JPH0771192B2 - High voltage circuit - Google Patents

Description

The present invention relates to a high voltage circuit such as a television.

[Conventional technology]

Conventionally, as a high-voltage circuit for a television or the like, a circuit that shares a high-voltage generating circuit and a horizontal deflection circuit for the purpose of cost reduction and power saving, and a high-voltage stabilizing circuit that controls a blanking period is known. . (JP-A-59-44177, JP-A-59-104
No. 864).

[Problems to be solved by the invention]

The above-mentioned prior art does not take into consideration the case where the left and right pincushion distortion correction is performed by a method of modulating the power supply voltage of the horizontal deflection circuit, and the high voltage stabilization control and the distortion correction control cannot be operated independently. was there.

An object of the present invention is to eliminate the above-mentioned drawbacks of the prior art and to provide a high voltage circuit capable of independently operating the distortion correction control and the high voltage stabilization control.

[Means for Solving the Problems] The above object is to provide an addition voltage source at the secondary low-voltage side terminal of the flyback transformer and control the addition voltage source with a high-voltage detection signal and a distortion correction signal. To be achieved.

[Action]

The addition voltage source provided at the secondary low-voltage side terminal of the flyback transformer is controlled so that the output voltage of the addition voltage source rises when the high voltage is lowered by the high-voltage detection signal, and stabilizes the high voltage. Also, the output voltage of the added voltage source is modulated by the distortion correction signal, and the operation of canceling the modulation of the high-voltage output voltage by the power supply voltage modulation for distortion correction is performed on the secondary side.

As described above, the distortion correction control by the power supply voltage modulation and the high voltage stabilization control can be operated independently.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 and 4.

In FIG. 1, 1 is a switching pulse input terminal, 2
Is a horizontal deflection output transistor, 3 is a damper diode, 4 is a resonance capacitor, 5 is a horizontal deflection coil, 6 is a flyback transformer, 7 is a high-voltage rectifier diode, 8 is a high-voltage output terminal, 9 and 10 are high-voltage dividing resistors, 11 Is a coupling capacitor, 12 is an addition voltage source control circuit, 13 is an addition voltage source, 14 is a reference voltage source, 15.16 is a capacitor, 17 is a power supply modulation circuit, 18
Is an amplifier circuit, 19 is a power input terminal, and 20 is a distortion correction signal input terminal.

Next, the operation will be described with reference to the drawings.

When a switching pulse (normally a horizontal synchronizing pulse) is input to the switching pulse input terminal 1, the horizontal deflection output transistor 2 performs a switching operation, and a sawtooth current flows through the primary side of the horizontal deflection coil 5 and the flyback transformer 6. A high voltage is induced on the secondary side. The high voltage is rectified by the rectifier diode 1 to obtain the voltage V ₂ , and the high DC voltage E _HV is output to the high voltage output terminal 8 in the form of being added to the output voltage Va of the added voltage source 13. The DC high voltage E _HV output to the high voltage output terminal 8 is divided by the resistor 9.10 and added as one input of the added voltage source control circuit 12. As the other input of the summing voltage source control circuit 12, a reference voltage source
The reference voltage from 14 is applied, and the addition voltage source control circuit 12 performs negative feedback control of the addition voltage source 13 so that the two input voltages become equal, and the DC high voltage output from the high voltage output terminal 8
E _HV is constantly stabilized regardless of changes in high-voltage load.

The power supply modulation circuit 17 performs distortion correction such as left and right pincushion distortion correction. The power supply voltage E _B input to the power supply input terminal 19 is converted to a distortion correction signal such as a vertical parabolic signal input to the distortion correction signal input terminal 20. By modulating as shown in FIG. 4 (a),
The sawtooth wave current I _H flowing through the horizontal deflection coil 5 is modulated as shown in FIG. 4 (b).

The flyback pulse Vc is modulated by this power supply voltage modulation as shown in FIG.
The high voltage V ₂ generated on the secondary side is also modulated by the distortion correction signal. Since this high voltage modulation cannot be sufficiently corrected in terms of response speed by the negative feedback control, in the present invention, the distortion correction signal is amplified to an appropriate signal level by the amplifier circuit 18 and then added voltage is added via the coupling capacitor 11. The source control circuit 12 is added as one human power. As a result, the output voltage Va of the addition voltage source 13 is modulated by the distortion correction signal as shown in FIG. 4 (e),
A constant voltage E _HV is obtained by canceling the modulation of the high voltage V ₂ .

FIG. 2 shows a specific circuit example of the power supply modulation circuit 17. In FIG. 2, 21.22.27 is a low resistance device, 23 is a power supply control transistor, 24 is a power supply modulation output terminal, 25 is a transistor, and the power supply control transistor 23 is supplied by the distortion correction signal input to the distortion correction signal input terminal 20. The power supply is modulated by changing the base voltage of.

FIG. 3 is a detailed circuit diagram of the high voltage circuit of the present invention shown in FIG. In FIG. 3, the addition voltage source 13 is a switching power supply, and the switching transistor 32, the output transformer
30, rectifying diode 29, etc. When a switching pulse is input to the switching pulse input terminal 34, the switching transistor 32 performs a switching operation and a high voltage is induced on the secondary side of the output transformer 30. This high voltage is rectified by the rectifying diode 29, and the added voltage source output voltage is applied from the added voltage source output terminal 28 to the secondary side low voltage side terminal of the flyback transformer 6. Since the output voltage of the addition voltage source 13 is proportional to the power supply voltage applied to the power supply input terminal 33 for the addition voltage source, the addition voltage control circuit 12 is a circuit that controls the power supply voltage applied to the terminal 33. The added voltage source control circuit 12 includes an error amplification differential transistor 41.42, a power supply control transistor 40, and the like, and amplifies the output voltage of the variable resistor 50 provided at the emitter of the high voltage detection transistor 49 of the emitter follow and the distortion correction signal. Coupling capacitor from circuit 18
The added voltage with the voltage applied via 11 and the resistor 38,
The river voltage source 13 is controlled to stabilize the high voltage so that the output voltages of the reference voltage source 14 including the Zener diode 39 become equal.

The control transistor 40 uses a common emitter type whose control range of the collector voltage is wide. Also, the addition voltage source
The frequency of the switching pulse that drives 13 need not be the same as the horizontal deflection frequency.

The amplifier circuit 18 is a grounded-emitter inverting amplifier circuit including a transistor 47. The amplifier circuit 18 inverts and amplifies the distortion correction signal applied to the distortion correction signal input terminal 20 and adds the distortion correction signal to the base of the error amplification differential transistor 42. As a result, the added voltage control circuit 12 is modulated with the distortion correction signal, and the output voltage of the added voltage source 13 is modulated. Since the modulation of the output voltage of the addition voltage source 13 is configured to cancel the modulation of the high voltage generated on the secondary side of the flyback transformer by the distortion correction power supply modulation circuit 17, the distortion correction control and the high voltage are performed. The stabilization control can be operated independently.

[Effects of the Invention] As described above, according to the present invention, when the distortion correction method of the power supply voltage modulation method is adopted in the deflection high voltage integrated circuit, the distortion correction control and the high voltage stabilization control can operate independently. There is an effect that a high voltage circuit having excellent operation stability can be provided at a low price.

[Brief description of drawings]

1 is a circuit diagram of a high voltage circuit showing an embodiment of the present invention, FIG. 2 is a concrete circuit diagram of the power supply modulation circuit in FIG. 1, and FIG. 3 is a concrete circuit diagram of FIG. FIG. 4 is a waveform diagram for explaining the operation of FIG. 3 …… Damper diode, 4 …… Resonance capacitor, 5 ……
Horizontal deflection coil, 7 ...... High voltage rectifier diode, 8 ...... High voltage output terminal, 9.10 ...... High voltage dividing resistor, 11 …… Coupling capacitor, 13 …… Adding voltage source, 14 …… Reference voltage source, 17 …… Power supply Modulation circuit, 18 …… Amplification circuit, 19 …… Power input terminal, 20 …… Distortion correction signal input terminal, 23 …… Power control transistor, 25 ……
Transistor, 30 …… Output transformer, 47 …… Transistor, 49 …… High voltage detection transistor, 51 …… Capacitor, 52
……diode.

Claims (1)

[Claims] 1. A deflection / high voltage integrated high-voltage circuit for obtaining a high voltage by boosting a pulse voltage generated during a blanking period of a horizontal deflection circuit composed of a horizontal output transistor, a damper diode, a resonance capacitor, and a horizontal deflection coil by a flyback transformer. In, in addition to providing a power supply voltage modulation circuit for performing distortion correction by inputting a distortion correction signal, an additional voltage source is provided at the secondary side low voltage side terminal of the flyback transformer to detect the high voltage output voltage of the flyback transformer. A high-voltage circuit comprising a control circuit for controlling the added voltage source according to the output signal of the circuit and the distortion correction signal.