KR0116804Y1 - Triangle type waveform circuit - Google Patents

Abstract

The triangular waveform generation circuits such as trigger waves, sawtooth waves, and triangular waves for generating various types of triangular waves that can be used as sources of various measurement and simulations have a frequency of output waveforms according to the adjustment of the variable resistance of the time constant tank stage. A first oscillator having a voltage follower type for voltage input and output separation by voltage amplifying various triangular feedback waveform signals generated at the feedback terminal of the oscillator according to a changeable oscillator and the variable resistor for frequency adjustment; And a second operational amplifier having a variable resistor for adjusting the reference voltage for adjusting the level of the output waveform of the first operational amplifier.

Description

Triangular Waveform Generation Circuit

1 is a circuit diagram of the present invention

Explanation of symbols on the main parts of the drawings

10: timer IC20,30: operational amplifier

R ₁ -R ₈ : Resistor C ₁ , C ₂ : Capacitor

The present invention relates to a triangular waveform generation circuit that can generate a frequency waveform, such as a sawtooth waveform, a triangular waveform, a trigger waveform, etc., which can be generated only by a complicated and various steps.

Representative triangular waveforms include sawtooth waves, triangle waves, and truffle waves. Sawtooth waves are used for scanning in oscilloscopes, televisions, etc., triangular waves are used in the calculation of industrial instruments and digital conversion of various measuring instruments, and trigger waves are used in motor speed control and AC voltage control.

These triangular waveforms are also used as source inputs to be applied to various controls or simulations through their frequency changes.

However, in order to generate such various triangular waveforms, the circuit structure becomes complicated and requires many components, resulting in an increase in size of the oscillation circuit board, an increase in cost, and an increase in failure rate.

An object of the present invention is to provide a triangular waveform generation circuit capable of generating various triangular waveforms by using a well-known timer IC.

The technical core of the present invention is to extract the output from the feedback terminal of the timer IC 555, that is, the parasitic oscillation signal, amplify the voltage, and shift it to the required level.

Hereinafter, the present invention will be described based on the accompanying drawings.

1 is a circuit diagram of the present invention.

As referred to herein, a Vcc voltage is applied to the Vcc terminal 8 and the reset terminal 4 of the timer IC (NE 555) 10 constituting the oscillator, and the ground terminal 1 is grounded. . Connect a resistor (R ₃ ) between the tank terminals (6, 7). In addition, the terminal 7 is connected to the Vcc voltage applied in series through the resistors R ₁ and R ₂ , and the terminal 6 is connected to a grounded capacitor C ₁ , a feedback (set) terminal 2, and a voltage follower. Connect the input terminal (non-inverting terminal) of the first operational amplifier 20 to form a.

The feedback signal of the timer IC 10 voltage-amplified by the first operational amplifier 20 is distributed to the resistors R ₇ and R _{8 and} connected to the non-inverting terminal of the second operational amplifier 30. .

The inverting terminal of the second operational amplifier 30 is connected such that the Vcc voltage through the resistors R ₄ and R ₅ and the output feedback voltage signal through the resistor R ₆ are input.

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

When the Vcc voltage is input to the oscillation circuit of FIG. 1, a square wave is output from the output terminal 3 of the oscillation timer IC 10. As shown in FIG. Such square wave can adjust its frequency by adjusting the resistance R ₂ .

In addition, a parasitic signal for feedback is generated in the feedback terminal 2 of the timer IC 10, and the parasitic signal is transformed into various triangular waveforms according to the adjustment of the variable resistor R ₂ .

When the resistor R ₂ is adjusted, the parasitic signal of the terminal 2 actually appears to approach the triangular wave, the sawtooth wave, and the trigger wave, but the forces are very weak.

The output of the terminal 2 of the timer IC 10 is amplified by the first operational amplifier 20.

Since the first operational amplifier 20 has a voltage follower shape, the first operational amplifier 20 serves as a buffer amplifier for separating input and output.

As such, the triangular waveform output from the second operational amplifier 20 is distributed through the resistors R ₇ and R ₈ and input to the non-inverting terminal of the second operational amplifier 30.

In this case, since the Vcc voltage adjusted by the resistor R ₄ is provided as a reference voltage to the inverting terminal of the second operational amplifier 30, the waveform signal input to the non-inverting terminal is determined as the resistance R ₄ . The output is level shifted as much as possible.

On the other hand, the square wave signal output from the output terminal 3 of the timer IC 10 and the triangular waveform signal output from the output terminal of the second operational amplifier 30 are completely separated by the buffer amplifier (the first operational amplifier). As it becomes, it does not affect each other.

However, the waveform output from the terminal 3 of the timer IC 10 differs only in the frequency thereof according to the adjustment of the variable resistor R ₂ , but the parasitic signal obtained from the terminal 2 is deformed in its triangular waveform. The result is a triangular wave, sawtooth wave, and trigger wave, and the signal is amplified, level shifted, and output.

Therefore, by properly using the properties of the circuit of the present invention, it is possible to simultaneously obtain two or more various waveforms from one oscillation circuit.

The present invention as described above can generate a triangular oscillation signal required in any oscillation circuit without affecting the existing oscillation circuit.

In addition, the present invention can easily obtain a special type of waveform that can not be obtained from the general waveform generator circuit, it is possible to reduce the cost and size of the oscillator and to minimize the failure rate.

Claims (1)

A triangular wave from the feedback terminal is provided with a time constant tank terminal and a feedback terminal, and the first variable resistor for oscillation frequency adjustment is connected to the time constant tank terminal and a ground capacitor is connected to the feedback terminal to adjust the first variable resistor. An oscillator that outputs triangular signals such as sawtooth waves and trigger waves, A voltage follower having a first operational amplifier and voltage-amplifying and outputting a feedback waveform signal of various triangular shapes generated at the feedback terminal of the oscillator to separate input and output; A triangular wave comprising a second operational amplifier and an output level regulator for adjusting a level of an output waveform of the voltage follower by adjusting a second variable resistor for adjusting a reference voltage connected to the second operational amplifier; Triangular waveform generator circuits such as, sawtooth waves and trigger waves.