JPS6130328Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a potential setting circuit for a circuit connection point, and particularly to a potential setting circuit for an output point of an audio power amplifier or the like.

An OCL (output capacitanceless) type direct-coupled amplifier is used as an audio power amplifier, but in such an OCL amplifier, the midpoint potential of the output is grounded and a direct current is passed through the speaker load. It is necessary to ensure that there are no

Conventional methods for adjusting the output midpoint potential of an OCL amplifier include using a semi-fixed resistor, or connecting multiple resistive elements in parallel, for example, and connecting these resistive elements in sequence in a circuit if the midpoint potential is not the ground potential. A method of opening the door is adopted. However, both methods have the disadvantage that not only do they require manual labor and time for adjustment, but also accurate adjustment is difficult.

Furthermore, in order to protect the speaker, an output midpoint potential detection circuit is used, and if a DC voltage is generated at the amplifier output, this detection circuit detects that voltage and activates a specified protection circuit to disconnect the power supply or output line. However, if the output midpoint potential is not normal, the protection circuit is activated when the power is turned on, and the power supply and output line are cut off, making adjustment impossible. In order to avoid such a situation, the process of electrically disconnecting the protection circuit, turning on the power, adjusting the midpoint potential, connecting the protection circuit, and turning on the power again is unavoidable.

An object of the present invention is to provide a potential setting circuit for a circuit connection point that is suitable for use in setting the output potential of a direct-coupled amplifier such as an OCL amplifier and can eliminate the above-mentioned drawbacks.

The potential setting circuit of the present invention sets the potential at a circuit connection point to a predetermined reference potential, and its feature is that when a predetermined reference potential is applied to one input terminal, the impedance at the circuit connection point as seen in the signal transmission direction The operational amplifier has an operational amplifier having an output impedance larger than The output end of the circuit is connected to the circuit connection point.

Therefore, when setting the output midpoint potential of an OCL directly connected amplifier to the ground potential, one input terminal of the operational amplifier is grounded and the output terminal of this operational amplifier is connected to the OCL.
If connected to the input terminal of the amplifier, the input of the OCL amplifier can be converged to the ground potential, and as a result, the output midpoint potential of the OCL amplifier is also automatically converged to the ground potential.

The present invention will be explained below with reference to the drawings.

FIG. 1 is a circuit diagram showing one embodiment of the present invention, and shows the setting of the output midpoint potential of an OCL amplifier. Audio input signal to be amplified
IN is input to the OCL direct-coupled amplifier ₁ via the DC blocking capacitor C1, and its power is amplified. The power output then drives a speaker 2 placed between its output point OUT and ground.

The output of the operational amplifier 3 is connected to the input terminal of the OCL amplifier 1 in order to set the potential of the output OUT of the power amplifier 1 to the ground potential. This operational amplifier 3
The non-inverting input of is set to ground potential, and a negative feedback circuit 4 with a DC gain of zero is provided between the inverting input and the output. That is, it consists of a resistor R ₂ connected between the inverting input and the output, and a resistor R ₃ and a capacitor C ₂ connected in series between the inverting input and ground. The capacitor
Since the DC cut is performed by C ₂ , the DC gain of the negative feedback circuit 4 becomes zero.

Since the output impedance of an operational amplifier is generally low, when its output is connected to a circuit connection point, the impedance of the connection point viewed in the signal transmission direction decreases, which has an adverse effect on the signal to be transmitted. This will affect the This is shown in Figure 1.
Since this would be inconvenient as it would affect the input impedance of the OCL amplifier 1, in the present invention, the output impedance of the operational amplifier 3 is set to the input impedance of the OCL amplifier 1 (approximately equal to the input resistance R ₁ ). The value is designed to be large enough not to affect the

That is, as shown in FIG. 2, both emitters of push-pull transistors Q ₁ and Q ₂ in the output stage of the operational amplifier 3 are connected to the output _V 0 through resistors R ₄ and R ₅ respectively.
The configuration is such that the output V ₀ is applied to the input of the OCL amplifier 1. This emitter resistance _R4 and
It is clear that by appropriately selecting the value of _R5 , it is possible to obtain an output impedance that does not affect the input impedance of the OCL amplifier 1.

With this configuration, the output V ₀ of the operational amplifier converges to the potential of the non-inverting input, that is, the ground potential, and therefore the input of the OCL amplifier 1 is also set to the ground potential. As a result, the output OUT of the OCL amplifier 1 can also be converged to the ground potential.

As described above, according to the present invention, the output midpoint potential of the OCL amplifier is automatically set to the reference potential, thereby eliminating the need for manual adjustment and the steps required therefor.

In the above embodiment, the adjustment of the output potential of the OCL amplifier was explained, but it is obvious that the present invention can be used to set the potential of various circuit connection points.

[Brief explanation of the drawing]

Figure 1 is a circuit diagram showing one embodiment of the present invention, Figure 2 is a circuit diagram showing one embodiment of the present invention.
The figure is a diagram showing a circuit example of an output stage of an operational amplifier. Explanation of symbols of main parts, 1...OCL amplifier,
3... operational amplifier, 3... negative feedback circuit.

Claims (1)

[Scope of utility model registration request] A potential setting circuit that sets a potential at a predetermined connection point of a circuit to a predetermined reference potential, wherein the predetermined reference potential is applied to one input terminal and the output impedance is larger than the impedance seen in the signal transmission direction at the predetermined connection point. and a negative feedback circuit having a direct current gain of zero, which is connected between the output end of the operational amplifier and the other input end, and the output end of the operational amplifier is connected to the predetermined connection. A potential setting circuit for a circuit connection point, characterized in that the circuit is connected to a point.