JP4436613B2 - Laser diode package - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a laser diode package.
[0002]
[Prior art]
In an optical pickup such as an audio player using an optical disk, a package equipped with a laser diode is used as a laser light source. The laser diode package is provided with an element mounting part that mounts a laser diode on a disk-shaped metal eyelet part, and the eyelet part is a glass-sealed lead pin. There are products formed by resin molding.
[0003]
FIG. 6 shows an example of a resin package for a laser diode in which the eyelet part is formed by resin molding. Both the lead pin 10 and the element mounting portion 12 are formed by pressing a metal strip into a lead frame shape, and the lead pin 10 and the element mounting portion 12 are formed by resin molding to form the eyelet portion 14. The eyelet part 14 includes a disk part 14a having a circular outer peripheral side surface and a block part 14b formed integrally with the disk part 14a. The element mounting surface of the element mounting portion 12 and the bonding portion 10a of the lead pin 10 are exposed on the inner end surface of the block portion 14b, a laser diode is bonded to the element mounting portion 12, and the laser diode and the bonding portion 10a are wire bonded. Thus, the laser diode and the lead pin 10 are formed to be electrically connected.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 2000-12972
[Problems to be solved by the invention]
The resin package for a laser diode shown in FIG. 6 can be easily mass-produced because the lead pin 12 and the element mounting portion 12 are formed by pressing, and the eyelet portion 14 is formed by resin molding. There is an advantage that it can be produced. However, when the eyelet part 14 is made of resin, the heat dissipation from the eyelet part 14 is insufficient compared to a package having a metal eyelet part, and a large-output laser diode with a large amount of heat is mounted. There is a problem that the devices that can not be mounted are limited.
Further, the disc portion 14a is used to align the optical axis with the outer peripheral surface as a reference plane when a package having a laser diode mounted thereon is mounted on a device. The eyelet portion 14 formed by resin molding, There was a problem that the dimensional accuracy of the outer diameter was lower than that of a package having a metal eyelet portion, and the accuracy was insufficient.
[0006]
Therefore, the present invention has been made to solve these problems, and the object of the present invention is to mount a high-power laser diode with good heat dissipation of the eyelet part, and with high precision position. The present invention provides a laser diode package that can be easily manufactured and mass-produced and can be manufactured at low cost.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, the present invention has the following configuration.
That is, a second laser diode package assembled from the parts of the eyelet part and the lead pin portion, wherein the eyelet part, by press working a metal material, a plane shape formed in a semicircular shape, fitted to the inner end and eyelet base portion engagement recesses are formed, and a said eyelet base portion and the element mounting portion formed integrally on standing shape, wherein the lead pin portion includes a lead pin whose one end is formed in the bonding portion, one end portion wherein the ground lead pin formed on the joint portion joined to the eyelet base portion is molded on one body, wherein a fitting projection to be fitted into the mating recess, abuts the flat portion on the inner end surface of the eyelet base portion And a lead support portion that supports the lead pin and the earth lead pin, and the portion protruding upward from the flat plate portion of the lead pin is a resin. The bonding portion is exposed on the front surface, the back surface side of the lead pin is buried in resin, and is molded with resin. The other end portion of the lead pin and the ground lead pin that extends downward from the flat plate portion is a lead pin and a ground lead pin. the lower portion is molded integrally to expose the, said eyelet portion and the lead pin portion, uneven-fitted to the fitting protrusion of the lead pin portion on the inner end surface of the eyelet base portion, the joint portion, It is assembled by being joined to the inner end surface of the eyelet base portion by welding .
[0009]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described in detail with reference to the accompanying drawings.
FIGS. 1A, 1B, and 1C are a plan view, a front view, and a side view showing a configuration of an embodiment of a laser diode package according to the present invention. The laser diode package of the present embodiment is formed by combining two parts, an eyelet portion 20 and a lead pin portion 30. The eyelet portion 20 is formed by pressing a metal, and the lead pin portion 30 is pressed. The lead pin formed by the above is formed by resin molding.
[0010]
2A, 2B, and 2C are a plan view, a front view, and a side view of the eyelet portion 20, respectively. The eyelet portion 20 includes an eyelet base portion 22 having a semicircular planar shape, and an element mounting portion 24 formed in an upright shape integrally with the eyelet base portion 22. The element mounting portion 24 is formed in a rectangular block shape, and is shaped so that the inner end surface 22a of the eyelet base portion 22 and the element mounting surface 24a are flush with each other as shown in FIG.
In FIG. 2A, reference numeral 26 denotes a fitting recess formed at the inner end portion of the eyelet base portion 22. The fitting recess 26 is provided for fitting the lead pin portion 30 to the eyelet portion 20 in a concavo-convex manner.
The eyelet part 20 is provided by pressing a metal and forming it into individual pieces having the form shown in FIG.
[0011]
3A, 3B, and 3C are a plan view, a front view, and a side view of the lead pin portion 30 used in combination with the eyelet portion 20, respectively. The lead pin portion 30 includes two lead pins 10 and one ground lead pin 11, and contacts the fitting protrusion 32 that fits into the fitting recess 26 of the eyelet portion 20 by resin molding and the inner end surface of the eyelet base portion 22. A flat plate portion 34 in contact with each other, and a lead support portion 36 that supports the lead pin 10 and the ground lead pin 11 are formed.
As shown in FIG. 3B, the fitting protrusion 32 protrudes upward from the flat plate portion 34 and is resin-molded so that the bonding portion 10 a of the lead pin 10 is exposed on the front surface of the fitting protrusion 32. That is, as shown in FIG. 3A, the lead pin 10 is resin-molded so that only the bonding portion 10a, which is the front end surface of the lead pin 10, is buried in the resin so that it is exposed on the front surface of the fitting protrusion 32. Yes.
[0012]
The bonding portion 10a provided on one end side of the lead pin 10 is a portion protruding upward from the flat plate portion 34 during resin molding, and the other end side of the lead pin 10 is flat plate portion 34 as shown in FIG. Extend downward from
On the other hand, the ground lead pin 11 is disposed below the flat plate portion 34 between the two lead pins 10 and 10. 11 a is a joint provided at one end of the earth lead pin 11. The joint portion 11 a is provided in accordance with a position where the ground lead pin 11 and the eyelet base portion 22 of the eyelet portion 20 are joined.
In the present embodiment, the joint portion 11a is provided in a rectangular shape with a front shape, but the shape of the joint portion 11a is not particularly limited. The joint portion 11a is resin-molded such that the side surface is exposed on the back surface side of the flat plate portion 34 facing the inner end surface of the eyelet base portion 22 of the eyelet portion 20.
[0013]
As shown in FIG. 3B, the lead support portion 36 is resin-molded so that the front surfaces of the lead pin 10 and the ground lead pin 11 are exposed. As shown in FIG. 3C, the back side of the lead pin 10 is covered with resin. In the present embodiment, resin molding is performed so that the front surface of the lead pin 10 and the like is exposed. However, the lead support portion 36 exposes only the lower end portions of the lead pin 10 and the ground lead pin 11 and covers the outer surface of the pin including the front surface. Resin molding can also be performed so as to seal the entire surface. What is necessary is just to design the form of the lead support part 36 according to the connection form of the lead pin 10, the earth lead pin 11, and a socket.
[0014]
The lead support portion 36 is provided so as to connect the lead pin 10 and the earth lead pin 11, and thereby the lead pin 10 and the earth lead pin 11 are held. By supporting the lead pin 10 and the ground lead pin 11 by the lead support portion 36, it is possible to prevent the lead pin 10 and the ground lead pin 11 from being bent during the conveyance of the component.
[0015]
In the present embodiment, as shown in FIG. 4, to form a lead pin 10 and the ground lead pin 11 by performing press working on the lead frame body on the metal strip. Thus, the lead pin part 30 mentioned above can be obtained by resin-molding in the state which formed the lead pin 10 and the earth lead pin 11 in the lead frame body.
FIG. 4 (a) shows a lead frame body in which a long metal strip is press-punched to form lead pins 10 and ground lead pins 11 in a repetitive pattern. A lead pin 10 and a ground lead pin 11 are connected to the rail portion 5 to form a lead frame.
[0016]
FIG. 4B shows a state in which the lead pin portion 30 is formed by resin molding the lead pin 10 and the ground lead pin 11 formed in a repeating pattern for each unit portion. When the lead pin 10 and the ground lead pin 11 are resin-molded, the lead frame body is cut into a strip having a predetermined length, and resin molding is performed in exactly the same manner as in the case of manufacturing a resin-encapsulated semiconductor device. it can.
The lead pin portion 30 is obtained as an individual lead pin portion 30 shown in FIG. 3 by separating the lead pin 10 and the ground lead pin 11 from the rail portion 5 after resin molding.
[0017]
As shown in FIG. 4, the method of forming the lead pin 10 and the ground lead pin 11 as a lead frame body by press-cutting a metal strip to easily mass-produce the lead pin 10 and the ground lead pin 11 in a predetermined pattern. In addition, by forming the lead pin 10 and the ground lead pin 11 in a state of the lead frame body with resin, the lead pin portion 30 in which the lead pin 10 and the ground lead pin 11 are resin-molded can be easily obtained. There are advantages.
[0018]
As shown in FIG. 4, when the lead pin 10 and the earth lead pin 11 are formed in a lead frame shape and the lead pin 10 and the earth lead pin 11 are formed separately from the eyelet part 20, the lead pin 10 and the earth lead pin 11 are formed. There is an advantage that the necessary plating can be applied to the necessary portions.
In a laser diode package in which a lead pin is glass-sealed on an eyelet, since the lead pin is sealed on the eyelet and then plated such as gold plating, the plating is deposited on all exposed portions of the lead pin and eyelet. In contrast, in the present embodiment, when gold plating is performed on the bonding portion 10a of the lead pin 10, only the bonding portion 10a can be plated with gold, and plating is performed on a portion that does not require gold plating. This can be prevented. In this way, by performing necessary plating on necessary portions, it is possible to eliminate useless plating and reduce manufacturing costs.
[0019]
In the laser diode package of this embodiment, since the eyelet part 20 is separated from the lead pin part 30, even when the eyelet part 20 is plated, the eyelet part 20 can be subjected to required plating alone. . It is not always necessary to apply gold plating to the eyelet portion 20 as in the conventional product. In this way, it is possible to reduce the manufacturing cost by eliminating unnecessary plating for the eyelet portion 20 as well.
[0020]
As shown in FIG. 3A, the lead pin portion 30 manufactured by the above-described method is adapted to fit the fitting protrusion 32 of the lead pin portion 30 into the fitting concave portion 26 of the eyelet base portion 22 of the eyelet portion 20. In combination, the joint 11a of the earth lead pin 11 is joined to the inner surface of the eyelet base 22 and assembled. As a method for joining the joint portion 11a of the earth lead pin 11 and the eyelet base portion 22, a welding method such as laser welding or spot welding can be suitably used. This is because when the joining portion 11a is joined to the eyelet base portion 22 by welding, there is no possibility that the joining portion will be peeled off even if the package is heated when joining the laser diode to the element mounting portion 24. Of course, if the bonding strength between the earth lead pin 11 and the eyelet base portion 22 is sufficient, a bonding method other than welding, for example, a method using a conductive adhesive is also possible.
By joining the earth lead pin 11 and the eyelet base part 22, the eyelet base part 22 and the earth lead pin 11 are electrically connected.
[0021]
As shown in FIG. 1A, the fitting protrusion 32 of the lead pin portion 30 is fitted into the fitting recess 26 of the eyelet base portion 22 of the eyelet portion 20 and the eyelet portion 20 and the lead pin portion 30 are assembled. The end surface of the flat plate portion 34 comes into contact with the inner end surface of the eyelet base portion 22, and the element mounting surface 24a of the element mounting portion 24 and the bonding portion 10a of the lead pin 10 are located on the same plane. Since the fitting protrusion 32 is combined so that the bonding portion 10a of the lead pin 10 is on the outer surface side, the lead pin 10 is electrically insulated from the eyelet base portion 22 by the resin.
[0022]
FIG. 5 shows a state in which the laser diode 40 is mounted on the laser diode package described above. A laser diode 40 is bonded to the front surface of the element mounting portion 24, and the laser diode 40 and the bonding portion 10 a of the lead pin 10 are connected by a bonding wire 42. As a result, the laser diode 40 and the lead pin 10 are electrically connected. By setting the earth lead pin 11 to the ground potential, the element mounting portion 24 and the eyelet base portion 22 become the ground potential.
[0023]
Since the eyelet portion 20 is formed by pressing a metal in the laser diode package, the eyelet portion 20 has a heat dissipation property equivalent to that of a package including a conventional metal eyelet. This makes it possible to mount a high-power laser diode. In addition, since the eyelet part 20 is formed by pressing, the dimensional accuracy of the outer peripheral surface 22b of the eyelet base part 22 is equivalent to that of a conventional metal eyelet, and the eyelet part 20 has a higher dimensional accuracy than a resin package. Can be provided as a product. Therefore, by using the outer peripheral surface 22b of the eyelet base portion 22 of the eyelet portion 20 as a reference surface for aligning the optical axis of the package, the package can be aligned and mounted with high accuracy.
[0024]
In addition, although the package for laser diodes of the said embodiment showed the example provided with the semicircle-shaped eyelet base | substrate part 22 as the eyelet part 20, this is the outer peripheral surface 22b formed in the circular arc shape of the eyelet base | substrate part 22. This is because, if the length of the complete circular disk is about half a circumference, it can be used sufficiently as a reference plane for optical axis alignment when mounting a laser diode package. Further, when the eyelet base 22 is formed in a semicircular shape, the inner end surface of the eyelet base 22 is the widest, and it is easy to form a package by combining the lead pin 30. Needless to say, the eyelet base 22 is not limited to a semicircular shape, and may have a shape closer to a circle than a semicircular shape, or a shape slightly lacking in a semicircular shape (fan shape).
[0025]
In addition, since the laser diode package of the present embodiment combines the eyelet portion 20 and the lead pin portion 30 and joins them by welding or the like to produce a product. The member is not exposed to high temperatures. Therefore, it is possible to select and use a more suitable material for the eyelet portion 20 and the lead pin portion 30 than the conventional product. For example, a metal material can be selected for the eyelet portion 20 in consideration of heat dissipation, and the lead pin portion 30 can be easily pressed or a metal material that can be welded can be selected. Become. This makes it possible to provide a laser diode package having excellent characteristics.
[0026]
In addition, as described above, the laser diode package according to the present embodiment has two parts, ie, the eyelet part 20 and the lead pin part 30, and the parts are separately formed and assembled into a product. It can be lowered. In addition, by assembling without complicated work such as glass sealing, it becomes possible to provide a laser diode package without reducing the manufacturing cost as a whole and without deteriorating product accuracy and product reliability. There is an advantage.
[0027]
【The invention's effect】
As described above, the laser diode package according to the present invention is manufactured separately from the eyelet part and the lead pin part, and by combining these parts, the heat dissipation of the eyelet part is improved and the output is large. The laser diode can be mounted, and the optical axis can be aligned with high accuracy. The lead pin part is provided by resin molding, so that the lead pin can be bent and provided as a highly reliable laser diode package. be able to. In addition, it is possible to select and use a suitable material for each of the eyelet part and the lead pin part, and to produce a product with excellent characteristics at a low cost by applying suitable plating to each part. Remarkably effective.
[Brief description of the drawings]
FIG. 1 is a plan view (a), a front view (b), and a side view (c) showing a configuration of an embodiment of a laser diode package according to the present invention.
FIG. 2 is a plan view (a), a front view (b), and a side view (c) of an eyelet part.
FIG. 3 is a plan view (a), a front view (b), and a side view (c) of a lead pin portion.
FIG. 4 is an explanatory view of a lead pin and a ground lead pin formed in a lead frame shape, and an explanatory view showing a state where the lead pin and the ground lead pin are resin-molded.
FIG. 5 is a front view showing a state in which a laser diode is mounted on a laser diode package according to the present invention.
FIG. 6 is a plan view (a), a front view (b), and a side view (c) showing a configuration of a conventional resin package for a laser diode.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Lead pin 10a Bonding part 11 Ground lead pin 11a Joint part 12 Element mounting part 20 Eyelet part 22 Eyelet base | substrate part 24 Element mounting part 24a Element mounting surface 26 Fitting recessed part 30 Lead pin part 32 Fitting protrusion 34 Flat plate part 36 Lead support part 40 Laser Diode 42 Bonding wire

Claims (1)

A laser diode package assembled from two parts, an eyelet part and a lead pin part,
The eyelet part is formed into a semicircular shape in a planar shape by pressing a metal material , and an eyelet base part in which a fitting recess is formed in an inner end part, and an upright shape integrally with the eyelet base part. and an element mounting portions,
The lead pin portion includes a lead pin whose one end is formed in the bonding portion, and the ground lead pin formed at the junction of one end is joined to the eyelet base portion is molded on one body, fitted into the fitting recess A mating protrusion, a flat plate portion that contacts the inner end surface of the eyelet base portion, and a lead support portion that supports the lead pin and the ground lead pin.
The portion of the lead pin that protrudes upward from the flat plate portion is formed by resin molding by exposing the bonding portion on the front surface of the resin and burying the back surface side of the lead pin in the resin,
The other end portion of the lead pin and the ground lead pin that extends downward from the flat plate portion is integrally molded with a resin by exposing the lower end portions of the lead pin and the ground lead pin,
And said lead pin portion and the eyelet portion, wherein the eyelet base portion uneven-fitted to the fitting protrusion of the lead pin portion on the inner end surface of the joint, and welded to the inner end face of the eyelet base portion A package for a laser diode, characterized by being assembled.

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