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Stop-End Joints MV | 11kv 33kV

Lovink Stop-End Joints for MV 6/10 (11) kV – 18/30 (33) kV
Lovink LoviSil Medium Voltage Stop-End Joint
Fully insulated and sealed pot-end for energized cable systems
Lovink Stop-End Joints 11 kV – 33 kV
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Lovink LoviSil® STOP-END JOINTS | MV 6/10 (11) kV – 18/30 (33) kV

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Product Code: LoviSil® Stop-End Joint (Module Selection Required)

12kV Stop-End Joints Available
24kV Stop-End Joints Available
36kV Stop-End Joints Available

Lovink LoviSil® Stop-End Joint is engineered for medium voltage (MV) cable terminations, converting a standard LoviSil® joint into a fully insulated and sealed pot-end for energized cable systems. It is suitable for polymeric (XLPE/EPR) and selected paper-insulated cables across voltage classes from 6/10 (12) kV up to 18/30 (36) kV.
Designed for use at the end of cable routes or when circuits are partially or permanently taken out of service, the LoviSil® Stop-End Joint provides long-term electrical insulation, mechanical protection, and moisture sealing in underground and substation environments. It supports a wide range of single-core MV cable sizes up to 1,000 mm² (dependent on module selection). For distribution networks commonly referred to as 11kV and 33kV class, the correct configuration is selected based on system voltage and cable dimensions.

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Medium voltage joining kits

The Lovink LoviSil® Stop-End Joint is a purpose-designed medium voltage solution for safely terminating underground power cables. By integrating a dedicated stop-end module, a standard LoviSil® joint is converted into a fully insulated and sealed pot-end, allowing cable ends to remain energized and protected in long-term service.

LoviSil® Modular Technology

The LoviSil® system is built around a proven modular design, combining base, cable, resin, and stop-end modules to suit a wide range of network requirements. Pre-assembled components and a uniform installation method help ensure consistent performance on-site, while the encapsulated construction using polyurethane resin and silicone insulation delivers excellent resistance to moisture ingress, soil contamination, and mechanical stress. Installation is completed using standard tools, without heat shrinking or soldering processes.

Designed for 6/10 (12) kV – 18/30 (36) kV Networks

Developed for modern distribution and industrial power systems, the LoviSil® Stop-End Joint is suitable for medium voltage installations from 6/10 (12) kV to 18/30 (36) kV. It supports a broad range of single-core polymeric and selected paper-insulated cables, with conductor sizes up to 1,000 mm² depending on module selection. This makes it an ideal termination solution for spare feeders, decommissioned circuits, and future network extensions in 11kV and 33kV systems.

Need the right Cable Joints for your MV cables? Speak to our trusted experts to confirm suitability for your 11kV / 33kV class network application (as well as cable type, insulation, sheath/armour construction and dimensions). Thorne & Derrick International provide technical advice, quotations and fast worldwide delivery for MV joints, medium voltage cable accessories and engineered power solutions.

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MV STOP-END JOINTS – Technical Specifications

Lovink LoviSil® Stop-End Joint (MV) – Technical Specifications

Primary Keyword Stop-End Joint (Medium Voltage Cable Termination)
Voltage Rating 6/10 (12) kV – 18/30 (36) kV
Cable Insulation Types Polymeric (XLPE / EPR) and selected Paper-Insulated cables
Core Configuration Single-core (standard configuration)
Conductor Size Range Typically 70 mm² – 1,000 mm² (dependent on joint type and cable module)
Installation Method Cold-applied system with pre-installed components (no heat shrinking or soldering)
Sealing & Insulation System Silicone rubber insulation (LoviSil®) with polyurethane resin encapsulation
Typical MV Networks MV distribution systems including 11kV and 33kV class networks (subject to correct selection)
  • Final joint selection depends on cable insulation type, outer sheath diameter, conductor size, and environmental conditions.
  • Correct module combination (base, cable, resin, and stop-end modules) is essential for long-term performance.
  • For non-standard or mixed cable constructions, tailored cable modules may be available on request.
  • Always verify suitability for 11kV / 33kV systems against project specifications and network design requirements.

Application Range (Stop-End Module Guide)

Joint Type Cable Type Conductor Size (mm²) Max Cable Diameter (mm)
M75 Polymeric (XLPE / EPR) – Single Core 95 – 630 Up to 72
M75 Paper-Insulated – Single Core 95 – 240 Up to 72
M85 Polymeric (XLPE / EPR) – Single Core 70 – 500 Up to 82
M85 Polymeric (XLPE / EPR) – Single Core 300 – 630 Up to 82
M85 Polymeric (XLPE / EPR) – Single Core 800 – 1,000 Up to 82
M105 Polymeric (XLPE / EPR) – Single Core 630 – 1,000 Up to 105
M105 Polymeric (XLPE / EPR) – Single Core 800 – 1,000 Up to 105
  • Ranges shown are indicative and based on standard catalogue data for LoviSil® stop-end joints.
  • Final joint selection must consider cable outer diameter, insulation thickness, screen design, and sheath construction.
  • Correct combination of base, cable, resin, and stop-end modules is required for safe long-term operation.
  • For unusual cable constructions or non-standard MV systems, specialist module configurations may be available on request.
  • Always verify suitability for 11kV and 33kV networks against project specifications and utility standards.

Construction & Installation Notes (MV Stop-End Joint)

Sealing & Protection System Multi-layer construction using outer shells, polyurethane resin, and LoviSil® silicone insulation to provide long-term protection against moisture, chemical contamination, and soil ingress
Installation Method Cold-applied, step-by-step assembly with factory-prepared components for consistent on-site termination quality
Tools & Equipment Standard hand tools only; no heat shrinking, open flame, or soldering processes required
Modular Configuration Base module, cable module, resin module, and stop-end module combined to form a sealed pot-end termination system
Pre-Installation Checks Verification of cable insulation type, screen design, sheath material, conductor size, and outer diameter is required before joint selection

For reliable medium voltage cable termination, installers should confirm the cable construction, conductor cross-section, insulation thickness, metallic screen arrangement, outer sheath dimensions, and site conditions prior to ordering.
Correct selection ensures optimum performance of the LoviSil® Stop-End Joint in 11kV and 33kV distribution networks.

stop-end Joint – Key Benefits

✔ Purpose-designed Stop-End Joint system for safely terminating medium voltage power cables

✔ Converts a standard LoviSil® joint into a fully insulated and sealed pot-end for energized circuits

✔ Suitable for MV distribution networks up to 36 kV (6/10 (12) kV to 18/30 (36) kV)

✔ Multi-layer sealing using outer shells, polyurethane resin, and LoviSil® insulation for long-term moisture resistance

✔ Cold-applied installation process with factory-prepared components for consistent field performance

✔ No heat application, soldering, or specialist equipment required — only standard installation tools

✔ Modular system design simplifies selection, reduces inventory, and supports future network changes

✔ Maintains stable electrical stress control and low partial discharge levels over service life

✔ Supports a wide range of single-core cable sizes up to 1,000 mm² (subject to module selection)

✔ Ideal for terminating spare feeders, decommissioned circuits, and planned network extensions

Stop-End Joints MV | 11kv 33kV

Applications

✔ Termination of medium voltage power cables using a sealed stop-end / pot-end joint system

✔ Ending spare, standby, or future feeder circuits in underground MV networks

✔ Temporary or permanent isolation of cable sections during network reconfiguration

✔ Utility distribution systems and private MV networks (including 11kV / 33kV class applications)

✔ Substations, cable chambers, and HV/MV switchroom environments requiring sealed terminations

✔ Industrial facilities, renewable energy sites, and infrastructure projects using underground MV cables

✔ Decommissioning or mothballing of redundant cable circuits while maintaining electrical safety

✔ Installations requiring long-term protection against moisture ingress, soil contamination, and mechanical damage

STOP-END JOINT – Additional Information

LoviSil® Stop-End Joints for medium voltage cable systems (commonly referred to as 11kV and 33kV class networks) use liquid silicone insulation as the primary dielectric medium. This fluid insulation flows freely within the sealed termination body, enabling it to fully surround conductors, screens, and connection components. By eliminating trapped air pockets, the system supports stable electrical performance and helps reduce the risk of partial discharge activity during long-term service.

When terminating paper-insulated cables (PILC/PICAS), the silicone compound provides a compatible environment similar to traditional impregnants, helping maintain insulation integrity over time. For XLPE and EPR cables, the electrical properties of the liquid insulation allow controlled stress distribution and reduce reliance on complex taping or multi-layer build-ups, subject to correct system selection.

Liquid Silicone Insulation - MV Stop-End Joint

Void-Free Termination Insulation

The liquid silicone insulation remains mobile within the termination, ensuring complete coverage of internal components and filling microscopic gaps. This helps minimise air inclusion and supports long-term electrical stability.

Integrated Stress Management - MV Termination

Integrated Stress Management

For higher voltage classes, LoviSil® stop-end joints can incorporate geometric stress control components and silicone sleeves, supporting uniform electric field distribution without complex taping methods.

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Sealing, Protection & Compliance

The combination of polyurethane resin and injection-moulded outer shells provides durable mechanical protection and long-term sealing. This construction supports sheath integrity testing and resistance to moisture, soil contaminants, and external stresses. Systems are stated as tested to IEEE 404 and HD 629 (CENELEC).

Stable electrical termination: liquid silicone insulation supports consistent dielectric performance at the cable end

Paper cable compatibility: silicone characteristics help preserve PILC/PICAS insulation properties

Modern polymer support: suitable for XLPE and EPR cables with reduced build-up complexity

Long service life: proven materials and sealing concept support extended operational reliability

Installer-friendly design: clear assembly sequence and transparent components assist visual inspection

Flame-free installation: no heating, shrinking, or soldering required, supporting high-risk and restricted environments

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Data Sheets