KR0137970Y1 - DC-AC converter - Google Patents

Abstract

The present invention relates to a DC-AC converter, and a conventional DC-AC converter uses a low voltage side of a collector load resistor desine heater transformer of an unstable multivibrator. The oscillation output is small, so it is difficult to extract power and the efficiency is poor. In order to solve this problem, the present invention generates a square wave pulse from the power supply voltage, and stabilizes the oscillation frequency by using the square wave pulse and implements a sine wave with high efficiency and devises a DC-AC converter which can obtain high output from the transformer. will be.

Description

DC-AC converter

1 is a circuit diagram of a conventional DC-AC converter.

2 is a circuit diagram of a DC-AC converter of the present invention.

3 is a waveform diagram of each part in FIG. 2;

* Explanation of symbols for main parts of the drawings

10: pulse generator 20: sine wave converter

30: DC bias unit 40: Darlington amplifier unit

IC: Timer integrated device T ₁ , T ₂ : Transformer

Amp ₁ ~ Amp ₂ : Amplifier TR: Transistor

VR ₁ , VR ₂ : Variable resistor I ₁ ~ I ₃ : Inverter

The present invention relates to a DC-AC converter for converting a DC power source (AC) into an AC power source (AC), and more particularly, to a DC-AC converter that can accurately and efficiently adjust an output waveform using a sine wave.

1 is a circuit diagram of a conventional DC-AC converter, in which a power supply terminal Vcc is connected to a base of transistors TR ₁ and TR ₂ through resistors R ₁ and R ₂ , respectively. The connection point is connected to the collectors of the transistors TR ₁ and TR ₂ via capacitors C ₁ and C ₂ , respectively, and the collectors of the transistors TR ₁ and TR _{2 are} transferred to the transformer T ₁ . It is configured to connect to the primary side of to obtain an AC power source AC from the secondary side of the transformer T ₁ , and the power supply terminal Vcc is connected to the intermediate terminal of the transformer T ₁ .

Referring to the operation of the conventional circuit configured as described above are as follows.

Since the conventional circuit operates as an unstable multivibrator, the transistor TR ₁ is turned on, the transistor TR ₂ is turned off, the transistor TR ₁ is turned off, and the transistor TR ₂ is turned on alternately. .

That is, the transistor (TR ₂₎ is turned on to being turned off the moment the capacitor by being (C ₁₎ a discharge transistor (TR ₁₎ and a transistor (TR ₁₎ is discharged is turned off the moment the capacitor (C ₂₎ being a transistor (TR ₂₎ Turn on.

Accordingly, the collector output of the transistors TR ₁ and TR ₂ outputs symmetrical square waves equal to the oscillation frequency of each of the resistors R ₁ and R ₂ and the capacitor C ₁ and C ₂ so that the transformer T by being applied to the primary side of the ₁₎ to generate a high voltage alternating current power to the secondary side of the transformer (T _1).

This conventional DC-AC converter uses the low voltage side of the transformer instead of the collector load resistance of the unstable multivibrator. The higher the secondary voltage of the transformer is, the higher the base resistance R ₁ (R ₂ ) is oscillated. There is a problem in that the output is small, it is difficult to extract the power and the efficiency is poor.

In order to solve such a problem in the related art, the present invention devised a DC-AC converter capable of achieving high output by implementing a stable sinusoidal wave with stable oscillation frequency and will be described in detail with reference to the accompanying drawings.

2 is a DC-AC converter according to the present invention, which generates pulses of 50 Hz to 60 Hz according to the time constants of the resistor R ₂ and the capacitor C ₁ from a power supply voltage (+ Vcc) applied thereto. A sinusoidal wave converter 20 for converting the pulses of the pulse generator 10 through the pulse generator 11 and the inverters I ₂ and I ₃ into sinusoidal waves, respectively, and the sinusoidal wave converter 20 DC bias unit 30 for adjusting the DC bias of each of the sinusoidal output signal output from the), a multi-arling tone amplifier 40 for amplifying the output signal of the DC bias unit 30 to a high output, and each It is composed of a transformer (T ₂ ) to receive the output signal of the multi-arlingtone amplifier 40 of the primary side to obtain an AC power source (AC) on the secondary side.

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

When the power is turned on and the power supply voltage (+ Vcc) is supplied to the timer integrated device IC of the pulse generator 10, the timer integrated device IC is a time constant of the resistor R ₂ and the capacitor C ₁ . According to Figure 3a, a pulse of 50 Hz to 60 Hz is generated and the pulse is positively symmetrical with each other as shown in FIG. 3b through one inverter I ₁ and two inverters I ₂ and I ₃ . Make a wave

The square waves B and B ', which are symmetrical in this manner, have divided voltages of the resistors R ₆ (R ₇ ) and the resistors R _6' (R _{7 '} ) as reference voltages at the inverting terminal (-). Through the amplifiers Amp ₁ and Amp ₂ of the sinusoidal wave converter 20, the sinusoidal waves C and C 'are more efficiently converted as shown in FIG. 3C. In order to improve the efficiency of low current, the DC bias unit 30 adjusts the variable resistance VR ₁ (VR ₂ ) to adjust the DC bias through the amplifiers Amp ₃ and Amp ₄ , respectively, and then the amplifier Amp ₅ ( Amp ₆ ) outputs a sine wave as shown in FIG.

The output signal D and D 'of the DC bias unit 30 as shown in FIG. 3E is a Darlington amplifier 40 composed of transistors TR ₃ (TR ₄ ) and (TR _{3 ′} ) (TR _{4 ′} ). Are each amplified to high power and then applied to the primary side of transistor T ₂ .

Accordingly, the transformer T ₂ obtains an AC voltage AC corresponding to the primary side applied voltage to the secondary side.

As described above, the present invention converts a direct current power source into an alternating current power source, thereby increasing the efficiency by implementing a sine wave and controlling the direct current bias to obtain a current and a high output.

Claims (1)

Pulse generator 10 for generating pulses from power supply voltage (+ Vcc) according to time constants of resistor R ₂ and capacitor C ₁ , inverters I ₁ and inverters I ₂ and I ₃ . A sinusoidal switching unit 20 for converting the output pulses of the pulse generator 10 into sinusoidal waves respectively, and a DC bias unit for adjusting a DC bias of each sinusoidal output signal output from the sinusoidal wave converting unit 20. 30, a multi-arling tone amplifier 40 for widening the output signal of the DC bias unit 30 to a high output, and an output signal of each of the multi-arling tone amplifiers 40 is applied to the primary side; DC-AC converter, characterized in that composed of a transformer (T ₂ ) to obtain an AC power source from the vehicle side.