NL7901118A - AMPLIFIER CONTAINING A POWER SUPPLY CIRCUIT AND A CONNECTED AMPLIFIER STAGE. - Google Patents

Description

ί-, * SCHM / LA ΡΗΗ 9349 N.V. Philips "Incandescent light factories in Eindhoven" "Amplifier containing a power circuit and an associated amplifier stage".

The invention relates to an amplifier comprising a power supply circuit and an associated amplifier stage,

Such an amplifier is known from United States Patent Specification No. 3, 9, 1,280.

The power supply circuit of the known amplifier supplies a supply voltage to the amplifier stage, which, depending on the amplitude of the audio signal, can assume two different values. The supply circuit is provided for this purpose with a threshold voltage and for audio signals whose amplitude remains below this threshold voltage, it supplies a supply voltage of a certain constant value. If the amplitude of the audio signals exceeds the threshold voltage, the supply voltage 15 is brought to a certain higher constant value in a jump. The efficiency of this amplifier is optimized by pre-setting the threshold voltage to a certain value just above the statistically most common amplitude value of the audio signals.

The object of the invention is to increase the efficiency of an amplifier of the type stated in the opening paragraph.

An amplifier according to the invention is characterized in that the supply circuit is coupled via a dynamics detector to an audio input of the amplifier for supplying a supply voltage continuously varying with the amplitude of the audio signal.

When this measure according to the invention is applied, the supply voltage varies continuously with the amplitude of the audio signal to be amplified. By the instantaneous 7901118 d

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PHK 9349____________________________________________________., ._________ 1____________________________________________________________ to keep the difference between the continuously regulated supply voltage and the audio signal as small as possible, a forward maximum efficiency is obtained. By a continuous / regulation of the supply voltage, whereby it is continuously adjusted as close as possible above the amplitude of the audio signal, a greater efficiency is attainable than with the above-mentioned known amplifier, wherein the supply voltage can only take two discrete values.

A preferred embodiment of an amplifier according to the invention is characterized in that the amplifier stage is connected to the audio input via a delay circuit.

Applying this measure prevents suddenly occurring jump-shaped amplitude increases I5 of the audio signal from being followed too late by a sufficient increase in the supply voltage. Disturbances due to non-linear signal amplifications are thereby avoided.

A further preferred embodiment of such an amplifier according to the invention is characterized in that the supply circuit is provided with a mains connection for supplying a mains voltage to it and a control terminal for supplying the output signal of the dynamics detector thereto. as well as a voltage comparator connected to the mains connection and the control terminal and a voltage integrator connected via a switch to the mains connection, wherein an output of the voltage comparator is coupled to a control input of the switch.

The invention will be further described with reference to the figures shown in the drawing.

Herein shows

Fig. 1 a practical embodiment of an amplifier according to the invention and; FIG. 2 a practical embodiment of a voltage regulator of the previous amplifier; • .Λ 7901118 - 3 Λ, ΡΗΝ 93 ^ 9 · - ... _____________________________________________________________________________________

Fig. 3 the course of the supply voltage with a voltage comparator and integrator of the previous figure at two different levels of the audio signal.

Fig. 1 shows an amplifier according to the invention, provided with a power supply unit T with mains inputs 2 and 3 and a power supply output 22, a dynamics detector 4 via which the power supply unit 1 is coupled to an audio input 5 and a cascade circuit also coupled to the audio input 5 of a delay circuit 6, a pre-10 amplifier 7, an amplifier output stage 8 and a loudspeaker 9

The power supply unit 1 comprises a diode bridge 11 to 14, which functions as a double-sided rectifier, which is coupled via a mains transformer 10 to the mains inputs 2 and 3. The anodes of the diodes 11 and 12 are grounded. The cathodes of diodes 13 and 14 are coupled to a power input 15 of a voltage regulator 16. The voltage regulator 16 supplies a controllable supply voltage to a power output 22 for supplying the preamp 7 and the amplifier output stage 8. The voltage regulator 16 is provided with a control terminal 17 which is coupled to the dynamics detector 4. The supply voltage at the supply output 22 of the voltage regulator 16 increases with an increasing control voltage at the control terminal 17 and vice versa.

The control voltage at the control terminal 17 is formed in the dynamics detector 4 by rectifying and smoothing the audio signal applied to the audio input 5.

The reinforcement resp. this audio signal is reproduced by means of the preamplifier 7 and the amplifier output stage 8, respectively. the speaker 9.

As the amplitude of the audio signal increases, the supply voltage at the supply output 22 also increases, allowing greater variations of the signal voltage at the output of the amplifier output stage 8. Since the supply voltage across the amplifier-35 output stage varies with the dynamics of the audio signal to be amplified, it becomes possible to optimize the 790 1 1 1 8 '1, - - PHN .9349 ____________ _________________________. ________ ______________________________________: ________________________________ Amplifier efficiency achieved by continuously minimizing the difference between the supply voltage and the signal voltage at the output of the amplifier end stage 8.

5. In order to prevent the audio signal supplied to the audio input 5 from reaching the amplifier output stage before the supply voltage is brought to a sufficiently high value, the audio signal is delayed by a certain period of time in a delay circuit 6 connected between the audio input 5 and the preamplifier 7. This period of time is chosen depending on the delays that occur in the dynamics detector 4 and the voltage regulator 16.

Fig. 2 shows in detail the voltage regulator 16 with the dynamics detector 4, the elements which functionally correspond to the elements of the previous amplifier being numbered equally.

The voltage regulator 16 is provided with a switching transistor 50 acting as a switch, the emitter of which is connected to the power input 15 via a diode 33 switched in the conducting direction of the switching transistor 50, the collector acting as a voltage integrator via a ground-connected voltage integrator. buffer capacitor 18 at the supply output 22. The base of the switching transistor 50 is coupled via a resistor 60 to the collector of 23 a transistor 32, which together with a transistor 51 forms a voltage comparator. The collector of transistor 52 forms the output of this voltage comparator. The emitters of the two transistors 31, 52 are connected to ground via a current source circuit 56 to 59.

This current source circuit 56 to 59 comprises a transistor 58 which is connected with its collector to the emitters of transistors 51 and 52 and with its emitter via an emitter resistor 59 to ground, and a transistor 56 whose collector base diode is shorted . The base of this transistor 56 is coupled to the base of the transistor 58. The collector of the transistor 56 7901118 - 5 ε ΡΗΝ 93 ^ 9 _______ __________________________________________________ __________________________________________.

is connected to the power input 15 via a voltage divider 55> 5 ^. The emitter of this transistor 56 is grounded through a resistor 57. The connection point between the resistors 54 and 55 ^ of the voltage divider 5 ^ 55 is coupled 5 to the base of the transistor 51 · The base of the transistor 52 is connected via an adaptive resistor 61 to the control terminal 17 ·

The control terminal 17 is coupled to the audio input 5 · 10 via a rectifying diode 80 of the dynamics detector 4. The cathode of this rectifying diode 80 is coupled to the control terminal 17 and the anode to the audio input 5 ·

The cathode is also connected to an integrating network consisting of a capacitor 81 and a resistor 82 in parallel.

The operation of the voltage regulator 16 and the dynamic detector 4 is described with reference to Figure 3. In this curve a ^ shows the course of the double-sided rectified mains voltage which is connected to the power input 15 and a ^ the voltage which is the base of the transistor 51 "is applied, curve b the voltage curve at the base of the transistor 52 and curves c ^ to c @ the curve of the output voltage at the power supply output 22. For simplification, this is based on such a variation of the audio signal at the audio input 5 and such a time constant of the integrating network 81, 82 that the voltage at the base of the transistor 52 is substantially constant over at least 1 period of the supply voltage.

If the base voltage of the transistor curve b, exceeds 51 ° P time t ^ that of the transistor 52, the transistor 52 and thereby also the switching transistor 50 are blocked.

The amplifier loads the buffer capacitor 18 so that the voltage across it decreases exponentially from point A along curve c ^.

At Time tg, the base voltage of transistor 51 becomes smaller than that of transistor 52, causing 790 1 1 1 8 5-6.

PHN 9349. .................................................. ............. ..................................... ......................................

the switching transistor 50 and the diode 53 go on. The buffer capacitor 18 is charged quickly and the supply voltage increases exponentially from * point B (curve c ^) ♦

At time t ^, the voltage at the power supply input 5 becomes lower than the power supply voltage at the power output 22 point C and blocks the diode 53 to prevent the buffer capacitor 18 from being discharged through the voltage divider 54, 55 and the current source circuit 56-59. The amplifier now again loads the buffer capacitor 18, so that the supply voltage decreases exponentially according to curve 0 ^ from point C. At time t ^ the diode 53 starts to conduct again because the mains voltage exceeds the supply voltage (point D). The buffer capacitor 18 is thereby charged in accordance with the curve C1.

At time t ^, the base voltage of the transistor 51 exceeds that of the transistor 52, so that this transistor 52 is blocked and thereby the switching transistor 50 and the amplifier also load the buffer capacitor 18. This state corresponds to the state at time -20 sti) ty. The supply voltage then decreases exponentially from point E again, in accordance with a curve corresponding to the curve curve. The supply voltage passes through points F and G in the manner described above for points B and C.

When the amplitude of the audio signal at the audio input 5 increases, the control voltage at the control terminal 17 also increases and a voltage variation at the base of the transistor 52 is obtained, as shown for example with curve b '. This curve b * intersects the curve a £ 30 which, as already mentioned, represents the base voltage of the transistor 51 at times t ^ 1, t ^ 1, t ^ 1 and tg '.

Therefore, the switching transistor 50 locks at a later time in each period half of the mains voltage curve, thereby charging the buffer capacitor 18 to a higher voltage value (points A 'and E'). In addition, the switching transistor 50 opens earlier and is thus about shorter 7901 1 1 8

Claims (3)

In a practical embodiment, the elements had the following values: Resistors Values Capacitors Values 54 470 SI 18 1000 yuF 55 470 SL 81 5 yuF 20 57 33 -TL 59 10 XL 60 100 -T2_ 61 2K2 -Ω. 82 2K2 Ώ- 25 The diodes 53 and 80 were of the type BYX 22 resp. BAX 13, transistor 50, type BD 262 and transistors 51, 52, 56 'and 58, type BC 107 · CONCLUSIONS: An amplifier comprising a power supply circuit 30 and an associated amplifier stage, characterized in that the power supply circuit is coupled via a dynamics detector to an audio input of the amplifier for supplying a supply voltage continuously varying with the amplitude of the audio signal. Amplifier according to claim 1, characterized in that the amplifier stage is connected to the audio input via a delay circuit. ~ 7901118 ... 8 ... PHN 9349______________ _____ _______________________________ __ · __________________________________________________________________________________________ Amplifier according to claim 1 or 2, characterized in that the supply circuit is provided with a ne.t connection for supplying a mains voltage thereto and a control terminal for supplying the output signal of the dynamics detector, as well as a voltage comparator connected to the mains connection and the control terminal and a voltage integrator connected via a switch to the mains connection, wherein an output of the voltage comparator is coupled to a control input of the switch. Amplifier according to claim 3, characterized in that the voltage comparator comprises a differential input stage. 7901118