A Phenomenological Investigation of Anomalous Performance in Flex Coaxial Cables
In this study, we investigate anomalous flex cable performance in a phased-array antenna on advanced EHF. A number of low-gain IF paths were found in one local-oscillator region during thermal cycle testing, subsequently causing an out-of-specification condition. Utilizing advanced diagnostic tools,...
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| Published in | IEEE transactions on microwave theory and techniques Vol. 58; no. 4; pp. 1003 - 1011 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.04.2010
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9480 1557-9670 |
| DOI | 10.1109/TMTT.2010.2042842 |
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| Abstract | In this study, we investigate anomalous flex cable performance in a phased-array antenna on advanced EHF. A number of low-gain IF paths were found in one local-oscillator region during thermal cycle testing, subsequently causing an out-of-specification condition. Utilizing advanced diagnostic tools, the contractor determined that the root cause of the gain drop was a failure in a flex coaxial cable. We outline the development of an analytical phenomenology model employed in understanding the failure pathology and verifying the root cause. We have developed 3-D finite-element models using Ansoft High Frequency Structure Simulator (HFSS) that mimic the insertion loss behavior associated with cable failure modes. To synthesize a particular loss characteristic, we use an equivalent circuit model consisting of parallel- LC sections. A closed-form analytical expression for resonance frequency was derived, linking the circuit and physical parameters; linear regression is used to fit measured data to the HFSS cable model. Using the phenomenology model, we determined that the root cause of the failures is a delamination of the layered outer sheath of the cable. Two mechanisms were discovered: 1) spurs in the outer layer and 2) complete layer separation over short cable lengths. The first mechanism induces a small frequency-independent increase in the loss and is inversely proportional to the spur delamination angle. This loss is attributable to conventional aging and considered benign. With the second mechanism, the delamination gap induces a sharp resonance in the loss at a discrete frequency and is reminiscent of a low-order filter. This phenomenon is a malignant loss responsible for our anomalous out-of-specification condition. We completed a parametric study using the phenomenology model, and determined that: 1) resonance frequency is inversely proportional to the gap width ( Wg ) ; 2) resonance frequency is proportional to the square root of the gap size (?{ dg }) ; 3) insertion loss amplitude is proportional to the air gap size and width; and 4) the Q of a given delamination region is proportional to the square root of the gap size. |
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| AbstractList | In this study, we investigate anomalous flex cable performance in a phased-array antenna on advanced EHF. A number of low-gain IF paths were found in one local-oscillator region during thermal cycle testing, subsequently causing an out-of-specification condition. Utilizing advanced diagnostic tools, the contractor determined that the root cause of the gain drop was a failure in a flex coaxial cable. We outline the development of an analytical phenomenology model employed in understanding the failure pathology and verifying the root cause. We have developed 3-D finite-element models using Ansoft High Frequency Structure Simulator (HFSS) that mimic the insertion loss behavior associated with cable failure modes. To synthesize a particular loss characteristic, we use an equivalent circuit model consisting of parallel- LC sections. A closed-form analytical expression for resonance frequency was derived, linking the circuit and physical parameters; linear regression is used to fit measured data to the HFSS cable model. Using the phenomenology model, we determined that the root cause of the failures is a delamination of the layered outer sheath of the cable. Two mechanisms were discovered: 1) spurs in the outer layer and 2) complete layer separation over short cable lengths. The first mechanism induces a small frequency-independent increase in the loss and is inversely proportional to the spur delamination angle. This loss is attributable to conventional aging and considered benign. With the second mechanism, the delamination gap induces a sharp resonance in the loss at a discrete frequency and is reminiscent of a low-order filter. This phenomenon is a malignant loss responsible for our anomalous out-of-specification condition. We completed a parametric study using the phenomenology model, and determined that: 1) resonance frequency is inversely proportional to the gap width ( Wg ) ; 2) resonance frequency is proportional to the square root of the gap size (?{ dg }) ; 3) insertion loss amplitude is proportional to the air gap size and width; and 4) the Q of a given delamination region is proportional to the square root of the gap size. In this study, we investigate anomalous flex cable performance in a phased-array antenna on advanced EHF. A number of low-gain IF paths were found in one local-oscillator region during thermal cycle testing, subsequently causing an out-of-specification condition. Utilizing advanced diagnostic tools, the contractor determined that the root cause of the gain drop was a failure in a flex coaxial cable. We outline the development of an analytical phenomenology model employed in understanding the failure pathology and verifying the root cause. We have developed 3-D finite-element models using Ansoft High Frequency Structure Simulator (HFSS) that mimic the insertion loss behavior associated with cable failure modes. To synthesize a particular loss characteristic, we use an equivalent circuit model consisting of parallel-[Formula Omitted] sections. A closed-form analytical expression for resonance frequency was derived, linking the circuit and physical parameters; linear regression is used to fit measured data to the HFSS cable model. Using the phenomenology model, we determined that the root cause of the failures is a delamination of the layered outer sheath of the cable. Two mechanisms were discovered: 1) spurs in the outer layer and 2) complete layer separation over short cable lengths. The first mechanism induces a small frequency-independent increase in the loss and is inversely proportional to the spur delamination angle. This loss is attributable to conventional aging and considered benign. With the second mechanism, the delamination gap induces a sharp resonance in the loss at a discrete frequency and is reminiscent of a low-order filter. This phenomenon is a malignant loss responsible for our anomalous out-of-specification condition. We completed a parametric study using the phenomenology model, and determined that: 1) resonance frequency is inversely proportional to the gap width [Formula Omitted]; 2) resonance frequency is proportional to the square root of the gap size [Formula Omitted]; 3) insertion loss amplitude is proportional to the air gap size and width; and 4) the [Formula Omitted] of a given delamination region is proportional to the square root of the gap size. In this study, we investigate anomalous flex cable performance in a phased-array antenna on advanced EHF. A number of low-gain IF paths were found in one local-oscillator region during thermal cycle testing, subsequently causing an out-of-specification condition. Utilizing advanced diagnostic tools, the contractor determined that the root cause of the gain drop was a failure in a flex coaxial cable. We outline the development of an analytical phenomenology model employed in understanding the failure pathology and verifying the root cause. We have developed 3-D finite-element models using Ansoft High Frequency Structure Simulator (HFSS) that mimic the insertion loss behavior associated with cable failure modes. To synthesize a particular loss characteristic, we use an equivalent circuit model consisting of parallel-LC sections. A closed-form analytical expression for resonance frequency was derived, linking the circuit and physical parameters; linear regression is used to fit measured data to the HFSS cable model. Using the phenomenology model, we determined that the root cause of the failures is a delamination of the layered outer sheath of the cable. Two mechanisms were discovered: 1) spurs in the outer layer and 2) complete layer separation over short cable lengths. The first mechanism induces a small frequency-independent increase in the loss and is inversely proportional to the spur delamination angle. This loss is attributable to conventional aging and considered benign. With the second mechanism, the delamination gap induces a sharp resonance in the loss at a discrete frequency and is reminiscent of a low-order filter. This phenomenon is a malignant loss responsible for our anomalous out-of-specification condition. We completed a parametric study using the phenomenology model, and determined that: 1) resonance frequency is inversely proportional to the gap width (W g); 2) resonance frequency is proportional to the square root of the gap size (d g); 3) insertion loss amplitude is proportional to the air gap size and width; and 4) the Q of a given delamination region is proportional to the square root of the gap size. |
| Author | Thompson, Paul Adams, Mark Villegas, Frank J Jackson, Charles |
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| Keywords | Performance evaluation Circuit parameter Coaxial cables Thermal cycle Numerical method phased-array antennas Phased array antenna Finite element method Millimetric wave empirical techniques Resonance frequency Millimeter wave integrated circuits Monolithic integrated circuit finite-element method (FEM) interconnects Coaxial cable Specification Failures Local oscillator Integrated circuit Analytical method Insertion loss Equivalent circuit Diagnostic aid High frequency Simulator Gain |
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| SubjectTerms | Analytical models Antennas Applied sciences Biological and medical sciences Cable shielding Cables Circuit properties Coaxial cables Computerized, statistical medical data processing and models in biomedicine Delaminating Delamination Design. Technologies. Operation analysis. Testing Electric, optical and optoelectronic circuits Electronic circuits Electronics empirical techniques Exact sciences and technology Failure Failure analysis finite-element method (FEM) Insertion loss Integrated circuits interconnects Mathematical analysis Mathematical models Medical management aid. Diagnosis aid Medical sciences Oscillators, resonators, synthetizers Pathology phased-array antennas Phenomenology Radiocommunications Resonance Resonant frequency Roots Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Studies Telecommunications Telecommunications and information theory Testing |
| Title | A Phenomenological Investigation of Anomalous Performance in Flex Coaxial Cables |
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