1.1 Intended Use

This manual applies to the Moog D633-526B direct-drive servovalve (DDV), a high-precision electrohydraulic control unit for industrial hydraulic systems. It is designed for 4-way/3-way directional, velocity, pressure, and force control using mineral oil-based hydraulic fluids (per DIN 51524).

1.2 Safety Symbols

• ⚠️ Warning: Risk of injury or equipment damage.

• ⚠️ Caution: Risk of equipment damage.

• ℹ️ Note: Important operational information.

1.3 Qualified Personnel

Installation, operation, and maintenance must be performed by trained electrohydraulic technicians familiar with hydraulic safety standards (EN 982, DIN EN 50018/50019).

2. Product Description

2.1 Overview

The D633-526B is a size 03 (NG6) direct-drive servovalve with integrated electronics, a permanent magnet linear force motor, and LVDT closed-loop spool position control for high accuracy and dynamic response.

2.2 Type Designation Breakdown (D633-526B)

• D633: Series (direct-drive servovalve, size 03)

• 526: Flow/pressure/configuration code

• B: Seal/material/connector variant (standard: HNBR seals, M12 connector)

2.3 Technical Specifications

2.3.1 Hydraulic Data

• Mounting Pattern: ISO 4401-03-03-0-94Moog Inc.

• Rated Flow: 50 L/min (Δp = 35 bar per land, ±10% tolerance)

• Max Operating Pressure: P/A/B ports: 350 bar; T port: 50 bar (350 bar with Y port)Moog Inc.

• Fluid Compatibility: Mineral oil (ISO 4406 cleanliness class 15/12 or better)

• Viscosity Range: 5–400 mm²/s (recommended: 15–100 mm²/s)

2.3.2 Electrical Data

• Supply Voltage: 24 VDC (19–32 VDC)

• Current Consumption: ≤1.2 A

• Command Signals (differential):

  • Voltage: 0 to ±10 V (input resistance: 10 kΩ)Moog Inc.

  • Current: 0 to ±10 mA (floating) or 4–20 mAMoog Inc.

• Feedback Signal: 4–20 mA (spool position, 12 mA = centered)Moog Inc.

• Connector: M12 (5-pin), IP67 rated.

2.3.3 Environmental & Mechanical Data

• Ambient Temperature: -20 °C to +60 °C

• Fluid Temperature: -20 °C to +70 °C

• Vibration Resistance: 30 g (3-axis)

• Mass: 2.5 kg

3. Installation

3.1 Mounting Surface Requirements

• Flatness: 0.01 mm per 100 mm

• Surface Roughness: Ra < 0.8 µm

• Cleanliness: Free of debris, burrs, and old sealant (use lint-free wipes)

3.2 Mounting Procedure

1. Remove protective covers from valve ports and mounting surface.

2. Align valve with ISO 4401-03 mounting pattern; ensure O-rings are properly seatedMoog Inc..

3. Use M5×55 socket head cap screws (10.9 grade); tighten diagonally in sequence to 6.8 Nm ±10%.

4. Verify no port misalignment or O-ring extrusion.

3.3 Electrical Connection

3.3.1 M12 Connector Pinout

表格

3.3.2 Wiring Guidelines

• Use shielded cables (≥0.75 mm² cross-section); shield to be grounded at supply end only.

• Avoid running cables parallel to high-voltage power lines (maintain ≥30 cm distance).

• Torque M12 connector to 2.5 Nm; ensure IP67 seal is intact.

4. Start-Up

4.1 Pre-Start Checks

1. Confirm hydraulic system cleanliness (ISO 4406 15/12 or better).

2. Verify all electrical connections are secure and insulated.

3. Check valve for physical damage (dents, cracked housing).

4. Ensure hydraulic fluid level is correct and filters are installed (β₁₀ ≥75, 10 µm absolute).

4.2 System Flushing

1. Replace D633-526B with a flushing plate or directional valve.

2. Flush system at operating temperature until cleanliness class 15/12 is achieved.

3. Reinstall servovalve; replace flushing elements with high-pressure filters.

4.3 Initial Operation

1. Power on 24 VDC supply; verify no fault codes (LED indicator: green = normal, red = fault).

2. Apply 0 VDC command signal; spool should center (feedback = 12 mA)Moog Inc..

3. Gradually increase command signal to ±10 VDC; monitor spool movement and hydraulic responseMoog Inc..

4. Check for external leaks at mounting surface, ports, and connector.

5. Vent hydraulic system to eliminate air (critical for avoiding "diesel effect" damage).

5. Operation

5.1 Normal Operation

• Command Signal: 0 to ±10 VDC (or 4–20 mA) controls spool position proportionallyMoog Inc..

• Feedback Signal: 4–20 mA provides real-time spool position monitoring (12 mA = centered)Moog Inc..

• Fail-Safe: On power loss or command signal failure, spool returns to spring-centered position (neutral).

5.2 Operating Limits

• Do not exceed 350 bar at P/A/B portsMoog Inc..

• T port pressure must not exceed 50 bar (350 bar only if Y port is connected to tank)Moog Inc..

• Avoid temperature fluctuations >10 °C during operation.

• Do not operate with contaminated fluid (risk of spool/bushing wear).

6. Maintenance

6.1 Routine Maintenance

• Daily: Visual inspection for leaks, damaged cables, or loose connectors.

• Monthly: Check filter pressure drop; replace if clogged.

• Quarterly: Verify electrical connections and shield integrity.

• Annual: Recalibrate spool position feedback (per Moog calibration procedure)Moog Inc..

6.2 Cleaning

• Use lint-free cloths and non-abrasive cleaners for external surfaces.

• Do not use solvents on seals or electrical connectors (risk of damage).

• Keep ports covered when not in use to prevent contamination.

6.3 Seal Replacement

• Replace O-rings every 2 years or if leaks are detected.

• Use only Moog OEM seals (HNBR material, part number: C55856-001).

• Follow mounting procedure (Section 3.2) for reassembly.

7. Troubleshooting

7.1 No Hydraulic Response

• Possible Causes: No 24 VDC supply; faulty command signal; spool jammed; clogged ports.

• Remedies: Check power supply; verify command signal wiring; clean spool/ports; replace filters.

7.2 Unstable Operation (Oscillation)

• Possible Causes: System resonance; insufficient damping; contaminated fluid; misaligned spool.

• Remedies: Adjust controller gains; check fluid cleanliness; recalibrate spool position; verify mounting surface flatness.

7.3 External Leaks

• Possible Causes: Loose mounting bolts; damaged O-rings; cracked housing.

• Remedies: Retighten bolts to 6.8 Nm; replace O-rings; contact Moog for housing repair/replacement.

7.4 Electrical Faults (Red LED)

• Possible Causes: Overvoltage; short circuit; faulty LVDT; damaged electronicsMoog Inc..

• Remedies: Check supply voltage; inspect wiring for shorts; contact Moog for electronics repair.

8. Storage & Transportation

8.1 Storage

• Store in clean, dry environment (temperature: -20 °C to +60 °C; humidity: <60%).

• Keep ports covered with protective caps; store in original packaging if possible.

• Do not store for >5 years without inspection (contact Moog for service).

8.2 Transportation

• Use shock-absorbent packaging; avoid vibration and impact.

• Keep valve in upright position; do not expose to extreme temperatures.

• Mark packaging as "Fragile - Precision Instrument".

9. Warranty & Support

9.1 Warranty

This D633-526B servovalve is covered by a 12-month warranty from date of purchase, covering defects in materials and workmanship. Warranty is void if:

• Valve is modified or repaired by unauthorized personnel.

• Damage results from misuse, contaminated fluid, or improper installation.

• Serial number is altered or removed.

9.2 Technical Support

For technical assistance, calibration, or repair, contact Moog Industrial Group:

• Website: www.moog.comMoog Inc.

• Service Email: industrial.service@moog.com

• Phone: +1-716-652-2000 (US), +49-89-99616-0 (Europe)Moog Inc..

10. Declaration of Conformity

Moog GmbH declares that the D633-526B series servovalves comply with the following directives and standards:

• Machinery Directive: 2006/42/EC

• EMC Directive: 2014/30/EU

• RoHS Directive: 2011/65/EU

• Hydraulic Safety: EN 982, ISO 4401Moog Inc.

• Electrical Safety: DIN EN 50018, DIN EN 50019。