Lapp Cables 2021 Catalogue
Power and control cables Special applications • Temperature measurement (extension and compensating cables)
ÖLFLEX ® ACCESSORIES FLEXIMARK ® SILVYN ® SKINTOP ® EPIC ® HITRONIC ® ETHERLINE ® UNITRONIC ® APPENDIX
Extension- and compensating cables, paired PVC, silicone, FEP or glass fibre-insulated
Info I
• Available in many different designs • New: thermocouple cable type K
Technical data
Classification ETIM 5/6 ETIM 5.0/6.0 Class-ID: EC000838 ETIM 5.0/6.0 Class-Description: Thermocouple cable Based on Limiting deviation in accordance with DIN and IEC in accordance with class 2 Conductor stranding 1.5 mm²: approx. 48 x 0.20 mm 0.75 mm²: approx. 24 x 0.20 mm 0.5 mm²: approx. 16 x 0.20 mm 0.22 mm²: approx. 7 x 0.20 mm Minimum bending radius Without metal braiding: 12 x cable diameter With metal braiding: 15 x cable diameter Temperature range (referring to insulation and sheath material) PVC: -5°C to +80°C Silicone: -25°C to +180°C Glass fibre: -25°C to +200°C FEP: -100°C to +205°C E-Glass: -25°C to +400°C
Norm references / Approvals • Space-saving and flexible • For more detailed information, see appendix T8 and data sheets
Norm references / Approvals • Colour identity code DIN 43710 Negative conductor and outer sheath: Fe/CuNi: blue NiCr/Ni: green PtRh/Pt: white Positive conductor: always red IEC 60 584 Positive conductor and outer sheath: Fe/CuNi: black NiCr/Ni: green PtRh/Pt: orange Negative conductor: always white Product Make-up • Design abbreviations: PVC: Polyvinylchloride SIL: Silicone rubber GL: Glass fibre FEP: Fluorinated ethylene propylene EGL: E-Glass fibre C: Copper braiding screen ST: Aluminium foil screen S: Steel wire braiding • Design, for example PVC-PVC-S-PVC: - PVC core insulation
• Examples shown (top to bottom): Fe/CuNi DIN 2 x 1.5 PVC NiCr/Ni IEC 2 x 1.5 GL-GL PtRh/Pt IEC 2 x 1.5 GL-GL-S NiCr/Ni DIN 2 x 1.5 SIL-GL NiCr/Ni DIN 2 x 1.5 PVC-PVC PtRh/Pt DIN 2 x 1.5 SIL-SIL Fe/CuNi IEC 2 x 1.5 SIL-SIL-S NiCr/Ni IEC 2 x 1.5 SIL PtRh/Pt IEC 2 x 1.5 SIL-GL-S Fe/CuNi IEC 2 x 0.22 PVC-PVC-C-PVC NiCr/Ni IEC 2 x 1.5 PVC-ST-PVC Fe/CuNi DIN 2 x 1.5 PVC-PVC-S-PVC
Application range • Allows temperature measurement even in places where non-contact temperature measurement is not possible or reasonable • The thermocouple is used to measure temperature as a part of monitoring the manufacturing process, thus the sheath material should be selected with reference to the maximum ambient temperature at its junction. • Conductor materials (alloys): Fe/CuNi (LX, JX) Conductor alloys are identical to thermocouple alloys • NiCr/Ni (K, KX, KCA) K and KX version - conductor alloys are identical to thermocouple alloys KCA version: compensating alloys (for KCA: Fe/CuNi), not identical to thermocouple alloys • PtRh/Pt (RCB, SCB) Compensating alloys (for RCB, SCB: Cu/ CuNi) are not identical to thermocouple alloys
- PVC inner sheath - Steel wire braiding - PVC outer sheath
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For current information see: www.lappgroup.com
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