Hardware Engineer at Exodigo
Tel Aviv, Tel-Aviv District, Israel -
Full Time


Start Date

Immediate

Expiry Date

10 Oct, 26

Salary

0.0

Posted On

12 Jul, 26

Experience

5 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

No

Skills

PCB Design, Altium, Analog Signal Integrity, Impedance Matching, SMPS, Digital Communication Interfaces, Hardware Debugging, Schematic Design, Board Layout, Mixed-Signal Design, RF Systems, Data Acquisition

Industry

Professional Services

Description
Exodigo is the leading underground mapping solution for non-intrusive discovery. Our platforms combine multi-sensor fusion, 3D imaging, and AI technologies to create complete, accurate underground maps that enable confident decision-making for customers across the built world. We transform the project lifecycle for our customers, who include key community stakeholders in the utilities, transportation and government sectors. We are experiencing sky-rocketing growth and closed a historically large $96M Series B round in July of 2025. People are our most important asset. We believe in a culture of psychological safety, where our people feel listened, appreciated and empowered to take their initiatives into core impact to the company. We care about our people growth and proactively invest on it. Job description We are looking for a Hardware Engineer to investigate, design, and test the electronics at the heart of our platforms. Your work runs from an idea on the bench through design, board bring-up, and testing, all the way into production, across most of what we build: ultra-sensitive sensors, power circuits for transmitters, RF and noise-sensitive systems, high-speed digital and communication, and mixed-signal design with ADCs and DACs. It is a hands-on role that also rewards real theoretical depth. You will dig into new sensing and acquisition methods, prove out what works, and turn it into solid, testable hardware. We move fast here, and you will work closely with the systems, embedded, mechanical, and sensing teams to make it happen. Own the electronics you work on, from first concept and component selection to a working, tested design. Bring up, test, debug, and investigate hardware: build the instrumentation, characterize behavior and failure modes, find the root cause, and reach clear conclusions. Handle the board design that comes with it: schematic and layout, high-speed digital and analog, power electronics (SMPS), signal integrity, and impedance-matched design. Research new sensors and data-acquisition methods, and turn the promising ones into working designs. Take your designs through the review process, from kickoff to preliminary and critical design reviews. Deliver production-ready design packages and see them through to manufacturing. Work with the systems, embedded, mechanical, and sensing teams to design interfaces that just work. Requirements Bachelor's degree in Electrical Engineering. 4-6 years of electronics or hardware engineering experience, including the full board development cycle from schematic and layout through bring-up to production. Strong on the bench: bring-up, measurement, and debug with scope, logic analyzer, and the usual lab tools. Proficient in PCB design with Altium. Experience designing digital communication interfaces (for example SPI, I2C, UART, USB, or Ethernet). Strong grasp of analog signal integrity and impedance-matched board design. Analytical, theory-driven approach to problem-solving. A team player who takes initiative and is comfortable moving fast. Hebrew and English. Nice to Have Knowledge of SMPS and power electronics design. Familiarity with embedded systems (NXP1060, FPGA, RP2350, ESP32). Background in sensing, RF/EM, or other signal-intensive or noise-sensitive systems. Experience taking hardware from prototype to volume manufacturing. Learn more null
Responsibilities
Investigate, design, and test electronics for underground mapping platforms, covering the full cycle from concept to production. Collaborate with cross-functional teams to develop ultra-sensitive sensors, power circuits, and high-speed digital systems.
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