SU885909A1 - Uhf power flow density measuring method - Google Patents

Description

(54) METHOD OF MEASURING THE DENSITY OF THE FLOW OF ULTRA-HIGH-FREQUENCY POWER

Claims (1)

The invention relates to microwave technology and dp calibration of microwave generators, circulators, couplers and other elements of microwave paths can be used. There is a known method for measuring the flux density of microwave power, mainly in the waveguide path, using a Hall-mounted sensor on which they are affected by external constant magnetic and electric fields, which create an additional Hall emf, balancing the main emf in Hall sensor 1}. However, the dynamic range and measurement accuracy with a known method is low. The purpose of the invention is to expand the dynamic range in the field of higher power levels while improving the measurement accuracy. The goal is achieved by the fact that, in the known method of measuring the flux density of microwave power, the microwave power passing through the waveguide path increases the source voltage, creating an external electric field by changing the internal resistance of the specified source, by rebalancing the main Hall emf is the additional Hall emf, and the microwave flux density is determined by the formula:, where and о and R - COOT (the voltage and internal resistance the source generates an external electric field; b is the resistance of the Hall sensor, but the intensity of the external magnetic field, L is the length of the Hall sensor. The proposed method is as follows. After balancing the main Hall emf, the microwave power increases by a given number of roses Also, the voltage of the power supply is increased several times, the OCHOBHJTO and the additional Hall VDS are increased by changing the internal resistance of the power supply, and the power density of the super-high-frequency power is determined. The drawing shows a structural electrical circuit diagram of a device implementing the proposal method. The device contains a Hall sensor 1 placed in the waveguide path 2, the accumulated load 3, an adjustable constant voltage source 4, a voltage meter5, a power management unit 6 with a readout device, measure the magnetic field strength 7, and the Hall EMF meter 8. The device works as follows. When microwave power is applied to sensor 1, an ultra-high-frequency Hop electromotive force arises, which balances the emf generated by external Hcto4HKKOM power. Compensation is produced in a weak, non-burnt microwave charge carrier at jie. By decreasing the attenuation in the waveguide path 2, the microwave power is increased by a certain number of times, the supply voltage of the sensor 1 is also increased by the same amount. Next, the power mode in block 6 is changed, and the two Hop emfs are balanced again. And in block 6, the internal resistance of the power supply is counted and the microwave power density is determined. Thus, due to the application of the proposed method, the range of measured powers is increased by 2DB, and the accuracy of the microwave power measurement is increased by 20%. The invention of the method for measuring the flux density of a microwave power, mainly in the waveguide path, using a Hall sensor placed in it, which is acted on by external constant magnetic and electric fields, which create additional Hall voltage, balancing the main EMF in the Hall sensor, characterized by in order to expand the dynamic range to higher power levels while increasing the measurement accuracy, increase the superhigh-frequency power NOVODNO-. This path is increased by the same amount of time. The voltage of the source creating the external electric field is increased by changing the internal resistance of the indicated source again to balance the main Hop EMF with the additional Hall EMF, and the flux density of the microwave power is determined to the formula: where Q and R are co. (-) responsibly. The voltage and internal resistance of the source creating the external electric field are the resistance of the Hall sensor, H o is the intensity of the external magnetic field, L is the length of the Ho lll sensor. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 449310, cl. q 01 I 21/08, 1972 (prototype).