SU1550590A1 - Microstrip load - Google Patents

Abstract

This invention relates to a microwave technique and can be used in miniature devices. The purpose of the invention is to increase the operating frequency band. The microstrip load contains a dielectric substrate 1, on one side of which a grounding base 2 is placed, and on the other side is a current-carrying conductor 3 and a resistive layer 4 connected to it through the inductance 5 introduced. The resistivity R of the resistive layer 4 and its capacitance C selected from the ratios 2ϕFRС = 5 - 8, R = (3.16 - 4.47) ^. Z ₀ , where F - average frequency

Z ₀ - input impedance. The combination of the choice of the linear capacitance C and the resistivity R in accordance with the ratios given above, and the inductance 5 allow to significantly expand the frequency band. 1 il.

Description

The invention relates to the SECh technique and can be used in miniature devices.

The aim of the invention is to increase the bandwidth.

The drawing shows the design of the microstrip load.

The microstrip load contains, on one dielectric substrate 1 side of which a grounding base 2 is placed, a non-current-carrying conductor 3 and an inductance of 5 l are worn, and on the other standing layer 4, connected through it through the Specific Resistance R of the resistive layer 4 and its linear capacitance C, are selected from the relations

R = (3.16-4.47) z _o , where f is the average frequency;

Ζθ is the input impedance.

The microstrip load is as follows.

The microwave signal supplied to the current is dissipated into the inductance 5 by the carrier conductor 3 of the resistive layer 4. It serves to match the resistive circuit formed by the current-carrying conductor 3 to the grounding base 4 of the microstrip line, the dielectric

C p

e t

substrate 1 and

2.

= 5-8 wavelength attenuation, which contributes to the selection of the ratio provides a large RF signal per unit [for small dimensions, d increase the range of working hours.

The second relation is obtained by taking into account the first relation from the condition for ensuring consistency, which is satisfied when the real part is equal to unity and the imaginary part of the expression is equal to zero

- | - ethyl, fR2nfC ,,. _λ where j —J— ( ^{1 +} J?>

where Z is the wave impedance of a segment of the microstrip line with losses formed by the resistive layer 4, the dielectric substrate 1 and the grounding base 2.

The combination of the choice of linear capacitance C and resistivity R in accordance with the above ratios and inductance 5 allows you to significantly expand the operating frequency band.

Claims (2)

Claim A microstrip load containing a dielectric substrate, on one side of which there is a grounding base, and on the other side - a current-carrying conductor and a resistive layer associated with it, characterized in that, in order to increase the operating frequency band, reduce the dimensions, the resistive layer is connected to a current-carrying conductor through the introduced inductance, and its specific resistance R and linear capacitance C are selected from the relations 2 IT fRC = 5-8; R = (3.16-4.47) Z _o , where f is the average frequency; Z _o - wave impedance at the input.