1. Technical Field
The present disclosure relates to printed circuit boards and methods for manufacturing printed circuit boards, and more particularly to a printed circuit board for protecting a metal layer of a solder pad from being damaged during stacking of a plurality of the printed circuit boards.
2. Description of Related Art
A conventional printed circuit board comprises a signal layer for transmitting electrical signals. A plurality of signal traces and a plurality of solder pads are formed on the signal layer. Typically, in order to enhance adhesion between the solder pads and electronic components, a metal layer is formed on the outside surface of each solder pad. However, the metal layers increase a height of the solder pads to be greater than a height of the signal traces, and so the metal layers are prone to damage when a plurality of the printed circuit boards are stacked together.
Many aspects of the present embodiments can be better understood with reference to the following drawings. The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present embodiments. Moreover, in the drawings, all the views are schematic, and like reference numerals designate corresponding parts throughout the several views.
The disclosure is illustrated by way of example and not by way of limitation in the figures of the accompanying drawings in which like reference numerals indicate the same or similar elements. It should be noted that references to “an” or “one” embodiment in this disclosure are not necessarily to the same embodiment, and such references can mean “at least one.”
The signal traces 3 are used to transmit signals. A solder mask layer 5 is formed on each of the signal traces 3. In the embodiment, the solder mask layer 5 is made of electrically insulating material.
Each solder pad 7 comprises a solder pad body 73 and a metal layer 71. The metal layer 71 is formed on a surface of the solder pad body 73 in order to enhance adhesion between the solder pad 7 and electronic components. The metal layer 71 can be made of gold or nickel, for example.
Each signal trace 3 has a first height H1 relative to the corresponding outer surface 11 of the base 1, and each solder pad 7 has a second height H2 relative to the corresponding outer surface 11. The first height H1 is greater than the second height H2. When a plurality of the printed circuit boards 100 are stacked together, the upper solder mask layers 5 of a lower one of the printed circuit boards 100 support the printed circuit boards 100 stacked upon the lower printed circuit board 100, because the signal traces 3 are higher than the solder pads 7. Therefore, the metal layers 71 of the solder pads 7 of the lower printed circuit board 100 are protected from being damaged when the printed circuit boards 100 are stacked together.
Referring to
In step S210, a plurality of signal trace bodies 30 and the plurality of solder pad bodies 73, all having a same preliminary height, are formed on the base 1 (see
In another embodiment, each of the outer surfaces 11 of the base 1 does not have a layer of copper foil formed thereon. Instead, a dry-film is coated on areas of the outer surfaces 11 of the base 1 that are not required to transmit electrical signals, thereby leaving exposed areas of the outer surfaces 11 of the base 1 that are required to transmit electrical signals. The signal trace bodies 30 and the solder pad bodies 73 are formed by electroplating on the exposed areas of the outer surfaces 11 of the base 1. Thereby, the signal trace bodies 30 and the solder pad bodies 73 are formed on the base 1 by electroplating. After the signal trace bodies 30 and the solder pad bodies 73 are formed, the dry-film is removed from the outer surfaces 11 of the base 1.
In step S230, a metal layer 71 is formed on each of the solder pad bodies 73 to obtain the solder pads 7 having a second height H2 (see
In step S250, the preliminary height of the signal trace bodies 30 is increased, to form the signal traces 3 have a first height H1 which is greater than the second height H2 of the solder pads 7 (see
Step S710 of the second exemplary method is substantially the same as step S210 of the first exemplary method. The plurality of signal traces 3 and a plurality of solder pad body preforms 73a, all having a same height, are formed on the base 1. In the embodiment, the height is a first height H1 (see
In step S730, the preliminary height of the solder pad body preforms 73a is decreased by etching. In detail, in this embodiment, a dry-film is coated on the base 1 and the signal traces 3, so that only the solder pad body preforms 73a are exposed. Then the solder pad body preforms 73a are etched to a desired height, thus forming the solder pad bodies 73 (see
In step S750, a metal layer 71 is formed on each of the solder pad bodies 73 to obtain the solder pads 7 having a second height H2 (see
Each of the first and second exemplary methods described above forms the signal traces 3 having the height H1 greater than the height H2 of the solder pads 7. Therefore, the metal layers 71 of the solder pads 7 are protected from damage when a plurality of the printed circuit boards 100 are stacked together. In addition, the exemplary methods are relatively easy, and are apt to reduce a rejection rate in mass production of the printed circuit boards 100.
Although the features and elements of the present disclosure are described as embodiments in particular combinations, each feature or element can be used alone or in other various combinations within the principles of the present disclosure to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
Number | Date | Country | Kind |
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2013 1 01609506 | May 2013 | CN | national |
Number | Name | Date | Kind |
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6649506 | Hsu | Nov 2003 | B2 |
Number | Date | Country |
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100342526 | Oct 2007 | CN |
101236934 | Aug 2008 | CN |
Number | Date | Country | |
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20140326485 A1 | Nov 2014 | US |