ETEL EA-P2M-400-10/20A-0100-01 Position Controller
ETEL EA-P2M-400-10/20A-0100-01 Position Controller
The ETEL EA-P2M-400-10/20A-0100-01 stands as the highest-performance configuration in the high-voltage AccurET Modular 400 product lineup. Engineered by ETEL S.A. in Switzerland, this dual-axis motion controller combines maximum drive capacity (10 Arms continuous / 20 Arms peak current per axis) with the specialized multi-protocol hardware payload denoted by the -0100-01 architecture suffix.
Designed for heavy-load direct-drive systems operating on common high-voltage DC buses up to 400 VDC, this controller delivers the torque and velocity needed for sub-micron path tracking on major industrial manufacturing stages.
1. Technical Parameter List
The following specification table describes the precise electrical, structural, and real-time control metrics of the EA-P2M-400-10/20A-0100-01:
| Parameter Category | Core Technical Attribute | Value / Operational Standard |
| Manufacturer Profile | Brand | Origin Country | ETEL S.A. | Switzerland |
| Model Specification | Full Hardware Ordering Code | EA-P2M-400-10/20A-0100-01 |
| Power Input Data | Main Bus Input DC Voltage | Up to 400 VDC nominal |
| Control Logic Circuit Input | 24 VDC (±10%) | |
| Current Limits | Continuous Phase Output ($I_{cont}$) | 10 Arms (per axis) |
| Overload Peak Capacity ($I_{peak}$) | 20 Arms | |
| PWM Switching Frequency | 10 kHz / 20 kHz (configurable via parameter) | |
| Loop Latency | Position & Current Loop Cycles | 50 µs sampling time (20 kHz control bandwidth) |
| Trajectory Profile Calculation | 500 µs profile update cycle | |
| Feedback Protocols | Expanded Multi-Protocol Payload | EnDat 2.1/2.2, Analog 1 Vpp Sin/Cos, Digital TTL |
| Maximum Interface Frequency | 10 MHz (Digital TTL differential line driver) | |
| Communication Layer | Network Protocol Handling | EtherCAT (CoE / CiA-402), Transverse Bus, RS485, USB 2.0 |
| I/O Integration | Discrete High-Speed Lines | 6 Fast Digital Inputs, 4 Digital Outputs |
2. Product Features & Core Advantages
Advanced Interface Compatibility (-0100-01 Payload): Equipped with dedicated multi-protocol decoder hardware, allowing simultaneous or mixed-axis decoding of absolute encoder technologies (like EnDat 2.2) alongside traditional high-frequency 1 Vpp analog sin/cos tracks.
Maximum Current Slew-Rate Overhead: Delivering 10 Arms continuous and 20 Arms peak, this unit drives large linear or rotary direct-drive motors under massive acceleration profiles without triggering premature thermal overload limits.
Shared-Bus Thermal Optimization: Operates inside a multi-axis rack sharing a single high-power DC backplane. Regenerative deceleration energy from heavy axes is safely captured and utilized by active modules, cutting down total machine consumption and heat creation.
Integrated Jitter & Cogging Attenuation: Runs real-time software compensation matrices that proactively counter magnetic cogging forces and mechanical friction anomalies to provide smooth velocity profiles.
Hardware Position Capture: Real-time touch probe inputs latch axis positions at sub-microsecond intervals, allowing integration with high-speed optical scanning and on-the-fly vision inspection networks.
3. Series Model Classification
The ETEL AccurET modular platform organizes physical sizes and layouts by power tier to match clear envelope requirements:
AccurET Modular 48 Series: Running on 15–48 VDC maximum for low-mass pick-and-place indexing heads.
AccurET Modular 300 Series: Running on up to 340 VDC for standard automation gantries and compact multi-axis stages.
AccurET Modular 400 Series (This Model Group): Running on up to 400 VDC. Specifically optimized for high-inertia machinery, long travel distances, and applications requiring deep back-EMF headroom.
4. Environmental Tolerance Conditions
To maintain tracking repeatability and guard against high-voltage creepage, ensure your application workspace meets these guidelines:
Operating Temperature: 0°C to +50°C. If sustained dynamic performance regularly utilizes the peak 20 Arms capacity, forced-air cooling paths inside the electrical enclosure are mandatory.
Storage Temperature Envelope: -20°C to +70°C.
Atmospheric Relative Humidity: 10% to 90%, completely non-condensing.
Environmental Constraints: Cleanroom compatible. The installation zone must remain free of vaporized machine lubricants, conductive metallic fragments, or high-amplitude structural floor vibrations.
5. Installation Method & Operating Instructions
Correct Backplane Mounting
The unit is a plug-in module designed strictly for installation on a matching ETEL high-voltage multi-axis backplane.
Safety Discharge Delay: Isolate the primary AC lines and the auxiliary 24 VDC control power. Wait a minimum of 10 minutes for the internal bulk capacitors to discharge safely before handling module connectors.
Module Alignment: Slide the drive along the backplane channel guide tracks until the high-power rear connectors engage completely. Securely torque down the faceplate integration screws to establish a low-impedance path to safety earth.
Cabling Shield Boundary: Attach encoder lines to the X10/X11 multi-protocol ports using double-shielded twisted-pair cables. Ensure the metal backshells of the connectors are tightly fastened to the frame to shield the lines from high-voltage PWM frequency interference.
Basic Operating Guidelines
Logic-First Sequence: Always energize the auxiliary 24 VDC logic line first to initialize safety variables and verify network connectivity before closing main contactors to energize the primary 400 VDC high-voltage bus.
Commissioning Suite: Use ETEL ComET via a USB 2.0 or EtherCAT connection to run automatic current loop calibration, map out error compensation tables, and define software travel limits.
Configuration Safety: Save a complete clone file of your axis parameter configuration (.prs) before processing system-wide firmware updates through ComET.