JPS624006B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an amplifier that is not affected by disturbances caused by non-uniformity of ground potentials at respective ground points.

In conventional multi-stage amplifiers, each amplifier operates based on its own ground potential, and the ground potential is non-uniform, causing noise and distortion. This non-uniformity of the ground potential is caused by impedance such as resistance of the conductor and cannot be avoided.

This invention was made to eliminate the above-mentioned conventional drawbacks, and even if the ground potential is uneven,
A signal input between the input terminal and the ground point of the input terminal can be faithfully transmitted between the output terminal and the ground point, providing an amplifier that is not affected by disturbances caused by uneven ground potential. The purpose is to

Embodiments of the amplifier of the present invention will be described below with reference to the drawings. The figure is a circuit diagram of one embodiment. 1 in the figure is a voltage-current converter, 2 is a current-voltage converter, and current transmission of a signal is performed from the voltage-current converter 1 through the current-voltage converter 2.

First, the configuration of the voltage-current converter 1 will be described.
3 is a preamplifier, which has a positive power terminal 5 and a negative power terminal 6;
A voltage of Vcc is applied, and a voltage of -Vcc is applied to the power supply terminal 6.

The preamplifier 3 also includes a non-inverting input terminal 7,
It has an inverting input terminal 8 and a non-inverting input terminal 7.
An input terminal 33 is connected to. A voltage signal is applied to this input terminal 33. Input terminal 33 is connected to ground point 22 via resistor _R1 .
It is grounded to.

The inverting input terminal 8 is connected to the output terminal 35 of the feedback circuit 4, and the feedback circuit 4 is grounded to the ground point 23. An input terminal 36 of the feedback circuit 4 is connected to a midpoint 37, which will be described later.

The preamplifier 3 has output terminals 9 and 10, and is a wideband amplifier capable of amplifying up to the DC region.
The amplitudes are the same, and the output terminals 9 and 10 have different DC output levels. The signal input to the non-inverting input terminal 7 and the output terminals 9, 1
The signal output from 0 is configured so that the phase thereof is inverted. A preamplifier having such a function can be configured into various circuits using conventional techniques.

The bases of PNP type transistors 12 and 13 are connected to the output terminal 9 of the preamplifier 3, and these transistors 12 and 13 constitute a transistor group 11. Transistors 12, 13
A voltage of +Vcc is applied to each emitter through resistors 14 and 15. The collector of the transistor 12 is connected to the midpoint 37, and the collector of the transistor 13 is connected to the voltage-current converter 1.
is connected to the output terminal 25 of.

Furthermore, the output terminal 10 of the preamplifier 3 has
The bases of NPN type transistors 17 and 18 are connected. These transistors 17 and 18 constitute a transistor group 16. The emitters of transistors 17 and 18 each have a resistor of 1
A voltage of -Vcc is applied through terminals 9 and 20.

The collector of the transistor 17 is connected to a midpoint 37, which is connected to the ground point 2 via a resistor 21.
It is grounded at 4. The collector of the transistor 18 is connected to the output terminal 26 of the voltage-current converter 1.

Next, the configuration of the current-voltage converter 2 will be explained. This current-voltage converter 2 is a transistor 2
The transistor 29 is of a PNP type, and a voltage of +Vcc' is applied to its base, and its emitter is connected to the input terminal 27 of the current-voltage converter 2. Input terminal 2
7 is connected to the output terminal 25 of the voltage-current converter 1. The collector of this transistor 29 is connected to the output terminal 34 of the current-voltage converter 2. This output terminal 34 is connected to a ground point 32 via a resistor 31.

The transistor 30 is of the NPN type, and a voltage of -Vcc' is applied to its base, its collector is connected to the output terminal, and its emitter is connected to the input terminal 28 of the current-voltage converter 2.

Next, the operation of the amplifier of the present invention configured as described above will be explained. First, a voltage signal input to the output terminal 1 of the voltage-current converter 1 is input to the non-inverting input terminal 7 of the preamplifier 3. In the preamplifier 3, the signal input to the non-inverting input terminal 7 and the signal output from the output terminals 9 and 10 are inverted in phase. In principle, the transistors 12 and 13 and the transistors 17 and 18 have the same characteristics and are used under the same conditions. In this case, resistors 14 and 15, 19 and 20 are also set to the same value. In addition, the grounding points 22, 23, 24
are close enough to be considered to be practically the same potential.

By doing this, as mentioned above,
A signal input to the non-inverting input terminal 7 of the preamplifier 3 is amplified there, and outputs having the same phase and amplitude are outputted from the output terminals 9 and 10. The phase of this output is inverted with respect to the signal applied to the non-inverting input terminal 7.

Transistors 12 and 17, 13 and 18 have a complementary configuration, and the output signals appearing at output terminals 9 and 10 are the same as those of transistor 12.
17, 13 and 18, and the output thereof is grounded from the midpoint 39 through the resistor 21, inputted to the feedback circuit 4 from the midpoint 29, and then sent from the output terminal 35 of the feedback circuit 4 to the preamplifier 3.
is applied to the inverting input terminal 8 of .

Further, the outputs of the output terminals 9 and 10 of the preamplifier 3 are connected to a transistor 13 having a complementary configuration.
and 18, and is amplified by these transistors 13 and 18, and each transistor 13,
The output of 18 is the output terminal 2 of the voltage-current converter 1.
5 and 26, and becomes a current signal source at input terminals 27 and 28 of the current-voltage converter 2.

The current-voltage converter 2 is mainly composed of transistors 29 and 30 having a complementary configuration, and the output of the voltage-current converter 1 is inputted to the emitters of both transistors 29 and 30 as current signal sources. The output terminal 34 of the current-voltage converter 2 is connected to the collectors of the transistors 29 and 30.
is output to.

Here, the operation will be further explained in detail. A voltage signal directly proportional to the voltage signal input between the input terminal 33 of the voltage-current converter 1 and the ground point 22 is output to the feedback circuit 4.
As a result, a voltage signal is obtained between the midpoint 37 and the ground point 24, and the voltage signal is proportional to the sum of the currents flowing out from the collectors of the transistors 12 and 17. and 26
It is also proportional to the total value of the current output from the current −
It is also proportional to the voltage between the output terminal 34 of the voltage converter 2 and the ground point 32.

Therefore, the input terminal 3 of the voltage-current converter 1
3 and the ground point 22 can be obtained between the output terminal 34 of the current-voltage converter 2 and the ground point 32. Moreover, this proportional relationship is maintained without being affected at all even if there is a potential fluctuation between the ground points 22 and 32.

Note that although all of the above embodiments have been described using transistors, it is of course possible to replace each transistor with a field effect transistor.

As described above, according to the amplifier of the present invention, the voltage-current converter is a complementary push-pull collector output current source, the current-voltage converter has a base-grounded push-pull receiving end, and the symmetrical midpoint thereof is output. It constitutes a current-voltage converter section with a load resistor connected to its output terminal, and a voltage-
Since electrical signals are transmitted from the current converter to the current-voltage converter, even if the ground potential is uneven, the signal input between the input terminal of the voltage-current converter and the ground point will be It is faithfully transmitted between the output terminal of the current-voltage converter and the ground point. Therefore, high-fidelity transmission of electrical signals is possible.

[Brief explanation of the drawing]

The figure is a circuit diagram showing one embodiment of the amplifier of the present invention. 1... Voltage-current converter, 2... Current-voltage converter, 3... Preamplifier, 4... Feedback circuit, 1
1, 16...transistor group, 12, 13, 1
7, 18, 29, 30...transistor, 14,
15,19~21,31, _R1 ...Resistance.

Claims (1)

[Claims] 1. A voltage signal applied between an input terminal and a ground point is applied to a non-inverting input terminal, and with respect to the voltage signal applied to the non-inverting input terminal with the same phase and amplitude to two output terminals. A preamplifier having two output terminals and an inverting input terminal for obtaining an output whose phase is inverted, a first complementary circuit for amplifying the outputs of the two output terminals of the preamplifier, and an output of the first complementary circuit. A feedback circuit that applies a voltage between the terminal and ground to the inverting input terminal, the preamplifier, the first complementary circuit, and the feedback circuit constitute a voltage-to-current converter, and the voltage at the two output terminals of the preamplifier is a second complementary circuit that outputs the signal as a current signal;
An amplifier comprising a current-to-voltage converter constituted by a common base complementary amplifier circuit and receiving the current signal as input and outputting a voltage signal proportional to the voltage signal between the input terminal and the ground between the output terminal and the ground. 2. The first and second complementary circuits are transistors having the same characteristics, and each emitter thereof is connected to a power supply through a resistor having the same resistance value. amplifier.