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Global Chip Antenna Market 2021: By Product Type (Ceramic Multilayer Chip Antenna, Dielectric Chip Antenna), By Application (WLAN, ZigBee, Bluetooth, ISM, Others), By End Use (BFSI, IT & Telecommunication, Transportation, Manufacturing, Industrial, Government, Healthcare, Others)Global Chip Antenna Market report, recently generated by Trusted Business Insights, tracks the global chip antenna market, which has been segmented on the basis of product type, application, end use, and region. The report is further segmented on the basis of country in each respective region in order to present a detailed perspective of the target market.
Overview:An antenna is used to enable transmission and receipt of radio frequencies. Chip antennas, whip antennas, and PCB antennas are some types of antennas available in the market currently. A chip antenna is a compact antenna that is used for transmission and reception of radio frequency signals, and is used in numerous wireless applications. These are also helpful for providing correct real-time location information and enabling and maintaining connectivity between devices.
Dynamics:Demand for consumer electronics is increasing and adoption of technologies such as Internet of Things (IoT), connected cars, automation, and smart grids is rising, and these are major factors expected to drive growth of the global chip antenna market. In addition, lower cost of chip antenna as compared to other antennas is another factor expected to boost market growth. However, growing compatibility issues during integration of a chip antenna on a circuit board and complex design, along with variable performance efficiency of chip antennas are among factors that could hamper growth of the global market. Increasing miniaturization of consumer electronics is a key trend observed in the target market, and this is projected to continue to boost growth of the target market. Furthermore, growing research and development activities related to chip antennas is projected to create future opportunities for players in the global market in future.
By product type:Among the product type segments, the dielectric chip antenna segment is expected to account for majority share in terms of revenue in the global market. Increasing demand for compact antennas that operate at numerous frequency ranges and help to reduce space in devices such as wearables devices, smartphones, and others is expected to drive growth in terms of revenue of this product type segment.
By Application:Among the application segments, the Bluetooth segment is projected to contribute majority revenue share as compared to the others. This can attributable to wide use of Bluetooth technology in consumer electronics devices such as smartphones, wearables, headsets, and gaming consoles for short-range wireless communication.
By end user:Among the end user segments, the IT & telecommunication segment is expected to register lucrative growth in terms of revenue over the forecast period.
Regional AnalysisThe chip antenna market in Asia Pacific holds dominant position in the global market in terms of revenue and is expected to maintain its position over the forecast period. Growing adoption of automation and growing consumer electronics industry in countries such as China, Japan, India, and South Korea are factors expected to propel growth of the chip antenna market in Asia Pacific. North America market is projected to register a substantial growth rate over the forecast period. This can be attributable to increasing adoption of developed technologies, and spending on research and development of wireless transmission technologies in countries such as the US and Canada. Revenue from the Europe chip antenna is expected to grow at a moderate rate in the near future. Virtual AntennaTM, mXTENDTM are the brands covered in this Chip Antenna report.
Below are the active patents related to Chip Antenna Market.Patent Number: US20130021216A1 Dielectric chip antennas Abstract There is disclosed an antenna arrangement having a parasitic conductive loop (1) and at least one active radiating element (9). The conductive loop (1) comprises first and second electrically conductive passive radiating elements (2, 3) each with first and second ends. The first ends of the passive radiating elements are each connected to ground, and the second ends of the radiating elements are each connected respectively to mutually discrete metalized surface regions (8) of a dielectric block (7). The at least one active radiating element (9) is not conductively connected to the passive radiating elements (2, 3). The passive radiating elements (2, 3) are configured to be fed parasitically by the at least one active radiating element (9). The antenna arrangement has excellent resistance to detuning and can be located in different regions of a PCB substrate without significantly affecting performance. Further, the antenna is small in size and may be arranged for dual band operation. Type: Grant Filed: 2011-03-22 Date of Patent: 2013-01-24 Assignee : Microsoft Technology Licensing LLC Patent Number: US8983618B2 Co-fired multi-layer antenna for implantable medical devices and method for forming the same Abstract An antenna for an implantable medical device (IMD) is provided including a monolithic structure derived from a plurality of discrete dielectric layers having an antenna embedded within the plurality of dielectric layers. The antenna includes antenna portions formed within different layers of the monolithic structure with at least one conductive via formed to extend through the dielectric layers in order to provide a conductive pathway between the portions of the antenna formed on different layers, such that an antenna is formed that extends between different vertical layers. The dielectric layers may comprise layers of ceramic material that can be co-fired together with the antenna to form a hermetically sealed monolithic antenna structure. The antenna embedded within the monolithic structure can be arranged to have a substantially spiral, helical, fractal, meandering or planer serpentine spiral shape. Type: Grant Filed: 2008-12-31 Date of Patent: 2015-03-17 Assignee : Medtronic Inc
Below are the leading companies profiled in this Chip Antenna Market Report:
Chapter 1 Methodology and Scope