Product Short Description
Product Brief Introduction
This unit belongs to Rexroth SYHNC100 next-generation digital hydraulic control platform, upgraded replacement of legacy VT-HNC100 analog controllers. It is a fully integrated multi-axis electro-hydraulic closed-loop driver dedicated to proportional/servo hydraulic valves, executing synchronized position, velocity, pressure and force closed-loop regulation for up to 4 independent hydraulic axes. The WRP variant is optimized for 4WRP series direct-drive proportional directional valves with on-board position feedback, featuring plug-and-play valve matching and fieldbus industrial communication for high-end heavy-duty automation equipment.
Description
Core Technical Specifications
- Controllable Axis Quantity: 4 fully independent closed-loop hydraulic axes
- Valve Compatibility: Rexroth 4WRPE, 4WRPEH, 4WRP series direct-operated proportional valves with integrated OBE position feedback
- Supply Voltage: 24 VDC ±20%, rated input current 6 A peak, steady-state 2.2 A
- Command Signal Interfaces: Analog ±10 V, 4–20 mA; digital pulse/direction encoder feedback; LVDT/inductive valve spool position sensing input
- Fieldbus Protocols Native Support: CANopen, PROFIBUS-DP; optional Ethernet/IP expansion via auxiliary module
- Closed-Loop Control Modes: Position loop, velocity loop, pressure/force loop, compound multi-loop cascade control freely configurable per axis
- ADC Resolution: 16-bit analog signal sampling for feedback and setpoint signals
- Control Cycle Speed: Minimum 0.2 ms single-axis loop, 0.8 ms full 4-axis synchronous cycle
- Environmental Operating Range: -20 °C to +70 °C; storage temperature -40 °C to +85 °C
- Relative Humidity: 5%–95% non-condensing
- Electromagnetic Compliance: IEC 61000-6-2 industrial heavy EMC immunity, surge and burst noise suppression built-in
- Hydraulic Fluid Matching Standard: Requires hydraulic oil cleanliness ISO 4406 Class 18/16/13, viscosity operating range 20–380 mm²/s
- Physical Dimension: 320 mm (width) × 130 mm (height) × 95 mm (depth)
- Net Weight: 3.8 kg
Functional Core Features
- Independent PID parameter tuning for each of the 4 axes; separate gain scheduling for low/high speed operating zones
- Built-in motion profile generator: trapezoidal, S-curve jerk-limited acceleration/deceleration to eliminate hydraulic shock
- Real-time axis synchronization master-slave gearing, electronic cam curve interpolation for multi-axis linkage equipment
- Comprehensive fault diagnosis system: valve spool offset monitoring, short-circuit detection, feedback signal loss, overvoltage, undervoltage, overcurrent thermal protection
- Onboard data logging buffer storing 10,000 historical fault codes and axis motion waveform snapshots for troubleshooting
- Parameterization and diagnostic software WIN-PED V6.6 official Rexroth PC tool; USB front-panel service port for direct connection
- Thermal overload automatic power derating logic to prevent permanent circuit damage under high ambient temperature
- Digital filtering modules configurable to suppress industrial electromagnetic interference on analog feedback wiring
Working Principle
- Upper machine PLC/NC system transmits motion setpoint signals via fieldbus or analog hardwire to the SYHNC100 controller main CPU
- Internal 16-bit ADC converts analog valve spool position feedback signals to digital values; triple signal sampling verification eliminates single noise distortion
- High-speed digital comparator calculates deviation between target setpoint and actual measured axis state
- Independent PID cascade algorithm computes corrective output control signals for each axis proportional valve drive stage
- Power output circuit drives the proportional valve solenoid, adjusting valve opening flow and direction to reduce closed-loop deviation to zero
- Real-time hardware watchdog continuously monitors all internal circuit slices; triggers safe hydraulic hold state if any critical signal deviation exceeds threshold
Material & Structural Composition
- Outer Enclosure: Extruded aluminum alloy housing with black anodic oxidation surface treatment, corrosion resistant against oil mist and industrial dust
- Internal Circuit Substrate: FR4 high-temperature industrial PCB with tin-lead-free solder process
- Power Stage Components: High-current MOSFET power modules with aluminum heat sink fin array for passive thermal dissipation
- Front Panel Interface: IP65 rated plastic terminal covers, industrial circular M12 signal connectors, USB service port dust cap
- Mounting Bracket: Cold-rolled steel stamped DIN rail mounting clip integrated on rear chassis
Installation Mandatory Requirements
- Standard 35 mm DIN rail vertical cabinet mounting; minimum 50 mm vertical clearance above and below unit for air convection cooling
- Separate shielded twisted-pair wiring for valve feedback signals and power cables; analog signal cable shielding single-point grounded only at controller cabinet terminal
- Power supply must use 24 VDC industrial stabilized power unit with minimum 10 A output capacity for full 4-axis load operation
- Cabinet internal ventilation fan required for ambient operating temperature exceeding +50 °C
- Do not install adjacent to high-power contactors, frequency converters or welding equipment without EMC isolation shielding plates
- Hydraulic valve signal wiring maximum cable length limited to 25 meters to avoid feedback signal attenuation
Application Scenarios
Heavy-duty metal forming hydraulic presses, large injection molding machines, multi-axis CNC metal cutting machine tools, wind turbine blade molding equipment, marine deck hydraulic actuators, metallurgical rolling mill hydraulic servo systems, construction machinery test benches, composite material hot-press forming lines
Operation & Maintenance Precautions
- Complete power cut before plugging/unplugging M12 valve signal connectors to avoid circuit short-circuit burnout
- Regular quarterly calibration of valve zero offset parameters via WIN-PED software after long-term equipment continuous operation
- Prevent hydraulic oil mist ingress into front panel connector ports; clean dust caps monthly in high-dust factory environments
- Avoid rapid cabinet temperature fluctuations which cause internal PCB condensation corrosion
- Replace internal cooling heat sink thermal paste every 3 years for continuous 24/7 production line usage
- All firmware modification and parameter backup files must be stored offline to prevent data loss during power failure







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