DE888422C - Heating circuit for radio all-current devices, in which a heat conductor is used to achieve short delay times and to limit the current peaks - Google Patents

Description

It is known; the wiring of the heating circuits of broadcast all-current devices to be carried out in such a way that when operating with iio V the heating filaments of the tubes, the scale lamps and an NTC thermistor can be fed directly from the mains while operating with higher voltages ohmic series resistors are used. The thermistor has the task of preventing inrush current peaks due to its negative temperature coefficient balance. In another known circuit, two heating circuits are parallel switched, with z. B. by making a circle the scale lamps, a thermistor and a Part of the tubes lie, while the rest of the tubes are in the other circle. When operating with: 2: 2o V, ohmic series resistors are used, while when operating with iio V, the mains voltage is applied directly to the parallel-connected Heating circuits is placed. When switching on with this type of circuit, there is always a Overload of the circuit that does not contain an NTC thermistor. In addition, are the two circles are not operational at the same time. With these types of circuits in addition, when operating with z2o V, the power that the ohmic series resistors absorb, pure power loss. According to another known type of circuit, there are two heating circuits connected in series at 22o V and in parallel at lower voltages, with possibly series resistors are still used. With these known circuits, with the exception ! of the last mentioned, it is perceived as very annoying that the delay time, d. H. the time after which the heating current, calculated from the time of switching on, reaches its face value for the first time, is very large. Especially with: the last specified circuit type, the delay time for operation with 22o V is only a few Seconds, while it comes to the order of minutes when operated with iio V, whereby the heating current runs asymptotically towards its final value.

The invention avoids the disadvantages of the known heating circuit circuits in that a thermistor is provided with taps.

The invention is based on the circuit sketches i and 2 of the drawing, for example described in more detail.

In the circuit shown in Fig. I, the terminals .i the Mains voltage applied. For setting: the circuit arrangement to the respective Voltage are the switches: 2 and 3, which can be coupled to one another. The thermistor q. is provided with the contact points shown in the circuit. When operating at 22o V, the NTC thermistor is q. fully switched on and the heating circuits I and II are connected in series. When operated with i 50, 125 and iio V is only part of the thermistor switched on; the two heating circuits I and II are connected in parallel, the ohmic resistors 5, 6 and 7 take the respective voltage surpluses on. Heating circuits, which are wired according to Fig. I, have come into question for all Voltages Delay times which are in no case greater than 10 seconds.

Another heating circuit according to the invention. is shown in FIG. The mains voltage ° is applied to terminals i. With the switches 8 and 9, which may be coupled , the circuit arrangement is set to the respective voltage. When operating with 22o V, the heating circuits I and II are connected in series with the interposition of the thermistor io: When operating with lower voltages, the circuits I and II are connected in parallel, whereby a correspondingly selected part of the thermistor io comes into effect in each circuit. The excess voltage drops across the ohmic resistors ii and 12. The delay times remain in the type of circuit according to FIG. 2 within the same limits as indicated for the circuit according to FIG.

The heating circuit circuit according to the invention is not on use limited to radio sets, but can be used for all heating circuits that have multiple switching elements with positive temperature coefficients and various thermal time constants and for which value is placed on short delay times and narrow limitations the current peaks at all mains voltages are used.

Claims (3)

PATENT CLAIMS: i. Heating circuit switching for broadcast all-current devices, to achieve short delay times and to limit the current peaks a thermistor is used, characterized in that one with a tap provided thermistor is provided. 2. Heating circuit switching for broadcast all-current devices according to claim i, characterized in that the tap is attached to the thermistor in this way is that the most favorable for the respective circuit shortest delay time and The tightest limitation of the inrush current peaks is reached. 3. Heating circuit switching according to claim i or 2, characterized in that the thermistor (q.) in the heating circuit is arranged so that it is full when operating at 22o V and at Operation with a lower voltage is only partially switched on (Fig. I). q .. heating circuit according to claim i or 2, characterized in that the thermistor (io) is arranged in the heating circuit circuit in such a way that it is operated at 2.2o, V is connected in series between the heating circuits (I, II) and that during operation with a lower voltage each part of the thermistor (io) in series with one Heating circuit (I or II), whereby the heating circuits are connected in parallel to each other are (Fig. 2). Referred publications: German patent specification No. 8o7 4oi.