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Inductively coupled power transmission with stationary and rotary inverter
- Maintenance free, no wear
- No torque introduced
- Complete line interface
- Scalable
- Voltage stability within full load range
The current development in non-contacting power transmission aims at two main fields of application:
The functional efficiency and advantages of non-contacting power
transmission are undisputed, particularly with the power supply in
automated guided vehicles. The spectrum of promising applications in
industrial environments is however of a much wider range.
- Energy transmission between rotating and stationary power consumers
- Whenever an (air) gap has to be bridged
- Combined power and data transmission (industrial BUS-systems)
Technology
The non-contacting inductive transmission of power is an innovative
technology which opens up completely new possibilities to supply mobile
devices with electrical energy. The mobility of the devices increases
when conductor rails, drum cables or collector rings are eliminated.
The safety and reliability of the energy supply improve as a result of
abandoning any mechanical contact. An additional advantage is the
avoidance of contact resistance and spark formation, so that the
technology is particularly
useful for implementation in harsh environments.
The core of non-contacting transmission systems is a transformer
configuration. Using this technology, electric power can be transferred
varying from a few mW up in industrial applications to several kW in
the field of medical application. A precise electric and magnetic
layout provides very high efficiency, maintenance free, long life, no
wear.
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Contactless power transmission > 200 KW
- Maintenance-free, long life, no wear
- High rotational speed: >300 rpm
- Voltage stability within full load range
- For dry/ aggressive environments
- Compatible with:
- GigaCAP® – Non-contacting data transfer
- Encoder technology
- Mechanical and air-bearing units
- Direct drive and belt drive
Download Datasheet |
