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Control Engineer Jobs in Allen, TX (NOW HIRING)

Control System Engineer

Dallas, TX · On-site

$90K - $100K/yr

Control System Engineer Point of contact: Angela Gray Address: 10925 Miller Rd., Dallas, TX, 75238 Salary:Salary Range: 90-100K Onsite required. Small manufacturing facility. Position Title: Control ...

Control System Engineer

Dallas, TX · On-site

$90K - $100K/yr

Control System Engineer Point of contact: Angela Gray Address: 10925 Miller Rd., Dallas, TX, 75238 Salary:Salary Range: 90-100K Onsite required. Small manufacturing facility. Position Title: Control ...

About the Role The Field Control Systems Engineer is responsible for the implementation and troubleshooting of control systems and DCS/PLC/SCADA programming. This includes a working knowledge of ...

About the Role The Field Control Systems Engineer is responsible for the implementation and troubleshooting of control systems and DCS/PLC/SCADA programming. This includes a working knowledge of ...

About the Role The Field Control Systems Engineer is responsible for the implementation and troubleshooting of control systems and DCS/PLC/SCADA programming. This includes a working knowledge of ...

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Control Engineer information

See Allen, TX salary details

$51.2K

$89.8K

$121.9K

How much do control engineer jobs pay per year?

As of Jul 16, 2026, the average yearly pay for control engineer in Allen, TX is $89,831.00, according to ZipRecruiter salary data. Most workers in this role earn between $77,700.00 and $100,500.00 per year, depending on experience, location, and employer.

What does a control engineer do?

A control engineer designs, develops, and maintains control systems that manage machinery and processes, often using programming languages like PLC or SCADA. They analyze system performance, troubleshoot issues, and ensure safety and efficiency in industrial environments, requiring strong technical skills and knowledge of automation tools.

What engineer makes $500,000 a year?

Control engineers typically do not earn $500,000 annually; such high salaries are more common in executive or specialized roles within engineering fields, often requiring extensive experience, advanced skills, and leadership responsibilities. Top-tier engineering managers or senior engineers in high-demand industries may approach these figures, especially with bonuses and stock options.

What are the common challenges a Control Engineer faces when integrating new automation systems with existing infrastructure?

Control Engineers often encounter challenges when integrating new automation systems with legacy equipment or outdated infrastructure. These challenges include compatibility issues, communication protocol mismatches, and limited documentation for older systems. To overcome these obstacles, engineers must collaborate closely with cross-functional teams—such as IT, process engineers, and equipment vendors—to ensure seamless integration and minimal disruption to operations. Proactive troubleshooting, robust testing, and clear documentation are also crucial for successful implementation.

What engineers make $200,000 a year?

Control engineers, especially those with extensive experience, advanced skills in automation, and certifications like Professional Engineer (PE), can earn $200,000 or more annually. Senior engineers working in industries such as aerospace, oil and gas, or high-tech manufacturing often reach this salary level, particularly when working in managerial or specialized roles with significant responsibilities.

What are Control Engineers?

Control Engineers are professionals who design, develop, and maintain systems that manage and regulate the behavior of other devices or systems. They use principles from engineering, mathematics, and computer science to create automated processes in industries such as manufacturing, automotive, aerospace, and energy. Their work often involves designing control systems for machinery, ensuring safety, efficiency, and reliability of operations. Control Engineers may also program and troubleshoot controllers like PLCs (Programmable Logic Controllers) and work closely with other engineering disciplines to optimize system performance.

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

To thrive as a Control Engineer, you need a strong background in electrical or mechanical engineering, control theory, and process automation, typically backed by a relevant engineering degree. Familiarity with programmable logic controllers (PLCs), SCADA systems, and industry-standard software such as MATLAB or Simulink is essential, with certifications like Certified Automation Professional (CAP) being advantageous. Analytical thinking, problem-solving, and effective communication are vital soft skills for designing solutions and collaborating with multidisciplinary teams. These competencies ensure the safe, efficient, and reliable operation of automated systems in industrial environments.

What is the difference between Control Engineer vs Automation Engineer?

AspectControl EngineerAutomation Engineer
Required CredentialsBachelor's in Electrical, Mechanical, or Control Engineering; certifications like Certified Control Systems Technician (CCST)Bachelor's in Electrical, Mechanical, or Automation Engineering; similar certifications often applicable
Work EnvironmentIndustrial plants, manufacturing facilities, process industriesManufacturing, robotics, process automation, software development
Employer & Industry UsageFactories, power plants, automation service providersManufacturers, tech companies, system integrators

Control Engineers focus on designing, developing, and maintaining control systems for machinery and processes, while Automation Engineers often work on integrating automation solutions, including software and robotics, to improve efficiency. Both roles require similar credentials and often overlap in industrial settings, but Control Engineers tend to concentrate more on control hardware and systems, whereas Automation Engineers emphasize automation software and systems integration.

How much do control engineers get paid?

Control engineers typically earn a median annual salary between $70,000 and $100,000, depending on experience, location, and industry. Entry-level positions may start lower, while experienced engineers with specialized skills or certifications can earn over $120,000 annually.
What are the most commonly searched types of Control Engineer jobs in Allen, TX? The most popular types of Control Engineer jobs in Allen, TX are:
What are popular job titles related to Control Engineer jobs in Allen, TX? For Control Engineer jobs in Allen, TX, the most frequently searched job titles are:
What cities near Allen, TX are hiring for Control Engineer jobs? Cities near Allen, TX with the most Control Engineer job openings:
Infographic showing various Control Engineer job openings in Allen, TX as of July 2026, with employment types broken down into 1% As Needed, 72% Full Time, 23% Part Time, 1% Temporary, and 3% Contract. Highlights an 96% Physical, 1% Hybrid, and 3% Remote job distribution, with an average salary of $89,831 per year, or $43.2 per hour.

Control System Engineer

Scout Talent Group

Dallas, TX • On-site

$90K - $100K/yr

Full-time

Re-posted 28 days ago


Job description

Company: Unitron Power Systems

Role: Control System Engineer

Point of contact: Angela Gray

Address: 10925 Miller Rd., Dallas, TX, 75238

Salary:Salary Range: 90-100K Onsite required. Small manufacturing facility.


Position Title: Control Systems Engineer

Department: Engineering

Reports To: Engineering Manager

Position Summary:

The Control Systems Engineer, as part of a cross-functional team, will be responsible for designing, debugging, characterizing, and releasing control systems for power conversion equipment, including rectifiers, converters, and inverters. The role will focus on developing control algorithms, optimizing software in C programming, and conducting extensive laboratory work to analyze and improve power electronic hardware performance. The power conversion equipment ranges from 3.5 kVA to 250 kVA in power.

Principal Duties and Responsibilities:

Design, develop, and implement control algorithms and software for power electronics, including rectifiers, converters, and inverters.

Perform testing, verification, and troubleshooting of control algorithms and software on power conversion hardware.

Develop specifications and requirements for control software in relation to the electrical characteristics of power conversion equipment.

Document the algorithm and software development process within relevant software tools.

Create and maintain written reports documenting laboratory testing processes and results.

Develop and improve validation plans for evaluating control software performance within power conversion equipment.

Integrate control software with other software functions within the power conversion equipment.

Stay informed on the latest developments in control systems theories, techniques, and technologies.

Education and Experience Requirements:

BS Degree in Electrical Engineering from an ABET-accredited institution (MS preferred).

3-5 years of related experience in power electronics engineering and applying control systems theory.

Strong knowledge of control system theory and its applications, including system modeling and simulation.

Proven hands-on troubleshooting skills at both the control loop and power conversion system levels.

Solid understanding of advanced power electronics topologies.

Experience with pulse width modulation (PWM) techniques, including sinusoidal PWM and space vector PWM.

Experience with power conditioning techniques, including nonlinear, unbalanced, and harmonic compensation.

Proficient in power electronics modeling and simulation tools such as LTspice, MATLAB, Simulink, and PSIM.

Familiarity with DSPs (Digital Signal Processors), especially TI DSPs.

Experience developing control systems for MCUs and DSPs in C programming.

Knowledge of communication protocols such as SPI, CAN, I2C, and Modbus TCP/IP.

Experience using software management systems and version control tools (e.g., GitHub or GitLab).

Familiarity with test equipment such as oscilloscopes, digital multimeters, power analyzers, and spectrum analyzers.

Familiarity with low-voltage distribution systems: single-phase, split-phase, and three-phase systems up to 600VAC and frequencies ranging from 50 to 800 Hz.

Basic understanding of PCB design tools such as Altium, PADS, EAGLE, or KiCAD.

Excellent oral and written communication skills with the ability to collaborate effectively across disciplines.

Ability to take personal responsibility for complex design and development tasks, seeing projects through to completion.

Required:

Documented US citizenship or legal permanent resident status.

Physical Requirements:

Must be able to perform tasks such as climbing stairs, sitting, standing, keyboarding, seeing, hearing, and fluently reading and speaking English.