KR0116714Y1 - Flyback transformer - Google Patents

Abstract

The present invention relates to a FBT using a bleeder resistor for a focus-screen as an anode load resistor, and a plurality of secondary coils for boosting the voltage applied to the primary coil to a desired high voltage, and In the FBT having a plurality of rectifying means connected in series between the secondary coils to rectify the high pressure pulse, a smoothing means for making the rectified high pressure pulse to DC high pressure, and a main bleeder resistance, the main bleeder resistance is A vertical focus bleeder resistor and a horizontal focus bleeder resistor are connected in parallel, and one end of the vertical focus bleeder resistor is connected to a high voltage feedback terminal connected to a high pressure control device, and a parallel connection node of the horizontal focus bleeder resistor is provided. And a bleeder resistor is connected between the and the anode terminals, and according to the FBT of the present invention, Instead of the conventional FBT used to detect the effect of the anode bounce resistance through the main bleeder resistor using the focus-screen bleeder resistor to reduce the pack size of the FBT to facilitate the mounting of resistance on the PCB, There is an effect of reducing the manufacturing cost of the FBT.

Description

Flyback transformer

1 is a circuit configuration diagram of a conventional FBT,

2 is a circuit diagram of an FBT according to the present invention.

Explanation of symbols on the main parts of the drawings

Q11, Q21: Transistor Dd: Damping Diode

C11, C21: resonant capacitor C12, C22: smoothing capacitor

L11 ~ L19, L21 ~ L29: Coil

R22: Bleeder resistor R23 ~ R28: Distribution resistor

VR21 ~ VR23: Variable resistor

The present invention relates to a flyback transformer (FBT), and more particularly to an FBT using a bleeder resistor for a focus-screen as an anode load resistor.

FBT is a device that supplies high pressure to the CRT (Cathod Ray Tube) of the receiver or monitor. It should supply high pressure of 9 ~ 12KV for black and white and 20 ~ 26KV for color. The high voltage waveform supplied to the receiver or the monitor in the FBT is a pulse wave, which is generated during charging and discharging of the FBT resonant capacitor. That is, as shown in FIG. 1 of the conventional FBT circuit diagram, the resonant capacitor C11 connected in parallel with the primary coil L11 of the FBT and the deflection yoke Dy charges and discharges a power supply voltage in accordance with the switching operation of the transistor Q11 to generate a sawtooth current (deflection). This charge and discharge causes high voltages to be induced on many of the third coils L12 and L13 to obtain the B + voltage required for a television or a monitor.

The deflection current generated in the primary coil L11 of the FBT is composed of the collector current of the transistor Q11, the diode current of the damper diode Dd, the resonant capacitor C11, and the oscillation current of the deflection yoke Dy. The FBT uses this deflection current as an input source, and the pulse wave generated in the primary coil L11 of the FBT is boosted by the secondary coils L14 to L19 by the discharge voltage, and the high voltage pulse is a high voltage rectified diode. After rectified by D11 to D16, the rectified pulse wave is smoothed by the capacitance of the capacitor C12 and the capacity of the CRT of the FBT itself to form a DC high voltage.

The FBT consists of a primary coil to which the switching voltage is applied, and a secondary coil to boost the voltage applied to the primary coil to output a high pressure. The high voltage change of the FBT is applied to the anode of the receiver or the monitor CRT. It is desirable to change the high pressure of the FBT and change the speed of the electron beam attracted by the anode, thereby changing the amplitude size of the screen.

In the conventional FBT circuit, R2 is used as a load resistance of the anode voltage, and a high voltage feedback circuit is connected to an external terminal for outputting the anode voltage, and according to the current change of the anode generated from the CRT, that is, the brightness of the screen. It is to stabilize the fluctuating high pressure.

The anode load resistor R2 has a resistance value of about 600 mA ± 20% and has a large size, and when the resistance size is increased, the pack size of the FBT becomes large and the PCB (Printed Circuit) In the case of inserting the high resistance into the board, it takes up a lot of space, thereby reducing the effective area of the PCB, and also increasing the cost of manufacturing and manufacturing time.

The purpose of the present invention is to solve the above-mentioned problems of the prior art, and to reduce the pack size of the FBT and increase the effective area of the PCB to reduce the manufacturing cost, the focus-screen block as the load resistance of the anode voltage. It is to provide an FBT using a leader resistor.

A characteristic of the preferred embodiment of the FBT according to the present invention for achieving the above object is, between the primary coil, a plurality of secondary coils for boosting the voltage applied to the primary coil to the desired high pressure, and the secondary coil In a FBT having a plurality of rectifying means for rectifying a high pressure pulse connected directly to the rectifier, a smoothing means for making the rectified high pressure pulse into a direct current high pressure, and a main bleed resistance, the main bleeder resistance is a vertical focus bleeder. A resistor and a horizontal focus bleeder resistor are connected in parallel, one end of the horizontal focus bleeder resistor is connected to a high voltage feedback terminal connected to a high pressure control device, and one end of the vertical focus bleeder resistor is connected to a ground terminal. One bleeder resistor is connected between the parallel connection node of the horizontal and vertical focus bleeder resistors and the anode terminal.

In the above configuration, the horizontal focus bleeder resistor is composed of a plurality of high-voltage distribution resistors and a plurality of variable resistors for fine adjustment of the horizontal focus (FH) and the screen (G2) voltage of the CRT are connected in series. The vertical focus bleeder resistor is composed of a plurality of high voltage distribution resistors and a variable resistor for fine adjustment of the vertical focus (FV) voltage of the CRT.

Hereinafter, with reference to the accompanying drawings will be described in more detail the FBT according to the present invention.

2 is a schematic diagram of the FBT circuit of the present invention. Looking at the configuration of the FBT according to the present invention with reference to the drawings, the primary coil L21, a plurality of secondary coils L24 to L29 for boosting the voltage applied to the primary coil L21 to the desired high pressure, and the secondary coil Multiple rectifying diodes D11 to D16 connected in series between L24 to L29 respectively to rectify the high voltage pulse, a smoothing capacitor C22 for smoothing the rectified high pressure, and a horizontal focus bleeder resistor 31 and R27 consisting of R23 to R26 and VR22. , Vertical focus bleeder resistor 32 consisting of R28 and VR23 are connected in parallel, and one end of the horizontal focus bleeder resistor 31 is connected to a high pressure feedback terminal for returning a high pressure to the high pressure change control device, and the vertical focus bleeder One end of the resistor 32 is connected to the ground terminal, and a main bleeder resistor having one bleeder resistor R22 connected between the parallel connection node of the horizontal and vertical focus bleeder resistors 31 and 32 and the anode terminal. It can be seen that it consists of 30.

The internal circuit configuration of the FBT according to the present invention is almost the same as the conventional FBT, except that the use of the anode voltage load resistor is excluded by changing the design of the main bleeder resistor. Therefore, the circuit operation of FIG. 2, which is the FBT circuit diagram of the present invention, is similar in operation to most of the conventional FBT circuit. That is, the resonant capacitor C21 connected in parallel with the primary coil L21 of the FBT generates a sawtooth current (deflection current) by charging and discharging the power supply voltage according to the switching operation of the transistor Q21, and the deflection generated in the primary coil L21 of the FBT. The current consists of the collector current of transistor Q21, the diode current of damper diode Dd, and the oscillating current of resonant capacitor C21. The FBT uses such a sawtooth pulse deflection current as an input source, and the pulse wave generated in the primary coil L21 of the FBT by the discharge voltage is stepped up by the secondary coils L24 to L29 to become a high pressure pulse. The rectified pulse wave is rectified by the high-voltage rectifier diodes D21 to D26, and the rectified pulse wave is smoothed by the capacitance of the capacitor C22 of the FBT itself and the capacity of the CRT to form a DC high voltage. Proper voltages generated according to the turns ratio of the induction coils L22 and L23 are used for high voltage X-ray protection.

Meanwhile, the main bleeder resistor 30 of the present invention has a variable resistor VR23 for fine adjustment of the distribution resistors R23 to R26 and the horizontal focus (FH) voltage and a variable resistor VR22 for fine adjustment of the screen (G2) voltage. The horizontal focus bleeder resistor 31 and the vertical focus bleeder resistor 32 formed by connecting the distribution resistors R27, R28 and the variable resistor VR23 for fine adjustment of the vertical focus (FV) voltage of the CRT in series are connected in parallel, and the horizontal It is composed of top rod type by connecting one bleeder resistor R22 between the parallel connection node of the focus bleeder resistor and the vertical focus bleeder resistor and the anode terminal.

A waveform formed to correct the horizontal-vertical focus from the outside is input through the dynamic focus (DF) terminal, and the dynamic focus (DF) waveform is loaded on the vertical focus (FV) voltage to provide an unfocused focus on the image realization of the CRT. Make it.

In the present invention, the horizontal and vertical focus bleeder resistors are used as main bleeder resistors (anode load resistors), and the minute voltage change (high pressure fluctuation) detected through the horizontal focus bleeder resistor is It is applied to the high pressure control device to achieve the stabilization of the high pressure.

In addition, C22 is a high pressure smoothing capacitor and is connected to a high pressure fluctuation control device as in the above circuit, which is configured to detect an alternating minute high pressure change.

Therefore, according to the above-described FBT of the present invention, instead of the conventional FBT, which detects a high voltage change through the anode load resistance (500 to 600 kV), the anode load through the main bleed resistor using the bleeder resistor for the focus-screen. By designing the FBT to obtain the effect of the resistance, it is possible to reduce the pack size of the FBT to facilitate the installation of resistance on the PCB, and to reduce the manufacturing cost of the FBT.

In addition, due to the weight reduction of the FBT, it is possible to reduce the load on the CRT in a test such as vibration or drop of the high resolution monitor, thereby preventing the occurrence of a set failure and greatly improving the reliability.

Claims (3)

A primary coil, a plurality of secondary coils for boosting the voltage applied to the primary coil to a desired high pressure, a plurality of rectifying means connected in series between the secondary coils to rectify the high pressure pulses, and the rectified high pressure pulses In the FBT provided with a smoothing means for making a DC high pressure, and a main bleeder resistor, the main bleeder resistor is connected in parallel with a vertical focus bleeder resistor and a horizontal focus bleeder resistor, and the horizontal focus bleeder resistor is connected. One end of the terminal is connected to the high-voltage feedback terminal, one end of the vertical focus bleeder resistor is connected to the ground terminal, and one bleeder resistor is connected between the parallel connection node of the horizontal and vertical focus bleeder resistors and the anode terminal. FBT characterized in that the configuration. The horizontal focus bleeder resistor is characterized in that a plurality of high-voltage distribution resistor and a plurality of variable resistors for fine adjustment of the horizontal focus (FH) and the screen (G2) voltage of the CRT is connected in series. FBT. The FBT as claimed in claim 1, wherein the vertical focus bleeder resistor comprises a plurality of high voltage distribution resistors and a variable resistor for fine adjustment of the vertical focus (FV) voltage of the CRT.