DE3412207C1 - Circuit arrangement for the stand-by mode of a colour television receiver - Google Patents

Abstract

Circuit arrangement for a remote-controllable colour television receiver with a shadow mask tube and a stand-by mains transformer which feeds, among other things, the remote control. Two PTC resistors (dual PTC resistor) are used for operating a degaussing device: according to the invention, one PTC resistor is connected in series with the degaussing coil at the mains. In parallel therewith, a series circuit consisting of the second PTC resistor, which continuously keeps the first one heated up in operation, and the primary winding of a smaller 50-Hz mains isolating transformer is connected for supplying the stand-by circuit with power. The previous PTC resistors can be retained unchanged. The solution requires little space and only low costs.

Description

The following calculation example can serve as an explanation: In the heated state, Rp = 36,667 ohms (Rp = PTC resistor 5); at UNctz = 220 Verr the iRp = 6 mA; selected: primary winding Ll = 15.8 H at 50 Hz are wL1 = 4963 Ohm; Series connection (transformer unloaded) at UNetz = 220 Vetr, the iRp = 5.95 mA, ie

the current only decreases by 0.83%.

It is also possible to have a capacitor in parallel with the primary winding of the transformer to be provided, which is formed by appropriate dimensioning Brings parallel resonance circuit in the vicinity of 50 Hz. The output voltage is of the transformer stabilized by saturation of the iron core.

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Claims (2)

Claims: 1. Circuit arrangement for a remotely controllable Color television receiver with a shadow mask tube and standby mains transformer low power consumption, which among other things the remote control feeds and on its secondary winding a rectifier circuit is connected, which is a degaussing device with double PTC resistors, one of which is in series with the degaussing coil and the other is fed from the mains to heat the first one, characterized in that that with the primary winding of the mains transformer (6) is used for heating PTC resistor (5) is in series. 2. Circuit arrangement according to claim 1, characterized in that that a capacitor is connected in parallel to the primary winding of the transformer (6) is, which is dimensioned so that the resulting parallel resonant circuit in the Near 50 Hz comes into resonance and at the same time the output voltage of the transformer is stabilized by saturation of the iron core. The invention relates to a circuit arrangement for a color television receiver according to the preamble of the first claim. The generally used color picture tubes based on the shadow mask principle can be influenced by the earth's field or by stray fields of electrical devices will. Therefore, a degaussing circuit is provided that can be used after switching on of the device magnetizes the steel parts of the picture tube with decreasing amplitude After a few seconds, the demagnetization should be completed, i.e. H. the residual flow should be as small as possible. The degaussing circuit therefore mostly exists from a coil and a PTC resistor, which initially has a large current gradually limited to a very small amount. This process is due to the increase in resistance of the PTC resistor caused by its strong heating. From DE-OS 3343031 a degaussing circuit for a TV receiver with switching power supply and remote control can be found, with a simple one PTC resistor is used. The demagnetization is done by means of a relay switched on and off. These relay contacts must handle the peak current withstand (possibly about 50A). This means that an expensive relay is necessary in the event of failures should be avoided through burned contacts. For reasons of cost, therefore, in Western Europe is meanwhile a different one Solution preferred. There are double thermistors or PTC resistors in the degaussing circuits used, as can be seen from the following patent publications: EP-PS 00 28 423, DE-PS 27 05 438 and DE-AS 21 07 365. Usually one of the partial resistance Rp is applied in parallel Network and heats the other partial resistor Rs, which is in series with the degaussing coil is switched on and keeps it heated during the operating time of the device. As the residual quiescent current in the degaussing coil is practical goes to zero, it is generally accepted that in remote-controlled color televisions Especially with large screen tubes, no demagnetization with any remote control Switching on takes place, but only at the beginning of each standby phase. It is also known to use small standby power transformers, which i.a. feed the remote control, e.g. B. in televisions. The invention is based on the object of an energy-saving solution for a color television with a shadow mask tube and remote control to find that a cost reduction while retaining the common double PTC resistor and allows a smaller space requirement. This problem is solved with a circuit arrangement according to the preamble of the main claim according to the invention according to the characterizing Features of the same. Further details are given in a second claim and the following To be found in the description. According to the invention, in the circuit to be fed from the network PTC resistor Rp switched on the primary winding of a small 50 Hz isolating transformer, the one required for standby mode on the secondary side Makes power available so that the device when receiving a switch-on command can start. It is well known that it is very difficult to find a very small 50 Hz transformer for 220V mains voltage, because due to the small core cross-section the The number of turns per volt is very high and the wire cross-section for the primary winding because of the small winding space such transformers must be very small. As a compromise solution it is known to use slightly thicker wire for a primary winding To dimension a smaller mains voltage and to add an additional series resistor use. The already existing PTC resistor, the from the mains to heat up the other PTC resistor of the degaussing circuit is fed, represents a suitable ballast resistor according to the invention. According to the task, the usual PTC resistor needs despite being switched on of the said small transformer not to be changed, as the voltage vectors are known of real and reactive resistances are perpendicular to each other. The invention is illustrated below using a simple circuit diagram as an example (Fig. 1) and a vector diagram of the voltages (Fig. 2). 1 shows a circuit arrangement which is connected to the 220 V network Connection points 1 and 2 is connected and a series connection of a PTC resistor Rs-3 and the degaussing coil 4 contains. There is another parallel to this Series connection, consisting of the PTC resistor RpeS and the primary winding of a small 50 Hz isolating transformer 6 with connected to the secondary winding Rectifier and filter circuit, which is shown as block 7 and which is attached to her Output, connections 8 and 9, the power supply for the standby circuit of the device. F i g. 2 shows a vector diagram of the voltages.