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Single conductor cable true-triple extrusion, dry cured insulation system consisting of a thermosetting semiconducting conductor shield, high dielectric strength ethylene propylene rubber (EPR) insulation, thermosetting semiconducting insulation shield, flat copper tape, black polyvinyl chloride (PVC) jacket.
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Conductor:
Compact concentric stranded copper.
Conductor Shield:
Extruded thermosetting semiconducting cross-linked polyethylene (XLPE) shield which is free stripping from the conductor and bonded to the insulation.
Insulation:
Extruded, Ethylene Propylene Rubber (EPR) – 15 kV 133% insulation level. Nominal Thickness 220 mils.
Insulation Shield:
Extruded thermosetting semiconducting cross-linked polyethylene (XLPE) shield with controlled adhesion to the insulation providing the required balance between electrical integrity and ease of stripping.
Metallic Shield:
Flat, uncoated 5 mil thick copper tape helically applied with a minimum 25% overlap.
Outer jacket:
A polyvinyl chloride (PVC) jacket is extruded over the copper tape shield, meeting the physical requirements of Table 1, when tested by the methods specified in ICEA S-93-639. The jacket shall be free-stripping and not interfere with the contact between the flat copper tape and the underlying extruded insulation shield. The jacket is sunlight resistant and marked. The jacket shall contain a print legend marking, and sequential length (meter or feet) marking.
Single conductor cable true-triple extrusion, dry cured insulation system consisting of a thermosetting semiconducting conductor shield, high dielectric strength ethylene propylene rubber (EPR) insulation, thermosetting semiconducting insulation shield, flat copper tape, black polyvinyl chloride (PVC) jacket.
Conductor:
Compact concentric stranded copper.
Conductor Shield:
Extruded thermosetting semiconducting cross-linked polyethylene (XLPE) shield which is free stripping from the conductor and bonded to the insulation.
Insulation:
Extruded, Ethylene Propylene Rubber (EPR) – 15 kV 133% insulation level. Nominal Thickness 220 mils.
Insulation Shield:
Extruded thermosetting semiconducting cross-linked polyethylene (XLPE) shield with controlled adhesion to the insulation providing the required balance between electrical integrity and ease of stripping.
Metallic Shield:
Flat, uncoated 5 mil thick copper tape helically applied with a minimum 25% overlap.
Outer jacket:
A polyvinyl chloride (PVC) jacket is extruded over the copper tape shield, meeting the physical requirements of Table 1, when tested by the methods specified in ICEA S-93-639. The jacket shall be free-stripping and not interfere with the contact between the flat copper tape and the underlying extruded insulation shield. The jacket is sunlight resistant and marked. The jacket shall contain a print legend marking, and sequential length (meter or feet) marking.2

PowerGuard® cables are intended for use in wet or dry locations
for distribution of single or three phase medium voltage power. These cables may be installed in ducts, exposed to sunlight or direct buried. Sizes 1/0 AWG and larger are approved for use in cable tray, marked “FOR CT USE”.

Physical Properties of PVC Jacket
Unaged Tensile Strength, minimum (PSI):1500
Aged* Tensile Strength, minimum retention (%):85
Unaged Elongated, minimum (%):100
Aged* Elongated, minimum retention (%):60
Heat Distortion 1 hr at 121 ºC, maximum (%):50
*Aged for 120 hrs at 100 ºC

Insulated Conductor and Copper Tape Shield Temperature Ratings
Normal: 105 ºC
Emergency*: 140 ºC
Short-Circuit – Insulated Conductor: 250 ºC
Short-Circuit – Copper Tape Shield: 200 ºC
*Operation at the emergency overload temperature shall not exceed 1500 hours cumulative during the lifetime of the cable.

ASTM B496 – Compact Round Concentric-Lay-Stranded Copper Conductors
ASTM B3 – Soft or Annealed Copper Wire
ICEA S-93-639 – 5-46 kV Shielded Power Cable for Use in the Transmission and Distribution of Electric Energy
UL 1072 – Medium-Voltage Power Cables
ASTM B496 – Compact Round Concentric-Lay-Stranded Copper Conductors
ASTM B3 – Soft or Annealed Copper Wire
ICEA S-93-639 – 5-46 kV Shielded Power Cable for Use in the Transmission and Distribution of Electric Energy
UL 1072 – Medium-Voltage Power Cables

UL listed as Type MV-105 -- File E546953

2025-06-23

MV CU EPR CTS

2026-01-23 08:06:22

Insulated Conductor and Copper Tape Shield Temperature Ratings
Normal: 105 ºC
Emergency*: 140 ºC
Short-Circuit – Insulated Conductor: 250 ºC
Short-Circuit – Copper Tape Shield: 200 ºC
*Operation at the emergency overload temperature shall not exceed 1500 hours cumulative during the lifetime of the cable.

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

Two Conductors:
Black and White
Three Conductors: Black, White and Red
Four Conductors: Black, White, Red and Blue

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
3) Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
4) Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

Unknown

Notes:

Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
Cables are manufactured, tested and marked to meet or exceed the requirements in ICEA S-93-639 for copper tape shielded cables rated 5-46 kV and the latest revision of UL 1072.
Utilizing a 105 ºC normal operating conductor temperature will increase cable ampacity rating but will reduce the cable fault capability. If the user plans on operating these cables at 105 ºC conductor temperature for normal operation and 140ºC for mergency overload, please contact American Wire Group for the applicable cable ampacity and shield fault capability ratings.
Migration of soil moisture away from the cable is more likely at the higher operating conductor temperature and can result in an increase in soil thermal resistivity, resulting in an increase in conductor and soil temperature.

Codes & Standards

Hieu Test Ad New Property

ASTM B230 – Aluminum 1350–H19 Wire for Electrical PurposesnASTM B231 – Concentric-Lay-Stranded Aluminum 1350 ConductorsnASTM B232 – Concentric-Lay-Stranded Aluminum Conductors, Coated-Steel Reinforced (ACSR)

High Strength GA3

ATSM B606 – High-Strength Zinc-Coated (Galvanized) Steel Core Wire for Aluminum and Aluminum-Alloy Conductors, Steel Reinforced

Extra Strength GA4

ASTM B957 – Extra-High-Strength and Ultra- High-Strength Zinc-Coated (Galvanized) Steel Core Wire for Overhead Electrical Conductorsn

Regular Strength MA2

ASTM B802 – Zinc−5 % Aluminum- Mischmetal Alloy-Coated Steel Core Wire for Aluminum Conductors, Steel Reinforced (ACSR)

High Strength MA3

ASTM B803 – High-Strength Zinc−5 % Aluminum-Mischmetal Alloy-Coated Steel Core Wire for Use in Overhead Electrical Conductors

Extra Strength MA4

ASTM B958 – Extra-High-Strength and Ultra- High-Strength Class A Zinc−5% Aluminum-Mischmetal Alloy-Coated Steel Core Wire for Use in Overhead Electrical Conductors

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Notes:

1) Dimensions and weights are subject to standard manufacturing tolerances and are subject to change without notice.
2) Standard lengths are nominal, with a tolerance of +/- 5%.

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UL Type MV-105 Ampacities - Copper Conductors - Rated 5 kV to 35 kV
Conductor Size	Ampacity
	Direct Buried (Touching)	Direct Buried (Spaced 7.5 in)	In Conduit In Air (Touching)	In Cable Tray (Spaced One Cable Diameter)	In Cable Tray (Spaced One Cable Diameter)
	5 kV to 35 kV	5 kV to 35 kV	5 kV to 35 kV	5 kV to 15 kV	25 kV to 35 kV

(AWG or kcmil)	(A)	(A)	(A)	(A)	(A)
2	205	225	165	215	---
1	230	260	190	250	290
3	2	4	5	6	2
4	-	0	9	8	7
5	9	6	7	h	n
6	0	9	8	6	k
7	t	v	b	m	.