JPH0136344Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an amplifier that reduces noise caused by a potential difference between the ground of a signal source device and the ground of an amplifier.

(Prior art) Signal source devices such as tuners, cassette tape playback devices, and amplifiers that amplify the output signals of signal source devices are powered by an AC power source, except in special cases, and step down from the commercial power supply voltage using a power transformer. After that, power is supplied to each circuit. On the other hand, the signal reference (common) is used for signal source equipment and amplifiers.
The output from the signal source device is supplied to the amplifier via a connecting line. At this time, as shown in Figure 1, the ground side _C1 of the output terminal of the signal source device 1 is the ground side of the input terminal of the amplifier 2.
At C ₂ , the hot side H ₁ of the output terminal of the signal source device 1 is connected to the hot side H ₂ of the input terminal of the amplifier 2 by a connecting line 3 .

However, line voltage leaks due to stray capacitance between the power transformer's primary and secondary windings, which should be completely isolated, and between the power transformer's iron core and the primary and secondary windings. and the ground of signal source device 1.
G ₁ and the ground G 2 of the amplifier ₂ have predetermined potentials V ₁ and V ₂ with respect to the ground, respectively, and because they are connected by the connecting wire 3, the potential difference between the potentials V ₁ and V ₂ causes the A current I ₁ flows in the loop through the power transformer as shown by the dashed line. In Figure 1, _1-1
indicates the signal source equipment body, _2-1 indicates the amplifier body,
_1-2 shows the case of the signal source device 1, and _2-2 shows the case of the amplifier 2.

On the other hand, in the connection state described above, the ground
Impedance Z ₁ exists between G ₁ and G ₂ , and a voltage drop of (I ₁ ×Z ₁ ) occurs due to this impedance Z ₁ . This voltage e _o (I ₁ × Z ₁ ) is equivalently connected in series with the signal voltage, and the voltage e _o is added to the signal voltage e _s and supplied to amplifier 2, where it is amplified and output. Ru. The amplified output voltage caused by the voltage e _o is an undesired output voltage and has the disadvantage of being noise.

In order to reduce this noise, conventionally, as shown in Fig. 2, in the amplifier 2, the input terminal is connected to the ground side.
Some amplifiers use a copper plate 4 or the like on the ground line connected to _C2 to lower the impedance.

However, as mentioned above, when a copper plate or the like is used, there are restrictions on assembly, and manufacturing requires a lot of man-hours, resulting in an expensive product.

(Purpose of the invention) The present invention has been made in view of the above, and is an amplifier that eliminates the above-mentioned drawbacks, is not subject to assembly restrictions, and can reduce noise caused by the difference in ground potential between the signal source equipment and the amplifier. The purpose is to provide

This purpose, according to the present invention, is to reduce the impedance between the ground side C ₂ of the input terminal to which the signal is supplied or the ground side C ₁ of the signal source device output terminal and the ground G ₂ that serves as the reference for amplification at low frequencies. An impedance conversion circuit that converts the impedance of the ground side C ₂ of the input terminal or the ground side C ₁ of the signal source device output terminal and the ground G ₂ to a lower impedance than the impedance of the connection line is connected to the ground side of the input terminal. This is achieved by connecting between the side C ₂ or the ground side C ₁ of the signal source equipment output terminal and the ground G ₂ .

The present invention will be explained below with reference to examples.

(Structure of one embodiment of the invention) FIG. 3 is a block diagram showing the structure of one embodiment of the invention.

In one embodiment of the present invention, the ground side _C2 of the input terminal of the amplifier 2 and the ground _G2 serving as the reference for amplification are connected by one connecting wire 6-1 of the connecting wire ₆ . . Further, the hot side _H2 of the input terminal and the signal input terminal of the amplifier main body _2-1 are connected by the other connection line _6-2 of the connection line 6.

There is an impedance conversion between the ground side C ₂ of the input terminal and the ground G ₂ that lowers the impedance between the ground side C ₂ of the input terminal and the ground G ₂ than the impedance of the connecting wire _6-1 in the low frequency region. Circuit 7 is connected. The impedance conversion circuit 7 includes an operational amplifier, an inverting amplifier _7-1 whose non-inverting input terminal is supplied with the potential of the ground _G2 , and a potential of the ground side _C2 of the input terminal being supplied to the inverting input terminal of the inverting amplifier _7-1 . a capacitor _7-3 that feeds back the output of the inverting amplifier _7-1 to the inverting input terminal, and _an inverting amplifier 7
It consists of a resistor, _7-4 , which returns the output of ₁ to the ground side of the input terminal, _C2 .

(Operation of an embodiment of the invention) In an embodiment of the invention configured as described above, the ground side C ₂ and the ground G ₂ of the input terminal
If an impedance R _x exists in the connection line _6-1 , the equivalent circuit of the impedance conversion circuit is as shown in FIG. In FIG. 4, R ₁ ,
R ₂ is the resistance value of resistor _7-2 , the resistance value of resistor _7-4 ,
_C1 is the capacitance of capacitor _7-3 . In Figure 4, the ground side C ₂ of the input terminal and the ground
The impedance Z with respect to G ₂ is Z=R _x jωC ₁ R ₁ R ₂ /1+jωC ₁ (R ₁ +R ₂ ), assuming that the amplification factor of the operational amplifier is ∞. A parallel connection is shown here.

Therefore, the impedance Z exhibits a frequency characteristic as shown in FIG.

For this reason, the impedance Z between the ground side C ₂ of the input terminal and the ground G ₂ is
At frequencies higher than the frequency α shown in the figure, the impedance _RX exhibited by the connecting wire _6-1 is approximately determined, and at frequencies lower than the frequency α, the impedance is determined by the impedance conversion circuit 7 and is lower than the impedance _RX .

However, the current I ₁ flowing in the loop shown by the broken line in Fig. 1 is a function of the line frequency, and when the line frequency is 50Hz,
It has a spectrum of 200Hz. Therefore, depending on the setting of the frequency α shown in FIG. 5, it is possible to prevent the above-mentioned spectrum from becoming a noise voltage source.

Furthermore, since the connection line _6-2 of the amplifier 2, ie, the hot line, passes through a changeover switch, a loop is formed between the hot line and the connection line _6-1 , ie, the ground line, and this inductance component causes the connection between the output circuit of the amplifier 2 and the input line. Electromagnetic coupling occurs with the circuit, which causes deterioration of the distortion rate, especially at high frequencies in the audio signal band. However, in one embodiment of the present invention, in the high frequency range where electromagnetic coupling causes negative effects, the impedance
Since R _X forms a ground line and the loop with the hot line can be minimized, the distortion factor will not deteriorate due to the connection of the impedance conversion circuit 7.

FIG. 6 is a block diagram showing another embodiment of the present invention.

In another embodiment of the present invention, one end of the resistors _7-2 and _7-4 constituting the impedance conversion circuit 7 is connected to the ground side of the input terminal of the amplifier 2.
Instead of C ₂ , it is connected to the ground side C ₁ of the output terminal of the signal source device 1 .

As can be easily estimated from the embodiment of the present invention, the effect of the other embodiments of the present invention is based on the impedance of the sum of the impedance of the ground side connection line _3-1 of the connection line 3 and the impedance of the connection line _6-1 . On the other hand, the same effect as in the case of one embodiment of the present invention is obtained.

(Effects of the Invention) As explained above, according to the present invention, it is possible to reduce the noise caused by the potential difference between the ground potential of the signal source device and the ground potential of the amplifier without worsening the distortion factor of the amplifier.

Furthermore, since there is no need to use copper plates or the like as in the past, there are no restrictions on assembly, and there is a degree of freedom in the layout of the impedance conversion circuit.

[Brief explanation of the drawing]

FIG. 1 is an equivalent circuit diagram for explaining the influence of a power supply circuit when a signal source device and an amplifier are connected. FIG. 2 is a block diagram of a conventional amplifier. FIG. 3 is a block diagram showing one embodiment of the present invention. FIG. 4 is an equivalent circuit diagram of the impedance conversion circuit in FIG. 3. FIG. 5 is a frequency characteristic diagram of the impedance conversion circuit. FIG. 6 is a block diagram showing another embodiment of the present invention. 1...Signal source equipment, 2...Amplifier, 3 and 6
... Connection wire, 7 ... Impedance conversion circuit.

Claims (1)

[Scope of utility model registration request] Ground side C ₂ of the input terminal where the signal is supplied
or connected between the ground side C ₁ of the signal source device output terminal and the ground G ₂ that serves as the reference for amplification, and between the ground side C ₂ of the input terminal or the ground side C ₁ of the signal source device output terminal and the ground G ₂ and the ground side of the input terminal C ₂ or the ground side of the signal source device output terminal C ₁ at low frequencies.
1. An amplifier comprising an impedance conversion circuit that converts the impedance of the connecting line connecting the _G2 and the ground G2 to a lower impedance.