DE1941694A1 - Overload protection for the two transistors of an ironless push-pull output stage of a low frequency amplifier working in B mode - Google Patents

Description

Overload protection for the two transistors, one in B mode working, ironless push-pull output stage of a low frequency amplifier The output stage of low-frequency amplifiers with transistors, e.g., of radio receivers Today it is well known for larger outputs as an ironless push-pull output stage in operation formed in devices where the loudspeaker is separate from the amplifier or loudspeaker sockets are provided, there is the possibility that the loudspeaker line accidentally shorted out. The resulting overload is of Tubes tolerated for a short time, but transistors are destroyed by the overload. Therefore, as is well known, electronic fuses have been installed. It has but it has been shown that the known fuses do not work reliably enough, so that it was necessary, despite the built-in fuse, more resilient and to use accordingly more expensive transistors in the output stage. The stronger one Load capacity refers to the power loss due to the B operation large alternating current can become too large, or on the peak current.

Too large an alternating current occurs when the loudspeaker line shorts or in the case of a loudspeaker with too low a resistance because of the alternating current depends mainly on the load and hardly on the final translators. One-destruction the! End transistors due to excessive AC voltage peaks can never occur because the output stage is ironless, i.e. no output transformer contains, so that the collector voltage of each transistor in the highest case the value of the operating voltage can increase.

The object of the invention is to provide such a reliably working electronic fuse to find that the final transistors only for the operation occurring loads need to be measured, but not for the ones mentioned Cases of short-circuiting the loudspeaker line or connecting a loudspeaker with little resistance. Known electronic fuses are described below and their disadvantages are described.

In a known, practically used electronic fuse for the purpose described (magazine "Grundig Technische Informationent 1968, Issue 3, pages 422 and 423) is one of the collector alternating currents of the transistors DC voltage corresponding to the output stage by rectifying the AC voltage obtained at the emitter resistance of one transistor of the output stage. This DC voltage is in normal operation by an oppositely directed, by rectification the DC voltage obtained from the collector AC voltage is compensated. Im mentioned In the event of a short circuit in the loudspeaker line or if the loudspeaker resistance is too low If the compensation voltage falls away or becomes smaller, so that the former, the collector alternating current proportional DC voltage predominates and a capacitor charges and reduces the level of the output stage. Is the cause of danger the overload has not yet been resolved after the capacitor has discharged, so speaks Connect the electronic fuse again. The circuit, which at first seems cumbersome the safeguard is 'justified' by the fact that the safeguard not in any case on the lack of the collector alternating voltage or by a too small one Collector AC voltage may respond, because these cases not only through one Short circuit in the loudspeaker line or due to a loudspeaker resistance that is too low can occur, but also when no signal is given to the amplifier will. Such a response must be avoided so that the amplifier without Time delay is ready for operation. It is therefore necessary that the absence of Collector alternating voltage or a too low collector alternating voltage the regulation triggers due to the collector alternating current 0 This in turn makes it necessary to to use the capacitor mentioned, because it has to be a DC voltage for regulation can be obtained because the collector alternating current and the collector alternating voltage are not always in phase with each other (because of the reactive component of the loudspeaker and because of the noticeable capacitive resistance of the at very low frequencies capacitor lying in series with the loudspeaker). But the capacitor causes a time constant and thus a time delay in response of the electronic Fuse. Therefore, e.g.

in the event of a short-circuit in the building speaker line, an impermissible for a short time high current peaks occur (e.g. 30 A instead of the normal current up to 5 A), the can lead to the destruction of the transistors. This electronic safeguard is fulfilled so because of their indolence, not all requirements.

Another electronic fuse that is also used in practice (Magazine "Funk-Technik" 1968, issue 17, page 656) causes above a threshold value a limitation of the collector alternating current in each of the two end transistors.

For this purpose, the resistors in the emitter resp.

Collector circuit of the two output transistors each with a direct and alternating voltage and one from the base Auxiliary transistor supplied whose Collector voltage when the collector alternating current of the end transistors is too high voltage of the associated end transistor in the sense of reducing the collector alternating current downregulate without significant time constant to The threshold value of the limitation, is given by the fact that the transistors have a certain starting voltage (0.7 V) deriBasis needed. So you measure the mentioned resistances / the output stage so that the voltage drop across them exceeds 0.7 V when the current in the final transistors davpermissible level exceeded This electronic fuse has also proven to be inadequately highlighted. A closer consideration reveals that the cause is in it is that despite the limited alternating currents, the power loss is too great, because in the event of a short circuit in the loudspeaker line, the AC voltage drop on the Loudspeaker wsgfållt and therefore the whole at each of the two end transistors Value of half the operating voltage, you could not use this fuse make it more effective that you can limit it even with a smaller alternating current, because then there would already be a limit to what to do in normal operation Would lead to distortions. So this electronic safeguard does not fulfill either the set requirements, although it works practically inertia.

In contrast, the "invention" specifies an electronic fuse that works like a charm and nevertheless in any case avoids exceeding the permissible power loss.

As said, the invention relates to overload protection for the two transistors of an ironless output stage working in B mode a low-frequency amplifier in the event of a short-circuit in the loudspeaker line or if the speaker stand is too small. The invention is characterized by the Application of the two independently working electronic systems described above Fuses: a) A circuit for downreqelung the level control by blocking one or more transistors of the amplifier, in which one of the Collector alternating current of the transistors of the output stage corresponding direct voltage is obtained by rectification, which charges a capacitor and which is normal Operation through an oppositely directed, through rectification of the collector alternating voltage obtained DC voltage is compensated and that in the case of the short circuit mentioned or a loudspeaker resistance that is too low due to discontinuation or reduction the compensation voltage becomes effective and the modulation of the output stage is reduced.

b) A circuit to limit the alternating current in the transistors the output stage, in which the emitter resp.

An alternating voltage is taken from the collector resistors of the output stage and the base of an auxiliary transistor is fed to its collector voltage if the collector change current is too high, the base voltage of the associated transistor the output stage in the sense of a reduction in the collector alternating current without any appreciable Time constant down.

The effort of the double backup according to the invention appears first high, but it is still worth it because, as tests have shown, the savings the cost of more resilient end transistors the cost of double fuse far outweigh.

Further improvements are as follows.

As in fuse a to avoid loss of AC power the emitter resistances must not be too large, you can use a higher switching voltage can be achieved by applying the alternating voltage intended for rectification (corresponding to the alternating current) the emitter resistance in the collector circuit operated previous stage, the galvanic with the previous transistor of the output stage is coupled, takes, thus the switching voltage is around the base starting voltage of the coupled final transistor is higher.

In order to switch on the electronic fuse a faster achieve, it is advisable to implement this security in a manner known per se (German Auslegeschrift 1 151 017) as a monostable multivibrator training using the as Exemplary drawing serving the invention is explained in more detail below.

The part of the low frequency amplifier that is of interest here begins with the low-noise input transformer 1. It follows with galvanic coupling the driver transistor 2, the phase reversing transistor 3 and the output transistors 4 and 5 that work on the speaker 6. The associated emitter and collector resistances are partly not designated. From the diode 7 is the sum in a known manner the base bias voltages for the output transistors 4 and 5 are taken.

The lower dashed frame contains the electronic fuse a and the upper dashed frame the electronic fuse b. The backup a works as follows. The resistor 8 is one of the collector alternating current AC voltage proportional to the output stage is taken and rectified in the rectifier 9 and thereby a positive DC voltage is formed, which alone is the capacitor 10 would charge. In addition, the AC voltage on the loudspeaker line is rectified with the rectifiers 11 and 12 and thereby a negative DC voltage formed, which by itself would charge the capacitor 10 negatively0 In normal Both DC voltages are available during operation. By appropriately dimensioning the resistance 13 one can achieve that the two DC voltages cancel each other out or a little negative Result in direct voltage. In the event of a short circuit the loudspeaker line or if the loudspeaker resistance is too low the negative DC voltage or negative DC voltage corresponding to the AC voltage at the loudspeaker becomes smaller, so that the compensation no longer exists and therefore that of the rectifier 9 supplied positive DC voltage can charge the capacitor 10. This will the previously blocked additional transistor 14 conductive, which in turn causes the input transistor 1 is blocked. Furthermore, the driver transistor 2 is blocked because it has no base current receives more. The signal path is therefore interrupted, so that the output transistors do not be controlled more. The end transistor 4 is simultaneously conductive and the Phase reversing transistor 3 and the final transistor 5 become non-conductive. None of all of these transistors are loaded with a significant power loss, because the level is missing. The modulation is switched off after the Charging of the capacitor 10 by leaps and bounds because the emitter of the additional transistor 14 is connected to the emitter-side end of resistor 15 instead of earth, so that this creates a monostable multivibrator.

The emitter current supplied by the additional transistor 14 increases namely the voltage drop across the emitter resistor 15, causing the driver transistor 2 is blocked faster. If now the charge of the capacitor 10 through the base of the additional transistor 14 is degraded, the circuit flips back into the Hibernation at. Then transistors 1 and 2 are conductive again and the transistor 14 is non-conductive.

Since this fuse a, as I said, because of the unavoidable charging capacitor 10 is too sluggish, according to the invention, the known per se is also fast working fuse b used, which causes a current limitation in a known manner.

The two auxiliary transistors 15 and 16 are provided for this purpose, those at the base of the alternating voltages at resistors 17 and 18 of the output transistors 4 and 5 are controlled and base bias voltages for the output transistors on the collector side 4 and 5 which provide the original positive base = ' preloads reduce as soon as the auxiliary transistors 15 and 16 respond. As this is above of 0.7 V applies, the emitter resistors 17 and 18 are dimensioned so that the Voltage drop across them exceeds 0.7 V when the alternating current in the final transistors 4 and 5 exceeds the permissible level. This fuse b has with the present Invention the purpose of a short circuit in the loudspeaker line or too low Loudspeaker resistance causes an impermissibly high peak current that can even turn up to cause excessive overheating of output transistors 4 and 5 for two seconds would be avoided until the slow fuse a has responded. For the short one Period of e.g. 1 to 2 seconds backup b is sufficient because in this short one Time the throttled peak current does not cause excessive heating and so that the final transistors can be destroyed. This would only take place with a longer one Load happen.

Claims (3)

Claims 1 overload protection for the two transistors, one in B mode working, ironless push-pull output stage of a low frequency amplifier at one Short-circuit in the loudspeaker line or if the loudspeaker resistance is too low, ' characterized by the application of the following two working independently of one another Electronic fuses: a) A circuit to reduce the level by blocking one or more transistors of the amplifier, in which one of the Collector alternating current of the transistors (4,5) of the output stage corresponding direct voltage is obtained by rectification, which charges a capacitor (10) and the in normal operation by an opposing rectification of the collector alternating voltage obtained DC voltage is compensated and that in the case of the short circuit mentioned or a loudspeaker resistance that is too low because it is no longer available or has been reduced the compensation voltage becomes effective and the modulation of the output stage (4,5) is reduced. b) A circuit to limit the alternating current in the transistors (4,5) of the output stage, in which the emitter or. Collector resistors (17,18) the Output stage taken from an alternating voltage and the base of an auxiliary transistor (15,16) is supplied, the collector voltage of which if the collector alternating current is too high the base voltage of the associated transistor (4 or 5) of the output stage in the sense of a Reduction of the collector alternating current without any appreciable time constant. 2. overload protection according to claim 1, characterized in that in circuit a, the alternating collector current of the transistors (4, 5) of the output stage Corresponding DC voltage is obtained by the fact that the emitter or resistor resistor (8) a previous stage (3), which is galvanically connected to the associated transistor (5) is coupled to the output stage, an AC voltage is taken and rectified will. 3. Overload contactor according to claim 1, characterized in that the circuit a is formed in a manner known per se as a monostable multivibrator which returns to the idle state after the discharge of the capacitor.