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Python Pyvisa information

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How much do python pyvisa jobs pay per hour?

As of Jul 10, 2026, the average hourly pay for python pyvisa in the United States is $58.62, according to ZipRecruiter salary data. Most workers in this role earn between $48.32 and $66.59 per hour, depending on experience, location, and employer.

What is the difference between Python Pyvisa vs Test Automation Engineer?

AspectPython PyvisaTest Automation Engineer
Required SkillsPython programming, instrument control, hardware interfacingProgramming, testing frameworks, automation tools
Work EnvironmentLaboratories, R&D, hardware testingSoftware development, testing labs, QA teams
Industry UsageElectronics, instrumentation, researchSoftware, manufacturing, quality assurance

Python Pyvisa focuses on controlling laboratory instruments via Python, often used in research and hardware testing. Test Automation Engineers develop and implement automated testing processes across software and hardware systems. While both roles involve automation and programming, Python Pyvisa is specialized in instrument control, whereas Test Automation Engineers work broadly in testing frameworks and quality assurance across industries.

What is a Python PyVISA developer?

A Python PyVISA developer is a software professional who specializes in using the PyVISA library to control and automate measurement instruments, such as oscilloscopes, multimeters, and signal generators, through Python programming. PyVISA is an open-source Python package that provides a convenient interface to communicate with instruments via GPIB, USB, Serial, Ethernet, and other interfaces following the VISA standard. Developers in this role typically write scripts or applications to acquire, process, and analyze data from laboratory instruments, often for research, testing, or manufacturing environments.

What are some common challenges faced by engineers working with Python PyVISA for instrument automation?

Engineers using Python PyVISA for instrument automation often encounter challenges such as managing communication timeouts, handling diverse instrument command sets, and troubleshooting connectivity issues with different interfaces (GPIB, USB, Ethernet). Ensuring reliable data transfer and synchronizing commands between multiple instruments can require careful coding and thorough testing. Collaborating closely with hardware teams and understanding the specific requirements of each device are key to successful automation projects.

What are the key skills and qualifications needed to thrive as a Python PyVISA Engineer, and why are they important?

To thrive as a Python PyVISA Engineer, you need strong programming skills in Python, a solid understanding of instrument control protocols (such as GPIB, USB, and serial), and relevant engineering or technical education. Familiarity with the PyVISA library, experience using laboratory instrumentation, and knowledge of test automation frameworks are typically required. Attention to detail, problem-solving ability, and effective communication help you troubleshoot issues and collaborate with multidisciplinary teams. These skills ensure reliable automation, efficient instrument integration, and accurate data collection in research and development environments.
More about Python Pyvisa jobs
What cities are hiring for Python Pyvisa jobs? Cities with the most Python Pyvisa job openings:
What states have the most Python Pyvisa jobs? States with the most job openings for Python Pyvisa jobs include:
Infographic showing various Python Pyvisa job openings in the United States as of July 2026, with employment types broken down into 1% Internship, 91% Full Time, 4% Part Time, and 4% Contract. Highlights an 81% Physical, 5% Hybrid, and 14% Remote job distribution, with an average salary of $121,932 per year, or $58.6 per hour.

Optical Characterization Engineer

Ravee Optics Inc

Dayton, OH โ€ข On-site

$110K - $150K/yr

Full-time

Posted 14 days ago


Job description

Position Summary:

We are seeking a highly skilled Optical Characterization Engineer to lead the experimental validation and performance testing of advanced metasurface and meta-optic components. This role is hands-on and lab-focused, involving the design, automation, and execution of optical experiments to quantify device performance across a range of wavelengths and operating conditions.

The ideal candidate will combine strong optical physics knowledge, experimental expertise, and hardwaresoftware integration skills (LabVIEW/Python) to build scalable, automated characterization platforms and extract meaningful insights from complex datasets.

Optical Testing & Characterization

  • Design and execute experiments to characterize metasurfaces and meta-optics, including:
  • Optics testing
  • Transmission / reflection efficiency
  • Phase and amplitude response
  • Beam steering / wavefront shaping
  • Polarization response
  • Spectral performance (UVVISIR as applicable)
  • Set up and operate optical test benches (lasers, detectors, spectrometers, interferometers, cameras, etc.)
  • Perform alignment, calibration, and validation of optical measurement systems

Test Automation & HW/SW Integration

  • Develop and maintain automated test systems using:
  • LabVIEW, Python, or similar tools
  • Interface with lab hardware (e.g., motion stages, power meters, cameras, spectrometers, DAQ systems)
  • Implement synchronized data acquisition and control loops for high-throughput testing
  • Build modular, scalable test frameworks for repeated measurements and production-like environments

Data Analysis & Post-Processing

  • Analyze experimental data to extract optical performance metrics and compare with simulations/design models
  • Develop data processing pipelines using Python (NumPy, SciPy, Pandas, etc.) or MATLAB
  • Perform:
  • Fourier optics analysis
  • Phase retrieval / wavefront reconstruction
  • Statistical analysis across wafers/devices
  • Generate clear technical reports, plots, and presentations for internal and external stakeholders

Collaboration & Development

  • Work closely with design, fabrication, and system teams to correlate measured performance with design intent
  • Provide feedback to improve metasurface designs and fabrication processes
  • Support system-level integration and validation (e.g., imaging systems, lasercom, sensing platforms)

Required Qualifications:

  • M.S. or Ph.D. in Optics, Photonics, Physics, Electrical Engineering, or related field
  • 2+ years (M.S.) or 02 years (Ph.D.) of hands-on optical lab experience
  • Strong understanding of:
  • Fourier optics and wave optics
  • Optical instrumentation and measurement techniques
  • Polarization, coherence, and diffraction phenomena
  • Experience with test automation and instrumentation control:
  • LabVIEW and/or Python (PyVISA, instrument drivers, etc.)
  • Experience with optical lab equipment such as:
  • Lasers (CW/pulsed), detectors, cameras
  • Spectrometers, interferometers
  • Motorized stages, beam profiling tools

Preferred Qualifications:

  • Direct experience with metasurfaces / meta-optics / diffractive optics
  • Experience with IR systems (LWIR/MWIR) or free-space optical systems (lasercom)
  • Familiarity with optical simulation tools (e.g., Lumerical, Zemax, COMSOL)
  • Experience with cleanroom-fabricated devices and wafer-level testing
  • Knowledge of optical system integration (imaging, sensing, or communication systems)
  • Experience with version control (Git) and structured code development

What We Offer:

  • Opportunity to work at the forefront of the rapidly growing space economy
  • Collaborative startup environment with high impact
  • Competitive salary and benefits
  • Opportunity to grow with the company as we scale

Join Us

If you're excited about building the future of connectivity in space, we'd love to talk.

About Ravee Optics:

The next space race is not about rockets. It's about data in orbit. Thousands of satellites, on-orbit compute nodes, and autonomous space systems will soon require high-speed, secure, and scalable connectivity in space. RF links cannot keep up with the data demands of this new orbital infrastructure. Ravee Optics is building next-generation optical communications terminals to power the future of inter-satellite connectivity and on-orbit data transport.