摘要:
A bumped semiconductor device (10) exhibiting enhanced pattern recognition when illuminated in a machine vision system. The semiconductor device has a substantially coplanar array of solder bumps (16) and a coating of underfill material (17) on one face. A fluxing composition (18) containing an image enhancing agent is selectively deposited over at least two of the solder bumps in the array to modify the optical characteristics of the solder bumps to cause the solder bumps to appear bright against the background of the underfill material when the semiconductor device is illuminated (19) by selected wavelengths of light.
摘要:
A self supported underfill film (18) adhesively bonds surface mount integrated circuit packages (14) to a printed circuit board (10). The printed circuit board has conductive traces (12) and exposed conductive pads (13) on the surface. A film adhesive is strategically positioned on the printed circuit board near the conductive pads, and the surface mount integrated circuit package is then placed on the board so that the conductive pads (16) on the package align with the conductive pads on the board. The film adhesive softens when the package is soldered to the board, and the film ultimately serves as an underfill to increase the mechanical integrity of the solder joints.
摘要:
The invention provides a method of attaching an area-array device such as a bumped flip chip to an electrical substrate. An underfill material is applied to a portion of the electrical substrate, and the underfill material is heated to an underfill-material staging temperature. A bumped area-array device is provided, the bumped area-array device including an interconnection surface and a plurality of connective bumps extending from the interconnection surface. The interconnection surface of the bumped area-array device is positioned adjacent the applied underfill material. The bumped area-array device is heated to electrically connect the connective bumps to the electrical substrate. The invention also provides a flip-chip assembly and a printed wiring board panel with pre-applied underfill material.
摘要:
A method for providing an underfill material on an integrated circuit chip at the wafer level. The wafer (10) typically contains one or more integrated circuit chips (12), and each integrated circuit chip typically has a plurality of solder bumps (34) on its active surface. The wafer is first diced (22) on the active surface side to form channels (38) that will ultimately define the edges (39) of each individual integrated circuit chip, the dicing being of such a depth that it only cuts part-way through the wafer. The front side (36) of the wafer is then coated (24) with an underfill material (40). Generally, a portion (45) of each solder bump remains uncoated, but in certain cases the bumps can be completely covered. The back side of the wafer is then lapped, ground, polished or otherwise treated (26) so as to remove material down to the level of the previously diced channels. This reduction in the thickness of the wafer causes the original diced channels to now extend completely from the front side to the back side of the wafer. The wafer is then singulated (28) by cutting the underfill material (92) that was deposited in the channels during the coating step, so that the integrated circuit chip (12) is released from the wafer, and the underfill material that was coated on the active side remains affixed to the active surface of each individual integrated circuit chip.
摘要:
An alternating current (AC) powered self organizing wireless node (100, 400, 600) includes a self organizing wireless receiver-transmitter (115), an AC branch connection (105), an AC to direct current (DC) converter (110), a secondary power function (120), and a housing (150). The self organizing wireless receiver-transmitter can communicate information throughout a network of compatible self organizing nodes solely using radio transmission to and reception from nearby self-organizing nodes. The secondary power function can couple power to the AC to DC converter for powering the self organizing wireless receiver-transmitter when AC power is not provided. The AC powered self organizing wireless node is designed and fabricated for agency certification. The AC powered self organizing wireless node may include one or more sensors (125), sensor inputs (135), transducers (130), or control outputs (155).
摘要:
A method and apparatus are provided to aide in emergency egress of a structure. More particularly, egress indicators are co-located with hazard sensors. During detection of a hazard condition, locations of sensors detecting the hazard are identified and a pathway directing traffic away from the hazard is determined. Finally, the egress indicators are operated to direct traffic down the determined pathway.