KR-20260064018-A - AUTOMOTIVE GLASS EQUIPPED WITH ANTENNA

Abstract

A vehicle glass having an antenna is provided. The vehicle glass comprises: a first glass layer; and a metal thin film layer disposed on top of the first glass layer and having an antenna pattern. Herein, the antenna pattern comprises: a monopole antenna pattern extending longitudinally and radiating a signal in a predetermined reference frequency band; a first square parasitic pattern disposed spaced apart from the monopole antenna pattern on a first transverse side of the monopole antenna pattern and radiating a signal in a first frequency band higher than the reference frequency band; and a second square parasitic pattern disposed spaced apart from the monopole antenna pattern at a longitudinal position different from the first square parasitic pattern on a second transverse side of the monopole antenna pattern and radiating a signal in a second frequency band lower than the reference frequency band.

Inventors

• 홍원빈
• 김수민
• 조성대
• 박상진
• 김경민
• 복진비
• 김민경

Assignees

• 주식회사 케이씨씨글라스
• 포항공과대학교 산학협력단

Dates

Publication Date

20260507

Application Date

20241031

Claims (10)

1. As a vehicle glass equipped with an antenna, First glass layer; and A metal thin film layer disposed on top of the first glass layer and having an antenna pattern; comprising The above antenna pattern is, A monopole antenna pattern that extends longitudinally and radiates a signal in a predetermined reference frequency band; A first square parasitic pattern disposed spaced apart from the monopole antenna pattern on a first transverse side of the monopole antenna pattern and radiating a first frequency band signal higher than the reference frequency band; and A second square parasitic pattern disposed spaced apart from the monopole antenna pattern at a longitudinal position different from the first square parasitic pattern on the second transverse side of the monopole antenna pattern, and radiating a second frequency band signal lower than the reference frequency band; comprising Vehicle glass equipped with an antenna.
2. In Article 1, The above-mentioned vehicle glass is, A polymer bonding layer disposed on top of the metal thin film layer; and A double-bonded glass further comprising: a second glass layer bonded to the first glass layer and the metal thin film layer by the polymer bonding layer; Vehicle glass equipped with an antenna.
3. In Article 2, The second glass layer above is, A metal thin film layer is spaced apart from the first glass layer by a predetermined distance in the longitudinal direction to form an area in which at least a portion of the metal thin film layer is not covered by the second glass layer, and A connector for feeding power to the antenna pattern is connected to an area of the metal thin film layer not covered by the second glass layer. Vehicle glass equipped with an antenna.
4. In Paragraph 3, The above antenna pattern is, It includes at least one CPW feed patch for coplanar waveguide (CPW) feeding, and The area of the metal thin film layer not covered by the second glass layer is formed in at least a part of the CPW feed patch, Vehicle glass equipped with an antenna.
5. In Article 1, The longitudinal length of the first square parasitic pattern and the longitudinal length of the second square parasitic pattern are identical to each other, and The transverse length of the second square parasitic pattern is formed to be longer than the transverse length of the first square parasitic pattern, Vehicle glass equipped with an antenna.
6. In Article 1, The above antenna pattern is, A transverse branch pattern extending to a second transverse side from the monopole antenna pattern and spaced apart from the second square parasitic pattern; further comprising Vehicle glass equipped with an antenna.
7. In Article 6, The length from the transverse branch pattern branching point of the monopole antenna pattern to the end of the monopole antenna pattern is, Twice the length of the above transverse branch pattern, Vehicle glass equipped with an antenna.
8. In Article 6, The above antenna pattern is, A stub pattern extending from the monopole antenna pattern to a first lateral side and spaced apart from the first square parasitic pattern; further comprising Vehicle glass equipped with an antenna.
9. In Article 8, Depending on the type of vehicle in which the above vehicle glass is installed, the longitudinal lengths of the above transverse branch pattern and the above stub pattern are maintained, but the transverse length of at least one of the above transverse branch pattern and the above stub pattern is changed so that at least one of the radial direction or the radiated frequency is controlled. Vehicle glass equipped with an antenna.
10. In Article 1, A transverse current flow path is formed in the first square parasitic pattern and the second square parasitic pattern, and A longitudinal current flow path is formed in the above monopole antenna pattern, Vehicle glass equipped with an antenna.

Description

Automotive glass equipped with an antenna The present invention relates to equipment and structures for wireless communication and vehicles, and more specifically, to vehicle glass equipped with an antenna. Wireless communication technology for the transmission and reception of information continues to advance. In particular, antenna devices are required to transmit or receive signals for wireless communication, and various types and methods of antenna devices have been developed to achieve higher performance. Meanwhile, in the automotive sector as well, various wireless communication technologies are being utilized to transmit and receive vehicle-related information in response to advancements in information and communication technology. Previously, only low-level radio transmission and reception technologies, such as radio, were equipped in vehicles; however, recently, there has been a significant increase in demand for vehicles to transmit and receive large amounts of information with various entities, such as other vehicles, surrounding objects, infrastructure, or base stations, as referred to by the term V2X. Furthermore, regarding wireless communication methods for transmitting and receiving vehicle information, there is a growing number of cases utilizing not only short-range communication systems like Wi-Fi but also global wireless communication systems such as 3GPP LTE, 5G, and 6G. To support signal transmission and reception using such various communication systems, various types of antenna devices have been equipped in vehicles. Due to the radio wave blocking characteristics of the vehicle body, additional antenna structures formed integrally on the exterior of the vehicle body, such as the shark fin antenna shown in Fig. 1, have traditionally been mainly adopted. However, since such external antennas have a negative impact on the aesthetics of the vehicle, various methods have been proposed to reduce the aesthetic disparity. As an example, the need for glass antennas installed on the vehicle's glass has emerged. However, conventional proposals for antennas installed on vehicle glass are limited to merely transmitting and receiving radio signals, or even if antennas supporting high-capacity communication are proposed conceptually, they are limited to the form of film antennas attached to vehicle glass at an experimental level and fail to provide a solution applicable to the mass production of vehicle glass that can be used in actual vehicles. FIG. 1 is an example of a shark-fin antenna for a vehicle according to the prior art. FIG. 2 is an example diagram of an antenna device provided on a vehicle glass. FIG. 3 shows a layer structure of a vehicle glass equipped with an antenna according to one embodiment of the present invention. FIG. 4 is an example diagram of a misalignment-based connector connection structure according to one aspect of the present invention. FIG. 5 is an example of an embodiment of a connector connection structure for a vehicle glass equipped with an antenna according to one embodiment of the present invention. FIG. 6 is an example of a broadband antenna pattern that can be applied to vehicle glass according to one embodiment of the present invention. Figure 7 shows the current flow path of the antenna pattern of Figure 6. Figure 8 shows an exemplary design form of the antenna pattern of Figure 6. Figure 9 shows the S-parameters measured according to the antenna pattern of Figure 6. The present invention is capable of various modifications and may have various embodiments, and specific embodiments are illustrated in the drawings and described in detail. However, this is not intended to limit the invention to specific embodiments, and it should be understood that it includes all modifications, equivalents, and substitutions that fall within the spirit and scope of the invention. Terms such as "first," "second," etc., may be used to describe various components, but said components should not be limited by said terms. Such terms are used solely for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be named the second component, and similarly, the second component may be named the first component. The term "and/or" includes a combination of a plurality of related described items or any of a plurality of related described items. When it is stated that one component is "connected" or "connected" to another component, it should be understood that while it may be directly connected or connected to that other component, there may also be other components in between. On the other hand, when it is stated that one component is "directly connected" or "directly connected" to another component, it should be understood that there are no other components in between. The terms used in this application are used merely to describe specific embodiments and are not intended to limit the inventi