Coaxial connector for microwave packages

A coaxial connector for electrical connection to a microwave package comprises an outer metal body member having a dielectric-receiving bore extending therethrough which has an inner section and an outer section, the diameter of the inner section being smaller than the diameter of the outer section thereby defining a shoulder therebetween. A dielectric member of substantially the same diameter as that of the inner section disposed along the dielectric-receiving bore and having a contact-receiving bore extending therethrough along which a center contact member is disposed. Aligned holes extending through the dielectric member and the center contact member in which a dielectric securing member is disposed. Ends of the securing member extend slightly beyond the outside surface of the dielectric member in engagement with the shoulder, and a securing ring member tightly disposed between the outer surface of the dielectric member and the outer section of the dielectric-receiving bore and in engagement with the ends of the securing member thereby securing the dielectric member and center contact member in the outer metal body member.

FIELD OF THE INVENTION 
This invention relates to electrical connectors and more particularly to 
coaxial connectors for microwave packages. 
BACKGROUND OF THE INVENTION 
Coaxial connectors in current use for microwave packages have a hole 
extending through the outer metal body member which is aligned with a hole 
extending through a dielectric member in a bore of which a center contact 
is disposed. An annular recess of the center contact is coincident with 
the hole in the dielectric member. An epoxy resin is poured into the 
aligned holes and it fills the annular recess of the center contact. After 
the epoxy resin cures, it locks the body member, dielectric member and 
center contact together as a coaxial connector which can then be 
electrically connected to a microwave package. 
Under thermal shock, the epoxy resin can form cracks thereby resulting in 
RF leakage because of the holes in the outer metal body member. The 
aligning of the holes in the body member and the dielectric member is 
difficult. Making certain the flat contact section of the center contact 
for electrical connection to the conductive impedance path of the 
microwave package is in proper orientation is also difficult. The center 
contact does not have a closed entry which can result in damage to the 
center contact causing improper electrical connection requiring replacing 
the connector or discarding the microwave package. 
SUMMARY OF THE INVENTION 
According to the present invention, a coaxial connector for electrical 
connection to a microwave package comprises an outer metal body member, 
having a dielectric-receiving bore extending therethrough, which has an 
inner section and an outer section. The diameter of the inner section is 
smaller than the diameter of the outer section thereby defining a shoulder 
therebetween. A dielectric member of substantially the same diameter as 
that of the inner section disposed along the dielectric-receiving bore and 
having a contact-receiving bore extending therethrough along which a 
center contact member is disposed. Aligned holes extending through the 
dielectric member and the center contact member in which a dielectric 
securing member is disposed. Ends of the securing member extend slightly 
beyond the outside surface of the dielectric member in engagement with the 
shoulder, and a securing ring member tightly disposed between the outer 
surface of the dielectric member and the outer section of the 
dielectric-receiving bore and in engagement with the ends of the securing 
member thereby securing the dielectric member and center contact member in 
the outer metal body member.

DETAILED DESCRIPTION OF THE INVENTION 
FIGS. 1 and 3 illustrate a microwave package 10 which can be either of the 
strip line or microstrip type. Microwave package 10 includes metal housing 
members 12 and 14 which have cavities 16 and 18 that are in communication 
with arcuate cavities 20 and 22 at one end of housing members 12 and 14. 
Screws 24 secure housing members 12 and 14 together. 
A dielectric substrate 26 which is made from a suitable dielectric material 
of typically reinforced Teflon material is disposed in cavity 18 and has a 
conductive path 28 thereon of specified impedance. A similar dielectric 
substrate 30 disposed in cavity 16 and covers dielectric substrate 26 and 
conductive path 28 thereon. 
Coaxial connector 32 is mounted on microwave package 10 and is electrically 
connected thereto. Coaxial connector 32 as shown in FIGS. 1 through 4 
includes an outer metal body member 34, a dielectric member 36, a center 
metal contact member 38 including a spring contact member 40, a metal 
securing ring member 42, and a dielectric securing pin 44. 
Outer metal body member 34 includes a mounting flange 46 and a tubular 
section 48 on which threads 50 are located. Mounting flange 46 has holes 
52 through which screws 54 extend into threadable engagement with threaded 
holes 56 in housing members 12 and 14 to secure coaxial connector 32 to 
microwave package 10 and to electrically connect it thereto. A 
dielectric-receiving bore 58 extends through mounting flange 46 and 
tubular section 48 and includes an inner section 60 and an outer section 
62; inner section 60 has a smaller diameter than outer section 62 so that 
a shoulder 64 is located at the junction therebetween. 
Dielectric member 36 is molded or machined from a suitable material having 
the desired dielectric characteristics and has a contact-receiving bore 66 
extending therethrough in which center contact member 38 is disposed. The 
diameter of dielectric member 36 is such that it fits within 
dielectric-receiving bore 58 of body member 34 and has a diameter slightly 
less than inner section 60 of bore 58 and a part of dielectric member 36 
extends beyond mounting flange 46 into the hole formed by arcuate cavities 
20 and 22 in housing members 12 and 14 of microwave package 10 as shown in 
FIG. 3. A contact-receiving bore 66 extends through the dielectric member 
36 in which center contact member 38 is disposed. Dielectric member 36 has 
a hole 68 extending therethrough in communication with bore 66 and center 
contact member 38 has a hole 70 extending therethrough which are aligned 
with one another when center contact member 38 is disposed in bore 66 of 
dielectric member 36 so that securing pin 44 is positioned in aligned 
holes 68 and 70 with the ends thereof extending slightly beyond the outer 
surface of dielectric member 36 and in engagement with shoulder 64 
whereafter securing ring member 42 is positioned between outer section 62 
of bore 58 and the outer surface of dielectric member 36 in a force-fitted 
manner with recesses 72 engaging the outer ends of securing pin 44 thereby 
pressing them against shoulder 64 to secure dielectric member 36 and 
center contact member 38 in position in body member 34 as shown in FIG. 3. 
Securing pin 44 is made from a commercially-available epoxy glass material 
that is strong and stiff and effectively secures dielectric member 36 and 
center contact member 38 in position in body member 34. Thus, no holes are 
formed in body member 34 to insert securing pin 44 in position in aligned 
holes 68 and 70 thereby precluding any RF leakage therethrough. 
Center contact member 38 has a flat contact section 74 that is disposed 
between dielectric substrate 30 and conductive path 28 with the outer 
section of dielectric member 36 disposed in cavities 20, 22 when housing 
members 12, 14 are assembled as shown in FIG. 3 so that when housing 
members 12 and 14 are tightly secured together by screws 24, an excellent 
mechanical and electrical connection with conductive path 28 takes place. 
Screws 54 also assure an excellent mechanical and electrical connection of 
body member 34 to housing members 12, 14. A bore 76 is located in the 
front end of center contact member 38 in which spring contact member 40 is 
disposed. The front end of center contact member 38 is rolled over to form 
a flange 78 thereby securing spring contact member 40 in position in bore 
76. 
Spring contact member 40 is stamped and formed from a suitable metal having 
the desired spring characteristics and includes a cylindrical section 80 
and inwardly-directed arcuate-shaped spring contact sections 82. The outer 
edges of the ends of spring contact sections 82 are disposed back of 
flange 78 while the remaining parts of the ends of spring contact sections 
82 are closer to the axis of the connector than flange 78 as shown in 
FIGS. 5 and 6 which provides point contact of spring contact sections 82 
with center contact member 38 thereby transmitting current to the outer 
surface of center contact member 38 in addition to protecting center 
contact member 38 from damage when pin section 84 of complementary matable 
coaxial connector 86 is matably connected with coaxial connector 32. 
A coaxial connector has been disclosed which has no holes extending through 
its metal body member that could cause RF leakage to occur when high 
frequency signals are being transmitted therethrough, and the center 
contact member precludes any damage thereto when mating with a 
complementary coaxial connector.