About Us:
The following is what we at Censys call our DNA Derivatives. It is fundamental to the job that you align with them. Please review them before applying. Thank you and we look forward to seeing your applications!
Censys Technologies DNA Derivatives
5 Areas of Excellence: Steward resources with excellence | Obsess over customers | Create new technologies | Improve continuously | Communicate with excellence
4 Core Values: Steadfast Customer Service | Quality | Integrity | Love
3 Fundamental Beliefs
- We believe enrichment comes when technology enables problem solving.
- We believe our natural order is to achieve our maximum potential as individuals and as an organization to make the world wiser.
- We believe omniscience of humanity’s assets is the cornerstone of value creation.
2 Pillars of Identity
- Strength – capacity to withstand great force and pressure
- Courage – the ability to name fear and not give it a foothold
1 Mission: Enrich lives through asset intelligence technology.
Salary Range: $110,000 - $130,000
Job Overview:
The Mechatronics Engineer will be a core member of the engineering team responsible for the design, development, integration, and testing of our new drone dock system. This role requires a hands-on approach to developing sophisticated electromechanical systems that enable autonomous landing, securing, charging, and data transfer for our UAS. The ideal candidate will possess a strong blend of mechanical, electrical, and software engineering skills, with a passion for robotics and automation.
Key Responsibilities:
System Design & Development:
- Design, develop, and prototype mechatronic systems and subsystems for the drone docking station, including precision alignment mechanisms, drone capture/release systems, automated charging interfaces, and environmental protection enclosures.
- Create detailed CAD models, schematics, and engineering drawings for mechanical components and electromechanical assemblies.
- Select and integrate appropriate sensors (e.g., proximity, optical, position), actuators (e.g., motors, solenoids, linear actuators), and control components.
Control Systems & Automation:
- Develop and implement control algorithms for precise motion control, sensor fusion, and system automation within the docking station.
- Program microcontrollers, PLCs, or embedded systems to manage docking operations and system health.
- Integrate the docking system's control logic with the UAS and ground control software.
Prototyping, Testing & Validation:
- Build and test functional prototypes of mechatronic systems and the overall drone dock.
- Develop test plans and conduct rigorous testing to validate performance, reliability, and durability under various environmental conditions.
- Analyze test data, troubleshoot issues, and iterate on designs to meet performance specifications and reliability targets.
Integration & Collaboration:
- Collaborate closely with software engineers, electrical engineers, aerospace engineers, and systems engineers to ensure seamless integration of the mechatronic systems with the overall UAS ecosystem.
- Participate in design reviews, providing expert input on mechatronic aspects.
- Support the manufacturing and assembly processes for the drone dock system.
Documentation & Continuous Improvement:
- Create and maintain comprehensive technical documentation, including design specifications, test reports, and user manuals.
- Stay current with advancements in mechatronics, robotics, and autonomous systems to propose and implement innovative solutions.
- Contribute to the continuous improvement of design practices and development processes.
Qualifications & Experience:
- Bachelor’s degree in Mechatronics Engineering, Robotics, Mechanical Engineering, Electrical Engineering, or a related field. A Master’s degree is a plus.
- Minimum of 3-5 yeas of hands-on experience in mechatronics system design, development, and integration.
- Proven experience in designing and building electromechanical systems, including mechanisms, actuators, and sensor integration.
- Proficiency in 3D CAD software (e.g., SolidWorks, Autodesk Inventor, Fusion 360) and PDM/PLM systems.
- Experience with microcontroller programming (e.g., Arduino, Raspberry Pi, ARM-based MCUs) and/or PLC programming.
- Programming skills in languages such as C/C++, Python, or similar.
- Solid understanding of kinematics, dynamics, control theory, and material science.
- Experience with various sensor technologies (e.g., LiDAR, vision systems, IR, ultrasonic) and their application in robotic systems.
- Familiarity with communication protocols (e.g., CAN, I2C, SPI, Ethernet).
- Hands-on experience with lab equipment for testing and troubleshooting (e.g., oscilloscopes, multimeters, power supplies).
- Strong analytical and problem-solving skills with a meticulous attention to detail.
- Excellent communication and teamwork skills.
- Experience with UAS, drone technology, or automated/robotic docking/charging systems is highly desirable.
- Knowledge of environmental sealing and designing for outdoor/rugged conditions is a plus.