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Oscilloscope Jobs (NOW HIRING)

Repair Technician I

Latham, NY · On-site

$37K - $67K/yr

Component level troubleshooting of PC boards and sub-assemblies using oscilloscope, multi- meter, etc. * Maintains log of incoming and outgoing terminals and repairs using data entry work station.

Senior AUTOSAR Software Developer

Fridley, MN · On-site

$56.25 - $74.25/hr

TRACE32 debugger, CANape, CANdb++, Oscilloscope, DMM Roles & Responsibilities § Design, develop, and integrate AUTOSAR-based embedded software components. § Configure and integrate BSW modules and ...

Avionics Technician

Colorado Springs, CO · On-site

$28.25 - $37/hr

... oscilloscope, and pitot static equipment. - Preference given to candidates with aerospace, defense, DOD, or US military background. - Ability to obtain and maintain a Security Clearance may be ...

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Oscilloscope information

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$12

$24

$39

How much do oscilloscope jobs pay per hour?

As of Jun 29, 2026, the average hourly pay for oscilloscope in the United States is $24.16, according to ZipRecruiter salary data. Most workers in this role earn between $18.27 and $28.61 per hour, depending on experience, location, and employer.

What is the difference between Oscilloscope vs Multimeter?

FeatureOscilloscopeMultimeter
Primary UseVisualize electrical signals over timeMeasure voltage, current, resistance
Work EnvironmentElectronics labs, troubleshootingFieldwork, repair shops
Required CertificationsNone specific, technical knowledge neededNone specific, basic electrical knowledge

Oscilloscopes are used to analyze signal waveforms, while multimeters provide quick measurements of electrical parameters. Both tools are essential in electronics troubleshooting but serve different purposes based on the level of detail needed.

What are the key skills and qualifications needed to thrive as an Oscilloscope Technician, and why are they important?

To thrive as an Oscilloscope Technician, you need expertise in electronics, circuit analysis, and troubleshooting, typically supported by a degree or certification in electronics or electrical engineering. Familiarity with oscilloscopes, signal generators, multimeters, and calibration software is essential for accurate diagnostics and maintenance. Attention to detail, analytical thinking, and effective communication are vital soft skills for interpreting data and collaborating with engineers. These skills ensure precise testing, efficient problem-solving, and reliable support for electronic systems in technical environments.

What is an oscilloscope and what is it used for?

An oscilloscope is an electronic test instrument that allows you to visualize and analyze the waveform of electronic signals. It displays voltage changes over time on a screen, making it easier to observe signal characteristics like amplitude, frequency, and noise. Engineers and technicians commonly use oscilloscopes to troubleshoot circuits, design electronics, and test signal integrity in a wide range of applications, from audio equipment to automotive diagnostics. Oscilloscopes provide both qualitative and quantitative information about electronic signals, making them essential tools in labs and workshops.

What are the typical challenges faced by technicians when operating an oscilloscope in a laboratory environment?

Technicians working with oscilloscopes often face challenges such as correctly configuring the instrument for different signal types, managing signal noise and interference, and interpreting complex waveforms accurately. Additionally, keeping up with the rapid evolution of oscilloscope technology and software features can be demanding. Collaboration with engineers and other team members is essential, as troubleshooting and validating circuit designs usually require joint problem-solving and clear communication.

What is an Oscilloscope job?

An oscilloscope job typically refers to roles involving the use of oscilloscopes to test, measure, and analyze electronic signals. Professionals in these roles, such as electronics technicians or engineers, use oscilloscopes to diagnose circuit issues, validate designs, and troubleshoot electrical systems. They work in industries like telecommunications, automotive, aerospace, and manufacturing. Knowledge of signal waveforms, electronics principles, and test equipment operation is essential.

More about Oscilloscope jobs
What cities are hiring for Oscilloscope jobs? Cities with the most Oscilloscope job openings:
What are the most commonly searched types of Oscilloscope jobs? The most popular types of Oscilloscope jobs are:
What states have the most Oscilloscope jobs? States with the most job openings for Oscilloscope jobs include:
Infographic showing various Oscilloscope job openings in the United States as of June 2026, with employment types broken down into 92% Full Time, 1% Part Time, 3% Contract, and 4% Nights. Highlights an 97% Physical, 1% Hybrid, and 2% Remote job distribution, with an average salary of $50,258 per year, or $24.2 per hour.
C++ Hardware Bring up Engineer

C++ Hardware Bring up Engineer

Tachyon Technologies LLC

Auburn Hills, MI • On-site

Full-time

Posted 10 days ago


Key responsibilities

  • Design, develop, and maintain Board Support Packages (BSP) and Low-Level Drivers (LLD) for automotive SoC platforms.

  • Lead hardware bring-up activities and perform hardware-level debugging and validation using tools such as oscilloscopes, multimeters, and power supplies.

  • Develop and optimize embedded software components using C and C++ for high performance and reliability.


Job description

Overview:
Job Description:
We are seeking a highly skilled C++ Hardware Bring-Up Engineer with strong expertise in embedded systems, automotive SoC integration, BSP/LLD development, and hardware debugging. The ideal candidate will play a critical role in developing and optimizing low-level embedded software for automotive platforms, leading hardware bring-up activities, and supporting software-hardware integration for next-generation automotive systems.
The candidate should have hands-on experience with embedded operating systems, automotive SoC architectures, hardware validation tools, and low-level debugging methodologies.
Key responsibilities:
  • Design, develop, and maintain Board Support Packages (BSP) and Low-Level Drivers (LLD) for automotive SoC platforms.
  • Develop and optimize embedded software components using C and C++ for high performance and reliability.
  • Manage software build and integration processes using Make, CMake, and Git.
  • Drive SoC integration activities ensuring seamless interaction between hardware and embedded software components.
  • Optimize memory, CPU, and power utilization for automotive embedded applications.
  • Lead hardware bring-up activities for new ECU/SoC platforms.
  • Perform hardware-level debugging and validation using:
    • Oscilloscopes
    • Multimeters
    • Power Supplies
  • Troubleshoot software-hardware interaction issues using:
    • JTAG
    • GDB
    • Embedded debugging tools
  • Develop and maintain device drivers for peripheral interfaces such as UART, SPI, and I2C.
  • Collaborate with cross-functional engineering teams to resolve integration and performance issues.
  • Participate in code reviews, technical documentation, and system architecture discussions.

Professional Skills:
  • 7+ years of experience in automotive embedded software development.
  • Strong expertise in:
    • C
    • C++
    • Embedded Systems
    • Hardware Bring-Up
    • BSW (Basic Software)
  • Hands-on experience with:
    • BSP development
    • Low-Level Driver (LLD) development
    • SoC integration
  • Strong understanding of:
    • SoC architectures
    • Device drivers
    • Peripheral interfaces (UART, SPI, I2C)
  • Experience with embedded operating systems:
    • Linux
    • FreeRTOS
    • RTOS
  • Familiarity with:
    • Git
    • Make
    • CMake
    • JTAG
    • GDB
    • Experience using lab instruments:
    • Oscilloscope
    • Multimeter
    • Power Supply
  • Strong debugging and troubleshooting skills.
  • Excellent communication and teamwork abilities.
    • Interfaces & data conversions

Skills:
C / C++ Programming Embedded Systems Development Hardware Bring-Up Board Support Package (BSP) Development Low-Level Driver (LLD) Development Automotive BSW (Basic Software) SoC Integration Embedded Operating Systems (Linux, FreeRTOS, RTOS) Device Driver Development UART / SPI / I2C Interfaces JTAG & GDB Debugging Hardware Debugging & Validation Oscilloscope / Multimeter / Power Supply Usage Make / CMake Build Systems Git Version Control Automotive ECU Development Embedded Software Architecture SoC Architecture Knowledge Automotive Embedded Systems Troubleshooting & Root Cause Analysis