Download Medium Voltage Cable Testing Technologies

Medium Voltage
Cable Testing Technologies
Presented by:
Craig Goodwin
Most Commonly Used Cable Testing
Methods
Energization Sources:
• DC and DC Leakage Methods (Insulation
Resistance)
• Damped AC (20-300 Hz)
• AC – Power Frequency
• AC – Low Frequency (VLF – 0.1 Hz)
Most Commonly Used MV Cable Testing
Methods
Cable Diagnostic Technique:
•
•
•
•
•
•
•
Withstand
Tan Delta / Dissipation Factor
Partial Discharge (Online and Offline)
TDR (Time Domain Reflectometry)
Thermal Imaging
Others
Combination of the Above - Smart
Online versus Offline
• Online testing is generally easier to
carry out, and is so called “nondestructive” its effectiveness is
also limited..
• Offline testing, while requiring
more preparation and setup,
provides more insight into
the cables true condition.
IEEE MV Cable Field Testing Chart
IEEE 400 (OmniBus) - 2012
Guide for Field Testing & Evaluation of
the Insulation of Shielded Power Cable
Systems Rated 5kV and above
IEEE 400.1
IEEE 400.2 – 2013
IEEE 400.3
Field Testing of Laminated
Cables Rated 5kV and above
using DC.
Field Testing of Shielded
Power Cables using Very Low
Frequency VLF
PD Testing of Shielded Power
Cables in the Field
Environment
Note 1 – there is no IEEE 60Hz field withstand testing
standard for MV Cables
Note 2 – there is no IEEE DC field testing standard for any
extruded cables.
The Demise of the DC Hipot for Testing
MV Cables
• Potential Negative Impact on the Service
Reliability of Extruded Cables
• Ineffectiveness to Detect Serious Defects in
Cable Insulation
Ref: IEEE400-2012
Concentric Neutral Design Vs. Tape Shielded
Cable Design Can Impact the Effectiveness and Usability
of Certain Diagnostic Techniques That are Rich in
Frequencies.
Which Energization Source and
Diagnostic Method/s to use and
when……….
Applicability Of Testing Methods
IEEE 400 has an Informative Table in the
Appendix on the Applicability of Various Testing
Methods.
Comments
• Some Methods Were Not Analyzed Due to
Lack of Information / Data.
• Some Methods were shown to be useful and
some were Not.
• Table Does Not Address Tape Shielded
Cables and Mainly Focuses on Utility Style
CN Type.
Test and Diagnostic Selection Matrix:
Expanded from IEEE 400 - 2012
Method
New Extruded
Acceptance
Shield Type
Old Extruded
Maintenance
CN
Old
Hybrid
Combo
Mixed
Unjacket Accessories
ed
(Splice &
Term)
CN
Mixed
Tape
CN
DC Withstand
Testing
X
X
X
X

X
X
Limited
VLF AC Withstand
Test








Tan Delta /
Dissipation Factor
Test








Partial Discharge
Test – Offline




Limited
Limited
Partial Discharge
Test – Online
Tape
PILC
Laminat
ed
Mixed
Limited
Limite
Limited Limited Limited
d
Smart VLF W/S Test
- combination with
TD


Smart VLF W/S Test
- combination with
PD
TDR (Time Domain
Reflectometry)








Limited
Useful
Useful
Not
Useful


Limited
Limited




Limited
Limited

Useful
Useful
Limited
Useful
Conclusions
• Testing Organizations Need to Be Aware of the
Changes in Standards and Guides
• A Need to Inform and Educate Customers / End
Users
• Careful Consideration When DC is Requested
• Choice of Test Method Often Determined By Age
and Type of Cable and the Intended Defect
Diagnosis
• Often, a Testing Strategy Involving a Combination
of Tests is Most Appropriate.