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Remote Neural Monitoring Jobs in Texas (NOW HIRING)

Decision Science Analyst Senior

Plano, TX · On-site +1

$84K - $111K/yr

USAA roles may offer remote or hybrid flexibility for active-duty military spouses consistent with ... Cloud, Data Mining, Python, Neural Networks, Sensor data, IoT, Streaming/NRT data). * Identifies ...

Decision Science Analyst Senior

San Antonio, TX · On-site +1

$79K - $105K/yr

USAA roles may offer remote or hybrid flexibility for active-duty military spouses consistent with ... Cloud, Data Mining, Python, Neural Networks, Sensor data, IoT, Streaming/NRT data). * Identifies ...

Remote Neural Monitoring information

What jobs in the US pay $300,000 a year?

Remote Neural Monitoring is a specialized field that typically involves advanced skills in neuroscience, cybersecurity, and data analysis. High-paying roles in related fields, such as senior AI researchers, data scientists, or cybersecurity executives, can reach or exceed $300,000 annually, especially with extensive experience, certifications, and leadership responsibilities. These positions often require advanced degrees and a strong track record in technology or research environments.

What is remote neuromonitoring?

Remote neuromonitoring involves monitoring brain activity and neural functions from a distance, often using specialized equipment and software. In a job context, roles may require knowledge of neuroscience, signal processing, and remote communication tools to assess neurological health or performance remotely.

What are the key skills and qualifications needed to thrive in the Remote Neural Monitoring position, and why are they important?

To thrive as a Remote Neural Monitoring Specialist, you need an advanced understanding of neuroscience, electrophysiology, and experience with neural data acquisition, typically supported by a relevant degree in biomedical engineering, neuroscience, or a related field. Familiarity with brain-computer interface (BCI) systems, neural data analysis software, and compliance with institutional review board (IRB) protocols or other regulatory standards is essential. Strong problem-solving skills, attention to detail, and the ability to communicate complex technical information clearly set top candidates apart. These skills ensure accurate data interpretation, adherence to ethical standards, and effective collaboration within interdisciplinary research or clinical teams.

What are the primary responsibilities and challenges faced by a Remote Neural Monitoring Specialist?

As a Remote Neural Monitoring Specialist, your primary responsibilities include continuously tracking neural activity data from patients or research subjects, ensuring the integrity and quality of data, and providing real-time feedback to clinical or research teams. One of the main challenges in the role is accurately identifying significant neural events or anomalies while minimizing false positives, which requires both technical expertise and focused attention. You may also need to troubleshoot technical issues with monitoring equipment or software remotely and maintain strict compliance with privacy and ethical guidelines. Collaboration with physicians, neuroscientists, or IT professionals is common, ensuring comprehensive care or data analysis. This role offers opportunities to advance into project management, clinical lead positions, or specialize in emerging neurotechnology fields.

What is a Remote Neural Monitoring job?

Remote Neural Monitoring (RNM) is a concept often associated with surveillance theories rather than an established job role. It is sometimes described as technology that can remotely track neural activity, but there is no verified scientific basis for such a profession. If you're looking for careers in neuroscience, artificial intelligence, or brain-computer interfaces, consider roles in neurotechnology research, cognitive science, or biomedical engineering. Always verify job listings with reputable sources to avoid misinformation.

What jobs are good for ADHD brains?

Remote Neural Monitoring is a specialized field that often involves technical skills, attention to detail, and problem-solving. Jobs suited for ADHD brains typically include roles with flexible schedules, hands-on tasks, or creative elements, such as data analysis, technical support, or content creation. These roles can help maintain focus and engagement while accommodating different working styles.

Is remote neural monitoring legal?

Remote neural monitoring is a controversial and largely unregulated technology that claims to read or influence brain activity remotely. Currently, there are no specific laws explicitly permitting or prohibiting its use, and ethical and legal concerns remain significant. Employment in this field often requires understanding of privacy laws and ethical standards related to neurotechnology.
What job categories do people searching Remote Neural Monitoring jobs in Texas look for? The top searched job categories for Remote Neural Monitoring jobs in Texas are:
What cities in Texas are hiring for Remote Neural Monitoring jobs? Cities in Texas with the most Remote Neural Monitoring job openings:
Infographic showing various Remote Neural Monitoring job openings in Texas as of July 2026, with employment types broken down into 1% As Needed, 84% Full Time, 11% Part Time, 3% Contract, and 1% Nights. Highlights an 92% Physical, 3% Hybrid, and 5% Remote job distribution.
Analog Design Engineeer - Neuromodulation

Analog Design Engineeer - Neuromodulation

IC Enable

Richardson, TX • On-site, Remote

$182K/yr

Full-time

Medical, Dental, Vision, Retirement

Posted 4 days ago


Job description

Own and lead the development of analog integrated circuits for neuromodulation medical devices—from first principles through silicon and into real-world use. You’ll work on ultra-low-power designs that interface directly with the human nervous system, contributing to technologies that have a meaningful impact on patient care. This includes restoring function, monitoring neurological conditions, and enabling new therapeutic approaches.
We are seeking an experienced Analog Circuit Design Engineer with 7+ years of experience in custom mixed-signal circuit design, specifically focused on neural sensing and stimulation technologies for medical and implantable applications. Strong experience across the following areas is desired: design of ultra-low-power front-ends for sensing neural signals (EEG, EMG), high-efficiency stimulator output stages, power management architectures, data converters, low-noise and low-power amplifiers, RF wireless data transmission (FSK, ASK), and CT filters.
The ideal candidate will have experience supporting implantable hardware design and bioelectronics systems requiring high reliability, low power consumption, and compliance with medical safety standards. We value a quality-driven mindset, strong communication skills, and a startup-oriented approach—taking ownership, staying adaptable, and contributing wherever needed to move the work forward.

Open Position:
Richardson, TX (Hybrid)
Remote eligibility available for qualified candidates
Key Responsibilities:
• Design analog building blocks including PLLs, low-noise amplifiers, charge pumps, bandgaps, serial interfaces, ADC/DAC converters, DC regulators, analog filters, and ultra-low-power front-ends
• Develop high-efficiency stimulator output stages and power management architectures for advanced mixed-signal ASIC applications
• Run pre-tapeout verification flows to confirm designs meet performance, power, reliability, and timing requirements
• Collaborate with layout and digital teams to deliver high-quality mixed-signal SoCs, including physical design support and post-silicon validation planning
• Create and maintain project documentation and contribute to improving design flows and methodologies
• Lead and mentor junior engineers
Qualifications:
• MSEE/PhD with 3–10 years of experience or BSEE with 5–10 years of experience (MS or PhD preferred)
• Hands-on experience with analog and mixed-signal design including low-noise/low-power amplifiers, ADCs, DACs, LDOs, bandgaps, charge pumps, RF wireless transmission, and power management architectures
• Experience with medical, implantable, or bioelectronics systems is strongly preferred
• Proficient with Cadence custom circuit design tools such as ADE-L and ADE-XL and performing Monte Carlo, noise, aging, EM/IR drop, and stability simulations (Synopsys Custom Compiler experience is a plus)
• Strong experience with simulation tools such as Spectre, Hspice, and PrimeSim
• MATLAB, SystemVerilog, and Python experience preferred
• Capable of understanding DRC and LVS results using verification tools such as Calibre, ICV, or PVS
• Strong analytical and problem-solving skills with excellent attention to detail
• Self-starter capable of independently driving tasks to completion while collaborating effectively within cross-functional teams

About IC Enable:
For over 20 years, IC Enable has provided design IP, IC products, and platform solutions to customers ranging from startups to Fortune 50 companies. Our work spans high-reliability mixed-signal and digital systems, with deep expertise across semiconductor, medical, and defense applications.
We specialize in full-custom ASIC/SoC development and advanced technology platforms, tackling some of the most challenging fabrication processes and product requirements in the industry.
At IC Enable, our team is our most valuable asset. We look for individuals who are hungry, humble, and smart — and who are excited to grow with us.
IC Enable benefits include Medical, Dental, Vision and Ancillary benefits, 401K Plan with Company Match program.
IC Enable is an Equal Opportunity Employer.

IC Enable logo

About IC Enable

Sourced by ZipRecruiter

Industry

Semiconductor and electronic component manufacturing

Company size

51 - 200 Employees

Headquarters location

Dallas, TX, US

Year founded

2004