JPH04577Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Technical Field] This invention relates to a feedback circuit that reduces gain in high frequencies without using a large feedback capacitor.

[Technical background of the invention]

First, a conventional amplifier and its feedback method are shown in FIG. In Figure 1, R _L is the output resistance, R _R ,
R _F is a feedback resistor, C _F is a feedback capacitor,
C _p is a capacitor for phase compensation and frequency characteristic adjustment.

FIG. 2 shows the frequency characteristics of the amplifier shown in FIG. In Figure 2, the slope a is the feedback capacitor
The slope b indicates gain attenuation in the low frequency range due to C _F , and the slope b indicates gain attenuation in the high frequency range due to the capacitor C _P for phase compensation and frequency characteristic adjustment. Also,
GV _p indicates the open room gain, and when the value of the capacitor C _p is changed from 1 _p to 10 _p to 100 _p , the gain in the high range attenuates by 6 dB/oct as shown in Figure 2. Also, as shown in Figure 1, the feedback resistance
When feedback is applied by R _R and _RF , the gain GV decreases as shown by the arrow. Furthermore, even when feedback is applied in this manner, the gain in the high range is attenuated in accordance with the value of the feedback capacitor C _p .

[Problems with background technology]

Therefore, if a large amount of feedback is applied, the gain GV decreases, so a fairly large feedback capacitor is required to prevent excessive extension in the high range. For this reason, there arises a drawback that it is inconvenient for integration.

[Purpose of invention]

This idea was made in view of the above points,
It is an object of the present invention to provide a feedback circuit that causes gain attenuation in high frequencies without using a large feedback capacitor.

[Summary of the idea]

In a low frequency amplifier, a feedback resistor R _R , a feedback resistor R _R , and a feedback capacitor C _F1 have one end connected to the output end, and a feedback resistor connected between the other ends of the feedback resistor R _R and the feedback capacitor C _F1 . Negative feedback is provided by a series circuit including a feedback resistor R, a feedback resistor R _F connected between the connection point between the feedback resistor R and the feedback resistor R _R , and the ground, and a feedback capacitor C _F2 .

[Example of idea]

An embodiment of this invention will be described below with reference to the drawings. In Figure 3, _Q5 is the output transistor. A feedback capacitor C _F1 is connected between the collector electrode of this transistor Q ₅ and the base electrode of a transistor Q ₂ whose base electrode is used as a feedback terminal. Furthermore, feedback resistors R, R _F and a feedback capacitor C _F2 are connected in series between the base electrode of the transistor Q ₂ and the ground electrode. Note that the feedback resistor R is the feedback resistor R and the feedback capacitor.
It is inserted to determine the gain attenuation characteristics in the high frequency range of the amplifier using the time constant of C _F1 . Further, a feedback resistor R _R is connected between the collector electrode of the transistor Q ₅ and the connection point between the feedback resistor R and the feedback resistor R _F . Further, a phase compensation capacitor C _p is connected between the collector electrode and the base electrode of the transistor Q ₅ .

Next, the operation of this device configured as described above will be explained. According to the feedback method shown in Figure 3, when the frequency is low, the amount of feedback is R _R /
The NF point is determined by R _F , and as the frequency increases _, the NF point is
The AC potential rises and a large amount of feedback is applied.
Now, if the impedance of C _F1 is R _c , then R _c , R,
The equivalent circuit of R _R and R _F is shown in Figure 4. Therefore, the combined resistance of R _c , R, and R _R is R _p =
(R _c +R)·R _R /R _R +R _c +R, then the feedback rate is expressed as R _F +R _p ·R/R _c +R/R _p +R _F.

Therefore, the frequency characteristics are almost determined by the feedback resistors R, R _R , R _F and the feedback capacitor C _F1 .

Therefore, the capacitor _Cp only needs to ensure phase and has a small capacitance. Further, the magnitude of the term "R/R _c +R" in the numerator of the above feedback rate equation is determined by R and R _c . Therefore, by appropriately selecting the value of the feedback resistor R, the capacitance of the capacitor C _F1 can be reduced. As shown in FIG. 1, in the conventional circuit, the gain in the high range decreases according to the value of the feedback capacitor _Cp . In other words, the gain of the conventional circuit decreases with a slope of 1/C _p・R _X・Jω (here, _R
is the total impedance). Therefore, in order to attenuate the gain in the high frequency range, a capacitor with a large capacity is required, but in the present invention, by appropriately selecting the value of the feedback resistor R, the capacitor
Even if the capacitance of _CF1 is small, the gain in the high frequency range can be lowered.

[Effect of idea]

As detailed above, according to this invention, even if the capacitance of the phase guarantee capacitor and feedback capacitor is small, the gain in the high range can be lowered.
A feedback circuit that is convenient for integration can be provided.

[Brief explanation of the drawing]

Fig. 1 is a diagram showing a feedback circuit used in a conventional amplifier, Fig. 2 is a diagram showing frequency characteristics of a conventional amplifier, Fig. 3 is a diagram showing a feedback circuit showing an embodiment of this invention, The figure is a diagram for explaining the same. R, R _F , R _R ...Feedback resistance, C _p , C _F1 , C _F2 ...
feedback capacitor.

Claims (1)

[Scope of utility model registration request] In a low frequency amplifier, a feedback resistor R _R and a feedback capacitor C _F1 have one end connected to the output terminal, and a feedback resistor _R and this feedback resistor R are connected between the other ends of the feedback resistor R R and the feedback capacitor C _F1 . and a feedback resistor R _F connected between the connection point of the feedback resistor R _R and the ground, and a series circuit of a feedback capacitor C _F2 to provide negative feedback.