Methods of manufacture of bottom port surface mount silicon condenser microphone packages

1. A method of manufacturing a plurality of solder reflow surface mount microelectromechanical system (MEMS) microphone devices, the method comprising:

• providing an unsingulated panel comprised of a plurality of individual substrates, each substrate comprising multiple layers of non-conductive material, each layer having a predetermined coefficient of thermal expansion, and each substrate having a planar upper surface and a planar lower surface, the upper surface having an interior region and a peripheral region that completely surrounds the interior region, each individual substrate further comprising;
  
  a first plurality of metal pads disposed on the upper surface of the individual substrate;
  
  a second plurality of metal pads disposed on the lower surface of the individual substrate and arranged within a perimeter of the lower surface of the individual substrate, wherein the second plurality of metal pads are configured to mechanically attach and electrically couple the surface mount MEMS microphone device to pads on a surface of an external printed circuit board;
  
  one or more electrical traces disposed completely within the individual substrate, wherein the traces electrically couple one or more of the first plurality of metal pads on the upper surface of the substrate to one or more of the second plurality of metal pads on the lower surface of the individual substrate; and
  
  a port disposed in the interior region of the individual substrate and passing completely through the individual substrate, wherein one of the second plurality of metal pads is an annular ring that completely surrounds the port in the individual substrate;
  
  mounting a MEMS microphone die to the upper surface of each substrate in the unsingulated panel of substrates, each MEMS microphone die having an acoustic passage that is arranged directly over and acoustically coupled to the port in its respective substrate;
  
  electrically coupling each MEMS microphone die to at least one of the first plurality of metal pads on the upper surface of its respective substrate;
  
  providing an unsingulated panel comprised of a plurality of individual covers, each cover being a single-piece cover having a predetermined shape that comprises a top region and a substantially vertical sidewall region that adjoins the central region at a substantially perpendicular angle and that completely surrounds and supports the top region, the sidewall region having a predetermined height, an exterior sidewall surface, an interior sidewall surface, and a bottom surface;
  
  attaching the unsingulated panel of covers to the unsingulated panel of substrates,wherein the bottom surface of the sidewall region of each single-piece cover is aligned with and attached to the peripheral region of the upper surface of its respective substrate, andwherein the predetermined shape of each cover and the predetermined height of each sidewall region, in cooperation with the interior region of the upper surface of its respective substrate, forms a protective enclosure that defines an acoustic chamber for its respective MEMS microphone die disposed on the upper surface of its respective substrate in the unsingulated panel of substrates; and
  
  singulating the attached panels into a plurality of individual MEMS microphone devices.