Patent ID: 11962057
Assignee: 3D GLASS SOLUTIONS, INC.
Field: Materials, metallurgy (Chemistry)
Classification: CPC H  C | IPC C  H

Claim 5:
6. A method of creating an empty substrate integrated waveguide system including at least one or more of a phase matching, time delay, crossover or filter elements, connected to an antenna and RF signal launch element, comprising:
a. exposing to an ESIW pattern, an ESIW support, RF signal launch, perimeter ground patterns, and the edges of a waveguide;
b. annealing the exposed pattern temperature enabling the coalesces silver ions into silver nanoparticles;
c. annealing the exposed pattern temperature range heated between 520° C.-620° C. for allowing the lithium oxide to form around the silver nanoparticles;
d. coating a topside of the wafer with a photoresist and exposing and developing a pattern to protect the waveguide pattern while leaving the ground pattern exposed;
e. spinning on blanket photoresist on to the backside of the wafer and HF bath to etch the exposed ground ceramic portions;
f. removing the photoresist to leave ground pattern openings and ceramic waveguide;
g. electroplating copper on the open ground pattern until all ground openings are filled;
h. coating a backside of the wafer with photoresist; and exposing and developing a rectangular element with one or more small etch release features;
i. depositing 200 Å to 2,000 Å of titanium metal to form a first titanium layer followed by a 1 μm deposition of copper onto the backside of the wafer;
j. removing the photoresist to leave a rectangular copper element for the bottom of the ESIW structure that is electrically connected to the ground pattern copper and waveguide launching element;
k. exposing and developing a rectangular element in photoresist that is oversized of the ceramic ESIW pattern with one or more etch release features;
l. Electroplating copper on the exposed copper areas with between 5-50 um of copper in order to improve the rigidity of the ESIW structure;
m. depositing 200 Å to 2,000 Å of titanium metal to form a second titanium layer followed by a 0.5 um to 1 μm deposition of copper onto the topside of the wafer;
n. coating the top side of the wafer with photoresist; exposing and developing a top side ESIW pattern and patterns for the RF signal launch elements and the antenna elements, and at least one the Phase matching elements, the time delay elements, or the filter elements and;
o. using a standard photoresist stripper, copper etchant and titanium etchant to remove the photoresist and to etch any exposed deposition metal, leaving an electroplated copper ESIW patterns;
p. placing the wafer into a 0.5% to 50% HF in an ultrasonic bath; and
q. washing the wafer to remove the HF.