美国MOOG穆格,微型精密滑环EC3848-10,EC384810
A slip ring can be used in any electromechanical system that requires unrestrained, continuous rotation while transmitting power and / or data from a stationary to a rotating structure. A slip ring is also called a rotary electrical interface, collector, swivel or rotary joint. A slip ring can improve system performance by simplifying operations and eliminating damage-prone wires dangling from moving joints.
The EC3848 high speed slip ring features precious metal brushes and rings. Flying lead wires on the rotating side and solder terminals on the stator side complete the electrical connections. Precision ball bearings and the patented fiber brush design allow operation up to 10,000 rpm without the need for cooling equipment. Fiber brush technology offers several advantages over conventional slip ring contacts including multiple points of contact per brush bundle, low contact force per fiber and low contact wear rates. In addition, fiber brushes do not require lubrication and produce virtually no wear debris.
For more information about how Moog's high speed slip rings can fit your specific application, contact our slip ring experts.
Features
Speeds up to 10,000 rpm without cooling
2, 6, 8 and 10 circuit models
Precision ball bearings
1 amp / 100 VDC circuits
Precious metal contacts
Benefits
Transfers control and data signals
Fiber brush technology provides maintenance-free operation (no lubrication required)
Standard design meets high speed requirements at a fraction of the cost of a custom assembly
EC3848 Specifications
Operating Speed 0 - 10,000 rpm*
Number of Rings Up to 10 (2, 6, 8 and 10)
Electrical Connections 30 (19 / 42) AWG leads on rotor
Solder terminals on stator
Voltage Low millivolt range to 100 VDC
Maximum Ambient Temperature 50°C (120°F) over 1,000 rpm
80°C (175°F) up to 1,000 rpm
Contact Material Precious metal
Current Rating 1.0 amps maximum per ring
Electrical Noise 20 mΩ at 5 rpm
6 VDC, 50 mA current
Cooling Not required
*Please note that the operational life of the unit is dependent upon rotational speed, environment and temperature.