Used SCHWARZBECK VHAP #9292297 for sale

SCHWARZBECK VHAP (Very High Precision Antenna Probe) is an in-situ passive antenna measurement equipment developed for use in validating the performance of radio antennas and related antenna systems. The system is designed to accurately measure the antenna parameters of a variety of antenna designs. It can measure and measure from 1 MHz to 30 GHz, while its design is based on a distributed measurement unit. The machine consists of a high power amplifier, receiver, and a low noise pre-amplifier. All components are connected by short cables between cores, and the tool is designed to minimize the influences of environment factors such as temperature and humidity. To measure the characteristics of an antenna, the amplifier, receiver, and pre-amplifier are connected to a probe. The probe is then placed in the desired location near the antenna and the signals are recorded. The signal processing is performed by the analytical software of the device that measures the properties of the antenna. VHAP can accurately measure antennas of any shape, size, and dielectric and magnetic permeability. It can work with non-reciprocal antennas and can measure higher-order modes. In addition, the asset is equipped with various features, such as a power divider, a return loss bridge, an isolation meter, an impedance bridge, and signal conversion. These features allow the model to measure the impedance of antenna arrays even at very low frequencies and support the evaluation of antenna polarization. The equipment is also accurate and easy to use. It has automated features that simplify the measurement process, ensuring that the results are correct. The system is portable and can be easily mounted on a tripod for stable operation. Finally, the unit is capable of capturing high-resolution data, which can be used for further analysis. In summary, SCHWARZBECK VHAP is a quality, multi-purpose machine that has been designed to accurately measure the antenna parameters of a variety of antenna designs. Its precision and in-situ features make it a valuable tool for validating the performance of radio antennas and related antenna systems.