Metal working – Method of mechanical manufacture – Electrical device making
Reexamination Certificate
1999-06-14
2001-09-18
Arbes, Carl J. (Department: 3729)
Metal working
Method of mechanical manufacture
Electrical device making
C029S825000, C174S107000, C174S11000P, C264S049000
Reexamination Certificate
active
06289581
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Technical Field of the Invention
The present invention relates to improvements in the methods of making flexible coaxial cables.
2. Background Art
Coaxial cables, such as for microwave transmission, have existed in the prior art for a considerable period of time. As technology has developed, a need for flexible coaxial cables whose electrical characteristics do not vary during flexure of the cable, such as in aerospace utilization, has developed. In such utilization's, often the electrical characteristics of the cable are critical and any variation therein will yield unsatisfactory transmissions via such cables. In order to increase the flexibility of prior art coaxial cables, corrugated outer conductors, such as disclosed in U.S. Pat. Nos. 3,582,536; 3,173,990 and 2,890,263 have been utilized. In addition, other prior art attempts of providing such flexibility have employed a corrugated outer sheath for the cable rather than a corrugated outer conductor, such as disclosed in U.S. Pat. No. 3,002,047. Furthermore, this concept of a corrugated outer sheath has been utilized for standard electrical cables, as opposed to coaxial cables, where such cables are exposed to considerable flexure, such as disclosed in U.S. Pat. Nos. 2,348,641 and 2,995,616.
In order to ensure electrical stability for a coaxial cable, the relative location between the various portions of the outer conductor, the dielectric and the inner conductor must remain constant during flexure of the cable or the electrical characteristics may vary. Prior art attempts to ensure this stability have involved the locking of a corrugated outer conductor to the dielectric surrounding the inner conductor, such as disclosed in U.S. Pat. No. 3,173,990 wherein such inner conductor is a foam polyethylene. However, such prior art flexible coaxial cables do not have sufficient flexibility nor do they have sufficient temperature stability, which also affects the electrical characteristics. These prior art coaxial cables utilize either a tube which is crimped to provide a corrugated tube or form the outer conductor by means of helically winding a piece of conductive material, welding the adjacent pieces together to then form a tube and, thereafter, crimping alternate longitudinal portions so as to provide a corrugated tube. In both instances, the maximum pitch for the convolutions of the outer conductor is severely limited. In the first instance, this limitation is primarily due to rupture of the conductive tube if the crimps are too closely spaced together whereas, in the second instance, the limitations are primarily due to the inability to sufficiently control the thickness of the resultant tube which is formed as a thin enough material cannot be utilized to produce a high pitch. Since the higher the pitch of the convoluted outer conductor, the greater the flexibility of the coaxial cable, these prior art flexible coaxial cables have not been satisfactory where large degrees of flexure are required together with electrical and temperature stability over a wide range of flexure.
These disadvantages of the prior art have been overcome to an extent by the prior invention of U.S. Pat. No. 3,797,104 employing a solid dielectric. However, the ability to provide flexible coaxial cables for certain applications in which a particular velocity of propagation or lower attenuation was required was somewhat limited as was the ability to readily change the velocity of propagation of the flexible coaxial cable to the desired value during manufacture. Moreover, although there have been prior art attempts to use helically wound dielectrics for coaxial cable, such as disclosed in U.S. Pat. No. 4,346,253; French Patent No. 752,006 and British Patent No. 616,303, they have not been satisfactorily employed for flexible coaxial cables, particularly since any change in pitch of the helically would dielectric during flexing of the cable wound undesirably change the properties of the cable. These disadvantages of the prior art have been overcome to some extent by the prior invention of U.S. Pat. No. 4,758,685 employing a heat shrinkable dielectric tubing surrounding a helically would dielectric beading. However, the process of manufacturing such a flexible coaxial cable is difficult and necessarily can lend itself to instabilities, such as if the shrinking were non-uniform thereby resulting in a non-uniform dielectric core which could cause problems in inserting the core into the outer conductor, and resultant electrical instability due to the locking of a non-uniform core. Moreover, in locking the outer conductor to the dielectric core when forming a high frequency cable, whether using the arrangement disclosed in U.S. Pat. Nos. 3,797,104 or 4,758,685, if any deformation of the convolutions occurs during locking moding can result at the high frequencies transmitted over the resultant cable. Such moding is undesirable in that it eases deterioration in the transmission of the RF signal over the cable due to the high VSWR and attenuation which result. Other attempts to overcome the disadvantages of the prior art are disclosed in applicant's U.S. Pat. Nos. 5,181,316; 5,196,078; and 5,239,134. However, although these approaches have been successful, they are still insufficient in certain important applications such as for coaxial cable assemblies used in phase array radar systems and test equipment where the phase performance of the cable becomes even more critical. These disadvantages of the prior art are overcome by the present invention which provides a method in which the outer conductor may be readily locked to the dielectric core without any potential deformation of the convolutions and with significant enhancement in phase performance.
DISCLOSURE OF THE INVENTION
A method of making a flexible coaxial cable comprises the steps of providing a resiliently comprehensible core comprising an inner conductor and a resiliently compressible dielectric surrounding the inner conductor. The inner conductor is located substantially along the longitudinal axis of the resiliently compressible dielectric which has a normal expanded outermost radial extent about the longitudinal axis. A flexible convoluted hollow outer conductive sheath, having a corrugated portion, is provided which has a longitudinal axis coextensive with the dielectric core longitudinal axis and an innermost radial extent about the longitudinal axis which defines an innermost circumference of the sheath which is smaller than the expanded outermost radial extent of the hollow sheath. The corrugated portion of the sheath comprises a plurality of peaks and valleys having a predetermined pitch. The dielectric core is compressed and inserted into the hollow sheath as it is drawn through while the elongation of the pitch of the sheath is maintained by air pressure, such as from an air bladder which surrounds the sheath. When the compressed core resides in the hollow sheath, it expands back to its original diameter and locks itself to the flexible sheath. This locked arrangement has been demonstrated to have significantly improved phase performance in the microwave band, such as at 26.5 GHz.
REFERENCES:
patent: 3553811 (1971-01-01), Garner
patent: 3569610 (1971-03-01), Garner et al.
patent: 3703034 (1972-11-01), Eilhardt et al.
patent: 3710440 (1973-01-01), Nevin et al.
patent: 4304713 (1981-12-01), Perelman
patent: 4560829 (1985-12-01), Reed et al.
Arbes Carl J.
Bryan Cave LLP
Flexco Microwave, Inc.
Kurland, Esq. Lawrence G.
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