1. CMOS Multi-Purpose Sensor

Overview

Our CMOS Multi-Purpose Sensor represents a significant advancement in sensor technology, leveraging cutting-edge CMOS processes to offer versatile, high-accuracy detection capabilities for both gases and liquids. This sensor is designed to meet the rigorous demands of the oil, gas, and energy industries, providing reliable performance in a variety of challenging environments.

Technical Specifications

Key Features 

Multi-Gas Detection: Capable of detecting a range of gases including Methane (CH4), Carbon Dioxide (CO2), Hydrogen Sulfide (H2S), and more. This versatility makes it ideal for monitoring emissions and leaks in the energy sector.

Real-Time Monitoring: Offers real-time detection and monitoring, ensuring immediate response to leaks and operational issues.

Low Maintenance: Designed with no onsite calibration needs, reducing maintenance costs and downtime.

Cost-Effective: The sensor’s design allows for reduced manufacturing costs, making it an affordable option for various applications.

Scalability: Compact and portable, allowing for easy scalability and integration into various systems and processes.

Ease of Integration: Potentially integrates at the chip level for seamless incorporation into existing systems.

Compact Size: Small and portable, making it suitable for use in a wide range of applications, including portable devices.

Applications

Oil and Gas Industry: Monitoring and detection of hazardous gases to ensure safety and compliance with environmental regulations.

Industrial Processing: Real-time monitoring of gas concentrations in manufacturing and processing facilities.

Environmental Monitoring: Detection and quantification of emissions for regulatory compliance and environmental protection.

Advantages Over Traditional Sensors

Advanced Technology: Utilizes CMOS technology for high accuracy and reliability.

Easy Integration: Simple to integrate with existing systems, with no need for complex calibration.

Immediate Response: Fast response time for real-time data and quick decision-making.

Durability: Robust design ensures longevity and reliability under harsh conditions.

Energy Efficiency: Low power consumption makes it suitable for portable and remote applications.

2. Porous Silicon Sensor

Overview

The Porous Silicon Sensor developed by SeTePa is designed for high sensitivity and specificity in detecting gases and liquids. This sensor leverages the unique properties of porous silicon to achieve superior performance in industrial applications, particularly in the energy sector.

Key Features

High Sensitivity: The porous structure of the silicon provides a large surface area, enhancing the sensor’s ability to detect low concentrations of gases and liquids.

Specificity: Capable of distinguishing between different gases and liquids, reducing the likelihood of false positives.

Fast Response Time: Provides immediate feedback on the presence of target substances, crucial for safety and operational efficiency.

Robust Design: Built to withstand the demanding conditions of industrial environments, including temperature fluctuations and exposure to harsh chemicals.

Low Maintenance: Requires minimal maintenance, with no need for frequent calibration or servicing.

Applications

Gas Detection: Effective in detecting hazardous gases in the oil and gas industry, including Methane (CH4), Hydrogen Sulfide (H2S), and Carbon Monoxide (CO).

Liquid Detection: Suitable for monitoring liquids in various industrial processes, providing real-time data on the presence and concentration of target substances.

Environmental Safety: Used in environmental monitoring to detect and quantify pollutants, ensuring compliance with regulatory standards.

Advantages Over Traditional Sensors

Enhanced Sensitivity: The porous silicon structure increases the sensor’s surface area, improving its ability to detect low concentrations of gases and liquids.

Improved Specificity: Capable of accurately identifying specific gases and liquids, reducing the risk of false alarms.

Durability: Designed to operate reliably in harsh environments, maintaining performance under extreme conditions.

Cost-Effective: Low maintenance and operational costs make it a practical choice for continuous monitoring applications.

Energy Efficiency: Operates with low power consumption, suitable for integration into energy-efficient systems.

Technical Innovations

Nanostructured Surface: The sensor utilizes a nanostructured surface to increase sensitivity and specificity, providing more accurate detection of target substances.