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NPSCG208-7001 Image
NPSCG208-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-208
$
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NPSCG210-7001 Image
NPSCG210-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-210
$
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NPSCG214-7001 Image
NPSCG214-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-214
$
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NPSCG216-7001 Image
NPSCG216-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-216
$
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NPSCG231-7001 Image
NPSCG231-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-231
$
Compare
NPSCG286-7001 Image
NPSCG286-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-286
$
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NPSCG287-7001 Image
NPSCG287-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-287
$
Compare
NPSCG288-7001 Image
NPSCG288-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-288
$
Compare
NPSCG308-7001 Image
NPSCG308-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-308
$
Compare
NPSCG278-7001 Image
NPSCG278-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-278
$
Compare
NPSCG289-7001 Image
NPSCG289-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-289
$
Compare
NPSCG291-7001 Image
NPSCG291-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-291
$
Compare
NPSCG295-7001 Image
NPSCG295-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-295
$
Compare
NPSCG304-7001 Image
NPSCG304-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-304
$
Compare
NPSCG312-7001 Image
NPSCG312-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-312
$
Compare
NPSCG316-7001 Image
NPSCG316-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-316
$
Compare
NPSCG324-7001 Image
NPSCG324-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-324
$
Compare
NPSCG362-7001 Image
NPSCG362-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-362
$
Compare
NPSCG367-7001 Image
NPSCG367-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-367
$
Compare
NPSCG368-7001 Image
NPSCG368-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-368
$
Compare
NPSCG369-7001 Image
NPSCG369-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-369
$
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NPSCG391-7001 Image
NPSCG391-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-391
$
Compare
NPSCG393-7001 Image
NPSCG393-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-393
$
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NPSCG620-7001 Image
NPSCG620-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
$
Compare
NPSCG625-7001 Image
NPSCG625-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
$
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NPSCG628-7001 Image
NPSCG628-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
$
Compare
NPSCG841-7001 Image
NPSCG841-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
$
Compare
NPSCG842-7001 Image
NPSCG842-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
$
Compare
NPSCG843-7001 Image
NPSCG843-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
$
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NPSCG845-7001 Image
NPSCG845-7001
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
$
NPSCG208-7001
$
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NPSCG208-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-208
NPSCG210-7001
$
Compare
NPSCG210-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-210
NPSCG214-7001
$
Compare
NPSCG214-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-214
NPSCG216-7001
$
Compare
NPSCG216-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-216
NPSCG231-7001
$
Compare
NPSCG231-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-231
NPSCG286-7001
$
Compare
NPSCG286-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-286
NPSCG287-7001
$
Compare
NPSCG287-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-287
NPSCG288-7001
$
Compare
NPSCG288-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-288
NPSCG308-7001
$
Compare
NPSCG308-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-308
NPSCG278-7001
$
Compare
NPSCG278-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-278
NPSCG289-7001
$
Compare
NPSCG289-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-289
NPSCG291-7001
$
Compare
NPSCG291-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-291
NPSCG295-7001
$
Compare
NPSCG295-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-295
NPSCG304-7001
$
Compare
NPSCG304-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-304
NPSCG312-7001
$
Compare
NPSCG312-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-312
NPSCG316-7001
$
Compare
NPSCG316-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-316
NPSCG324-7001
$
Compare
NPSCG324-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-324
NPSCG362-7001
$
Compare
NPSCG362-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-362
NPSCG367-7001
$
Compare
NPSCG367-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-367
NPSCG368-7001
$
Compare
NPSCG368-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-368
NPSCG369-7001
$
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NPSCG369-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-369
NPSCG391-7001
$
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NPSCG391-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-391
NPSCG393-7001
$
Compare
NPSCG393-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
TR Number: TR-393
NPSCG620-7001
$
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NPSCG620-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
NPSCG625-7001
$
Compare
NPSCG625-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
NPSCG628-7001
$
Compare
NPSCG628-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
NPSCG841-7001
$
Compare
NPSCG841-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
NPSCG842-7001
$
Compare
NPSCG842-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
NPSCG843-7001
$
Compare
NPSCG843-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
NPSCG845-7001
$
Compare
NPSCG845-7001 Image

Download PDF Drawing Diagram

Semiconductive Glaze Insulators are specifically designed for applications in contaminated environments. Contaminated environments most frequently experienced include:

  • Sea salt, salt fog and mist
  • Industrial and agricultural pollution
  • Powerplant coal and cooling tower mist
  • City and expressway pollution
  • Icing and snow bridging conditions

Semiconductive Glaze systems have been employed in the industry for over 50 years with nearly flawless field experience.

The original development of the Semiconductive Glaze system dates to the 1940’s. Utilizing dopants of Tin and Antimony, the glaze is transformed from insulating to semiconducting. Newell-PSN initiated a 5 year R&D project to develop and implement the glaze technology.

Newell-PSN has delivered multiple orders and sees a quick demand growth for this application.

Design Tests:

  • All designs tested to ANSI/IEEE C29.9 2017
  • 100% of units are tested and verified to specific resistive leakage current levels
  • Artificial pollution tests conducted per IEC 60507 withstood the highest level of salinity defined by the standard, 224kg/m3
  • During comparative testing, Semi Conductive Glaze units dramatically out performed standard insulating glaze and silicon coated insulators.
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
Compare
NPSCG208-7001 Image
NPSCG208-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applications in contaminated environment... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 150
Typical Application Voltage (kV): 23
Strength: Standard Strength
TR Number: TR-208
Height (in): 14
Leakage (in): 24
Cantilever (lbs): 2000
Top BC (in): 3
Bottom BC (in): 3
Compare
NPSCG210-7001 Image
NPSCG210-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 200
Typical Application Voltage (kV): 34.5
Strength: Standard Strength
TR Number: TR-210
Height (in): 18
Leakage (in): 37
Cantilever (lbs): 2000
Top BC (in): 3
Bottom BC (in): 3
Compare
NPSCG214-7001 Image
NPSCG214-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 250
Typical Application Voltage (kV): 46
Strength: Standard Strength
TR Number: TR-214
Height (in): 22
Leakage (in): 43
Cantilever (lbs): 2000
Top BC (in): 3
Bottom BC (in): 3
Compare
NPSCG216-7001 Image
NPSCG216-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 350
Typical Application Voltage (kV): 69
Strength: Standard Strength
TR Number: TR-216
Height (in): 30
Leakage (in): 72
Cantilever (lbs): 1500
Top BC (in): 3
Bottom BC (in): 3
Compare
NPSCG231-7001 Image
NPSCG231-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 200
Typical Application Voltage (kV): 34.5
Strength: High Strength
TR Number: TR-231
Height (in): 20
Leakage (in): 37
Cantilever (lbs): 4000
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG286-7001 Image
NPSCG286-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 550
Typical Application Voltage (kV): 115
Strength: Standard Strength
TR Number: TR-286
Height (in): 45
Leakage (in): 99
Cantilever (lbs): 1700
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG287-7001 Image
NPSCG287-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 550
Typical Application Voltage (kV): 115
Strength: High Strength
TR Number: TR-287
Height (in): 45
Leakage (in): 99
Cantilever (lbs): 2600
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG288-7001 Image
NPSCG288-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 650
Typical Application Voltage (kV): 138
Strength: Standard Strength
TR Number: TR-288
Height (in): 54
Leakage (in): 116
Cantilever (lbs): 1450
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG308-7001 Image
NPSCG308-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 900
Typical Application Voltage (kV): 230
Strength: High Strength
TR Number: TR-308
Height (in): 80
Leakage (in): 165
Cantilever (lbs): 1450
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG278-7001 Image
NPSCG278-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 350
Typical Application Voltage (kV): 69
Strength: High Strength
TR Number: TR-278
Height (in): 30
Leakage (in): 72
Cantilever (lbs): 3000
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG289-7001 Image
NPSCG289-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 650
Typical Application Voltage (kV): 138
Strength: High Strength
TR Number: TR-289
Height (in): 54
Leakage (in): 116
Cantilever (lbs): 2200
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG291-7001 Image
NPSCG291-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 750
Typical Application Voltage (kV): 161
Strength: Standard Strength
TR Number: TR-291
Height (in): 62
Leakage (in): 132
Cantilever (lbs): 1200
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG295-7001 Image
NPSCG295-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 750
Typical Application Voltage (kV): 161
Strength: High Strength
TR Number: TR-295
Height (in): 62
Leakage (in): 132
Cantilever (lbs): 2000
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG304-7001 Image
NPSCG304-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 900
Typical Application Voltage (kV): 230
Strength: Standard Strength
TR Number: TR-304
Height (in): 80
Leakage (in): 165
Cantilever (lbs): 950
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG312-7001 Image
NPSCG312-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1050
Typical Application Voltage (kV): 230/345
Strength: Standard Strength
TR Number: TR-312
Height (in): 92
Leakage (in): 198
Cantilever (lbs): 800
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG316-7001 Image
NPSCG316-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1050
Typical Application Voltage (kV): 230/345
Strength: High Strength
TR Number: TR-316
Height (in): 92
Leakage (in): 198
Cantilever (lbs): 1250
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG324-7001 Image
NPSCG324-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1300
Typical Application Voltage (kV): 345
Strength: High Strength
TR Number: TR-324
Height (in): 106
Leakage (in): 231
Cantilever (lbs): 1000
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG362-7001 Image
NPSCG362-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1050
Typical Application Voltage (kV): 230/345
Strength: Extra High Strength
TR Number: TR-362
Height (in): 92
Leakage (in): 198
Cantilever (lbs): 2300
Top BC (in): 7
Bottom BC (in): 7
Compare
NPSCG367-7001 Image
NPSCG367-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1300
Typical Application Voltage (kV): 345
TR Number: TR-367
Height (in): 106
Leakage (in): 231
Cantilever (lbs): 1450
Top BC (in): 5
Bottom BC (in): 7
Compare
NPSCG368-7001 Image
NPSCG368-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1300
Typical Application Voltage (kV): 345
Strength: Extra High Strength
TR Number: TR-368
Height (in): 106
Leakage (in): 231
Cantilever (lbs): 2050
Top BC (in): 7
Bottom BC (in): 7
Compare
NPSCG369-7001 Image
NPSCG369-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1300
Typical Application Voltage (kV): 345
TR Number: TR-369
Height (in): 106
Leakage (in): 231
Cantilever (lbs): 2050
Top BC (in): 5
Bottom BC (in): 7
Compare
NPSCG391-7001 Image
NPSCG391-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1800
Typical Application Voltage (kV): 500
TR Number: TR-391
Height (in): 152
Leakage (in): 330
Cantilever (lbs): 1400
Top BC (in): 5
Bottom BC (in): 7
Compare
NPSCG393-7001 Image
NPSCG393-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 1800
Typical Application Voltage (kV): 500
TR Number: TR-393
Height (in): 152
Leakage (in): 360
Cantilever (lbs): 2500
Top BC (in): 5
Bottom BC (in): 14
Compare
NPSCG620-7001 Image
NPSCG620-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 350
Typical Application Voltage (kV): 69
Strength: Extra High Strength
Height (in): 32
Leakage (in): 72
Cantilever (lbs): 7000
Top BC (in): 7
Bottom BC (in): 7
Compare
NPSCG625-7001 Image
NPSCG625-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 650
Typical Application Voltage (kV): 138
Strength: Standard Strength
Height (in): 54
Leakage (in): 132
Cantilever (lbs): 1450
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG628-7001 Image
NPSCG628-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 650
Typical Application Voltage (kV): 138
Strength: High Strength
Height (in): 54
Leakage (in): 132
Cantilever (lbs): 2200
Top BC (in): 5
Bottom BC (in): 5
Compare
NPSCG841-7001 Image
NPSCG841-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 550
Typical Application Voltage (kV): 115
Strength: Extra High Strength
Height (in): 45
Leakage (in): 99
Cantilever (lbs): 5000
Top BC (in): 7
Bottom BC (in): 7
Compare
NPSCG842-7001 Image
NPSCG842-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 650
Typical Application Voltage (kV): 138
Strength: Extra High Strength
Height (in): 54
Leakage (in): 116
Cantilever (lbs): 4100
Top BC (in): 7
Bottom BC (in): 7
Compare
NPSCG843-7001 Image
NPSCG843-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 750
Typical Application Voltage (kV): 161
Strength: Extra High Strength
Height (in): 62
Leakage (in): 132
Cantilever (lbs): 3500
Top BC (in): 7
Bottom BC (in): 7
Compare
NPSCG845-7001 Image
NPSCG845-7001
Download PDF Drawing Diagram Semiconductive Glaze Insulators are specifically designed for applicati... Read More
Category: Station Post Insulators
Sub-Category: Semiconductive Glaze
BIL Rating (kV): 900
Typical Application Voltage (kV): 230
Strength: Extra High Strength
Height (in): 80
Leakage (in): 165
Cantilever (lbs): 2750
Top BC (in): 7
Bottom BC (in): 7
 

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