SU907453A2 - Detector section - Google Patents

Description

(5A) DETECTOR SECTION

Claims (1)

The invention relates to radio engineering and can be used in microwave power display devices in antenna-feeder systems. According to the main author. St. H U50107 is a known detector section containing a rectangular waveguide section perpendicular to which a movable metal plate with a semiconductor diode, matching elements and a low pass filter is installed on a metal plate, an additional dielectric substrate is installed on which the matching elements and a low frequency filter are applied, and the semiconductor diode connected to the waveguide by means of a vibrator 1 j. However, the known detector section does not allow to obtain a high level of matching of the detector section in a wide dynamic range. The purpose of the invention is to expand the dynamic range while maintaining alignment. This goal is achieved by additionally inserting in the detector section sequentially connected resistive-capacitive and inductive two-pole devices that form an L CR filter, to the midpoint of which a semiconductor diode is connected, with the resistive-capacitive two-pole device connected between the vibrator and the semiconductor diode. FIG. Figure 1 shows the construction of the detector section; in fig. 2 design of a dielectric substrate with electrons deposited on it. The detector section contains a segment 1 of a rectangular waveguide, a dielectric substrate 2 on which vibrator 3 is located, matching elements made in the form of a segment k of a uniform microstrip line (MPL), resistive-capacitive and inductive bipolar, consisting of a resistive-capacitive bipolar 5 and constructive inductance 6, 390 closed on the body with a petal 7 forming an LCR filter, semiconductor diode 8, low pass filter in the form of a microstrip open loop 9, dielectric 2 Located on the movable metal plate 10, the detector section operates as follows. With a low power input, the semi-superior diode 8 has a practically purely reactive impedance, while the modern unpackaged diodes designed for hybrid integrated circuits are distinguished by minimal values of parasitic elements. It is known that a semiconductor diode in a wide frequency range is equivalent to a parallel circuit composed of active resistance and capacitance. The equivalent capacitance of a semiconductor diode is 8 of the order of tenths of a picofarad is punctured by a small inductance of the input and does not affect the properties of a circuit in a wide frequency range because the quality factor of the system is low. The power Pgy, which arrives at the input of the detector section, at wL "R, is connected with the voltage at the input Ug and the voltage at the output by the relations: Uftxi R. jiuL. and ex () ugyx. In order to provide a given sensibility to the detector section, the tuning inductance must satisfy the condition: 1 R. .R where wL - inductive resistance; R - active resistance; Ugt ,, is the voltage at the output section. Inductance is realized in the form of a two-pole inductive character, consisting of active resistance - resistance of resistive-capacitive two-pole 5 and structural inductivism 6, the value of which is adjusted by means of a grounding jumper of variable width or length for a given initial condition on the sensitivity of the detector section according to the value reflections. Introduced new elements in the detector section Significantly expand its dynamic range while maintaining agreement. The invention of the detector section on the author. St. fP 50107, about tl and h and ya, in order to broaden the dynamic range while maintaining matching, it additionally introduces serially connected resistive-capacitive and inductive two-pole devices that form the L C R filter to the midpoint which is connected to a semiconductor diode, while the resistive-capacitive two-pole is connected between the vibrator and the semiconductor diode. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 450107, cl. G 01 R 21/12, 1972.