RoProxCon® - Contactless Data and Power Transmission
RoProxCon® stands for contactless data and power transmission. The handling is largely based on the classic connector and can be integrated into the applications like one - but on the basis of radio transmission.
Rosenberger offers a wide range of solutions tailored to customer requirements:
- RoProxCon® - System-on-Module (SoM)
- RoProxCon® - Hybrid
- RoProxCon® - Data
RoProxCon® - System-on-Module (SoM)
The System-on-Module (SoM) from Rosenberger is a preconfigured transmission module. This stand-alone product is used for direct PCB mounting on the customer's electronics. Rosenberger supports the integration in the respective customer application. Ethernet-based transmissions can be easily implemented using suitable adaptor circuits. In addition, proprietary IO signals or fieldbuses can be utilized. A Design-in Service for the System-on-Module can be offered as well, if required.
Features
- Full duplex transmission during 360° rotation to each other
- Data transmission up to 3.125 Gbps
- Radio transmission at a carrier frequency of 60 GHz
- Individual localization and integration
- High tolerance against radial and axial misalignement
- Small form factor: 14.2x12.5mm
- Low latency down to 7ns
- Transmission through a wide variety of materials
![](/fileadmin/_processed_/7/f/csm_mic803-900_s1__4__c958b1580f.jpg)
RoProxCon® - Hybrid
The hybrid connector with integrated SoM allows a gigabit data transmission and power up to 30 W via inductive coupling.
Enough power for proximity sensors and small actuators.
Furthermore, various performance classes and form factors are targeted depending on the application.
Features
- Power transmission up to 30 W
- Full duplex transmission during 360° rotation to each other
- Gigabit-Ethernet transmission for Industrial Ethernet integrated
- Radio transmission at a carrier frequency of 60 GHz
- Individual localization and integration
- Transmission from device to device or to "other" RoProxCon through closed housings
- High tolerance against radial and axial misalignment
- Small form factor: approx. 60x60x35mm
- Hermetic seal
- Extremely robust, low maintenance, no wear and tear
- Foreign object detection (FOD)
- Low idle power
- Unlimited mating cycles
![](/fileadmin/_processed_/7/a/csm_mi1c804-900_s1__1__3b399613d6.jpg)
RoProxCon® - Data
The Data connector with integrated SoM enables Gigabit data transmission. Due to a modular approach several customer specific requirements regarding power supply and adaption to the host system can be realized.
The small form factor allows an integration into many different applications.
Features
- Full duplex transmission during 360° rotation to each other
- Gigabit-Ethernet transmission for Industrial Ethernet integrated
- Modular approach
- Radio transmission at a carrier frequency of 60 GHz
- Individual localization and integration
- Transmission from device to device or to "other" RoProxCon through closed housings
- High tolerance against radial and axial misalignment
- Small form factor: approx. diameter: 32mm length: 50mm
- Hermetic seal
![](/fileadmin/_processed_/b/1/csm_mi1c806-900_a__1__c305c9562d.jpg)
Applications
- Smart Factory
- Medical Technology
- Industrial Applications
- Safety
- Connected Devices
- Intelligent Home
- Office Equipment
- Conveyer Technology
- Renewable Energies
![Rosenberger Proximity Connector (RoProxCon) - Contactless Data and Power Transmission Rosenberger Proximity Connector (RoProxCon) - System-on-Module](/fileadmin/_processed_/4/f/csm_220921_ROB_60_SOM_Contactless_Robot_COMP_07_72ac11d22a.jpg)
- Freedom of movement due to mechanical decoupling
- Tolerance of angular deviations
- Extremely robust, low maintenance, no wear and tear
- Unlimited mating cycles
- Protocol independence
- Transmission through a wide variety of materials
![Rosenberger Proximity Connectors (RoProxCon) - Contactless Data and Power Transmission Rosenberger Proximity Connectors (RoProxCon) - Hybrid, System-on-Module, Inline](/fileadmin/_processed_/8/e/csm_230626_ROB_120_RoProxCon_Products_Compositing_01_0511707f26.jpg)