Regardless of the application, the design of the antenna and the RF layout has the greatest impact on performance. Newer PCB antenna designs feature dual-band and multiple-frequency band coverage as a response to system applications that require wideband frequency ranges or multiple applications served by the same antenna.īecause of the variation in RF ranges, designs that have the same power requirements often have different layouts and apply different principles for antenna design. Sensors and devices connected to the Internet of Things require larger RF ranges and higher data rates. A wireless mouse does not need the same RF range and data rate that other applications may require. Some designs may combine different types of transmission lines within the same PCB antenna.Ĭhoosing a PCB antenna design software depends on the application. PCB antenna designs range from basic microstrip patches to combinations of microstrip patches, strip lines, and coplanar waveguide (CPW) transmission lines. BLE antenna design, IoT antenna, etc.), a team can add to the system design or customize an antenna according to electrical and mechanical requirements. With the array of available PCB antenna options (e.g. Manufacturers may offer PCB antennas as already fabricated components that include cables and connectors. The Best PCB Antenna Simulation Software Matches Innovation to Application The two-dimensional structure of the PCB antenna requires robust antenna design software such as Altium Designer to ensure that the structure meets the specifications given by the manufacturer. Depending on the type of antenna and the space constraints, the type of traces used for PCB antenna designer includes straight traces, inverted F-type traces, meandered traces, circular traces, or curved trace that has wiggles. Instead of using a three-dimensional wire that extends over the PCB or a chip antenna, a PCB antenna design software consists of a trace drawn on a Printed Circuit Board. In addition, PCB antenna designs must also respond to frequency requirements that range from the typical 2.4 GHz band to millimeter-wave frequencies. Each of these and other applications requires PCB antennas that reduce the physical footprint and cost while maintaining performance. The devices support wearable technologies, Bluetooth Low Energy (BLE) applications, personal communication systems, Internet of Things (IoT) applications, medical technologies, automotive advanced driver-assistance systems, and other innovative technologies. ALTIUM DESIGNER Ensuring that your antenna designs are placed without issueĬonsumer and industrial demand have prompted the demand for smaller wireless devices.
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