HU191240B - Circuit arrangement for parallel amplifiers - Google Patents

Abstract

In the switching arrangement according to the invention, a new solution is that the output transducer (12) is connected to a resistor network (121) by a resistor network formed by five resistors (1, 2, 3, 4, 5) which have at least two first 'and second resistances of the resistance network ( 1, 2) are connected in series to the zero-point conductor (7) of the power supply unit (11), and the common point (6) of the two resistors (1, 2) is connected to the ground potential, and the first resistance (1) of the resistance network at the common point (10) is connected to the output transformer (12) by means of a primer coil (121), while the other resistance (2) of the quencher network is connected to one of the terminals of the resistor, the third resistor (3), whose ohmic value is greater than the first and second resistors ( 1, 2) the sum of the ohmic values, and the second terminal of the third resistor (3) is the fourth resistor of the anti-strain network (3) is connected to one end of the system (4) and to the auxiliary ground (8) of the system, the value of the third resistor (3) is less than the sum of the values of the fourth (4) and fifth (5) resistor network and the fourth resistor (4). ) the first terminal of the second and fifth resistors (5) are connected to the control point (9) of the parallel operation and finally the second terminal of the fifth resistor (5) to the common point of the primary resistor (1) and the output transformer (12) is switched on. (Figure 1) -1-

Description

(54) SWITCHING DEVICE FOR PARALLEL POWER AMPLIFIERS (57) EXTRACT

Circuit arrangement for parallel mode amplifiers, wherein the base of the non-inverting transistor (21) is via a disconnecting element (25) to the input, to the positive terminal of the collector power supply (11) and to the collector (20) of the inverting transistor (19). its emitters with one another and through the emitter state (22) to the negative terminal of the power supply (11), the base of the inverting transistor (19) via a feedback resistor (17) with a primary coil (121), with a positive branch power transistor and connected to the collector (15) of the negative branch power transistor.

In the circuit arrangement according to the invention, a new solution is that the prime winding (121) of the output transformer (12) is connected in series with a resistor network of five resistors (1, 2, 3, 4, 5), ) are connected in series to the neutral conductor (7) of the power supply (11) and the common point (6) of the two resistors (1, 2) is connected to ground potential, and the first resistance (1) of the resistor network at the common point (10) the output transformer (12) is connected to a primary circuit (121), while the other resistor (2) of the resistor network is connected to one of the terminals of a third resistor (3) of the resistor network having an ohmic value greater than the first and second resistors (1, 2). and the second terminal of the third resistor (3) is the fourth resistor of the resistor network the third resistor (3) is less than the sum of the fourth (4) and fifth (5) resistor values of the resistor network, and the fourth resistor (4) ), the first terminal of the second and the fifth resistor (5) is connected to the parallel switch control point (9), and finally the second terminal of the fifth resistor (5) to the point of the primary winding (121) of the first resistor (1) and the output transformer (12) is on. (Figure 1)

-1191 240

BACKGROUND OF THE INVENTION The present invention relates to a circuit arrangement for parallel operating amplifiers, particularly low frequency power amplifiers, which have a common output.

In the above switching arrangements, the parallel operating circuit is generally connected either to the secondary circuit of the output transformer and connected to a secondary winding of an additional isolation transformer or directly to the amplifier output. The output terminals of the parallel circuit are then connected to the amplifier input.

The disadvantage of the first-mentioned circuit is that it requires a disconnecting transformer which, on the one hand, adversely affects the stability of the system and, on the other hand, makes the circuit difficult.

In the other case, when the parallel circuit arrangement is connected to the output of the power amplifier, the output power loss will be relatively large, since the otherwise required correction-feedback voltage is commensurate with the input voltage of the power amplifier. Thus, due to the reduction in output power, an amplifier is required to further amplify the correction feedback signal.

The circuit arrangement of the present invention addresses the above shortcomings by a circuit wherein the base of the transistor forming the non-inverting input of the amplifier is connected via a disconnecting element, the collector of which transistor is connected to the positive terminal of the power supply. , which is connected to the collector of the transistor constituting the inverter input stage of the amplifier. The emitters of the two transistors are interconnected and connected via an emitter resistor to the negative terminal of the power supply. The base of the inverter input stage transistor is connected to one terminal of a feedback resistor, the other terminal of which is connected to one end of an output transformer primer coil, a positive branch emitter emitter resistor, and a negative branch power transistor collector.

The essence of the invention is characterized in that the primary winding of the output transformer is connected in series with a resistor network consisting of five resistors, the at least two first and second resistors of which resistor are connected in series to the zero point terminal of the power supply. The first resistor of the resistor network is connected at a common point to the primary winding of the output transformer, nu'g the second resistor of the resistor network is connected to one of the third resistor of the resistor network having an ohmic value greater than the sum of the first and second resistors. The second terminal of the third resistor is connected to one end of the fourth resistor network resistor with the system auxiliary earth, and the value of the third resistor is less than the sum of the fourth and fifth resistor values of the resistor network. The second terminal of the second resistor of the fourth resistor is connected to the control point of the parallel circuit, and finally the second terminal of the fifth resistor is connected to the common point of the first resistor and the primary winding of the output transformer.

The object of the present invention is essentially to control the amplifier system with the same load, and to obtain a common load for each amplifier, for example, even if the operating parameters change in the event of interference of one or more amplifiers.

The advantages of the circuit according to the invention are, on the one hand, a high degree of stability and, on the other hand, a reduction in the influence of interference voltages on the parameters and a simplification of the construction, including the need for an additional amplifier.

The circuit arrangement according to the invention will now be described with reference to Figure 1 by way of an exemplary embodiment.

Fig. 1 shows a parallel amplifier circuit arrangement according to the invention, the input of which is one of the terminals of the isolator 25, the other terminal of which is connected to the base of the transistor 21 which is the non-inverting input stage of the amplifier. The collector of transistor 21 is connected to the positive terminal 23 of the power supply 11, which is connected to the positive terminal 23 via an additional collector resistor 20 via the collector 19 of the transistor. The emitter of the non-inverting input stage of the amplifier is coupled to the emitter of the transistor 19 forming the inverter input stage of the amplifier, and to this common point one terminal of an emitter resistor 22 is connected to the negative terminal 24 of the power supply II. One terminal of a resistor 17, which is connected to the base of the transistor 19 which forms the inverter input stage of the amplifier, is connected to one end of the primary winding 121 of the output transformer 12. Also connected to the same point is a collector of the first emitter resistor 13 in the positive branch and the second power transistor 15, which power transistor 15 is located in the negative branch. A power transistor 14 is located in the positive branch, the collector of which is connected to the positive terminal 23 of the power supply all. The emitter of the second power transistor 15 is coupled via an emitter resistor 16 to the negative terminal 24 of the all power supply. The primary winding 121 of the output transformer 12 is connected in series to the first terminals 1 and 2 of a resistor network connected to a second end of the first two resistors 1 and 2 connected in series to the ground conductor 7 of the power supply 11 on. The first resistor 1 of the parallel circuit resistor network is connected to one terminal of the primary winding 121 of the output transformer 12, the second terminal of the first resistor 1 is connected to the third resistor 3 of the second resistor network 2. The second terminal of the third resistor 3 is connected to the fourth resistor 4 of the resistor network and to the auxiliary earth of the parallel circuit. The fifth resistor 5 of the resistor network is connected in series with the fourth resistor 4 and the other end of the fourth resistor 4 and the fifth resistor 5 is connected to a common point 10 of the resistor 1 and the primary winding 121. For better utilization, the control point is connected via a disconnecting capacitor 18 to the base of the transistor 19 constituting the inverter input stage of the amplifier.

When the circuit arrangement is in operation, each amplifier stage through the isolating capacitor 18 is a

-2191 are excited at the base of a transistor 21 which is a non-inverting input stage of 240 amplifiers. The amplified signal from the collector of the transistor 19 constituting the inverter input stage of the amplifier directly excites the first power transistors 14 and 5 15 through an additional amplifier stage. The feedback signal is transmitted to the base of the transistor 19 via the feedback resistor 17, which is connected in series with the primary winding 121 of the output transformer 12. The same connection point is also connected to a collector 10 of the second power transistor 15 in the negative branch and to an emitter resistor 13 connected in series with the emitter of the first power transistor 14 in the positive branch. This common point forms the output of the amplifier to which a resistor network consisting of a primary coil 121 of the output transformer 12 and of the resistors 1, 2, 3, 4, 5 connected thereto is then connected. The output current of the power amplifier passes through the parallel circuit and causes a voltage drop there. When the system is properly configured, the load is evenly distributed between the two amplifiers and the control point 9 has zero voltage relative to the ground potential. However, if the output voltage of one of the power transistors 14 or 15 decreases, the output current also decreases and the correction feedback voltage is displayed at control point 9, since the auxiliary ground 8 in one branch of a resistor network consisting of 1, 2, 3, 4, includes resistors 2 and 3, providing the same voltage drop in all cases. In contrast, in the resistor network 30, which includes resistors 1, 4 and 5, the voltage sign depends on a change in the output current sign, allowing the gain to be increased or decreased accordingly.

For the operation of the circuit arrangement according to the invention as described above 35, it is necessary that the ratio of the resistances of the resistors of a resistor network of 1-5 resistors be such that the sum of the resistances of the first resistors 1 and 2 40 compared to the order of magnitude smaller. The sum of the resistance values of the resistors 4 and 5 must be an order of magnitude greater than the value of the resistors 3.

The correction feedback signal is applied from the control point 9 to the base of transistor 45 19 via the isolating capacitor 18, thereby obtaining that the DC components are disconnected.

Claims

Claims (2)

A circuit arrangement for a parallel operating amplifier having an input of a transistor forming a non-inverting input stage of the amplifier through an isolating element coupled to a positive terminal of the transistor collector power supply, which is connected to a positive terminal by an additional collector resistor. is connected to the collector of the inverter input stage, and the emitters of the two transistors are connected to each other and connected via an emitter resistor to the negative terminal of the power supply, the base of the inverter input stage and one end of the emitter resistance of the positive branch power transistor and the negative branch power transistor is also connected to it, characterized in that the primary winding (121) of the output transformer (12) is connected in series with a resistor network consisting of five resistors (1, 2, 3, 4, 5), at least two first and second resistors (1,2). ) are connected in series to the ground conductor (7) of the power supply (11) and the common point (6) of the two resistors (1, 2) is connected to ground potential and the first resistor (1) of the resistor network is connected to the output transformer 12) connected to a primary winding (121) while the other resistor network (2) is connected to one of the terminals of the third resistor network (3) having an ohmic value greater than the sum of the first and second resistors (1, 2); the second terminal of the third resistor (3) is one end of the fourth resistor (4) of the resistor network and auxiliary ground (8) of the system, and the value of the third resistor (3) is less than the sum of the fourth (4) and fifth (5) resistor values of the resistor network, and the second and fifth resistors of the fourth resistor (4) The first terminal (5) is connected to the parallel switch control point (9), and finally the second terminal of the fifth resistor (5) is connected to the common point of the first resistor (1) and the primary winding (121) of the output transformer (12). Embodiment of the circuit arrangement according to claim 1, characterized in that the parallel switch control point (9) is connected via a disconnecting element, preferably a capacitor (18), to the base of the inverter input transistor (19) of the parallel circuit. 1 drawing