VSWR With a frequency range of 700-2700 MHz, the TDJ-4G/LTE-BG01-14.0A is compatible with a wide range of LTE networks, ensuring seamless connectivity for various applications. Its 50 ohm impedance and VSWR of less than 1.5 ensure efficient power transfer with minimal signal loss, providing a stable and consistent connection. One of the outstanding features of this antenna is its impressive 14 dBi gain. This high gain extends range, allowing users to access the network even in remote or weak signal areas. It is ideal for installations that require signal boosting, such as in rural or remote areas. The TDJ-4G/LTE-BG01-14.0A is vertically polarized to ensure optimal signal propagation and reliable performance. This polarization helps overcome obstacles, such as buildings or trees, and improves the signal's penetration through various materials for a strong connection. With a maximum input power of 100 W, the antenna is designed to handle high power transmissions without compromising performance or quality. This enables it to support heavy usage and multiple devices simultaneously, making it ideal for high-volume network environments. The horizontal 3dB beamwidth of 60° and the vertical 3dB beamwidth of 50° ensure wide coverage to capture signals from multiple directions. This excellent coverage makes the TDJ-4G/LTE-BG01-14.0A suitable for a variety of applications, including public Wi-Fi networks, outdoor surveillance systems, and industrial IoT deployments. Additionally, the antenna is lightning protected to prevent potential damage from lightning strikes. This extra protection ensures the longevity of the antenna, making it a long-term investment. In summary, the TDJ-4G/LTE-BG01-14.0A is a high-performance antenna that enhances connectivity and provides excellent signal strength in 4G/LTE wireless networks. With its excellent specifications including a frequency range of 700-2700 MHz, 14 dBi gain and vertical polarization, the antenna is designed to exceed expectations and provide a reliable connection for a variety of applications.