MOOG CZ1008DVA

Product Introduction

Rack-mounted digital closed-loop servo valve drive amplifier developed for MOOG industrial electro-hydraulic servo valves, converts analog position feedback signals into precise proportional current output to control servo valve spool displacement. Integrates PID closed-loop regulation, fault monitoring and standard analog communication interface for metal forming, aerospace test bench hydraulic control systems.

MOOG D136-001-007

Product Introduction

D136-001-007 is a DIN rail mounted high-performance 32-bit motion control core dedicated exclusively to closed-loop hydraulic servo systems. It integrates embedded PLC logic processing, multi-channel high-resolution analog I/O, multi-protocol industrial communication and differential encoder feedback interfaces, realizing synchronized dual-axis position, velocity and force closed-loop control with microsecond-level loop cycle.

MOOG D136-001-007 High-Performance Motion Controller Module

Technical Specifications
  • Control Resolution: High-resolution analog input/output for precise motion control.
  • Interface Options: Multiple communication ports, including Ethernet, USB, and serial interfaces, for seamless integration with other devices.
  • Power Supply: Single 5V DC power supply (AT or ATX compatible).
  • Operating Temperature Range: 0°C to 60°C (32°F to 140°F).
  • Environmental Protection: Designed for industrial environments with robust construction to resist dust and vibrations.
  • Mounting Options: Compact form factor for DIN rail or panel mounting.

MOOG D136-001-007–MSC I Motion Controller

Technical Specifications:
  • The valve features a flange-mounted design suitable for direct integration into hydraulic systems.
  • It operates with a rated flow typically specified under standard test conditions, ensuring accurate control over hydraulic actuators.
  • Offers high dynamic response characteristics, capable of handling fast and precise movements required in many industrial applications.
  • Features low hysteresis and high resolution, contributing to smooth and accurate operation.
  • Operates efficiently with common hydraulic fluids, including mineral oils and synthetic fluids, under specific temperature and pressure ranges.

MOOG D136-002-005 Multi-Axis Motion Controller

This servo valve typically features high resolution and low hysteresis, which are critical for accurate control. It is an electro-hydraulic servo valve that converts an electric input signal into a proportional hydraulic output. The exact technical specifications such as flow rate, pressure drop, response time, and power requirements would be listed in the product's datasheet.

MOOG D136-003-001

Product Introduction

D136-003-001 is single-axis derivative variant of D136 series motion controller, optimized for single hydraulic actuator independent closed-loop control scenarios without dual-axis synchronization demand. Retains identical core PowerPC control architecture and hydraulic algorithm library as D136-001-007, reduces redundant dual-axis feedback and analog output circuits to minimize cabinet space occupation.

MOOG D635-671E

Product Introduction

D635-671E is two-stage direct drive electro-hydraulic servovalve without flapper-nozzle pilot stage, adopting patented MOOG DDV linear force motor spool direct drive technology. Eliminates pilot stage fluid contamination sensitivity, delivers ultra-stable flow linearity and low hysteresis under industrial hydraulic fluid cleanliness conditions. Designed for high-response closed-loop hydraulic positioning systems requiring long service maintenance intervals and wide pressure operating range.

MOOG D691-072D

Product Introduction

D691-072D is high-flow two-stage electro-hydraulic proportional servo valve equipped with patented MOOG SERVOJET flapper-less pilot drive architecture and fully integrated on-board control electronics. Simultaneously realizes independent closed-loop flow control and pressure closed-loop control via dual analog command input signals, combining proportional flow regulation and pressure limiting functions within single valve body.

MOOG D765-102-4

Product Introduction

D765-102-4 is compact single-stage flapper-nozzle type electro-hydraulic servovalve designed for medium-flow medium dynamic response closed-loop hydraulic positioning systems. Adopts classic permanent magnet torque motor flapper-nozzle pilot control architecture with zero-lapped main spool, delivering high linearity and fast transient response within miniaturized valve body footprint.

Moog G122-824-002

  • Product Name:​ Moog G122 Series Dual-Channel P-I Servo Amplifier / Servo Valve Driver, Model G122-824-002
  • Product Introduction:​ An industrial-grade analog servo amplifier designed to accept low-level command signals (±10 V or 4–20 mA) and feedback (±10 V or 4–20 mA), compute the error, apply proportional and integral gain, and output a current/voltage drive to electro-hydraulic servo valves or proportional valves. Used in closed-loop position/force/pressure control.

MOOG G123-825-001 Buffer Amplifier

Technical Specifications
  • Power Supply: 24 VDC (65 mA current draw).
  • Input Signal: 4-20 mA (standard PLC analog output).
  • Output Signals:
    • 4-20 mA (fixed).
    • 0-10 V (fixed).
    • 0-5 mA to ±100 mA (switch-selectable).
  • Filtering: Single-pole active filter to remove input noise, with switch-selectable time constants.
  • Mounting: Compact DIN rail enclosure (dimensions: 16 x 25 x 12 mm).
  • Weight: 0.16 kg.
  • Operating Temperature: 0°C to 85°C.
  • Humidity Tolerance: 0-95% non-condensing.

Moog G403-552A

Product Introduction:​ The Moog G403 family comprises single- or dual-channel servo amplifiers / electronics packages for driving Moog two-stage electrohydraulic servo valves (e.g., D633, D634, D661, D791 series). The G403-552A variant is a rack or DIN-mount analog amplifier providing command summing, ramp generation, deadband compensation, and current drive for valve torque motor coils. Exact I/O configuration should be verified against the shipped datasheet as G403 sub-models vary in enable logic and feedback provision.