Fault Detection in Aircraft Wiring using Enhanced multi-pulse TDR Technique

Defects in electrical wiring could result in disastrous consequences especially in airborne systems. The defects may in many cases be due to minor damage in the insulation or shielding of wires and cables. This type of defect is not usually detected using routine testing. They may be caused by vibration, moisture, heat, cold, abrasion and other similar effects, causing frays and cracking in wire insulation. Degradation and failure of aircraft wiring insulation is of particular interest which could lead to smoke and fire due to arcing. Results of a technique based on TDR, using trains of successive pulses was previously presented and confirmed through modelling of cables. In this paper the investigation is extended to include small 10 mm and 5 mm holes in coaxial and shielded twisted pair cables. The technique is easy to establish and due to its cumulative nature, can provide higher accuracy with increasing incremental steps. It also holds promise for detection of stray fields for non-contact detection of faults, particularly in shielded cables and wires.

[1]  A. Lelong,et al.  Distributed Reflectometry Method for Wire Fault Location Using Selective Average , 2010, IEEE Sensors Journal.

[2]  Jin Bae Park,et al.  Application of time-frequency domain reflectometry for detection and localization of a fault on a coaxial cable , 2005, IEEE Transactions on Instrumentation and Measurement.

[3]  David E. Dodds Single-Ended FDR to Locate and Specifically Identify DSL Loop Impairments , 2007, 2007 IEEE International Conference on Communications.

[4]  Gholamhossein Shirkoohi,et al.  Enhanced TDR Technique for Fault Detection in Electrical Wires and Cables , 2010 .

[5]  Yong-June Shin,et al.  Design of optimized reference signal for Joint Time-Frequency Domain Reflectometry-based wiring diagnostics , 2008, 2008 IEEE AUTOTESTCON.

[6]  Craig Hughes,et al.  A non-destructive high-voltage low-energy intermittent fault location system , 2011, 2011 IEEE AUTOTESTCON.

[7]  Jingjiang Wang,et al.  Application of joint time-frequency domain reflectometry for electric power cable diagnostics , 2010 .

[8]  Craig Hughes,et al.  Analyzing artifacts in the time domain waveform to locate wire faults , 2012, 2011 IEEE AUTOTESTCON.

[9]  Cynthia Furse,et al.  Frequency-domain reflectometry for on-board testing of aging aircraft wiring , 2003 .

[10]  C. Furse,et al.  Analysis of spread spectrum time domain reflectometry for wire fault location , 2005, IEEE Sensors Journal.

[11]  John J. Soraghan,et al.  Automatic fault location for underground low voltage distribution networks , 2001, 2002 IEEE Power Engineering Society Winter Meeting. Conference Proceedings (Cat. No.02CH37309).

[12]  Stefan Schuet Wiring Diagnostics Via $\ell_1$-Regularized Least Squares , 2010, IEEE Sensors Journal.

[13]  T. Leibfried,et al.  Advanced signal processing and modeling for partial discharge diagnosis on mixed power cable systems , 2013, IEEE Transactions on Dielectrics and Electrical Insulation.

[14]  C. Furse,et al.  The invisible fray: a critical analysis of the use of reflectometry for fray location , 2006, IEEE Sensors Journal.

[15]  Lionel Pichon,et al.  Detection of Defects in Wiring Networks Using Time Domain Reflectometry , 2010, IEEE Transactions on Magnetics.

[16]  R.R. Harrison,et al.  Low-Power STDR CMOS Sensor for Locating Faults in Aging Aircraft Wiring , 2007, IEEE Sensors Journal.

[17]  Gholamhossein Shirkoohi Modelling of fault detection in electrical wiring , 2014 .

[18]  M. Feliziani,et al.  Detection and localization of defects in shielded cables by time-domain measurements with UWB pulse injection and clean algorithm postprocessing , 2004, IEEE Transactions on Electromagnetic Compatibility.

[19]  Concettina Buccella,et al.  Identification and localization of defects in shielded cables by a numerical/experimental procedure , 2003, 2003 IEEE Symposium on Electromagnetic Compatibility. Symposium Record (Cat. No.03CH37446).

[21]  Cynthia Furse,et al.  Leaky fields from damaged shields , 2011, 2011 IEEE International Symposium on Antennas and Propagation (APSURSI).