The EMG EVK2.11.2 is an industrial control board produced by EMG Automation in Germany, specifically designed for the EVK/EVM series optical strip correction system. It serves as the signal processing core in the system, responsible for receiving signals from high-frequency alternating light receivers (such as LS 13/14) and controlling hydraulic or electric actuators.
- Equipped with unique LIC_ok logic monitoring function
- High system compatibility
- Hardcore hardware protection design
EVK2.11.2 adopts the standardized CANopen fieldbus communication protocol, which enables it to seamlessly integrate into the overall control network of EMG as an intelligent node (such as SPC16 or iCON control system).
Important Notice:
Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description.
EMG EVK2.11.2 Control board Manuals, Datasheets, Drivers, Link
Important Notice: Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description.
Upgraded model: EVK2.11.2 is an older version. The current upgraded replacement model is EVK2.11.3 (some suppliers label it as EX. EVK2.11.2).
New generation product: The latest system has been upgraded to EMG EVK3/EVM3, which is fully compatible with EVK2 in terms of installation position and original cable connection, enabling seamless replacement.
Its core has self-healing overload and short circuit protection, especially designed for sensor light source output stage. Although it can prevent instantaneous surge impact, it is necessary to strictly prohibit continuous short circuit for more than 60 seconds to prevent thermal loss of power components; The onboard power input terminal integrates reverse protection and overvoltage clamp circuit, which can absorb induced surges on the 24VDC bus;
At the same time, the plugin separates sensitive MCU control logic from high-power driver stages and CANopen bus physical layers through optoelectronic isolation technology, effectively suppressing electromagnetic interference (EMI) generated by motor start stop; In addition, its circuit board is coated with a moisture-proof insulation layer, combined with an IP54 rated protective shell, to form a comprehensive thermal management and physical shielding system for metal dust, oil mist, and environmental temperature rise.
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