Microfluidic delivery system with a die on a rigid substrate

The invention claimed is: 1. An electronic subsystem, comprising: a printed circuit board having a first surface and a second surface, the printed circuit board having a plurality of woven insulating fibers between the first and the second surfaces, the printed circuit board including: a fluid path that extends through the printed circuit board; a first opening through the printed circuit board, the first opening aligned with the fluid path; an internal sidewall formed by the first opening; and a liner layer covering the entire internal sidewall of the printed circuit board, the liner layer being a dielectric; a microfluidic die on the first surface of the printed circuit board, the die having: an inlet path in fluid communication with the fluid path and the first opening of the printed circuit board; a plurality of chambers; a plurality of heaters, each of the plurality of heaters being configured to heat one of the chambers; and a plurality of nozzles in fluid communication with the inlet path, each chamber of the plurality of chambers separating a nozzle of the plurality of nozzles from a heater of the plurality of heaters; a first adhesive positioned on the second surface of the printed circuit board, the first adhesive being in contact with a first portion of the liner layer; and a second adhesive positioned between the printed circuit board and the die, the second adhesive being in contact with the die and a second portion of the liner layer. 2. The electronic subsystem of claim 1 , further comprising: a filter on the second surface of the printed circuit board. 3. The electronic subsystem of claim 1 wherein the first portion of the liner layer is on the first surface of the printed circuit board, and the second portion of the liner layer is on the second surface of the printed circuit board. 4. An electronic subsystem, comprising: a rigid support member having a first surface and a second surface, the rigid support member including: a plurality of woven fibers; a plurality of contact pads on the first surface at a first end of the rigid support member; a first opening through the rigid support member at a second end of the rigid support member, the first opening exposing an interior surface of the rigid support member that extends from the first surface to the second surface of the rigid support member; and a layer of inert coating on the interior surface of the rigid support member in the first opening, the layer of inert coating covering the interior surface from the first surface to the second surface of the rigid support member, the layer of inert coating preventing fibers of the plurality of woven fibers from being exposed; a fluid ejection die on the first surface of the rigid support member, the die including: a second opening aligned with the first opening through the rigid support member; a plurality of chambers coupled to the second opening; a plurality of nozzles, each of the plurality of nozzles being coupled to one chamber of the plurality of chambers; and a plurality of heaters, each of the plurality of heaters being configured to heat one chamber of the plurality of chambers; a filter coupled to the second surface of the rigid support member; a first adhesive between the die and the rigid support member, the first adhesive overlapping a first portion of the layer of inert coating; and a second adhesive between the rigid support member and the filter, the second adhesive overlapping a second portion of the layer of inert coating. 5. The electronic subsystem of claim 4 wherein the first portion of the layer of inert coating is on the first surface of the rigid support member, and the second portion of the layer of inert coating is on the second surface of the rigid support member. 6. The electronic subsystem of claim 4 wherein the filter is spaced from second portion of the layer of inert coating by the second adhesive. 7. An electronic subsystem, comprising: a printed circuit board having a first surface, a second surface, a first end, and a second end, the printed circuit board having a plurality of woven insulating fibers between the first and the second surfaces, the printed circuit board including: a plurality of contact pads on the first surface and at the first end; a first opening through the printed circuit board that exposes an internal sidewall of the printed circuit board, the first opening being at the second end, the first opening having an oval shape; a liner layer made of a single material formed in the first opening and on the internal sidewall of the printed circuit board; a second opening adjacent to the second end, the second opening having a circular shape; and a third opening adjacent to the second end, the third opening having a circular shape, the first opening separating the second opening and the third opening; and a microfluidic die on the first surface of the printed circuit board, a portion of the liner layer extending past the second surface, a surface of the plurality of contact pads being in a first plane, a surface of the die being in a second plane that is substantially parallel to the first plane, the die having: an inlet path in fluid communication with the first opening of the printed circuit board; a plurality of chambers; a plurality of heaters, each of the plurality of heaters being configured to eject fluid from one chamber of the plurality of chambers; and a plurality of nozzles in fluid communication with the inlet path. 8. The electronic subsystem of claim 7 wherein the printed circuit board is positioned between the portion of the liner layer and the microfluidic die. 9. The electronic subsystem of claim 7 , further comprising: a filter on the second surface of the printed circuit board. 10. The electronic subsystem of claim 7 wherein the liner layer is made of a conductive material.