KR890003171Y1 - Gate signal production circuit of convertor - Google Patents

Abstract

No content.

Description

Converter gate signal generation circuit

1 is a circuit diagram of the present invention.

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

* Explanation of symbols for main parts of the drawings

1: Phase shift part 2, 3, 5: Inverter part

4 synthesis unit 6 output unit

7: pulse generator T: transformer

OP ₁ -OP ₉ : OP Amp D ₁ -D ₄ : Diode

VR ₁ , VR ₂ : Variable resistors C ₁ , C ₂ : Condenser

R ₁ -R ₂₃ : resistance

The present invention relates to a gate signal generation circuit of a converter.

The converter is composed of SCR and gate circuit, which supplies the gate signal by comparing the input voltage with the control voltage.

(V: RMS value of line voltage, If the input power voltage changes, cosine wave and phase angle change, so that constant output voltage can always be obtained. ) Is 0 degrees, the control voltage (VC) meets the peak point of the cosine wave (see also E of Figure 2), and if the power supply voltage decreases, there is no intersection with the control voltage. There are cases where the output voltage is interrupted.

In order to prevent an error from occurring, the present invention puts a short positive pulse in the peak period of the cosine wave in case the power supply voltage decreases, thereby reducing the power supply voltage at a phase angle of 0 degrees. Even when the gate signal is generated by the converter's gate signal generation circuit, a linear relationship with the output voltage is established, and the delay angle can be controlled from 0 to 180, and the supply voltage fluctuates. It will be described in detail by the accompanying drawings to enable to perform a stable operation as follows.

1 is a circuit diagram of the present invention, the input power supply through the transformer (T) variable resistor (VR ₁ ) (VR ₂ ), capacitor (C ₁ ) (C ₂ ), resistor (R ₁ ) (R ₂ ) (R ₇ In the phase shift unit 1 in which R ₈ is composed of op amps op ₂ and op ₆ , resistors R _3- R ₅ , R _9- R ₁₁ , and op amps op ₂ , op ₆ At the same time, the inverter unit 2 is configured to be applied to the op amp op ₃ , and at the same time, the resistor R ₁₃ , the variable resistor VR ₃ and the diode D ₁ , D ₂ are applied to the op amp op ₄ . Compared to the reference voltage divided by the resistors R ₁₄ and R ₁₅ in the pulse generator 7 configured in parallel, the synthesizers are synthesized through the resistors R ₁₆ and R ₁₇ of the synthesizer 4. After the control voltage VC is compared at the op amp op ₉ of the output part 6 through the inverter part 5 composed of the op amp op ₈ , the inverter voltage is configured to be applied to the AND gate A ₁ . The output of (3) and the output of the oscillator 8 are configured such that a gate signal is generated through the AND gate A ₁ .

The transformer (T), two AC power to the primary side from the subject innovation constructed as (a second degree a Figure) is applied when the variable resistance (VR ₁₎ (VR ₂₎ and the capacitor (C _1), a time constant of (C ₂₎ and a resistor Depending on the voltage applied to (R ₁ ) (R ₇ ), the outputs of op amps (op ₁ ) (op ₆ ) are resistors (R ₃ -R ₅ ), (R ₉ -R ₁₁ ) and op amps (op ₂ ) The cosine waves having 90 satellites as shown in FIG. 2 (b) and (c) are output from the inverter unit 2 composed of (op ₆ ), and the variable resistance VR ₁ of the phase shift unit 1 (VR) ₂ ) and the phase constants of the capacitors C ₁ and C ₂ have phase intervals of 90 with each other.

The output of the Norwood point C is output through the inverter op amp op ₃ such that a square wave as shown in FIG. 2 (d) is output, and the front end output thereof is input to the pulse generator 7 so that the pulse generator (7) is compared with the power supply (Vcc) decomposed into the resistors (R ₅₁₄ ) (R ₁₅ ), and cosine by diode (D ₁ ) (D ₂ ), resistor (R ₁₃ ), and variable resistor that apply hysteresis characteristics. wave is positive (+) in the sub-in at the same time the inverter section (2) is applied to the to the op amp at the moment (op ₄₎ go to the pulse occurs, the resistance (R ₁₇₎ op amps (op ₇₎ through () The output of the op amp op ₆ is applied and synthesized in the synthesis unit 4, and the voltage applied to the inverting terminal (−) of the op amp op ₉ of the output unit 6 through the inverter unit 5. Comparing the set control voltage (VC) applied to the non-inverting terminal (+) by comparing the output as shown in Fig. 2 (e) with the op amp (op ₉ ) outputs such as (f) in Fig. AND Sites to which the gate signal generating such help (A ₁₎ at the same time Norwood point (D) and the output is identically applied when the AND gate (A _1), second-degree in (G) of the oscillator 8 is applied to.

That is, according to the present invention, the outputs of the phase shift unit 1, the op amps op ₁ and op ₅ have a phase difference of 90 ° to each other, and the cosine wave is selected as the variable resistor VR ₃ for adjustment and the inverter unit 2. After the output is synthesized, the gate signal is output compared with the constant control voltage. When the delay angle is 0 degrees, the intersection of the control voltage and the cosine wave cannot occur even if the power supply voltage decreases. At the same time, it is possible to adjust the voltage freely and to eliminate the cause of error. Since all three phases of the power supply voltage are used, it is more reliable than the circuit that generates six gate signals in one phase. There is also an effect that can perform a normal operation.

Claims (1)

Inverter unit (2) by connecting a phase shifter (1) configured to generate a phase difference of 90 degrees with a variable resistor (VR ₁ ) (VR ₂ ) and a capacitor (C ₁ ) (C ₂ ) on the secondary side of a transformer (T). Op amp (op ₄ ) connected with reference voltage divided by resistor (R ₁₄ ) (R ₁₅ ) through the diode (D ₁ ) (D ₂ ) and variable resistor (VR ₃ ) resistor (R ₁₃ ) The pulse generator 7 is configured to be compared with and configured to be output to the oo amplifier op ₇ through the resistors R ₁₆ and R ₁₇ of the synthesis unit 4, respectively. A gate signal generation circuit of a converter in which the output unit 6 is configured to be applied to the AND gate A ₁ simultaneously with the output of the oscillation unit 8 after comparing the control voltage VC with the op amp op ₉ .