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Entry Level Robotics Engineer Jobs in Boston, MA

Symbotic

Campus Recruiting Specialist

Wilmington, MA · On-site

$82K - $113K/yr

I.-powered robotic technology platform, Symbotic is changing the way consumer goods move through ... Support full-cycle campus recruiting efforts for internship, co-op, and entry-level technical roles.

Symbotic

Campus Recruiting Specialist

Wilmington, MA · Hybrid

$82K - $113K/yr

I.-powered robotic technology platform, Symbotic is changing the way consumer goods move through ... Support full-cycle campus recruiting efforts for internship, co-op, and entry-level technical roles.

Pwc

AI & GenAI Data Scientist - Manager

Boston, MA · On-site

$99K - $232K/yr

... Robotics - At least one of the following: Certifications aligned to data engineering, machine ... PwC does not intend to hire experienced or entry level job seekers who will need, now or in the ...

Rxadvance Corporation

Product Analyst

Southborough, MA · On-site

$55K - $90K/yr

... combining robotic process automation, machine learning, and agentic AI to execute the 3,500 ... This is an entry-level role with real ownership. You won't be watching from the sidelines -- you'll ...

All JobsEntry Level Robotics Engineer JobsEntry Level Robotics Engineer Jobs in Boston, MA

Entry Level Robotics Engineer information

See Boston, MA salary details

$31.5K

$114.7K

$183.6K

How much do entry level robotics engineer jobs pay per year?

As of Jun 17, 2026, the average yearly pay for entry level robotics engineer in Boston, MA is $114,715.00, according to ZipRecruiter salary data. Most workers in this role earn between $90,700.00 and $138,000.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an Entry Level Robotics Engineer, and why are they important?

To thrive as an Entry Level Robotics Engineer, you need a solid understanding of robotics fundamentals, programming (such as Python or C++), and a degree in robotics, mechanical, electrical, or computer engineering. Familiarity with CAD software, microcontrollers (like Arduino or Raspberry Pi), and robotics simulation tools (such as ROS or Gazebo) is typically required. Strong problem-solving, teamwork, and effective communication skills help you stand out in collaborative, project-driven environments. These skills and qualities are vital to efficiently design, implement, and troubleshoot robotic systems while contributing to innovative solutions.

What types of projects and technologies do entry level robotics engineers typically work on?

Entry level robotics engineers are often assigned to support the design, assembly, and testing of robotic systems, such as robotic arms, mobile robots, or automated manufacturing lines. They may work with technologies like sensors, actuators, microcontrollers, and programming languages such as Python or C++. Collaboration is common, as they frequently partner with mechanical, electrical, and software engineers to integrate components and troubleshoot issues. This hands-on experience helps new engineers build practical skills and gain exposure to industry-standard tools and processes.

What is the difference between Entry Level Robotics Engineer vs Robotics Technician?

AspectEntry Level Robotics EngineerRobotics Technician
Required CredentialsBachelor's degree in robotics, mechanical, electrical engineering or related fieldAssociate's degree or technical certification in robotics or automation
Work EnvironmentDesign, develop, and test robotic systems; often in labs or engineering settingsMaintain, troubleshoot, and repair robotic systems; typically in manufacturing or industrial settings
Employer & Industry UsageEngineering firms, tech companies, research labsManufacturing plants, automation companies, industrial facilities

Entry Level Robotics Engineers focus on designing and developing robotic systems, requiring a bachelor's degree, while Robotics Technicians primarily handle maintenance and repairs, often with technical certifications. Both roles are essential in automation industries but differ in responsibilities and educational requirements.

What Does an Entry-Level Robotics Engineer Do?

An entry-level robotics engineer works with flexible automation, helping design, build, and test robot systems. The responsibilities of an entry-level robotics engineer are to integrate peripherals, such as controllers, welders, and other equipment; create event timing charts or system device lists; design end-of-arm tooling; investigate unexpected maintenance problems, such as mechanical or electrical failures; and evaluate and analyze robotic prototypes or systems. Other duties include researching robotic technology to use for the creation of new systems and system configuration.

What does an entry level robotics engineer do?

An entry level robotics engineer is responsible for assisting in the design, development, testing, and implementation of robotic systems and components. They typically work under the guidance of senior engineers, helping to build prototypes, troubleshoot hardware and software issues, and perform routine maintenance. Their tasks can also include programming robots, documenting processes, and collaborating with multidisciplinary teams to improve robotic applications. This role offers hands-on experience and opportunities to learn about cutting-edge robotics technology.
More about Entry Level Robotics Engineer jobs
What are the most commonly searched types of Robotics Engineer jobs in Boston, MA? The most popular types of Robotics Engineer jobs in Boston, MA are:
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Entry Level Robotics Engineer jobs near you
Infographic showing various Entry Level Robotics Engineer job openings in Boston, MA as of June 2026, with employment types broken down into 100% Full Time. Highlights an 75% In-person, and 25% Hybrid job distribution, with an average salary of $114,715 per year, or $55.2 per hour.

Electrical Engineer, Robotics Hardware

FieldAI

Boston, MA

Full-time

Posted 11 days ago

Job description

Field AI is transforming how robots interact with the real world. We are building risk-aware, reliable, and field-ready AI systems that address the most complex challenges in robotics, unlocking the full potential of embodied intelligence. We go beyond typical data-driven approaches or pure transformer-based architectures, and are charting a new course, with already-globally-deployed solutions delivering real-world results and rapidly improving models through real-field applications.

Hardware Team:
The Hardware Team at Field AI develops perception and compute payloads that power autonomous robotics systems in complex real world environments. Our work spans the full hardware stack designing and integrating sensing systems (LiDAR, camera, TOF, IMU, GPS), embedded compute (CPUs, GPUs, microcontrollers, Linux, ROS), electrical systems (power distribution, communication), and mechanical components (structures, thermal regulation, ingress protection). The team focuses on both development (research, design, prototyping, testing) and operations (production, testing, QA, debugging). We’re a small, fast-moving team, and we care deeply about improving: 1) core capabilities, 2) system reliability, 3) system scalability. As a growing team we are also building operational systems and procedures from the ground up.
 
Electrical Systems Role:
As an Electrical Engineer on the Hardware Team at Field AI, you will contribute to the design and implementation of electrical systems that enable power and communications across the sense and compute packages. Your work will span across power systems, wire harnesses, PCB design, and communications networks with the goal of ensuring our systems are electrically robust, safe, and scalable. Responsibilities may span the full lifecycle from electrical CAD through production to field support. You will collaborate closely with the mechanical, sensor, and compute teams to build tightly integrated solutions ready for deployment in challenging field environments. Additionally, while your focus will be on electrical systems you will likely contribute across all hardware domains.
 
What You Will Get To Do
 
1. Electrical System Design
  • Power Architecture: Design regulated power systems including voltage rails, DC/DC converters, switches, fuses, and grounding schemes.
  • Wire Harness Design: Design and document robust wire harnesses for power and data lines, including shielding, strain relief, and standard connectors.
  • PCB Design: Create PCBs for power distribution, protocol bridging, and embedded control.
  • Networking & Communication: Architect wired and wireless communication systems (Ethernet, USB, CAN, I2C, WiFi, 5G).
  • Budgets & Tolerances: Maintain system-level power and bandwidth budgets. Ensure electrical tolerance to noise, EMI, and vibration.
 
2. Electrical System Implementation
  • CAD & Schematics: Create PCB schematics, harness diagrams, pinouts, and complete PCB BOMs using tools like KiCAD or Altium.
  • Calculations: Conduct electrical calculations including current draw, peak power, signal integrity, and fault analysis.
  • Design for Field Conditions: Engineer for EMI/EMC robustness, thermal resilience, and fault isolation under field operating conditions.
  • Testing: Conduct power validation (noise, load, transients), communication tests (bandwidth, latency), and EMI evaluation.
  • Integration: Collaborate with sensor, compute, and mechanical teams to ensure end-to-end system compatibility and robustness.
  • Documentation & Budgets: Maintain PCB schematics and systems level wiring diagrams. Manage system-level power and data bandwidth budgets.
 
3. Electrical System Production & Servicing
  • Build: Work with vendors and contract manufacturers to procure PCBs and harnesses. Develop QA checks for incoming units.
  • Debug: Investigate system faults using logs, oscilloscopes, analyzers, and power monitors.
  • Support: Provide hands-on support during integration, deployment, and servicing in the field.
 
What You Have
 
  • Education: B.S., M.S., or Ph.D. in Electrical Engineering, Computer Engineering, Robotics, or a related field.
  • Experience Level: We are recruiting across a wide range of experience levels from entry level engineers to senior and staff engineers.
  • Power Systems: Experience designing and testing low-voltage regulated power systems.
  • Harnessing: Hands-on design and integration of custom wire harnesses for robotics or automotive-style systems.
  • PCB Design: Proficiency in PCB schematic and layout using KiCAD, Altium, or equivalent tools.
  • Communication Protocols: Familiarity with USB, Ethernet, CAN, I2C, GMSL, and wireless technologies.
  • Testing & Debugging: Skills using electrical test tools including oscilloscopes, power analyzers, and EMI/EMC setups.
  • Documentation: Ability to produce detailed electrical documentation for design, manufacturing, and servicing.
  • Systems Thinking: Experience working across mechanical, compute, and autonomy teams to deliver robust integrated systems.
  • Cross Functional Robotic Skills: Ability to contribute electrical, sensing, and embedded computing work to deliver robust integrated systems.
 
What Will Set You Apart
 
  • Scaling: Experience taking systems from prototype to large scale production.
  • Field Environments: Experience developing systems for harsh field environments.
  • Deployed Robotics: Experience working on robotics deployed in real world settings such as autonomous vehicles, drones, or ruggedized robots.
  • Systems Level Robotics: Fluency across electrical, mechanical, and software systems.
  • Reliability Engineering: Background in fault protection, EMI/EMC compliance, and safety-critical design.
Compensation and Benefits
Our salary range is between ($70,000 - $300,000 annual), but we take into consideration an individual's background and experience in determining final salary; base pay offered may vary considerably depending on geographic location, job-related knowledge, skills, and experience.  Also, while we enjoy being together on-site, we are open to exploring a hybrid or remote option.

Why Join Field AI?
We are solving one of the world’s most complex challenges: deploying robots in unstructured, previously unknown environments. Our Field Foundational Models™ set a new standard in perception, planning, localization, and manipulation, ensuring our approach is explainable and safe for deployment.

You will have the opportunity to work with a world-class team that thrives on creativity, resilience, and bold thinking. With a decade-long track record of deploying solutions in the field, winning DARPA challenge segments, and bringing expertise from organizations like DeepMind, NASA JPL, Boston Dynamics, NVIDIA, Amazon, Tesla Autopilot, Cruise Self-Driving, Zoox, Toyota Research Institute, and SpaceX, we are set to achieve our ambitious goals.

Be Part of the Next Robotics Revolution
To tackle such ambitious challenges, we need a team as unique as our vision — innovators who go beyond conventional methods and are eager to tackle tough, uncharted questions. We’re seeking individuals who challenge the status quo, dive into uncharted territory, and bring interdisciplinary expertise. Our team requires not only top AI talent but also exceptional software developers, engineers, product designers, field deployment experts, and communicators.

We are headquartered in always-sunny Irvine, Southern California and have US based and global teammates. 

Join us, shape the future, and be part of a fun, close-knit team on an exciting journey!



We celebrate diversity and are committed to creating an inclusive environment for all employees. Candidates and employees are always evaluated based on merit, qualifications, and performance. We will never discriminate on the basis of race, color, gender, national origin, ethnicity, veteran status, disability status, age, sexual orientation, gender identity, marital status, mental or physical disability, or any other legally protected status.

We may use artificial intelligence (AI) tools to support parts of the hiring process, such as reviewing applications, analyzing resumes, or assessing responses. These tools assist our recruitment team but do not replace human judgment. Final hiring decisions are ultimately made by humans. If you would like more information about how your data is processed, please contact us.