SU1270714A1 - Method of calibrating microwave pulse wattmeter - Google Patents

Abstract

This invention relates to a microwave measurement technique. The purpose of the invention is improving the accuracy when extending the range of calibration for the duty ratio and pulse duration. When implementing this method, the impulse x-ku of the model average-power wattmeter selected for graduation is determined. For this x-ke, the coefficient is determined. OVSM transfer function, which is used to determine the structure and parameters of the dynamic analogue electrical elements. The resulting dynamic analogue OVSM include between the converter of the microwave signal to the video signal and the peak voltmeter of the pulse wattmeter (IW). Graduated IW and OVSM are included in the SBS tract in such a way that they are affected by the same amount of power from Mr. UHF. The maximum OVSM and IW readings are taken at (L turn on the microwave frequency in the pulse-modulated oscillation mode) and determine the calibration coefficient of the IW as the ratio of its readings to the maximum OBC readings. The goal is achieved by convolving the video-t signal into video signal IV. s |

Description

1 The invention relates to a microwave measurement technique. The purpose of the invention is to improve the accuracy when extending the range of calibration for the duty ratio and the duration of the pulses. The method of calibration of a pulsed microwave power meter is implemented as follows. The indications of an exemplary power meter of average power, like of any linear inertial converter, are associated with an arbitrary-shaped microwave signal P (t) following the next expression. R,. (t) k, p (r) g (tt) dT, (1) o where t is the time, is the integration variable, having the dimension of time g (t) is the impulse response of an exemplary average wattmeter of power, determined by time differentiation changes in the indications of a typical average power meter from zero to a steady-state value to their steady-state value, when an input is applied to an exemplary average power meter and a microwave power jump from zero to a value not exceeding the value of the maximum measured power with a standard wattmeter medium By her power, - static coefficient .peredachi vattmet model. The average power, defined as the ratio of the value of the input power of continuous generation to the steady-state (static) indications of the model average power watt (K ,, is equal to one, since the display of the model average power watt corresponds to the power measured by it). The impulse wattmeter consists of a microwave-to-video signal converter and a peak voltmeter. The output of the microwave to video converter of the pulse wattmeter P (t) replicates the form of the acting signal P (t). P, (t) K, P (t), where K, is the coefficient for converting a microwave signal converter into a video signal of a pulse wattmeter. If, in any known way, to convolve the output signal of the microwave signal converter into the video signal of a pulse power meter with the pulse characteristic of an exemplary average power meter, then the result of the convolution will be -I Pj (t) K ,, jP (t) -g (t-Tr) dv (3) From expressions (1) and (3), taking into account that KO 1, it is possible to determine the conversion factor K). Pcf (t) From expression (5) it can be seen that K being defined in this way does not depend on the type of microwave signal. When measured by a peak voltmeter included in a pulse wattmeter, the result of convolution is the readings of a pulse wattmeter equal to Kg P. (t) where V.2 is the conversion factor of a peak voltmeter equal to one, since the readings of the peak voltmeter correspond to the voltage measured by R. , (and) ", y (- the maximum value of the result of the convolution Pj (t). Since the converter of the microwave signal into the video signal and the peak voltmeter of the pulse wattmeter are connected in series, the calibration coefficient of the pulse wattmeter is equal to KI / Kj and, based on expressions (5) and (6), it is defined as where P, p, (t) are the maximum watts of the average power meter One of the possible ways to implement the operation of convolving the output signal of the microwave converter

Claims (1)

Claim A method for calibrating a microwave pulsed wattmeter, which consists of a converter of a microwave signal into a video signal and a peak voltmeter, including the effect of pulse-modulated oscillations on a calibrated microwave pulsed wattmeter and a reference microwave watt meter and calculating a calibration coefficient, characterized in that, in order to increase accuracy at expanding the calibration range for duty cycle and pulse duration, carry out the convolution of the video signal into a video signal of a pulse wattmeter, the pulse characteristic of which is falls with the impulse response of the model average power wattmeter, and the calibration coefficient is calculated as the ratio of the readings of the pulse wattmeter to the maximum readings of the model average power wattmeter. VNIIIPI Order 6239/48 ______ Circulation 728 Subscription Custom polygr. ave, city of Uzhgorod, st. Project, 4