JPH01108805A - Feedback type preamplifier device - Google Patents

Abstract

PURPOSE:To electrically control a feedback resistor by controlling a current flowing through a diode so as to set optionally a differentiation resistor of the diode. CONSTITUTION:A feedback resistor 4 connecting the output side and the input side of an amplifier 3, a diode 5 connected in parallel or in series with the feedback resistor 4 and a control circuit 6 controlling the current flowing to the diode 5 are provided on the title amplifier. Thus, a base potential VC of a transistor 6 is controlled to control a DC current flowing through the diode 5. Since the differentiation resistor of the diode varies with the DC current flowing to the diode in general, the differentiation resistor of the diode 5 is controlled by controlling the DC current flowing of the diode 5. Thus, the parallel resistor of the diode 5 and the feedback resistor 4 are controlled. Then the feedback resistor is controlled electrically.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a feedback preamplifier used in optical receivers and the like for optical communication.

2. Description of the Related Art In general, this type of feedback preamplifier has a configuration as shown in FIG. That is, in Figure 2, 1
is an amplifier that amplifies the input signal, inverts the phase, and outputs the signal. A feedback resistor 2 is used to feed back the output of the amplifier 1 to the input.

With this configuration, the frequency characteristics of the amplifier 1 alone and the frequency characteristics of the signal fed back from the output to the input by the feedback resistor 2 become curves 12 and 14 shown in FIG. 3, respectively. Note that since the input and output phases of amplifier 1 are inverted, when feedback is applied to amplifier 1 by feedback resistor 2, its characteristics will be as shown by curves 12 to 14 in FIG.
The frequency characteristic obtained by subtracting , that is, the frequency characteristic as shown by curve 13 is obtained.

As described above, by applying negative feedback to the amplifier, the gain of the amplifier can be reduced and the frequency band can be expanded. Furthermore, as shown in Figure 4, the relationship between the frequency band and gain depends on the size of the feedback resistance (the amount of feedback). can be reduced. Further, since thermal noise current is inversely proportional to the square root of the feedback resistance value, noise can be reduced by increasing the feedback resistance value as shown in FIG.

In this way, in the conventional feedback type preamplifier described above, by selecting the feedback resistor according to the sensitivity and frequency band required of the preamplifier, the optimal preamplifier for the system can be configured. Was.

Problems to be Solved by the Invention However, in the conventional feedback type preamplifier described above, the feedback resistance value is constant, so it is necessary to change the feedback resistance depending on the required characteristics. In such cases, it is difficult and rare to produce a highly versatile XC.

In addition, since the gain is constant, in order to convert various input signal amplitudes into signals with a constant amplitude, a variable gain amplifier must be connected after the preamplifier, which complicates the configuration of the optical receiver. There was a problem with becoming.

The present invention solves these conventional problems.
It is an object of the present invention to provide a feedback type preamplifier whose feedback resistance value can be changed by a control voltage (current).

Means for Solving the Problems In order to achieve this object, the feedback type preamplifier of the present invention includes a feedback resistor connected between the output side and the input side of the amplifier;
It consists of a diode connected in parallel or series with the feedback resistor, and a control circuit that controls the current flowing through the diode.

With this configuration, the differential resistance of the diode changes depending on the current flowing through it, so by controlling the DC current flowing through the diode, the differential resistance of the diode can be set arbitrarily, and the feedback resistance value can also be set arbitrarily. Can be set.

EXAMPLE Hereinafter, an example of the present invention will be described with reference to the drawings.

In FIG. 1, an amplifier 3 amplifies an input signal, inverts the phase, and outputs the signal.

4 is a feedback resistor, which is fed back to the output tube input of the amplifier 3. 6 is a diode, and the flowing DC current is controlled by the base potential vc of the transistor 60, and its differential resistance value is arbitrarily set. 7 and 8 are capacitors, amplifier 30 input/output DC potential and diode 6
The DC potential applied to both ends is separated. e and 1o
1 is a coil that prevents the AC signal flowing through the diode 6 from falling to the ground 11 and the power source. Note that 12 in the figure is a resistor and VO is a power source.

With such a configuration, the feedback type preamplifier of this embodiment can control the direct current flowing through the diode 6f by controlling the base potential vc of the transistor 60. Generally, the differential resistance of a diode changes depending on the direct current flowing through the diode, so if the direct current flowing through the diode 6 can be controlled, the differential resistance of the diode 6 can be controlled. Furthermore, since the parallel resistance of the feedback resistor 4 and diode 6 can be controlled, the gain of the amplifier 3 can be electrically controlled.

Effects of the Invention As is clear from the above description of the embodiments, the feedback amplifier device of the present invention allows the differential resistance of the diode to be arbitrarily set by controlling the current flowing through the diode. The value can now be controlled electrically, and when an amplifier fIo is used, a highly versatile preamplifier can be configured.
Since the feedback resistance value can be changed by electrical control, the gain of the amplifier can also be controlled electrically, making it possible to add a variable gain function to the preamplifier.

[Brief explanation of the drawing]

Fig. 1 is a circuit diagram of a feedback amplifier device according to an embodiment of the present invention, Fig. 2 is a conventional circuit diagram of the same, Fig. 3 is an explanatory diagram showing the frequency band improvement effect of the same device, and Fig. 4 is the same circuit diagram. FIG. 6 is a characteristic diagram showing the relationship between the feedback resistance value and frequency characteristics of the device, and FIG. 6 is a characteristic diagram showing the relationship between the feedback resistance value and noise of the device. 3...Amplifier, 4...Feedback resistor, 6...
...Diode, 6...Transistor (
control means). Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure VEE Figure 2? Fig. 3 Frequency wave Fig. 4 Fig. 5 f River skin connection f

Claims (1)

[Claims] A feedback type comprising a feedback resistor connected between the output end and the input end of the amplifier, a diode connected in parallel or series with the feedback resistor, and a control means for controlling the current flowing through the diode. Preamplifier.