JPS60229584A - Beam current limiting circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a beam current limiting circuit for a television receiver.

Structure of a conventional example and its problems FIG. 1 shows a beam current limiting circuit in a conventional television receiver. In the figure, a composite video signal is input to an input terminal 2 of a video chroma processing circuit 1 which is an integrated circuit. The demodulated video signal 2A/ signal is amplified by the transistor 3 to a sufficient extent to drive the color cathode ray tube 4, and is connected to the cathode of the color cathode ray tube 4. On the other hand, the high voltage of the color cathode ray tube 4 is taken out from the secondary winding of the flyback transformer 6, rectified by the diode 6, and applied to the anode of the color cathode ray tube 4. A beam current flows to the other terminal of the secondary winding from a high voltage +81 power supply (approximately 100 V) through resistors 7 and 8. A smoothing capacitor 9 and a capacitor 10 are connected to both ends of the resistor 8. The beam current can also be controlled by connecting a low voltage 10B2 power supply (about 6 to 12V) to a resistor of 1V.
It also flows through 1. A diode 12 connected to both ends of the resistor 11 clamps the beam current detection voltage to the 10B2 power supply and protects the input terminal 13 of the beam current limiting circuit in the video chroma processing circuit 1 from rising above the power supply voltage. It is.

Next, the operation of this circuit will be explained. When a bright signal is input to the video chroma processing circuit, the beam current increases. All of the beam current flows through resistor 7 and resistor 3.7 to 11 and flows into the anode of color cathode ray tube 4. The voltage at the input terminal 13 of the beam current circuit decreases due to the In pressure drop. The characteristics of the beam current limiting circuit in the video chroma processing circuit 1 are as shown in FIG. According to Fig. 2, when the beam 11°C current detection voltage begins to rise, the contrast of the output luminance signal of the video chroma processing circuit 1 immediately decreases, and when a brighter newsletter arrives, the beam current increases and the brightness increases. It shows a characteristic that decreases.

These characteristics are effective as a method to improve the DC transmission rate without sacrificing the impact of the screen! It is a characteristic. However, according to this method, the effect of contrast and brightness is uniquely determined within the video chroma processing circuit 1, so the disadvantage is that it is not possible to make changes later when you want to change the effect of contrast and brightness. There is.

OBJECTS OF THE INVENTION The present invention obviates these conventional drawbacks,
Simplified 1) The purpose is to make it possible to change the contrast effect of the beam current limiting circuit in a 1-fi configuration.

Structure of the Invention The beam current limiting circuit of the present invention has a diode 1 in the conventional example.
By connecting the cathode of 2 to +82 power supply, 10B2
Rather than clamping the voltage to the power supply, the beam current detection voltage is forced to a certain level by connecting two resistors in series between the 1B2 power supply and ground, and connecting the cathode to the midpoint of both resistors. It is characterized by being able to adjust the effect of contrast by clamping it to
The contrast effect of the beam current limiting circuit can be easily adjusted by changing its role.

DESCRIPTION OF EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. Second
The figure shows an example of a beam current limiting circuit according to the present invention.

In the figure, the composite video signal is input to an input terminal 14 of a video chroma processing circuit 13 integrated into the circuit. The demodulated video signals drive color cathode ray tubes 16 by transistors 6, . 7 and connected to the cathode of the color cathode ray tube 16. On the other hand, the high voltage of the color cathode ray tube 16 is taken out from the secondary winding of the flybank transformer 17, rectified by the diode 18, and applied to the anode of the color cathode ray tube 16. A beam current flows through a resistor 19 and a resistor 20 from a high-voltage 10B1 power supply (approximately 1oov) to the other terminal of the secondary winding. A smoothing capacitor 21 and a capacitor 22 are connected to both ends of the resistor 20 . The beam current also depends on the low voltage 10B2 power supply (6~12
It also flows through the resistor 23 from a voltage of about 'l/2. resistance 19
and a diode 26I''i whose anode is connected to the midpoint of the resistor 2o and the cathode is connected to the midpoint of the resistor 24 and the resistor 26 connected in series between the +B2 power supply and the ground, and the division ratio of the resistor 24 and the resistor 26. The beam current detection voltage is clamped to the potential determined by the beam current detection voltage.The anode of the diode 26 is connected to the input of the beam current limiting circuit in the video chroma processing F1 circuit 13.

Next, the operation of this circuit will be explained. Video chroma processing 1n
When a bright signal is input to the il path 13, B e,.

system current increases. Since all of the beam current flows through the resistors 19 and 23 and into the anode of the color cathode ray tube 16, the voltage at the input terminal 27 decreases due to the voltage drop across the resistors 19 and 23.

The characteristics of the beam current limiting circuit in the video chroma processing circuit 13 are as shown in FIG. 2 of the conventional example. However, according to this configuration, the initial value of the contrast, that is, the contrast when no beam current is flowing, is the contrast corresponding to the voltage value clamped to the power source obtained by dividing the 10B2 power source by the resistors 24 and 26. Compared to the conventional example, the beam current limiting circuit has less effect on contrast and relatively more effect on brightness.

Effects of the Invention As described above, according to the present invention, the clamp voltage of the beam current detection voltage is changed by changing the ratio of two resistors.
The contrast and brightness effects of the beam current limiting circuit can be set to 11 rh from outside the video chroma processing circuit.

[Brief explanation of the drawing]

71. Fig. 1 is an electrical connection diagram of the beam current limiting circuit in the conventional example, Fig. 2 is a characteristic diagram of contrast and brightness changes of the beam current limiting circuit of the video chroma processing N path, and Fig. 3
The figure is an electrical connection diagram of a beam current limiting circuit in one embodiment of the present invention. 13...Video chroma processing circuit, 16...Transistor, 16...Color cathode ray tube, 1 completion
... Flyback transformer, 18 ... High voltage rectifier diode, 19 ... Resistor, 20 ... Resistor, 21.22 ... Smoothing capacitor, 23.
...Resistance, 24...Resistance, 26...
・Resistance, 26... Clamp river diode, 27
...Input terminal of the beam current limiting circuit in the video chroma processing circuit. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2 Domu e5Z&t fre, K-

Claims (1)

[Claims] A first resistor and a second resistor connected in series between the power supply and ground.
a resistor, a diode having a cathode connected to the midpoint of the first resistor and the second resistor, and an anode connected to the input terminal of the beam current detection terminal, and the ratio of the first resistor to the second resistor is A beam current limiting circuit in which the operating point of beam current limiting can be changed by changing .