The Rikishi Electronics Unit (REU) is a Robotic Arm Controller designed to drive up to nine separate servo motors (joints). It processes commands and telemetry, executes motor control commands, and stores both volatile and non-volatile data.
The high-reliability Gimbal Control Electronics System manages the motion of multiple motors, commonly used in solar array actuators and antenna gimbals.
Moog designs and manufactures Motor/Actuator Driver electronics suitable for a range of applications, delivering space-rated and flight heritage controllers as standalone units or part of an Integrated Avionics Unit (IAU).
The RPS holds the power control electronics necessary to operate motors in EM actuators. It includes two three-phase power bridges composed of six insulated gate bipolar transistors (IGBTs) each.
The CEU features a robust architecture derived from flight hardware designs and interfaces with different remote power stages (RPS) to scale power needs across various launch vehicle stages.
The common ECU works with the common electromechanical actuators (CEMA) and can be utilized across various platforms, allowing changes to software rather than hardware for versatility.
The EMAC is a dual redundant, rad-hard digital system divided into two electrically isolated subsystems. It supports up to four types of engines and facilitates parameter tuning based on the engine type.
Designed to endure the harsh naval environment, Moog’s Naval Controllers are compatible with shipboard electrical standards and built to resist water corrosion.
Moog’s HyperPOWER controller integrates actuation and propulsion control, power management, sensor conditioning, and battery activation into a single package optimized for size, weight, and power to support hypersonic vehicles.
Moog offers multi-axis controllers for military ground vehicles that are lightweight, efficient, and come with digital or analog interfaces. These controllers are designed for precise motion control and support torque, velocity, and position loop closure.
Moog's range of digital servo motor controllers offers precise motion control solutions suitable for military applications. They are designed to be easily tuned for optimal performance, supporting various power outputs and interfaces.
Moog specializes in the design, manufacture, and integration of turret stabilization and fire control systems for military vehicle platforms. Their technology supports weapon stabilization, fire control, and seamless integration on manned and unmanned turrets.
The Flexible Mission Platform (FMP™) is a mission-agnostic system designed for use across various platforms including vehicles, ships, and trailers. It can host various payloads and offers features like Moog's high-performance stabilization and weapon stores management.
The RIwP® is a modular, scalable turret platform capable of hosting multiple weapon systems. It provides unmatched versatility for current and future ground-combat platforms, offering air defense, anti-armor, and multi-mission capabilities.
Moog designs and integrates turreted weapon systems for various global military platforms, supporting small (12.7mm), medium (30mm), and large caliber (155mm) weapons. These systems are recognized for precision and reliability.
