Avionics Development
Military-Grade Avionics Modules
Invoblaze specializes in the development of advanced avionics modules for military aircraft and unmanned aerial vehicles. Our engineering team combines expertise in embedded systems, signal processing, and aerospace engineering to create robust, reliable avionics solutions that meet the most demanding operational requirements.
Our avionics modules are designed with a focus on performance, reliability, and integration capabilities. We utilize state-of-the-art components and rigorous testing methodologies to ensure each module functions flawlessly in challenging environments and mission-critical scenarios.
Key capabilities include:
- Custom flight control computers with redundant systems
- Sensor integration platforms for multi-modal data fusion
- Mission-specific processing units for specialized applications
- MIL-STD-compliant designs for harsh environmental conditions
- Secure communication modules with advanced encryption
CAN Bus Network Development
Invoblaze has pioneered innovations in high-speed CAN bus networks specifically optimized for drone and aircraft applications. Our CAN bus solutions enable reliable, deterministic communication between various avionics components, ensuring synchronized operation and system-wide integration.
We design complete CAN architectures that support the demanding requirements of modern aerospace applications, with particular emphasis on data integrity, latency minimization, and fault tolerance. Our networks are engineered to maintain performance even in electromagnetically challenging environments.
Our CAN bus expertise includes:
- High-speed CAN FD implementations for increased bandwidth
- Redundant network topologies for mission-critical applications
- Custom protocol development for specialized aerospace requirements
- Comprehensive network monitoring and diagnostic capabilities
- Integration with legacy systems and modern avionics platforms
UAV Systems
Ground Control Station Development
Invoblaze designs and develops sophisticated ground control stations that serve as the command and control hub for unmanned aerial operations. Our GCS solutions combine intuitive user interfaces with powerful processing capabilities and secure communications to provide operators with comprehensive mission control.
Each ground control station is engineered to maximize situational awareness and operational control while minimizing operator workload. We incorporate advanced visualization tools, automated mission planning features, and robust communication systems to ensure effective command and control in any operational environment.
Key features include:
- Multi-vehicle control capabilities with intuitive switching
- Real-time telemetry and system health monitoring
- Secure, encrypted communications with redundant links
- Customizable user interfaces for specific mission requirements
- Integration with broader command and control networks
Hand Control Units
Our hand control units represent the perfect balance of ergonomic design and technical sophistication. Invoblaze develops controller systems that provide precise, intuitive control of unmanned vehicles while maintaining durability and reliability in field conditions.
Each hand control unit is designed with operator comfort and efficiency in mind, featuring intuitive control layouts, tactile feedback, and clear visual indicators. We incorporate advanced wireless technologies and power management systems to ensure reliable operation throughout extended missions.
Advanced capabilities include:
- Customizable button layouts and control configurations
- Integrated displays for critical telemetry and status information
- Secure wireless communication with encryption and anti-jamming features
- Ruggedized construction for field operations
- Extended battery life with hot-swap capabilities
Collision Detection Systems
Invoblaze's collision detection systems represent the cutting edge of sensor fusion and obstacle avoidance technology. We develop comprehensive detection and avoidance solutions that enable unmanned vehicles to navigate safely in complex, dynamic environments.
Our systems utilize multiple sensor modalities and advanced processing algorithms to identify potential obstacles and calculate optimal avoidance maneuvers in real-time. This multi-layered approach ensures reliable detection and response across varying environmental conditions and operational scenarios.
System highlights include:
- Multi-sensor fusion combining radar, lidar, optical, and ultrasonic technologies
- Real-time obstacle detection and trajectory prediction
- Automated avoidance maneuver generation and execution
- Configurable sensitivity and response parameters
- Seamless integration with flight control systems
Payload Launch Systems
Invoblaze develops sophisticated payload launch systems that enable precise, controlled deployment of various payloads from unmanned aerial platforms. Our launch systems combine mechanical precision with intelligent control to ensure accurate, reliable payload delivery across diverse operational scenarios.
Each system is engineered to maintain platform stability during launch operations while providing precise control over payload release parameters. We incorporate advanced sensing and feedback mechanisms to adapt to environmental conditions and ensure successful deployment.
Key capabilities include:
- Precision release mechanisms with programmable parameters
- Active stabilization systems to counteract deployment forces
- Multiple payload capacity with selective release capabilities
- Environmental monitoring for optimal deployment conditions
- Comprehensive safety features and fail-safe mechanisms
Testing & Validation
Avionics Test Stations
Invoblaze designs and manufactures specialized test stations for comprehensive evaluation and validation of avionics systems. Our test platforms combine hardware interfaces, software tools, and automated test procedures to ensure thorough assessment of avionics performance and reliability.
Each test station is configured to address specific testing requirements, from component-level validation to integrated system verification. We incorporate precision measurement equipment, environmental simulation capabilities, and sophisticated data analysis tools to provide comprehensive test coverage.
Test capabilities include:
- Automated functional testing with pass/fail criteria
- Environmental stress testing (temperature, vibration, EMI)
- Performance characterization across operational parameters
- Long-duration reliability testing with automated monitoring
- Comprehensive data logging and analysis
Harness Test Stations
Our harness test stations provide thorough validation of electrical interconnects for aerospace and defense applications. Invoblaze develops specialized testing solutions that verify harness integrity, signal quality, and compliance with design specifications.
Each test station incorporates advanced measurement equipment and automated test sequences to identify potential issues such as shorts, opens, miswires, and impedance anomalies. Our systems provide detailed test reports and diagnostic information to streamline troubleshooting and quality assurance processes.
Testing features include:
- High-voltage isolation testing for safety-critical circuits
- Signal integrity analysis for high-speed data lines
- Automated continuity and resistance measurements
- Custom test fixture design for specific harness configurations
- Comprehensive test reporting with failure analysis
First Line Test Sets for UAVs
Invoblaze develops portable, field-deployable test sets for rapid assessment and troubleshooting of unmanned aerial vehicles. Our first line test solutions enable operators and maintenance personnel to quickly verify system functionality and identify potential issues before mission deployment.
Each test set is designed for ease of use in field conditions, with intuitive interfaces and clear pass/fail indications. We incorporate essential diagnostic capabilities while maintaining portability and ruggedness for operational environments.
Key features include:
- Pre-flight system verification with automated test sequences
- Basic troubleshooting capabilities for common issues
- Battery and power system analysis
- Communication link verification
- Portable, ruggedized design for field operations