KR100314625B1 - Isolator - Google Patents

Abstract

The present invention relates to an irreversible circuit device capable of preventing deformation of a strip line intersecting an upper surface of a garnet ferrite, which is a magnetic element of an irreversible circuit device. In particular, the garnet ferrite of the irreversible circuit device ( The strip line 200 of the inner terminal 130 that is folded to the side of the 140 is composed of a pair of transmission lines 220 that are substantially parallel, a plurality of transmission lines 220 in the portion folded to the side of the garnet ferrite 140. Reinforcement portion 210 for preventing separation and strength reinforcement of the shell), the lower portion of the reinforcement portion 210 of the strip line 200 to increase the transmission efficiency, and close the strip line to the garnet ferrite to improve the electromagnetic characteristics It is composed of three or more transmission lines 220 to stabilize.

Accordingly, it is possible to stabilize the electromagnetic characteristics while preventing the separation of the transmission lines and reinforcing the strength of the strip line.

Description

Irreversible Circuitry {ISOLATOR}

The present invention relates to three strip lines of the folded portion of the side of the garnet ferrite in a strip line intersecting the upper surface of the garnet ferrite, which is a magnetic element of an irreversible circuit element used in a microwave material. The present invention relates to an irreversible circuit element configured to configure the connection part of the transmission line by using the above transmission line, thereby preventing separation of the transmission lines, reinforcing the strength of the strip line, and stabilizing electromagnetic characteristics.

Conventionally known non-reciprocal circuit elements are inserted between the power amplifier module and the antenna switch of the wireless device and used to protect the power amplifier module by absorbing the signal source reflected from the antenna switch.

FIG. 1 is a block diagram showing a partial configuration of a system including an irreversible circuit element. As shown here, a low-pass filter after a transmission signal Tx is amplified by a power amplifier module 15 After filtering at the (LOW PASS FILTER) 14, it is sent to the antenna 11 through the antenna switch 12, and sent out from the antenna 11.

In addition, the reception signal Rx receives airwaves from the antenna 11 and filters the signals of a specific frequency band by the band pass filter 16 through the antenna switch 12. In general, the irreversible circuit element 13 is inserted between the power amplifier module 15 and the antenna switch 12 of the wireless device to absorb the signal source reflected from the antenna switch 12 to protect the power amplifier module 15 will be.

FIG. 2 is a circuit diagram showing a basic equivalent circuit of an irreversible circuit element. As shown here, an input terminal is coupled with an output of a power amplifier module 15 of a transmission unit, and a high frequency transmission signal Tx is input thereto. The terminal is also connected to the internal terminal 22 so that the input high frequency transmission signal Tx is transmitted to the internal terminal 22. An input capacitor C1 is connected between the input terminal and the ground. The output terminal is connected to the internal terminal 22, and the output terminal is also connected to the antenna switch 12, the input high frequency signal is finally transmitted through the antenna (11).

The output capacitor C2 is also connected between the output terminal and ground. A ground capacitor C3 and a terminating resistor R of 50 Ω are connected in parallel between the internal terminal 22 and the ground. The signal transmitted from the power amplifier module 15 through the input terminal and transmitted to the output terminal through the internal terminal is returned from the antenna switch 12 connected to the output terminal to return to the input terminal. Sink to ground through terminating resistor (R). Therefore, the irreversible circuit element 13 removes the carrier power to prevent the power amplifier module 15 from being damaged by the power of the signal being conveyed, thereby protecting the power amplifier module 15.

In the configuration of such an irreversible circuit element, as shown in FIG. 3, a case 50 having a ground terminal 51 and an input / output terminal 52 formed thereon, a capacitor 53 coupled to each terminal, A terminating resistor 54 for forming a grounding resistor, an internal terminal 55 for transmitting a signal of an input terminal to an output terminal, and synchronizing a return signal of the output terminal to the ground terminal; Permanent magnet 56, GARNET FERRITE 57 serving as a micro device, a resin case 58 for supporting the permanent magnet 56 and garnet ferrite 57 up and down, and a cover The case 59 is comprised.

In addition, as shown in FIG. 4, the inner terminal 55 has a magnetic body 61 of the inner terminal 55 having a strip line 62 having a crossing angle of 120 degrees with respect to the central magnetic body 61. A reinforcing part 63 is formed to secure bending strength at the contact surface.

The strip line 62 that is bent at the contact portion of the magnetic body 61 of the inner terminal 55 as described above is composed of a pair of transmission lines, so that the strip line is folded while wrapping the garnet ferrite 57 when the irreversible circuit device is manufactured. There are disadvantages in that the two transmission lines 62a and 62b are opened.

FIG. 5 is a view showing the internal terminal structure of the irreversible circuit element according to Japanese Unexamined Patent Application Publication No. 5-82109. The strip line 72 has an intersection angle of 120 degrees with respect to the magnetic material 71 in the center of the internal terminal 70. FIG. Is formed, and the strip line 72 folded and present on the upper surface of the garnet ferrite 73 includes a pair of transmission lines 72a and 72b in which the strip line 72 is bent in the magnetic contact surface portion. In order to prevent the separation of the strip line formed as described above, one connection portion 72c is formed.

In this case, one connection portion 72c is formed between the two transmission lines 72a and 72b of the strip line 72 to prevent the separation of the strip line, or the pair of transmission lines 72a and 72b. ) Wraps around the contact surface of the magnetic material, and there are disadvantages in that two transmission lines are opened during the folding process.

6 is a diagram showing the internal terminal structure of the irreversible circuit element according to Japanese Patent Application Laid-open No. Hei 8-8613, which also has a cross angle of 120 degrees with respect to the magnetic body 81 in the center of the internal terminal 80. The line 82 is formed, and the strip line 82 folded and present on the upper surface of the garnet ferrite has a configuration in which the strip line 82 that is bent in the magnetic contact surface portion is formed of four transmission lines 83.

In such a case, the plurality of (4) transmission lines 83 formed on the strip line 82 prevent the transmission lines from spreading during the folding and folding of the contact portion of the magnetic material, or the strip lines each composed of separate transmission lines. The connection part of the non-existent, the strength is extremely weak, in this case there is a disadvantage that the transmission line is easily short-circuited, there is a problem that the deformation of the strip line is easily generated and the current resistance characteristics of the strip line is degraded. .

SUMMARY OF THE INVENTION The present invention has been made to solve various problems of the related art as described above, and an object thereof is that strip lines of internal terminals existing on the upper surface of the garnet ferrite of an irreversible circuit element are formed of a plurality of transmission lines, respectively. Forming a connecting portion connecting the plurality of transmission lines on the side folded to prevent the separation of the transmission lines of the strip line, by providing a non-reciprocal circuit element that can further enhance the strength of the strip line by the connection portion It is.

Another object of the present invention, at least two or more separation grooves are formed at the bottom of the connection terminal of the inner terminal strip line to form three or more transmission lines, thereby reducing the electrical resistance, increasing the transmission area to increase the transmission efficiency and at the same time The present invention provides an irreversible circuit device that can be in close contact with the garnet ferrite to fix the garnet ferrite, thereby improving the current resistance of the strip line and improving the electromagnetic properties of the irreversible circuit device.

1 is a block diagram showing a partial configuration of a system including an irreversible circuit device (ISOLATOR).

2 is a circuit diagram showing a basic equivalent circuit of an irreversible circuit element.

3 is a block diagram showing the structure of a conventional irreversible circuit element.

4 is a diagram illustrating a strip line of an internal terminal provided in a conventional irreversible circuit element.

5 is a block diagram showing an inner terminal strip line of another conventional irreversible circuit device.

6 is a block diagram showing an inner terminal strip line of another conventional irreversible circuit device.

7 is a view showing a detailed structure of the irreversible circuit device according to the present invention.

8 is a plan view showing the internal terminal strip line of the irreversible circuit device of the present invention.

9 is a front configuration diagram of an inner terminal strip line folded in the garnet ferrite of the irreversible circuit element of the present invention.

Fig. 10 is a plan view of a strip line folded into the garnet ferrite of the irreversible circuit element of the present invention.

11A and 11B are diagrams showing another structure of the strip line of the internal terminal of the irreversible circuit element according to the present invention.

12 is a block diagram showing the inner terminal strip line of the irreversible circuit device according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100.Lower case 110 ... Ground terminal

120 ... input / output terminal 130 ... internal terminal

140 Garnet Ferrite 150 Permanent Magnet

160 ... Cover Case 200 ... Strip Line

210 ... reinforcement part 220 ... transmission line

230 ... Strip line separating groove

P ... Transmission line groove

The present invention as a technical configuration for achieving the above object, the input terminal is connected to the output of the power amplifier module to input a high frequency transmission signal, and the output terminal is connected to the antenna switch and the input high frequency signal to the antenna A lower case having a ground terminal configured to ground a signal carried from the antenna switch to the output terminal;

An input capacitor and an output capacitor connected to the input terminal and the output terminal, respectively, to form an LC resonant circuit in an input signal and an output signal, and to pass a signal having a predetermined frequency;

A ground capacitor and a resistor connected to the ground terminal to ground the carrier signal;

A center shielding plate and three strip lines projecting radially from the center shielding plate, and the three strip lines are folded over the garnet ferrites positioned on the center shielding plate, respectively, for the input terminal, the input capacitor, and the output terminal. An internal terminal connected to an output capacitor and a ground terminal and a ground capacitor and a resistor to transmit a signal input to the input terminal to the output terminal, and to sink a return signal of the output terminal to the ground terminal;

Garnet ferrite is located above the central shielding plate, and has an irreversible propagation characteristic.

Permanent magnets generating a static magnetic field,

In the irreversible circuit element comprising a cover case surrounding the upper side of the permanent magnet,

The strip line of the inner terminal is composed of a pair of transmission lines that are substantially parallel, and has a reinforcing portion for preventing separation and a plurality of transmission lines in the portion folded to the side of the garnet ferrite, the lower portion of the reinforcing portion of the strip line The present invention provides a non-reciprocal circuit element, comprising three or more transmission lines for enhancing transmission efficiency and stabilizing electromagnetic characteristics by bringing the strip line into close contact with the garnet ferrite.

In addition, the non-reciprocal circuit device of the present invention is to provide a non-reversible circuit device that is present in the reinforcement portion of the strip line of the internal terminal is less than 1/2 of the total length of the strip line.

In addition, the non-reciprocal circuit device of the present invention, the input terminal is connected to the output of the power amplifier module to input a high frequency transmission signal, the output terminal is connected to the antenna switch and transmits the input high frequency signal to the antenna and the antenna A lower case having a ground terminal for grounding a signal returned from the switch to the output terminal,

An input capacitor and an output capacitor connected to the input terminal and the output terminal, respectively, to form an LC resonant circuit in an input signal and an output signal, and to pass a signal having a predetermined frequency;

A ground capacitor and a resistor connected to the ground terminal to ground the carrier signal;

A center shielding plate and three strip lines projecting radially from the center shielding plate, and the three strip lines are folded over the garnet ferrites positioned on the center shielding plate, respectively, for the input terminal, the input capacitor, and the output terminal. An internal terminal connected to an output capacitor and a ground terminal and a ground capacitor and a resistor to transmit a signal input to the input terminal to the output terminal, and to sink a return signal of the output terminal to the ground terminal;

Garnet ferrite is located above the central shielding plate, and has an irreversible propagation characteristic.

Permanent magnets generating a static magnetic field,

In the irreversible circuit element comprising a cover case surrounding the upper side of the permanent magnet,

The strip line of the inner terminal is composed of a pair of transmission lines that are substantially parallel, and has a reinforcing portion for preventing separation and a plurality of transmission lines in the portion folded to the side of the garnet ferrite, the lower portion of the reinforcing portion of the strip line It is composed of three transmission lines to increase the transmission efficiency and to stabilize the electromagnetic characteristics by closely contacting the strip line to the garnet ferrite, the width of the transmission line is characterized in that the configuration is formed larger than the width of the reinforcement of the strip line By providing an irreversible circuit element.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

7 is a view showing a detailed structure of the irreversible circuit device according to the present invention, Figure 8 is a plan view showing the internal terminal strip line of the irreversible circuit device of the present invention and Figure 9 is a garnet of the irreversible circuit device of the present invention As a front configuration diagram of an inner terminal strip line folded in a ferrite, the irreversible circuit device of the present invention includes a lower case 100 and an inner terminal 130, a permanent magnet 150, a garnet ferrite 140, and a cover case 160. Equipped with.

The lower case 100 in which the ground terminal 110 and the input / output terminal 120 are formed, the input terminal is coupled to the power amplifier module output of the transmission unit, and the high frequency transmission signal Tx is input to the internal terminal 130. The output terminal is connected to the input of the antenna switch and receives the high frequency signal input through the input terminal through the internal terminal 130 and finally transmits the signal to the antenna.

In addition, the input and output capacitors respectively connected to the input / output terminals 120 form LC resonant circuits on the input signal and the output signal to pass signals of a predetermined frequency, and are connected to the ground terminal 110. The ground capacitor and the resistor which ground become the ground of the conveyance signal of an output terminal.

In addition, the inner terminal 130 is composed of three strip lines 200 protruding radially from the center shielding plate, the three strip line 200 is a garnet ferrite located on the upper side of the center shielding plate. Folded up (140) is connected to the input / output terminal 120 and the input / output capacitor and the ground terminal 110, the ground capacitor and a resistor, respectively, and transmits the signal input from the input terminal to the output terminal, the output The carrier signal of the terminal is synchronized to the ground terminal.

At this time, the upper side of the center shielding plate of the ground terminal 110, the garnet ferrite 140, which serves as a micro device, the permanent magnet 150 for generating a static magnetic field and the cover case 160 surrounding the permanent magnet is Is installed.

In addition, as shown in FIG. 8, the strip line 200 of the inner terminal 130 is formed of a pair of transmission lines 220 that are substantially parallel, and folded to the side of the garnet ferrite 140 as shown in FIG. 9. A reinforcement part 210 is formed in the portion to prevent separation and reinforcement of the plurality of transmission lines 220, and a lower end of the reinforcement part 210 of the strip line 200 increases the transmission efficiency and the strip line 200. To be in close contact with the garnet ferrite 140 is composed of three or more transmission lines 220 to stabilize the electromagnetic characteristics.

In addition, the reinforcing portion 210 of the strip line 200 of the internal terminal 130 existing on the upper surface of the garnet ferrite 140 of the irreversible circuit element is present at less than 1/2 of the entire length of the strip line 200. It consists of a configuration.

Referring to the operation and effect of the present invention made of such a configuration as follows.

As shown in FIGS. 7 to 10, a strip line 200 having a crossing angle of 120 degrees is formed based on a magnetic material in the center of the inner terminal 130 of the irreversible circuit element, and the upper surface of the garnet ferrite 140 is formed. The strip line 200 that is folded in and forms the lower end connected to the center shielding plate, which is the center conductor in the center of the inner terminal 130, is formed by three transmission lines 220, and is folded on the upper surface of the garnet ferrite 140. Is formed in the separation groove 230 of the strip line 200 is formed with one or more reinforcing portion 210 for preventing the separation of the strip line 200.

When the strip line 200 of the inner terminal 130 is folded in a state in which the transmission line 220 of the strip line 120 is wrapped in a contact portion of the garnet ferrite 140, as shown in FIG. 9, the garnet ferrite 140 In this case, three transmission lines 220 are formed to reduce the resistance of the strip line 200 that is folded to the folded portion of the contact line. In this case, the separation groove 230 and the three transmission lines 220 of the strip line 200 are formed. The reinforcement portion 210 is formed between the upper and lower reinforcement portion 210 in a state in which the strip line 200 folded into the contact portion of the garnet ferrite 140 is folded in close contact with three transmission lines. By the strength of the strip line is reinforced to prevent the short circuit of the transmission line 220, it is possible to prevent the phenomenon that the strip line 200 is spaced apart.

On the other hand, the reinforcement portion 210 of the strip line 200 of the inner terminal 130 existing on the upper surface of the garnet ferrite 140 of the irreversible circuit element, so as to be formed in less than 1/2 of the entire length of the strip line 200. As a result, as shown in FIGS. 9 and 10, the reinforcement portion 210 of the strip line 200 is positioned on the contact side of the garnet ferrite 140 so that the three separate transmission lines 220 are excessively long and the contact portion This prevents deformation of the stripline 200 from being folded in excess, and also increases the strength of the stripline 200 of the contact portion.

FIG. 11 is a view illustrating another structure of a strip line of an internal terminal of an irreversible circuit device according to the present invention, wherein three transmission lines 220 are formed at a lower end of the strip line 200 of the internal terminal 130 while garnet ferrite ( When folded to the contact portion of the 140, the separation groove (P) of the transmission line 220 is predetermined such as elliptical or the like as shown in Fig. 11 (A) so that the transmission line 220 can have sufficient strength without being short-circuited. It may be formed in the shape of, or as shown in Fig. 11 (B), the number of the separation grooves (P) may be formed in one or more.

On the other hand, Figure 12 is a block diagram showing the inner terminal strip line of the irreversible circuit device according to another embodiment of the present invention, the strip of the inner terminal 130 folded to the side of the garnet ferrite 140 of the irreversible circuit device The line 200 includes a pair of transmission lines 220 that are substantially parallel, and the reinforcement unit 210 for preventing separation and reinforcing strength of the plurality of transmission lines 220 at a portion folded to the side of the garnet ferrite 140. The three transmission lines 220 for lowering the reinforcement portion 210 of the strip line 200 to increase the transmission efficiency and to stabilize the electromagnetic characteristics by bringing the strip line 200 into close contact with the garnet ferrite 140. The width W of the transmission line 220 is formed to be larger than the width W ′ of the reinforcement part 210 of the strip line 200.

Accordingly, when the strip line 200 of the inner terminal 130 is folded in a state in which the transmission line 220 of the strip line 120 is wrapped in a contact portion of the garnet ferrite 140, the garnet is folded. The width W of the three transmission lines 220 of the strip line 200 folded into the contact portion of the ferrite 140 is larger than the width W ′ of the upper strip line based on the reinforcement 210. The strength of the strip can be greatly improved, and at this time, the reinforcing portion 210 is formed between the separation groove 230 and the three transmission lines 220 of the strip line 200, so that the strip folded into the ferrite contact portion. The line 200 is folded to be in close contact by three transmission lines, thereby preventing the short circuit of the transmission line 220 and preventing the strip line 200 from being spaced apart.

As described above, according to the irreversible circuit device according to the present invention, the strip lines of the internal terminals existing on the upper surface of the garnet ferrite of the irreversible circuit device are each formed of a plurality of transmission lines, and the plurality of strip lines are folded to the side of the garnet ferrite. By forming a connection portion connecting the transmission line, to prevent the separation of the transmission line of the strip line, it is possible to further improve the strength of the strip line by the connection portion, at least two or more at the bottom of the connection portion of the inner terminal strip line Separating grooves are formed to form three or more transmission lines, thereby reducing electrical resistance and increasing the transmission area to increase transmission efficiency, while at the same time keeping the transmission lines close to the garnet ferrites to fix the garnet ferrites. Improvement of characteristics to transfer irreversible circuit elements There is an excellent effect to improve the magnetic properties.

While the invention has been shown and described with respect to specific embodiments thereof, it will be appreciated that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as set forth in the following claims. Those of ordinary skill will want to know easily.

Claims (19)

A power amplifier module of an irreversible circuit element installed between a power amplifier module and an antenna switch of a wireless device to transmit an output signal of the power amplifier module to the antenna switch and absorb the reflected signal of the antenna switch to protect the power amplifier module. An input terminal connected to an output unit for inputting a high frequency transmission signal, an output terminal connected to the antenna switch to transmit an input high frequency signal to an antenna, and a ground terminal for grounding a signal returned from the antenna switch to an output terminal With a lower case formed, An input capacitor and an output capacitor connected to the input terminal and the output terminal, respectively, to form an LC resonant circuit in an input signal and an output signal, and to pass a signal having a predetermined frequency; A ground capacitor and a resistor connected to the ground terminal to ground the carrier signal; A center shielding plate and three strip lines projecting radially from the center shielding plate, and the three strip lines are folded over the garnet ferrites positioned on the center shielding plate, respectively, for the input terminal, the input capacitor, and the output terminal. An internal terminal connected to an output capacitor and a ground terminal and a ground capacitor and a resistor to transmit a signal input to the input terminal to the output terminal, and to sink a return signal of the output terminal to the ground terminal; Garnet ferrite is located above the central shielding plate, and has an irreversible propagation characteristic. Permanent magnets generating a static magnetic field, In the irreversible circuit element comprising a cover case surrounding the upper side of the permanent magnet , The strip line of the inner terminal is composed of a pair of parallel transmission line, forming a reinforcement for preventing separation of the plurality of transmission lines and the strength reinforcement in the portion folded to the side of the garnet ferrite, the lower end of the reinforcement portion of the strip line At least two separation grooves are formed to closely contact the strip line to the garnet ferrite, thereby forming at least three transmission lines. 2. The irreversible circuit element according to claim 1, wherein the reinforcing part of the strip line of the inner terminal is present at 1/2 or less of the total length of the strip line. 2. The irreversible circuit element according to claim 1, wherein the reinforcing portion of the transmission line of the strip line overlapping the garnet ferrite side surface of the irreversible circuit element is formed on the garnet ferrite side surface. The irreversible circuit device according to claim 1, wherein the separation groove in the lower end of the strip line of the inner terminal has a predetermined shape. 6. The irreversible circuit device according to claim 5, wherein the separation groove in the lower end of the strip line of the inner terminal is formed in an elliptical shape. The irreversible circuit device according to claim 5, wherein the separation groove in the lower end of the strip line of the inner terminal is configured in a plurality of circles. The irreversible circuit device according to claim 5, wherein the separation groove in the lower end of the strip line of the inner terminal is formed of a polygon. The irreversible circuit device according to claim 8, wherein the separation groove in the lower end of the strip line of the inner terminal is formed in a rectangle. The irreversible circuit element according to claim 1, wherein the width of the transmission line of the strip line is larger than the width of the reinforcing part of the strip line. The irreversible circuit element according to claim 1, wherein the width of the transmission line at the lower end of the reinforcing portion of the strip line is smaller than the width of the transmission line of the strip line. The power amplifier of the irreversible circuit element is installed between the power amplifier module of the wireless device and the antenna switch to transmit the output signal of the power amplifier module to the antenna switch and absorb the reflected signal of the antenna switch to protect the power amplifier module. An input terminal connected to a module output unit to input a high frequency transmission signal, an output terminal connected to the antenna switch to transmit an input high frequency signal to an antenna, and a ground terminal to ground a signal returned from the antenna switch to an output terminal The lower case is formed, An input capacitor and an output capacitor connected to the input terminal and the output terminal, respectively, to form an LC resonant circuit in an input signal and an output signal, and to pass a signal having a predetermined frequency; A ground capacitor and a resistor connected to the ground terminal to ground the carrier signal; A center shielding plate and three strip lines projecting radially from the center shielding plate, and the three strip lines are folded over the garnet ferrites positioned on the center shielding plate, respectively, for the input terminal, the input capacitor, and the output terminal. An internal terminal connected to an output capacitor and a ground terminal and a ground capacitor and a resistor to transmit a signal input to the input terminal to the output terminal, and to sink a return signal of the output terminal to the ground terminal; Garnet ferrite is located above the central shielding plate, and has an irreversible propagation characteristic. Permanent magnets generating a static magnetic field, In the irreversible circuit element comprising a cover case surrounding the upper side of the permanent magnet, The strip line of the inner terminal is composed of a pair of parallel transmission line, Two or more separation grooves are formed in a portion folded into the side of the garnet ferrite to prevent the separation of the plurality of transmission lines and to reinforce the strength, and at the lower end of the reinforcement portion of the strip line to closely adhere the strip line to the garnet ferrite. And formed on three or more transmission lines, wherein the width (W) of the transmission line is formed to be larger than the width (W ') of the reinforcing portion of the strip line. 13. The irreversible circuit element according to claim 12, wherein the reinforcing portion of the strip line of the inner terminal is present at 1/2 or less of the entire length of the strip line. 13. The irreversible circuit element according to claim 12, wherein the reinforcing portion of the transmission line of the strip line overlapping the garnet ferrite side surface of the irreversible circuit element is formed on the garnet ferrite side surface. The irreversible circuit device according to claim 12, wherein the separation groove in the lower end of the strip line of the inner terminal has a predetermined shape. The irreversible circuit device according to claim 12, wherein the separation groove in the lower end of the strip line of the inner terminal is formed in an elliptical shape. 13. The irreversible circuit device according to claim 12, wherein the separation grooves present at the lower end of the strip line of the inner terminal are formed in a plurality of circles. The irreversible circuit device according to claim 12, wherein the separation groove in the lower end of the strip line of the inner terminal is formed of a polygon. 20. The non-reciprocal circuit device according to claim 19, wherein the separation groove in the lower end of the strip line of the inner terminal has a rectangular shape. 13. The irreversible circuit element according to claim 12, wherein the width of the transmission line at the lower end of the reinforcing portion of the strip line is smaller than the width of the transmission line of the strip line.