KR20040000930A - Active Resonator of Negative Resistance And RF Active Filter Using The Same - Google Patents

Abstract

PURPOSE: An active resonator with negative resistance and a high frequency active filter using the same are provided to compensate signal loss and prevent oscillation. CONSTITUTION: An active resonator with negative resistance is provided with an active element(52) having the first to third terminal and an amplification function, an inductor(53a) and a capacitor(53c) which generate negative resistance are connected to one terminal of the active element in series. A negative resistor(54) and the equal capacitance(56) formed by the active element, the capacitor and the inductor are connected to negative resistance in series.

Description

Active Resonator of Negative Resistance And RF Active Filter Using The Same}

The present invention relates to a negative resistance active resonator and an active filter for high frequency using the same, and more particularly, to remove unnecessary frequency components in various transmission / reception systems of high frequency and ultra high frequency circuits, and to use only a desired frequency component without loss. A negative resistance active resonator and a high frequency active filter using the same.

In general, the filter is designed using a passive element and an active element, the filter using a passive element has a problem that the signal transmission rate is reduced due to the attenuation of the signal by the resistive components inherent to the passive element. In order to solve this problem, the filter used in the low frequency band uses a lot of active devices, especially active filter using an OP amplifier as a means for reducing the size of the circuit.

On the other hand, it is difficult to design an active filter because it is difficult to manufacture an op amp that can be used in a high frequency band. In other words, the active filter using the OP amplifier is usually used up to several tens of MHz, but in the circuit above 500MHz, the filter using the passive element is mainly used due to the frequency characteristic of the OP amplifier.

A typical circuit for this purpose is a filter circuit using an impedance inverter devised by S. B. Cohn, as shown in (A) of FIG. The resonators 12, 14, and 15 may be controlled by the inverters 11, 13, and 16 to a desired impedance value to design a circuit having filter characteristics. Resonators 17 shown in FIG. 1B are equivalent circuit diagrams for the resonators 12, 14, and 15, respectively.

In particular, the electronic circuit is a trend toward miniaturization and integration in order to reduce its size. However, in order to downsize and integrate the circuit, there is a limit in the case of the filter using only passive elements. In the integrated electronic circuit, it is impossible to design a filter using only passive elements because the filter using the passive element has a large signal loss.

That is, a loss occurs due to the resistance (R) component of the resonator 17 in FIG. 1B. The method that can be proposed to solve this problem is the design of an active filter.

Due to this necessity, there are active filters that can be applied in a high frequency circuit. The circuits shown in FIGS. 2 and 3 to make a negative resistance are representative circuit diagrams.

2 (A) and 3 (A) are circuits equivalent to those of Fig. 2B and 3B, respectively.

In FIG. 2A, the active element 21 and the feedback circuit 22 may be used to make the negative resistor −R 23 and the equivalent capacitor C ′ 24 as shown in FIG. 2B. have.

In addition, in FIG. 3A, the negative element -R 34 and the equivalent inductor L '33 can be made using the active element 31 and the feedback circuit 32 as shown in FIG. 3B. . Here, the negative resistance -R 23 of FIG. 2B and the negative resistance -R 34 of FIG. 3B represent the resistance R of the resonator 17 shown in FIG. As a result, the signal loss due to the resistance component of the resonator unit can be compensated.

FIG. 4 is a same filter circuit as in FIG. 1, which cancels the resistance component R of each of the negative resistance -R (23, 34) resonators 44 and 45 of FIGS. Can compensate. However, the compensating circuit as described above has the same configuration as the existing oscillating circuit and thus has a high possibility of causing oscillation during operation, and thus has a problem of acting as a factor causing a malfunction of the circuit in some cases.

Accordingly, the present invention has been made in view of the problems of the prior art, and its object is to design a high frequency filter using a resonator composed of an active element and a negative resistance, thereby making it possible to compensate for signal loss while preventing negative oscillation resistance. An active resonator and a high frequency active filter using the same are provided.

1 is a circuit diagram showing a conventional general high frequency passive filter.

2 is a negative resistance resonator circuit diagram (A) and its equivalent circuit diagram (B) using a conventional active element and a capacitor.

3 is a negative resistance resonator circuit diagram (A) and its equivalent circuit diagram (B) using a conventional active element and an inductor.

4 is an equivalent circuit diagram of an active filter circuit using a conventional negative resistor.

5 is an active resonator circuit diagram (A) and an equivalent circuit diagram (B) using an active element according to the present invention.

Figure 6 is a circuit diagram showing a high frequency active filter circuit using a negative resistance in accordance with the present invention.

Explanation of symbols on the main parts of the drawings

R: resistance-R: negative resistance

L: Inductor C: Capacitor

In order to achieve the above object, the present invention provides an active element having first to third terminals and having an amplifying function; Negative resistance generation means by the inductor and the capacitor connected in series to any one terminal of the active element, the negative resistance formed by the negative resistance generating means and the capacitance contained in the active element, inductor and capacitor It provides a negative resistance active resonator, characterized in that the equivalent capacitor is composed of an equivalent circuit connected in series with the negative resistance to resonate.

The negative resistance generating means further comprises a resistor for adjusting the negative resistance value by the inductor and the capacitor, and a second capacitor for removing noise generated by the active element and the negative resistance generating means.

And, the present invention is a plurality of inverters; It consists of a plurality of active elements having first to third terminals and having an amplification function and connected between the plurality of inverters, and negative resistance generating means by an inductor and a capacitor connected in series to any one terminal of each active element. A resonator configured to resonate with an equivalent circuit formed by the negative resistance generated by the negative resistance generating means and an equivalent capacitor by the capacitance included in the active element, the inductor, and the capacitor in series with the negative resistance; Including an inductor connected in parallel to the resonator, it provides a high frequency active filter using a negative resistance active resonator, characterized in that it has a high frequency signal filter function.

The negative resistance generating means further comprises a resistor for adjusting the negative resistance value by the inductor and the capacitor, and a second capacitor for removing noise generated by the active element and the negative resistance generating means.

As described above, in the present invention, the resonator is formed by using an active element, thereby reducing signal loss, and miniaturizing and integrating a high frequency circuit.

(Example)

Hereinafter, with reference to the accompanying drawings showing a preferred embodiment of the present invention described above in more detail.

The circuit of the negative resistance active resonator and the high frequency active filter using the same according to the present invention can be represented as shown in FIGS. 5 and 6.

FIG. 5 is a circuit diagram illustrating a resonator by negative resistance, and FIG. 6 is an exemplary diagram of an actual high frequency active filter circuit using the resonator implemented in FIG. 5.

The resonator using the active element shown in Fig. 5A can be represented by an equivalent circuit composed of the negative resistance -R 54 and the equivalent capacitance C 55 shown in Fig. 5B.

The negative resistance -R 54 value may be adjusted by the inductor L 53a and the capacitor C _d 53c of FIG. 5A.

In FIG. 5A, the resistor R 53b is used as a function for finely adjusting the negative resistance -R 54 generated by the inductor L 53a and the capacitor C _d 53c. The resistor (R) 53 does not need to be used if L (53a) and capacitor C _d (53c) can make the negative resistor (-R) 54 a desired value.

In addition, the capacitor C _g 51 connected to the active element Q 52 is used to adjust the value of the equivalent capacitor C 55 and the noise component by the active element Q 52.

In the active filter circuit shown in FIG. 6, the first resonator 64 and the second resonator 65 connect the inductor L ₁ 66 and the inductor L ₂ 67 to the resonator shown in FIG. It shows what constitutes it.

Therefore, by configuring the first resonator 64 and the second resonator 65 using active elements, the loss caused by the existing passive element can be compensated by the negative resistance, so that the filter design has no loss. Would be possible.

According to the present invention, if the active filter circuit is designed using a resonator using an active device as described above, the filter can be designed so that the filter does not have a loss when integrated, and the existing filter design method can be used as it is.

In addition, the possibility of oscillation occurring in the existing active filter circuit can be reduced, and the capacitor C _g (51) shown in FIG. 5 (A) can be designed to optimize the noise figure of the filter. The capacitor C _g 51 has a characteristic that the noise figure of the filter becomes smaller as it has a smaller value.

According to the present invention made as described above, since the resonator is formed by using the active element, the loss of the filter can be reduced by compensating for the signal loss caused by the passive element, and the miniaturization and integration of the high frequency circuit is possible. In addition, since this structure is the same as the conventional filter structure, the existing high frequency filter circuit design technique can be used as it is.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and the general knowledge in the technical field to which the present invention pertains without departing from the spirit of the present invention. Various changes and modifications will be made by those who possess.

Claims (6)

An active element having first to third terminals and having an amplifying function; A negative resistance generation means by an inductor and a capacitor connected in series to one terminal of the active element, A negative resistance formed by the negative resistance generating means, and an active capacitor and an equivalent capacitor based on capacitance included in the inductor and the capacitor are composed of an equivalent circuit connected in series with the negative resistance, the negative resistance active Resonator. 2. The negative resistance active resonator as set forth in claim 1, wherein said negative resistance generating means further comprises a resistor for adjusting negative resistance values by said inductor and capacitor. The negative resistance active resonator of claim 1, further comprising a second capacitor for removing noise generated by the active element and the negative resistance generating means. A plurality of inverters; It consists of a plurality of active elements having first to third terminals and having an amplification function and connected between the plurality of inverters, and negative resistance generating means by an inductor and a capacitor connected in series to any one terminal of each active element. A resonator configured to resonate with an equivalent circuit formed by the negative resistance generated by the negative resistance generating means and an equivalent capacitor by the capacitance included in the active element, the inductor, and the capacitor in series with the negative resistance; And an inductor connected in parallel to the resonator, and having a high frequency signal filter function. 5. The active filter for high frequency using a negative resistance active resonator according to claim 4, wherein the negative resistance generating means further includes a resistor for adjusting negative resistance values by the inductor and the capacitor. 6. The active filter for high frequency using the negative resistance active resonator according to claim 5, further comprising a second capacitor for removing noise generated by the active element and the negative resistance generating means.