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ERIFLEX FLEXIBAR 3MTC 2X24X1
CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; No lugs needed, reducing installation time and improving resistance to vibration; Tinned copper allows for copper or aluminum conductor connections; Better power density than cable with lower skin effect ratio; Bureau Veritas – ACE 14/163/02; Connections made by punching and bolting directly through the copper laminates, clamping onto the end of the nVent ERIFLEX Flexibar, or welding using nVent ERICO Cadweld; Thin layers of tinned electrolytic copper formed into a stack; Weight savings and material savings compared to wire alternatives; Dramatically smaller and more flexible than comparable cable based on ampacity; 100% production dielectric tested; RoHS compliant; Insulated by high-resistance, self-extinguishing PVC with less than 20% contact with conductor for high flexibility; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); ABS; RoHS; UR – ANSI/UL 758; UR – ANSI/UL 67, ANSI/UL 891; Traceability codes and designation part numbers printed on insulation; CE, ERIFLEX FLEXIBAR – EN 61439-1; Reduces total installation cost; EAC compliant
ERIFLEX FLEXIBAR 3MTC 3X50X1
Insulated by high-resistance, self-extinguishing PVC with less than 20% contact with conductor for high flexibility; ABS; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; RoHS; No lugs needed, reducing installation time and improving resistance to vibration; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; UR – ANSI/UL 758; 100% production dielectric tested; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); EAC compliant; Thin layers of tinned electrolytic copper formed into a stack; Better power density than cable with lower skin effect ratio; Tinned copper allows for copper or aluminum conductor connections; CE, ERIFLEX FLEXIBAR – EN 61439-1; Connections made by punching and bolting directly through the copper laminates, clamping onto the end of the nVent ERIFLEX Flexibar, or welding using nVent ERICO Cadweld; Bureau Veritas – ACE 14/163/02; Weight savings and material savings compared to wire alternatives; Traceability codes and designation part numbers printed on insulation; CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; Dramatically smaller and more flexible than comparable cable based on ampacity; RoHS compliant; UR – ANSI/UL 67, ANSI/UL 891; Reduces total installation cost
ERIFLEX FLEXIBAR 3MTC 4X50X1
Thin layers of tinned electrolytic copper formed into a stack; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); Connections made by punching and bolting directly through the copper laminates, clamping onto the end of the nVent ERIFLEX Flexibar, or welding using nVent ERICO Cadweld; RoHS compliant; CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; Insulated by high-resistance, self-extinguishing PVC with less than 20% contact with conductor for high flexibility; No lugs needed, reducing installation time and improving resistance to vibration; UR – ANSI/UL 67, ANSI/UL 891; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; Dramatically smaller and more flexible than comparable cable based on ampacity; CE, ERIFLEX FLEXIBAR – EN 61439-1; Bureau Veritas – ACE 14/163/02; UR – ANSI/UL 758; Reduces total installation cost; 100% production dielectric tested; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; ABS; Traceability codes and designation part numbers printed on insulation; RoHS; Weight savings and material savings compared to wire alternatives; Better power density than cable with lower skin effect ratio; Tinned copper allows for copper or aluminum conductor connections; EAC compliant
ERIFLEX FLEXIBAR 3MTC 8X50X1
UR – ANSI/UL 67, ANSI/UL 891; EAC compliant; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; RoHS; Weight savings and material savings compared to wire alternatives; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; Traceability codes and designation part numbers printed on insulation; 100% production dielectric tested; Thin layers of tinned electrolytic copper formed into a stack; Dramatically smaller and more flexible than comparable cable based on ampacity; Reduces total installation cost; ABS; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; Connections made by punching and bolting directly through the copper laminates, clamping onto the end of the nVent ERIFLEX Flexibar, or welding using nVent ERICO Cadweld; Tinned copper allows for copper or aluminum conductor connections; Insulated by high-resistance, self-extinguishing PVC with less than 20% contact with conductor for high flexibility; UR – ANSI/UL 758; Better power density than cable with lower skin effect ratio; No lugs needed, reducing installation time and improving resistance to vibration; RoHS compliant; Bureau Veritas – ACE 14/163/02; CE, ERIFLEX FLEXIBAR – EN 61439-1
ERIFLEX FLEXIBAR 3MTC 10X50X1
Reduces total installation cost; CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); Weight savings and material savings compared to wire alternatives; RoHS; Traceability codes and designation part numbers printed on insulation; UR – ANSI/UL 67, ANSI/UL 891; CE, ERIFLEX FLEXIBAR – EN 61439-1; EAC compliant; ABS; Connections made by punching and bolting directly through the copper laminates, clamping onto the end of the nVent ERIFLEX Flexibar, or welding using nVent ERICO Cadweld; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; Thin layers of tinned electrolytic copper formed into a stack; Insulated by high-resistance, self-extinguishing PVC with less than 20% contact with conductor for high flexibility; Dramatically smaller and more flexible than comparable cable based on ampacity; Better power density than cable with lower skin effect ratio; 100% production dielectric tested; No lugs needed, reducing installation time and improving resistance to vibration; Tinned copper allows for copper or aluminum conductor connections; RoHS compliant; UR – ANSI/UL 758; Bureau Veritas – ACE 14/163/02
Insulated Braided conductor IBSB ADVANCE
Bureau Veritas – ACE 14/163/3; UL – UL94-V0; CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; UL (IEC) – UL 2885 – IEC 60754-1, IEC 60754-2, IEC 62821-1 Annex B, IEC 61034-2; ABS; Improves assembly flexibility and aesthetics; Resistant to vibration, improving reliability and performance; No additional cutting, stripping, crimping and punching needed; Quick and easy installation; UR – ANSI/UL 67, ANSI/UL 891; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; Dramatically smaller and more flexible than comparable cable based on ampacity; Tinned copper provides superior corrosion resistance; DNV GL® and Bureau Veritas certified for marine and offshore applications; ISO 5659-2 – ISO 5659-2; IEC 60695-2-12 – IEC 60695-2-12; Tinned copper allows for copper or aluminum conductor connections; ERIFLEX UV – IEC 60364-5-52, ISO 4892-2; Conforms to NF EN 45545 obtaining an HL3 classification for chapters R22 and R23; UR – ANSI/UL 758; CE, ERIFLEX IBSADV? – EN IEC 61439-1?; On request, can be manufactured with other colors (typically with Orange sleeve for battery connection); Small wire diameter provides maximum flexibility; Suitable for all main molded case circuit breakers; Insulated by high-resistance, halogen free, flame retardant and low smoke material; DNV GL – DNV GL Rules; Integral palm without lugs or terminals reduces material and assembly weight; RoHS; EN 45545-2 – EN 45545-2; CE; Better power density than cable with lower skin effect ratio; RoHS compliant; IEC 61439-1 Class II – IEC 61439-1 Class II; IEC 61439-1 – IEC 61439-1; Reduces total installation cost; CSA – C22.2 No 210; EAC
Insulated Braided conductor IBSB ADVANCE
IEC 61439-1 Class II – IEC 61439-1 Class II; On request, can be manufactured with other colors (typically with Orange sleeve for battery connection); Dramatically smaller and more flexible than comparable cable based on ampacity; IEC 61439-1 – IEC 61439-1; EN 45545-2 – EN 45545-2; Resistant to vibration, improving reliability and performance; DNV GL – DNV GL Rules; Bureau Veritas – ACE 14/163/3; Quick and easy installation; ERIFLEX UV – IEC 60364-5-52, ISO 4892-2; Conforms to NF EN 45545 obtaining an HL3 classification for chapters R22 and R23; No additional cutting, stripping, crimping and punching needed; UL (IEC) – UL 2885 – IEC 60754-1, IEC 60754-2, IEC 62821-1 Annex B, IEC 61034-2; IEC 60695-2-12 – IEC 60695-2-12; UR – ANSI/UL 67, ANSI/UL 891; RoHS; ABS; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; Tinned copper allows for copper or aluminum conductor connections; CSA – C22.2 No 210; CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; EAC; DNV GL® and Bureau Veritas certified for marine and offshore applications; Insulated by high-resistance, halogen free, flame retardant and low smoke material; Small wire diameter provides maximum flexibility; ISO 5659-2 – ISO 5659-2; Reduces total installation cost; UL – UL94-V0; CE; Suitable for all main molded case circuit breakers; Tinned copper provides superior corrosion resistance; Better power density than cable with lower skin effect ratio; CE, ERIFLEX IBSADV? – EN IEC 61439-1?; Improves assembly flexibility and aesthetics; Integral palm without lugs or terminals reduces material and assembly weight; UR – ANSI/UL 758; RoHS compliant
Insulator ISO TP 40M6
UL® Recognized in E125470 and evaluated for dielectric withstand rating of 1,500 VAC/DC; High resistance to leakage current; IEC 61439-1 – IEC 61439-1 (2017); RoHS; RoHS compliant; UR – ANSI/UL 67, ANSI/UL 891; Great stability of electrical and mechanical parameters; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; CE, ERIFLEX ISOTP – EN 61439; Halogen free; CSA-Comp – CSA C22.2 No. 29; Fiberglass reinforced
Insulator ISO TP 45M8L
UL® Recognized in E125470 and evaluated for dielectric withstand rating of 1,500 VAC/DC; CSA-Comp – CSA C22.2 No. 29; UR – ANSI/UL 67, ANSI/UL 891; High resistance to leakage current; Great stability of electrical and mechanical parameters; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; IEC 61439-1 – IEC 61439-1 (2017); Halogen free; RoHS; RoHS compliant; CE, ERIFLEX ISOTP – EN 61439; Fiberglass reinforced
Insulator ISO TP 50M8
Great stability of electrical and mechanical parameters; CE, ERIFLEX ISOTP – EN 61439; Halogen free; UL® Recognized in E125470 and evaluated for dielectric withstand rating of 1,500 VAC/DC; UR – ANSI/UL 67, ANSI/UL 891; CSA-Comp – CSA C22.2 No. 29; RoHS compliant; RoHS; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; IEC 61439-1 – IEC 61439-1 (2017); High resistance to leakage current; Fiberglass reinforced