Functional connector

Information

  • Patent Grant
  • 6616483
  • Patent Number
    6,616,483
  • Date Filed
    Friday, May 10, 2002
    22 years ago
  • Date Issued
    Tuesday, September 9, 2003
    21 years ago
Abstract
A functional connector includes: first, second and third lead frames each including a contact and a terminal integrally contiguous to the contact; a diode chip; a lead chip posed between the first lead frame and the second lead frame to connect opposite poles of the diode chip to the contact of each of the first lead frame and the second lead frame; a resistor chip arranged astride the second lead frame and the third lead frame and connected to the contact of each of the second lead frame and the third lead frame; and resin covering the first lead frame and the third lead frame each excluding the contact, the diode chip and the resistor chip, with the first lead frame and the third lead frame each having the terminal protruding externally.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates to functional connectors for use for example with electrical equipment mounted to a vehicle.




2. Description of the Background Art




As vehicles are functionally enhanced they have a variety of electrical equipment mounted thereto. Furthermore such equipment varies from vehicle to vehicle. On the other hand, sharing a unit controlling electrical equipment is promoted to reduce cost. To allow the common control unit to control a variety of electrical equipment a functional connector is used to functionally complement the control unit.




The functional connector can include a diode connector, a resistor connector, a filter (capacitor) connector, and the like.




The diode connector is used to address an electric current turning around (or uniforming an electric current in direction). The resistor connector is used for adjusting a load resistance (or controlling an electric current in value). The filter (capacitor) connector is used to reduce noise.




The aforementioned functional connector, as described above, can accommodate a single required function. However, the functional connector alone cannot accommodate an electric current uniform in direction and controlled in value simultaneously.




If an electric current needs to be uniform in direction and controlled in value simultaneously the diode connector and the resistor connector would both be required.




Furthermore each needs to include male and female connectors, for a total of four connectors. This requires a large space for attaching them and is thus against demands for miniaturizing a component mounted to an automobile, reducing it in weight, and saving space.




Furthermore, if space-saving and miniaturization are attempted by combining a diode chip and a resistor chip, heat generated by the diode chip may negatively affect the resistor chip.




SUMMARY OF THE INVENTION




The present invention has been made to overcome the above disadvantages, with a functional connector serving both a diode connector and a resistor connector.




The present functional connector includes: first, second and third lead frames each including a contact and a terminal integrally contiguous to the contact; a diode chip; a lead chip posed between the first lead frame and the second lead frame to connect opposite poles of the diode chip to the contact of each of the first lead frame and the second lead frame; a resistor chip arranged astride the second lead frame and the third lead frame and connected to the contact of each of the second lead frame and the third lead frame; and resin covering the first lead frame and the third lead frame each excluding the contact, the diode chip and the resistor chip, with the first lead frame and the third lead frame each having the terminal protruding externally.











The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.




BRIEF DESCRIPTION OF THE DRAWINGS




In the figures:





FIG. 1

is a plan view of a functional connector of the present invention in fabrication;





FIG. 2

is a cross section of the

FIG. 1

connector taken along a line II—II;





FIG. 3

is a cross section of the

FIG. 1

connector taken along a line III—III;





FIG. 4

is a plan view of a functional connector of the present invention;





FIG. 5

shows the

FIG. 4

connector as seen upwards;





FIG. 6

is a cross section of the

FIG. 4

connector taken along a line VI—VI; and





FIG. 7

is a cross section of the

FIG. 4

connector taken along a line VII—VII.











DESCRIPTION OF THE PREFERRED EMBODIMENTS




Reference will initially be made to

FIGS. 1-3

to describe a method of fabricating a functional connector in accordance with the present invention.




The present functional connector includes three lead frames arranged in parallel and connected by a carrier


11


and a tie bar


12


. These three lead frames are denoted as first, second and third lead frames


1


,


2


and


3


.




A diode chip


4


are connected by a lead chip


5


to the first and second lead frames


1


and


2


. Lead chip


5


has an upper portion covered with a buffer material


10


.




A resistor chip


6


is firmly adhered to the second and third lead frames


2


and


3


with high-temperature solder


7


, e.g., lead-free solder. Resistor chip


6


has an upper portion covered with a buffer material


8


and a gap between the second and third lead frames


2


and


3


is also provided with a buffer layer


9


.




Furthermore, the first to third lead frames


1


-


3


each have a terminal exposed, and diode chip


4


, resistor chip


6


and the portions of the lead frames that bear the chips are integrally molded with resin


13


.




After they are integrally molded with resin, carrier


11


and tie bar


12


are punched off and thus removed to provide a functional connector serving both a diode connector and a resistor connector.




Reference will now be made to

FIGS. 4-7

to describe an example of the functional connector of the present invention. Note that in

FIG. 4

, molded resin


13


is shown partially eliminated for the sake of convenience to show diode chip


4


and resistor chip


6


provided astride the lead frames.




The first lead frame


1


bearing diode chip


4


and the second lead frame


2


that are maximized in area, as spatially permitted, effectively help to dissipate heat generated from diode chip


4


. Resistor chip


6


hardly generates heat and the third lead frame


3


may thus be smaller in area than the first and second lead frames


1


and


2


.




Furthermore in connecting the functional connector for example to a control unit in circuit the first and third lead frames


1


and


3


, serving as terminals, are alone required to each have a portion exposed outside resin


13


, although the center, second lead frame


2


as a dummy terminal that also partially protrudes outside resin


13


can effectively help more to dissipate heat generated from diode chip


4


.




It is known that by providing a buffer layer between the resistor chip and the molded resin, thermal stress can be absorbed and a functional connector impervious for example to a cryogenic cycle can be obtained. By also having a buffer layer between the diode chip and the molded resin, the functional connector can further be impervious for example to the cryogenic cycle. Furthermore if the buffer layer is formed of elastic resin having good thermal conductivity it helps to dissipate heat generated from the diode chip and thus allows the functional connector to be more reliable.




While the material that is molded can for example be a typically used epoxy resin, for example devising a filler to provide a blend having good thermal conductivity is preferable as such can helps to dissipate heat generated from the diode chip.




Furthermore, the mold that is formed to have a surface with a depression and a protrusion referred to as a fin, rather than a flat surface, can also help to dissipate heat generated from the diode chip. In the

FIG. 4

example, resin


13


has an upper surface provided with a fin.




The diode and resistor chips are firmly fixed or connected to the lead frames preferably with Sn—Ag-based solder, Sn—Ag—Cu-based solder or the like having a melting point of 200 to 240 degrees.




This can satisfy thermal resistance (of 250 degrees centigrade) of a resistance chip and also eliminate the concern that heat (of 200 degrees centigrade) generated from the diode chip may also result in defective connection.




The present functional connector thus includes: first, second and third lead frames each including a contact and a terminal integrally contiguous to the contact; a diode chip; a lead chip posed between the first lead frame and the second lead frame to connect opposite poles of the diode chip to the contact of each of the first lead frame and the second lead frame; a resistor chip arranged astride the second lead frame and the third lead frame and connected to the contact of each of the second lead frame and the third lead frame; and resin covering the first lead frame and the third lead frame each excluding the contact, the diode chip and the resistor chip, with the first lead frame and the third lead frame each having the terminal protruding externally, so that the functional connector can be compact and also functionally serve as both a diode connector and a resistor connector




Although the present invention has been described and illustrated in detail, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the spirit and scope of the present invention being limited only by the terms of the appended claims.



Claims
  • 1. A functional connector comprising:first, second and third lead frames each including a contact and a terminal integrally contiguous to said contact; a diode chip; a lead chip posed between said first lead frame and said second lead frame to connect opposite poles of said diode chip to said contact of each of said first lead frame and said second lead frame; a resistor chip arranged astride said second lead frame and said third lead frame and connected to said contact of each of said second lead frame and said third lead frame; and resin covering said first lead frame and said third lead frame each excluding said contact, said diode chip and said resistor chip, with said first lead frame and said third lead frame each having said terminal protruding externally.
  • 2. The functional connector of claim 1, wherein said first lead frame and said second lead frame are each greater in area than said third lead frame.
  • 3. The functional connector of claim 1, wherein said first lead frame and said third lead frame each have said terminal protruding outside molded resin and in addition said second lead frame has said terminal serving as a dummy terminal and protruding outside said molded resin.
  • 4. The functional connector of claim 1, wherein said molded resin is finned.
  • 5. The functional connector of claim 1, wherein said molded resin is resin having high thermal conductivity.
  • 6. The functional connector of claim 1, wherein a buffer layer formed of elastic resin is provided between said diode chip and said molded resin and between said resistor chip and said molded resin.
Priority Claims (1)
Number Date Country Kind
2001-141096 May 2001 JP
US Referenced Citations (5)
Number Name Date Kind
4997393 Armando Mar 1991 A
5139443 Armando Aug 1992 A
5403203 Fischl et al. Apr 1995 A
5924899 Paagman Jul 1999 A
6010366 Tanigawa et al. Jan 2000 A