HU189500B - Clas bc power amplifier - Google Patents

Abstract

The invention relates to a power amplifier class BC, applicable in Verstaerkereinrichtungen. The power amplifier class BC according to the invention contains a symmetrical two-stroke preamplifier and an intermediate preamplifier whose outputs are connected to both power elements of the amplifier, which directly connects an output of the intermediate preamplifier to the base of the pnp B operating transistor and to a resistor at the emitter of an npn comparison transistor is. The collector of the B-mode transistor is connected to the active end of the load, at the same end by a safety diode, the base of an n-p-n comparison transistor is connected, whose collector is connected directly to the base of a p-n-p C operating transistor. The second output of the Zwischenvorverstaerkers is connected to the emitter of the B-operating transistor, wherein at the same point a switching diode and the collector of the C-driving transistor are connected. The anode of the switching diode is connected to the positive pole of a low voltage power supply, and the emitter of the C operating transistor is connected to the positive pole of the high voltage power source. The emitter of the compare transistor is grounded through an emitter resistor. The advantages of the class BC power amplifier are: the control is made possible by a circuit diagram with a transistor taking over the control functions as well as the protection of the output stage from transients caused by the inductive load. The efficiency is not lowered, but remains sufficiently high and the class BC accordingly. The use of an output transformer is not essential.

Description

The present invention relates to a class BC power amplifier. which is particularly useful in amplifiers where efficiency plays a very important role and where an output transformer is not necessarily required.

A class BC amplifier is known which comprises a symmetrical counter-amplifier and an intermediate preamplifier, the outputs of which are connected to two power units of the amplifier, one of which is connected to the positive corner of the power supply and the other to the negative corner of the power supply. Both power amplifier units and their respective intermediate preamplifier stages are completely symmetrical, but the transistors of the respective transistors are reversed, i.e. transistors of opposite dirt are used in the two parts. One of the outputs of the symmetrical counter-preamp is connected to one of the inputs of the intermediate preamplifier and its output is connected to a class B transistor.

The disadvantage of this BC class amplifier is that in the case of common collector switching of the end transistors, a control circuit with a saturated transistor which can protect the transistors from high breakdown voltage during inductive load cannot be used, and this circuit has a special purpose for this purpose. build in.

A further drawback is that since the end transistors are in a common collector circuit, an intermediate transistor must generate a signal of greater amplitude than the output amplitude, which results in a saturated mode of the end transistors. This, of course, reduces peak power and distorts output signals. A further drawback is that the class A transistor must be a high voltage transistor.

Another class BC power amplifier is characterized in that the class C transistor is controlled by a class B transistor through a Zener diode. While some of the aforementioned disadvantages are eliminated, the efficiency of the entire circuit, especially with respect to switching power supplies, remains significantly worse.

A further disadvantage of controlling this class C transistor is that the amplifier operates for the longest time in this mode, and thus the most important characteristic of the BC class amplifier, the high statistical average efficiency is reduced.

It is an object of the present invention to provide a BC-class power amplifier which can be controlled by saturated transistor switching and also provides protection against transient processes under inductive load. The power amplifier control circuit is such that maximum power can be removed while being built using low-voltage transistors without compromising the efficiency of the power control circuit and class C amplifier transistors.

BACKGROUND OF THE INVENTION The present invention is a class BC power amplifier comprising a symmetrical counter-amplifier preamplifier and an intermediate preamplifier, wherein the outputs of the intermediate preamplifier are connected to two power amplifier portions, one component coupled to the positive terminal of the power supply and and both power amplifier sections are symmetrical in structure and the respective transistors are made of transistors of different upstream voltages, and one of the outputs of the symmetrical counter-preamp is coupled to the input of an intermediate preamplifier connected to a class B transistor.

The point of the circuit arrangement according to the invention is that the output of the intermediate preamplifier is directly coupled to the base of the class B transistor pnp and the same point is connected via a resistor to the emitter of the comparator transistor npn. is connected to the active terminal of the load and on the other hand it is connected to a rectifier protective diode, while the collector of the comparator transistor is directly connected to the base of the class C transistor, the second output of the intermediate preamplifier is connected to the class emitter of the class B transistor has a switching diode and the collector of a C-class transistor connected, while the switching diode has a low voltage power supply positive and the emitter of the class C transistor is coupled to the positive terminal of the high voltage power supply and the emitter of the comparator npn is grounded through an emitter resistor.

Advantages of the class BC power amplifier according to the invention are as follows: The switching arrangement can be implemented by means of a transistor so that, in addition to its control function, this transistor also protects the output stage for transient conditions under inductive load. The control circuit drives the power amplifier to maximum power without the need for high voltage transistors. The efficiency of the BC-class power amplifier according to the invention is satisfactory.

The circuit arrangement according to the invention will be described in more detail with reference to the accompanying drawing. The circuit arrangement according to the invention comprises a symmetrical counter-amplifier preamplifier 1 and an intermediate preamplifier 2. The outputs of the counter-stroke preamplifier 1 are connected to two power amplifier units 3 and 3 ', one of the power amplifier units 3 being the positive power supply 21. 189 voltage, the other 3 'power amplifier unit is connected to the negative supply voltage and the two or three 3' power amplifier unit is fully symmetric, only the differential transistors applied opposite conductivity of ⁵ th transmitter. One of the outputs of the counter-stroke preamplifier 1 is connected to the input of the intermediate preamplifier 2, the output of which is connected to the class B transistor 4 and is connected to its base. The transistor 4 is connected to the emitter of a comparator transistor 6 via a resistor ¹⁰ and a base resistor 5 connected in series with its base, which transistor 6 is a npn transistor. The collector of the class B transistor 4 is connected to the active output ^{15 of} the load on the one hand and to a base diode 8 which transmits the current via a protective diode 8 which rectifies the current, which is a transistor npn 6. The collector of the transistor 6 and PNP transistor operating in the Cosztályban kiképe- ²⁰ is directly connected to the base of transistor 9. The second output of the preamplifier 2 is coupled to the emitter of the class B transistor 4. The same is also connected to the emitter points 10 digs kapcsolódiódával operating in a C-9 ²⁵ the collector of the transistor. The anode of the switching diode 10 is connected to the + E positive terminal of the low voltage power supply and the emitter of the transistor 9 operating in the C class is connected to the + E ₂ corner of the high voltage power supply. The emitter of the comparator transistor ³⁰ is grounded through an emitter resistor 11.

Operating principle BC-class amplifier according to the invention is as follows: At rest, the intermediate 2 and 2 'preamp tranzisztorai- ³⁵ Ban maximum close to the size of the saturation current, operating in the B-class 4 and 4 of the current' minimum for transistors dormant current is flowing while the C-class transistors 9 and 9 'are closed. Depending on the instantaneous polarity input signal ⁴⁰ , one of the power amplifier sections 3 or 3 'will remain closed, while the other will close the transistor 2 and 2' pre-amplifier in proper saturation and resting state. If the instantaneous value of the input signal reaches nearly 50% of the maximum value for the comparator 6 'and 6' transistors, then the opening condition is met and then the Class 9 and 9 'transistors are controlled. Before that, however, the current passes through the Transistor in the Class and transmits it to saturation.

Claims (1)

A patent claim A class-BC power amplifier comprising a symmetrical counter-preamp and intermediate preamplifier, wherein the intermediate preamplifier outputs are connected to two power amplifier portions, one component connected to the positive terminal of the power supply, the other component connected to the negative corner of the power supply; having a symmetrical design and corresponding transistors of different upstream voltage transistors, and one of the outputs of the symmetrical counter-current preamplifier coupled to an intermediate preamplifier input having an output coupled to a class B transistor, characterized in that connected to the base of a class B pnp transistor (4) and the same point is connected via a resistor (5) to a npn type coupled to the emitter of the comparator transistor (6), the collector of the class B transistor (4) is connected to the active terminal of the load (7) on the one hand and the comparator transistor (6) is connected to The collector (6) is directly connected to the base of the transistor (9) operating in the class, the second output of the intermediate preamplifier (2) is connected to the emitter of the class B transistor (4) and has a switching diode (10) tianzisztor (9) collector operating on, while are turned (10) the anode of the low voltage power supply positive terminal of (+ E _2), operating in C-class transistor (9), its emitter is connected to the high voltage power supply positive terminal of (+ E _2), and the emitter of the comparator npn transistor (6) is emitterell is grounded via an anchor (11).