Package for housing photosemiconductor element

Electric lamp and discharge devices – With luminescent solid or liquid material – Solid-state type

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C385S092000

Reexamination Certificate

active

06426591

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a package for housing a photosemiconductor element.
2. Description of the Related Art
Hitherto, a package for housing a photosemiconductor element comprises a metallic substrate generally made of metal such as an iron-nickel-cobalt alloy and a copper-tungsten alloy, having a mounting portion for mounting the photosemiconductor element at the center of the top surface thereof, around the mounting portion a plurality of external lead terminals being fixed so as to penetrate through an insulating member from the top surface to the bottom surface of the substrate; a frame made of an iron-nickel-cobalt alloy and the like, the frame being bonded on the metallic substrate via a brazing material such as silver brazing material so as to surround the mounting portion for mounting the photosemiconductor element, the frame having a through hole on a side thereof; a cylindrical fixing member made of metal such as an iron-nickel-cobalt alloy, the cylindrical fixing member being attached around the through hole of the frame via a brazing material such as a gold-tin alloy and having a space therein in which an optical signal is transmitted; a light transmitting member made of amorphous glass and the like, the light transmitting member being attached to the cylindrical fixing member via a low melting point brazing material such as a gold-tin alloy having a melting point of 300 to 400° C. to clog the inside of the fixing member; and a lid attached onto the top surface of the frame to hermetically seal the photosemiconductor element. The package for housing a photosemiconductor element is made into a photosemiconductor device as a product in the steps of bonding and fixing the photosemiconductor element to the mounting portion of the metal substrate, electrically connecting respective electrodes of the photosemiconductor element with external lead terminals via bonding wires, bonding the lid on the top surface of the frame, housing the photosemiconductor element hermetically within the housing composed of the metal substrate, the frame and the lid, and connecting an optical fiber to the cylindrical fixing member.
Such a photosemiconductor device functions as a photosemiconductor device for use in high speed optical communications and others in such a manner that the photosemiconductor element is optically excited by a driving signal supplied from an external electrical circuit, and the excited light is received by the optical fiber through the light transmitting member to be transmitted within the optical fiber.
However, the prior art package for housing a photosemiconductor element, which comprises a light transmitting member made of amorphous glass having a coefficient of thermal expansion of 8.5×10
−6
/°C. (30 to 400° C.) and a cylindrical fixing member made of an iron-nickel-cobalt alloy having a coefficient of thermal expansion of about 4.5 ×10
−6
/°C. (room temperature to 400° C.) has a drawback that when the light transmitting member is attached to the cylindrical fixing member via a low melting point brazing material, thermal stress is caused between the light transmitting member and the cylindrical fixing member due to the difference in coefficient of thermal expansion between the two, and which thermal stress remains in the light transmitting member. Accordingly, when the light exited by the photosemiconductor element is passed through the light transmitting member to be received by the optical fiber, double-refraction of the excited light is caused due to the thermal stress existing in the light transmitting member, and consequently the optical fiber receives only part of the excited light, with the result that the light receiving efficiency of the optical fiber as well as the transmission efficiency of optical signal decreases.
Hence, in order to eliminate the drawback, it is conceivable to form a fixing member to which the light transmitting member made of the amorphous glass is attached, out of an alloy of from 40 to 60 wt % iron and from 40 to 60 wt % nickel, having a coefficient of thermal expansion close to that of the light transmitting member.
In the case where such a fixing member is formed out of the alloy of from 40 to 60 wt % iron and from 40 to 60 wt % nickel, since the coefficient of thermal expansion of the fixing member is about 9.5×10
−6
/°C. (room temperature to 400° C.), close to the coefficient of thermal expansion of the light transmitting member made of the amorphous glass (about 8.5×10
−6
/°C.:30 to 400° C.), in attaching the light transmitting member to the fixing member almost no thermal stress due to a difference in coefficient of thermal expansion occurs and accordingly there exists almost no thermal stress in the light transmitting member.
However, although no thermal stress is caused between the fixing member and the light transmitting member in attaching the light transmitting member to the fixing member, the frame is made of a metallic material such as an iron-nickel-cobalt alloy, having a thermal expansion of 4.5×10
−6
/°C. (room temperature to 400° C.), which is different from the coefficient of thermal expansion of the fixing member (about 9.5×10
−6
/°C.: room temperature to 400° C.) made of the alloy of from 40 to 60 wt % iron and from 40 to 60 wt % nickel, thermal stress due to the difference in coefficient of thermal expansion between the two occurs in attaching the fixing member on the outer surface around the through hole of the frame via a brazing material of a gold-tin alloy or the like. The thermal stress adversely affects the light transmitting member attached to the fixing member, namely causes double-refraction of the light excited by the photosemiconductor element in passing through the light transmitting member, which results in a drawback that the light receiving efficiency of optical fiber and the transmission efficiency of optical signal decrease.
SUMMARY OF THE INVENTION
The present invention has been devised in view of the drawbacks mentioned above and the object of the invention is to provide a package for housing a photosemiconductor element capable of causing excited light to be efficiently received by an optical fiber and achieving an enhanced transmission efficiency of optical signal.
The invention provides a package for housing a photosemiconductor element comprising:
a substrate having a mounting portion on a top surface of which a photosemiconductor element is mounted;
a frame attached onto the substrate so as to surround the mounting portion, having a through hole on a side thereof;
a cylindrical fixing member attached around the through hole of the frame, having a space therein in which an optical signal is transmitted;
a light transmitting member attached to the cylindrical fixing member, for clogging an inside of the fixing member; and
a lid attached to a top surface of the frame, for hermetically sealing the photosemiconductor element, wherein the fixing member is made of an alloy of from 40 to 60 wt % iron and from 40 to 60 wt % nickel.
According to the package for housing a photosemiconductor element of the invention, because the fixing member is made of the alloy of from 40 to 60 wt % iron and from 40 to 60 wt % nickel, the coefficient of thermal expansion of the fixing member is about 9.5×10
−6
/°C. (room temperature to 400° C.). Thereby, the coefficient of thermal expansion of the fixing member becomes close to 8.6×10
−6
/°C. (30 to 400° C.), which is the coefficient of thermal expansion of the light transmitting member. As a result, in attaching the light transmitting member to the fixing member almost no thermal stress due to a difference in coefficient of thermal expansion occurs between the two and almost no thermal stress exists in the light transmitting member. Accordingly, in transmitting excited light of the photosemiconductor element to the optical fiber member via the light transmitting member, the excited light is efficientl

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

Package for housing photosemiconductor element does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Package for housing photosemiconductor element, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Package for housing photosemiconductor element will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-2855066

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