Wafer-level package

Active solid-state devices (e.g. – transistors – solid-state diode – Combined with electrical contact or lead – Bump leads

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C257S738000, C257S774000, C257S778000, C257S668000

Reexamination Certificate

active

06521995

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to carrier substrates for use in chip-scale packages and to chip-scale packages including such carrier substrates. Particularly, the present invention relates to carrier substrates fabricated from polymeric materials. Methods of fabricating chip-scale packages are also within the scope of the present invention.
2. Background of Related Art
In conventional semiconductor device fabrication processes, a number of distinct semiconductor devices, such as memory chips or microprocessors, are fabricated on a semiconductor substrate, such as a silicon wafer. After the desired structures, circuitry, and other features of each of the semiconductor devices have been fabricated upon the semiconductor substrate, the substrate is typically singulated to separate the individual semiconductor devices from one another.
Various post-fabrication processes, such as testing the circuits of each of the semiconductor devices and burn-in processes, may be employed either prior to or following singulation of the semiconductor substrate. These post-fabrication processes may be employed to impart the semiconductor devices with their intended functionality and to determine whether or not each of the individual semiconductor devices meets quality control specifications.
The individual semiconductor devices may then be packaged. Along with the trend in the semiconductor industry to decrease semiconductor device size and increase the density of structures of semiconductor devices, package sizes are also ever-decreasing. One type of semiconductor device package, the so-called “chip-scale package” or “chip-sized package” (“CSP”), consumes about the same amount of real estate upon a substrate as the bare semiconductor device itself. Such chip-scale packages typically include a carrier substrate having roughly the same surface area as the semiconductor device.
Some chip-scale packages include a semiconductor device and a polymeric carrier substrate. Exemplary chip-scale packages with polymeric carrier substrates are disclosed in U.S. Pat. No. 5,677,576 (hereinafter “the '576 Patent”), which issued to Masatoshi Akagawa on Oct. 14, 1997, U.S. Pat. No. 5,683,942 (hereinafter “the '942 Patent”), which issued to Keiichiro Kata et al. on Nov. 4, 1997, and U.S. Pat. No. 5,844,304 (hereinafter “the '304 Patent”), which issued to Keiichiro Kata et al. on Dec. 1, 1998.
The '576 Patent discloses a chip-scale package that includes a semiconductor device, a layer of insulative material, through which bond pads of the semiconductor device are exposed, disposed on an active surface of the semiconductor device, and a conductive elastomer disposed adjacent the layer of insulative material and the bond pads of the semiconductor device. Conductive elements are positioned adjacent the conductive elastomer so as to facilitate the disposition of a conductive bump that is laterally offset from the bond pad location. A photoresist, including apertures through which portions of the conductive elements are exposed, is then disposed over the conductive elements and the conductive elastomer. Conductive bumps are disposed within the apertures and in communication with the conductive elements. The carrier substrate and method of the '576 Patent are somewhat undesirable because the disposal of an additional layer of insulative material on the active surface of the semiconductor device may increase fabrication time and costs, as well as the likelihood of device failure. Moreover, as each of the bond pads is associated with a laterally extending conductive element, each of the conductive bumps is, somewhat undesirably, laterally offset from the location of its corresponding bond pad.
The '942 Patent describes a carrier substrate including a polymer layer including conductive traces with raised contact pads disposed on a first side thereof and corresponding conductive bumps disposed on the other side thereof. The conductive traces and their corresponding conductive bumps communicate by means of electrically conductive vias through the carrier substrate. A layer of insulative material is disposed upon the active surface of the semiconductor device with which the carrier substrate is to be assembled, laterally adjacent the bond pads. The carrier substrate, which is pre-fabricated, is disposed adjacent the active surface of a semiconductor device by aligning the contact pads of the carrier substrate with the bond pads of the semiconductor device, disposing a quantity of adhesive material between the active surface and the carrier substrate, and applying pressure to the carrier substrate to abut the contact pads against their corresponding bond pads. Pressure is applied locally to the contact pads and, thus, to the bond pads through apertures defined through the carrier substrate. The carrier substrate of the '942 Patent is somewhat undesirable in several respects. The disposal of a layer of insulative material laterally adjacent the bond pads of the semiconductor device increases fabrication time and costs, as well as the likelihood of device failure. The semiconductor device may be damaged while localized pressure is applied to the bond pads thereof, again undesirably increasing the likelihood of device failure and, therefore, fabrication costs. Moreover, since the carrier substrate of the '942 Patent is pre-fabricated, it is possible that the raised contact pads of the carrier substrate may not properly align with their corresponding bond pads of the semiconductor device.
The polymeric carrier substrate of the '304 Patent is fabricated directly upon an active surface of a semiconductor device. That carrier substrate, however, does not include electrically conductive vias that extend substantially longitudinally therethrough. Rather, a layer of insulative material is disposed on an active surface of a semiconductor device upon which the carrier substrate is to be fabricated, adjacent the bond pads thereof. Laterally extending conductive lines are fabricated on the layer of insulative material and in contact with corresponding bond pads of the semiconductor device. Conductive bumps are then disposed adjacent corresponding conductive lines and a layer of polymeric material applied to the semiconductor device so as to insulate the conductive lines. The conductive bumps are exposed through the layer of polymeric material. Since each of the conductive lines of the carrier substrate of the '304 Patent extends substantially laterally from its corresponding bond pad, each of the conductive bumps is, somewhat undesirably, laterally offset from the location of its corresponding bond pad. Moreover, the disposal of an additional layer of insulative material on the active surface of the semiconductor device, through which the bond pads are disposed, increases fabrication time and costs, as well as the likelihood of device failure.
As the carrier substrate of such chip-scale packages is small, electrical connections between the semiconductor device and the carrier substrate are often made by flip-chip-type bonds or tape-automated bonding (“TAB”). Due to the typical use of a carrier substrate that has a different coefficient of thermal expansion than the semiconductor substrate of the semiconductor device, these types of bonds may fail during operation of the semiconductor device.
Following packaging, the packaged semiconductor devices may be re-tested or otherwise processed to ensure that no damage occurred during packaging. The testing of individual packaged semiconductor devices is, however, somewhat undesirable since each package must be individually aligned with such testing or probing equipment.
Accordingly, there is a need for a chip-scale package with at least some conductive bumps or contacts that are not laterally offset from the position of their corresponding bond pad and for a packaging method that does not require the disposal of an additional layer of insulative material adjacent the active surface of the semicond

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Wafer-level package does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Wafer-level package, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Wafer-level package will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-3129954

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.