KR900002480Y1 - Automatic sensing circuit - Google Patents

Abstract

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Description

Automatic sensing circuit

1 is a block diagram of the present invention.

2 is a detailed circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: transmitter 20: receiver

21: amplification circuit 22: Schmitt trigger circuit

23: input sensing circuit 24: driver

25: output detection circuit 26: malfunction prevention circuit

27: counter circuit 30: power supply

UST: Ultrasonic Transmitter USR: Ultrasonic Receiver

IC ₁ -IC ₄ : Oscillation IC NA ₁ -NA ₇ : NANDGATE

NO ₁ -NO ₃ : Noah gate OR: Oa gate

The present invention relates to an automatic sensing circuit using ultrasonic waves.

Conventionally, in a place where a lot of people are provided with a TV or a fan, when someone is watching a TV, the person must turn off the TV when there is no person.In the case of a fan, there is a timer adjustment, but it is selected when it is used temporarily. There was an inconvenience of having to operate the switch manually.

The present invention is an automatic sensing circuit, and when a person approaches within the distance set by the transmitter, the frequency emitted from the transmitter is reflected by the person and automatically controls the home appliance using ultrasonic waves inputted to the receiver's ultrasonic receiver. There is this.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1 and FIG. 2, the automatic sensing circuit is characterized by oscillation ICs (IC ₁ , IC ₂ ), resistors (R ₁ -R ₄ ) and capacitor ( C ₁ -C ₂ is transmitted by the transmitter 10 consisting of a variable resistor (VR), a Nandgeki (NA ₁ -NA ₂ ) and an ultrasonic transmitter (UST), and the frequency emitted by the ultrasonic transmitter of the transmitter 10 is transmitted When reflected by a person within range, an ultrasonic receiver (USR), a capacitor (C ₁ -C ₇ ), a resistor (R ₅ -R ₉ ), a transistor (Q ₁ ) and an inverter (IN ₁ ) receive the reflecting plate. Resistor (21) and Schmitt trigger circuit (22) consisting of diode (D ₁ -D ₃ ) resistors (R ₁₀ -R ₁₃ ), inverter (IN ₂ , IN ₃ ), and capacitor (C ₈ ) (R ₁₄ ), input (23) consisting of inverter (IN ₄ ), capacitor (C ₉ ), NAND gate (NA ₃ , NA ₄ ), relay (RLY), diode (D ₄ ), and resistor (R _15- R ₁₉ ) and the light emitting diodes (LED ₁ ) and transistors (Q ₂ , Q ₃ ) And an output sensing circuit 25 and a resistor comprising a drive unit 24, an inverter (IN ₅ , IN ₆ ), a noah gate (NO ₁ -NO ₃ ), a resistor (R ₂₀ , R ₂₁ ), and a capacitor (C ₁₀ ). (R ₂₂ ), malfunction prevention circuit 26 consisting of inverter (IN ₆ ), diode (D ₅ ) and NAND gate (NA ₅ -NA ₇ ), oscillation IC (IC ₃ , IC ₄ ) and resistor (R _22- R ₅₅ ), a receiver 20 comprising a counter circuit 27 composed of a capacitor C ₁₁ and a light emitting diode LED ₂ , and a transistor Q4 for supplying power to the transmitter 10 and the receiver 20. It consists of a resistance (R26) and capacitor (C _12, C ₁₃₎ and a Zener diode (ZD) and the switch (SW) and the diode (D _6, D ₇₎ and a transformer (T) power supply 30 consisting of a.

The present invention is signed for the operation, the oscillation IC (IC ₁ ) is oscillated by the time constant determined by the oscillation capacitor (C ₁ ) and the resistance (R ₁ , R ₃ ), the oscillation frequency (f ₁ ) is as follows.

The oscillation frequency of the distance control _{IC (IC 2) (f 2} ) is as follows.

Since the outputs of the oscillation ICs (IC ₁ , IC ₂ ) are the two inputs of the NAND gate (NA ₁ ), when the high state (H) signal is applied to both inputs, the output becomes the low state (L), and the NAND gate (NA _1). ), the output of which is applied to the NAND gate again (is applied to the NA ₂₎ a NAND gate (NA ₂₎ outputs a high state (H) and the ultrasonic transducer through a condenser for removing a direct current (C ₅₎ (UST) of. At this time, the capacitor (C ₂ , C ₃ ) is a capacitor for removing ripple, the variable resistor (VR) is to adjust the distance, the duty ratio is changed by the NAND gate (NA ₁ ) as the oscillation frequency changes.

The frequencies transmitted by the ultrasonic transmitter UST are arranged side by side with the ultrasonic receiver USR so that a frequency reflected by the human being within the transmission distance is inputted, and thus, the coupling capacitor C ₆ of the amplifying circuit 21 is input. The collector of the transistor Q ₁ , which is applied to the base of the differential amplification transistor Q ₁ , and constitutes a self bias circuit, outputs a signal amplified by the bias resistor R6 and the load resistor R ₇ , and is amplified. The signal is applied to the inverter IN ₁ through the coupling capacitor C ₇ and the resistor R8.

The resistors (R8, R9) and the inverter (IN1) are C-NOS (Complementary Metal Oxide Seminconductor) amplification circuits. The input and output of the inverter (IN1) are at the threshold voltage level. It is. The operation of the Schmitt trigger circuit 22 Input of inverter (IN ₂ ) is in the low state (L) When an abnormal voltage of, the output of the inverter IN ₂ goes to the low state L, and the voltage charged in the capacitor C ₈ by the resistor R ₁₂ discharges through the diode D ₃ . Therefore, when a high state is applied to the input of the Schmitt inverter (IN ₄ ) through the Schmitt inverter (IN ₁₃ ), it is input to the NAND gate (NA ₃ ) of the flip-flop of the NAND gate (NA ₃ , NA ₄ ) The output of the gate NA ₃ goes to the high state H and is applied to the transistors Q ₂ and Q ₃ connected to the Darlington to drive the relay RLY. The fan is controlled.

The output sensing circuit 25 for detecting the falling edge has no human within the transmission distance, and when the reflected wave does not occur, the inverter IN ₃ outputs a low state L and the NAND gate NA ₆ , NA _7. Since the flip-flop of the malfunction prevention circuit 26 constituted of < RTI ID = 0.0 > 1 < / RTI > outputs a high state H, the oscillation IC IC ₁ of the transmitter 10 starts oscillation and the counter circuit 27 counts.

The output of the counting circuit 27 has a NAND gate the output of the (NA _4, NA ₇₎ so applied is reset to the input of NAND gates (NA _4, NA ₇₎ of being in the low state (L), the transistor (Q _2, Q ₃ ) is turned off so that the relay (RLY) is turned off, so the TV or fan connected to the AC capacitor is turned off automatically.

When the NAND gate NA ₅ , the diode D ₅ , and the resistor R _{22 of the} malfunction prevention circuit 26 have no person within the transmission distance, and a person enters within the transmission distance, the oscillation IC (IC ₁ ) is oscillated. Is to stop the counter by moving the oscillation.

According to the present invention circuit as described above, if a person within the transmission distance is close, the frequency emitted from the transmitter is reflected by the person and input to the ultrasonic receiver of the receiver to automatically control the home appliance connected to the outlet of the present invention.

Claims (1)

An amplifying circuit for amplifying a signal received by a transmitter 10 for emitting a frequency to detect the presence of a person within a transmission distance and an ultrasonic receiver (USR) receiving a frequency reflected by a person when the person is within the transmission distance. A driver 24 for controlling the load connected to the AC outlet by applying the amplified signal 21 and the amplified circuit 21 through the Schmitt trigger 22 and the input sensing circuit 23 to drive the relay (RLY) ) And an output detecting circuit 25 for detecting a falling edge, and a receiving unit 20 including a malfunction preventing circuit 26 for stopping the oscillation by stopping the oscillation so that the count circuit 27 stops the counter when there is no person to prevent the malfunction. And a power supply unit 30 supplying a power voltage to the transmitter 10 and the receiver 20 through a constant voltage circuit after full-wave rectification of the applied power.