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Slip Ring| 2 circuits |SVTS C 02-S-A-00/02

Thru-bore, I.D. 4.5 mm, O.D. 22 mm, 2 to 12 circuits

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Slip ring designed for power and control-command signals with thru-bore for shaft mounting or other applications. High data rate up to 100 Mbits/s.

The SVTS C 02 series is charaterized by a through hole and uses a special technology.

It allows to get multiple contact points between brushes and rings, low contact electrical resistance, reduced noise and low wear. No lubrication required.

Advantages

  • Ideal for electrical power and signal transmission
  • Through hole 4.5 mm
  • High data rate
  • Low friction torque
  • High lifetime and reliability
  • Compliant to CE and ROHS

Benefits

  • Transmission of electric power/signals and fieldbuses in one unit
  • Mountable on the shaft mitigating the need of interface parts
  • Combinable with fluidic rotary joints and FORJ
  • Cost-effective

SVTS C 02-S-A-00/02
Circuits2 x 2A
Outside Diameter22.0 mm
Inside Diameter4.5 mm
Overall Length (L)19.4 mm
Protection ratingIP 51
Data Transfert<=100Mbit/s
MountingThru-bore 4,5mm

Mechanical features

Nominal speed0-250 rpm
Temperature range-20°C to +80°C (-40°C as option)
Contactgold-gold (alloy)
BearingsMiniature high-precision stainless steel ball bearings
Connector-
MountingABS

Electrical features

Voltage240 VDC/VAC
CablesSilver plated / PTFE insulated / colour coded
Cables length250 mm standard (other length on request)
Dielectric voltage strength500VAC @ 60Hz @ 60 sec
Insulation resistance>500MOhm/500VDC
Dynamic contact resistance<10mOhm @ 6VDC and 500mA (@ 5rpm)
Expected lifetime107 revolutions (depending on speed, environmetal conditions and size)

Customisations

  • Cables
  • Materials
  • Mechanical design
  • Flange

Notice :The provided technical data are the higher limits recommended in static condition. To obtain the correct dimensioning of the product, it is necessary to hold account of all the applicable dynamic forces, including the inertia of the manipulator, the configuration of the tools and the external forces applied.