Patent Application
20220375676
This application claims priority to and the benefit of Taiwan Application Serial Number 110118540, filed on May 21, 2021, the entire contents of which are incorporated herein by reference as if fully set forth below in its entirety and for all applicable purposes.
The present disclosure relates to an electronic device. More particularly, the present disclosure relates to an inductor device.
Radio frequency (RF) devices generate second harmonic, third harmonic, etc. during operation. The harmonics cause negative effect to other circuits. For example, second harmonic of 2.4 GHz circuit is near 5 GHz, and 5 GHz signal causes negative effect to 5 GHz circuits.
Conventional way to solve negative effect caused by harmonics is that a filter will be disposed outside of a circuit for filtering the harmonics. However, the filter disposed outside of the circuit will affect function of the circuit and generates additional costs.
The foregoing presents a simplified summary of the disclosure in order to provide a basic understanding to the reader. This summary is not an extensive overview of the disclosure and it does not identify key/critical elements of the present disclosure or delineate the scope of the present disclosure. Its sole purpose is to present some concepts disclosed herein in a simplified form as a prelude to the more detailed description that is presented later.
One aspect of the present disclosure is to provide an inductor device. The inductor device includes a first trace, a second sub-trace, and a capacitor. The first trace includes a first sub-trace and a second sub-trace. The second trace includes a third sub-trace and a fourth sub-trace. The first sub-trace and the second sub-trace form a plurality of first wires together at a first side of the inductor device, and form a plurality of second wires together at a second side of the inductor device. The first sub-trace and the second sub-trace are coupled to a first node. The third sub-trace and the fourth sub-trace form a plurality of third wires together at the first side of the inductor device, and form a plurality of fourth wires together at the second side of the inductor device. The third sub-trace and the fourth sub-trace are coupled to a second node. The capacitor is coupled between the first node and the second node.
Therefore, based on the technical content of the present disclosure, the capacitor of the inductor device brings a function to filter low frequency, such that low frequency signal induced at the inductor device cannot pass but high frequency signal can pass the capacitor directly. Low frequency signal is, for example, a signal that uses 2.4 GHz as main operating frequency. An induced signal caused by the main operating frequency can be cancelled by the folded inductor of the inductor device. Therefore, the folded inductor will not affect the characteristic of the operating frequency of the inductor. If an inductor which is located at the center of the inductor device has a high frequency signal, for example, a second harmonic (e.g., 5 GHz signal), the high frequency signal may pass the capacitor and form an inductive inductor which is a circle flows through the folded inductor and the capacitor. Therefore, a 5 GHz harmonic signal corresponding to ten times of 2.4 GHz signal is induced in the inductor device of the present disclosure.
The 5 GHz signal can be used in the circuit. For example, the 5GHz signal can be amplified and then the amplified 5GHz signal is used to cancel the 5GHz harmonic signal of the operating frequency. The amplifying circuit can be arranged by a designer who is familiar with circuit design. As a result, a negative effect to a 5GHz circuit can be reduced. In addition, since the filter is disposed inside the inductor device of the present disclosure, there is no need to dispose a filter outside of the inductor device, so as to prevent an outer filter from affecting the circuit or prevent additional costs.
Furthermore, the disposition of the inductor device of the present disclosure can improve the second harmonic about 20 dB. Besides, owing to the design of the first wire to the fourth wire of the inductor device of the present disclosure, the structure of the present disclosure becomes more symmetric.
It is to be understood that both the foregoing general description and the following detailed description are by examples, and are intended to provide further explanation of the invention as claimed.
The accompanying drawings are comprised to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention. In the drawings,
According to the usual mode of operation, various features and elements in the figures have not been drawn to scale, which are drawn to the best way to present specific features and elements related to the disclosure. In addition, among the different figures, the same or similar element symbols refer to similar elements/components.
To make the contents of the present disclosure more thorough and complete, the following illustrative description is given with regard to the implementation aspects and embodiments of the present disclosure, which is not intended to limit the scope of the present disclosure. The features of the embodiments and the steps of the method and their sequences that constitute and implement the embodiments are described. However, other embodiments may be used to achieve the same or equivalent functions and step sequences.
Unless otherwise defined herein, scientific and technical terminologies employed in the present disclosure shall have the meanings that are commonly understood and used by one of ordinary skill in the art. Unless otherwise required by context, it will be understood that singular terms shall comprise plural forms of the same and plural terms shall comprise the singular. Specifically, as used herein and in the claims, the singular forms βaβ and βanβ comprise the plural reference unless the context clearly indicates otherwise.
In addition, the second trace 1200 includes a third sub-trace 1210 and a fourth sub-trace 1220. The third sub-trace 1210 and the fourth sub-trace 1220 are coupled at a second node N2 at the lower terminal in the figure. Besides, the third sub-trace 1210 and the fourth sub-trace 1220 form a plurality of third wires 1600 together at the first side (e.g. the lower side) of the inductor device 1000, and form a plurality of fourth wires 1700 together at the second side (e.g. the upper side) of the inductor device 1000. In addition, the capacitor C is coupled between the first node N1 and the second node N2.
In one embodiment, the first sub-trace 1110 and the second sub-trace 1120 are all include a first terminal and a second terminal. As shown in the figure, the second terminal (e.g. the lower terminal) of the first sub-trace 1110 and the second terminal (e.g. the lower terminal) of the second sub-trace 1120 are coupled at the first node N1. For example, the first terminal of the first sub-trace 1110 is located at the upper side in the figure, and the first sub-trace 1110 is winded to the left side in the figure. Subsequently, the first sub-trace 1110 is winded to the lower side along the left side. In addition, if it reaches the lower-left side in the figure, it is winded to the node N1 in the lower side in the figure. The second terminal of the first sub-trace 1110 will be finally coupled to the node N1. With respect to the node N1, the second terminal of the second sub-trace 1120 is coupled to the node N1, and the second sub-trace 1120 is winded to the left side in the figure. Subsequently, the second sub-trace 1120 is winded to the upper side along the left side. In addition, if it reaches the upper-left side in the figure, it is winded to the connection member 1300 at the upper side in the figure, and then winded to the first terminal of the second sub-trace 1120 located at the upper side. As can be seen in the above-mentioned structure, the first sub-trace 1110 and the second sub-trace 1120 form a folded inductor.
Besides, the third sub-trace 1210 and the fourth sub-trace 1220 are all include a first terminal and a second terminal. As shown in the figure, the second terminal (e.g. the lower terminal) of the third sub-trace 1210 and the second terminal (e.g. the lower terminal) of the fourth sub-trace 1220 are coupled to the second node N2. For example, the first terminal of the third sub-trace 1210 is located at the upper side in the figure, and the third sub-trace 1210 is winded to the right side in the figure. Subsequently, the third sub-trace 1210 is winded to the lower side along the right side. In addition, if it reaches the lower-right side in the figure, it is winded to the node N2 at the lower side in the figure. The second terminal of the third sub-trace 1210 is finally coupled to the node N2. With respect to the node N2, the second terminal of the fourth sub-trace 1220 is coupled to the node N2, and the fourth sub-trace 1220 is winded to the right side in the figure. Subsequently, the fourth sub-trace 1220 is winded to the upper side along the right side. In addition, if it reaches the lower-right side in the figure, it is winded to the connection member 1300 at the upper side in the figure, and it is winded to the first terminal of the fourth sub-trace 1220 located at the upper side. Similarly, as can be seen in the above-mentioned structure, the third sub-trace 1210 and the fourth sub-trace 1220 form a folded inductor. In one embodiment, the first terminal of the third sub-trace 1210 is coupled to the first terminal of the first sub-trace 1110 through the connection member 1300.
Referring to both
Referring to both
In one embodiment, the first sub-wire 1410 is located at the outer side of the first wire 1400, and the second sub-wire 1420 is located at the outer side of the first wire 1400. The first sub-wire 1410 is coupled to second sub-wire 1420. For example, the first sub-wire 1410 and the second sub-wire 1420 are coupled at the point A.
In one embodiment, the third sub-wire 1430 is located at the inner side of the first wire 1400, and the fourth sub-wire 1440 is located at the inner side of the first wire 1400. The third sub-wire 1430 is coupled to the fourth sub-wire 1440. For example, the third sub-wire 1430 and the fourth sub-wire 1440 are coupled at the B point.
Referring to
It is noted that, the disposition of the second wire 1500 is similar to the disposition of the first wire 1400. Referring to
Besides, the second wire 1500 includes a seventh sub-wire 1530 and an eighth sub-wire 1540. The seventh sub-wire 1530 is located on the first layer, and the eighth sub-wire 1540 is located on the second layer. The eighth sub-wire 1540 is stacked above the seventh sub-wire 1530.
In one embodiment, the fifth sub-wire 1510 is located at the outer side of the second wire 1500, and the sixth sub-wire 1520 is located at the outer side of the second wire 1500. The fifth sub-wire 1510 is coupled to the sixth sub-wire 1520. For example, the fifth sub-wire 1510 and the sixth sub-wire 1520 are coupled to the C point.
In one embodiment, the seventh sub-wire 1530 is located at the inner side of the second wire 1500, and the eighth sub-wire 1540 is located at the inner side of the second wire 1500. The seventh sub-wire 1530 is coupled to the eighth sub-wire 1540. For example, the seventh sub-wire 1530 and the eighth sub-wire 1540 are coupled to the D point.
In one embodiment, the fifth sub-wire 1510 and the seventh sub-wire 1530 are located on the same layer, and the seventh sub-wire 1530 is disposed inside of the fifth sub-wire 1510. Besides, the sixth sub-wire 1520 and the eighth sub-wire 1540 are located on the same layer, and the eighth sub-wire 1540 is disposed inside of the sixth sub-wire 1520.
It is noted that, the disposition of the third wire 1600 is similar to the disposition of the first wire 1400. Referring to
Besides, the third wire 1600 includes an eleventh sub-wire 1630 and a twelfth sub-wire 1640. The eleventh sub-wire 1630 is located on the first layer, and the twelfth sub-wire 1640 is located on the second layer. The twelfth sub-wire 1640 is stacked above the eleventh sub-wire 1630.
In one embodiment, the ninth sub-wire 1610 is located at the outer side of the third wire 1600, and the tenth sub-wire 1620 is located at the outer side of the third wire 1600. The ninth sub-wire 1610 is coupled to the tenth sub-wire 1620. For example, the ninth sub-wire 1610 and the tenth sub-wire 1620 are coupled to the E point.
In one embodiment, the eleventh sub-wire 1630 is located at the inner side of the third wire 1600, and the twelfth sub-wire 1640 is located at the inner side of the third wire 1600. The eleventh sub-wire 1630 is coupled to the twelfth sub-wire 1640. For example, the eleventh sub-wire 1630 and the twelfth sub-wire 1640 are coupled to the F point.
In one embodiment, the ninth sub-wire 1610 and the eleventh sub-wire 1630 are located on the same layer, and the eleventh sub-wire 1630 is disposed inside of the ninth sub-wire 1610. Besides, the tenth sub-wire 1620 and the twelfth sub-wire 1640 are located on the same layer, and the twelfth sub-wire 1640 is disposed inside of the tenth sub-wire 1620.
It is noted that, the disposition of the fourth wire 1700 is similar to the disposition of the first wire 1400. Referring to
Besides, the fourth wire 1700 further includes a fifteenth sub-wire 1730 and a sixteenth sub-wire 1740. The fifteenth sub-wire 1730 is located on the first layer, and the sixteenth sub-wire 1740 is located on the second layer. The sixteenth sub-wire 1740 is stacked above the fifteenth sub-wire 1730.
In one embodiment, the thirteenth sub-wire 1710 is located at the outer side of the fourth wire 1700, and the fourteenth sub-wire 1720 is located at the outer side of the fourth wire 1700. The thirteenth sub-wire 1710 is coupled to the fourteenth sub-wire 1720. For example, the thirteenth sub-wire 1710 and the fourteenth sub-wire 1720 are coupled to the G point.
In one embodiment, the fifteenth sub-wire 1730 is located at the inner side of the fourth wire 1700, and the sixteenth sub-wire 1740 is located at the inner side of the fourth wire 1700. The fifteenth sub-wire 1730 is coupled to the sixteenth sub-wire 1740. For example, the fifteenth sub-wire 1730 and the sixteenth sub-wire 1740 are coupled to the H point.
In one embodiment, the thirteenth sub-wire 1710 and the fifteenth sub-wire 1730 are located on the same layer, and the fifteenth sub-wire 1730 is disposed inside of the thirteenth sub-wire 1710. Besides, the fourteenth sub-wire 1720 and the sixteenth sub-wire 1740 are located on the same layer, and the sixteenth sub-wire 1740 is disposed inside of the fourteenth sub-wire 1720.
In one embodiment, the shape of the center structure in the inductor device 1000 can be 8-shaped, and the first wire 1400 to the fourth wire 1700 can be disposed at the upper-left side, the lower-left side, the upper-right side, and the lower-right side of the 8-shaped center structure. However, the present disclosure is not intended to be limited to the structure shown in
Referring to both
Referring to both
In one embodiment, the first sub-wire 1410A is located at the outer side of the first wire 1400, and the second sub-wire 1420A is located at the inner side of the first wire 1400. The first sub-wire 1410A is coupled to the second sub-wire 1420A. For example, the first sub-wire 1410A and the second sub-wire 1420A are coupled to the A point.
In one embodiment, the third sub-wire 1430A is located at the inner side of the first wire 1400A, and the fourth sub-wire 1440A is located at the outer side of the first wire 1400A. The third sub-wire 1430A is coupled to the fourth sub-wire 1440A. For example, the third sub-wire 1430A and the fourth sub-wire 1440A are coupled to the B point.
Referring to
It is noted that, the disposition of the second wire 1500A is similar to the disposition of the first wire 1400A. Referring to
Besides, the second wire 1500A includes a seventh sub-wire 1530A and an eighth sub-wire 1540A. The seventh sub-wire 1530A is located on the first layer, and the eighth sub-wire 1540A is located on the second layer. The eighth sub-wire 1540A is stacked above the seventh sub-wire 1530A.
In one embodiment, the fifth sub-wire 1510A is located at the outer side of the second wire 1500A, and the sixth sub-wire 1520A is located at the outer side of the second wire 1500A. The fifth sub-wire 1510A is coupled to the sixth sub-wire 1520A. For example, the fifth sub-wire 1510A and the sixth sub-wire 1520A are coupled to the C point.
In one embodiment, the seventh sub-wire 1530A is located at the inner side of the second wire 1500A, and the eighth sub-wire 1540A is located at the inner side of the second wire 1500A. The seventh sub-wire 1530A is coupled to the eighth sub-wire 1540A. For example, the seventh sub-wire 1530A and the eighth sub-wire 1540A are coupled to the D point.
In one embodiment, the fifth sub-wire 1510A and the seventh sub-wire 1530A are located on the same layer, and the seventh sub-wire 1530A is disposed inside of the fifth sub-wire 1510A. Besides, the sixth sub-wire 1520A and the eighth sub-wire 1540A are located on the same layer, and the sixth sub-wire 1520A is disposed inside of the eighth sub-wire 1540A.
It is noted that, the disposition of the third wire 1600A is similar to the disposition of the first wire 1400A. Referring to
Besides, the third wire 1600A includes an eleventh sub-wire 1630A and a twelfth sub-wire 1640A. The eleventh sub-wire 1630A is located on the first layer, and the twelfth sub-wire 1640A is located on the second layer. The twelfth sub-wire 1640A is stacked above the eleventh sub-wire 1630A.
In one embodiment, the ninth sub-wire 1610A is located at the outer side of the third wire 1600A, and the tenth sub-wire 1620A is located at the inner side of the third wire 1600A. The ninth sub-wire 1610A is coupled to the tenth sub-wire 1620A. For example, the ninth sub-wire 1610A and the tenth sub-wire 1620A is coupled to the E point.
In one embodiment, the eleventh sub-wire 1630A is located at the inner side of the third wire 1600A, and the twelfth sub-wire 1640A is located at the outer side of the third wire 1600A. The eleventh sub-wire 1630A is coupled to the twelfth sub-wire 1640A. For example, the eleventh sub-wire 1630A and the twelfth sub-wire 1640A are coupled to the F point.
In one embodiment, the ninth sub-wire 1610A and the eleventh sub-wire 1630A are located on the same layer, and the eleventh sub-wire 1630A is disposed inside of the ninth sub-wire 1610A. Besides, the tenth sub-wire 1620A and the twelfth sub-wire 1640A are located on the same layer, and the tenth sub-wire 1620A is disposed inside of the twelfth sub-wire 1640A. Based on the above-mentioned structure, when the ninth sub-wire 1610A which is located outside reaches the E point, it is connected to the tenth sub-wire 1620A which is located inside. The present disclosure adopts the switching design such that the structure of the present disclosure becomes more symmetric.
It is noted that, the disposition of the fourth wire 1700A is similar to the disposition of the first wire 1400A. Referring to
Besides, the fourth wire 1700A further includes a fifteenth sub-wire 1730A and a sixteenth sub-wire 1740A. The fifteenth sub-wire 1730A is located on the first layer, and the sixteenth sub-wire 1740A is located on the second layer. The sixteenth sub-wire 1740A is stacked above the fifteenth sub-wire 1730A.
In one embodiment, the thirteenth sub-wire 1710A is located at the outer side of the fourth wire 1700A, and the fourteenth sub-wire 1720A is located at the outer side of the fourth wire 1700A. The thirteenth sub-wire 1710A is coupled to the fourteenth sub-wire 1720A. For example, the thirteenth sub-wire 1710A and the fourteenth sub-wire 1720A are coupled to the G point.
In one embodiment, the fifteenth sub-wire 1730A is located at the inner side of the fourth wire 1700A, and the sixteenth sub-wire 1740A is located at the inner side of the fourth wire 1700A. The fifteenth sub-wire 1730A is coupled to the sixteenth sub-wire 1740A. For example, the fifteenth sub-wire 1730A and the sixteenth sub-wire 1740A are coupled to the H point.
In one embodiment, the thirteenth sub-wire 1710A and the fifteenth sub-wire 1730A are located on the same layer, and the fifteenth sub-wire 1730A is disposed inside of the thirteenth sub-wire 1710A. Besides, the fourteenth sub-wire 1720A and the sixteenth sub-wire 1740A are located on the same layer, and the fourteenth sub-wire 1720A is disposed inside of the sixteenth sub-wire 1740A.
It is noted that, the present disclosure is not limited to the structure as shown in
It can be understood from the embodiments of the present disclosure that application of the present disclosure has the following advantages. The inductor device of the present disclosure may induce high frequency signal (e.g., second harmonic) of inductor inside the inductor device. After the high frequency signal is amplified by additional circuit, the amplified high frequency signal is able to cancel negative effect to the circuit caused by second harmonic. For example, the capacitor of the inductor device is used to let high frequency signal pass and block low frequency signal. Therefore, the inductor device is able to deal with signals in high frequency or low frequency by two kinds of inducing manner. In addition, since the filter is disposed inside integrated circuit (IC), for example, the inductor device, of the present disclosure, there is no need to dispose a filter outside of the inductor device, so as to prevent an outer filter from affecting the circuit or prevent additional costs.
Furthermore, the disposition of the inductor device of the present disclosure can improve the second harmonic about 20dB. Besides, owing to the design of the first wire to the fourth wire of the inductor device of the present disclosure, the structure of the present disclosure becomes more symmetric.
Although the present invention has been described in considerable detail with reference to certain embodiments thereof, other embodiments are possible. Therefore, the spirit and scope of the appended claims should not be limited to the description of the embodiments contained herein.
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the present invention cover modifications and variations of this invention provided they fall within the scope of the following claims and their equivalents.
| Number | Date | Country | Kind |
|---|---|---|---|
| 110118540 | May 2021 | TW | national |
