DE3417049C1 - Circuit arrangement for stand-by operation - Google Patents

Abstract

An energy-saving solution for stand-by operation, for example in a television set. The solution provides an electromagnetic component which has three windings and performs three functions: 1. a mains-fed relay operates the main switch; 2. a mini-transformer with VDE-type mains isolation feeds infrared amplifier and microprocessor and supply IC in stand-by operation; 3. the third winding is used as exciter winding via a transistor controlled by the microprocessor. A circuit arrangement which uses this component advantageously has very little power consumption, needs little space and is advantageous with respect to the costs for the components. <IMAGE>

Description

The connection points 1 and 2 of the circuit arrangement are connected to the (220Volt) Network connected. The main switch 3 is shown open, in stand-by mode is therefore the switching power supply 4 for the power supply of the not shown Device switched off via line 5. The component 11 has three windings 10, 9, 8 on. The winding 10 is constantly applied as the primary winding of an isolating transformer the mains voltage, as a result, the secondary winding 9 in stand-by mode can control the units, that require energy for remote-controlled switch-on readiness. These units are contained in component 18, namely the infrared amplifier and a co-operating microprocessor and the associated supply IC. As soon as the converter of the infrared amplifier receives a switch-on signal, controls the microprocessor via a transistor 20 the excitation winding 8. This pulls the relay indicated on the component 11 and closes the main switch 3. As a result of this, the switched-mode power supply 4 is switched on and the one connected via the line 5 Consumers, e.g. B. a television activated. Via line 6 and a diode 7, the higher energy during normal operation is transferred to the units in component 18 fed. For the mentioned voltage supply of component 18 during stand-by operation provide the diode 12, the capacitors 13 and 15 and the resistor 14. A resistor 17 in series with a display diode 16 signals the stand-by mode. she will switched off as soon as the transistor 20 is switched on. The resistance 14 is reduced the holding current in a known manner. On component 18 there are control lines 19 as outputs indicated via which the usual operating functions of the device be transmitted. The control line is the input of the at the emitter Component 18 can signal readiness to switch on to the microprocessor.

In this way it can be achieved that also the switch-on function at Mains interruption received and executed.

As the figure shows, the core of the component 11 is three-legged. The windings 10 and 9 are arranged on one outer leg and the excitation winding 8 of the relay on the other. The relay armature that actuates switch 3 when the winding 8 is energized, then connects the middle with the winding 8 supporting core leg. It is important for a perfectly hum-free functionality it is that the middle leg is constructed without an air gap, so there is a low one to achieve magnetic reluctance.

In addition to the negligibly low energy consumption in stand-by mode the circuit arrangement still has the advantage of high reliability, since only a few Components work 24 hours a day.

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Claims (1)

Claims: Circuit arrangement for a consumer electronics device, especially for a television receiver with electromagnetic components (windings 10, 9, 8) for disconnection from the mains and standby operation as well as an infrared remote control amplifier and a microprocessor working together with this for the control of is equipped with three operating functions, namely A. a mains-fed relay (Winding 8) actuates the main switch (3), B. a miniature transformer (windings 10.9) with VDE mains separation feeds the infrared amplifier, the microprocessor and a supply IC (component 18) during stand-by operation, C. a third winding (8) is used via a transistor (20) controlled by the microprocessor (component 18) as an excitation winding, characterized in that the windings (10, 9, 8) in one single electromagnetic component (11) are combined, the one three-legged Core owns. The invention relates to a circuit arrangement according to the preamble of the claim. Stand-by operation is used for remote-controllable devices that are in a standby state and mostly with infrared signals from one Encoders can be activated via a corresponding signal converter and amplifier. After in recent years through more economical circuits especially in television receivers through the use of switched-mode power supplies, economical Deflection circuits and modern components meet the energy requirements for normal operation could be reduced further and further, so far it has not succeeded to the same extent for stand-by operation. This was primarily due to what was still necessary Component and circuit expenditure. With DE-OS 3243333 a ready-to-receive circuit for Known television receiver with remote control, in which the housed in the television set 1 Remote control receiver 2 via a standby transformer 6 and a voltage stabilizer 10 is connected to the network, and in which a switching relay 11 for the network connection of the television set 1 is provided. The usual one operated by the user should now be used here Mains switch with wiping contact for setting the switching relay 11 is omitted and still the restart of the television set 1 when the voltage returns after a Power failure if the remote control remained switched on by mistake by the user to be avoided with certainty. In this application are in stand-by mode the circuits corresponding to the two exemplary embodiments (FIGS. 1 and 2) entire remote control receiver with command decoder 3 and network flip-flop 4 constantly powered Accordingly, the circuit complexity is higher due to the different mode of operation, more energy is required in stand-by mode and more space is likely to be required exist. This was based on a task, as quoted above, the one below stated object of the present invention has nothing to do. Hence could the solutions given there also do not provide any teaching for this. The present invention was therefore based on the object of this Drastically reducing energy consumption in stand-by mode without taking up space and increase the cost. This task is indicated for the preamble of the claim according to the invention according to the characteristic thereof solved by designing a component in this way is that it fulfills three functions, namely that of a relay to operate the Mains switch, that of a VED-compliant mains isolating transformer and that of a secondary-side, controllable excitation winding, a circuit arrangement can be implemented that has the lowest power requirement in stand-by mode, possibly less than 100 mW and at the same time has a low space requirement and low component costs. That will achieved with a circuit arrangement using this component by its primary winding is constantly connected to the 220 V AC voltage network and only so much Energy is absorbed by the stand-by consumer at a secondary winding to its Need supplies, these are the infrared amplifier and the microprocessor as well an associated supply IC. Initiated when a switch-on signal is received the microprocessor activates the excitation winding via a transistor. Through this the main switch for the switched-mode power supply with mains disconnection is switched on supplies the voltages required for normal operation of the connected device as well as the higher current for the infrared amplifier and microprocessor during normal operation. An exemplary embodiment of the invention is described below with reference to FIG schematic drawing described.