DE2718195A1 - Power supply unit for TV receiver - delivers two voltages, of which second reaches nominal value before first when it is switched from standby to normal operation - Google Patents

Abstract

The unit secondary winding supplies two voltages. The two voltages pass through two rectifiers. During stand-by operation the load resistance is so low, that the supply voltages drop below their nominal values, as in 26 24 965. When the unit is switched over from stand-by to normal operation (contact a), the loaded terminal of the secondary winding (6) is switched to the second voltage (U2), so that this voltage reaches its nominal value before the first voltage (U1).

Description

Switching power supply for a radio receiver, in particular one

Television receiver. Addition to P 26 24 965.0 The main application concerns a switched-mode power supply for a television receiver with an isolating transformer in which Primary winding through a periodically operated switch current pulses with a compared to the mains frequency high frequency are generated and its secondary winding supplies the operating voltages for the television receiver via a rectifier.

The invention according to the main application is based on the object Generate auxiliary operating voltages for standby operation so that neither a separate power supply unit is also required for normal operation, The operating voltages generated in the switched-mode power supply are switched off by the consumers Need to become.

This object is achieved by the invention according to the main application solved that for a standby mode to the secondary winding such a low resistance Impedance is connected that the operating voltages on one for the function collapse of the receiver no longer sufficient value, and that of the impedance an auxiliary operating voltage required in standby mode has been removed.

In practice there is now often the requirement that when switching on during normal operation, a first operating voltage compared to a second operating voltage reaches its nominal value after a delay, e.g. with the operating voltage for the line output stage in a television receiver. If the line output stage is not controlled at all or is working properly is, the operating voltage can be applied to the flyback transistor without there is a danger. However, in the period in which the control voltage for builds the line output stage transistor and there are undefined control conditions, the transistor can be destroyed if the full operating voltage for this Transistor appears. It must therefore be ensured that the operating voltage for the line output stage appears a little later than the operating voltage for the line oscillator and, if applicable, the driver stage.

There is such a delay when switching according to the main application an operating voltage not available because when switching to normal operation, so when the load is switched off, all operating voltages are back to theirs at about the same time Reach face value.

The present invention is based on the object of the circuit after the main registration so that when switching to normal operation a first operating voltage its nominal value compared to a second operating voltage reached later.

This object is achieved by the invention described in claim 1 solved. Advantageous further developments of the invention are described in the subclaims.

In the invention, therefore, when switching off the load according to the main application initially another load is effective on the secondary winding, which initially has an increase which prevents operating voltages from reaching their nominal value. Flows over the load an equalizing current. When this equalizing current has reached its nominal value, e.g. has become sufficiently small due to a voltage-dependent load, the operating voltages back to face value take in. On the other hand, the first operating voltage can only increase when the load has become sufficiently small and the second operating voltage is present, the desired delay will rise in the initial operation voltage reached. The mode of operation can also be explained in such a way that by switching on the second operating voltage the rise of this voltage to the nominal value relative is accelerated to the rise of the first operating voltage.

The invention is based on the drawing of an exemplary embodiment for a television receiver. FIG. 1 shows one according to the invention Circuit, Figure 2 shows the characteristic of the switched-mode power supply and Figure 3 shows the course of the first and second operating voltage.

In FIG. 1, the line voltage in the rectifier 1 becomes an operating DC voltage generated, which is fed to the switching power supply shown. This contains one periodically with a frequency f of approx. 25 KHz closed switch 2, which for Stabilization serving winding 3, which is essential for the generation of vibrations Feedback winding 4, the primary winding 5 and three secondary windings 6,7,8 of the isolating transformer 30. With rectifiers 9,10,11,12 four operating voltages Ul, U2, U3, U4 generated. U1 is the operating voltage for the line output stage of the television receiver. U2 is the operating voltage for various stages of the receiver, including the Line oscillator. According to the main application, U3 is used for standby operation Preheating of the picture tube 13 via the resistor 14.

U4 is roughly the same in standby mode and normal mode great tension for a remote control receiver.

In the solid position of the relay contact a is the voltage U3 is connected to the filament of the picture tube 13 via the resistor 14. In the sense of the main application, the power supply is so heavily loaded that the tension U1 according to FIG. 3 from its nominal value 160 V to 60 V and the voltage U2 has dropped from its nominal value of 18 V to 6 V. With these Voltages, the stages fed are not functional in the desired manner. The picture tube is supplied with around 75% of its nominal heating voltage. The power supply works at the operating point 15 in FIG. 2. FIG. 2 shows the dependency the output voltage from the load current of the power supply unit it on the secondary side The voltage U4 for the remote control receiver of 18 V is hereby the voltage U3 is formed, which reaches terminal 17 via the conductive diode 16. The diode 18 is blocked because the voltage U2 is due to the heavy load on the switched-mode power supply has dropped to 6 V and the voltage at terminal 17 is 18 V. The relay winding A is de-energized.

When switching from standby mode to normal mode, appears from a remote control receiver, not shown, at terminal 19 a positive Voltage that controls the transistor 22 conductive, so that the relay winding A of the voltage U4 is supplied with current. As a result, the normally open contact a is the Loading of the voltage U3 by the picture tube 13 is switched off. Now flows in Charging current i through the transistor 23 into the capacitor 26, because the collector at the Voltage U3 of 18 V and the still low voltage U2 of 6 V at the emitter.

This current i represents a load that initially increases the Operating voltages prevented. The current i turns the into a rectifier 10 belonging charging capacitor 26 slowly reloaded, so that finally the voltage U2 reaches its nominal value of 18V. The voltage U3 rises to about 60 V in the process at. However, since the base of the transistor 23 is connected to the constant voltage U4 is, the transistor 23 is finally de-energized, so that the temporarily effective The load caused by the current i disappears again. Only after this load has become ineffective and the voltage U2 has reached its nominal value of 18 V, the voltage U1 return to their nominal value of 160 V. The circuit can now be dimensioned that in that Rise in voltage U1 to its nominal value the desired Delay of ß t according to Figure 3 arises. The voltage U4 of 18 V is now fed from the rectifier 10 via the diode 18 to the terminal 17. Since the cathode of the Diode 16 is now at 18 V, diode 16 is blocked. The picture tube is in this normal operation of the secondary winding 8 via the rectifier 12 with her Rated current heated. The normal operation now assumed is shown in FIG. 2 by the Operating point 27 shown on the characteristic curve of the switched-mode power supply. Because the tension U2 including the line oscillator and the driver stage for the line output stage and U1 feeds the line output stage, it is ensured according to Figure 3 that the voltage U1 at the line output stage transistor only reaches its nominal value when the voltage U2 has already reached its nominal value, the line oscillator oscillates and thus the line output stage is controlled properly.

Lee ruse 1st

Claims (9)

Claims Ü Switching power supply for a radio receiver, in particular a television receiver whose secondary winding has a first and second rectifier supplies a first and a second operating voltage and is so low-resistance in standby mode it is loaded that the operating voltages drop considerably below their nominal value, according to patent application P 26 24 965.0, characterized in that when switching ton standby mode to normal operation (contact a) the loaded connection of the Secondary winding (6) can be switched to the second operating voltage (U2) so that the second operating voltage (U2) earlier than the first operating voltage (U2) Nominal value (160 or 18 V) reached. 2. Power supply according to claim 1, characterized in that in the way to second operating voltage (U2) is a current-limiting element (23). 3. Power supply according to claim 1, characterized in that the element is a voltage-dependent impedance (23), the value of which differs from the instant of switchover enlarged on. 4. Power supply according to claim 3, characterized in that the value the impedance (23) is controlled by the second operating voltage (U2). 5. Power supply according to claim 3, characterized in that the impedance is formed by the collector-emitter path of a transistor (23) whose Base is connected to a constant DC voltage (U4). 6. Power supply according to claim 5, characterized in that the circuit is dimensioned so that the transistor (23) is blocked in steady-state normal operation. 7. Power supply according to claim 5, characterized in that the DC voltage a fourth operating voltage (U4) is used in standby mode and normal mode is about the same size and serves to feed a remote control receiver. 8. Power supply unit according to claim 7, characterized in that in standby mode the third operating voltage (U3) and the second operating voltage during normal operation (U2) forms the fourth operating voltage (U4). 9. Power supply unit according to claim 8, characterized in that the terminal (17) the fourth operating voltage (U4) over two in the same direction, for the second and third operating voltage permeable polarized diodes (16,18) with these operating voltages connected is.