Mobile Mark SCR12-2400-WHT Corner Reflector Antenna
Part Type | Antenna |
Interface | Coaxial Wi-Fi |
Environment | Indoor/Outdoor |
Gain | 12 dBi |
Product Highlights
Mobile Mark SCR12-2400-WHT: Corner Reflector, 2.3-2.6 GHz, 12 dBi with N-female connector/mounting hardware MNF# SCR122400WHTMobile Mark Yagi Antennas
Mobile Mark, a renowned company in the field of wireless technology, specializes in innovative antenna solutions, including the Yagi antennas. These antennas are known for their directional capabilities and high gain, making them ideal for applications requiring focused signal transmission and reception. Mobile Mark’s Yagi antennas are designed to enhance connectivity in challenging environments, such as remote locations or areas with significant signal interference. Their robust construction ensures durability and reliable performance, making them a preferred choice for both commercial and industrial applications. With a commitment to quality and cutting-edge technology, Mobile Mark continues to lead the market, providing customers with efficient and effective communication solutions.
The SCR12-2400 Corner Reflector Antenna provides directional coverage for point-to-point applications. It is perfect for certain Data Systems. In addition, the split balun feed provides superior bandwidth and gain performance. The reflector panels on this model measures 7 inches x 7 inches, which provides very low aperture and wind-loading.
Specifications
SKU | SCR122400WHT |
---|---|
Manufacturer Part Number | SCR12-2400-WHT |
Manufacturer | Mobile Mark |
Antenna Category | WiFi (2.4 & 5.0 GHz) |
Working Frequency | 2300-2600 MHz |
Gain | 12 dBi |
Product Condition | New |
Mobile Mark’s WiFi Corner Reflector antennas provide efficient point to-point and point-to-multipoint coverage for remote monitoring, surveillance or mesh networks.
A SCR Series corner reflector antenna consists of a half-wave element, spaced approximately a quarterwave length in front of a reflector panel. The reflector panel serves to narrow both the horizontal and vertical pattern for increased gain and directivity.
This antenna design is able to provide excellent gain performance without sacrificing bandwidth.