VEH20207 RING/SLIP 5KW-10KW S.P ALTERNATOR
VEH20207 Slip Ring Assembly – 5KW to 10KW Single Phase Alternator
The VEH20207 Slip Ring Assembly is a precision-engineered electrical rotary interface designed for 5KW–10KW single-phase alternators, ensuring reliable transmission of excitation current between stationary and rotating components. Manufactured using high-grade conductive rings and durable insulated housing materials, this slip ring delivers exceptional electrical conductivity, thermal stability, and long operational life under demanding industrial conditions.
Engineered for superior performance in generator and alternator applications, the assembly features precision-machined contact surfaces that minimize brush wear, reduce electrical resistance, and ensure smooth current transfer for consistent alternator output. Its rugged construction provides excellent resistance against heat, vibration, and mechanical stress, making it ideal for continuous-duty generator systems.
Widely used in diesel generators, portable gensets, industrial alternators, and power backup systems, the VEH20207 slip ring is an ideal replacement component for maintenance, refurbishment, and OEM applications.
Key Features
- Designed for 5KW–10KW Single Phase Alternators
- High-conductivity copper/brass contact rings
- Durable insulated body for enhanced electrical safety
- Low wear design for extended brush and component life
- Stable performance under high-speed rotation
- Precision-balanced construction for smooth operation
- Suitable for industrial and commercial generator applications
Applications
- Diesel Generator Alternators
- Single Phase Gensets
- Industrial Power Backup Systems
- Portable Generator Units
- Alternator Repair & Reconditioning
Product Specifications
- Product Code: VEH20207
- Type: Slip Ring Assembly
- Application: Single Phase Alternator
- Power Range: 5KW – 10KW
- Material: Copper/Brass Conductive Rings with Insulated Resin Body
- Usage: Rotor Excitation Current Transfer
This premium-quality slip ring assembly is engineered to meet the performance demands of modern power generation systems, delivering reliability, efficiency, and long-term operational stability.
