Rectifier Systems - THYROTRONIC

for Industrial Applications

Rectifier System - THYROTRONIC

Rectifiers for Stationary Battery Systems – THYROTRONIC Line

The protection of electrical loads against power failure is often carried out by battery backed up DC power supplies, providing electrical energy to important loads during mains supply, as well as during mains failure.

Battery backed up DC power supplies have, over several decades proved extremely reliable and very economical power supplies.

The reliability of a battery backed up DC power supply is defined by the quality of the battery used, as well as the reliable operation of the rectifier.

he THYROTRONIC rectifier range developed by BENNING is especially intended for use as battery backed up power supplies and feature very high reliability and a comprehensive monitoring concept.

THYROTRONIC rectifiers are operating with a controlled output characteristic (IU-characteristic line in accordance with DIN 41773).

The output voltage is kept constant to the set value with a permissible deviation of ± 0.5 % within a load range between 0 % and 100 % of the unit current.

Mains voltage fluctuations of ± 10 % and mains frequency fluctuations of ± 5 % will be controlled automatically.

As an energy storage mainly closed or vented lead acid batteries are used. Nickel-cadmium batteries are used in extreme ambient conditions.

Range of applications

  • Power plants
  • Substations
  • Railway equipment
  • Offshore projects
  • Oil and gas pipeline systems
  • Hospitals

General Features

General Features

  • fully-controlled thyristor three phase bridge
    • 6 pulse (standard)
    • 12 pulse (optional)
  • power range: 0,6 kW to 1 MW
  • input voltages [VAC]
    • 230 ± 10 % 1-phase
    • 240 ± 10 % 1-phase
    • 208 ± 10 % 3-phase
    • 400 ± 10 % 3-phase
    • 480 ± 10 % 3-phase
    • (others on request)
  • output voltages [VDC]
    • 24, 48, 60, 110/125, 220/240
    • (higher on request)
Thyrotronic rectifier range - opened Thyrotronic rectifier range
Fully controlled thyristor-
based three-phase 
bridge connection
Comparison of the harmonic input current with 
6-pulse and 12-pulse thyristor-based rectifiers
Fully controlled thyristor-
based three-phase 
bridge connection
Fully controlled thyristor-
based three-phase 
bridge connection

Maximum Availability

Maximum Availability

  • auto. temperature-controlled charging
  • battery availability test / -circuit test
  • galvanically isolated
  • high quality of output power
  • n+1 redundancy
  • extensive signalling and 
monitoring functions

Highest Economic Efficiency

Highest Economic Efficiency

  • suitable for lead and NiCd batterie senergy-efficient

Further Information

Brochures
Case Studies

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