SB-100 Begins Payload and Endurance Validation
ApeX Aerospace has begun a structured validation programme to assess the SB-100’s payload capacity, endurance profile, and performance under representative mission conditions.
ApeX Aerospace
ApeX Aerospace develops heavy-lift drones, high-power propulsion electronics, and high-speed interceptor platforms for demanding operational environments.
Heavy lift
Heavy-lift multirotor drone
SB-100 is a heavy-lift multirotor platform engineered for demanding logistics, industrial movement, and mission-critical operations where conventional transport is too slow or too exposed.
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High-power electronic speed controller
The INFERNO ESC delivers high-power motor control in a compact, aerospace-grade form factor, built for reliable UAV propulsion and tighter control of the European supply chain.
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High-speed interceptor drone
X450 is a high-speed interceptor drone concept built around rapid launch, sharp acceleration, and extreme-speed interception profiles for time-critical mission response.
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Beyond our own platforms, ApeX Aerospace supports customers who need to upgrade, retrofit, or customise existing UAV systems. We can adapt agricultural, industrial, and heavy-lift drones with improved sensors, batteries, motors, propellers, propulsion components, and payload integrations to meet specific mission requirements.
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TThe company develops innovative hardware and software solutions for the aerospace industry, supported by an experienced engineering team that delivers rapid prototyping, client-focused development, and mission-critical systems for complex operational environments.
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We are assembling a focused team across UAV design, propulsion electronics, embedded systems, manufacturing, flight test, and operations. Open roles are coming soon.
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ApeX Aerospace has begun a structured validation programme to assess the SB-100’s payload capacity, endurance profile, and performance under representative mission conditions.
The propulsion team moved into a controlled validation cycle focused on high-load electrical behavior and repeatable cooling performance.
Internal modeling updates refine launch timing, acceleration assumptions, and short-duration high-speed operating windows.