Eltek Rectiverter Systems: The 3-Port Bidirectional Power Revolution

Rectiverter Systems - Power Core 110 Vdc 18kVA

Integrates the functions of a rectifier, inverter, and static transfer switch into a single module, eliminating traditional points of failure.

Seamlessly transitions between drawing energy from batteries or parallel rectifiers on a common DC bus to secure AC and DC loads.

Achieves 96% efficiency in mains mode (AC-to-AC and AC-to-DC) and 94% in inverter mode (DC-to-AC).

Internal energy buffering ensures zero voltage interruption to the load when switching from AC grid to DC power sources.

Features a quick trip capacity of 600% nominal current for 20ms to ensure downstream protection devices clear faults reliably.

Supports single-phase or three-phase output configurations, including mixed setups like 3-phase input feeding a protected 1-phase output.

Tailored configurations ranging from ultra-dense edge nodes to high-voltage industrial utility systems.

Rectiverter 1U 3kVA system
Rectiverter 2U power core
Rectiverter system 90 kVA A & B Input

The modular hardware and intelligent monitoring layers that drive Eltek Rectiverter Systems. This architecture unifies AC and DC power plants by utilizing a bidirectional DC bus that coordinates energy flow between batteries, parallel rectifiers, and critical loads.

Rectiverter HE module

System optimization is achieved through three configurations: Full Rectiverter (1200W DC), UPS Rectiverter (150W DC), and Inverter-only (0W DC) modules. Every variant includes phase-keying jumpers for synchronized 3-phase plants and reinforced isolation barriers for enhanced site safety. This modular logic enables operators to tailor AC and DC output ratios while leveraging a unified hardware platform across the entire infrastructure.

Smartpack Touch
Integrated AC & DC Distribution

Consult with our engineering team to define modular 3-port power requirements using Eltek’s bidirectional rectiverter systems technology. We provide technical assistance in configuring high-availability architectures for 48V, 110V, or 220VDC environments, ensuring absolute AC and DC load continuity by drawing energy from both batteries and common-bus rectifiers to optimize your site infrastructure.