Rittal SV 9640.267 Maxi-PLS Busbar - 974 mm² E-Cu
Part Number: 9640267
Manufacturer
Rittal
Part number
9640267
Category
Alt Part Number
SV 9640.267
Quick Summary
Rittal SV Maxi-PLS busbar is a high-conductivity copper conductor designed for cable connection systems in industrial control panels. Engineers often contend with tight cabinet space and heavy copper components that drive up weight and installation time. This solution aligns with ETIM EC001522 and ECLASS 27370303 standards, supporting procurement workflows and interoperability with partner systems. With a length of 851 mm and a cross-section of 974 mm², it delivers low resistance and robust current carrying capacity. The cut-to-length option adds installation flexibility and waste reduction, while compatibility with 1,000 mm-wide frames streamlines mounting and reduces assembly steps. In practice, it accelerates commissioning and improves overall electrical performance for power distribution panels.
Product Information
Extended Description
9640267 Rittal: SV Maxi-PLS busbar E-Cu, L: 851 mm, 45x45 mm, bar cross-section: 974 mm²
Article number
SV 9640.267
Product description
For assembling cable connection systems.
Material
E-Cu
Cross-section
974 mm²
Length
851 mm
Note
May be cut individually to required length
To fit
Width: = 1,000 mm
Packs of
1 pc(s).
Weight/pack
7.518 kg
Copper weight (kg per piece)
7.518
Customs tariff number
74071000
EAN
4028177940246
ETIM 9
EC001522
ECLASS 8.0
27370303
Product description
SV Maxi-PLS busbar E-Cu, L: 851 mm, 45x45 mm, bar cross-section: 974 mm²
Material matters: the SV Maxi-PLS busbar is built from E-Cu with a 974 mm² cross-section and a length of 851 mm. This combination delivers low resistance, higher current-carrying capacity, and reduced voltage drop across feeders. footprint and fit: the 45x45 mm profile aligns with standard enclosure dimensions, supporting compact installations within 1,000 mm-wide frames and enabling cleaner cable routing. field customization: the ability to cut the busbar to the required length reduces inventory complexity, minimizes waste, and speeds on-site modification during panel build-out. weight and durability: a 7.518 kg copper mass provides mechanical stability for long spans and helps maintain performance under thermal cycling. compatibility and standards: ETIM EC001522 and ECLASS 27370303 classifications, plus a robust GTIN/EAN framework, streamline procurement, data management, and logistics across projects. installation and ROI: fewer joints, simpler mounting, and a single-piece solution translate into faster commissioning and lower total lifecycle costs in power distribution panels.
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FAQs
SV 9640.267 is designed for straightforward integration with standard Rittal cable connection layouts. The 851 mm length and 45×45 mm footprint align with common enclosure dimensions, and the option to cut to length lets you tailor runs to exact needs, reducing unnecessary joints. Use compatible fasteners and ensure clean copper contact surfaces to maximize conductivity and minimize contact resistance.
The busbar uses E-Cu with a 974 mm² cross-section, delivering low resistive losses under heavy loads and improved current-carrying capacity. This reduces heat generation and voltage drop across feeders, enabling more reliable power distribution across panels and longer service intervals in demanding automation environments.
SV 9640.267 aligns with ETIM 9 EC001522 and ECLASS 8.0 27370303 classifications, ensuring compatibility with modern procurement data and engineering repositories. It also carries a GTIN and EAN 4028177940246 for accurate SKU matching and logistics within ERP and supply chains.
Yes. The product note states it may be cut individually to the required length. When performing field cuts, ensure clean, deburred ends and verify the final length against mounting points to avoid misalignment and ensure optimal contact and conductivity.
The field-cut capability reduces waste and inventory variety, speeding commissioning and lowering upfront costs. The large cross-section and copper mass deliver low resistance and strong current capability, translating to fewer joints and connectors and improved reliability—lower maintenance needs and extended uptime in high-demand distribution panels.