Aerospace Industry Solutions and Case Studies

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Core Industry Pain Points
(1) Strict Requirements for Zero Interruption Power Supply In critical sectors such as air trafl, aerospace telemetry and control, and satellite launches, power interruptions can lead to flight scheduling chaos, telemetry failure, and mission failure, resulting in huge economic losses and significant industry impact. Theuirement for power continuity is at the millisecond level with zero interruption.

(2) Extreme Requirements for Power Purity and Precision Aerospace telemetry instruments, satellite testing equipment, on precision machining equipment have extremely high requirements for power waveform distortion and voltage stability (THD < 3%). Ordinary UPS systems lack sufficient output precision, and harmonic interference can easila distortion in equipment detection and a decline in precision machining accuracy.

(3) Poor Adaptability to High/Low Temperature and High-Altitude Environments Scenarios such as airntrol towers, aerospace launch sites, and high-altitude test laboratories face environments with high-altitude low pressure, extreme temperatures (-30°C to 55°C), and stronds and sand. Ordinary UPS systems suffer from cooling failure and poor component weather resistance, making them prone to failure and shutdown.

(4) High Requirements for Equipment Compatibility and Scalaby Aerospace and aviation server room equipment is updated rapidly with frequent load expansion, often including imported precision testing and control equipment. Traditional UPS systems have poor compatibility and cannot adapt to loads of difft brands and power ratings; expansion requires downtime, affecting the conduct of core operations.

(5) Strict Compliance and Traceability Requirements The aerospace industry must comply with strict industry standards from ozations such as the Civil Aviation Administration and the China Aerospace Science and Technology Corporation. Traditional UPS systems lack full-process operation logs and equipment traceability functions, making them unable to pass industry compliancepectio

Corresponding Solutions
(1) Aerospace-grade Zero-interruption Power Supply Solution Adopts an N 1 redundant design combined with seamless switching technology, achieving 0ms switching between utility power and battery. It supports grid-connected power generation systems with an MTBF ≥ 250,000 hours, ensuring absolutely continuous power supply for core links such as air traffic control, telemetry and control, and launch operations.

(2) Ultra-high Precision Pure Power Solution Utilizes full digital control via DSP, with input THDi < 3% and output THD < 2%, and voltage fluctuation ≤ ±1%. It provides ultra-pure power for aerospace telemetry and control, satellite testing, and aviation precision machining equipment, ensuring accurate test data and compliant machining precision.

(3) Full-environment Weather-resistant Adaptation Solution Features a special heat dissipation design combined with components dedicated to high/low temperature and low-pressure resistance. With a high protection rating, it adapts to ultra-wide temperature ranges (-40℃~50℃) and high-altitude low-pressure environments, resisting harsh conditions like wind and sandstorms. It reduces equipment failure rates by 85%, meeting environmental requirements for airports, launch sites, and high-altitude laboratories.

(4) Fully Compatible and Flexible Expansion Solution Adopts an N 1 redundant design compatible with national aerospace general voltage standards. It can adapt to precision equipment of different imported and domestic brands, supports on-demand expansion, and allows for free combination of units, satisfying flexible needs for equipment upgrades and load expansion in server rooms.

(5) Full-process Compliance and Traceability Solution Products are comprehensively certified by national-level laboratories. Equipped with full-process operation logs and a full equipment lifecycle, it stores UPS operating parameters, operation records, and fault information, supports report export, and enables quick tracing of causes after faults, meeting industry com

Scope of Application
It covers aerospace institutions such as airlines, airport operators, aerospace research institutes, satellite launch centers, aviation manufacturers, and air traffic cont centers. It is adapted to core scenarios including air traffic control command centers, airport control towers, aerospace telemetry and control centers, satellite assembly and testing workshops, aircraft engine debugging rooms, and airgage sorting centers. It meets the uninterrupted power supply requirements of various aerospace loads, including air traffic control scheduling systems, aerospace telemetry and control equipment, satellite testing instruments, aviation precision machinig equipment, airport jet bridge control systems, and flight information display systems.

Success Cases：