KR910006446Y1 - Electronic alarm device - Google Patents

Abstract

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Description

Electronic alarm

1 is a circuit diagram of the present device.

The present invention relates to an electronic alarm device for alerting a call or an alarm, and more particularly, to an electronic alarm device provided with an oscillation unit, a control unit, an output driver, and a piezoelectric speaker using a piezo effect.

Conventional electronic alarm device is generally composed of many elements or by applying an AC power to a normal buzzer by using an alarm device has a disadvantage in that the production cost is increased or the buzzer cannot be driven without the AC power.

In order to solve the above-mentioned disadvantages, this paper provides a control unit operating by charging and discharging of the condenser in the oscillation unit, an output driver controlled by the transistor of the controller, and a piezoelectric speaker driven by the output driver. It is not necessary to be restricted to the installation location by driving the device, and moreover, to provide an electronic alarm device that enables hybrid chip type processing by using piezoelectric speaker using piezo effect without using a general speaker or buzzer, thereby reducing manufacturing cost. For the purpose, with reference to the accompanying drawings will be described in detail the configuration and effect of the present invention.

According to FIG. 1, the device of the present design has an input I ₁ of an oscillation port a composed of NAND gates 1 and 2, resistors R ₁ and R ₂ , and capacitors C ₁ and C ₂ . the base of the output (O ₁₎ of the (c) type emitter connection, and at the same time the control unit (b) to (I ₁₎ emitter, but connected to the collector of the grounded transistor (Q _1), an oscillating portion (a) of the transistor (Q ₁₎ The outputs (O ₁ , O ₂ ) of the output driver (c) consisting of a transformer (T ₁ ) and transistors (Q ₂ , Q ₃ ) are connected to both ends of the piezoelectric speaker (SP), but the power supply (B ⁺ ) Is connected to the control unit (b), the output driving unit (c) and the oscillation unit (a) through a switch (SW), where reference numeral R _3- R ₇ is a resistor, C ₃ -C ₅ is a capacitor.

The operational effect of the proposed device configured as described above is that when the switch SW is turned on to apply the power source B ⁺ , the bias voltage is applied to the base of the transistor Q ₂ of the output driver C through the resistor R ₄ . As it is applied, transistor Q ₂ is turned on and transistor Q ₃ is also turned on.

Therefore, the current flows through the primary coils of the transistor Q ₃ and the transformer T ₁ , so that a voltage is induced in the secondary coil of the transformer T ₁ to drive the piezoelectric speaker SP. As the capacitors C ₁ and C ₂ are charged, the charge is charged to the capacitors C ₁ and C ₂ , so that “low” is applied to the base of the transistor Q ₁ of the control unit b. ₁ ) is off.

That is, the piezoelectric speaker SP is driven only during the time when the capacitors C1 and C ₂ are charged.

In addition, a certain amount of time is flowing capacitor as when charging is completed (C _1, C ₂₎ is a voltage charged in the capacitor (C _1, C ₂₎ discharge through the loop shown by the broken line (A) transistor (Q ₁₎ An "low" is applied to the base to turn off the transistor Q ₁ .

Therefore, the transistor (Q ₂₎ is turned off as the base potential of the transistor (Q ₂₎ is the ground potential transistor (Q ₃₎ are also turned off.

Accordingly, the voltage is not induced in the secondary coil of the transformer (T ₁ ) so that it is not driven by the piezoelectric speaker (SP). At this time, the counter electromotive force generated in the primary coil of the transformer (T ₁ ) is bypassed through the capacitor (C ₄ ). This prevents the transistor Q ₃ from being burned out.

In addition, when the discharge of the capacitors C ₁ and C ₂ is completed after a certain period of time, "low" is applied to the base of the transistor Q ₁ , and thus the transistor Q ₁ is turned off so that the transistor ( Q _2, Q ₃ ) is "on" and as described above, the piezoelectric speaker SP is driven and at the same time, the capacitors C ₁ and C _{2 of the} oscillation part a are charged with charges. (C _1, C _2), the there is electric charge is charged and the capacitor (C _1, C ₂₎ that is associated with each other in series, the combined capacitance of the oscillation unit (a) is very small, the time constant of charge and discharge is extremely short.

In other words, the capacitance of the capacitor (C _1, C ₂₎ that is associated in series, there is a very jugido a warning sound outputted through a piezoelectric speaker (SP) standing, so that the capacity is very small and short capacitor (C _1, C ₂₎ If it is variable, the period of the half-speed sound output through the piezoelectric speaker (SP) can also be changed.

In addition, the NAND gates ₁ and _{2 in the} oscillation part a prevent the reverse flow of voltages or discharge voltages applied to the capacitors C ₁ and C ₂ , and the capacitors C ₃ and C ₅ are smooth. This device can be installed and used in various places, such as entrance doors or blind directions, depending on the purpose of use.

As described above, this device can be installed without any restrictions in place by using DC power supply, and it can be hybrid chip type processing by using piezoelectric speaker using piezo effect. do.

Claims (1)

The NAND gate (1, 2) and the resistor (R _1, R ₂₎ and the condenser input of the oscillation (a) consisting of _{(C 1, C 2) (} I 1) is input (I ₁₎ of the output driver (c) Connect to the collector of the emitter ground transistor (Q ₁ ) of the control (b) at the same time, the output (O ₁ ) of the oscillator (a) is connected to the base of the transistor (Q ₁ ), and the transformer (T ₁ ) and The outputs Q ₁ and Q ₂ of the output driver C having transistors Q ₂ and Q ₃ are connected to both ends of the piezoelectric speaker SP, but the power supply B ⁺ is controlled by the switch SW. ) And an electronic alarm device connected to the output driving part (c) and the oscillation part (a).