KR870001263Y1 - One-touch electronic switching circuit for automobile - Google Patents

Abstract

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Description

Automotive One Touch Electronic Switch Circuit

1 is a circuit diagram of the present invention.

2 (a) is an explanatory view of the operation principle of a unilateral logic circuit.

Figure 2 (b) is a diagram illustrating the operation principle of the logic circuit used in the present invention.

The present invention is a one-touch electronic switch circuit for automobiles that enables the switch for operating or stopping various electric loads such as electric bulbs and motors of automobiles to be electronically contacted without contacting the mechanical contacts. It is about.

Various switches used in automobiles are turned on or off by relay or mechanical contact method. Such mechanical contact method causes damage to the machine due to wear or arc welding due to frequent switch operation. Since the operation was impossible, there was a shortcoming of the short lifespan and the feeling of the operation was also not clear.

The present invention was devised to solve the above-mentioned drawbacks. One-touch button for giving an input signal with extremely fine current (0.33mA) and an electronic circuit part which is a contactless switchgear are included, and a lamp is embedded inside the button. It is possible to easily determine the on-off is to eliminate the drawbacks with the prior art according to the accompanying drawings as follows.

Connect the main power (B ⁺ ) input through the resistor (R ₁ ) to the constant voltage IC (IC ₀ ) and the output terminal to the switch (SW ₁ ) (SW ₂ ) and logic operation IC (IC ₁ ) for giving only the input signal. The connection is made by connecting the output terminal of the logic operation IC IC ₁ to the base of the transistors Q ₅ and Q ₆ and connecting the collector to the Darlington circuit.

Turning to the operation and effect of the in this way the present design was used as a constant-voltage IC (IC ₀₎ to change the power required for the configuration and operation of the vehicle using a voltage of 12V or 24V logic circuit main power (B ⁺⁾ has a resistance (R ₁₎ It is input to the constant voltage IC (IC ₀ ) and is grounded through the capacitors C ₁ (C ₂ ) (C ₃ ), and the GND terminal of the constant voltage IC (IC ₀ ) is grounded.

The output terminal of the constant voltage IC (IC ₀ ) is grounded through the capacitor (C ₄ ) while the constant voltage power is supplied to the VCC of the logic operation IC (IC ₁ ).

This completes operation preparation.

Therefore, when the source electron lightly presses the switch SW ₁ with a finger, a minute base current flows from the base side of the transistor Q ₇ to the ground through the resistor R ₁₀ .

At this time, the collector from the emitter of the transistor (Q ₇₎ to flow the current, and this is input to the logical operation IC (IC ₁₎ transistor at the output terminal of the logical operating IC (IC ₁₎ + 5V is given through a resistor (R ₈₎ (Q ₅ ) is applied to the base.

This will exert an input transistor to the base of (Q _5), so the emitter connected to ground of the transistor (Q ₅₎ resistance transistor (Q ₅₎ through (Q ₅₎ connected to the collector of the.

This applies a "-" potential to the base of the transistor Q ₁ connected to the emitter of the transistor Q ₃ so that the transistors Q ₁ and Q ₃ are operated simultaneously (a multi-arlington circuit) and the main power source B ^+), the collector of the transistor (Q ₁₎ emitter and through the base flows into the emitter of the transistor (Q ₃₎ transistor (Q _3), the collector and the transistor (Q ₁₎ of the synthesized output to the output terminal (OUT ₁₎ This comes out.

At this time, the load of a light bulb or a motor connected to the output terminal OUT ₁ is started.

And D ₁ is a diode for preventing malfunction and device protection due to back electromotive force of the inductive load.

On the other hand, at the same time as the load is activated, a lamp built in the switch SW ₁ is operated through the resistor R ₆ to inform the driver that the electronic circuit is “on” electrically.

The next time the switch SW ₁ is pressed again, due to the inherent logical characteristics of the logic operation IC ₁ , all the circuits stop the above-mentioned operation and so the load stops the operation and becomes off. At this time, the lamp built in the switch (SW ₁ ) is also turned off so that the driver can easily know that the switch is off (off).

The logic operation circuit used in the present invention uses a data flip-flop circuit as shown in FIG. 2 (b).

That is, this is a modification of the conventional data flip-flop circuit as shown in FIG. 2 (a) to suit the characteristics of the present invention.

Referring to FIG. 2 (a), it is a flip-flop transmitted to Q by the clock pulse of the signal CK given in D. FIG.

In other words, when a digital signal of "1" is applied to D and a clock pulse is applied to CK, a signal of "1" of D is transmitted to Q, and Q is a signal in which Q is inversed, that is, "0". Until the clock pulse is applied again, the output of Q does not change when D changes to any signal.

That is, the signal of D is transmitted to Q by the clock pulse. However, in order to operate the switch on-off with this D flip-flop, there is a problem in that the signal of 0 must be continuously changed to "0" and "1".

Therefore, the present invention solves the problem by configuring the D flip-flop as shown in the second (b).

That is, if the current Q output is "0" Will output "1". therefore When D and D are connected to each other, "1" data is waiting for D.

Of course, the Q output at this time is "0". At this time, if CK pulse is applied, data “1” of D is transferred to Q and output of Q changes to “1”. Is changed to "0" and the data of "0" is waiting for D again. When CK pulse is applied, "0" is transmitted to Q. Means "1", D means "1" to wait, so if you connect CK to the switch, it will turn on when you press it once, and if you press it again, it turns off. … In this way, the loop of on-off continues.

That is, with D Are connected to each other so that the output of Q is changed from 1 → 0 → 1 → 0… with only CK pulse without changing D input. … It can be changed in this way.

Therefore, the various electrical loads of the vehicle can be switched by the electronic contactless method.

In this way, the present invention connects two Darlington circuits (A) to one logic operation IC (IC ₁ ) element to form two output terminals (OUT ₁ ) and (OUT ₂ ). If only the number of units is increased, various electrical loads settled in the vehicle can be freely and clearly turned on and off by simple one-switch switch (SW ₁ ……). It can be effective.

Claims (1)

Resistance (R ₁₎ a main power supply (B ⁺⁾ to the constant-voltage IC switches (SW ₁₎ for only a period of the input signal an output terminal of the constant-voltage IC (IC ₀₎ according to a connection to (IC ₀₎ (SW ₂₎ input via the Connect the logic operation IC (IC ₁ ) to connect the output terminal of the logic operation IC (IC ₁ ) to the base of the transistors Q ₅ (Q ₆ ) via a resistor (R ₈ ) (R ₁₈ ) and the collector is a Darlington circuit. (A) An automotive one-touch electronic switch circuit connected to the base of the transistors Q ₃ and Q ₄ .