KR890000590Y1 - Switching noise preventing circuit - Google Patents

Abstract

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Description

Switching noise improvement circuit

1 is a circuit diagram of the present invention.

2 is a waveform diagram of each part of the present invention.

3 is a characteristic diagram showing the effect of switching noise on the screen.

* Explanation of symbols for main parts of the drawings

1: Input terminal 2: Output terminal

3: triangle wave generator 4: inverting circuit

5: Adjustment circuit I 6: Adjustment circuit II

IC _{1 to} IC ₄ : OP amplifier IC ₅ : AND gate

IC ₆ : Inverter R ₁ to R ₆ : Resistance

VR _{1 to} VR ₃ : Variable resistor

The present invention relates to a switching noise improvement circuit which draws a switching noise portion of a switching accumulator during a horizontal blanking period to remove noise by not affecting a video signal.

In most video cameras, a switching regulator is used to supply high pressure to the image tube and the coil. However, the switching noise (ringing phenomenon) generated at the time causes a video signal including a noise part on the left side of the screen.

In other words, when the horizontal drive pulse or the horizontal synchronizing signal as shown in FIG. 3 (b) is used as the switching pulse of the switching accumulator, when switching noise (ringing phenomenon) occurs at the high voltage output terminal, the video signal is viewed on the monitor. As shown in FIG. 3 (a), the noise due to the ringing phenomenon appears on the left side of the screen 10, resulting in deterioration of image quality.

In view of this, the present invention reduces the pulse width of the switching regulator so that the ringing phenomenon is inserted into the horizontal blanking period so as not to affect the screen.

In other words, the present invention corresponds to a high-pressure regulator, and by inducing the ringing phenomenon caused by the discontinuity of the pulse within the horizontal blanking period to achieve the effect that there is no noise on the screen of the monitor.

However, the present invention is used in a switching regulator, but the power is stabilized by adjusting the pulse width as shown in FIG. 3 (c).

When described in detail by the accompanying drawings as follows.

1 is a circuit diagram of the present invention, the horizontal synchronous signal of the input terminal 1 is applied to the one terminal (-) of the op amp (IC ₁ ) with the other terminal (+) grounded through the resistor (R ₁ ) configured to be fed back to the triangular wave generation part (3), the output of the amplifier (IC _1), the capacitor (C ₁₎ and via a variable resistor (VR ₁₎ which determines the triangular wave curve one terminal of the operational amplifier (IC ₁₎ () do.

And the output of the op amp (IC ₁ ) is connected to the other terminal (+) is applied to the one terminal (-) of the grounded op amp (IC ₂ ) through the resistor (R ₂ ) and the output of the op amp (IC ₂ ) The inverting circuit 4 is configured such that the op amp IC ₂ is fed back to one terminal (-) through the resistor R ₃ .

In addition, the operational amplifier (IC ₂₎ of the output resistance (R ₄₎ an after applied and the operational amplifier has resistance (R ₅₎ and a variable resistor the output side of the (IC ₃₎ to one terminal (+) of the operational amplifier (IC ₃₎ ( VR ₂ ) is connected and the contact of the resistor (R ₅ ) and the variable resistor (VR ₂ ) is connected to one terminal (-) of the op amp (IC ₃ ) to configure the adjustment circuit I (5).

And an operational amplifier (IC _3), the output operational amplifier (IC ₄₎ connected to a resistor (R ₆₎ and a variable resistor (VR ₃₎ to the output side of the operational amplifier (IC ₄₎ connected to be applied to one terminal (+) of the After that, the adjusting circuit II (6) is configured such that the connection point of the resistor R ₆ and the variable resistor VR ₃ is connected to the other terminal (-) of the op amp IC ₄ . At this time, the variable resistors VR ₂ and VR _{3 of the} adjustment circuits I and II (5) and 6 adjust the respective output pulse widths.

In addition, the output of the adjustment circuit Ⅱ (6) is to be applied to the input side of the input terminal (1) a horizontal sync signal and the adjusting circuit II (6), the AND gate (IC ₅₎ whose output is applied to the post through the inverter (IC ₆₎ It is configured to be output to the output terminal (2). FIG. 2 shows the waveform diagram of each part of the present invention, and FIG. 3 is a characteristic diagram showing the effect of switching noise on the screen.

In the present invention configured as described above, how the switching noise is improved will first be described with reference to FIG. 3, and the effects of the present invention will be described with reference to FIG. 1 and FIG. That is, when ringing phenomenon occurs in the high voltage output terminal when the horizontal synchronization signal is used as the switching pulse of the switching regulator as shown in FIG. 3 (b), the left side of the screen 10 as shown in FIG. This causes noise to burn, resulting in deterioration of image quality.

Therefore, in the present invention, the pulse width of the horizontal synchronizing signal is reduced as shown in FIG. 3 (c), and then the ringing phenomenon is inserted into the horizontal blanking period so that the switching noise is not affected on the screen.

That is, as shown in FIG. 3 (c) of the present invention, the ringing phenomenon is drawn into the horizontal blanking period, so that the screen 10 has an effect as if there is no switching noise.

The operation and effect of the present invention will be described with reference to FIG. 1 as a circuit diagram of the present design and with reference to the waveform diagram of FIG. 2 as follows.

When the horizontal synchronous signal as shown in FIG. 2 (a) is input to the input terminal ₁ , it is applied to one terminal (-) of the operational amplifier IC ₁ through the resistor R ₁ of the triangular wave generator 3 and at this time, The other terminal (+) of the amplifier (IC ₁ ) is grounded, and the output of the op amp (IC ₁ ) is connected to the one terminal (-) through the capacitor (C ₁ ) and the variable resistor (VR ₁ ) that determines the curve of the sensed wave. By returning to the final output of the triangular wave generator 3, triangular waveforms as in FIG. 2 (b) are generated.

At this time, the curve of the triangular wave of the triangular wave generator 3 can be adjusted by adjusting the variable resistance VR ₁ .

The triangular wave output of the triangular wave generator 3 is applied to one terminal (-) of the op amp IC ₂ having the other terminal (+) grounded through the resistor R ₂ of the inverting circuit 4. The output after 4) is to output a triangular waveform as shown in FIG. 2 (c).

In other words, the inversion circuit 4 inverts the output of the triangular wave generator 3 as shown in FIG. 2B to output the triangular waveform as shown in FIG.

This waveform is applied to one terminal (+) of the operational amplifier IC ₃ through the resistor R ₄ of the adjustment circuit I (5), and the output of the operational amplifier IC ₃ is connected to the resistance R ₅ connected to the output side. ) and then through a variable resistor (VR ₂₎ resistance (R ₅₎ and the other terminal (the operational amplifier (IC ₃₎ at the connection point of the variable resistor (VR ₂₎ - such as help) FIG. 2 (d) by be applied to the The waveform will be output. At this time, the width of the output pulse is adjusted by varying the variable resistor VR ₂ . Accordingly, by adjusting the variable resistor VR ₂ , the output video signal can be adjusted so that noise components due to switching noise are not mixed. The output of the adjustment circuit I 5 is applied to the input side of the AND gate IC ₅ .

In addition, the output of the inverting circuit (4) is applied to one terminal (+) of the op amp (IC ₄ ) of the control circuit II (5), and the output of the op amp (IC ₄ ) and the resistor (R ₆ ) connected to the output side waveform, such as a second-degree (D ') by be applied to - then through a variable resistor (VR ₃₎ resistance (R ₆₎ and the other terminal of the operational amplifier (IC ₄₎ at the connection point of the variable resistor (VR ₃₎ () Causes output. At this time, the width of the output pulse is adjusted by varying the variable resistor VR ₃ .

That is, the output of the inverting circuit 4 is input to one terminal of the op amp IC ₄ of the adjusting circuit II 6 and the output of the op amp IC ₄ is the resistor R ₆ and the variable resistor VR. ₃ ) is output through the output pulse is moved to the left and right by the variable of the variable resistor (VR ₃ ) is a waveform such as the second (d ') is output.

In addition, a waveform such as the second (d ') diagram adjusted by varying the variable resistor VR ₃ in the adjusting circuit II (6) is inverted through the inverter IC ₆ and applied to the input side of the AND gate IC ₅ . do. Therefore, on the input side of the AND gate IC ₅ , a waveform as shown in FIG. 2 (d ′), which is the output of the adjustment circuit I (5), and a waveform as shown in FIG. The waveform inverted through the inverter IC ₆ and the waveform as shown in FIG. 2 (a) applied to the input terminal 1 are applied. Therefore, the pulse shown as hatched in FIG. 2 (e) is output to the output side of the AND gate IC ₆ during the period in which the three input waveforms are applied at the high level.

That is, the output waveform of the AND gate IC ₆ is applied to the switching pulse of the switching accumulator, and switching noise appears on the left side of the screen due to the ringing phenomenon when the horizontal synchronization signal as shown in FIG. 2 (a) is applied to the switching pulse. In order to solve the problem, the output waveform of the AND gate IC ₆ becomes a waveform in which the width of the pulse is reduced, thereby bringing the ringing phenomenon into the horizontal blanking period so that the switching noise appears to be absent.

The width of the switching pulse output from the AND gate (IC ₅ ) can be adjusted by varying the variable resistors VR _{1 to} VR _{3. That} is, the width of the switching pulse changes the ringing phenomenon to the variable resistors VR _{1 to} VR ₃ . This means that the variable is drawn into the horizontal blanking period.

As described above, the present invention reduces the width of the switching pulse so that the ringing phenomenon is inserted within the horizontal blanking period, thereby achieving the effect that there is no switching noise on the screen, thereby improving the noise ratio (S / W) of the video camera. At the same time, image quality can be improved and quality can be enhanced.

Claims (1)

A triangular wave generator 3 for applying a horizontal synchronizing signal to the op amp IC ₁ and outputting a triangular wave whose slope is changed by the variable resistor VR ₁ ; and an inversion for inverting the triangular wave output to the op amp IC ₂ . An adjustment circuit for applying the output of the circuit 4 and the inverting circuit 4 to the op amp IC ₃ (IC ₄ ) to output a pulse whose pulse width is adjusted to the variable resistors VR ₂ and VR ₃ . And gates applied after the outputs of I, II (5) (6) and the horizontal synchronizing signal and the adjusting circuit II (5) are applied and the output of the adjusting circuit I (6) is inverted in the inverter IC ₆ . IC ₅ ) switching noise improvement circuit.