JPS61258510A - Output amplifier circuit - Google Patents

Abstract

PURPOSE:To decrease click noise at application of power by providing the 1st switching means to charge the 1st capacitor and the 2nd switching means to discharge the electric charge of the 2nd capacitor and turning on the 1st and 2nd switching means at the leading of power. CONSTITUTION:When a voltage is applied to a power terminal 5, a capacitor 28 is charged through a resistor 26 and while the voltage is low, a transistor (TR) 24 is turned off, a TR10 is turned on, TRs 12, 13 are turned off, and no current is fed to an output amplifier 1, which is turned off. Since a TR11 is turned off, a collector current flows to the TR14 by the current mirror comprising of the TR14 and a diode 16 and the electric charge in the output capacitor 2 is discharged under a constant current by using the current mirror comprising of a TR15 and a diode 18. Thus, when a signal is outputted across a load resistor 6, the voltage at the inverting input of the output amplifier gets higher, the output capacitor 2 is discharged and the amplifier 1 rises from zero and no click noise is caused.

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF THE INVENTION The present invention relates to an output amplification circuit that can reduce clicking noise when power is turned on.

Prior Art FIG. 2 shows a conventional output amplifier circuit. In Figure 2,
1 is the output amplifier, 2 is the output capacitor, 2,, -3.28 is the capacitor, 4 is the input terminal of output amplifier 1,
5 is a power supply terminal, 6 is a load resistance, 9, 10° 11.12,
13i24 are transistors, 16°17 are diodes,
19, 20 are constant current sources, 21.22, 23, 25,
26.27 is the resistance.

The output of the output amplifier 1 is connected via a capacitor 2 to a load resistor 6 whose one end is grounded, and the output of the output amplifier 1 is connected to the inverting input of the output amplifier 1 via a negative feedback resistor 23. , the base of transistor 9 and transistor 1
The collector of the diode 16 and the cup of the diode 16 are connected to each other and grounded via a constant current source 19. The emitter of transistor 9.110 and the anode of diode 16 are connected to the power supply, and the collector of transistor 9 is connected to the inverting input of output amplifier 1 via capacitor 3, one end of which is grounded, and resistor 22. The base of transistor 11 is connected to the collector of transistor 12, and the base of transistor 11 is connected to the collector of transistor 12.
2, the base of the transistor 13, the collector 3 of the transistor 1o, and the anode d of the diode 17 are connected to each other and grounded to a power supply via a constant current source 20. transistor 13
The collector of is connected to the current supply terminal of the output amplifier 1. The emitters of transistors 10, 12 and 13 and the capacitor of diode 17 are grounded, the base of transistor 1o is connected to resistor 25 and the collector of transistor 24, and the base of transistor 24 is connected to resistor 27, capacitor 28 and resistor 26. Connect the emitter of transistor 24,
The other ends of the resistor 27 and the capacitor 28 are grounded, and the resistor 26 and the other end of the resistor 26 are connected to the power supply.

The operation of the output amplifier circuit configured as described above will be explained below using FIG. 2.

When voltage is applied to power supply terminal 6, capacitor 28 becomes resistor 26
While the voltage is low, the transistor 24 is charged at O.
FF, ) transistor 10 is turned on. Therefore, the transistors 12 and 13 are turned off, and no current is supplied to the output amplifier 1, so that the output amplifier 1 is turned off. Since the transistor 11 is also turned off, the current mirror of the transistor 9 and the diode 16 causes the contenza 3/', J
It will be charged. Next, the capacitor 28 is charged by the resistor 26.
When the voltage increases, the transistor 24 turns on.
, the transistor 10 is turned off. A current is supplied to the second output amplifier 1 by a current mirror formed by diodes 1 and 17 and a transistor 13. The collector current of the transistor 12 flows through the diode 17 and the Nord mirror of the transistor 12).
N, the transistor 9.14.15 turns off, and when a signal is input from the input terminal 4, it is amplified by the output amplifier 1, and the signal is output to both ends of the load resistor 6. At that time, since the voltage at the inverting input terminal of the output amplifier 1 is high, the output voltage of the output amplifier 1 becomes low. If any charge remains in the output capacitor 2, it will be discharged and the output amplifier 1 will generate a clicking sound.

Problems to be Solved by the Invention However, in the above configuration, the power supply is
There was a problem that when F was repeated, a charge remained in the output capacitor and a clicking sound was generated.

Means for Solving the Problems In order to solve the above problems, the present invention provides a first capacitor connected to the inverting input terminal of the output amplifier, and a first capacitor for charging the first capacitor. a second capacitor connected between the output terminal of the output amplifier and the load; and a second switching means for discharging the electric charge of the second capacitor; The first and second switching means are turned on.

Function The present invention is capable of reducing the click noise when the power of the output amplifier is turned on by the above-described configuration.

Embodiments Below, output amplifier circuits according to embodiments of the present invention will be explained with reference to the drawings.

FIG. 1 shows an embodiment of the present invention, in which 1
is the output amplifier', 2 is the output capacitor, 3゜61\-・28 is the capacitor, 4 is the input terminal of the output amplifier 1, 5 is the power supply terminal, 6 is the load resistance, 9, 10, 11゜12.13,
14, 15.24 are transistors, 16.17.18 are diodes, 19.20 are constant current sources 21.22, 23
, 25, 26.27 are resistances.

The output of the output amplifier 1 is connected via the collector of the transistor 15 and the capacitor 2 to a load resistor 6 whose one end is grounded.
The output of the output amplifier 1 is connected to the inverting input of the output amplifier 1 via a negative feedback resistor 23, the base of the transistor 16 is connected to the anode side of the diode 18 and the collector of the transistor 14, The emitter of transistor 15 and the cathode of diode 180 are grounded,
The base of the transistor 14, the base of the transistor 9, the collector of the transistor 11, and the cathode of the diode 16 are connected to each other and grounded via a constant current source 19. Transistors 9 and 11.

The emitter of 14 and the anode of diode 16 are connected to the power supply, and the collector of transistor 9 is connected to content 3, one end of which is grounded, and to the inverting input of output amplifier 1 via resistor 22. Base dI of transistor 11
Connect the collector of the run raster 12 to the base of the transistor 12, the base of the transistor 13, and the transistor 1o.
The collector of the diode 17 and the anode of the diode 17 are connected to each other [
7 is connected to a power source via a constant current source 20. The collector of the transistor 13 is connected to the current supply terminal A of the output amplifier 1. The emitters of transistors 10, 12 and 13 and the cathode of diode 1γ are grounded, the base of transistor 10 is connected to resistor 26 and the collector of transistor 24, and the base of transistor 240 is connected to resistor 27, content 28 and resistor 26, and The emitter of the resistor 27 and the other end of the content 28 are grounded,
The other ends of the resistor 25 and the resistor 26 are connected to the d power supply.

The operation of the output amplifying circuit configured as described above will be explained below using FIG. 1.

When voltage is applied to the power supply terminal 5, the content 28 becomes the resistor 26
While the voltage is low, the transistor 24 is charged at O.
The FF, l-transistor 10 is turned on. Therefore, I.
Transistors 12 and 13 are turned OFF, and current d (d) is not supplied to output amplifier 1, and output amplifier 1 is in the OFF state. Transistor 11 is also turned OFF, so a current mirror of transistor 14 and diode 16 causes transistor 4 to A collector current flows, and the current mirror of the transistor 5 and the diode 18 discharges the output capacitor with a constant current of the charge of the transistor 2. On the other hand, the current mirror of the transistor 9 and the diode 16 charges the content 3.

Next, the capacitor 28 is charged by the resistor 26, and when the voltage increases, the transistor 24 is turned on, and the transistor o
1 OFF. Therefore, a current is supplied to the output amplifier 1 by a current mirror formed by a diode 17 and a transistor 13. Ushida diode 17 and transistor 12
The collector current of transistor 12 flows through the current mirror, transistor 1 turns on, and transistors 9,
14 and 15 are turned off, and when a signal is input from the input terminal 4, it is amplified by the output amplifier 1, and a signal is output to both ends of the load resistor 6. At that time, the voltage at the inverting input terminal of the output amplifier 1 is high and the output content 2 is also discharged, so the output amplifier 1 rises above zero and no click sound is generated.

Effects of the Invention As described above, the present invention provides a first content connected to an inverting input terminal of an output amplifier, a first switching means for charging the first content, and an output terminal of the output amplifier. and a load, and a second switching means for discharging the electric charge of the second capacitor, and turning on the first and second switching means when the power is turned on. By doing so, it is possible to reduce the clicking noise when the power is turned on.

[Brief explanation of drawings]

FIG. 1 shows an embodiment of the output amplifier circuit according to the present invention.
-7 1... Output amplifier, 2... Output condenser, 3゜28... Content, 5... Power supply terminal, 9
, 10°11.12, 13, 14, 15.24...
Transistor, 19.20・Old・Constant current source.

Claims (1)

[Claims] a first capacitor connected to the inverting input terminal of the output amplifier; a first switching means for charging the first capacitor; and a second capacitor connected between the output terminal of the output amplifier and the load. and a second switching means for discharging the electric charge of the second capacitor, and the output is characterized in that the first and second switching means are turned on only when the power is turned on. Amplification circuit.