JP2983996B2 - DC cut circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The DC component cutoff circuit of the present invention will be described according to the following items.

A. Industrial application fields B. Summary of the invention C. Prior art [Fig. 2] D. Problems to be solved by the invention E. Means to solve the problems F. Embodiment [Fig. 1] a. Configuration b. Operation G. Effects of the Invention (A. Industrial Application Field) The present invention relates to a novel DC component cutoff circuit. More specifically, in an input circuit such as a broadband amplifier, an object is to provide a novel DC component cut circuit capable of effectively cutting a DC component without using a large-capacity coupling capacitor on a signal line. It is.

(B. Summary of the Invention) The DC component cut circuit of the present invention connects an input terminal to a base of a common-emitter amplifier via a buffer, connects a constant current source and a capacitor in parallel to the emitter, and outputs to a collector. Because the terminals are connected, the operating point of the collector current of the common emitter amplifier becomes constant, and even if the DC level of the input signal changes, the change of the DC level does not appear at the output of the common emitter amplifier. The DC component can be cut without providing a large-capacity coupling capacitor on the signal line.

(C. Prior Art) [FIG. 2] FIG. 2 shows an example of a conventional input circuit a which cuts a DC component of an input signal and outputs only a signal component.

b is an input terminal, c _a is a coupling capacitor, one end connected to the input terminal b, and the other end is connected to the base of NPN transistor Q _a which is the emitter follower.

_Ra is a terminating resistor, one end of which is connected to the input terminal b and the other end is grounded.

R _b is the resistance, one end of which is connected to the base of the transistor Q _a, the other end is connected to the positive side of the bias power supply B _a, the negative side of the bias supply B _a is grounded.

Transistor Q _a is connected its collector to the positive supply, also, the emitter is grounded through an emitter resistor R _c.

c is an output terminal connected between the emitter and the emitter resistor R _c of the transistor Q _a.

Thus, according to the input circuit a, the input signal inputted to the input terminal b thereof DC component is cut by a coupling capacitor C _a, after only the signal component is input to the base of the transistor Q _a, Output terminal c as buffer output
And is sent to an input terminal of an amplifier circuit (not shown) to be amplified.

(D. SUMMARY OF THE INVENTION) However, in wideband video amplifier ranging from several H _z to several 100 MHz _z, it is necessary to pass the number H _z in the low-frequency,
When the input circuit a is used as the input circuit, the time constant defined by the coupling capacitor _Ca and the resistor _Rb must be sufficiently large. However, since in many cases a lower generally small signal current amplification factor H _fe so used having a high cut-off frequency f _T is the transistor Q _a, resistor R _b
To increase the resistance value is limited, therefore, the capacitance of the coupling capacitor C _a becomes that of large even number 100～1000MyuF.

In recent years, in order to realize a high resolution monitor is becoming necessary video amplifier having a bandwidth from a few H _z to about 300MH _z, the input circuit a as the input circuit of such video amplifier when used, the input impedance disturbance it means that the capacitor C _a large capacity is provided on the signal line, the return loss at high frequencies is increased, Sumiya the screen, ringing, that ghost or the like is generated There was a problem.

(E. Means for Solving the Problem) In order to solve the above problems, the DC component cut circuit of the present invention cuts a DC component of an input wideband video signal and outputs a signal component. In the cut circuit, a buffer configured using an emitter-follower transistor and a common-emitter amplifier connected to the buffer and configured with a common-emitter transistor are provided, and one end of a resistor is connected to the emitter of the common-emitter amplifier transistor. In addition, a constant current source is connected to the other end of the resistor, and one end of a capacitor is connected to the other end of the resistor, so that the capacitor and the constant current source are arranged in parallel. Is set to the low frequency of the video signal.

Therefore, according to the DC component cut circuit of the present invention, the DC component of the wideband video signal can be effectively cut, and the constant current source and the capacitor in parallel with the constant current source are connected,
And since the low-frequency cutoff frequency is set to the low-frequency of the video signal, for example, even when used in a wideband video amplifier, the return loss in the high frequency range is suppressed, and the screen has smear,
The occurrence of ringing, ghost, and the like can be prevented, and a high-resolution monitor can be realized.

(F. Embodiment) [FIG. 1] Hereinafter, the details of the DC component cutoff circuit of the present invention will be described according to an embodiment shown in the drawings.

FIG. 1 shows an embodiment in which the DC cutoff circuit of the present invention is applied to an input circuit 1 of a video signal amplifier.

(A. Configuration) Reference numeral 2 denotes an input terminal to which a video signal is input.

R ₁ has one end connected to the input terminal 2 is a terminal resistor whose other end is grounded.

Q ₁ is an NPN transistor which is the emitter follower, its base is connected to the input terminal 2, a collector is connected to a positive power supply, the emitter is connected to the negative power supply via a resistor R ₂ functions as a buffer 3.

Q ₂ is an NPN transistor whose emitter is grounded,
Its base connected to the emitter of the transistor Q _1, the collector is connected to a positive supply via a resistor R _3, the emitter is connected to the negative power supply via a resistor R ₄ and a constant current source I _s.

C ₁ is a capacitor, one end of which is a resistor R ₄ and a constant current source
The connection point between the I _s (hereinafter referred to. "A point") is connected to,
The other end is grounded.

4 is an output terminal is connected to the collector of the transistor Q _2, is connected to the input side of the amplifier circuit of the video signal (not shown.).

(B. Operation) The DC component cut circuit 1 of this embodiment operates in the following manner, cutting the DC component of the input signal and outputting only the signal component.

First, the input signal input from the input terminal 2 is a termination resistor.
Is terminated by R _1, is input to the base of the transistor Q _1.
The output of the buffer 3 becomes to be input to the base of the transistor Q _2, the transistor Q ₂ is the resistor R ₄
And because it is connected to the negative power supply via a constant current source I _s, the Q ₂ base - is biased voltage between the emitter bias current to flow.

Since there is a low impedance to the AC signal component by the capacitor C _1, the emitter current is divided into a DC component and the signal component at the point A, the DC component is controlled to a constant current by the constant current source I _s Is done.

Therefore, when there is a change in the DC level of the input signal, to the transistor Q ₁ and the transistors Q each emitter potential of the ₂ changes, the resistor R ₄ also changes the potential at the point A because a constant direct current flows made, but the current at the operating point of the collector current of the transistor Q ₂ substantially equal to the current I _s, so invariable, the change in DC level of the input signal does not appear in the output of the transistor Q _2, to cut a DC component be able to.

At this time the cut-off frequency of the low frequency is defined by a time constant determined by the resistance value and the capacitance value of the capacitor C ₁ of the resistor R _4, it is a few H _z.

(G. Effect of the Invention) As is clear from the above description, the DC component cut circuit of the present invention is a DC component cut circuit that cuts a DC component of an input wideband video signal and outputs a signal component. A buffer configured using an emitter-follower transistor, and a common-emitter amplifier connected to the buffer and configured with a common-emitter transistor. One end of a resistor is connected to the emitter of the common-emitter amplifier transistor. A constant current source is connected to the other end of the resistor, and one end of a capacitor is connected to the other end of the resistor so that the capacitor and the constant current source are arranged in parallel. The cutoff frequency of the low frequency determined by the above is set to the low frequency of the video signal.

Therefore, according to the DC component cut circuit of the present invention, the DC component can be effectively cut with respect to the input of the wideband video signal, and the constant current source and the constant current source are connected to the emitter side of the common emitter amplifier via the ground. Since a parallel capacitor is connected and the low cutoff frequency is set to the low frequency of the video signal, for example, even when used for a wideband video amplifier, the return loss in the high frequency is suppressed,
It is possible to prevent the occurrence of smear, ringing, ghost, and the like on the screen, and to realize a high-resolution monitor.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment in which a DC component cut circuit of the present invention is applied to a video signal input circuit, and FIG. 2 is a circuit diagram showing a conventional input circuit for cutting a DC component. Description 1 ...... DC component cut circuit code, 3 ...... buffer transistor Q ₁ ...... emitter follower, Q ₂ ...... common emitter of the transistors, R ₄ ...... resistance C ₁ ...... capacitor, I _s ...... constant current source

Claims (1)

(57) [Claims] 1. A DC cutoff circuit for cutting a DC component of an input wideband video signal and outputting a signal component, comprising: a buffer configured by using a transistor of an emitter follower; And a grounded-emitter amplifier comprising a transistor of the above-described type, wherein one end of a resistor is connected to the emitter of the transistor of the grounded-emitter amplifier, a constant current source is connected to the other end of the resistor, and the other end of the resistor Connected to one end of a capacitor, so that the capacitor and the constant current source are arranged in parallel, and a low cutoff frequency determined by a time constant of the resistor and the capacitor is set to a low frequency of the input video signal. A DC cutoff circuit characterized by setting the frequency.