General Information

• Manufacturer: Moog
• Product Type: Servo amplifier
• Control Type: Closed-loop control
• Control Modes: Proportional (P), integral (I), or proportional-integral (P-I) selectable by an internal switch

Technical Specifications

• Input Voltage: +24V DC
• Input Signals: Accepts three input signals, including one single-ended signal and two differential signals. The single-ended signal can be selected as 4-20mA or ±10V, and the differential signals are used for zero and gain adjustments.
• Output Signals: Switch-selectable voltage or current. Voltage output is ±10V with a minimum load of 200 Ohm, and current output can be ±5mA, ±10mA, ±20mA, ±30mA, ±50mA, up to a maximum of ±100mA.
• Power Consumption: 25W
• Dimensions: 124mm x 165mm x 80mm (Some sources show 100mm x 108mm x 45mm)
• Weight: 1.2kg (Some sources show 180g)
• Operating Temperature Range: -20°C to +70°C
• Storage Temperature Range: -40°C to +85°C
• Enclosure Material: Stainless steel (Some sources show aluminum alloy)
• Mounting Method: DIN-rail mounting
• Protection Level: IP65 (Some sources show IP20)

Features

• Flexible Control Options: The internal selector switch allows users to choose between P, I, or P-I control modes, and many characteristics of the amplifier can be adjusted through front-panel potentiometers or internal switches, making it suitable for a variety of different applications.
• User-friendly Front Panel: Equipped with LED indicators, such as green for internal supply, red for valve drive positive, and yellow for enable. There are also test points and trim potentiometers on the front panel, which enable quick and easy setting and troubleshooting.
• High Precision: Adopts advanced electronic technology and algorithms, which can achieve high-precision control of the servo valve, enabling precise position, speed, and force control.
• Compact Design: The servo amplifier is installed in a compact DIN-rail mounting enclosure, which saves space and is easy to install and maintain.

Applications

• Industrial Automation: Widely used in controlling robotic arms, machine tools, and assembly lines. It can amplify the signal from the controller and convert it into the current or voltage signal required by the servo valve, thereby controlling the position or speed of the load.
• Aerospace and Defense: Used for high-precision control of flight control surfaces, missile guidance systems, and satellite positioning systems to ensure flight safety and accuracy.
• Automotive Manufacturing: Applied in automotive manufacturing equipment, such as steering systems, suspension control, and electric power steering, to improve driving comfort and safety.