KR0131517B1 - Flyback transformer - Google Patents

Abstract

A flyback transformer(20) is disclosed. The flyback transformer generates a high voltage which is necessary for each circuit unit, and a first and a second voltages which are used as a main power based on an operating voltage from a main power unit(1). Each of the first and the second voltages is directly provided through its own port.

Description

Flyback transformer

1 is a block diagram showing a power supply of a general television receiver

2 is a block diagram showing a typical flyback transformer and its peripheral circuit

3 is a block diagram showing a flyback transformer and a peripheral circuit according to the present invention

＊ Explanation of symbols on main parts of drawing

2. 20: Flyback Transformer RG1, RG2: Regulator

SR: Shunt Resistance

The present invention relates to a flyback transformer (hereinafter abbreviated as FBT) that is used as a power supply of a TV.

In general, a variety of circuits are used in a TV, ranging from a large number of ICs operating at relatively low voltage to a cathode ray tube (CRT) requiring a high operating voltage. A power supply for each circuit is generated by performing a voltage conversion on the FBT based on a voltage of, for example, 123 V output from a switching mode power supply (SMPS).

1 is a configuration diagram showing the configuration of a power supply device generally used in TVs.

In FIG. 1, reference numeral 1 denotes a main power supply unit consisting of the above-described SMPS, and 2 denotes a voltage conversion of, for example, a DC voltage of 123V applied from the main power supply unit 1 to generate a plurality of operating voltages required for each unit. FBT.

Further, reference numeral 31 denotes a power plug, RY denotes a relay which intercepts input power input through the power plug 31 to the main power supply unit 1, and 32 denotes a microprocessor 35 which will be described later. It is a relay driver which drives the relay RY on / off in accordance with a control signal from the apparatus. Reference numeral 33 is a remote control device for the viewer to control the TV on / off, 34 is a receiving unit for converting an infrared signal applied from the remote control device 33 into an electrical code signal corresponding thereto, 35 is a receiver A microprocessor for driving control of the relay driver 32 according to the code signal inputted through 34, 36 generates standby power based on an input power input through the power plug 31, eg, AC 220V. Standby power supply unit. That is, in the above configuration, when input power is input from the power plug 31, standby power is supplied by the standby power supply unit 36 to a memory or timer (not shown) that requires the TV to be turned on or other data storage. Will be. In this state, when the viewer selects the remote control device 33 or a keypad (not shown) installed outside the TV and inputs an ON signal of the TV, the microprocessor 35 drives the relay driver 32. The relay RY is turned on.

Therefore, the input power input from the power plug 31 is applied to the main power supply 1 through the relay RY, and thus the operation of, for example, 123V required for driving the FBT 2 from the main power supply 1. The power is applied to the FBT 2 so that the operating voltage required for each circuit portion is output from the FBT 2 so that the TV operates in a normal state. 2 is a block diagram showing the above-described FBT and its peripheral circuit. As shown in FIG. 2, the AC power input from the outside is applied to the main power supply unit 1 made of SMPS, and a DC voltage of 123 V output from the main power supply unit 1 is applied to the FBT 2, for example. In addition, the FBT 2 boosts and depressurizes the voltage of 123 V to adjust the high voltage HV for the CRT and CRT driving units 3, the driving voltage of 200 V, the screen SCREEN, the focus FOCUS, and the heat voltage. Outputs 25V to the vertical output section 4, high voltage (HV) to the deflection section 5, and AFC (Auto Frequency Control) voltage to the main signal processing section 6, while 12V is used as the main power source of the TV. It will output 16.5V of operating power to generate 9V.

By the way, in the above-mentioned conventional FBT, there exists the following problem. That is, as described above, in the conventional FBT, a voltage of 16.5 V is output for generation of 12 V and 9 V used as the main power source of the TV. Thus, as shown in FIG. 1, 12 V and 9 V based on 16.5 V. Each voltage regulator RG1, RG2 is needed to generate. When the voltage regulators RG1 and RG2 are used as described above, a heat sink for dissipating heat generated from the voltage regulators RG1 and RG2 when the voltage regulators RG1 and RG2 are used, and an additional shunt resistor. (Shunt registor; or fusible resistor) (RS) is required, which takes up a lot of space on the printed circuit board, making the circuit layout difficult, and in particular, increases the manufacturing cost by using a large amount of parts. do. Accordingly, the present invention has been made to solve the above problems, and has an object of improving reliability and reducing manufacturing cost by directly generating and outputting 9V and 12V used as main power sources from FBT. The FBT according to the present invention for achieving the above object generates a high voltage required in each circuit portion of the apparatus based on the operating voltage applied from the power supply portion, and a third voltage for generating the first and second voltages used as the main power supply. In the flyback transformer to be outputted, characterized in that the first and second voltage is configured to be output directly through a separate terminal. According to the present invention having the above-described configuration, since the first voltage 12V and the second voltage 9V, which are used as the main power supply from the FBT, are directly output, the manufacturing cost can be reduced.

3 shows an FBT and a peripheral circuit thereof according to an embodiment of the present invention having the above-described configuration. In Fig. 2, the same reference numerals are attached to the same parts as in Fig. 1.

The FBT according to the present invention is configured to immediately output a first voltage of 12V and a second voltage of 9V as shown in FIG. Usually, the FBT 20 internally generates various output voltages based on the difference in induced electromotive force according to the coil's winding ratio. As described above, generating the voltages of 12V and 9V is similar to the coil winding ratio of the conventional method. This can be achieved by adjusting. In order to output two kinds of voltages as described above, in the FBT 20 according to the present invention, the AFC voltage and the heat voltage HEAT are jointly used, and the spare terminal thus obtained and the existing 16.5V terminal are used. It is configured to output a power supply of 12V and 9V.

That is, according to the present invention, since 12V and 9V used as the main power source of the TV are output directly from the FBT 20 without increasing the number of output terminals of the FBT 20, the existing regulators RG1 and RG2 and accordingly The shunt resistors SR6 and SR7 can be removed. Therefore, the manufacturing cost of a TV can be reduced significantly.

Claims (1)

A flyback transformer configured to generate and output a high voltage required in each circuit unit of a device based on an operating voltage applied from a power supply unit, and a third voltage for generating first and second voltages used as a main power source. A flyback transformer, characterized in that the first and second voltages are configured to be output directly through separate terminals.