Fuzion Solar Kit - 2 x 95W Panels

Compact off-grid solar power system for remote network equipment deployments

This integrated solar kit is designed to provide reliable off-grid power for remote and temporary network installations, combining solar generation, energy storage, monitoring, and mounting hardware into a compact, field-ready solution.

Key Features

• Networked Solar Energy Storage: The 300 Wh solar-charged energy unit provides stored power for continuous operation of connected network equipment in off-grid locations.
• Designed for Network Deployments: Purpose-built to support network infrastructure such as cameras, wireless radios, and communication devices when paired with appropriate downstream power hardware.
• High-Efficiency Solar Panel: The 95 W monocrystalline solar panel delivers dependable energy generation with consistent performance across varying light conditions.
• Compact Solar Mounting Structure: The small solar mounting structure enables secure panel installation and optimal orientation for reliable energy harvesting.
• Preassembled MC4 Solar Cabling: Factory-terminated MC4 male-to-female solar cable simplifies installation while ensuring secure, low-loss electrical connections.
• MC4 Branch Connectivity: MC4 branch plug and socket allow safe and compliant parallel solar connections for flexible system configuration.
• Remote Monitoring Capability: Compatible with network-based monitoring for visibility of system status, battery state, and operational performance.
• Off-Grid Ready Design: Ideal for locations where grid power is unavailable, impractical, or cost-prohibitive.

Kit Includes

• Fuzion FTP-300, 300 Wh networked solar-powered energy unit
• Fuzion small solar mounting structure
• Victron 95 W monocrystalline solar panel (30-cell, 770 × 668 × 30 mm)
• Multi-Contact preassembled MC4 solar cable, male to female, 2 m, 4 mm²
• Multi-Contact MC4 branch plug and socket

This solution delivers dependable solar-powered energy for professional network installations, reducing deployment complexity while maintaining long-term reliability in remote environments.