a monitor, the load circuit of the rear stage has been broken or cannot operate normally.

Therefore, in the related art, in order to protect the power circuit and the load circuit in the case of overload, the fuse is connected between the power circuit and the load circuit so that the fuse is cut off in the case of overload. It was a disadvantage.

In consideration of this, the triac connected to the power circuit controls the power circuit so that the power circuit and the load circuit are protected in case of overload. The JK flip-flop is controlled by the overload condition so that the JK flip-flop is connected to the gate of the triac to control the triac connected to the power circuit for detecting an overload condition of the power circuit.

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

OP amplifier (OP ₁ ) non-inverting input shaft (+) connected to the resistor (R ₂ ) with the inverting input side (-) through the power switch (S ₁ ) and resistor (R ₁ ). Power supply for supplying + 5V after configuring the amplifier 10 so that the output side of the OP amplifier OP ₁ is connected to the integrated device IC ₁ through the resistor R ₃ and the inverter I ₁ . The direct element IC ₁ connected to the + Vcc side is connected to the power supply (+ V _CC ) supplying + 5V through the capacitor C ₁ (C ₂ ) and the resistor R ₄ , and at the same time JK flip-flop ( The output of the JK flip-flop 30, which constitutes a monostable multivibrator 20 connected to the clock terminal CK of 30) and a power supply (+ V _cc ) supplying + 5V is connected to the terminals J and K. The JK flip-flop 30 is configured such that the terminal Q is connected to the gate G side of the triac TR ₁ through the light emitting diode LED ₁ and the resistor R ₅ .

The input terminal 1 is connected to the triac TR ₁ through the primary side of the transformer T ₁ with the load circuit 2 connected to the secondary side, and the triac TR ₁ is a resistor R ₆ . ₇ ) is connected to the non-inverting input shaft (+) of the OP amplifier (OP ₂ ) connected to the power supply (+ Vcc, -Vcc) supplying + 5V and -5V through the inverting input side (-) and the resistor (R ₈ ) The non-inverting amplifier 40 is configured such that the output side of the OP amplifier OP ₂ connected through the resistor R ₉ is connected to the resistor R ₁₀ while being grounded through the resistor R ₉ , and then through the diode D ₁ , the resistor R _10. ) connected to a capacitor (C ₃₎ (C ₄₎ a resistor (R ₁₁₎ (R ₁₂₎ to configure the OP amplifier (prevent over-voltage to be connected to the non-reflective predecessor ryeokcheuk (+) of the OP ₃₎ circuit 50 and inverted by the The output side of the OP amplifier OP ₃ connected to the power supply (+ V _cc ) supplying + 5V through the resistor R ₁₄ while the input side (-) is grounded through the resistor R ₁₃ is the resistor (R ₁₅ ). Through the output side of the op amp (OP ₁ ) and resistor (R ₃₎ Comparator 60 is configured to be connected to).

Referring to the effects of the present invention configured as described above are as follows.

A + 5V power supply (+ Vcc) applies an "H level" to the integrated device IC ₁ of the monostable multivibrator 20 irrespective of the power switch S ₁ , thereby inputting the input signal of the monostable multivibrator 20. Becomes "H level" and "H level" is applied to the terminals J and K of the JK flip-flop.

Here, when the user is thereby "on" the pawooeo switch (S ₁₎ pawooeo switch (S ₁₎ and the resistor power supply of + 5V is applied to the non-inverting input (+) of the OP amplifier (OP ₁₎ through (R ₁₎ ( Since + Vcc is higher than the reference voltage of the inverting input side (-), the output side of the OP amplifier OP ₁ is at the "H level", and the "H level" of the OP amplifier OP _{1 is set} via the inverter I ₁ . An integrated device generated by inverting and applying "L level" to the integrated device IC ₁ of the monostable multi-vibrator 20 after the input side of the integrated device IC ₁ changes from "H level" to "L level" ( The output pulse of the "H level" of IC ₁ ) is applied to the clock terminal CK of the JK flip-flop 30 by the time constant of the resistor R ₄ and the capacitor C ₁ , and the initial state is "L level". "at the output (Q) the terminals (J, K) is" H level ", by being reversed to a light emitting diode (LED ₁₎ of the JK flip-flop 30 is input to the" H level "of the flip-flop 30 to the Licensed The light emitting diode is pawooeo switch (LED _1), etc. (S ₁₎ by applying an "H level" to the gate (G) side of and simultaneously applying an "on" state to the user triac (TR ₁₎ Triac ( TR ₁ ).

And an input terminal (1) is an alternating current power (AC) is a primary side and a "turn-on" the TRIAC (TR ₁₎ and a ground current through the resistor (R ₆₎ of the transformer (T ₁₎ organic trans ( The voltage on the secondary side of T ₁ ) is normally supplied to the load circuit 2.

In addition, the AC power applied to the non-inverting input side of the OP amplifier OP ₂ through the triac TR ₁ and the resistors R ₆ and R ₇ is amplified by the non-inverting amplifier 40 and amplified. The voltage is distributed across the resistors R ₁₀ , diodes D ₁ , and capacitors C ₃ and C ₄ to be reduced and applied to the non-inverting input side of the OP amplifier OP via resistors R ₁₁ and R ₁₂ . The output voltage of the over-voltage protection circuit is supplied from the resistor (R ₁₃ ) (R ₁₄ ) to the voltage of + 5V through the reverse (R ₁₁ ) (R ₁₂ ) from the + 5V power supply (+ Vcc) to the OP amplifier (OP ₃ ). Since the reference voltage applied to the inverting input side (-) is less, the "L level" is generated on the output side of the OP amplifier OP ₃ .

After the "L level" of the OP amplifier OP ₃ is inverted through the inverter I ₁ and the "H level" is applied to the integrated device IC ₁ of the monostable multi-vibrator 20, the "H level" state the integrated device (IC ₁₎ is a JK flip "H level", it does not also occur intelligence to the clock signal of the JK replicon f-flop by the output signal of the not an edge trigger pulse generating integrated device (IC ₁₎ trigger pyeolseu The output of the flop 30 is maintained so that the voltage of the transformer T ₁ of the power supply circuit can be continuously applied to the load circuit 2.

However, when an overload occurs, the overvoltage of the primary side of the transformer T ₁ applied to the non-inverting input side of the OP amplifier OP ₂ through the triac TR ₁ and the resistors R ₆ and R ₇ is not generated. The amplified voltage is inverted through the inverting amplifier 40 and the amplified voltage is distributed to the resistor R ₁₀ and the diode D ₁ and the capacitor C ₃ and C ₄ of the overvoltage protection circuit 50 to reduce the overvoltage. After that, the reduced voltage is applied to the non-inverting input side (+) of the OP amplifier OP ₃ through the resistors R ₁₁ and R ₁₂ .

At this time, when the overvoltage reduced through the process voltage prevention circuit 50 is not safely reduced and becomes greater than the reference voltage applied to the inverting input side (-) of the OP amplifier OP ₃ from a + 5V power supply (+ V _CC ). integrated device of the OP amplifier (OP ₃₎ output side, and the "H level" generation of the OP amplifier (OP ₃₎ inverting the monostable multivibrator 20 through the "H level", the inverter (I ₁₎ of the output side of the (IC ₁₎ after applying the L level "to the input side of the integrated device (IC ₁₎ input is" output of "" H level of the integrated device (IC ₁₎ generated by being changed to L level "" in the H-level "pulse of the Is applied to the clock terminal CK of the JK flop 30 by the time constant of the resistor R ₄ and the capacitor C ₁ .

Then, as the "L level" is inverted by the terminal JK of the JK flip-flop 30 input to the "H level" of the output side Q of the JK flip-flop 30 which is "H level", the light emitting diode ( The light-emitting diode (LED ₁ ) applied to the LED ₁ ) turns off and recognizes the overload state of the power supply circuit to the user, and at the same time, the L-level is applied to the gate G side of the triac TR ₁ to generate the triac. since sikimeuroseo current the drive stop of (TR1) is to not flow to the primary side of the transformer (T ₁₎ will the power of without having to use the conventional fuses the power supply circuit can prevent not supplied to the load circuit (2) OP The level of overload can be adjusted by changing the resistors R ₁₃ (R ₁₄ ) connected to the inverting input side (-) of (OP ₃ ).

Therefore, they pawooeo switch the light emitting diodes are pawooeo switch (LED ₁₎ light is applied to the "H level", the light emitting diode (LED ₁₎ on the output side of the Let it "on" JK peulreup flop 30 a (S ₁₎ ( S ₁₎ of the "on" state to and simultaneously to a user recognition to the gate (G) side of the triac (TR ₁₎ is the "H level" to the triac (transformer of the power supply circuit to TR ₁₎ sikimeuroseo drive (T _When the power of ₁ ) is normally supplied to the load circuit 2 and an overload occurs on the primary side of the transformer T1, the overload on the primary side of the transformer T ₁ is reduced through the overvoltage protection circuit 50. Then, by changing the "H level" on the output side of the JK flip-flop 30 to "L level" to turn off the light-emitting diode (LED ₁ ), the user recognizes the overload state of the power supply circuit, the drive of the triac TR ₁ Stops the power supply circuit without using conventional fuses Transformer (T ₁₎ when the applied direct current power source (DC) from the input terminal 1 of the power supply circuit that can prevent power from being supplied to the load circuit (2) in place of the triac (TR ₁₎ in the present design SCR of Using the present invention can be configured.

As described above, the present invention allows the JK flip-flop controlled by the power switch pressed by the user and the overvoltage protection circuit to control the triac connected to the transformer of the light emitting diode and the power circuit to the transformer of the power circuit. It is configured to control the overload induced, and it is effective to protect the power supply circuit and the load circuit during overload by adjusting the reference voltage of the comparator without changing the fuse as in the related art.

Claims (1)

Power supply (+ V _CC) is pawooeo seuchi connected through a (S _1), a resistance (R ₁₎ (R ₂₎ and the OP amplifier (OP _1), and the configuration being comparator 10 is the resistance (R ₃₎ and inverter ( I ₁ ) is connected to the power supply (+ V _CC ) is connected to the monostable multivibrator 20 consisting of integrated device (IC ₁ ), capacitor (C ₁ ) (C ₂ ) and resistor (R ₄ ) and monostable After the multivibrator 20 is connected to the gate (G) side of the triac (TR ₁ ) through the JK flip-flop 30 and the light emitting diode (KED ₁ ) and the resistor (R ₅ ) connected to the power supply (+ V _CC ) Input terminal (1) is connected to load on the secondary side (2), the primary side of the transformer (T ₁ ) is connected to the power supply (+ V _CC , -V _CC ) through the triac (TR ₁₎ (R ₆ -R ₉ ) and OP amplifier (OP ₂ ) are connected to the non-inverting amplifier 40, the non-inverting amplifier 40 is a resistor (R ₁₀ ), diode (D ₁ ), capacitor (C ₃ ) ( Power supply (+ V _CC ) of the overvoltage protection circuit 50 composed of C4) is connected to the resistor (R _11- R ₁₄ ), OP amplifier (O P ₃ ) Overload power circuit using triac configured to be connected to the comparator 10 and the inverter (I ₁ ) through the comparator 60 and the resistor (R ₁₅ ) configured.