HFRA 5157 - Passive Magnetic Antennas, Tx-Loop AntennaThe transmit loop antenna HFRA 5157 was designed to generate well defined magnetic fields with moderate field-strength levels (< 0.1 A/m) in the frequency range up to 30 MHz. With the slightly reduced performance the loop can be used in the frequency range up to 50 MHz. The loop, consisting of two turns, is shielded against E-fields. The nickel-plated brass housing contains a series resistor, acting as an impedance socket for the loop inductance. The series resistor reduces the influence of the loop inductance and allows direct connection to the widely used 50 W measurement equipment and provides a nearly flat frequency response over the entire frequency range. The loop can be mounted at its female large camera thread. The generated magnetic field is proportional to the loop current. A tabular indicates the field-strength values in A/m and dBμA/m to be expected with the maximum permissible current of 100 mA. Additionally, the relative decrease of magnetic field-strength referred to as the center of the loop antenna can be found. The lower magnetic field strength can be achieved by scaling the current to the respective value. With a feed current of 10 mA instead of 100 mA, the tabular values decrease by a factor of 10, which corresponds to a reduction by 20 dB in logarithmic measure. All specified magnetic field strength refers to the component which is perpendicular to the loop-plane. Application: Both female BNC-connectors are directly wired with each other. One of them can be used to feed the loop, the other can be used to monitor the voltage with a voltmeter (high impedance). The measurement distance to apply for the calibration of RX-loops depends on the RXloop dimensions. For large loop antennas, a higher calibration distance is required in order to obtain a uniform field distribution over the complete loop area. The shorter the distance, the smaller the uniform area and the size of antennas to be calibrated. The following table indicates the recommended minimum calibration distances, depending on the loop diameter of the loop under calibration and the wanted field uniformity.
Specifications:
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