Advanced Propulsion Architectures
AeroVance designs and manufactures chemical, hybrid, and electric propulsion systems optimized for launch vehicles, upper-stage maneuvers, and deep-space transfer orbits. Our modular architecture supports rapid reconfiguration for varying mission profiles, payload masses, and thrust requirements.
Thrust Vector Control
Electro-hydraulic & full-electric actuation with 0.1° precision pointing stability.
Cryogenic & Storable
LH2/LOX, MMH/NTO, and green propellant variants with demonstrated vacuum performance.
Restart Capability
Multiple restarts in microgravity with cold-flow isolation and pyro-safe sequencing.
Health Monitoring
Embedded telemetry, AI-driven anomaly detection, and predictive component life tracking.
Modular Satellite Buses
Highly integrated satellite platforms ranging from 12U CubeSats to 3U-class microsatellites and 500kg+ medium-bus architectures. Designed for LEO, MEO, and GEO deployments with standard payload rails, deployable solar arrays, and radiation-hardened computing stacks.
Payload Integration
Standard mechanical & electrical interfaces with >15W/kg power delivery capability.
ADCS Systems
3-axis stabilization, star tracker fusion, and reaction wheel momentum management.
Comms Suite
S/X/Ka-band transceivers, optical inter-satellite links, and DSN-compatible ground reporting.
Autonomy
Onboard fault protection, collision avoidance, and autonomous orbit maintenance algorithms.
Defense & Security Platforms
Mission-proven aerospace systems tailored for tactical reconnaissance, electronic warfare, and rapid-response surveillance. Built to MIL-STD standards with hardened communications, stealth airframe integration, and secure data链 protocols.
Loitering & MALE UAVs
Persistent ISR platforms with 36+ hour endurance and payload bay flexibility.
EW & SIGINT Pods
Reconfigurable RF suites for threat detection, jamming, and spectrum analysis.
Secure Comms
FedRAMP-aligned crypto modules, SATCOM integration, and anti-jam waveforms.
Rapid Deployment
Containerized C2 systems, forward-deployable maintenance kits, and allied interoperability.
Avionics & Flight Control Systems
Integrated cockpit and flight management architectures featuring fly-by-wire redundancy, synthetic vision, and autonomous decision support. Designed for commercial, military, and UAS platforms with open-systems architecture (OSA) compliance.
Fly-By-Wire
Triple-redundant control laws, sensor fusion, and failure-operational-failure-safe architecture.
Cockpit Displays
Multi-function displays with AR overlay capability and standardized symbology (ANSI/RTCA DO-317A).
Navigation Suite
INS/GNSS hybrid, RNP AR approach capability, and anti-spoofing signal processing.
Software Stack
OS-2 compliant, ARINC 653 partitions, and DO-178C DAL A/B certified code bases.
Spacecraft & Exploration Systems
Human-rated and robotic spacecraft components for lunar, cislunar, and interplanetary missions. Includes life support interfaces, precision landing guidance, thermal control subsystems, and radiation-hardened payload racks.
Descent & Landing
Lidar-inertial navigation, hazard avoidance, and soft-landing thrust modulation.
Thermal Management
Loop heat pipes, variable conductance heat pipes, and multi-layer insulation optimization.
Radiation ShieldingPolyethylene composites & active magnet shielding prototypes.
Crew Interfaces
Modular habitation racks, EVA suit docking ports, and closed-loop water/oxygen recycling.
MRO & Lifecycle Support
Full-spectrum maintenance, repair, and overhaul services supported by digital twins, predictive maintenance AI, and global spare parts logistics. Covers airframe, powerplant, avionics, and structural components across commercial and military fleets.
Predictive Analytics
ML-driven component failure forecasting with >92% accuracy over 6-month horizons.
Non-Destructive Testing
Ultrasonic, thermographic, and eddy-current inspection with automated defect classification.
Global Logistics
24/7 AOG support, bonded inventory hubs, and blockchain-tracked parts provenance.
Training & Sim
VR-based technician certification, procedure validation, and AR-assisted line maintenance.
Comparative Technical Specifications
| Parameter | Propulsion | Satellite Bus | Defense Platform | Avionics Suite | Spacecraft | MRO Services |
|---|---|---|---|---|---|---|
| Mass Range | 18–340 kg | 3–500 kg | 15–4,500 kg | 4–28 kg | 100–12,000 kg | — |
| Operational Env | Vacuum / Atmos | LEO / MEO / GEO | Global / Extreme | -55°C to +85°C | Space / Lunar | Hangar / Line / Depot |
| Interface Standard | MIL-STD-1553 | CCSDS / CAN | Link 16 / SATCOM | ARINC 429 / AFDX | Spacewire / CAN-FD | IIoT / OPC-UA |
| Reliability Target | 99.92% (10yr) | 99.85% (5yr) | 99.7% (Mission) | 99.999% (Flight) | 99.9% (Critical) | 98.5% (Uptime) |
| Lead Time (Std) | 8–14 mo | 6–12 mo | 12–24 mo | 4–8 mo | 18–36 mo | On-Demand |
Integration & Deployment Workflow
Requirements Capture
Joint technical workshops, trade studies, and preliminary system architecture reviews.
Design & Simulation
Model-based engineering, digital twin validation, and environmental thermal/vacuum testing.
Manufacturing & Assembly
AS9100D production lines, automated inspection, and full traceability via PLM systems.
Integration & Verification
Hardware-in-the-loop testing, campaign readiness reviews, and customer acceptance protocols.
Deployment & Support
Launch/field integration, mission operations handover, and continuous lifecycle monitoring.