Connectors

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

CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; UR – ANSI/UL 758; Reduces total installation cost; Bureau Veritas – ACE 14/163/02; RoHS compliant; Weight savings and material savings compared to wire alternatives; Thin layers of tinned electrolytic copper formed into a stack; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; Traceability codes and designation part numbers printed on insulation; CE, ERIFLEX FLEXIBAR – EN 61439-1; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; ABS; RoHS; 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; EAC compliant; 100% production dielectric tested; Dramatically smaller and more flexible than comparable cable based on ampacity; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); 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 67, ANSI/UL 891; Better power density than cable with lower skin effect ratio; No lugs needed, reducing installation time and improving resistance to vibration

Traceability codes and designation part numbers printed on insulation; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); CE, ERIFLEX FLEXIBAR – EN 61439-1; UR – ANSI/UL 67, ANSI/UL 891; EAC compliant; UR – ANSI/UL 758; Bureau Veritas – ACE 14/163/02; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; Dramatically smaller and more flexible than comparable cable based on ampacity; 100% production dielectric tested; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; Tinned copper allows for copper or aluminum conductor connections; Thin layers of tinned electrolytic copper formed into a stack; Reduces total installation cost; ABS; 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; Better power density than cable with lower skin effect ratio; Weight savings and material savings compared to wire alternatives; RoHS; 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

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

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

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

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

CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; Better power density than cable with lower skin effect ratio; Traceability codes and designation part numbers printed on insulation; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); Reduces total installation cost; UR – ANSI/UL 758; RoHS; No lugs needed, reducing installation time and improving resistance to vibration; Tinned copper allows for copper or aluminum conductor connections; EAC compliant; Dramatically smaller and more flexible than comparable cable based on ampacity; Bureau Veritas – ACE 14/163/02; ABS; CE, ERIFLEX FLEXIBAR – EN 61439-1; UR – ANSI/UL 67, ANSI/UL 891; Thin layers of tinned electrolytic copper formed into a stack; 100% production dielectric tested; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; Insulated by high-resistance, self-extinguishing PVC with less than 20% contact with conductor for high flexibility; Weight savings and material savings compared to wire alternatives; 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; RoHS compliant

Traceability codes and designation part numbers printed on insulation; UL 758 Appliance Wiring Material requirements for Cold Bend testing at -40°C and -50°C (-40°F and -58°F); EAC compliant; Insulated by high-resistance, self-extinguishing PVC with less than 20% contact with conductor for high flexibility; CE, ERIFLEX FLEXIBAR – EN 61439-1; UR – ANSI/UL 758; UR – ANSI/UL 67, ANSI/UL 891; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; 100% production dielectric tested; ABS; RoHS; Thin layers of tinned electrolytic copper formed into a stack; Dramatically smaller and more flexible than comparable cable based on ampacity; CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; Reduces total installation cost; No lugs needed, reducing installation time and improving resistance to vibration; Weight savings and material savings compared to wire alternatives; Tinned copper allows for copper or aluminum conductor connections; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; RoHS compliant; 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

Dramatically smaller and more flexible than comparable cable based on ampacity; Reduces total installation cost; cUR – CSA C22.2 No. 29, CSA C22.2 No. 244; 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; Easily bent, folded, and twisted, improving assembly flexibility, shortening connections, and decreasing footprint; No lugs needed, reducing installation time and improving resistance to vibration; Bureau Veritas – ACE 14/163/02; Traceability codes and designation part numbers printed on insulation; 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); UR – ANSI/UL 758; Better power density than cable with lower skin effect ratio; ABS; Insulated by high-resistance, self-extinguishing PVC with less than 20% contact with conductor for high flexibility; Tinned copper allows for copper or aluminum conductor connections; CSA – CSA C22.2 No. 0, CSA C22.2 No. 210; 100% production dielectric tested; CE, ERIFLEX FLEXIBAR – EN 61439-1; UR – ANSI/UL 67, ANSI/UL 891; RoHS compliant; EAC compliant; Weight savings and material savings compared to wire alternatives